From fc7c30e23d2501a6cff053cb3a2d22b127b7da4d Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Damiano=20Franz=C3=B2?= Date: Mon, 18 Aug 2025 15:59:00 +0200 Subject: [PATCH 1/6] adding notebook --- PINMachZenhder.ipynb | 60153 +++++++++++++++++++++++++++++++++++++++++ 1 file changed, 60153 insertions(+) create mode 100644 PINMachZenhder.ipynb diff --git a/PINMachZenhder.ipynb b/PINMachZenhder.ipynb new file mode 100644 index 00000000..0572c364 --- /dev/null +++ b/PINMachZenhder.ipynb @@ -0,0 +1,60153 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "id": "1d45055c-523f-46ab-8a09-b3f5e4796b1b", + "metadata": {}, + "source": [ + "# Introduction\n", + "\n", + "A Mach-Zehnder modulator is an optical device used to control the intensity of a light beam. It works by splitting a laser beam into two paths and then recombining them. By changing the properties of one or both paths, we can control whether the waves interfere constructively (bright output) or destructively (dark output), effectively turning the light on and off at very high speeds. This makes them ideal for encoding data onto light signals for fiber-optic communication. The \"PIN\" part refers to the P-type, Intrinsic, N-type semiconductor structure that is used to control the light paths. By applying a voltage across this PIN junction, we can change the refractive index of the material, which in turn changes the speed of light in that path, thus controlling the interference.\n", + "\n", + "The operation of the PIN diode generates heat, especially at high modulation speeds and power levels. This heat can significantly affect the performance of the modulator in several ways:\n", + "- Refractive Index Change: The refractive index of silicon is sensitive to temperature. The heat generated can change the refractive index of the waveguides, leading to a drift in the operating point of the modulator and affecting its performance.\n", + "- Carrier Mobility: The mobility of charge carriers (electrons and holes) in the semiconductor is also temperature-dependent. This affects the speed and efficiency of the modulator.\n", + "- Reliability: Excessive heat can lead to device degradation and failure over time.\n", + "By including the thermal aspect in our simulation, we can accurately predict the modulator's performance under realistic operating conditions, optimize its design for thermal stability, and ensure its long-term reliability. This multiphysics approach, combining both charge transport and heat transfer, provides a more complete and accurate picture of the device's behavior.\n", + "\n", + "This notebook demonstrates how to use Tidy3D's advanced multiphysics capabilities to perform a comprehensive simulation of a PIN Mach-Zehnder modulator, including both charge and heat transport. This notebook will guide you through setting up the geometry, defining the materials and their physical models, running the simulation, and analyzing the results. This specific version of the notebook uses the effective Density of States (DOS) model with temperature dependence." + ] + }, + { + "cell_type": "code", + "execution_count": 1, + "id": "550ea3ba-0d98-41d0-8a80-2724c51bdb67", + "metadata": {}, + "outputs": [], + "source": [ + "import tidy3d as td\n", + "import numpy as np\n", + "import matplotlib.pyplot as plt\n", + "# TODO remove\n", + "from tidy3d_backend.run_heat import run_heat_sim\n", + "import tidy3d_backend\n", + "import pandas as pd\n", + "\n", + "import scipy as sp\n", + "import h5py\n", + "import subprocess" + ] + }, + { + "cell_type": "markdown", + "id": "b6104a8c-6ecb-46f7-aa67-4ba111ba01ab", + "metadata": {}, + "source": [ + "Here, we define the geometric parameters for the different components of the Mach-Zehnder modulator. This includes the pad, rib, silicon-on-insulator (SOI) box, cathode, and anode. The dimensions and centers of these components are defined in micrometers." + ] + }, + { + "cell_type": "code", + "execution_count": 2, + "id": "9e6b4fd6-39c7-4287-bc83-a9dc64f472dd", + "metadata": {}, + "outputs": [], + "source": [ + "z_size = 4 # µm\n", + "\n", + "# pad size\n", + "pad_center = (0, -0.045, 0)\n", + "x_pad_w = 5\n", + "y_pad_h = 0.09\n", + "pad_size = (x_pad_w, y_pad_h, z_size)\n", + "\n", + "# rib size\n", + "rib_center = (0, 0.11, 0)\n", + "x_rib_w = 0.5\n", + "y_rib_h = 0.22\n", + "rib_size = (x_rib_w, y_rib_h, z_size)\n", + "\n", + "# enclosing box + sox\n", + "soxbox_center = (0, -0.545, 0)\n", + "y_soxbox_h = 3.09\n", + "x_box_w = 5\n", + "soxbox_size = (x_box_w, y_soxbox_h, z_size)\n", + "\n", + "# cathode\n", + "cathode_center = (-2.25, 0.25, 0)\n", + "y_cathode_h = 0.5\n", + "x_cathode_w = 0.5\n", + "cathode_size = (x_cathode_w, y_cathode_h, z_size)\n", + "\n", + "# anode\n", + "anode_center = (2.25, 0.25, 0)\n", + "y_cathode_h = 0.5\n", + "x_anode_w = 0.5\n", + "anode_size = (x_anode_w, y_cathode_h, z_size)" + ] + }, + { + "cell_type": "markdown", + "id": "1a47366c-eb62-49a3-876e-af943905d864", + "metadata": {}, + "source": [ + "# Doping and Materials\n", + "This section defines the doping profiles and the physical properties of the materials used in the simulation.\n", + "\n", + "Doping Profiles\n", + "- `Constant Doping`: A constant acceptor doping concentration is defined for the p-type epitaxial (pepi) layer.\n", + "- `Gaussian Doping`: Gaussian doping profiles are used for the n+, p+, n-well, and p-well regions. These profiles are defined with specific centers, sizes, concentrations, reference concentrations, and junction widths. The source parameter in `GaussianDoping` specifies the direction from which the doping is introduced." + ] + }, + { + "cell_type": "code", + "execution_count": 3, + "id": "07325445-0b1b-4d9e-85c3-8f37629cc25c", + "metadata": {}, + "outputs": [], + "source": [ + "# pepi\n", + "conc_cst = 1e15\n", + "acceptor_cst_doping = td.ConstantDoping(center=(0, -1, 0), size=(5.4, 4, 4), concentration=conc_cst)\n", + "\n", + "junction_width_01 = 1e-1\n", + "junction_width_02 = 2e-1\n", + "\n", + "# nplus\n", + "conc_nplus = 2e18\n", + "refconc_nplus = 1e8\n", + "donor_nplus_center = (-1.5, 0, 0)\n", + "donor_nplus_size = (2., 2, z_size)\n", + "donor_nplus_doping = td.GaussianDoping(center=donor_nplus_center, size=donor_nplus_size,\n", + " concentration=conc_nplus, ref_con=refconc_nplus, width=junction_width_01, source=\"ymax\")\n", + "\n", + "# pplus\n", + "conc_pplus = 2e18\n", + "refconc_pplus = 1e8\n", + "acceptor_pplus_center = (1.5, 0, 0)\n", + "acceptor_pplus_size = (2., 2, z_size)\n", + "acceptor_pplus_doping = td.GaussianDoping(center=acceptor_pplus_center, size=acceptor_pplus_size,\n", + " concentration=conc_pplus, ref_con=refconc_pplus, width=junction_width_01, source=\"ymax\")\n", + "\n", + "# nwell\n", + "conc_nwell = 1e20\n", + "refconc_nplus = 1e8\n", + "donor_nwell_center = (-1.8, -0.49995, 0)\n", + "donor_nwell_size = (1.4, 1.0001, z_size)\n", + "donor_nwell_doping = td.GaussianDoping(center=donor_nwell_center, size=donor_nwell_size,\n", + " concentration=conc_nwell, ref_con=refconc_nplus, width=junction_width_02, source=\"ymax\")\n", + "\n", + "# pwell\n", + "conc_pwell = 1e20\n", + "refconc_pwell = 1e8\n", + "acceptor_pwell_center = (1.8, -0.5, 0)\n", + "acceptor_pwell_size = (1.4, 1.0001, z_size)\n", + "acceptor_pwell_doping = td.GaussianDoping(center=acceptor_pwell_center, size=acceptor_pwell_size,\n", + " concentration=conc_pwell, ref_con=refconc_pwell, width=junction_width_02, source=\"ymax\")" + ] + }, + { + "cell_type": "markdown", + "id": "c8bc6ac5-95f8-4b0b-83e1-0ed4aced0424", + "metadata": {}, + "source": [ + "## Mobility models Models\n", + "To accurately model the semiconductor behavior, we use several advanced physical models:\n", + "\n", + "- **Caughey-Thomas Mobility**: This model is used to describe the carrier mobility as a function of doping concentration and temperature for both electrons (mobility_n) and holes (mobility_p).\n", + "- **Fossum Carrier Lifetime**: The FossumCarrierLifetime model is used to define the carrier lifetime for electrons (fossum_n) and holes (fossum_p) which is dependent on the doping concentration.\n", + "- **Slotboom Bandgap Narrowing**: This model accounts for the reduction in the bandgap energy at high doping concentrations.\n", + "- **Isotropic Effective Density of States (DOS)**: A novel feature, `IsotropicEffectiveDOS`, is used to model the effective density of states for the conduction band (`N_c`) and valence band (`N_v`) based on the effective mass of the carriers. This is an alternative to using a constant value.\n", + "- **Varshni Energy Bandgap**: The VarshniEnergyBandGap model is used to describe the temperature dependence of the bandgap energy (Eg)." + ] + }, + { + "cell_type": "markdown", + "id": "107f5726-c11e-47ef-a978-5e64c9302d64", + "metadata": {}, + "source": [ + "### Media\n", + "\n", + "We define `MultiPhysicsMedium` objects to combine both the electrical (charge) and thermal (heat) properties of the materials.\n", + "\n", + "- **Si_doping**: A `MultiPhysicsMedium` representing the doped silicon, incorporating the charge properties defined in `si_charge` and the thermal properties (conductivity and capacity) of silicon.\n", + "- **SiO2**: Represents the **silicon dioxide** with its insulator and thermal properties.\n", + "- **Al**: Represents the **aluminum** contacts with their conductor and thermal properties.\n", + "- **air** and contact media: These are defined as `FluidMedium` for the thermal simulations." + ] + }, + { + "cell_type": "code", + "execution_count": 4, + "id": "b3b246c7-50fd-47cd-871b-ea1939f0d47d", + "metadata": {}, + "outputs": [], + "source": [ + "mobility_n=td.CaugheyThomasMobility(\n", + " mu_min=52.2,\n", + " mu=1471.0,\n", + " ref_N=9.68e16,\n", + " exp_N=0.68,\n", + " exp_1=-0.57,\n", + " exp_2=-2.33,\n", + " exp_3=2.4,\n", + " exp_4=-0.146,\n", + ")\n", + "mobility_p=td.CaugheyThomasMobility(\n", + " mu_min=44.9,\n", + " mu=470.5,\n", + " ref_N=2.23e17,\n", + " exp_N=0.719,\n", + " exp_1=-0.57,\n", + " exp_2=-2.23,\n", + " exp_3=2.4,\n", + " exp_4=-0.146,\n", + ")\n", + "\n", + "alpha = 1\n", + "beta = 0\n", + "gamma = 1\n", + "sigma = 1\n", + "tau_n = 1e-7\n", + "tau_p = 2e-7\n", + "fossum_n = td.FossumCarrierLifetime(N0=7.1e15, A=alpha, B=beta, C=gamma, tau_300=tau_n, alpha=sigma, alpha_T=0)\n", + "fossum_p = td.FossumCarrierLifetime(N0=7.1e15, A=alpha, B=beta, C=gamma, tau_300=tau_p, alpha=sigma, alpha_T=0)\n", + "\n", + "ni = 1 #Useless in this formulation\n", + "narrowing = td.SlotboomBandGapNarrowing(c2=0.5, n2=1e17, v1=0.0045*2, min_N=ni)\n", + "\n", + "# Temperature dependent Eff. DOS\n", + "N_c_isotropic = td.IsotropicEffectiveDOS(m_eff=0.8)\n", + "N_v_isotropic = td.IsotropicEffectiveDOS(m_eff=1.3)\n", + "Eg_Varshni = td.VarshniEnergyBandGap(eg_0=1.16, alpha=7.02e-4, beta=1108)\n", + "\n", + "# Temperature independent\n", + "N_c_cst = td.ConstantEffectiveDOS(N=N_c_isotropic.calc_eff_dos(T=300))\n", + "N_v_cst = td.ConstantEffectiveDOS(N=N_v_isotropic.calc_eff_dos(T=300))\n", + "Eg_cst = td.ConstantEnergyBandGap(eg=1.12)\n", + "\n", + "si_charge = td.SemiconductorMedium(\n", + " permittivity=11.7,\n", + " N_c=N_c_isotropic,\n", + " N_v=N_v_isotropic,\n", + " E_g = Eg_Varshni,\n", + " N_d = [donor_nplus_doping, donor_nwell_doping],\n", + " N_a = [acceptor_cst_doping, acceptor_pplus_doping, acceptor_pwell_doping],\n", + " mobility_n=mobility_n,\n", + " mobility_p=mobility_p,\n", + " R=[\n", + " td.ShockleyReedHallRecombination(tau_n=fossum_n, tau_p=fossum_p),\n", + " td.RadiativeRecombination(r_const=1.6e-14),\n", + " td.AugerRecombination(c_n=2.8e-31, c_p=9.9e-32),\n", + " ],\n", + " delta_E_g=narrowing\n", + ")\n", + "\n", + "## -- MATERIALS\n", + "si_capacity = 711\n", + "sio2_capacity = 709\n", + "al_capacity = 902\n", + "\n", + "si_conductivity = 148 * 1e-6 # W/(µm*K)\n", + "sio2_conductivity = 1.38 * 1e-6 # W/(µm*K)\n", + "al_conductivity = 236 * 1e-6 # W/(µm*K)\n", + "\n", + "Si_doping = td.MultiPhysicsMedium(\n", + " charge=si_charge,\n", + " heat=td.SolidMedium(conductivity=si_conductivity, capacity=si_capacity),\n", + " name=\"Si_doping\",\n", + ")\n", + "\n", + "# define semiconductor materials\n", + "SiO2 = td.MultiPhysicsMedium(\n", + " charge=td.ChargeInsulatorMedium(permittivity=3.9),\n", + " heat=td.SolidMedium(conductivity=sio2_conductivity * 1, capacity=sio2_capacity),\n", + " name=\"SiO2\",\n", + ")\n", + "\n", + "# define semiconductor materials\n", + "Al = td.MultiPhysicsMedium(\n", + " charge=td.ChargeConductorMedium(conductivity=3.5e7 * 1e-6),\n", + " heat=td.SolidMedium(conductivity=al_conductivity, capacity=al_capacity),\n", + " name=\"Al\",\n", + ")\n", + "\n", + "air = td.MultiPhysicsMedium(\n", + " heat=td.FluidMedium(),\n", + " name=\"air\"\n", + ")\n", + "\n", + "contact_medium_left = td.Medium(\n", + " heat_spec=td.FluidMedium(),\n", + " name=\"contact_medium_left\"\n", + ")\n", + "\n", + "contact_medium_right = td.Medium(\n", + " heat_spec=td.FluidMedium(),\n", + " name=\"contact_medium_right\"\n", + ")\n", + "\n", + "contact_medium_bottom = td.Medium(\n", + " heat_spec=td.FluidMedium(),\n", + " name=\"contact_medium_bottom\"\n", + ")\n", + "\n", + "contact_medium_top = td.Medium(\n", + " heat_spec=td.FluidMedium(),\n", + " name=\"contact_medium_top\"\n", + ")" + ] + }, + { + "cell_type": "markdown", + "id": "8ecc95c6-0995-4ba6-a573-a165be32649d", + "metadata": {}, + "source": [ + "## Geometries and Scene\n", + "The geometries defined earlier are used to create Structure objects. Each structure is assigned a medium that defines its physical properties. The collection of all these structures is then used to create a Scene which represents the complete simulation domain. The scene is plotted to visualize the geometry and the doping profile. The first plot shows the different materials in the scene, and the second plot shows the doping concentration across the device." + ] + }, + { + "cell_type": "code", + "execution_count": 5, + "id": "808b1a2a-23e6-4bb0-8e4d-9ca7a921f8e7", + "metadata": {}, + "outputs": [], + "source": [ + "## -- GEOMETRIES\n", + "pad_structure = td.Structure(\n", + " geometry=td.Box(center=pad_center, size=pad_size),\n", + " medium=Si_doping,\n", + " name=\"pad\",\n", + ")\n", + "rib_structure = td.Structure(\n", + " geometry=td.Box(center=rib_center, size=rib_size),\n", + " medium=Si_doping,\n", + " name=\"rib\",\n", + ")\n", + "\n", + "soxbox_structure = td.Structure(\n", + " geometry=td.Box(center=soxbox_center, size=soxbox_size),\n", + " medium=SiO2,\n", + " name=\"soxbox\",\n", + ")\n", + "\n", + "cathode_structure = td.Structure(\n", + " geometry=td.Box(center=cathode_center, size=cathode_size),\n", + " medium=Al,\n", + " name=\"cathode\",\n", + ")\n", + "\n", + "anode_structure = td.Structure(\n", + " geometry=td.Box(center=anode_center, size=anode_size),\n", + " medium=Al,\n", + " name=\"anode\",\n", + ")\n", + "\n", + "cb_thick = 0.5\n", + "contact_bottom = td.Structure(\n", + " geometry=td.Box(center=(0, -2 -y_pad_h - cb_thick/2, 0), size=(x_pad_w, cb_thick, 4)),\n", + " medium=contact_medium_bottom,\n", + " name=\"contact_bottom\",\n", + ")\n", + "\n", + "def createStructure(pad, rib):\n", + " structures = [\n", + " contact_bottom,\n", + " soxbox_structure,\n", + " cathode_structure,\n", + " anode_structure,\n", + " pad,\n", + " rib]\n", + " return structures\n", + " \n", + "structures = createStructure(pad_structure, rib_structure)" + ] + }, + { + "cell_type": "markdown", + "id": "0fcf81f6-a394-4337-9770-51e9b68da05d", + "metadata": {}, + "source": [ + "Create a temperature independent density of state model by using`updated_copy` on existing classes" + ] + }, + { + "cell_type": "code", + "execution_count": 6, + "id": "84803c45-8533-4b1c-9af5-ad8880fff33b", + "metadata": {}, + "outputs": [], + "source": [ + "# Temperature independent DOS\n", + "si_charge_cst = si_charge.updated_copy(N_c=N_c_cst, N_v=N_v_cst, E_g=Eg_cst)\n", + "Si_doping_cst = Si_doping.updated_copy(charge=si_charge_cst)\n", + "pad_structure_cst = pad_structure.updated_copy(medium=Si_doping_cst)\n", + "rib_structure_cst = rib_structure.updated_copy(medium=Si_doping_cst)\n", + "structures_cst = createStructure(pad_structure_cst, rib_structure_cst)" + ] + }, + { + "cell_type": "code", + "execution_count": 7, + "id": "bec6d909-74c5-4887-86a5-af11b0bd0ced", + "metadata": {}, + "outputs": [], + "source": [ + "# create scene\n", + "scene = td.Scene(\n", + " structures=structures,\n", + " medium=air\n", + ")\n", + "# create scene\n", + "scene_cst = td.Scene(\n", + " structures=structures_cst,\n", + " medium=air\n", + ")" + ] + }, + { + "cell_type": "code", + "execution_count": 8, + "id": "5b5f1cc7-5d04-4030-ac8b-4b2b37cc61dd", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "_, ax = plt.subplots(1, 2, figsize=(14, 5))\n", + "\n", + "fig1 = scene.plot(z=0, ax=ax[0])\n", + "fig2 = scene.plot_structures_property(z=0, property=\"doping\", ax=ax[1])\n", + "plt.show()" + ] + }, + { + "cell_type": "markdown", + "id": "4ff2ebd9-8945-4441-b26e-4b248a37cb35", + "metadata": {}, + "source": [ + "## Doping Profile Visualization\n", + "These plots provide a more detailed view of the doping concentration in the device. The four plots show the doping concentration with different color limits to highlight the p-type and n-type doping regions and their magnitudes." + ] + }, + { + "cell_type": "code", + "execution_count": 9, + "id": "a8a035e7-98d2-4f2a-8a54-b1cbe7666bdd", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "_, ax = plt.subplots(2,2, figsize=(14, 10))\n", + "fig1 = scene.plot_structures_property(z=0, property=\"doping\", ax=ax[0][0],limits=[-1e20, 1e20])\n", + "fig2 = scene.plot_structures_property(z=0, property=\"doping\", ax=ax[0][1],limits=[-1e18, 1e18])\n", + "fig3 = scene.plot_structures_property(z=0, property=\"doping\", ax=ax[1][0],limits=[0, 1e15])\n", + "fig4 = scene.plot_structures_property(z=0, property=\"doping\", ax=ax[1][1],limits=[-1e20, 0])" + ] + }, + { + "cell_type": "markdown", + "id": "fd0f4941-ab26-4fa0-9c91-45909bff1b19", + "metadata": {}, + "source": [ + "## Boundary Conditions\n", + "This section sets up the boundary conditions for the simulation.\n", + "- Charge Boundary Conditions: `HeatChargeBoundarySpec` is used to define the electrical boundary conditions. DC voltage sources are applied to the cathode and anode. The anode voltage is swept through a list of values from 0.5 to 1.2 Volt.\n", + "- Thermal Boundary Conditions: `HeatBoundarySpec` is used to define the thermal boundary conditions. Temperature boundary conditions are set at the interfaces between different structures. Temperature at electrodes is artifically increased up to 50 degress to showcase different simulation results between isothermal and non-isothermal analysis." + ] + }, + { + "cell_type": "code", + "execution_count": 10, + "id": "aff6d1ab-966f-43d9-9439-06e0f1bb3cbd", + "metadata": {}, + "outputs": [], + "source": [ + "# cathode\n", + "voltages_cathode = [0]\n", + "bc_p = td.HeatChargeBoundarySpec(\n", + " condition=td.VoltageBC(source=td.DCVoltageSource(voltage=voltages_cathode)),\n", + " placement=td.StructureStructureInterface(structures=[\"cathode\", \"pad\"])\n", + ")\n", + "\n", + "voltages_anode = [0] +[0.5 + round((1/20)*x,5) for x in range(17)]\n", + "# anode\n", + "bc_n = td.HeatChargeBoundarySpec(\n", + " condition=td.VoltageBC(source=td.DCVoltageSource(voltage=voltages_anode)),\n", + " placement=td.StructureStructureInterface(structures=[\"anode\", \"pad\"])\n", + ")\n", + "charge_bcs = [bc_n, bc_p]\n", + "\n", + "# Ambient temperature for the heat sink model\n", + "temperature = 300\n", + "temperature_electrodes = 350\n", + "\n", + "# cathode\n", + "bc3 = td.HeatBoundarySpec(\n", + " condition=td.TemperatureBC(temperature=temperature_electrodes),\n", + " placement=td.StructureStructureInterface(structures=[\"cathode\", \"pad\"]),\n", + ")\n", + "# anode\n", + "bc4 = td.HeatBoundarySpec(\n", + " condition=td.TemperatureBC(temperature=temperature_electrodes),\n", + " placement=td.StructureStructureInterface(structures=[\"anode\", \"pad\"]),\n", + ")\n", + "\n", + "bc3a = td.HeatBoundarySpec(\n", + " condition=td.TemperatureBC(temperature=temperature_electrodes),\n", + " placement=td.StructureStructureInterface(structures=[\"cathode\", \"soxbox\"]),\n", + ")\n", + "# anode\n", + "bc4a = td.HeatBoundarySpec(\n", + " condition=td.TemperatureBC(temperature=temperature_electrodes),\n", + " placement=td.StructureStructureInterface(structures=[\"anode\", \"soxbox\"]),\n", + ")\n", + "# box\n", + "bc5 = td.HeatBoundarySpec(\n", + " condition=td.TemperatureBC(temperature=temperature),\n", + " placement=td.StructureStructureInterface(structures=[\"soxbox\", \"contact_bottom\"])\n", + ")\n", + "thermal_bcs = [bc3, bc4, bc3a, bc4a, bc5]" + ] + }, + { + "cell_type": "markdown", + "id": "65bd88f8-95e7-433d-bb11-de480a6c955b", + "metadata": {}, + "source": [ + "## Monitors\n", + "Monitors are used to record the simulation results at different points in the simulation domain.\n", + "\n", + "- `SteadyFreeCarrierMonitor`: Records the steady-state free carrier concentration.\n", + "- `SteadyPotentialMonitor`: Records the steady-state electric potential.\n", + "- `SteadyCapacitanceMonitor`: Records the capacitance of the device.\n", + "- `TemperatureMonitor`: Records the temperature distribution." + ] + }, + { + "cell_type": "code", + "execution_count": 11, + "id": "ef5b3741-f3eb-4a4b-a136-6dd0629389ed", + "metadata": {}, + "outputs": [], + "source": [ + "# monitors\n", + "charge_global_mnt = td.SteadyFreeCarrierMonitor(\n", + " center=(0, 0, 0), size=(td.inf, td.inf, td.inf), name=\"charge_global_mnt\", unstructured=True\n", + ")\n", + "\n", + "potential_global_mnt = td.SteadyPotentialMonitor(\n", + " center=(0, 0, 0), size=(td.inf, td.inf, td.inf), name=\"potential_global_mnt\", unstructured=True\n", + ")\n", + "\n", + "capacitance_global_mnt = td.SteadyCapacitanceMonitor(\n", + " center=(0, 0, 0), size=(td.inf, td.inf, td.inf), name=\"capacitance_global_mnt\", unstructured=True\n", + ")\n", + "\n", + "temp_mnt = td.TemperatureMonitor(\n", + " center=(0, 0, 0), size=(td.inf, td.inf, td.inf), name=\"temp_mnt\", unstructured=True\n", + ")\n", + "\n", + "monitors = [charge_global_mnt, potential_global_mnt, capacitance_global_mnt, temp_mnt]\n", + "monitors_iso = [charge_global_mnt, potential_global_mnt, capacitance_global_mnt]" + ] + }, + { + "cell_type": "markdown", + "id": "9ea4647a-2e28-45a9-b2df-4df3444125ec", + "metadata": {}, + "source": [ + "## Simulation Setup\n", + "- Charge Tolerance: `ChargeToleranceSpec` sets the convergence criteria for the charge solver.\n", + "- Analysis Type: `SteadyChargeDCAnalysis` specifies a steady-state direct current (DC) analysis. The fermi_dirac=True argument indicates that Fermi-Dirac statistics should be used, which is more accurate for heavily doped semiconductors.\n", + "- Grid Specification: `DistanceUnstructuredGrid` is used to create a non-uniform mesh for the simulation. The mesh is refined in specific regions of interest using GridRefinementRegion to improve accuracy where needed, such as near the junctions." + ] + }, + { + "cell_type": "code", + "execution_count": 12, + "id": "422a1ff6-f855-4f83-9ede-2161c629d4d7", + "metadata": {}, + "outputs": [], + "source": [ + "charge_tolerance = td.ChargeToleranceSpec(rel_tol=1e-4, abs_tol=1e16, max_iters=400, ramp_up_iters=5)\n", + "analysis_type_iso = td.IsothermalSteadyChargeDCAnalysis(tolerance_settings=charge_tolerance,\n", + " convergence_dv=0.1,\n", + " fermi_dirac=False,\n", + " temperature=300)\n", + "analysis_type = td.SteadyChargeDCAnalysis(tolerance_settings=charge_tolerance,convergence_dv=0.1,fermi_dirac=False)" + ] + }, + { + "cell_type": "markdown", + "id": "ad6a4d73-d4ff-42b1-92c4-70277fb8a139", + "metadata": {}, + "source": [ + "Here we can **manually** define the regions that require a finer mesh. This is particularly useful for resolving small features or areas where fields are expected to vary rapidly, without the computational cost of making the entire grid uniformly fine. In particular, an higher refinement is applied\n", + "- In the region where the doping concentration changes rapidly.\n", + "- In the proximity of corners (between the pad and the rib) to address singular fields.\n", + "\n", + "Below it is shown an example on how the local refined mesh might look like. Automatic refinement will be featured in future versions of Tidy3D.\n", + "\n", + "![Local_refinement](img/local_refinement.png \"Local refinement visualization\")" + ] + }, + { + "cell_type": "code", + "execution_count": 13, + "id": "0dd7233b-6b79-4175-ac5e-80532e315eb4", + "metadata": {}, + "outputs": [], + "source": [ + "dl = 0.025\n", + "dl_ref = dl / 6\n", + "box_width = 0.12\n", + "\n", + "# Interface between nwell and the rightmost side (not doped)\n", + "ref1 = td.GridRefinementRegion(\n", + " center=(-2.35, -0.045, 0),\n", + " size=(box_width, 0.1, 0),\n", + " dl_internal=dl_ref,\n", + " transition_thickness=dl * 20,\n", + ")\n", + "\n", + "# Interface between pwell and the rightmost side (not doped)\n", + "ref2 = td.GridRefinementRegion(\n", + " center=(2.35, -0.045, 0),\n", + " size=(box_width, 0.1, 0),\n", + " dl_internal=dl_ref,\n", + " transition_thickness=dl * 20,\n", + ")\n", + "\n", + "# refinement around the corner (left)\n", + "ref3 = td.GridRefinementRegion(\n", + " center=(-0.25, -0.045, 0),\n", + " size=(box_width, 0.1, 0),\n", + " dl_internal=dl_ref,\n", + " transition_thickness=dl * 20,\n", + ")\n", + "\n", + "# refinement around the corner (right)\n", + "ref4 = td.GridRefinementRegion(\n", + " center=(0.25, -0.045, 0),\n", + " size=(box_width, 0.1, 0),\n", + " dl_internal=dl_ref,\n", + " transition_thickness=dl * 20,\n", + ")\n", + "\n", + "# Interface between pepi and nplus\n", + "ref5 = td.GridRefinementRegion(\n", + " center=(-1.25, -0.045, 0),\n", + " size=(box_width, 0.1, 0),\n", + " dl_internal=dl_ref,\n", + " transition_thickness=dl * 20,\n", + ")\n", + "\n", + "# Interface between pepi and pplus\n", + "ref6 = td.GridRefinementRegion(\n", + " center=(1.25, -0.045, 0),\n", + " size=(box_width, 0.1, 0),\n", + " dl_internal=dl_ref,\n", + " transition_thickness=dl * 20,\n", + ")\n", + "\n", + "# Build a grid specification with all these custom refinements\n", + "grid_spec = td.DistanceUnstructuredGrid(\n", + " relative_min_dl=0, \n", + " dl_interface=dl, \n", + " dl_bulk=20*dl, \n", + " distance_interface=2*dl, \n", + " distance_bulk=6*dl, \n", + " sampling=1000, \n", + " non_refined_structures=[\"soxbox\"], \n", + " uniform_grid_mediums=[\"Si_doping\"],\n", + " mesh_refinements=[ref1, ref2, ref3, ref4, ref5, ref6]\n", + ")" + ] + }, + { + "cell_type": "code", + "execution_count": 14, + "id": "1bd8666d-aaf6-4657-9eeb-754f85515316", + "metadata": { + "scrolled": true + }, + "outputs": [], + "source": [ + "sim_center = (0, -0.545, 0)\n", + "sim_size = (4.8, 3.5, 0)\n", + "\n", + "def createSim(structures, bcs, analysis_t):\n", + " sim = td.HeatChargeSimulation(\n", + " medium=air,\n", + " structures=structures,\n", + " size=sim_size,\n", + " center=sim_center,\n", + " boundary_spec=bcs,\n", + " analysis_spec=analysis_t,\n", + " monitors=monitors,\n", + " grid_spec=grid_spec\n", + " )\n", + " return sim\n", + "\n", + "sim = createSim(structures, charge_bcs + thermal_bcs, analysis_type)\n", + "sim_cst = createSim(structures_cst, charge_bcs + thermal_bcs, analysis_type)\n", + "sim_iso = createSim(structures_cst, charge_bcs, analysis_type_iso)" + ] + }, + { + "cell_type": "code", + "execution_count": 15, + "id": "eeeb6492-5132-4dbf-bea9-7f25431e57be", + "metadata": { + "scrolled": true + }, + "outputs": [ + { + "data": { + "image/png": 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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "_, ax = plt.subplots(1, 2, figsize=(10, 4))\n", + "fig1 = sim.plot_property(z=0, property=\"heat_conductivity\", ax=ax[0])\n", + "fig2 = sim.plot_property(z=0, property=\"electric_conductivity\", ax=ax[1])\n", + "plt.tight_layout()" + ] + }, + { + "cell_type": "code", + "execution_count": null, + "id": "fc882d41-2048-473b-9109-d8ef0e2594a2", + "metadata": { + "scrolled": true + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m815\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mSetting up heat-charge simulation.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m 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"\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m880\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a Box.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m889\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a single structure:\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m897\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a Box.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m907\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: 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"\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m974\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd adding structures to mesh.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m981\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing refinement region.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m991\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd processing refinement region.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m 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"\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m035\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing refinement region.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m044\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd processing refinement region.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m053\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing refinement region.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m 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"\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m096\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd adding monitors.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m105\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin combining added structures.\u001b[0m \n", + "Debug : BOOL (2,1) other \n", + "Debug : BOOL (3,1) replaced by 1\n", + "Debug : BOOL (3,2) other\n", + "Debug : BOOL (3,3) replaced by 1\n", + "Debug : BOOL (3,4) replaced by 1\n", + "Debug : BOOL (3,5) replaced by 1\n", + "Debug : BOOL (3,6) other\n", + "Debug : BOOL (2,38) other\n", + "Debug : BOOL (2,39) other\n", + "Debug : BOOL (2,40) other\n", + "Debug : BOOL (2,41) other\n", + "Debug : BOOL (2,42) other\n", + "Debug : BOOL (2,43) other\n", + "Debug : BOOL (2,44) other\n", + "Debug : BOOL (2,45) other\n", + "Debug : BOOL (2,46) other\n", + "Debug : BOOL (2,47) other\n", + "Debug : BOOL (2,48) other\n", + "Debug : BOOL (2,49) other\n", + "Debug : BOOL in (2,1) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", + "Debug : BOOL in (3,1) -> out (3,1)\n", + "Debug : BOOL in (3,2) -> out (3,6) (3,5) (3,3) (3,7) (3,8) (3,4) (3,9)\n", + "Debug : BOOL in (3,3) -> out (3,3)\n", + "Debug : BOOL in (3,4) -> out (3,4)\n", + "Debug : BOOL in (3,5) -> out (3,5)\n", + "Debug : BOOL in (3,6) -> out (3,9) (3,8)\n", + "Debug : BOOL in (2,38) -> out (2,13) (2,48) (2,49)\n", + "Debug : BOOL in (2,39) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", + "Debug : BOOL in (2,40) -> out (2,8) (2,51) (2,54)\n", + "Debug : BOOL in (2,41) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", + "Debug : BOOL in (2,42) -> out (2,11) (2,60) (2,37) (2,43)\n", + "Debug : BOOL in (2,43) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", + "Debug : BOOL in (2,44) -> out (2,10) (2,63) (2,44) (2,38)\n", + "Debug : BOOL in (2,45) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", + "Debug : BOOL in (2,46) -> out (2,12) (2,53) (2,36)\n", + "Debug : BOOL in (2,47) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", + "Debug : BOOL in (2,48) -> out (2,9) (2,58) (2,39)\n", + "Debug : BOOL in (2,49) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m194\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd adding structures to mesh.\u001b[0m \n", + "Debug : Syncing OCC_Internals with GModel\n", + "Debug : Sync is removing 377 model entities\n", + "Debug : Destroying 0 entities in model\n", + "Debug : OCCRTree found 3 matches at (-2.5,-2.09,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 3 matches at (-2.5,-2.09,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 3 matches at (-2.5,-2.09,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 3 matches at (-2.5,-2.09,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 3 matches at (-2.5,-2.09,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 3 matches at (-2.5,-2.09,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 3 matches at (2.5,-2.09,-0.55) in tree of 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size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 8 matches at (-2.4,-2.295,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 8 matches at (-2.4,-2.295,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 8 matches at (-2.4,-2.295,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.29,0,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.29,0,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.29,0,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.4,0,0) in tree of size 654\n", + "Debug : 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654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-1.19,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-1.19,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (2.4,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (2.4,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (2.4,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.345,0.005,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.345,0.005,0) in tree of size 654\n", 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OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (2.4,0.2525,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (2.4,0.2525,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (1.19,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (1.19,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (1.19,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (2.4,1.1025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (2.4,1.1025,0) in tree of size 654\n", + "Debug : OCCRtree 0 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bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-0.19,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-0.19,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-0.19,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0.31,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0.31,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0.31,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0.19,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0.19,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0.19,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-2.5,-2.47,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-2.5,-2.47,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-2.5,-2.47,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-2.5,-2.28,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-2.5,-2.28,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-2.5,-2.28,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-2.5,-2.28,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-2.5,-2.28,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-2.5,-2.28,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0,-2.47,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0,-2.47,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0,-2.47,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-2.47,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-2.47,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-2.47,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0,-2.47,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0,-2.47,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0,-2.47,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-2.28,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-2.28,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-2.28,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-2.28,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-2.28,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-2.28,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-0.045,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-0.045,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-0.045,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,0.25,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,0.25,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,0.25,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,0.25,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,0.25,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,0.25,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 7 - new wire\n", + "Debug : Curve 8 (7 --> 8) ori 1\n", + "Debug : Curve 42 (8 --> 34) ori 1\n", + "Debug : Curve 41 (33 --> 34) ori -1\n", + "Debug : Curve 40 (11 --> 33) ori -1\n", + "Debug : Curve 14 (13 --> 11) ori -1\n", + "Debug : Curve 39 (32 --> 13) ori -1\n", + "Debug : Curve 38 (31 --> 32) ori -1\n", + "Debug : Curve 37 (14 --> 31) ori -1\n", + "Debug : Curve 16 (15 --> 14) ori -1\n", + "Debug : Curve 36 (30 --> 15) ori -1\n", + "Debug : Curve 35 (29 --> 30) ori -1\n", + "Debug : Curve 34 (16 --> 29) ori -1\n", + "Debug : Curve 18 (17 --> 16) ori -1\n", + "Debug : Curve 33 (28 --> 17) ori -1\n", + "Debug : Curve 32 (27 --> 28) ori -1\n", + "Debug : Curve 31 (18 --> 27) ori -1\n", + "Debug : Curve 20 (19 --> 18) ori -1\n", + "Debug : Curve 30 (26 --> 19) ori -1\n", + "Debug : Curve 29 (25 --> 26) ori -1\n", + "Debug : Curve 28 (20 --> 25) ori -1\n", + "Debug : Curve 22 (21 --> 20) ori -1\n", + "Debug : Curve 27 (24 --> 21) ori -1\n", + "Debug : Curve 26 (23 --> 24) ori -1\n", + "Debug : Curve 25 (23 --> 7) ori 1\n", + "Debug : OCC surface 7 with 24 parameter bounds (-2.4,2.4)(-1.545,0.455)\n", + "Debug : OCCRTree found 1 matches at (0,-1.09,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,-1.09,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,-1.09,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 8 - new wire\n", + "Debug : Curve 43 (22 --> 23) ori 1\n", + "Debug : Curve 26 (23 --> 24) ori 1\n", + "Debug : Curve 27 (24 --> 21) ori 1\n", + "Debug : Curve 23 (22 --> 21) ori -1\n", + "Debug : OCC surface 8 with 4 parameter bounds (-2.4,-2.29)(0.45,0.455)\n", + "Debug : OCCRTree found 1 matches at (2.345,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (2.345,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (2.345,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 9 - new wire\n", + "Debug : Curve 21 (20 --> 19) ori -1\n", + "Debug : Curve 28 (20 --> 25) ori 1\n", + "Debug : Curve 29 (25 --> 26) ori 1\n", + "Debug : Curve 30 (26 --> 19) ori 1\n", + "Debug : OCC surface 9 with 4 parameter bounds (-1.31,-1.19)(0.45,0.455)\n", + "Debug : OCCRTree found 1 matches at (1.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (1.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (1.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 10 - new wire\n", + "Debug : Curve 19 (18 --> 17) ori -1\n", + "Debug : Curve 31 (18 --> 27) ori 1\n", + "Debug : Curve 32 (27 --> 28) ori 1\n", + "Debug : Curve 33 (28 --> 17) ori 1\n", + "Debug : OCC surface 10 with 4 parameter bounds (-0.31,-0.19)(0.45,0.455)\n", + "Debug : OCCRTree found 1 matches at (0.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 11 - new wire\n", + "Debug : Curve 36 (30 --> 15) ori 1\n", + "Debug : Curve 17 (16 --> 15) ori -1\n", + "Debug : Curve 34 (16 --> 29) ori 1\n", + "Debug : Curve 35 (29 --> 30) ori 1\n", + "Debug : OCC surface 11 with 4 parameter bounds (0.19,0.31)(0.45,0.455)\n", + "Debug : OCCRTree found 1 matches at (-0.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-0.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-0.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 12 - new wire\n", + "Debug : Curve 39 (32 --> 13) ori 1\n", + "Debug : Curve 15 (14 --> 13) ori -1\n", + "Debug : Curve 37 (14 --> 31) ori 1\n", + "Debug : Curve 38 (31 --> 32) ori 1\n", + "Debug : OCC surface 12 with 4 parameter bounds (1.19,1.31)(0.45,0.455)\n", + "Debug : OCCRTree found 1 matches at (-1.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-1.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-1.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 13 - new wire\n", + "Debug : Curve 41 (33 --> 34) ori 1\n", + "Debug : Curve 44 (34 --> 12) ori 1\n", + "Debug : Curve 13 (11 --> 12) ori -1\n", + "Debug : Curve 40 (11 --> 33) ori 1\n", + "Debug : OCC surface 13 with 4 parameter bounds (2.29,2.4)(0.45,0.455)\n", + "Debug : OCCRTree found 1 matches at (-2.345,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.345,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.345,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 35 - new wire\n", + "Debug : Curve 93 (70 --> 72) ori 1\n", + "Debug : Curve 118 (72 --> 51) ori 1\n", + "Debug : Curve 62 (50 --> 51) ori -1\n", + "Debug : Curve 117 (50 --> 55) ori 1\n", + "Debug : Curve 68 (55 --> 54) ori 1\n", + "Debug : Curve 70 (56 --> 54) ori -1\n", + "Debug : Curve 74 (56 --> 60) ori 1\n", + "Debug : Curve 116 (84 --> 60) ori -1\n", + "Debug : Curve 115 (83 --> 84) ori -1\n", + "Debug : Curve 114 (59 --> 83) ori -1\n", + "Debug : Curve 72 (59 --> 57) ori 1\n", + "Debug : Curve 113 (82 --> 57) ori -1\n", + "Debug : Curve 112 (62 --> 82) ori -1\n", + "Debug : Curve 77 (62 --> 61) ori 1\n", + "Debug : Curve 80 (61 --> 63) ori 1\n", + "Debug : Curve 82 (65 --> 63) ori -1\n", + "Debug : Curve 111 (81 --> 65) ori -1\n", + "Debug : Curve 110 (69 --> 81) ori -1\n", + "Debug : Curve 86 (69 --> 68) ori 1\n", + "Debug : Curve 109 (80 --> 68) ori -1\n", + "Debug : Curve 108 (79 --> 80) ori -1\n", + "Debug : Curve 107 (66 --> 79) ori -1\n", + "Debug : Curve 84 (66 --> 67) ori 1\n", + "Debug : Curve 90 (67 --> 70) ori 1\n", + "Debug : OCC surface 35 with 24 parameter bounds (-2.4,2.4)(0.545,1.545)\n", + "Debug : OCCRTree found 1 matches at (0,0.5,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,0.5,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,0.5,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 36 - new wire\n", + "Debug : Curve 85 (68 --> 66) ori 1\n", + "Debug : Curve 107 (66 --> 79) ori 1\n", + "Debug : Curve 108 (79 --> 80) ori 1\n", + "Debug : Curve 109 (80 --> 68) ori 1\n", + "Debug : OCC surface 36 with 4 parameter bounds (1.19,1.31)(0.545,0.55)\n", + "Debug : OCCRTree found 1 matches at (-1.25,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-1.25,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-1.25,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 37 - new wire\n", + "Debug : Curve 87 (64 --> 69) ori 1\n", + "Debug : Curve 110 (69 --> 81) ori 1\n", + "Debug : Curve 111 (81 --> 65) ori 1\n", + "Debug : Curve 83 (64 --> 65) ori -1\n", + "Debug : OCC surface 37 with 4 parameter bounds (0.25,0.31)(0.545,0.55)\n", + "Debug : OCCRTree found 1 matches at (-0.28,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-0.28,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-0.28,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 38 - new wire\n", + "Debug : Curve 113 (82 --> 57) ori 1\n", + "Debug : Curve 71 (57 --> 58) ori 1\n", + "Debug : Curve 78 (58 --> 62) ori 1\n", + "Debug : Curve 112 (62 --> 82) ori 1\n", + "Debug : OCC surface 38 with 4 parameter bounds (-0.31,-0.25)(0.545,0.55)\n", + "Debug : OCCRTree found 1 matches at (0.28,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0.28,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0.28,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 39 - new wire\n", + "Debug : Curve 116 (84 --> 60) ori 1\n", + "Debug : Curve 73 (60 --> 59) ori 1\n", + "Debug : Curve 114 (59 --> 83) ori 1\n", + "Debug : Curve 115 (83 --> 84) ori 1\n", + "Debug : OCC surface 39 with 4 parameter bounds (-1.31,-1.19)(0.545,0.55)\n", + "Debug : OCCRTree found 1 matches at (1.25,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (1.25,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (1.25,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 42 - new wire\n", + "Debug : Curve 121 (86 --> 85) ori 1\n", + "Debug : Curve 126 (88 --> 85) ori -1\n", + "Debug : Curve 125 (65 --> 88) ori -1\n", + "Debug : Curve 82 (65 --> 63) ori 1\n", + "Debug : Curve 80 (61 --> 63) ori -1\n", + "Debug : Curve 77 (62 --> 61) ori -1\n", + "Debug : Curve 124 (87 --> 62) ori -1\n", + "Debug : Curve 123 (86 --> 87) ori -1\n", + "Debug : OCC surface 42 with 8 parameter bounds (-0.25,0.25)(0.545,0.765)\n", + "Debug : OCCRTree found 1 matches at (0,0.11,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,0.11,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,0.11,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 43 - new wire\n", + "Debug : Curve 120 (85 --> 64) ori 1\n", + "Debug : Curve 83 (64 --> 65) ori 1\n", + "Debug : Curve 125 (65 --> 88) ori 1\n", + "Debug : Curve 126 (88 --> 85) ori 1\n", + "Debug : OCC surface 43 with 4 parameter bounds (0.19,0.25)(0.545,0.55)\n", + "Debug : OCCRTree found 1 matches at (-0.22,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-0.22,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-0.22,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 44 - new wire\n", + "Debug : Curve 122 (58 --> 86) ori 1\n", + "Debug : Curve 123 (86 --> 87) ori 1\n", + "Debug : Curve 124 (87 --> 62) ori 1\n", + "Debug : Curve 78 (58 --> 62) ori -1\n", + "Debug : OCC surface 44 with 4 parameter bounds (-0.25,-0.19)(0.545,0.55)\n", + "Debug : OCCRTree found 1 matches at (0.22,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0.22,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0.22,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 47 - new wire\n", + "Debug : Curve 128 (89 --> 90) ori 1\n", + "Debug : Curve 130 (90 --> 8) ori 1\n", + "Debug : Curve 8 (7 --> 8) ori -1\n", + "Debug : Curve 129 (7 --> 89) ori 1\n", + "Debug : OCC surface 47 with 4 parameter bounds (-2.4,2.4)(-1.75,-1.545)\n", + "Debug : OCCRTree found 1 matches at (0,-2.1925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,-2.1925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,-2.1925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 48 - new wire\n", + "Debug : Curve 13 (11 --> 12) ori 1\n", + "Debug : Curve 133 (12 --> 92) ori 1\n", + "Debug : Curve 132 (91 --> 92) ori -1\n", + "Debug : Curve 131 (91 --> 11) ori 1\n", + "Debug : OCC surface 48 with 4 parameter bounds (2.29,2.4)(0.455,0.545)\n", + "Debug : OCCRTree found 2 matches at (-2.345,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-2.345,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-2.345,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 49 - new wire\n", + "Debug : Curve 132 (91 --> 92) ori 1\n", + "Debug : Curve 136 (92 --> 94) ori 1\n", + "Debug : Curve 135 (94 --> 93) ori 1\n", + "Debug : Curve 134 (93 --> 91) ori 1\n", + "Debug : OCC surface 49 with 4 parameter bounds (2.29,2.4)(0.545,0.55)\n", + "Debug : OCCRTree found 1 matches at (-2.345,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.345,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.345,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 50 - new wire\n", + "Debug : Curve 14 (13 --> 11) ori 1\n", + "Debug : Curve 131 (91 --> 11) ori -1\n", + "Debug : Curve 138 (67 --> 91) ori -1\n", + "Debug : Curve 84 (66 --> 67) ori -1\n", + "Debug : Curve 137 (13 --> 66) ori -1\n", + "Debug : OCC surface 50 with 5 parameter bounds (1.31,2.29)(0.455,0.545)\n", + "Debug : OCCRTree found 1 matches at (-1.8,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-1.8,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-1.8,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 51 - new wire\n", + "Debug : Curve 139 (95 --> 22) ori 1\n", + "Debug : Curve 23 (22 --> 21) ori 1\n", + "Debug : Curve 141 (21 --> 96) ori 1\n", + "Debug : Curve 140 (95 --> 96) ori -1\n", + "Debug : OCC surface 51 with 4 parameter bounds (-2.4,-2.29)(0.455,0.545)\n", + "Debug : OCCRTree found 2 matches at (2.345,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.345,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.345,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 52 - new wire\n", + "Debug : Curve 135 (94 --> 93) ori -1\n", + "Debug : Curve 142 (94 --> 72) ori 1\n", + "Debug : Curve 93 (70 --> 72) ori -1\n", + "Debug : Curve 90 (67 --> 70) ori -1\n", + "Debug : Curve 138 (67 --> 91) ori 1\n", + "Debug : Curve 134 (93 --> 91) ori -1\n", + "Debug : OCC surface 52 with 6 parameter bounds (2,2.4)(0.545,1.045)\n", + "Debug : OCCRTree found 1 matches at (-2.2,0.25,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.2,0.25,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.2,0.25,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 53 - new wire\n", + "Debug : Curve 15 (14 --> 13) ori 1\n", + "Debug : Curve 137 (13 --> 66) ori 1\n", + "Debug : Curve 85 (68 --> 66) ori -1\n", + "Debug : Curve 143 (68 --> 14) ori 1\n", + "Debug : OCC surface 53 with 4 parameter bounds (1.19,1.31)(0.455,0.545)\n", + "Debug : OCCRTree found 2 matches at (-1.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-1.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-1.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 54 - new wire\n", + "Debug : Curve 144 (97 --> 95) ori 1\n", + "Debug : Curve 140 (95 --> 96) ori 1\n", + "Debug : Curve 146 (96 --> 98) ori 1\n", + "Debug : Curve 145 (98 --> 97) ori 1\n", + "Debug : OCC surface 54 with 4 parameter bounds (-2.4,-2.29)(0.545,0.55)\n", + "Debug : OCCRTree found 1 matches at (2.345,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (2.345,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (2.345,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 55 - new wire\n", + "Debug : Curve 141 (21 --> 96) ori -1\n", + "Debug : Curve 22 (21 --> 20) ori 1\n", + "Debug : Curve 148 (60 --> 20) ori -1\n", + "Debug : Curve 74 (56 --> 60) ori -1\n", + "Debug : Curve 147 (96 --> 56) ori -1\n", + "Debug : OCC surface 55 with 5 parameter bounds (-2.29,-1.31)(0.455,0.545)\n", + "Debug : OCCRTree found 1 matches at (1.8,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (1.8,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (1.8,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 56 - new wire\n", + "Debug : Curve 16 (15 --> 14) ori 1\n", + "Debug : Curve 143 (68 --> 14) ori -1\n", + "Debug : Curve 86 (69 --> 68) ori -1\n", + "Debug : Curve 149 (15 --> 69) ori -1\n", + "Debug : OCC surface 56 with 4 parameter bounds (0.31,1.19)(0.455,0.545)\n", + "Debug : OCCRTree found 1 matches at (-0.75,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-0.75,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-0.75,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 57 - new wire\n", + "Debug : Curve 150 (55 --> 97) ori 1\n", + "Debug : Curve 145 (98 --> 97) ori -1\n", + "Debug : Curve 146 (96 --> 98) ori -1\n", + "Debug : Curve 147 (96 --> 56) ori 1\n", + "Debug : Curve 70 (56 --> 54) ori 1\n", + "Debug : Curve 68 (55 --> 54) ori -1\n", + "Debug : OCC surface 57 with 6 parameter bounds (-2.4,-2)(0.545,1.045)\n", + "Debug : OCCRTree found 1 matches at (2.2,0.25,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (2.2,0.25,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (2.2,0.25,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 58 - new wire\n", + "Debug : Curve 148 (60 --> 20) ori 1\n", + "Debug : Curve 21 (20 --> 19) ori 1\n", + "Debug : Curve 151 (19 --> 59) ori 1\n", + "Debug : Curve 73 (60 --> 59) ori -1\n", + "Debug : OCC surface 58 with 4 parameter bounds (-1.31,-1.19)(0.455,0.545)\n", + "Debug : OCCRTree found 2 matches at (1.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (1.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (1.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 59 - new wire\n", + "Debug : Curve 62 (50 --> 51) ori 1\n", + "Debug : Curve 154 (51 --> 100) ori 1\n", + "Debug : Curve 153 (100 --> 99) ori 1\n", + "Debug : Curve 152 (99 --> 50) ori 1\n", + "Debug : OCC surface 59 with 4 parameter bounds (-2.4,2.4)(1.545,1.75)\n", + "Debug : OCCRTree found 1 matches at (0,1.1025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,1.1025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,1.1025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 60 - new wire\n", + "Debug : Curve 17 (16 --> 15) ori 1\n", + "Debug : Curve 149 (15 --> 69) ori 1\n", + "Debug : Curve 87 (64 --> 69) ori -1\n", + "Debug : Curve 120 (85 --> 64) ori -1\n", + "Debug : Curve 155 (85 --> 16) ori 1\n", + "Debug : OCC surface 60 with 5 parameter bounds (0.19,0.31)(0.455,0.545)\n", + "Debug : OCCRTree found 2 matches at (-0.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-0.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-0.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 61 - new wire\n", + "Debug : Curve 151 (19 --> 59) ori -1\n", + "Debug : Curve 20 (19 --> 18) ori 1\n", + "Debug : Curve 156 (57 --> 18) ori -1\n", + "Debug : Curve 72 (59 --> 57) ori -1\n", + "Debug : OCC surface 61 with 4 parameter bounds (-1.19,-0.31)(0.455,0.545)\n", + "Debug : OCCRTree found 1 matches at (0.75,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0.75,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0.75,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 62 - new wire\n", + "Debug : Curve 18 (17 --> 16) ori 1\n", + "Debug : Curve 155 (85 --> 16) ori -1\n", + "Debug : Curve 121 (86 --> 85) ori -1\n", + "Debug : Curve 157 (17 --> 86) ori -1\n", + "Debug : OCC surface 62 with 4 parameter bounds (-0.19,0.19)(0.455,0.545)\n", + "Debug : OCCRTree found 1 matches at (0,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 63 - new wire\n", + "Debug : Curve 156 (57 --> 18) ori 1\n", + "Debug : Curve 19 (18 --> 17) ori 1\n", + "Debug : Curve 157 (17 --> 86) ori 1\n", + "Debug : Curve 122 (58 --> 86) ori -1\n", + "Debug : Curve 71 (57 --> 58) ori -1\n", + "Debug : OCC surface 63 with 5 parameter bounds (-0.31,-0.19)(0.455,0.545)\n", + "Debug : OCCRTree found 2 matches at (0.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : GModel imported:\n", + "Debug : 81 points\n", + "Debug : 110 curves\n", + "Debug : 32 surfaces\n", + "Debug : 0 volumes\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m212\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin constructing surface dictionary.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m226\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd constructing surface dictionary.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m236\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin create volume zones.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m247\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd create volume zones.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m257\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin create surface zones.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m273\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mContinue create surface zones.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m300\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd create surface zones.\u001b[0m \n", + "Debug : Decoded option name 'Mesh' . 'MeshSizeExtendFromBoundary' (index 0)\n", + "Debug : Decoded option name 'Mesh' . 'MeshSizeFromPoints' (index 0)\n", + "Debug : Decoded option name 'Mesh' . 'MeshSizeFromCurvature' (index 0)\n", + "Debug : Destroying 28 entities in model\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m324\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin meshing.\u001b[0m \n", + "Debug : Decoded option name 'Mesh' . 'Algorithm' (index 0)\n", + "Debug : Decoded option name 'Mesh' . 'Algorithm3D' (index 0)\n", + "Debug : Decoded option name 'General' . 'NumThreads' (index 0)\n", + "Info : Meshing 1D...\n", + "Info : [ 0%] Meshing curve 8 (Line)\n", + "Debug : Meshing curve 8 (Line): 9 interior vertices\n", + "Info : [ 10%] Meshing curve 13 (Line)\n", + "Debug : Meshing curve 13 (Line): 26 interior vertices\n", + "Info : [ 10%] Meshing curve 14 (Line)\n", + "Debug : Meshing curve 14 (Line): 44 interior vertices\n", + "Info : [ 10%] Meshing curve 15 (Line)\n", + "Debug : Meshing curve 15 (Line): 28 interior vertices\n", + "Info : [ 10%] Meshing curve 16 (Line)\n", + "Debug : Meshing curve 16 (Line): 40 interior vertices\n", + "Info : [ 10%] Meshing curve 17 (Line)\n", + "Debug : Meshing curve 17 (Line): 28 interior vertices\n", + "Info : [ 10%] Meshing curve 18 (Line)\n", + "Debug : Meshing curve 18 (Line): 20 interior vertices\n", + "Info : [ 10%] Meshing curve 19 (Line)\n", + "Debug : Meshing curve 19 (Line): 28 interior vertices\n", + "Info : [ 10%] Meshing curve 20 (Line)\n", + "Debug : Meshing curve 20 (Line): 40 interior vertices\n", + "Info : [ 10%] Meshing curve 21 (Line)\n", + "Debug : Meshing curve 21 (Line): 28 interior vertices\n", + "Info : [ 20%] Meshing curve 22 (Line)\n", + "Debug : Meshing curve 22 (Line): 44 interior vertices\n", + "Info : [ 20%] Meshing curve 23 (Line)\n", + "Debug : Meshing curve 23 (Line): 26 interior vertices\n", + "Info : [ 20%] Meshing curve 25 (Line)\n", + "Debug : Meshing curve 25 (Line): 15 interior vertices\n", + "Info : [ 20%] Meshing curve 26 (Line)\n", + "Debug : Meshing curve 26 (Line): 26 interior vertices\n", + "Info : [ 20%] Meshing curve 27 (Line)\n", + "Debug : Meshing curve 27 (Line): 1 interior vertices\n", + "Info : [ 20%] Meshing curve 28 (Line)\n", + "Debug : Meshing curve 28 (Line): 1 interior vertices\n", + "Info : [ 20%] Meshing curve 29 (Line)\n", + "Debug : Meshing curve 29 (Line): 28 interior vertices\n", + "Info : [ 20%] Meshing curve 30 (Line)\n", + "Debug : Meshing curve 30 (Line): 1 interior vertices\n", + "Info : [ 20%] Meshing curve 31 (Line)\n", + "Debug : Meshing curve 31 (Line): 1 interior vertices\n", + "Info : [ 20%] Meshing curve 32 (Line)\n", + "Debug : Meshing curve 32 (Line): 28 interior vertices\n", + "Info : [ 30%] Meshing curve 33 (Line)\n", + "Debug : Meshing curve 33 (Line): 1 interior vertices\n", + "Info : [ 30%] Meshing curve 34 (Line)\n", + "Debug : Meshing curve 34 (Line): 1 interior vertices\n", + "Info : [ 30%] Meshing curve 35 (Line)\n", + "Debug : Meshing curve 35 (Line): 28 interior vertices\n", + "Info : [ 30%] Meshing curve 36 (Line)\n", + "Debug : Meshing curve 36 (Line): 1 interior vertices\n", + "Info : [ 30%] Meshing curve 37 (Line)\n", + "Debug : Meshing curve 37 (Line): 1 interior vertices\n", + "Info : [ 30%] Meshing curve 38 (Line)\n", + "Debug : Meshing curve 38 (Line): 28 interior vertices\n", + "Info : [ 30%] Meshing curve 39 (Line)\n", + "Debug : Meshing curve 39 (Line): 1 interior vertices\n", + "Info : [ 30%] Meshing curve 40 (Line)\n", + "Debug : Meshing curve 40 (Line): 1 interior vertices\n", + "Info : [ 30%] Meshing curve 41 (Line)\n", + "Debug : Meshing curve 41 (Line): 26 interior vertices\n", + "Info : [ 40%] Meshing curve 42 (Line)\n", + "Debug : Meshing curve 42 (Line): 15 interior vertices\n", + "Info : [ 40%] Meshing curve 43 (Line)\n", + "Debug : Meshing curve 43 (Line): 1 interior vertices\n", + "Info : [ 40%] Meshing curve 44 (Line)\n", + "Debug : Meshing curve 44 (Line): 1 interior vertices\n", + "Info : [ 40%] Meshing curve 62 (Line)\n", + "Debug : Meshing curve 62 (Line): 9 interior vertices\n", + "Info : [ 40%] Meshing curve 68 (Line)\n", + "Debug : Meshing curve 68 (Line): 0 interior vertices\n", + "Info : [ 40%] Meshing curve 70 (Line)\n", + "Debug : Meshing curve 70 (Line): 4 interior vertices\n", + "Info : [ 40%] Meshing curve 71 (Line)\n", + "Debug : Meshing curve 71 (Line): 14 interior vertices\n", + "Info : [ 40%] Meshing curve 72 (Line)\n", + "Debug : Meshing curve 72 (Line): 40 interior vertices\n", + "Info : [ 40%] Meshing curve 73 (Line)\n", + "Debug : Meshing curve 73 (Line): 28 interior vertices\n", + "Info : [ 40%] Meshing curve 74 (Line)\n", + "Debug : Meshing curve 74 (Line): 30 interior vertices\n", + "Info : [ 50%] Meshing curve 77 (Line)\n", + "Debug : Meshing curve 77 (Line): 11 interior vertices\n", + "Info : [ 50%] Meshing curve 78 (Line)\n", + "Debug : Meshing curve 78 (Line): 1 interior vertices\n", + "Info : [ 50%] Meshing curve 80 (Line)\n", + "Debug : Meshing curve 80 (Line): 19 interior vertices\n", + "Info : [ 50%] Meshing curve 82 (Line)\n", + "Debug : Meshing curve 82 (Line): 11 interior vertices\n", + "Info : [ 50%] Meshing curve 83 (Line)\n", + "Debug : Meshing curve 83 (Line): 1 interior vertices\n", + "Info : [ 50%] Meshing curve 84 (Line)\n", + "Debug : Meshing curve 84 (Line): 30 interior vertices\n", + "Info : [ 50%] Meshing curve 85 (Line)\n", + "Debug : Meshing curve 85 (Line): 28 interior vertices\n", + "Info : [ 50%] Meshing curve 86 (Line)\n", + "Debug : Meshing curve 86 (Line): 40 interior vertices\n", + "Info : [ 50%] Meshing curve 87 (Line)\n", + "Debug : Meshing curve 87 (Line): 14 interior vertices\n", + "Info : [ 60%] Meshing curve 90 (Line)\n", + "Debug : Meshing curve 90 (Line): 4 interior vertices\n", + "Info : [ 60%] Meshing curve 93 (Line)\n", + "Debug : Meshing curve 93 (Line): 0 interior vertices\n", + "Info : [ 60%] Meshing curve 107 (Line)\n", + "Debug : Meshing curve 107 (Line): 1 interior vertices\n", + "Info : [ 60%] Meshing curve 108 (Line)\n", + "Debug : Meshing curve 108 (Line): 28 interior vertices\n", + "Info : [ 60%] Meshing curve 109 (Line)\n", + "Debug : Meshing curve 109 (Line): 1 interior vertices\n", + "Info : [ 60%] Meshing curve 110 (Line)\n", + "Debug : Meshing curve 110 (Line): 1 interior vertices\n", + "Info : [ 60%] Meshing curve 111 (Line)\n", + "Debug : Meshing curve 111 (Line): 14 interior vertices\n", + "Info : [ 60%] Meshing curve 112 (Line)\n", + "Debug : Meshing curve 112 (Line): 14 interior vertices\n", + "Info : [ 60%] Meshing curve 113 (Line)\n", + "Debug : Meshing curve 113 (Line): 1 interior vertices\n", + "Info : [ 60%] Meshing curve 114 (Line)\n", + "Debug : Meshing curve 114 (Line): 1 interior vertices\n", + "Info : [ 70%] Meshing curve 115 (Line)\n", + "Debug : Meshing curve 115 (Line): 28 interior vertices\n", + "Info : [ 70%] Meshing curve 116 (Line)\n", + "Debug : Meshing curve 116 (Line): 1 interior vertices\n", + "Info : [ 70%] Meshing curve 117 (Line)\n", + "Debug : Meshing curve 117 (Line): 0 interior vertices\n", + "Info : [ 70%] Meshing curve 118 (Line)\n", + "Debug : Meshing curve 118 (Line): 0 interior vertices\n", + "Info : [ 70%] Meshing curve 120 (Line)\n", + "Debug : Meshing curve 120 (Line): 14 interior vertices\n", + "Info : [ 70%] Meshing curve 121 (Line)\n", + "Debug : Meshing curve 121 (Line): 20 interior vertices\n", + "Info : [ 70%] Meshing curve 122 (Line)\n", + "Debug : Meshing curve 122 (Line): 14 interior vertices\n", + "Info : [ 70%] Meshing curve 123 (Line)\n", + "Debug : Meshing curve 123 (Line): 1 interior vertices\n", + "Info : [ 70%] Meshing curve 124 (Line)\n", + "Debug : Meshing curve 124 (Line): 14 interior vertices\n", + "Info : [ 70%] Meshing curve 125 (Line)\n", + "Debug : Meshing curve 125 (Line): 14 interior vertices\n", + "Info : [ 80%] Meshing curve 126 (Line)\n", + "Debug : Meshing curve 126 (Line): 1 interior vertices\n", + "Info : [ 80%] Meshing curve 131 (Line)\n", + "Debug : Meshing curve 131 (Line): 21 interior vertices\n", + "Info : [ 80%] Meshing curve 132 (Line)\n", + "Debug : Meshing curve 132 (Line): 26 interior vertices\n", + "Info : [ 80%] Meshing curve 133 (Line)\n", + "Debug : Meshing curve 133 (Line): 21 interior vertices\n", + "Info : [ 80%] Meshing curve 137 (Line)\n", + "Debug : Meshing curve 137 (Line): 21 interior vertices\n", + "Info : [ 80%] Meshing curve 138 (Line)\n", + "Debug : Meshing curve 138 (Line): 14 interior vertices\n", + "Info : [ 80%] Meshing curve 139 (Line)\n", + "Debug : Meshing curve 139 (Line): 21 interior vertices\n", + "Info : [ 80%] Meshing curve 140 (Line)\n", + "Debug : Meshing curve 140 (Line): 26 interior vertices\n", + "Info : [ 80%] Meshing curve 141 (Line)\n", + "Debug : Meshing curve 141 (Line): 21 interior vertices\n", + "Info : [ 90%] Meshing curve 143 (Line)\n", + "Debug : Meshing curve 143 (Line): 21 interior vertices\n", + "Info : [ 90%] Meshing curve 147 (Line)\n", + "Debug : Meshing curve 147 (Line): 14 interior vertices\n", + "Info : [ 90%] Meshing curve 148 (Line)\n", + "Debug : Meshing curve 148 (Line): 21 interior vertices\n", + "Info : [ 90%] Meshing curve 149 (Line)\n", + "Debug : Meshing curve 149 (Line): 21 interior vertices\n", + "Info : [ 90%] Meshing curve 151 (Line)\n", + "Debug : Meshing curve 151 (Line): 21 interior vertices\n", + "Info : [ 90%] Meshing curve 155 (Line)\n", + "Debug : Meshing curve 155 (Line): 21 interior vertices\n", + "Info : [ 90%] Meshing curve 156 (Line)\n", + "Debug : Meshing curve 156 (Line): 21 interior vertices\n", + "Info : [ 90%] Meshing curve 157 (Line)\n", + "Debug : Meshing curve 157 (Line): 21 interior vertices\n", + "Info : [ 90%] Meshing curve 158 (Line)\n", + "Debug : Meshing curve 158 (Line): 2 interior vertices\n", + "Info : [ 90%] Meshing curve 159 (Line)\n", + "Debug : Meshing curve 159 (Line): 0 interior vertices\n", + "Info : [100%] Meshing curve 160 (Line)\n", + "Debug : Meshing curve 160 (Line): 0 interior vertices\n", + "Info : [100%] Meshing curve 161 (Line)\n", + "Debug : Meshing curve 161 (Line): 9 interior vertices\n", + "Info : [100%] Meshing curve 162 (Line)\n", + "Debug : Meshing curve 162 (Line): 2 interior vertices\n", + "Info : [100%] Meshing curve 163 (Line)\n", + "Debug : Meshing curve 163 (Line): 9 interior vertices\n", + "Info : [100%] Meshing curve 164 (Line)\n", + "Debug : Meshing curve 164 (Line): 0 interior vertices\n", + "Info : [100%] Meshing curve 165 (Line)\n", + "Debug : Meshing curve 165 (Line): 0 interior vertices\n", + "Info : [100%] Meshing curve 171 (Line)\n", + "Debug : Meshing curve 171 (Line): 0 interior vertices\n", + "Info : [100%] Meshing curve 178 (Line)\n", + "Debug : Meshing curve 178 (Line): 0 interior vertices\n", + "Info : [100%] Meshing curve 179 (Line)\n", + "Debug : Meshing curve 179 (Line): 0 interior vertices\n", + "Info : Done meshing 1D (Wall 0.0617277s, CPU 0.064583s)\n", + "Info : Meshing 2D...\n", + "Info : [ 0%] Meshing surface 7 (Plane, Delaunay)\n", + "Debug : Recovering 24 model edges\n", + "Debug : Recovering 425 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 7\n", + "Debug : Computing mesh size field at mesh nodes 425\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 425 points created -- Worst tri radius is 47.689\n", + "Debug : Point -2.28753 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point 2.28753 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.31247 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.31247 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.312471 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point 0.312471 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.18753 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.18753 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point 0.187542 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.187542 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 2011 triangles generated, 794 internal nodes\n", + "Info : [ 10%] Meshing surface 8 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 58 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 8\n", + "Debug : Computing mesh size field at mesh nodes 58\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 58 points created -- Worst tri radius is 0.792\n", + "Debug : Point -2.39796 0.45125 cannot be inserted because it is too close to another point)\n", + "Debug : Point -2.39796 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point -2.29204 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point -2.29204 0.45125 cannot be inserted because it is too close to another point)\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 110 triangles generated, 27 internal nodes\n", + "Info : [ 10%] Meshing surface 9 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 62 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 9\n", + "Debug : Computing mesh size field at mesh nodes 62\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 62 points created -- Worst tri radius is 0.794\n", + "Debug : Point -1.19207 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.30793 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.30793 0.45125 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.19207 0.45125 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.30718 0.4525 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.19282 0.4525 cannot be inserted because it is too close to another point)\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 114 triangles generated, 27 internal nodes\n", + "Info : [ 20%] Meshing surface 10 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 62 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 10\n", + "Debug : Computing mesh size field at mesh nodes 62\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 62 points created -- Worst tri radius is 0.794\n", + "Debug : Point -0.307931 0.45125 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.192069 0.45125 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.192069 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.307931 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.192824 0.4525 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.307176 0.4525 cannot be inserted because it is too close to another point)\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 114 triangles generated, 27 internal nodes\n", + "Info : [ 20%] Meshing surface 11 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 62 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 11\n", + "Debug : Computing mesh size field at mesh nodes 62\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 62 points created -- Worst tri radius is 0.794\n", + "Debug : Point 0.307931 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point 0.192069 0.45125 cannot be inserted because it is too close to another point)\n", + "Debug : Point 0.307931 0.45125 cannot be inserted because it is too close to another point)\n", + "Debug : Point 0.192069 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point 0.192824 0.4525 cannot be inserted because it is too close to another point)\n", + "Debug : Point 0.307176 0.4525 cannot be inserted because it is too close to another point)\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 114 triangles generated, 27 internal nodes\n", + "Info : [ 20%] Meshing surface 12 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 62 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 12\n", + "Debug : Computing mesh size field at mesh nodes 62\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 62 points created -- Worst tri radius is 0.794\n", + "Debug : Point 1.30793 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.19207 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.19207 0.45125 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.30793 0.45125 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.19282 0.4525 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.30718 0.4525 cannot be inserted because it is too close to another point)\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 114 triangles generated, 27 internal nodes\n", + "Info : [ 30%] Meshing surface 13 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 58 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 13\n", + "Debug : Computing mesh size field at mesh nodes 58\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 58 points created -- Worst tri radius is 0.792\n", + "Debug : Point 2.39796 0.45125 cannot be inserted because it is too close to another point)\n", + "Debug : Point 2.39796 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point 2.29204 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point 2.29204 0.45125 cannot be inserted because it is too close to another point)\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 110 triangles generated, 27 internal nodes\n", + "Info : [ 30%] Meshing surface 35 (Plane, Delaunay)\n", + "Debug : Recovering 24 model edges\n", + "Debug : Recovering 312 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 35\n", + "Debug : Computing mesh size field at mesh nodes 312\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 312 points created -- Worst tri radius is 28.183\n", + "Debug : Point 0.278471 0.753119 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.278471 0.753119 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.92425 0.599632 cannot be inserted because it is too close to another point)\n", + "Debug : Point 0.92425 0.599632 cannot be inserted because it is too close to another point)\n", + "Debug : Point 0.974031 0.599626 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.974031 0.599626 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.0236 0.600088 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.0236 0.600088 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.79154 0.598819 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.74272 0.599332 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.79154 0.598819 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.74272 0.599332 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.90192 0.601289 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.90192 0.601289 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.312471 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : Point 0.312471 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.18753 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.18753 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.31243 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.31243 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.268545 0.773526 cannot be inserted because it is too close to another point)\n", + "Debug : Point 0.268545 0.773526 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.60759 0.590312 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.60759 0.590312 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.97768 0.604631 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.97768 0.604631 cannot be inserted because it is too close to another point)\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 1284 triangles generated, 487 internal nodes\n", + "Info : [ 40%] Meshing surface 36 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 62 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 36\n", + "Debug : Computing mesh size field at mesh nodes 62\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 62 points created -- Worst tri radius is 0.794\n", + "Debug : Point 1.19207 0.54875 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.19207 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.30793 0.54875 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.30793 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.19282 0.5475 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.30718 0.5475 cannot be inserted because it is too close to another point)\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 114 triangles generated, 27 internal nodes\n", + "Info : [ 40%] Meshing surface 37 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 34 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 37\n", + "Debug : Computing mesh size field at mesh nodes 34\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 34 points created -- Worst tri radius is 0.800\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 62 triangles generated, 15 internal nodes\n", + "Info : [ 40%] Meshing surface 38 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 34 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 38\n", + "Debug : Computing mesh size field at mesh nodes 34\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 34 points created -- Worst tri radius is 0.800\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 62 triangles generated, 15 internal nodes\n", + "Info : [ 50%] Meshing surface 39 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 62 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 39\n", + "Debug : Computing mesh size field at mesh nodes 62\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 62 points created -- Worst tri radius is 0.794\n", + "Debug : Point -1.30793 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.19207 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.30793 0.54875 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.19207 0.54875 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.19282 0.5475 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.30718 0.5475 cannot be inserted because it is too close to another point)\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 114 triangles generated, 27 internal nodes\n", + "Info : [ 50%] Meshing surface 42 (Plane, Delaunay)\n", + "Debug : Recovering 8 model edges\n", + "Debug : Recovering 99 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 42\n", + "Debug : Computing mesh size field at mesh nodes 99\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 99 points created -- Worst tri radius is 9.102\n", + "Debug : Point 0.187542 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.187542 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 617 triangles generated, 260 internal nodes\n", + "Info : [ 60%] Meshing surface 43 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 34 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 43\n", + "Debug : Computing mesh size field at mesh nodes 34\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 34 points created -- Worst tri radius is 0.800\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 62 triangles generated, 15 internal nodes\n", + "Info : [ 60%] Meshing surface 44 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 34 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 44\n", + "Debug : Computing mesh size field at mesh nodes 34\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 34 points created -- Worst tri radius is 0.800\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 62 triangles generated, 15 internal nodes\n", + "Info : [ 60%] Meshing surface 48 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 98 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 48\n", + "Debug : Computing mesh size field at mesh nodes 98\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 98 points created -- Worst tri radius is 11.057\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 1502 triangles generated, 703 internal nodes\n", + "Info : [ 70%] Meshing surface 50 (Plane, Delaunay)\n", + "Debug : Recovering 5 model edges\n", + "Debug : Recovering 135 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 50\n", + "Debug : Computing mesh size field at mesh nodes 135\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 135 points created -- Worst tri radius is 5.960\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 539 triangles generated, 203 internal nodes\n", + "Info : [ 70%] Meshing surface 51 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 98 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 51\n", + "Debug : Computing mesh size field at mesh nodes 98\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 98 points created -- Worst tri radius is 11.057\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 1516 triangles generated, 710 internal nodes\n", + "Info : [ 70%] Meshing surface 53 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 102 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 53\n", + "Debug : Computing mesh size field at mesh nodes 102\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 102 points created -- Worst tri radius is 10.917\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 1620 triangles generated, 760 internal nodes\n", + "Info : [ 80%] Meshing surface 55 (Plane, Delaunay)\n", + "Debug : Recovering 5 model edges\n", + "Debug : Recovering 135 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 55\n", + "Debug : Computing mesh size field at mesh nodes 135\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 135 points created -- Worst tri radius is 5.960\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 539 triangles generated, 203 internal nodes\n", + "Info : [ 80%] Meshing surface 56 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 126 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 56\n", + "Debug : Computing mesh size field at mesh nodes 126\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 126 points created -- Worst tri radius is 5.990\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 486 triangles generated, 181 internal nodes\n", + "Info : [ 90%] Meshing surface 58 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 102 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 58\n", + "Debug : Computing mesh size field at mesh nodes 102\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 102 points created -- Worst tri radius is 10.917\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 1612 triangles generated, 756 internal nodes\n", + "Info : [ 90%] Meshing surface 60 (Plane, Delaunay)\n", + "Debug : Recovering 5 model edges\n", + "Debug : Recovering 103 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 60\n", + "Debug : Computing mesh size field at mesh nodes 103\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 103 points created -- Worst tri radius is 11.128\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 1627 triangles generated, 763 internal nodes\n", + "Info : [ 90%] Meshing surface 61 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 126 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 61\n", + "Debug : Computing mesh size field at mesh nodes 126\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 126 points created -- Worst tri radius is 5.990\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 494 triangles generated, 185 internal nodes\n", + "Info : [100%] Meshing surface 62 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 86 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 62\n", + "Debug : Computing mesh size field at mesh nodes 86\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 86 points created -- Worst tri radius is 6.043\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 326 triangles generated, 121 internal nodes\n", + "Info : [100%] Meshing surface 63 (Plane, Delaunay)\n", + "Debug : Recovering 5 model edges\n", + "Debug : Recovering 103 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 63\n", + "Debug : Computing mesh size field at mesh nodes 103\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 103 points created -- Worst tri radius is 11.128\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 1613 triangles generated, 756 internal nodes\n", + "Info : Done meshing 2D (Wall 0.152024s, CPU 0.158448s)\n", + "Info : 8604 nodes 18480 elements\n", + "Debug : Minimum mesh quality (ICN) = 0.348727\n", + "Debug : Renumbering for potentially partial mesh save\n", + "Info : Removing duplicate mesh elements...\n", + "Info : Done removing duplicate mesh elements\n", + "Info : Removing duplicate mesh nodes...\n", + "Info : Found 0 duplicate nodes \n", + "Info : No duplicate nodes found\n", + "Debug : Renumbering for potentially partial mesh save\n", + "Debug : Decoded option name 'Mesh' . 'MshFileVersion' (index 0)\n", + "Info : Writing './output/gmsh.msh'...\n", + "Info : Done writing './output/gmsh.msh'\n", + "Info : Writing './output/gmsh.vtk'...\n", + "Info : Done writing './output/gmsh.vtk'\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m614\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd meshing.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m624\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd meshing heat-charge simulation.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m633\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mMesh heat-charge simulation time (s): 0.8077\u001b[0m \n", + "Resetting DEVSIM\n", + "Physical group name bc_0 has 0 Tetrahedra.\n", + "Physical group name bc_0 has 0 Triangles.\n", + "Physical group name bc_0 has 70 Lines.\n", + "Physical group name bc_0 has 72 Points.\n", + "Physical group name bc_1 has 0 Tetrahedra.\n", + "Physical group name bc_1 has 0 Triangles.\n", + "Physical group name bc_1 has 643 Lines.\n", + "Physical group name bc_1 has 645 Points.\n", + "Physical group name bc_2 has 0 Tetrahedra.\n", + "Physical group name bc_2 has 0 Triangles.\n", + "Physical group name bc_2 has 42 Lines.\n", + "Physical group name bc_2 has 43 Points.\n", + "Physical group name bc_3 has 0 Tetrahedra.\n", + "Physical group name bc_3 has 0 Triangles.\n", + "Physical group name bc_3 has 42 Lines.\n", + "Physical group name bc_3 has 43 Points.\n", + "Physical group name bc_4 has 0 Tetrahedra.\n", + "Physical group name bc_4 has 0 Triangles.\n", + "Physical group name bc_4 has 44 Lines.\n", + "Physical group name bc_4 has 46 Points.\n", + "Physical group name zone_1 has 0 Tetrahedra.\n", + "Physical group name zone_1 has 4323 Triangles.\n", + "Physical group name zone_1 has 6841 Lines.\n", + "Physical group name zone_1 has 2520 Points.\n", + "Physical group name zone_3 has 0 Tetrahedra.\n", + "Physical group name zone_3 has 12615 Triangles.\n", + "Physical group name zone_3 has 19308 Lines.\n", + "Physical group name zone_3 has 6694 Points.\n", + "Device device has 8569 coordinates with max index 8569\n", + "Region zone_1 has 2520 nodes.\n", + "Region zone_3 has 6694 nodes.\n", + "Contact zone_1_bc_0 in region zone_1 with 72 nodes\n", + "Warning, contact \"zone_1_bc_0\" shares a node with contact \"zone_3_bc_2\"\n", + "Contact zone_3_bc_2 in region zone_3 with 43 nodes\n", + "Warning, contact \"zone_1_bc_0\" shares a node with contact \"zone_3_bc_3\"\n", + "Contact zone_3_bc_3 in region zone_3 with 43 nodes\n", + "Warning, contact \"zone_1_bc_0\" shares a node with contact \"zone_3_bc_4\" (repeated 1 times)\n", + "Warning, contact \"zone_3_bc_2\" shares a node with contact \"zone_3_bc_4\"\n", + "Warning, contact \"zone_3_bc_3\" shares a node with contact \"zone_3_bc_4\"\n", + "Contact zone_3_bc_4 in region zone_3 with 46 nodes\n", + "Warning, contact \"zone_3_bc_2\" shares a node with interface \"zone_1_bc_1\"\n", + "Warning, contact \"zone_3_bc_3\" shares a node with interface \"zone_1_bc_1\"\n", + "Warning, contact \"zone_3_bc_4\" shares a node with interface \"zone_1_bc_1\" (repeated 1 times)\n", + "Adding interface zone_1_bc_1 with 645, 645 nodes\n", + "Warning: Replacing equation with equation of the same name.\n", + "Region: zone_1, Equation: PotentialEquation, Variable: Potential\n", + "Replacing Node Model Holes in region zone_1 of material Si\n", + "Replacing Node Model Electrons in region zone_1 of material Si\n", + "Warning: Replacing equation with equation of the same name.\n", + "Region: zone_3, Equation: PotentialEquation, Variable: Potential\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:28\u001b[0m.\u001b[1;36m236\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mRamping up doping. Scaling by 0.01\u001b[0m \n", + "Replacing Node Model NetDoping in region zone_1 of material Si\n", + "Replacing Node Model n_i in region zone_1 of material Si\n", + "Replacing Edge Model n_i@n0 in region zone_1 of material Si\n", + "Replacing Edge Model n_i@n1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en2 in region zone_1 of material Si\n", + "Replacing Node Model n_i:Electrons in region zone_1 of material Si\n", + "Replacing Node Model n_i:Holes in region zone_1 of material Si\n", + "Replacing Node Model n_i:T in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en2 in region zone_1 of material Si\n", + "Replacing Node Model NetDoping in region zone_3 of material Si\n", + "Replacing Node Model n_i in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en2 in region zone_3 of material Si\n", + "Replacing Node Model n_i:Electrons in region zone_3 of material Si\n", + "Replacing Node Model n_i:Holes in region zone_3 of material Si\n", + "Replacing Node Model n_i:T in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:Electrons@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:Holes@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:T@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:Electrons@n1 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:Holes@n1 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:T@n1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en2 in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.79782e+07\tAbsError: 2.04000e+18\n", + " Region: \"zone_1\"\tRelError: 1.00000e+00\tAbsError: 3.94714e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00000e+00\tAbsError: 3.94714e-01\n", + " Region: \"zone_3\"\tRelError: 1.79782e+07\tAbsError: 2.04000e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.98918e+06\tAbsError: 1.01999e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.98900e+06\tAbsError: 1.02001e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00000e+00\tAbsError: 3.96698e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.02134e+03\tAbsError: 5.28988e+17\n", + " Region: \"zone_1\"\tRelError: 8.09397e-01\tAbsError: 8.82032e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.09397e-01\tAbsError: 8.82032e-02\n", + " Region: \"zone_3\"\tRelError: 2.02053e+03\tAbsError: 5.28988e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.63152e+02\tAbsError: 2.39643e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.15671e+03\tAbsError: 2.89345e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 6.68292e-01\tAbsError: 8.50469e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 5.29619e+04\tAbsError: 5.40829e+17\n", + " Region: \"zone_1\"\tRelError: 3.49575e+00\tAbsError: 8.50914e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.49575e+00\tAbsError: 8.50914e-02\n", + " Region: \"zone_3\"\tRelError: 5.29584e+04\tAbsError: 5.40829e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84891e+03\tAbsError: 1.73566e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.11077e+04\tAbsError: 3.67263e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86071e+00\tAbsError: 8.36026e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.56340e+02\tAbsError: 1.60913e+17\n", + " Region: \"zone_1\"\tRelError: 7.02286e+01\tAbsError: 8.33246e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.02286e+01\tAbsError: 8.33246e-02\n", + " Region: \"zone_3\"\tRelError: 4.86111e+02\tAbsError: 1.60913e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.58439e+02\tAbsError: 4.77489e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.24056e+02\tAbsError: 1.13164e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03617e+02\tAbsError: 8.33199e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.59462e+03\tAbsError: 1.22966e+16\n", + " Region: \"zone_1\"\tRelError: 6.99663e+02\tAbsError: 8.14001e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.99663e+02\tAbsError: 8.14001e-02\n", + " Region: \"zone_3\"\tRelError: 5.89495e+03\tAbsError: 1.22966e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.96162e+02\tAbsError: 4.98403e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.42866e+02\tAbsError: 7.31259e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 4.55593e+03\tAbsError: 8.14001e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.75617e+03\tAbsError: 3.95067e+15\n", + " Region: \"zone_1\"\tRelError: 2.56000e+02\tAbsError: 7.80984e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.56000e+02\tAbsError: 7.80984e-02\n", + " Region: \"zone_3\"\tRelError: 3.50017e+03\tAbsError: 3.95067e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.11350e+01\tAbsError: 2.15897e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.36945e+03\tAbsError: 1.79170e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95825e+01\tAbsError: 7.80984e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 8.71973e+03\tAbsError: 3.68802e+15\n", + " Region: \"zone_1\"\tRelError: 1.83283e+03\tAbsError: 7.35600e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.83283e+03\tAbsError: 7.35600e-02\n", + " Region: \"zone_3\"\tRelError: 6.88690e+03\tAbsError: 3.68802e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.44856e+01\tAbsError: 2.01861e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.68953e+03\tAbsError: 1.66941e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 4.17288e+03\tAbsError: 7.35600e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.17699e+04\tAbsError: 3.55641e+15\n", + " Region: \"zone_1\"\tRelError: 1.61805e+00\tAbsError: 6.82367e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.61805e+00\tAbsError: 6.82367e-02\n", + " Region: \"zone_3\"\tRelError: 1.17683e+04\tAbsError: 3.55641e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.02915e+03\tAbsError: 1.96286e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.07375e+04\tAbsError: 1.59355e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.69644e+00\tAbsError: 6.82367e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.90710e+03\tAbsError: 3.56322e+15\n", + " Region: \"zone_1\"\tRelError: 5.40021e-01\tAbsError: 6.20658e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.40021e-01\tAbsError: 6.20658e-02\n", + " Region: \"zone_3\"\tRelError: 3.90656e+03\tAbsError: 3.56322e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.97521e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.89701e+03\tAbsError: 1.58800e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.52609e-01\tAbsError: 6.20658e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.59564e+03\tAbsError: 3.90856e+15\n", + " Region: \"zone_1\"\tRelError: 3.02279e-01\tAbsError: 5.41457e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.02279e-01\tAbsError: 5.41457e-02\n", + " Region: \"zone_3\"\tRelError: 4.59534e+03\tAbsError: 3.90856e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.15072e+02\tAbsError: 2.13486e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.77996e+03\tAbsError: 1.77370e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 3.09991e-01\tAbsError: 5.41457e-02\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.89532e+03\tAbsError: 5.45590e+15\n", + " Region: \"zone_1\"\tRelError: 1.32864e-01\tAbsError: 4.41646e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.32864e-01\tAbsError: 4.41646e-02\n", + " Region: \"zone_3\"\tRelError: 2.89519e+03\tAbsError: 5.45590e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.95366e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.88608e+03\tAbsError: 2.50224e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12497e-01\tAbsError: 4.40685e-02\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.80503e+03\tAbsError: 9.25911e+15\n", + " Region: \"zone_1\"\tRelError: 8.45871e-02\tAbsError: 3.26030e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.45871e-02\tAbsError: 3.26030e-02\n", + " Region: \"zone_3\"\tRelError: 1.80495e+03\tAbsError: 9.25911e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.62604e+03\tAbsError: 4.94846e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.78832e+02\tAbsError: 4.31065e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.47515e-02\tAbsError: 2.89742e-02\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.02488e+03\tAbsError: 1.35461e+16\n", + " Region: \"zone_1\"\tRelError: 6.19799e-02\tAbsError: 2.54954e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.19799e-02\tAbsError: 2.54954e-02\n", + " Region: \"zone_3\"\tRelError: 1.02482e+03\tAbsError: 1.35461e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.85774e+02\tAbsError: 7.51298e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.39007e+02\tAbsError: 6.03314e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 4.01021e-02\tAbsError: 2.12584e-02\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 1.63746e+03\tAbsError: 6.22853e+15\n", + " Region: \"zone_1\"\tRelError: 3.24151e-02\tAbsError: 1.77252e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.24151e-02\tAbsError: 1.77252e-02\n", + " Region: \"zone_3\"\tRelError: 1.63743e+03\tAbsError: 6.22853e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.57093e+03\tAbsError: 3.54700e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.64599e+01\tAbsError: 2.68153e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 3.68353e-02\tAbsError: 2.00855e-02\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 4.66473e+04\tAbsError: 1.65128e+15\n", + " Region: \"zone_1\"\tRelError: 3.72589e-02\tAbsError: 1.93441e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.72589e-02\tAbsError: 1.93441e-02\n", + " Region: \"zone_3\"\tRelError: 4.66473e+04\tAbsError: 1.65128e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.35588e+04\tAbsError: 1.14975e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.08852e+03\tAbsError: 5.01532e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.08564e-02\tAbsError: 2.10000e-02\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 2.75087e+04\tAbsError: 1.29732e+14\n", + " Region: \"zone_1\"\tRelError: 1.63751e-03\tAbsError: 8.62426e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.63751e-03\tAbsError: 8.62426e-04\n", + " Region: \"zone_3\"\tRelError: 2.75087e+04\tAbsError: 1.29732e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.46168e+03\tAbsError: 8.16018e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.40470e+04\tAbsError: 4.81304e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.98561e-03\tAbsError: 1.03284e-03\n", + "Iteration: 16\n", + " Device: \"device\"\tRelError: 5.46518e+03\tAbsError: 1.25626e+12\n", + " Region: \"zone_1\"\tRelError: 1.47051e-05\tAbsError: 7.97633e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.47051e-05\tAbsError: 7.97633e-06\n", + " Region: \"zone_3\"\tRelError: 5.46518e+03\tAbsError: 1.25626e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.38697e+03\tAbsError: 7.51084e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.07821e+03\tAbsError: 5.05179e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.75881e-05\tAbsError: 9.27716e-06\n", + "Iteration: 17\n", + " Device: \"device\"\tRelError: 2.77216e-01\tAbsError: 1.06695e+08\n", + " Region: \"zone_1\"\tRelError: 3.00061e-09\tAbsError: 1.68638e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.00061e-09\tAbsError: 1.68638e-09\n", + " Region: \"zone_3\"\tRelError: 2.77216e-01\tAbsError: 1.06695e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.46960e-01\tAbsError: 6.29583e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.02562e-02\tAbsError: 4.37368e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 3.30209e-09\tAbsError: 1.76457e-09\n", + "Iteration: 18\n", + " Device: \"device\"\tRelError: 6.10978e-09\tAbsError: 3.33176e+02\n", + " Region: \"zone_1\"\tRelError: 7.09002e-16\tAbsError: 3.97988e-16\n", + " Equation: \"PotentialEquation\"\tRelError: 7.09002e-16\tAbsError: 3.97988e-16\n", + " Region: \"zone_3\"\tRelError: 6.10977e-09\tAbsError: 3.33176e+02\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.93846e-09\tAbsError: 1.72168e+02\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.71311e-10\tAbsError: 1.61008e+02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.75573e-16\tAbsError: 4.23801e-16\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:32\u001b[0m.\u001b[1;36m827\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mRamping up doping. Scaling by 0.03162277660168379\u001b[0m \n", + "Replacing Node Model NetDoping in region zone_1 of material Si\n", + "Replacing Node Model n_i in region zone_1 of material Si\n", + "Replacing Edge Model n_i@n0 in region zone_1 of material Si\n", + "Replacing Edge Model n_i@n1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en2 in region zone_1 of material Si\n", + "Replacing Node Model n_i:Electrons in region zone_1 of material Si\n", + "Replacing Node Model n_i:Holes in region zone_1 of material Si\n", + "Replacing Node Model n_i:T in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en2 in region zone_1 of material Si\n", + "Replacing Node Model NetDoping in region zone_3 of material Si\n", + "Replacing Node Model n_i in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en2 in region zone_3 of material Si\n", + "Replacing Node Model n_i:Electrons in region zone_3 of material Si\n", + "Replacing Node Model n_i:Holes in region zone_3 of material Si\n", + "Replacing Node Model n_i:T in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:Electrons@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:Holes@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:T@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:Electrons@n1 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:Holes@n1 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:T@n1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en2 in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.18667e+04\tAbsError: 4.42639e+18\n", + " Region: \"zone_1\"\tRelError: 4.54590e-01\tAbsError: 3.65435e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.54590e-01\tAbsError: 3.65435e-02\n", + " Region: \"zone_3\"\tRelError: 6.18663e+04\tAbsError: 4.42639e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.16910e+04\tAbsError: 2.21325e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.01748e+04\tAbsError: 2.21314e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 4.55812e-01\tAbsError: 3.74548e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.75398e+00\tAbsError: 3.67168e+16\n", + " Region: \"zone_1\"\tRelError: 1.54414e-01\tAbsError: 1.18873e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.54414e-01\tAbsError: 1.18873e-02\n", + " Region: \"zone_3\"\tRelError: 2.59956e+00\tAbsError: 3.67168e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.44312e+00\tAbsError: 1.84482e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.00167e+00\tAbsError: 1.82685e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.54775e-01\tAbsError: 1.19406e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.21359e+00\tAbsError: 2.73096e+15\n", + " Region: \"zone_1\"\tRelError: 2.12576e-03\tAbsError: 2.90809e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.12576e-03\tAbsError: 2.90809e-04\n", + " Region: \"zone_3\"\tRelError: 1.21147e+00\tAbsError: 2.73096e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.69344e-01\tAbsError: 1.45487e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.39562e-01\tAbsError: 1.27610e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.55964e-03\tAbsError: 3.14523e-04\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 6.75330e-03\tAbsError: 2.19594e+12\n", + " Region: \"zone_1\"\tRelError: 1.15504e-06\tAbsError: 1.24812e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15504e-06\tAbsError: 1.24812e-07\n", + " Region: \"zone_3\"\tRelError: 6.75214e-03\tAbsError: 2.19594e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.50950e-03\tAbsError: 1.03504e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.24140e-03\tAbsError: 1.16090e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.24282e-06\tAbsError: 1.46046e-07\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.09534e-08\tAbsError: 1.52655e+06\n", + " Region: \"zone_1\"\tRelError: 7.26821e-13\tAbsError: 7.85393e-14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.26821e-13\tAbsError: 7.85393e-14\n", + " Region: \"zone_3\"\tRelError: 2.09527e-08\tAbsError: 1.52655e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98949e-09\tAbsError: 6.59404e+05\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.09623e-08\tAbsError: 8.67143e+05\n", + " Equation: \"PotentialEquation\"\tRelError: 8.44838e-13\tAbsError: 9.68488e-14\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:34\u001b[0m.\u001b[1;36m479\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mRamping up doping. Scaling by 0.1\u001b[0m \n", + "Replacing Node Model NetDoping in region zone_1 of material Si\n", + "Replacing Node Model n_i in region zone_1 of material Si\n", + "Replacing Edge Model n_i@n0 in region zone_1 of material Si\n", + "Replacing Edge Model n_i@n1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en2 in region zone_1 of material Si\n", + "Replacing Node Model n_i:Electrons in region zone_1 of material Si\n", + "Replacing Node Model n_i:Holes in region zone_1 of material Si\n", + "Replacing Node Model n_i:T in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en2 in region zone_1 of material Si\n", + "Replacing Node Model NetDoping in region zone_3 of material Si\n", + "Replacing Node Model n_i in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en2 in region zone_3 of material Si\n", + "Replacing Node Model n_i:Electrons in region zone_3 of material Si\n", + "Replacing Node Model n_i:Holes in region zone_3 of material Si\n", + "Replacing Node Model n_i:T in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:Electrons@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:Holes@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:T@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:Electrons@n1 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:Holes@n1 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:T@n1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en2 in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.39694e+03\tAbsError: 1.39693e+19\n", + " Region: \"zone_1\"\tRelError: 1.06972e+00\tAbsError: 3.13057e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06972e+00\tAbsError: 3.13057e-02\n", + " Region: \"zone_3\"\tRelError: 2.39587e+03\tAbsError: 1.39693e+19\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.53044e+02\tAbsError: 6.98446e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.64175e+03\tAbsError: 6.98488e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07292e+00\tAbsError: 3.13057e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.01295e+00\tAbsError: 5.30343e+16\n", + " Region: \"zone_1\"\tRelError: 4.68874e-01\tAbsError: 9.69744e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 4.68874e-01\tAbsError: 9.69744e-03\n", + " Region: \"zone_3\"\tRelError: 2.54407e+00\tAbsError: 5.30343e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07579e+00\tAbsError: 2.59554e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.98430e-01\tAbsError: 2.70789e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 4.69858e-01\tAbsError: 9.86343e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 6.06000e-01\tAbsError: 4.02078e+15\n", + " Region: \"zone_1\"\tRelError: 1.21931e-03\tAbsError: 2.40897e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21931e-03\tAbsError: 2.40897e-04\n", + " Region: \"zone_3\"\tRelError: 6.04781e-01\tAbsError: 4.02078e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.12380e-01\tAbsError: 2.14256e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.91182e-01\tAbsError: 1.87822e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21931e-03\tAbsError: 2.54339e-04\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.84065e-03\tAbsError: 2.23230e+12\n", + " Region: \"zone_1\"\tRelError: 4.74964e-07\tAbsError: 9.96724e-08\n", + " Equation: \"PotentialEquation\"\tRelError: 4.74964e-07\tAbsError: 9.96724e-08\n", + " Region: \"zone_3\"\tRelError: 1.84017e-03\tAbsError: 2.23230e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.44793e-04\tAbsError: 1.36966e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.09483e-03\tAbsError: 8.62644e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.43349e-07\tAbsError: 1.12867e-07\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.11523e-09\tAbsError: 4.82934e+05\n", + " Region: \"zone_1\"\tRelError: 2.15869e-13\tAbsError: 4.52167e-14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.15869e-13\tAbsError: 4.52167e-14\n", + " Region: \"zone_3\"\tRelError: 1.11501e-09\tAbsError: 4.82934e+05\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83261e-10\tAbsError: 3.45065e+05\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.31495e-10\tAbsError: 1.37869e+05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.54655e-13\tAbsError: 5.34272e-14\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:36\u001b[0m.\u001b[1;36m088\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mRamping up doping. Scaling by 0.31622776601683794\u001b[0m \n", + "Replacing Node Model NetDoping in region zone_1 of material Si\n", + "Replacing Node Model n_i in region zone_1 of material Si\n", + "Replacing Edge Model n_i@n0 in region zone_1 of material Si\n", + "Replacing Edge Model n_i@n1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en2 in region zone_1 of material Si\n", + "Replacing Node Model n_i:Electrons in region zone_1 of material Si\n", + "Replacing Node Model n_i:Holes in region zone_1 of material Si\n", + "Replacing Node Model n_i:T in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en2 in region zone_1 of material Si\n", + "Replacing Node Model NetDoping in region zone_3 of material Si\n", + "Replacing Node Model n_i in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en2 in region zone_3 of material Si\n", + "Replacing Node Model n_i:Electrons in region zone_3 of material Si\n", + "Replacing Node Model n_i:Holes in region zone_3 of material Si\n", + "Replacing Node Model n_i:T in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:Electrons@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:Holes@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:T@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:Electrons@n1 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:Holes@n1 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:T@n1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en2 in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.95472e+03\tAbsError: 4.41411e+19\n", + " Region: \"zone_1\"\tRelError: 3.81043e+02\tAbsError: 2.85345e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.81043e+02\tAbsError: 2.85345e-02\n", + " Region: \"zone_3\"\tRelError: 6.57367e+03\tAbsError: 4.41411e+19\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.14821e+03\tAbsError: 2.20694e+19\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.40994e+03\tAbsError: 2.20718e+19\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01552e+03\tAbsError: 2.85345e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.80786e+03\tAbsError: 6.59033e+16\n", + " Region: \"zone_1\"\tRelError: 2.19832e+02\tAbsError: 1.26527e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.19832e+02\tAbsError: 1.26527e-02\n", + " Region: \"zone_3\"\tRelError: 2.58803e+03\tAbsError: 6.59033e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.51340e+00\tAbsError: 3.52905e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.98731e-01\tAbsError: 3.06128e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.58452e+03\tAbsError: 1.34324e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 9.63105e-01\tAbsError: 8.92986e+14\n", + " Region: \"zone_1\"\tRelError: 2.25408e-01\tAbsError: 6.58954e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.25408e-01\tAbsError: 6.58954e-04\n", + " Region: \"zone_3\"\tRelError: 7.37696e-01\tAbsError: 8.92986e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.80759e-01\tAbsError: 8.00842e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.45120e-01\tAbsError: 9.21447e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18173e-02\tAbsError: 7.04254e-04\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 8.06680e-03\tAbsError: 2.77776e+12\n", + " Region: \"zone_1\"\tRelError: 6.08613e-04\tAbsError: 1.98093e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.08613e-04\tAbsError: 1.98093e-06\n", + " Region: \"zone_3\"\tRelError: 7.45819e-03\tAbsError: 2.77776e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.65188e-03\tAbsError: 2.73367e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.79286e-03\tAbsError: 4.40855e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.34515e-05\tAbsError: 2.15181e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.07461e-07\tAbsError: 2.67458e+07\n", + " Region: \"zone_1\"\tRelError: 6.49905e-09\tAbsError: 2.34425e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 6.49905e-09\tAbsError: 2.34425e-11\n", + " Region: \"zone_3\"\tRelError: 1.00962e-07\tAbsError: 2.67458e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94056e-08\tAbsError: 2.64009e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.13963e-08\tAbsError: 3.44866e+05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.59744e-10\tAbsError: 2.55539e-11\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:37\u001b[0m.\u001b[1;36m675\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mRamping up doping. Scaling by 1.0\u001b[0m \n", + "Replacing Node Model NetDoping in region zone_1 of material Si\n", + "Replacing Node Model n_i in region zone_1 of material Si\n", + "Replacing Edge Model n_i@n0 in region zone_1 of material Si\n", + "Replacing Edge Model n_i@n1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en2 in region zone_1 of material Si\n", + "Replacing Node Model n_i:Electrons in region zone_1 of material Si\n", + "Replacing Node Model n_i:Holes in region zone_1 of material Si\n", + "Replacing Node Model n_i:T in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en2 in region zone_1 of material Si\n", + "Replacing Node Model NetDoping in region zone_3 of material Si\n", + "Replacing Node Model n_i in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en2 in region zone_3 of material Si\n", + "Replacing Node Model n_i:Electrons in region zone_3 of material Si\n", + "Replacing Node Model n_i:Holes in region zone_3 of material Si\n", + "Replacing Node Model n_i:T in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:Electrons@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:Holes@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:T@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:Electrons@n1 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:Holes@n1 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:T@n1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en2 in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.33861e+04\tAbsError: 1.39514e+20\n", + " Region: \"zone_1\"\tRelError: 2.79494e+02\tAbsError: 4.20836e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.79494e+02\tAbsError: 4.20836e-02\n", + " Region: \"zone_3\"\tRelError: 1.31066e+04\tAbsError: 1.39514e+20\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.86187e+03\tAbsError: 6.97553e+19\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.24838e+02\tAbsError: 6.97585e+19\n", + " Equation: \"PotentialEquation\"\tRelError: 9.61994e+03\tAbsError: 4.30246e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.25022e+02\tAbsError: 5.51056e+16\n", + " Region: \"zone_1\"\tRelError: 3.98460e+01\tAbsError: 3.11827e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.98460e+01\tAbsError: 3.11827e-02\n", + " Region: \"zone_3\"\tRelError: 2.85176e+02\tAbsError: 5.51056e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.99835e+01\tAbsError: 2.78545e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.26461e+00\tAbsError: 2.72511e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.33928e+02\tAbsError: 3.22725e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.58594e+00\tAbsError: 1.77512e+15\n", + " Region: \"zone_1\"\tRelError: 5.05411e-02\tAbsError: 2.57431e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.05411e-02\tAbsError: 2.57431e-02\n", + " Region: \"zone_3\"\tRelError: 1.53540e+00\tAbsError: 1.77512e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.84777e-01\tAbsError: 8.67365e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.04763e-01\tAbsError: 9.07757e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.58597e-02\tAbsError: 2.58832e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 8.67888e+00\tAbsError: 5.91098e+13\n", + " Region: \"zone_1\"\tRelError: 1.67922e-02\tAbsError: 8.54135e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.67922e-02\tAbsError: 8.54135e-03\n", + " Region: \"zone_3\"\tRelError: 8.66209e+00\tAbsError: 5.91098e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.42042e+00\tAbsError: 2.76016e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.26176e-01\tAbsError: 3.15082e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.54893e-02\tAbsError: 9.88817e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.81690e-01\tAbsError: 5.88696e+12\n", + " Region: \"zone_1\"\tRelError: 1.48229e-03\tAbsError: 5.31753e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.48229e-03\tAbsError: 5.31753e-05\n", + " Region: \"zone_3\"\tRelError: 7.80207e-01\tAbsError: 5.88696e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.04708e-01\tAbsError: 2.85353e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.54154e-02\tAbsError: 3.03343e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.43580e-05\tAbsError: 5.79660e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.81047e-04\tAbsError: 4.19141e+08\n", + " Region: \"zone_1\"\tRelError: 2.16246e-08\tAbsError: 1.50485e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.16246e-08\tAbsError: 1.50485e-09\n", + " Region: \"zone_3\"\tRelError: 4.81025e-04\tAbsError: 4.19141e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39973e-04\tAbsError: 4.84100e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.10496e-05\tAbsError: 3.70731e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 2.37568e-09\tAbsError: 1.64465e-09\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.08814e-11\tAbsError: 3.17736e+04\n", + " Region: \"zone_1\"\tRelError: 1.06569e-14\tAbsError: 2.06294e-16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06569e-14\tAbsError: 2.06294e-16\n", + " Region: \"zone_3\"\tRelError: 2.08708e-11\tAbsError: 3.17736e+04\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.06175e-11\tAbsError: 1.55596e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.34811e-13\tAbsError: 1.62139e+04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.84794e-14\tAbsError: 2.16987e-16\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m466\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m485\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBuilt-in potential: % (np.float64(-1.0659654762908737),)\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m485\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mnot all arguments converted during string formatting\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m575\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.65 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m576\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.6 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m577\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.55 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m577\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.7 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m578\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.5 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m598\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.6 V. Current applied bias: 0.1\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m599\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.5 V. Current applied bias: 0.1\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m599\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.55 V. Current applied bias: 0.1\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m599\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: 0.1\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m599\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "number of equations 22602\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "number of equations 22602\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.73717e+01\tAbsError: 8.69288e+15\n", + " Region: \"zone_1\"\tRelError: 2.57083e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.57083e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.66335e+00\tAbsError: 8.69288e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.93654e-01\tAbsError: 4.53799e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.93414e-01\tAbsError: 4.15490e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.62866e-02\tAbsError: 4.09542e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.73717e+01\tAbsError: 8.69288e+15\n", + " Region: \"zone_1\"\tRelError: 2.57083e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.57083e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.66335e+00\tAbsError: 8.69288e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.93654e-01\tAbsError: 4.53799e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.93414e-01\tAbsError: 4.15490e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.62866e-02\tAbsError: 4.09542e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.73717e+01\tAbsError: 8.69288e+15\n", + " Region: \"zone_1\"\tRelError: 2.57083e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.57083e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.66335e+00\tAbsError: 8.69288e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.93654e-01\tAbsError: 4.53799e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.93414e-01\tAbsError: 4.15490e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.62866e-02\tAbsError: 4.09542e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.73717e+01\tAbsError: 8.69288e+15\n", + " Region: \"zone_1\"\tRelError: 2.57083e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.57083e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.66335e+00\tAbsError: 8.69288e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.93654e-01\tAbsError: 4.53799e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.93414e-01\tAbsError: 4.15490e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.62866e-02\tAbsError: 4.09542e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.73717e+01\tAbsError: 8.69288e+15\n", + " Region: \"zone_1\"\tRelError: 2.57083e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.57083e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.66335e+00\tAbsError: 8.69288e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.93654e-01\tAbsError: 4.53799e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.93414e-01\tAbsError: 4.15490e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.62866e-02\tAbsError: 4.09542e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.74300e+00\tAbsError: 2.93645e+14\n", + " Region: \"zone_1\"\tRelError: 2.20462e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20462e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.52254e+00\tAbsError: 2.93645e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90423e-01\tAbsError: 1.21723e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.85863e-01\tAbsError: 1.71921e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.62516e-02\tAbsError: 3.07632e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.74300e+00\tAbsError: 2.93645e+14\n", + " Region: \"zone_1\"\tRelError: 2.20462e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20462e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.52254e+00\tAbsError: 2.93645e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90423e-01\tAbsError: 1.21723e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.85863e-01\tAbsError: 1.71921e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.62516e-02\tAbsError: 3.07632e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.74300e+00\tAbsError: 2.93645e+14\n", + " Region: \"zone_1\"\tRelError: 2.20462e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20462e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.52254e+00\tAbsError: 2.93645e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90423e-01\tAbsError: 1.21723e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.85863e-01\tAbsError: 1.71921e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.62516e-02\tAbsError: 3.07632e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.74300e+00\tAbsError: 2.93645e+14\n", + " Region: \"zone_1\"\tRelError: 2.20462e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20462e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.52254e+00\tAbsError: 2.93645e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90423e-01\tAbsError: 1.21723e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.85863e-01\tAbsError: 1.71921e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.62516e-02\tAbsError: 3.07632e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.74300e+00\tAbsError: 2.93645e+14\n", + " Region: \"zone_1\"\tRelError: 2.20462e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20462e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.52254e+00\tAbsError: 2.93645e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90423e-01\tAbsError: 1.21723e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.85863e-01\tAbsError: 1.71921e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.62516e-02\tAbsError: 3.07632e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.07714e+00\tAbsError: 4.48799e+13\n", + " Region: \"zone_1\"\tRelError: 4.05238e-02\tAbsError: 2.58454e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.05238e-02\tAbsError: 2.58454e-02\n", + " Region: \"zone_3\"\tRelError: 1.03661e+00\tAbsError: 4.48799e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14392e-01\tAbsError: 2.36249e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.86252e-01\tAbsError: 2.12550e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.59693e-02\tAbsError: 2.57490e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.07714e+00\tAbsError: 4.48799e+13\n", + " Region: \"zone_1\"\tRelError: 4.05238e-02\tAbsError: 2.58454e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.05238e-02\tAbsError: 2.58454e-02\n", + " Region: \"zone_3\"\tRelError: 1.03661e+00\tAbsError: 4.48799e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14392e-01\tAbsError: 2.36249e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.86252e-01\tAbsError: 2.12550e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.59693e-02\tAbsError: 2.57490e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.07714e+00\tAbsError: 4.48799e+13\n", + " Region: \"zone_1\"\tRelError: 4.05238e-02\tAbsError: 2.58454e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.05238e-02\tAbsError: 2.58454e-02\n", + " Region: \"zone_3\"\tRelError: 1.03661e+00\tAbsError: 4.48799e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14392e-01\tAbsError: 2.36249e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.86252e-01\tAbsError: 2.12550e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.59693e-02\tAbsError: 2.57490e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.07714e+00\tAbsError: 4.48799e+13\n", + " Region: \"zone_1\"\tRelError: 4.05238e-02\tAbsError: 2.58454e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.05238e-02\tAbsError: 2.58454e-02\n", + " Region: \"zone_3\"\tRelError: 1.03661e+00\tAbsError: 4.48799e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14392e-01\tAbsError: 2.36249e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.86252e-01\tAbsError: 2.12550e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.59693e-02\tAbsError: 2.57490e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.07714e+00\tAbsError: 4.48799e+13\n", + " Region: \"zone_1\"\tRelError: 4.05238e-02\tAbsError: 2.58454e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.05238e-02\tAbsError: 2.58454e-02\n", + " Region: \"zone_3\"\tRelError: 1.03661e+00\tAbsError: 4.48799e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14392e-01\tAbsError: 2.36249e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.86252e-01\tAbsError: 2.12550e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.59693e-02\tAbsError: 2.57490e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.81042e-01\tAbsError: 7.01282e+12\n", + " Region: \"zone_1\"\tRelError: 1.15331e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15331e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.69508e-01\tAbsError: 7.01282e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.87363e-01\tAbsError: 9.92393e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.03912e-02\tAbsError: 6.02043e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17537e-02\tAbsError: 9.16534e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.81042e-01\tAbsError: 7.01282e+12\n", + " Region: \"zone_1\"\tRelError: 1.15331e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15331e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.69508e-01\tAbsError: 7.01282e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.87363e-01\tAbsError: 9.92393e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.03912e-02\tAbsError: 6.02043e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17537e-02\tAbsError: 9.16534e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.81042e-01\tAbsError: 7.01282e+12\n", + " Region: \"zone_1\"\tRelError: 1.15331e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15331e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.69508e-01\tAbsError: 7.01282e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.87363e-01\tAbsError: 9.92393e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.03912e-02\tAbsError: 6.02043e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17537e-02\tAbsError: 9.16534e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.81042e-01\tAbsError: 7.01282e+12\n", + " Region: \"zone_1\"\tRelError: 1.15331e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15331e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.69508e-01\tAbsError: 7.01282e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.87363e-01\tAbsError: 9.92393e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.03912e-02\tAbsError: 6.02043e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17537e-02\tAbsError: 9.16534e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.81042e-01\tAbsError: 7.01282e+12\n", + " Region: \"zone_1\"\tRelError: 1.15331e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15331e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.69508e-01\tAbsError: 7.01282e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.87363e-01\tAbsError: 9.92393e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.03912e-02\tAbsError: 6.02043e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17537e-02\tAbsError: 9.16534e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.40625e-02\tAbsError: 6.64799e+12\n", + " Region: \"zone_1\"\tRelError: 2.74618e-03\tAbsError: 3.10429e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.74618e-03\tAbsError: 3.10429e-05\n", + " Region: \"zone_3\"\tRelError: 9.13164e-02\tAbsError: 6.64799e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.88453e-02\tAbsError: 1.24813e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.42442e-03\tAbsError: 5.39986e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.66460e-05\tAbsError: 3.16854e-05\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.40625e-02\tAbsError: 6.64799e+12\n", + " Region: \"zone_1\"\tRelError: 2.74618e-03\tAbsError: 3.10429e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.74618e-03\tAbsError: 3.10429e-05\n", + " Region: \"zone_3\"\tRelError: 9.13164e-02\tAbsError: 6.64799e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.88453e-02\tAbsError: 1.24813e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.42442e-03\tAbsError: 5.39986e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.66460e-05\tAbsError: 3.16854e-05\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.40625e-02\tAbsError: 6.64799e+12\n", + " Region: \"zone_1\"\tRelError: 2.74618e-03\tAbsError: 3.10429e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.74618e-03\tAbsError: 3.10429e-05\n", + " Region: \"zone_3\"\tRelError: 9.13164e-02\tAbsError: 6.64799e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.88453e-02\tAbsError: 1.24813e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.42442e-03\tAbsError: 5.39986e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.66460e-05\tAbsError: 3.16854e-05\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.40625e-02\tAbsError: 6.64799e+12\n", + " Region: \"zone_1\"\tRelError: 2.74618e-03\tAbsError: 3.10429e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.74618e-03\tAbsError: 3.10429e-05\n", + " Region: \"zone_3\"\tRelError: 9.13164e-02\tAbsError: 6.64799e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.88453e-02\tAbsError: 1.24813e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.42442e-03\tAbsError: 5.39986e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.66460e-05\tAbsError: 3.16854e-05\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.40625e-02\tAbsError: 6.64799e+12\n", + " Region: \"zone_1\"\tRelError: 2.74618e-03\tAbsError: 3.10429e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.74618e-03\tAbsError: 3.10429e-05\n", + " Region: \"zone_3\"\tRelError: 9.13164e-02\tAbsError: 6.64799e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.88453e-02\tAbsError: 1.24813e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.42442e-03\tAbsError: 5.39986e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.66460e-05\tAbsError: 3.16854e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.20145e-05\tAbsError: 8.69361e+08\n", + " Region: \"zone_1\"\tRelError: 2.45098e-07\tAbsError: 3.49761e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.45098e-07\tAbsError: 3.49761e-09\n", + " Region: \"zone_3\"\tRelError: 6.17694e-05\tAbsError: 8.69361e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.00240e-05\tAbsError: 1.13923e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.74001e-06\tAbsError: 7.55438e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 5.37090e-09\tAbsError: 3.64623e-09\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:42\u001b[0m.\u001b[1;36m724\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: 0.22\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.20145e-05\tAbsError: 8.69361e+08\n", + " Region: \"zone_1\"\tRelError: 2.45098e-07\tAbsError: 3.49761e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.45098e-07\tAbsError: 3.49761e-09\n", + " Region: \"zone_3\"\tRelError: 6.17694e-05\tAbsError: 8.69361e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.00240e-05\tAbsError: 1.13923e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.74001e-06\tAbsError: 7.55438e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 5.37090e-09\tAbsError: 3.64623e-09\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.20145e-05\tAbsError: 8.69361e+08\n", + " Region: \"zone_1\"\tRelError: 2.45098e-07\tAbsError: 3.49761e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.45098e-07\tAbsError: 3.49761e-09\n", + " Region: \"zone_3\"\tRelError: 6.17694e-05\tAbsError: 8.69361e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.00240e-05\tAbsError: 1.13923e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.74001e-06\tAbsError: 7.55438e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 5.37090e-09\tAbsError: 3.64623e-09\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:42\u001b[0m.\u001b[1;36m871\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.55 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:42\u001b[0m.\u001b[1;36m871\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.21250000000000002\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:42\u001b[0m.\u001b[1;36m875\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.6 V. Current applied bias: 0.225\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.20145e-05\tAbsError: 8.69361e+08\n", + " Region: \"zone_1\"\tRelError: 2.45098e-07\tAbsError: 3.49761e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.45098e-07\tAbsError: 3.49761e-09\n", + " Region: \"zone_3\"\tRelError: 6.17694e-05\tAbsError: 8.69361e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.00240e-05\tAbsError: 1.13923e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.74001e-06\tAbsError: 7.55438e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 5.37090e-09\tAbsError: 3.64623e-09\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.20145e-05\tAbsError: 8.69361e+08\n", + " Region: \"zone_1\"\tRelError: 2.45098e-07\tAbsError: 3.49761e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.45098e-07\tAbsError: 3.49761e-09\n", + " Region: \"zone_3\"\tRelError: 6.17694e-05\tAbsError: 8.69361e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.00240e-05\tAbsError: 1.13923e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.74001e-06\tAbsError: 7.55438e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 5.37090e-09\tAbsError: 3.64623e-09\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:42\u001b[0m.\u001b[1;36m991\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:42\u001b[0m.\u001b[1;36m991\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.21000000000000002\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:43\u001b[0m.\u001b[1;36m002\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.5 V. Current applied bias: 0.2\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "number of equations 22602\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.43252e+01\tAbsError: 1.03421e+16\n", + " Region: \"zone_1\"\tRelError: 2.25819e+01\tAbsError: 4.47728e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.25819e+01\tAbsError: 4.47728e-02\n", + " Region: \"zone_3\"\tRelError: 1.74335e+00\tAbsError: 1.03421e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.22691e-01\tAbsError: 5.59498e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.22662e-01\tAbsError: 4.74717e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.79926e-02\tAbsError: 4.47728e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.99855e+02\tAbsError: 1.07731e+16\n", + " Region: \"zone_1\"\tRelError: 3.98095e+02\tAbsError: 4.56455e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.98095e+02\tAbsError: 4.56455e-02\n", + " Region: \"zone_3\"\tRelError: 1.75960e+00\tAbsError: 1.07731e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.28567e-01\tAbsError: 5.82810e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.28539e-01\tAbsError: 4.94497e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02494e-01\tAbsError: 4.56455e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.05002e+01\tAbsError: 9.69576e+15\n", + " Region: \"zone_1\"\tRelError: 8.77946e+00\tAbsError: 4.34059e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.77946e+00\tAbsError: 4.34059e-02\n", + " Region: \"zone_3\"\tRelError: 1.72076e+00\tAbsError: 9.69576e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.13079e-01\tAbsError: 5.24529e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.13050e-01\tAbsError: 4.45048e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.46281e-02\tAbsError: 4.34059e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 9.99488e+00\tAbsError: 9.48030e+15\n", + " Region: \"zone_1\"\tRelError: 8.28205e+00\tAbsError: 4.29338e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.28205e+00\tAbsError: 4.29338e-02\n", + " Region: \"zone_3\"\tRelError: 1.71283e+00\tAbsError: 9.48030e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09640e-01\tAbsError: 5.12873e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.09610e-01\tAbsError: 4.35158e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.35761e-02\tAbsError: 4.29338e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.60543e+00\tAbsError: 4.89557e+14\n", + " Region: \"zone_1\"\tRelError: 9.64208e-01\tAbsError: 3.52793e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.64208e-01\tAbsError: 3.52793e-02\n", + " Region: \"zone_3\"\tRelError: 1.64122e+00\tAbsError: 4.89557e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.40829e-01\tAbsError: 2.23317e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.35914e-01\tAbsError: 2.66240e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.44805e-02\tAbsError: 3.52793e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.21485e+01\tAbsError: 8.61846e+15\n", + " Region: \"zone_1\"\tRelError: 3.04717e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.04717e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.67686e+00\tAbsError: 8.61846e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94516e-01\tAbsError: 4.66248e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94484e-01\tAbsError: 3.95598e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.78603e-02\tAbsError: 4.09542e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.78928e+00\tAbsError: 5.28938e+14\n", + " Region: \"zone_1\"\tRelError: 1.12561e+00\tAbsError: 3.63154e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12561e+00\tAbsError: 3.63154e-02\n", + " Region: \"zone_3\"\tRelError: 1.66367e+00\tAbsError: 5.28938e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.50678e-01\tAbsError: 2.41685e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.46054e-01\tAbsError: 2.87253e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.69416e-02\tAbsError: 3.63154e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.84157e+00\tAbsError: 4.32896e+14\n", + " Region: \"zone_1\"\tRelError: 2.36912e-01\tAbsError: 3.36589e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.36912e-01\tAbsError: 3.36589e-02\n", + " Region: \"zone_3\"\tRelError: 1.60466e+00\tAbsError: 4.32896e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.24168e-01\tAbsError: 1.96905e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.19345e-01\tAbsError: 2.35991e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.11504e-02\tAbsError: 3.36589e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.85366e+00\tAbsError: 4.14640e+14\n", + " Region: \"zone_1\"\tRelError: 2.61180e-01\tAbsError: 3.31000e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.61180e-01\tAbsError: 3.31000e-02\n", + " Region: \"zone_3\"\tRelError: 1.59248e+00\tAbsError: 4.14640e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.17871e-01\tAbsError: 1.88389e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.13734e-01\tAbsError: 2.26251e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.08768e-02\tAbsError: 3.31000e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.43347e+00\tAbsError: 7.21532e+13\n", + " Region: \"zone_1\"\tRelError: 1.81992e-01\tAbsError: 2.58895e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.81992e-01\tAbsError: 2.58895e-02\n", + " Region: \"zone_3\"\tRelError: 1.25148e+00\tAbsError: 7.21532e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.01180e-01\tAbsError: 4.01174e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.02411e-01\tAbsError: 3.20358e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.78909e-02\tAbsError: 2.58895e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.07800e+00\tAbsError: 3.45404e+14\n", + " Region: \"zone_1\"\tRelError: 5.44178e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.44178e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.53382e+00\tAbsError: 3.45404e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90662e-01\tAbsError: 1.56300e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.87478e-01\tAbsError: 1.89103e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.56802e-02\tAbsError: 3.07632e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.45137e+00\tAbsError: 8.09526e+13\n", + " Region: \"zone_1\"\tRelError: 1.57705e-01\tAbsError: 2.56964e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.57705e-01\tAbsError: 2.56964e-02\n", + " Region: \"zone_3\"\tRelError: 1.29366e+00\tAbsError: 8.09526e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.19167e-01\tAbsError: 4.49957e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.25437e-01\tAbsError: 3.59570e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.90582e-02\tAbsError: 2.58393e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.22755e+00\tAbsError: 6.01612e+13\n", + " Region: \"zone_1\"\tRelError: 4.61375e-02\tAbsError: 2.58854e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.61375e-02\tAbsError: 2.58854e-02\n", + " Region: \"zone_3\"\tRelError: 1.18141e+00\tAbsError: 6.01612e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.71455e-01\tAbsError: 3.35148e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.63762e-01\tAbsError: 2.66464e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.61967e-02\tAbsError: 2.58870e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.20078e+00\tAbsError: 5.64838e+13\n", + " Region: \"zone_1\"\tRelError: 4.55160e-02\tAbsError: 2.58865e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.55160e-02\tAbsError: 2.58865e-02\n", + " Region: \"zone_3\"\tRelError: 1.15526e+00\tAbsError: 5.64838e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.61025e-01\tAbsError: 3.15083e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.48693e-01\tAbsError: 2.49756e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.55410e-02\tAbsError: 2.58905e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.89326e-01\tAbsError: 4.13996e+12\n", + " Region: \"zone_1\"\tRelError: 2.41774e-02\tAbsError: 1.57805e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.41774e-02\tAbsError: 1.57805e-02\n", + " Region: \"zone_3\"\tRelError: 5.65148e-01\tAbsError: 4.13996e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.73951e-01\tAbsError: 2.57829e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.66640e-01\tAbsError: 1.56166e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.45580e-02\tAbsError: 1.57805e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.11313e+00\tAbsError: 4.26791e+13\n", + " Region: \"zone_1\"\tRelError: 7.05940e-02\tAbsError: 2.58377e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.05940e-02\tAbsError: 2.58377e-02\n", + " Region: \"zone_3\"\tRelError: 1.04254e+00\tAbsError: 4.26791e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14646e-01\tAbsError: 2.38411e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.85599e-01\tAbsError: 1.88379e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.22941e-02\tAbsError: 2.58015e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.96834e-01\tAbsError: 3.38950e+12\n", + " Region: \"zone_1\"\tRelError: 1.98031e-02\tAbsError: 1.31065e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.98031e-02\tAbsError: 1.31065e-02\n", + " Region: \"zone_3\"\tRelError: 4.77031e-01\tAbsError: 3.38950e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.31319e-01\tAbsError: 2.13807e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.25594e-01\tAbsError: 1.25143e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.01182e-02\tAbsError: 1.31065e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.67195e-01\tAbsError: 2.99700e+12\n", + " Region: \"zone_1\"\tRelError: 1.84458e-02\tAbsError: 1.22654e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.84458e-02\tAbsError: 1.22654e-02\n", + " Region: \"zone_3\"\tRelError: 4.48750e-01\tAbsError: 2.99700e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.16869e-01\tAbsError: 1.89558e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.13140e-01\tAbsError: 1.10142e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87406e-02\tAbsError: 1.22654e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 6.52999e-01\tAbsError: 4.87650e+12\n", + " Region: \"zone_1\"\tRelError: 2.73515e-02\tAbsError: 1.76835e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.73515e-02\tAbsError: 1.76835e-02\n", + " Region: \"zone_3\"\tRelError: 6.25648e-01\tAbsError: 4.87650e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.01915e-01\tAbsError: 3.02544e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.95961e-01\tAbsError: 1.85106e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.77724e-02\tAbsError: 1.76835e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.59775e-01\tAbsError: 2.80288e+11\n", + " Region: \"zone_1\"\tRelError: 1.96302e-04\tAbsError: 1.31500e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.96302e-04\tAbsError: 1.31500e-06\n", + " Region: \"zone_3\"\tRelError: 1.59578e-01\tAbsError: 2.80288e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.59143e-01\tAbsError: 4.20993e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.33221e-04\tAbsError: 2.38189e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.47952e-06\tAbsError: 1.35652e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.83480e-01\tAbsError: 2.88954e+12\n", + " Region: \"zone_1\"\tRelError: 1.35212e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35212e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.69958e-01\tAbsError: 2.88954e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88338e-01\tAbsError: 2.12977e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.78790e-02\tAbsError: 2.67656e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37417e-02\tAbsError: 9.16534e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.27801e-01\tAbsError: 4.34192e+11\n", + " Region: \"zone_1\"\tRelError: 2.46783e-04\tAbsError: 4.60435e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.46783e-04\tAbsError: 4.60435e-06\n", + " Region: \"zone_3\"\tRelError: 1.27554e-01\tAbsError: 4.34192e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.27237e-01\tAbsError: 2.24685e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.08059e-04\tAbsError: 2.09506e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 8.98221e-06\tAbsError: 4.88811e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.18420e-01\tAbsError: 2.77452e+11\n", + " Region: \"zone_1\"\tRelError: 1.60281e-04\tAbsError: 2.62019e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.60281e-04\tAbsError: 2.62019e-06\n", + " Region: \"zone_3\"\tRelError: 1.18259e-01\tAbsError: 2.77452e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.18060e-01\tAbsError: 1.27601e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.94154e-04\tAbsError: 1.49851e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.08922e-06\tAbsError: 2.78229e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.84172e-01\tAbsError: 1.90697e+11\n", + " Region: \"zone_1\"\tRelError: 6.30141e-05\tAbsError: 1.39710e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.30141e-05\tAbsError: 1.39710e-06\n", + " Region: \"zone_3\"\tRelError: 1.84109e-01\tAbsError: 1.90697e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.83263e-01\tAbsError: 3.06155e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.42765e-04\tAbsError: 1.60082e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.64032e-06\tAbsError: 1.43554e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.92675e-06\tAbsError: 1.03497e+06\n", + " Region: \"zone_1\"\tRelError: 7.52446e-10\tAbsError: 5.33045e-12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.52446e-10\tAbsError: 5.33045e-12\n", + " Region: \"zone_3\"\tRelError: 5.92599e-06\tAbsError: 1.03497e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.92250e-06\tAbsError: 2.38573e+05\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.48197e-09\tAbsError: 7.96401e+05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02976e-11\tAbsError: 5.60919e-12\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.38444e-02\tAbsError: 3.70458e+12\n", + " Region: \"zone_1\"\tRelError: 3.59871e-03\tAbsError: 2.71390e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.59871e-03\tAbsError: 2.71390e-05\n", + " Region: \"zone_3\"\tRelError: 9.02457e-02\tAbsError: 3.70458e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.84320e-02\tAbsError: 1.19345e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.76575e-03\tAbsError: 2.51114e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.79561e-05\tAbsError: 2.71828e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:44\u001b[0m.\u001b[1;36m997\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:44\u001b[0m.\u001b[1;36m997\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.33999999999999997\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.29843e-05\tAbsError: 5.43351e+06\n", + " Region: \"zone_1\"\tRelError: 1.09761e-09\tAbsError: 3.62523e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09761e-09\tAbsError: 3.62523e-11\n", + " Region: \"zone_3\"\tRelError: 1.29832e-05\tAbsError: 5.43351e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.29355e-05\tAbsError: 5.10581e+05\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.76677e-08\tAbsError: 4.92293e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.63478e-11\tAbsError: 3.77119e-11\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:45\u001b[0m.\u001b[1;36m089\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.55 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:45\u001b[0m.\u001b[1;36m089\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.32500000000000007\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.49173e-06\tAbsError: 2.80652e+06\n", + " Region: \"zone_1\"\tRelError: 5.46308e-10\tAbsError: 1.14586e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.46308e-10\tAbsError: 1.14586e-11\n", + " Region: \"zone_3\"\tRelError: 6.49119e-06\tAbsError: 2.80652e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.47826e-06\tAbsError: 4.87875e+05\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.29012e-08\tAbsError: 2.31865e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.30092e-11\tAbsError: 1.26062e-11\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.87003e-06\tAbsError: 3.02548e+06\n", + " Region: \"zone_1\"\tRelError: 1.49583e-09\tAbsError: 1.05811e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49583e-09\tAbsError: 1.05811e-11\n", + " Region: \"zone_3\"\tRelError: 4.86853e-06\tAbsError: 3.02548e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.85850e-06\tAbsError: 6.55593e+05\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.00060e-08\tAbsError: 2.36989e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.59711e-11\tAbsError: 1.24054e-11\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:45\u001b[0m.\u001b[1;36m223\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:45\u001b[0m.\u001b[1;36m223\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.32000000000000006\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.96038e-05\tAbsError: 5.27330e+08\n", + " Region: \"zone_1\"\tRelError: 3.38320e-07\tAbsError: 2.80513e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.38320e-07\tAbsError: 2.80513e-09\n", + " Region: \"zone_3\"\tRelError: 4.92654e-05\tAbsError: 5.27330e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.82203e-05\tAbsError: 1.20057e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.04006e-06\tAbsError: 4.07273e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 5.04648e-09\tAbsError: 2.84942e-09\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:45\u001b[0m.\u001b[1;36m267\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.6 V. Current applied bias: 0.35\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:45\u001b[0m.\u001b[1;36m310\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.5 V. Current applied bias: \u001b[0m \n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:45\u001b[0m.\u001b[1;36m310\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.47853e+01\tAbsError: 1.02519e+16\n", + " Region: \"zone_1\"\tRelError: 1.30252e+01\tAbsError: 4.47728e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.30252e+01\tAbsError: 4.47728e-02\n", + " Region: \"zone_3\"\tRelError: 1.76018e+00\tAbsError: 1.02519e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.22739e-01\tAbsError: 5.83243e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.22729e-01\tAbsError: 4.41946e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14714e-01\tAbsError: 4.47728e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.89525e+01\tAbsError: 9.61793e+15\n", + " Region: \"zone_1\"\tRelError: 1.72162e+01\tAbsError: 4.34059e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72162e+01\tAbsError: 4.34059e-02\n", + " Region: \"zone_3\"\tRelError: 1.73629e+00\tAbsError: 9.61793e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.13130e-01\tAbsError: 5.45653e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.13119e-01\tAbsError: 4.16140e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10045e-01\tAbsError: 4.34059e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.10506e+01\tAbsError: 9.40634e+15\n", + " Region: \"zone_1\"\tRelError: 9.32438e+00\tAbsError: 4.29338e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.32438e+00\tAbsError: 4.29338e-02\n", + " Region: \"zone_3\"\tRelError: 1.72626e+00\tAbsError: 9.40634e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09691e-01\tAbsError: 5.33144e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.09680e-01\tAbsError: 4.07489e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06894e-01\tAbsError: 4.29338e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.20730e+00\tAbsError: 4.79565e+14\n", + " Region: \"zone_1\"\tRelError: 5.48136e-01\tAbsError: 3.52793e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.48136e-01\tAbsError: 3.52793e-02\n", + " Region: \"zone_3\"\tRelError: 1.65917e+00\tAbsError: 4.79565e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.41117e-01\tAbsError: 2.59100e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.36240e-01\tAbsError: 2.20465e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.18119e-02\tAbsError: 3.52793e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.62677e+00\tAbsError: 8.55868e+15\n", + " Region: \"zone_1\"\tRelError: 3.93566e+00\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.93566e+00\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.69111e+00\tAbsError: 8.55868e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94568e-01\tAbsError: 4.83229e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94557e-01\tAbsError: 3.72639e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01989e-01\tAbsError: 4.09542e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.85666e+01\tAbsError: 1.06738e+16\n", + " Region: \"zone_1\"\tRelError: 2.67884e+01\tAbsError: 4.56455e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.67884e+01\tAbsError: 4.56455e-02\n", + " Region: \"zone_3\"\tRelError: 1.77824e+00\tAbsError: 1.06738e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.28615e-01\tAbsError: 6.08350e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.28605e-01\tAbsError: 4.59032e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21017e-01\tAbsError: 4.56455e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 4.51523e+00\tAbsError: 4.22739e+14\n", + " Region: \"zone_1\"\tRelError: 2.89450e+00\tAbsError: 3.36589e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.89450e+00\tAbsError: 3.36589e-02\n", + " Region: \"zone_3\"\tRelError: 1.62073e+00\tAbsError: 4.22739e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.23769e-01\tAbsError: 2.24190e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.20407e-01\tAbsError: 1.98549e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.65581e-02\tAbsError: 3.36589e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.26294e+00\tAbsError: 4.04710e+14\n", + " Region: \"zone_1\"\tRelError: 6.55990e-01\tAbsError: 3.31000e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.55990e-01\tAbsError: 3.31000e-02\n", + " Region: \"zone_3\"\tRelError: 1.60695e+00\tAbsError: 4.04710e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.17961e-01\tAbsError: 2.13363e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.14153e-01\tAbsError: 1.91347e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.48377e-02\tAbsError: 3.31000e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.33125e+00\tAbsError: 4.12213e+13\n", + " Region: \"zone_1\"\tRelError: 6.47491e-02\tAbsError: 2.57580e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.47491e-02\tAbsError: 2.57580e-02\n", + " Region: \"zone_3\"\tRelError: 1.26650e+00\tAbsError: 4.12213e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.01161e-01\tAbsError: 2.62343e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.03820e-01\tAbsError: 1.49870e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.15242e-02\tAbsError: 2.57829e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.64610e+00\tAbsError: 3.68437e+13\n", + " Region: \"zone_1\"\tRelError: 4.53119e-01\tAbsError: 2.58087e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.53119e-01\tAbsError: 2.58087e-02\n", + " Region: \"zone_3\"\tRelError: 1.19298e+00\tAbsError: 3.68437e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.71779e-01\tAbsError: 2.36334e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.63005e-01\tAbsError: 1.32103e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.81958e-02\tAbsError: 2.58820e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.68467e+00\tAbsError: 3.35446e+14\n", + " Region: \"zone_1\"\tRelError: 1.36557e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.36557e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.54812e+00\tAbsError: 3.35446e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90679e-01\tAbsError: 1.72457e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.87899e-01\tAbsError: 1.62989e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.95382e-02\tAbsError: 3.07632e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 6.89383e+00\tAbsError: 5.18509e+14\n", + " Region: \"zone_1\"\tRelError: 5.21126e+00\tAbsError: 3.63154e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.21126e+00\tAbsError: 3.63154e-02\n", + " Region: \"zone_3\"\tRelError: 1.68257e+00\tAbsError: 5.18509e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.50957e-01\tAbsError: 2.83335e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.46413e-01\tAbsError: 2.35173e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.51973e-02\tAbsError: 3.63154e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.24212e+00\tAbsError: 3.49826e+13\n", + " Region: \"zone_1\"\tRelError: 7.44892e-02\tAbsError: 2.58685e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.44892e-02\tAbsError: 2.58685e-02\n", + " Region: \"zone_3\"\tRelError: 1.16763e+00\tAbsError: 3.49826e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.61171e-01\tAbsError: 2.23843e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.49557e-01\tAbsError: 1.25983e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.68989e-02\tAbsError: 2.58685e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 6.01287e-01\tAbsError: 4.15111e+12\n", + " Region: \"zone_1\"\tRelError: 3.07780e-02\tAbsError: 1.57805e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.07780e-02\tAbsError: 1.57805e-02\n", + " Region: \"zone_3\"\tRelError: 5.70509e-01\tAbsError: 4.15111e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.73696e-01\tAbsError: 2.44163e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.65705e-01\tAbsError: 1.70948e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.11079e-02\tAbsError: 1.57805e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.10405e+00\tAbsError: 2.84626e+13\n", + " Region: \"zone_1\"\tRelError: 5.09442e-02\tAbsError: 2.58970e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.09442e-02\tAbsError: 2.58970e-02\n", + " Region: \"zone_3\"\tRelError: 1.05311e+00\tAbsError: 2.84626e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14915e-01\tAbsError: 1.81960e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.86897e-01\tAbsError: 1.02666e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.12979e-02\tAbsError: 2.58565e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.68433e+00\tAbsError: 4.64869e+13\n", + " Region: \"zone_1\"\tRelError: 3.73668e-01\tAbsError: 2.58485e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.73668e-01\tAbsError: 2.58485e-02\n", + " Region: \"zone_3\"\tRelError: 1.31067e+00\tAbsError: 4.64869e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.19200e-01\tAbsError: 3.02498e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.27007e-01\tAbsError: 1.62371e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.44592e-02\tAbsError: 2.58694e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.05251e-01\tAbsError: 2.85806e+12\n", + " Region: \"zone_1\"\tRelError: 2.46961e-02\tAbsError: 1.31065e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.46961e-02\tAbsError: 1.31065e-02\n", + " Region: \"zone_3\"\tRelError: 4.80555e-01\tAbsError: 2.85806e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.31249e-01\tAbsError: 1.68183e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.24321e-01\tAbsError: 1.17623e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49853e-02\tAbsError: 1.31065e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.59361e-01\tAbsError: 2.03855e+11\n", + " Region: \"zone_1\"\tRelError: 1.21525e-04\tAbsError: 1.10173e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21525e-04\tAbsError: 1.10173e-06\n", + " Region: \"zone_3\"\tRelError: 1.59240e-01\tAbsError: 2.03855e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.58701e-01\tAbsError: 6.56291e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.35370e-04\tAbsError: 1.38226e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.20073e-06\tAbsError: 1.24268e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.74278e-01\tAbsError: 2.59384e+12\n", + " Region: \"zone_1\"\tRelError: 2.28487e-02\tAbsError: 1.22654e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.28487e-02\tAbsError: 1.22654e-02\n", + " Region: \"zone_3\"\tRelError: 4.51429e-01\tAbsError: 2.59384e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.16516e-01\tAbsError: 1.52691e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.11789e-01\tAbsError: 1.06693e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.31245e-02\tAbsError: 1.22654e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.87738e-01\tAbsError: 1.50257e+12\n", + " Region: \"zone_1\"\tRelError: 1.63299e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.63299e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.71408e-01\tAbsError: 1.50257e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88723e-01\tAbsError: 2.92089e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.61472e-02\tAbsError: 1.21048e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65380e-02\tAbsError: 9.16534e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 6.67356e-01\tAbsError: 4.97105e+12\n", + " Region: \"zone_1\"\tRelError: 3.52993e-02\tAbsError: 1.76835e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.52993e-02\tAbsError: 1.76835e-02\n", + " Region: \"zone_3\"\tRelError: 6.32056e-01\tAbsError: 4.97105e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.01229e-01\tAbsError: 2.83328e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.95149e-01\tAbsError: 2.13777e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.56785e-02\tAbsError: 1.76835e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.18030e-06\tAbsError: 1.23059e+06\n", + " Region: \"zone_1\"\tRelError: 2.53347e-11\tAbsError: 5.61891e-12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.53347e-11\tAbsError: 5.61891e-12\n", + " Region: \"zone_3\"\tRelError: 2.18028e-06\tAbsError: 1.23059e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.16612e-06\tAbsError: 1.68178e+05\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.41360e-08\tAbsError: 1.06241e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.46617e-11\tAbsError: 6.26882e-12\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.19005e-01\tAbsError: 5.46470e+11\n", + " Region: \"zone_1\"\tRelError: 5.19598e-04\tAbsError: 3.00981e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.19598e-04\tAbsError: 3.00981e-06\n", + " Region: \"zone_3\"\tRelError: 1.18486e-01\tAbsError: 5.46470e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.18069e-01\tAbsError: 1.59389e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.09405e-04\tAbsError: 3.87081e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 7.48302e-06\tAbsError: 3.25953e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:47\u001b[0m.\u001b[1;36m224\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:47\u001b[0m.\u001b[1;36m224\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.45999999999999996\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.32086e-01\tAbsError: 3.58732e+11\n", + " Region: \"zone_1\"\tRelError: 3.52069e-03\tAbsError: 3.46952e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.52069e-03\tAbsError: 3.46952e-06\n", + " Region: \"zone_3\"\tRelError: 1.28565e-01\tAbsError: 3.58732e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28060e-01\tAbsError: 1.88253e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.95953e-04\tAbsError: 1.70479e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 8.82064e-06\tAbsError: 3.74489e-06\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.96849e-02\tAbsError: 2.07362e+12\n", + " Region: \"zone_1\"\tRelError: 7.02885e-04\tAbsError: 1.90198e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.02885e-04\tAbsError: 1.90198e-05\n", + " Region: \"zone_3\"\tRelError: 8.89820e-02\tAbsError: 2.07362e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.78375e-02\tAbsError: 8.90891e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10276e-03\tAbsError: 1.18273e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.17313e-05\tAbsError: 1.96984e-05\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.85665e-01\tAbsError: 3.55505e+11\n", + " Region: \"zone_1\"\tRelError: 1.22203e-03\tAbsError: 2.29161e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.22203e-03\tAbsError: 2.29161e-06\n", + " Region: \"zone_3\"\tRelError: 1.84443e-01\tAbsError: 3.55505e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.83320e-01\tAbsError: 1.35128e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.11619e-03\tAbsError: 2.20377e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 6.84121e-06\tAbsError: 2.55517e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.40982e-05\tAbsError: 1.92019e+08\n", + " Region: \"zone_1\"\tRelError: 4.03285e-08\tAbsError: 1.17477e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 4.03285e-08\tAbsError: 1.17477e-09\n", + " Region: \"zone_3\"\tRelError: 3.40579e-05\tAbsError: 1.92019e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.36060e-05\tAbsError: 5.55444e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.49187e-07\tAbsError: 1.36475e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 2.67835e-09\tAbsError: 1.26430e-09\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.06553e-05\tAbsError: 3.01286e+06\n", + " Region: \"zone_1\"\tRelError: 1.31838e-08\tAbsError: 2.69287e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31838e-08\tAbsError: 2.69287e-11\n", + " Region: \"zone_3\"\tRelError: 1.06421e-05\tAbsError: 3.01286e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.05960e-05\tAbsError: 5.16247e+05\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.60244e-08\tAbsError: 2.49661e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.27167e-11\tAbsError: 2.84312e-11\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:47\u001b[0m.\u001b[1;36m647\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.5 V. Current applied bias: 0.4\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:47\u001b[0m.\u001b[1;36m649\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.55 V. Current applied bias: 0.4375\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Iteration: 5\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 8.63620e-06\tAbsError: 2.22522e+06\n", + " Region: \"zone_1\"\tRelError: 2.53869e-09\tAbsError: 2.37681e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.53869e-09\tAbsError: 2.37681e-11\n", + " Region: \"zone_3\"\tRelError: 8.63366e-06\tAbsError: 2.22522e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.60416e-06\tAbsError: 5.72923e+05\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.94484e-08\tAbsError: 1.65229e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.35026e-11\tAbsError: 2.45711e-11\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 5\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 5.34503e-06\tAbsError: 4.05779e+06\n", + " Region: \"zone_1\"\tRelError: 3.22995e-10\tAbsError: 2.21843e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.22995e-10\tAbsError: 2.21843e-11\n", + " Region: \"zone_3\"\tRelError: 5.34471e-06\tAbsError: 4.05779e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.27797e-06\tAbsError: 6.65666e+05\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.66791e-08\tAbsError: 3.39213e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.85320e-11\tAbsError: 2.41530e-11\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:47\u001b[0m.\u001b[1;36m741\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:47\u001b[0m.\u001b[1;36m741\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.43000000000000005\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:47\u001b[0m.\u001b[1;36m776\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.6 V. Current applied bias: 0.475\u001b[0m \n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.64361e+01\tAbsError: 1.00688e+16\n", + " Region: \"zone_1\"\tRelError: 1.46549e+01\tAbsError: 4.47728e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.46549e+01\tAbsError: 4.47728e-02\n", + " Region: \"zone_3\"\tRelError: 1.78122e+00\tAbsError: 1.00688e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.22740e-01\tAbsError: 5.91653e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.22726e-01\tAbsError: 4.15223e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35753e-01\tAbsError: 4.47728e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.36121e+00\tAbsError: 9.46924e+15\n", + " Region: \"zone_1\"\tRelError: 3.60591e+00\tAbsError: 4.34059e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.60591e+00\tAbsError: 4.34059e-02\n", + " Region: \"zone_3\"\tRelError: 1.75530e+00\tAbsError: 9.46924e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.13131e-01\tAbsError: 5.54964e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.13117e-01\tAbsError: 3.91961e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29049e-01\tAbsError: 4.34059e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.56244e+00\tAbsError: 8.45570e+15\n", + " Region: \"zone_1\"\tRelError: 3.85573e+00\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.85573e+00\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.70670e+00\tAbsError: 8.45570e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94571e-01\tAbsError: 4.92914e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94557e-01\tAbsError: 3.52655e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17574e-01\tAbsError: 4.09542e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 4.57466e+00\tAbsError: 9.26788e+15\n", + " Region: \"zone_1\"\tRelError: 2.82864e+00\tAbsError: 4.29338e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.82864e+00\tAbsError: 4.29338e-02\n", + " Region: \"zone_3\"\tRelError: 1.74602e+00\tAbsError: 9.26788e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09693e-01\tAbsError: 5.42632e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.09679e-01\tAbsError: 3.84156e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.26649e-01\tAbsError: 4.29338e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.02844e+01\tAbsError: 1.04643e+16\n", + " Region: \"zone_1\"\tRelError: 1.84861e+01\tAbsError: 4.56455e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.84861e+01\tAbsError: 4.56455e-02\n", + " Region: \"zone_3\"\tRelError: 1.79828e+00\tAbsError: 1.04643e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.28615e-01\tAbsError: 6.15809e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.28601e-01\tAbsError: 4.30618e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.41062e-01\tAbsError: 4.56455e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.89083e+00\tAbsError: 4.70583e+14\n", + " Region: \"zone_1\"\tRelError: 2.07990e-01\tAbsError: 3.52793e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.07990e-01\tAbsError: 3.52793e-02\n", + " Region: \"zone_3\"\tRelError: 1.68284e+00\tAbsError: 4.70583e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.41003e-01\tAbsError: 3.14025e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.36896e-01\tAbsError: 1.56557e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04944e-01\tAbsError: 3.52793e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.75354e+00\tAbsError: 4.15023e+14\n", + " Region: \"zone_1\"\tRelError: 1.11621e-01\tAbsError: 3.36589e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11621e-01\tAbsError: 3.36589e-02\n", + " Region: \"zone_3\"\tRelError: 1.64192e+00\tAbsError: 4.15023e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.24008e-01\tAbsError: 2.68102e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.20579e-01\tAbsError: 1.46921e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.73304e-02\tAbsError: 3.36589e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.67739e+00\tAbsError: 3.26551e+14\n", + " Region: \"zone_1\"\tRelError: 1.13651e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13651e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.56374e+00\tAbsError: 3.26551e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91179e-01\tAbsError: 1.98410e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.87607e-01\tAbsError: 1.28141e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.49517e-02\tAbsError: 3.07632e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.73313e+00\tAbsError: 3.96589e+14\n", + " Region: \"zone_1\"\tRelError: 1.05624e-01\tAbsError: 3.31000e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.05624e-01\tAbsError: 3.31000e-02\n", + " Region: \"zone_3\"\tRelError: 1.62751e+00\tAbsError: 3.96589e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.17540e-01\tAbsError: 2.53211e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.15147e-01\tAbsError: 1.43378e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.48212e-02\tAbsError: 3.31000e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.03555e+00\tAbsError: 5.15225e+14\n", + " Region: \"zone_1\"\tRelError: 3.28232e-01\tAbsError: 3.63154e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.28232e-01\tAbsError: 3.63154e-02\n", + " Region: \"zone_3\"\tRelError: 1.70731e+00\tAbsError: 5.15225e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.51762e-01\tAbsError: 3.53233e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.46051e-01\tAbsError: 1.61993e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09502e-01\tAbsError: 3.63154e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.37866e+00\tAbsError: 9.07304e+13\n", + " Region: \"zone_1\"\tRelError: 8.45133e-02\tAbsError: 2.58376e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.45133e-02\tAbsError: 2.58376e-02\n", + " Region: \"zone_3\"\tRelError: 1.29414e+00\tAbsError: 9.07304e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.01230e-01\tAbsError: 6.48171e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.08400e-01\tAbsError: 2.59132e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.45133e-02\tAbsError: 2.58376e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.13583e+00\tAbsError: 3.35166e+13\n", + " Region: \"zone_1\"\tRelError: 6.49986e-02\tAbsError: 2.58787e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.49986e-02\tAbsError: 2.58787e-02\n", + " Region: \"zone_3\"\tRelError: 1.07083e+00\tAbsError: 3.35166e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14794e-01\tAbsError: 2.31889e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.90894e-01\tAbsError: 1.03277e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.51440e-02\tAbsError: 2.58923e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.29377e+00\tAbsError: 6.84080e+13\n", + " Region: \"zone_1\"\tRelError: 7.72791e-02\tAbsError: 2.58679e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.72791e-02\tAbsError: 2.58679e-02\n", + " Region: \"zone_3\"\tRelError: 1.21649e+00\tAbsError: 6.84080e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.71768e-01\tAbsError: 5.01523e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.67427e-01\tAbsError: 1.82557e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.72992e-02\tAbsError: 2.58679e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.43276e+00\tAbsError: 1.07866e+14\n", + " Region: \"zone_1\"\tRelError: 8.84483e-02\tAbsError: 2.55894e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.84483e-02\tAbsError: 2.55894e-02\n", + " Region: \"zone_3\"\tRelError: 1.34431e+00\tAbsError: 1.07866e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.19179e-01\tAbsError: 7.49207e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.35012e-01\tAbsError: 3.29455e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.01174e-02\tAbsError: 2.58079e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 6.27863e-01\tAbsError: 1.70405e+13\n", + " Region: \"zone_1\"\tRelError: 4.19952e-02\tAbsError: 1.57805e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.19952e-02\tAbsError: 1.57805e-02\n", + " Region: \"zone_3\"\tRelError: 5.85867e-01\tAbsError: 1.70405e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.73355e-01\tAbsError: 8.63901e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.70241e-01\tAbsError: 8.40152e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.22716e-02\tAbsError: 1.57805e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.26176e+00\tAbsError: 6.17820e+13\n", + " Region: \"zone_1\"\tRelError: 7.36238e-02\tAbsError: 2.56439e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.36238e-02\tAbsError: 2.56439e-02\n", + " Region: \"zone_3\"\tRelError: 1.18814e+00\tAbsError: 6.17820e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.61240e-01\tAbsError: 4.55005e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.51872e-01\tAbsError: 1.62815e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.50269e-02\tAbsError: 2.58894e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.97006e-01\tAbsError: 3.97798e+12\n", + " Region: \"zone_1\"\tRelError: 2.05644e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.05644e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.76441e-01\tAbsError: 3.97798e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88505e-01\tAbsError: 1.01871e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.71832e-02\tAbsError: 2.95927e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.07533e-02\tAbsError: 9.16534e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.23128e-01\tAbsError: 9.62684e+12\n", + " Region: \"zone_1\"\tRelError: 3.26236e-02\tAbsError: 1.31065e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.26236e-02\tAbsError: 1.31065e-02\n", + " Region: \"zone_3\"\tRelError: 4.90504e-01\tAbsError: 9.62684e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.30875e-01\tAbsError: 4.28253e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.26769e-01\tAbsError: 5.34431e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.28603e-02\tAbsError: 1.31065e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 7.00731e-01\tAbsError: 2.44819e+13\n", + " Region: \"zone_1\"\tRelError: 4.92915e-02\tAbsError: 1.76835e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.92915e-02\tAbsError: 1.76835e-02\n", + " Region: \"zone_3\"\tRelError: 6.51440e-01\tAbsError: 2.44819e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.00079e-01\tAbsError: 1.28123e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.01755e-01\tAbsError: 1.16695e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.96058e-02\tAbsError: 1.76835e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.89862e-01\tAbsError: 7.99664e+12\n", + " Region: \"zone_1\"\tRelError: 2.98842e-02\tAbsError: 1.22654e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.98842e-02\tAbsError: 1.22654e-02\n", + " Region: \"zone_3\"\tRelError: 4.59978e-01\tAbsError: 7.99664e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.16917e-01\tAbsError: 3.30963e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.12949e-01\tAbsError: 4.68701e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.01113e-02\tAbsError: 1.22654e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.61764e-01\tAbsError: 1.88685e+12\n", + " Region: \"zone_1\"\tRelError: 8.28721e-05\tAbsError: 8.34626e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.28721e-05\tAbsError: 8.34626e-06\n", + " Region: \"zone_3\"\tRelError: 1.61681e-01\tAbsError: 1.88685e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.59331e-01\tAbsError: 9.23461e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.31979e-03\tAbsError: 9.63390e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.04564e-05\tAbsError: 8.70001e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.28686e-01\tAbsError: 7.78584e+11\n", + " Region: \"zone_1\"\tRelError: 8.41818e-05\tAbsError: 5.98192e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.41818e-05\tAbsError: 5.98192e-06\n", + " Region: \"zone_3\"\tRelError: 1.28601e-01\tAbsError: 7.78584e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.27790e-01\tAbsError: 3.25797e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.90479e-04\tAbsError: 4.52787e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.13119e-05\tAbsError: 6.66099e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.75905e-02\tAbsError: 6.14178e+11\n", + " Region: \"zone_1\"\tRelError: 1.87871e-04\tAbsError: 5.35919e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87871e-04\tAbsError: 5.35919e-06\n", + " Region: \"zone_3\"\tRelError: 8.74026e-02\tAbsError: 6.14178e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.70791e-02\tAbsError: 2.57149e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.08574e-04\tAbsError: 3.57029e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49985e-05\tAbsError: 5.65537e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.86955e-01\tAbsError: 3.78131e+12\n", + " Region: \"zone_1\"\tRelError: 1.86505e-04\tAbsError: 1.66794e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86505e-04\tAbsError: 1.66794e-05\n", + " Region: \"zone_3\"\tRelError: 1.86768e-01\tAbsError: 3.78131e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.82184e-01\tAbsError: 1.93089e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.52284e-03\tAbsError: 1.85042e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 6.18724e-05\tAbsError: 1.90993e-05\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.19535e-01\tAbsError: 7.67511e+11\n", + " Region: \"zone_1\"\tRelError: 1.02132e-04\tAbsError: 6.40339e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02132e-04\tAbsError: 6.40339e-06\n", + " Region: \"zone_3\"\tRelError: 1.19432e-01\tAbsError: 7.67511e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.18713e-01\tAbsError: 3.47334e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.98127e-04\tAbsError: 4.20177e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.17746e-05\tAbsError: 7.06173e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.50521e-05\tAbsError: 3.76327e+08\n", + " Region: \"zone_1\"\tRelError: 3.48964e-08\tAbsError: 3.16416e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.48964e-08\tAbsError: 3.16416e-09\n", + " Region: \"zone_3\"\tRelError: 3.50172e-05\tAbsError: 3.76327e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.44276e-05\tAbsError: 2.07077e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.78619e-07\tAbsError: 1.69251e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10178e-08\tAbsError: 3.56939e-09\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:49\u001b[0m.\u001b[1;36m790\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: 0.58\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.49501e-05\tAbsError: 5.71953e+07\n", + " Region: \"zone_1\"\tRelError: 5.68261e-09\tAbsError: 4.84224e-10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.68261e-09\tAbsError: 4.84224e-10\n", + " Region: \"zone_3\"\tRelError: 1.49444e-05\tAbsError: 5.71953e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.48629e-05\tAbsError: 3.20709e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.97586e-08\tAbsError: 2.51244e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72322e-09\tAbsError: 5.34422e-10\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 9.95471e-06\tAbsError: 1.37438e+07\n", + " Region: \"zone_1\"\tRelError: 1.96050e-09\tAbsError: 6.30623e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.96050e-09\tAbsError: 6.30623e-11\n", + " Region: \"zone_3\"\tRelError: 9.95275e-06\tAbsError: 1.37438e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.91827e-06\tAbsError: 3.21260e+06\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.43047e-08\tAbsError: 1.05312e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.78389e-10\tAbsError: 6.72817e-11\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:49\u001b[0m.\u001b[1;36m913\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.55 V. Current applied bias: 0.55\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:49\u001b[0m.\u001b[1;36m961\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.5 V. Current applied bias: 0.5\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 5\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 7.08853e-05\tAbsError: 1.42552e+09\n", + " Region: \"zone_1\"\tRelError: 4.19440e-07\tAbsError: 1.37162e-08\n", + " Equation: \"PotentialEquation\"\tRelError: 4.19440e-07\tAbsError: 1.37162e-08\n", + " Region: \"zone_3\"\tRelError: 7.04658e-05\tAbsError: 1.42552e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.80448e-05\tAbsError: 7.64375e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.36999e-06\tAbsError: 6.61144e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 5.10689e-08\tAbsError: 1.57552e-08\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:50\u001b[0m.\u001b[1;36m078\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.6 V. Current applied bias: 0.6\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Iteration: 5\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 1.39115e-05\tAbsError: 3.56195e+07\n", + " Region: \"zone_1\"\tRelError: 4.59619e-09\tAbsError: 3.23674e-10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.59619e-09\tAbsError: 3.23674e-10\n", + " Region: \"zone_3\"\tRelError: 1.39069e-05\tAbsError: 3.56195e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.38108e-05\tAbsError: 1.93540e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.49639e-08\tAbsError: 1.62655e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15594e-09\tAbsError: 3.70759e-10\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:50\u001b[0m.\u001b[1;36m181\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: 0.54\u001b[0m \n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.63822e+02\tAbsError: 9.99860e+15\n", + " Region: \"zone_1\"\tRelError: 1.62022e+02\tAbsError: 4.47728e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.62022e+02\tAbsError: 4.47728e-02\n", + " Region: \"zone_3\"\tRelError: 1.80004e+00\tAbsError: 9.99860e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.22736e-01\tAbsError: 5.99873e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.22714e-01\tAbsError: 3.99987e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.54591e-01\tAbsError: 4.47728e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.18638e+01\tAbsError: 9.38144e+15\n", + " Region: \"zone_1\"\tRelError: 3.00933e+01\tAbsError: 4.34059e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.00933e+01\tAbsError: 4.34059e-02\n", + " Region: \"zone_3\"\tRelError: 1.77059e+00\tAbsError: 9.38144e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.13128e-01\tAbsError: 5.61995e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.13108e-01\tAbsError: 3.76149e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.44356e-01\tAbsError: 4.34059e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.87556e+01\tAbsError: 8.34767e+15\n", + " Region: \"zone_1\"\tRelError: 6.70313e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.70313e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.72426e+00\tAbsError: 8.34767e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94570e-01\tAbsError: 4.96926e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94551e-01\tAbsError: 3.37841e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35138e-01\tAbsError: 4.09542e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.68568e+01\tAbsError: 1.04087e+16\n", + " Region: \"zone_1\"\tRelError: 1.50335e+01\tAbsError: 4.56455e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.50335e+01\tAbsError: 4.56455e-02\n", + " Region: \"zone_3\"\tRelError: 1.82326e+00\tAbsError: 1.04087e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.28610e-01\tAbsError: 6.24214e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.28586e-01\tAbsError: 4.16658e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66069e-01\tAbsError: 4.56455e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.50411e+01\tAbsError: 9.17516e+15\n", + " Region: \"zone_1\"\tRelError: 2.32813e+01\tAbsError: 4.29338e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.32813e+01\tAbsError: 4.29338e-02\n", + " Region: \"zone_3\"\tRelError: 1.75981e+00\tAbsError: 9.17516e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09690e-01\tAbsError: 5.49119e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.09670e-01\tAbsError: 3.68397e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40449e-01\tAbsError: 4.29338e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.96710e+00\tAbsError: 7.06642e+14\n", + " Region: \"zone_1\"\tRelError: 2.55041e-01\tAbsError: 3.52793e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.55041e-01\tAbsError: 3.52793e-02\n", + " Region: \"zone_3\"\tRelError: 1.71206e+00\tAbsError: 7.06642e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.41689e-01\tAbsError: 4.35939e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.35147e-01\tAbsError: 2.70703e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35224e-01\tAbsError: 3.52793e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.22954e+00\tAbsError: 5.42067e+14\n", + " Region: \"zone_1\"\tRelError: 5.61058e-01\tAbsError: 3.36589e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.61058e-01\tAbsError: 3.36589e-02\n", + " Region: \"zone_3\"\tRelError: 1.66849e+00\tAbsError: 5.42067e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.24386e-01\tAbsError: 3.71154e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.20213e-01\tAbsError: 1.70913e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.23887e-01\tAbsError: 3.36589e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.18244e+00\tAbsError: 3.45808e+14\n", + " Region: \"zone_1\"\tRelError: 5.95786e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95786e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.58666e+00\tAbsError: 3.45808e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91491e-01\tAbsError: 2.56450e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.87672e-01\tAbsError: 8.93573e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07491e-01\tAbsError: 3.07632e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.94995e+00\tAbsError: 8.76084e+14\n", + " Region: \"zone_1\"\tRelError: 2.06767e-01\tAbsError: 3.63154e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06767e-01\tAbsError: 3.63154e-02\n", + " Region: \"zone_3\"\tRelError: 1.74318e+00\tAbsError: 8.76084e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.52450e-01\tAbsError: 4.97626e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.43319e-01\tAbsError: 3.78459e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.47410e-01\tAbsError: 3.63154e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.82843e+00\tAbsError: 4.96905e+14\n", + " Region: \"zone_1\"\tRelError: 1.74894e-01\tAbsError: 3.31000e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74894e-01\tAbsError: 3.31000e-02\n", + " Region: \"zone_3\"\tRelError: 1.65354e+00\tAbsError: 4.96905e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.18406e-01\tAbsError: 3.48442e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.14285e-01\tAbsError: 1.48463e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20848e-01\tAbsError: 3.31000e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.65271e+00\tAbsError: 2.27191e+14\n", + " Region: \"zone_1\"\tRelError: 3.95002e-01\tAbsError: 2.57709e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.95002e-01\tAbsError: 2.57709e-02\n", + " Region: \"zone_3\"\tRelError: 1.25770e+00\tAbsError: 2.27191e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.72445e-01\tAbsError: 1.34608e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.75411e-01\tAbsError: 9.25828e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09847e-01\tAbsError: 2.58536e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.10064e+00\tAbsError: 4.54473e+14\n", + " Region: \"zone_1\"\tRelError: 7.63192e-01\tAbsError: 2.58969e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.63192e-01\tAbsError: 2.58969e-02\n", + " Region: \"zone_3\"\tRelError: 1.33745e+00\tAbsError: 4.54473e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.02310e-01\tAbsError: 2.67136e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.12917e-01\tAbsError: 1.87336e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.22224e-01\tAbsError: 2.58495e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.19247e+00\tAbsError: 8.54805e+13\n", + " Region: \"zone_1\"\tRelError: 9.12229e-02\tAbsError: 2.58978e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.12229e-02\tAbsError: 2.58978e-02\n", + " Region: \"zone_3\"\tRelError: 1.10125e+00\tAbsError: 8.54805e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14822e-01\tAbsError: 5.48784e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.98551e-01\tAbsError: 3.06021e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.78742e-02\tAbsError: 2.58989e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.74358e+00\tAbsError: 6.95805e+14\n", + " Region: \"zone_1\"\tRelError: 3.59029e-01\tAbsError: 2.58870e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.59029e-01\tAbsError: 2.58870e-02\n", + " Region: \"zone_3\"\tRelError: 1.38455e+00\tAbsError: 6.95805e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.20623e-01\tAbsError: 3.94554e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.32523e-01\tAbsError: 3.01251e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31406e-01\tAbsError: 2.58603e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.37737e+00\tAbsError: 1.78105e+14\n", + " Region: \"zone_1\"\tRelError: 1.48634e-01\tAbsError: 2.57619e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.48634e-01\tAbsError: 2.57619e-02\n", + " Region: \"zone_3\"\tRelError: 1.22873e+00\tAbsError: 1.78105e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.61703e-01\tAbsError: 1.04558e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.61460e-01\tAbsError: 7.35471e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.05569e-01\tAbsError: 2.58968e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 6.80745e-01\tAbsError: 1.10410e+14\n", + " Region: \"zone_1\"\tRelError: 1.47166e-01\tAbsError: 1.31065e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.47166e-01\tAbsError: 1.31065e-02\n", + " Region: \"zone_3\"\tRelError: 5.33579e-01\tAbsError: 1.10410e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.30651e-01\tAbsError: 5.09385e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.57058e-01\tAbsError: 5.94711e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.58703e-02\tAbsError: 1.31065e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 8.32791e-01\tAbsError: 2.51857e+14\n", + " Region: \"zone_1\"\tRelError: 1.94730e-01\tAbsError: 1.57805e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.94730e-01\tAbsError: 1.57805e-02\n", + " Region: \"zone_3\"\tRelError: 6.38061e-01\tAbsError: 2.51857e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.74054e-01\tAbsError: 1.12814e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.03778e-01\tAbsError: 1.39043e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.02300e-02\tAbsError: 1.57805e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 7.88147e-01\tAbsError: 4.23450e+14\n", + " Region: \"zone_1\"\tRelError: 8.68826e-02\tAbsError: 1.76835e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.68826e-02\tAbsError: 1.76835e-02\n", + " Region: \"zone_3\"\tRelError: 7.01264e-01\tAbsError: 4.23450e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.01742e-01\tAbsError: 1.87764e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.28166e-01\tAbsError: 2.35687e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.13557e-02\tAbsError: 1.76835e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.52183e-01\tAbsError: 2.83225e+13\n", + " Region: \"zone_1\"\tRelError: 5.95279e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95279e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.92655e-01\tAbsError: 2.83225e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.85164e-01\tAbsError: 1.34603e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.99920e-02\tAbsError: 1.48622e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.74993e-02\tAbsError: 9.16534e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.72011e-01\tAbsError: 8.49829e+13\n", + " Region: \"zone_1\"\tRelError: 7.44559e-02\tAbsError: 1.22654e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.44559e-02\tAbsError: 1.22654e-02\n", + " Region: \"zone_3\"\tRelError: 4.97555e-01\tAbsError: 8.49829e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.15246e-01\tAbsError: 4.00907e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.40638e-01\tAbsError: 4.48922e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.16711e-02\tAbsError: 1.22654e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.57506e-01\tAbsError: 2.43354e+13\n", + " Region: \"zone_1\"\tRelError: 1.98853e-02\tAbsError: 1.46090e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.98853e-02\tAbsError: 1.46090e-04\n", + " Region: \"zone_3\"\tRelError: 1.37621e-01\tAbsError: 2.43354e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.25248e-01\tAbsError: 1.21923e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.16835e-02\tAbsError: 1.21432e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.88777e-04\tAbsError: 1.56043e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.32076e-01\tAbsError: 6.53765e+13\n", + " Region: \"zone_1\"\tRelError: 4.91696e-02\tAbsError: 3.68622e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.91696e-02\tAbsError: 3.68622e-04\n", + " Region: \"zone_3\"\tRelError: 1.82906e-01\tAbsError: 6.53765e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.53357e-01\tAbsError: 3.17111e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.76638e-02\tAbsError: 3.36654e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88533e-03\tAbsError: 3.90599e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.59308e-01\tAbsError: 1.15477e+14\n", + " Region: \"zone_1\"\tRelError: 3.78271e-02\tAbsError: 6.12666e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.78271e-02\tAbsError: 6.12666e-04\n", + " Region: \"zone_3\"\tRelError: 2.21481e-01\tAbsError: 1.15477e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.73784e-01\tAbsError: 5.52720e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.43391e-02\tAbsError: 6.02054e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.35832e-03\tAbsError: 6.56549e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.52644e-02\tAbsError: 2.55837e+12\n", + " Region: \"zone_1\"\tRelError: 7.16041e-03\tAbsError: 2.30338e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.16041e-03\tAbsError: 2.30338e-05\n", + " Region: \"zone_3\"\tRelError: 8.81040e-02\tAbsError: 2.55837e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.71797e-02\tAbsError: 1.35830e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.38768e-04\tAbsError: 1.20006e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.54583e-05\tAbsError: 2.40500e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.03413e-04\tAbsError: 7.94574e+10\n", + " Region: \"zone_1\"\tRelError: 6.70321e-05\tAbsError: 5.82251e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 6.70321e-05\tAbsError: 5.82251e-07\n", + " Region: \"zone_3\"\tRelError: 4.36381e-04\tAbsError: 7.94574e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.00904e-04\tAbsError: 5.18181e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.27552e-05\tAbsError: 2.76393e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.72259e-06\tAbsError: 6.15178e-07\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.54505e-03\tAbsError: 5.10916e+11\n", + " Region: \"zone_1\"\tRelError: 4.30658e-04\tAbsError: 3.74485e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.30658e-04\tAbsError: 3.74485e-06\n", + " Region: \"zone_3\"\tRelError: 1.11439e-03\tAbsError: 5.10916e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.36752e-04\tAbsError: 3.20803e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.58614e-04\tAbsError: 1.90113e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.90289e-05\tAbsError: 3.92494e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.35620e-01\tAbsError: 1.72712e+13\n", + " Region: \"zone_1\"\tRelError: 9.74579e-03\tAbsError: 1.05058e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.74579e-03\tAbsError: 1.05058e-04\n", + " Region: \"zone_3\"\tRelError: 1.25874e-01\tAbsError: 1.72712e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.17031e-01\tAbsError: 8.70382e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.35880e-03\tAbsError: 8.56740e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.84384e-04\tAbsError: 1.13804e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.58292e-05\tAbsError: 4.59514e+08\n", + " Region: \"zone_1\"\tRelError: 9.81723e-07\tAbsError: 3.18909e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 9.81723e-07\tAbsError: 3.18909e-09\n", + " Region: \"zone_3\"\tRelError: 3.48474e-05\tAbsError: 4.59514e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.45053e-05\tAbsError: 3.33895e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.30263e-07\tAbsError: 1.25619e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18628e-08\tAbsError: 3.31754e-09\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.52128e-09\tAbsError: 1.00152e+06\n", + " Region: \"zone_1\"\tRelError: 5.76028e-10\tAbsError: 7.90239e-12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.76028e-10\tAbsError: 7.90239e-12\n", + " Region: \"zone_3\"\tRelError: 5.94525e-09\tAbsError: 1.00152e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.51837e-09\tAbsError: 7.00920e+05\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.93070e-10\tAbsError: 3.00596e+05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.38074e-11\tAbsError: 8.27676e-12\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.27011e-03\tAbsError: 1.28677e+12\n", + " Region: \"zone_1\"\tRelError: 5.62187e-04\tAbsError: 1.00891e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.62187e-04\tAbsError: 1.00891e-05\n", + " Region: \"zone_3\"\tRelError: 1.70792e-03\tAbsError: 1.28677e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34924e-03\tAbsError: 7.92563e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.04077e-04\tAbsError: 4.94210e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.46001e-05\tAbsError: 1.06469e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.16833e-07\tAbsError: 3.97603e+07\n", + " Region: \"zone_1\"\tRelError: 2.48086e-08\tAbsError: 2.94098e-10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.48086e-08\tAbsError: 2.94098e-10\n", + " Region: \"zone_3\"\tRelError: 9.20242e-08\tAbsError: 3.97603e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.92851e-08\tAbsError: 2.72716e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.13386e-08\tAbsError: 1.24887e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40050e-09\tAbsError: 3.06568e-10\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.15889e-04\tAbsError: 3.71681e+10\n", + " Region: \"zone_1\"\tRelError: 2.41579e-05\tAbsError: 2.90587e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.41579e-05\tAbsError: 2.90587e-07\n", + " Region: \"zone_3\"\tRelError: 2.91731e-04\tAbsError: 3.71681e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.74902e-04\tAbsError: 2.46870e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.54957e-05\tAbsError: 1.24811e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33364e-06\tAbsError: 3.11133e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:52\u001b[0m.\u001b[1;36m657\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: 0.7\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.90842e-07\tAbsError: 2.29484e+08\n", + " Region: \"zone_1\"\tRelError: 8.07789e-08\tAbsError: 1.50187e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 8.07789e-08\tAbsError: 1.50187e-09\n", + " Region: \"zone_3\"\tRelError: 3.10063e-07\tAbsError: 2.29484e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52989e-07\tAbsError: 1.55818e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.89546e-08\tAbsError: 7.36663e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 8.11933e-09\tAbsError: 1.58002e-09\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.90380e-09\tAbsError: 2.12026e+05\n", + " Region: \"zone_1\"\tRelError: 1.00300e-10\tAbsError: 1.55136e-12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00300e-10\tAbsError: 1.55136e-12\n", + " Region: \"zone_3\"\tRelError: 1.80350e-09\tAbsError: 2.12026e+05\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.71088e-09\tAbsError: 1.50477e+05\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.62945e-11\tAbsError: 6.15487e+04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.32889e-12\tAbsError: 1.60667e-12\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:52\u001b[0m.\u001b[1;36m992\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: 0.65\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:53\u001b[0m.\u001b[1;36m186\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.97666e+00\tAbsError: 1.01000e+16\n", + " Region: \"zone_1\"\tRelError: 6.10143e+00\tAbsError: 4.47728e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.10143e+00\tAbsError: 4.47728e-02\n", + " Region: \"zone_3\"\tRelError: 1.87523e+00\tAbsError: 1.01000e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.22692e-01\tAbsError: 5.64880e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.22609e-01\tAbsError: 4.45116e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29929e-01\tAbsError: 4.47728e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:53\u001b[0m.\u001b[1;36m220\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.75 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:53\u001b[0m.\u001b[1;36m249\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.04122e+01\tAbsError: 9.15719e+15\n", + " Region: \"zone_1\"\tRelError: 5.85997e+01\tAbsError: 4.29338e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.85997e+01\tAbsError: 4.29338e-02\n", + " Region: \"zone_3\"\tRelError: 1.81249e+00\tAbsError: 9.15719e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09671e-01\tAbsError: 5.35064e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.09616e-01\tAbsError: 3.80655e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.93207e-01\tAbsError: 4.29338e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.14611e+00\tAbsError: 5.45375e+15\n", + " Region: \"zone_1\"\tRelError: 3.96880e-01\tAbsError: 3.52793e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.96880e-01\tAbsError: 3.52793e-02\n", + " Region: \"zone_3\"\tRelError: 1.74923e+00\tAbsError: 5.45375e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.40967e-01\tAbsError: 2.70333e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.16719e-01\tAbsError: 2.75043e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.91546e-01\tAbsError: 3.52793e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:53\u001b[0m.\u001b[1;36m537\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:53\u001b[0m.\u001b[1;36m586\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.8 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:53\u001b[0m.\u001b[1;36m624\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.17038e+03\tAbsError: 3.32754e+16\n", + " Region: \"zone_1\"\tRelError: 8.06380e+02\tAbsError: 7.25190e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.06380e+02\tAbsError: 7.25190e-02\n", + " Region: \"zone_3\"\tRelError: 1.36400e+03\tAbsError: 3.32754e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.34381e+02\tAbsError: 1.98676e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.29412e+02\tAbsError: 1.34077e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03625e-01\tAbsError: 7.25190e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:53\u001b[0m.\u001b[1;36m739\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:53\u001b[0m.\u001b[1;36m768\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.85 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:53\u001b[0m.\u001b[1;36m796\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: 0.1\u001b[0m \n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.66737e+00\tAbsError: 2.26108e+15\n", + " Region: \"zone_1\"\tRelError: 9.89112e-01\tAbsError: 3.31000e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.89112e-01\tAbsError: 3.31000e-02\n", + " Region: \"zone_3\"\tRelError: 1.67826e+00\tAbsError: 2.26108e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.18687e-01\tAbsError: 1.24573e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.03123e-01\tAbsError: 1.01535e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.56453e-01\tAbsError: 3.31000e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.52675e+00\tAbsError: 5.28945e+15\n", + " Region: \"zone_1\"\tRelError: 1.72040e-01\tAbsError: 2.58808e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72040e-01\tAbsError: 2.58808e-02\n", + " Region: \"zone_3\"\tRelError: 1.35471e+00\tAbsError: 5.28945e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.06193e-01\tAbsError: 2.41324e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.69802e-01\tAbsError: 2.87620e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.78720e-01\tAbsError: 2.55235e-02\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.24679e+02\tAbsError: 4.01088e+15\n", + " Region: \"zone_1\"\tRelError: 3.95733e+00\tAbsError: 6.76846e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.95733e+00\tAbsError: 6.76846e-02\n", + " Region: \"zone_3\"\tRelError: 3.20722e+02\tAbsError: 4.01088e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.70129e+01\tAbsError: 2.67793e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.93558e+02\tAbsError: 1.33295e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51138e-01\tAbsError: 6.76846e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.37416e+02\tAbsError: 3.75122e+16\n", + " Region: \"zone_1\"\tRelError: 1.70857e+02\tAbsError: 7.53940e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.70857e+02\tAbsError: 7.53940e-02\n", + " Region: \"zone_3\"\tRelError: 6.65589e+01\tAbsError: 3.75122e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05162e+01\tAbsError: 2.17236e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.58128e+01\tAbsError: 1.57886e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29865e-01\tAbsError: 7.53940e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.57562e+00\tAbsError: 1.85067e+15\n", + " Region: \"zone_1\"\tRelError: 3.48899e-01\tAbsError: 2.58724e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.48899e-01\tAbsError: 2.58724e-02\n", + " Region: \"zone_3\"\tRelError: 1.22672e+00\tAbsError: 1.85067e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.65203e-01\tAbsError: 7.94760e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.14656e-01\tAbsError: 1.05591e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.46858e-01\tAbsError: 2.56646e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 8.09161e-01\tAbsError: 2.63764e+15\n", + " Region: \"zone_1\"\tRelError: 8.96528e-02\tAbsError: 1.57805e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.96528e-02\tAbsError: 1.57805e-02\n", + " Region: \"zone_3\"\tRelError: 7.19508e-01\tAbsError: 2.63764e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.72631e-01\tAbsError: 1.36770e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.67164e-01\tAbsError: 1.26994e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.97131e-02\tAbsError: 1.57805e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.25791e+02\tAbsError: 4.25995e+16\n", + " Region: \"zone_1\"\tRelError: 4.60002e+01\tAbsError: 7.79815e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.60002e+01\tAbsError: 7.79815e-02\n", + " Region: \"zone_3\"\tRelError: 2.79791e+02\tAbsError: 4.25995e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.31837e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.70530e+02\tAbsError: 1.94157e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.60749e-01\tAbsError: 7.79815e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.71515e+02\tAbsError: 8.34333e+14\n", + " Region: \"zone_1\"\tRelError: 6.48480e-01\tAbsError: 6.21778e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.48480e-01\tAbsError: 6.21778e-02\n", + " Region: \"zone_3\"\tRelError: 2.70867e+02\tAbsError: 8.34333e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.08231e+01\tAbsError: 6.11932e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.49923e+02\tAbsError: 2.22401e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20191e-01\tAbsError: 6.21778e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.15214e-01\tAbsError: 6.36762e+14\n", + " Region: \"zone_1\"\tRelError: 2.12397e-02\tAbsError: 7.08897e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.12397e-02\tAbsError: 7.08897e-04\n", + " Region: \"zone_3\"\tRelError: 1.93974e-01\tAbsError: 6.36762e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43220e-01\tAbsError: 3.40835e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.55466e-02\tAbsError: 2.95927e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.20806e-03\tAbsError: 7.36504e-04\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 6.62870e-01\tAbsError: 8.58491e+14\n", + " Region: \"zone_1\"\tRelError: 9.69362e-02\tAbsError: 1.22653e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.69362e-02\tAbsError: 1.22653e-02\n", + " Region: \"zone_3\"\tRelError: 5.65934e-01\tAbsError: 8.58491e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.14889e-01\tAbsError: 4.34973e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.96689e-01\tAbsError: 4.23518e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.43556e-02\tAbsError: 1.22654e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.20129e+02\tAbsError: 4.00033e+15\n", + " Region: \"zone_1\"\tRelError: 6.98278e+00\tAbsError: 7.09268e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.98278e+00\tAbsError: 7.09268e-02\n", + " Region: \"zone_3\"\tRelError: 1.13146e+02\tAbsError: 4.00033e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.89107e+01\tAbsError: 2.82869e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.40617e+01\tAbsError: 1.17164e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.73521e-01\tAbsError: 7.09268e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 5.64331e+02\tAbsError: 6.50244e+15\n", + " Region: \"zone_1\"\tRelError: 5.93412e+00\tAbsError: 7.38245e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.93412e+00\tAbsError: 7.38245e-02\n", + " Region: \"zone_3\"\tRelError: 5.58397e+02\tAbsError: 6.50244e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33785e+01\tAbsError: 3.20431e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.44821e+02\tAbsError: 3.29813e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.97731e-01\tAbsError: 7.38245e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.84400e-01\tAbsError: 1.84489e+14\n", + " Region: \"zone_1\"\tRelError: 5.08949e-02\tAbsError: 4.34577e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.08949e-02\tAbsError: 4.34577e-04\n", + " Region: \"zone_3\"\tRelError: 1.33505e-01\tAbsError: 1.84489e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07596e-01\tAbsError: 1.04840e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.33209e-02\tAbsError: 7.96491e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.58735e-03\tAbsError: 4.38742e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.43586e-03\tAbsError: 5.13181e+12\n", + " Region: \"zone_1\"\tRelError: 3.56695e-04\tAbsError: 1.12706e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.56695e-04\tAbsError: 1.12706e-05\n", + " Region: \"zone_3\"\tRelError: 1.07916e-03\tAbsError: 5.13181e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.13872e-04\tAbsError: 3.41370e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.83111e-04\tAbsError: 1.71811e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.21790e-05\tAbsError: 1.15889e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 4.63879e+02\tAbsError: 1.84326e+15\n", + " Region: \"zone_1\"\tRelError: 3.13835e+00\tAbsError: 6.58786e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.13835e+00\tAbsError: 6.58786e-02\n", + " Region: \"zone_3\"\tRelError: 4.60741e+02\tAbsError: 1.84326e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.71445e+00\tAbsError: 9.31874e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.50886e+02\tAbsError: 9.11387e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40118e-01\tAbsError: 6.58786e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.44475e+03\tAbsError: 2.23451e+14\n", + " Region: \"zone_1\"\tRelError: 1.78721e-01\tAbsError: 5.58210e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.78721e-01\tAbsError: 5.58210e-02\n", + " Region: \"zone_3\"\tRelError: 1.44457e+03\tAbsError: 2.23451e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10094e+03\tAbsError: 1.56875e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.43535e+02\tAbsError: 6.65760e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.64317e-02\tAbsError: 5.58210e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 4.38653e+02\tAbsError: 5.85580e+15\n", + " Region: \"zone_1\"\tRelError: 8.57649e+00\tAbsError: 6.91598e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.57649e+00\tAbsError: 6.91598e-02\n", + " Region: \"zone_3\"\tRelError: 4.30076e+02\tAbsError: 5.85580e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.62250e+01\tAbsError: 2.43153e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.63689e+02\tAbsError: 3.42426e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.62308e-01\tAbsError: 6.91598e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 9.66432e-04\tAbsError: 7.61489e+11\n", + " Region: \"zone_1\"\tRelError: 4.42890e-04\tAbsError: 3.54702e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.42890e-04\tAbsError: 3.54702e-06\n", + " Region: \"zone_3\"\tRelError: 5.23542e-04\tAbsError: 7.61489e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.54885e-04\tAbsError: 5.60496e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.72654e-05\tAbsError: 2.00993e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.13918e-05\tAbsError: 3.60294e-06\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 9.86672e-08\tAbsError: 3.37805e+08\n", + " Region: \"zone_1\"\tRelError: 2.92240e-08\tAbsError: 9.88161e-10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.92240e-08\tAbsError: 9.88161e-10\n", + " Region: \"zone_3\"\tRelError: 6.94432e-08\tAbsError: 3.37805e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.06757e-08\tAbsError: 2.17314e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.15885e-08\tAbsError: 1.20491e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 7.17900e-09\tAbsError: 1.00963e-09\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 3.15655e+03\tAbsError: 4.54227e+13\n", + " Region: \"zone_1\"\tRelError: 7.59588e-02\tAbsError: 4.83791e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.59588e-02\tAbsError: 4.83791e-02\n", + " Region: \"zone_3\"\tRelError: 3.15648e+03\tAbsError: 4.54227e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.11021e+03\tAbsError: 3.33738e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.61933e+01\tAbsError: 1.20489e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.62264e-02\tAbsError: 4.83791e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 7.29918e+03\tAbsError: 4.20610e+14\n", + " Region: \"zone_1\"\tRelError: 4.04058e-01\tAbsError: 6.01028e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.04058e-01\tAbsError: 6.01028e-02\n", + " Region: \"zone_3\"\tRelError: 7.29878e+03\tAbsError: 4.20610e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.71144e+02\tAbsError: 2.66090e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.52752e+03\tAbsError: 1.54520e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11913e-01\tAbsError: 6.01028e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.21163e+03\tAbsError: 5.71211e+14\n", + " Region: \"zone_1\"\tRelError: 5.79636e-01\tAbsError: 6.38656e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.79636e-01\tAbsError: 6.38656e-02\n", + " Region: \"zone_3\"\tRelError: 2.21106e+03\tAbsError: 5.71211e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.77921e+02\tAbsError: 3.25592e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.83301e+03\tAbsError: 2.45619e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28645e-01\tAbsError: 6.38656e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.97260e-08\tAbsError: 1.61510e+07\n", + " Region: \"zone_1\"\tRelError: 9.39372e-09\tAbsError: 7.94516e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 9.39372e-09\tAbsError: 7.94516e-11\n", + " Region: \"zone_3\"\tRelError: 1.03323e-08\tAbsError: 1.61510e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.49613e-09\tAbsError: 1.01388e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.34196e-09\tAbsError: 6.01217e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.94202e-10\tAbsError: 8.30962e-11\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.35612e+03\tAbsError: 1.55095e+13\n", + " Region: \"zone_1\"\tRelError: 5.75455e-02\tAbsError: 3.95636e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.75455e-02\tAbsError: 3.95636e-02\n", + " Region: \"zone_3\"\tRelError: 6.35606e+03\tAbsError: 1.55095e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.89427e+03\tAbsError: 6.28140e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.46173e+03\tAbsError: 9.22806e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.78836e-02\tAbsError: 3.95636e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.14832e+02\tAbsError: 1.37556e+14\n", + " Region: \"zone_1\"\tRelError: 1.13605e-01\tAbsError: 5.34033e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13605e-01\tAbsError: 5.34033e-02\n", + " Region: \"zone_3\"\tRelError: 7.14718e+02\tAbsError: 1.37556e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.40858e+02\tAbsError: 5.31618e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.73771e+02\tAbsError: 8.43944e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.91929e-02\tAbsError: 5.34033e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.74418e+01\tAbsError: 2.44384e+14\n", + " Region: \"zone_1\"\tRelError: 1.58166e-01\tAbsError: 5.77787e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.58166e-01\tAbsError: 5.77787e-02\n", + " Region: \"zone_3\"\tRelError: 7.72836e+01\tAbsError: 2.44384e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.22063e+01\tAbsError: 1.55967e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.49742e+01\tAbsError: 8.84166e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03068e-01\tAbsError: 5.77787e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.16646e+02\tAbsError: 4.64268e+12\n", + " Region: \"zone_1\"\tRelError: 4.14390e-02\tAbsError: 2.91301e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.14390e-02\tAbsError: 2.91301e-02\n", + " Region: \"zone_3\"\tRelError: 1.16605e+02\tAbsError: 4.64268e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.15564e+02\tAbsError: 2.67332e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.98998e-01\tAbsError: 1.96936e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.18180e-02\tAbsError: 2.91301e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:56\u001b[0m.\u001b[1;36m114\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:56\u001b[0m.\u001b[1;36m140\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.9 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:56\u001b[0m.\u001b[1;36m169\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.64511e+03\tAbsError: 6.98723e+13\n", + " Region: \"zone_1\"\tRelError: 8.18118e-02\tAbsError: 5.06818e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.18118e-02\tAbsError: 5.06818e-02\n", + " Region: \"zone_3\"\tRelError: 1.64503e+03\tAbsError: 6.98723e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84310e+02\tAbsError: 1.77441e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.46064e+03\tAbsError: 5.21282e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.20392e-02\tAbsError: 5.06818e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.69280e+03\tAbsError: 8.64639e+13\n", + " Region: \"zone_1\"\tRelError: 7.66306e-02\tAbsError: 4.55241e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.66306e-02\tAbsError: 4.55241e-02\n", + " Region: \"zone_3\"\tRelError: 1.69273e+03\tAbsError: 8.64639e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.53627e+02\tAbsError: 4.60213e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.53903e+03\tAbsError: 4.04426e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.98236e-02\tAbsError: 4.55241e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:56\u001b[0m.\u001b[1;36m478\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.11219e+00\tAbsError: 1.21037e+12\n", + " Region: \"zone_1\"\tRelError: 3.15041e-02\tAbsError: 2.47247e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.15041e-02\tAbsError: 2.47247e-02\n", + " Region: \"zone_3\"\tRelError: 1.08069e+00\tAbsError: 1.21037e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99731e-01\tAbsError: 3.71567e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.89803e-02\tAbsError: 8.38801e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.19791e-02\tAbsError: 2.47248e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:56\u001b[0m.\u001b[1;36m504\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.95 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:56\u001b[0m.\u001b[1;36m527\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.13554e+02\tAbsError: 1.05627e+14\n", + " Region: \"zone_1\"\tRelError: 9.04876e-02\tAbsError: 4.22987e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.04876e-02\tAbsError: 4.22987e-02\n", + " Region: \"zone_3\"\tRelError: 2.13463e+02\tAbsError: 1.05627e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84186e+02\tAbsError: 6.63679e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.92139e+01\tAbsError: 3.92586e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.32116e-02\tAbsError: 4.22987e-02\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.20368e+02\tAbsError: 3.16867e+13\n", + " Region: \"zone_1\"\tRelError: 5.14732e-02\tAbsError: 3.61712e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.14732e-02\tAbsError: 3.61712e-02\n", + " Region: \"zone_3\"\tRelError: 6.20316e+02\tAbsError: 3.16867e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.09455e+02\tAbsError: 2.20751e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.08092e+01\tAbsError: 9.61157e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.17894e-02\tAbsError: 3.61713e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.67213e+02\tAbsError: 1.38177e+17\n", + " Region: \"zone_1\"\tRelError: 5.79299e+01\tAbsError: 8.24901e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.79299e+01\tAbsError: 8.24901e-02\n", + " Region: \"zone_3\"\tRelError: 2.09283e+02\tAbsError: 1.38177e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 7.25461e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.99891e+02\tAbsError: 6.56314e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.92743e-01\tAbsError: 8.24902e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.17367e+00\tAbsError: 1.24826e+12\n", + " Region: \"zone_1\"\tRelError: 6.08211e-04\tAbsError: 6.10243e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.08211e-04\tAbsError: 6.10243e-06\n", + " Region: \"zone_3\"\tRelError: 1.17306e+00\tAbsError: 1.24826e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.17019e+00\tAbsError: 3.41542e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.85589e-03\tAbsError: 9.06713e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07451e-05\tAbsError: 6.52377e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.41399e+00\tAbsError: 6.14949e+12\n", + " Region: \"zone_1\"\tRelError: 3.96641e-02\tAbsError: 2.58319e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.96641e-02\tAbsError: 2.58319e-02\n", + " Region: \"zone_3\"\tRelError: 3.37432e+00\tAbsError: 6.14949e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.95682e-01\tAbsError: 2.72768e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.33871e+00\tAbsError: 3.42181e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.99293e-02\tAbsError: 2.58939e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.31055e+02\tAbsError: 2.53177e+13\n", + " Region: \"zone_1\"\tRelError: 4.50617e-02\tAbsError: 3.23490e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.50617e-02\tAbsError: 3.23490e-02\n", + " Region: \"zone_3\"\tRelError: 3.31010e+02\tAbsError: 2.53177e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.14071e+02\tAbsError: 1.67282e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.16893e+02\tAbsError: 8.58953e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.54021e-02\tAbsError: 3.23491e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.94925e+03\tAbsError: 5.70592e+16\n", + " Region: \"zone_1\"\tRelError: 1.68789e+02\tAbsError: 8.03338e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.68789e+02\tAbsError: 8.03338e-02\n", + " Region: \"zone_3\"\tRelError: 2.78046e+03\tAbsError: 5.70592e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.37175e+01\tAbsError: 3.26918e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.76645e+03\tAbsError: 2.43673e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.95175e-01\tAbsError: 8.03338e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.54688e+01\tAbsError: 7.28460e+16\n", + " Region: \"zone_1\"\tRelError: 4.05779e+00\tAbsError: 7.88298e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.05779e+00\tAbsError: 7.88298e-02\n", + " Region: \"zone_3\"\tRelError: 2.14110e+01\tAbsError: 7.28460e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.78884e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.18413e+01\tAbsError: 3.49576e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 5.69762e-01\tAbsError: 7.88298e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.97212e-04\tAbsError: 5.28965e+06\n", + " Region: \"zone_1\"\tRelError: 2.74725e-09\tAbsError: 3.88867e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.74725e-09\tAbsError: 3.88867e-11\n", + " Region: \"zone_3\"\tRelError: 1.97210e-04\tAbsError: 5.28965e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.96560e-04\tAbsError: 1.88403e+06\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.49815e-07\tAbsError: 3.40562e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.55943e-11\tAbsError: 4.14441e-11\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 5.84987e+02\tAbsError: 3.31667e+12\n", + " Region: \"zone_1\"\tRelError: 3.70722e-02\tAbsError: 2.57858e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.70722e-02\tAbsError: 2.57858e-02\n", + " Region: \"zone_3\"\tRelError: 5.84950e+02\tAbsError: 3.31667e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.83958e+02\tAbsError: 1.18352e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.55224e-01\tAbsError: 2.13316e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.72734e-02\tAbsError: 2.57631e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.50753e+02\tAbsError: 8.15936e+11\n", + " Region: \"zone_1\"\tRelError: 2.19781e-02\tAbsError: 1.74093e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.19781e-02\tAbsError: 1.74093e-02\n", + " Region: \"zone_3\"\tRelError: 1.50731e+02\tAbsError: 8.15936e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50624e+02\tAbsError: 1.19984e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.39476e-02\tAbsError: 6.95952e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.24006e-02\tAbsError: 1.74094e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.07290e+02\tAbsError: 2.40888e+16\n", + " Region: \"zone_1\"\tRelError: 2.14527e+00\tAbsError: 7.64427e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.14527e+00\tAbsError: 7.64427e-02\n", + " Region: \"zone_3\"\tRelError: 2.05145e+02\tAbsError: 2.40888e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.20017e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.95921e+02\tAbsError: 1.20871e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.23648e-01\tAbsError: 7.64428e-02\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.21711e-13\tAbsError: 3.14873e+04\n", + " Region: \"zone_1\"\tRelError: 9.14172e-14\tAbsError: 1.14796e-16\n", + " Equation: \"PotentialEquation\"\tRelError: 9.14172e-14\tAbsError: 1.14796e-16\n", + " Region: \"zone_3\"\tRelError: 1.30294e-13\tAbsError: 3.14873e+04\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.60212e-14\tAbsError: 1.58694e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.70418e-15\tAbsError: 1.56178e+04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.25687e-14\tAbsError: 1.19262e-16\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.92851e+02\tAbsError: 2.89384e+16\n", + " Region: \"zone_1\"\tRelError: 1.14740e+00\tAbsError: 7.47705e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14740e+00\tAbsError: 7.47705e-02\n", + " Region: \"zone_3\"\tRelError: 2.91703e+02\tAbsError: 2.89384e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.26797e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.82502e+02\tAbsError: 1.62587e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.01675e-01\tAbsError: 7.47705e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:57\u001b[0m.\u001b[1;36m462\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:57\u001b[0m.\u001b[1;36m462\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.20833333333333334\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 9.81687e-01\tAbsError: 7.37661e+11\n", + " Region: \"zone_1\"\tRelError: 2.81044e-04\tAbsError: 3.08580e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.81044e-04\tAbsError: 3.08580e-06\n", + " Region: \"zone_3\"\tRelError: 9.81406e-01\tAbsError: 7.37661e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.80950e-01\tAbsError: 1.46501e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.51588e-04\tAbsError: 5.91160e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.97537e-06\tAbsError: 3.17226e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.80848e+02\tAbsError: 1.10456e+16\n", + " Region: \"zone_1\"\tRelError: 4.53931e+00\tAbsError: 7.21036e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.53931e+00\tAbsError: 7.21036e-02\n", + " Region: \"zone_3\"\tRelError: 1.76309e+02\tAbsError: 1.10456e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.22278e+01\tAbsError: 2.44374e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.63899e+02\tAbsError: 8.60186e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82421e-01\tAbsError: 7.21036e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 9.32143e+01\tAbsError: 1.23916e+16\n", + " Region: \"zone_1\"\tRelError: 1.85187e+01\tAbsError: 7.02256e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.85187e+01\tAbsError: 7.02256e-02\n", + " Region: \"zone_3\"\tRelError: 7.46956e+01\tAbsError: 1.23916e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.25956e+01\tAbsError: 6.77522e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.19341e+01\tAbsError: 5.61636e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65943e-01\tAbsError: 7.02257e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.04040e+00\tAbsError: 2.10389e+12\n", + " Region: \"zone_1\"\tRelError: 1.40276e-02\tAbsError: 1.11974e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40276e-02\tAbsError: 1.11974e-02\n", + " Region: \"zone_3\"\tRelError: 1.02637e+00\tAbsError: 2.10389e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.94847e-01\tAbsError: 2.84106e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.71950e-02\tAbsError: 1.81979e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43257e-02\tAbsError: 1.11975e-02\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 7.70036e-05\tAbsError: 2.07098e+06\n", + " Region: \"zone_1\"\tRelError: 8.41736e-10\tAbsError: 1.25497e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 8.41736e-10\tAbsError: 1.25497e-11\n", + " Region: \"zone_3\"\tRelError: 7.70028e-05\tAbsError: 2.07098e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69590e-05\tAbsError: 5.09430e+05\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.37439e-08\tAbsError: 1.56155e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.01100e-11\tAbsError: 1.29285e-11\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:57\u001b[0m.\u001b[1;36m951\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.2\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 4.45029e-01\tAbsError: 2.51715e+12\n", + " Region: \"zone_1\"\tRelError: 1.62807e-03\tAbsError: 1.83760e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.62807e-03\tAbsError: 1.83760e-05\n", + " Region: \"zone_3\"\tRelError: 4.43401e-01\tAbsError: 2.51715e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.41371e-01\tAbsError: 8.04152e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.00240e-03\tAbsError: 1.71300e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.83249e-05\tAbsError: 1.84337e-05\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 8.78638e+02\tAbsError: 2.94859e+15\n", + " Region: \"zone_1\"\tRelError: 2.84018e+00\tAbsError: 6.72141e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.84018e+00\tAbsError: 6.72141e-02\n", + " Region: \"zone_3\"\tRelError: 8.75798e+02\tAbsError: 2.94859e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.57596e+02\tAbsError: 1.73463e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.18056e+02\tAbsError: 1.21397e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.46332e-01\tAbsError: 6.72141e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.58281e+03\tAbsError: 1.21837e+15\n", + " Region: \"zone_1\"\tRelError: 1.36885e+01\tAbsError: 6.50809e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.36885e+01\tAbsError: 6.50809e-02\n", + " Region: \"zone_3\"\tRelError: 1.56912e+03\tAbsError: 1.21837e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.97257e+02\tAbsError: 8.33773e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.27173e+03\tAbsError: 3.84593e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.32580e-01\tAbsError: 6.50809e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.10347e+01\tAbsError: 9.33666e+15\n", + " Region: \"zone_1\"\tRelError: 9.32699e+00\tAbsError: 4.26142e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.32699e+00\tAbsError: 4.26142e-02\n", + " Region: \"zone_3\"\tRelError: 1.70771e+00\tAbsError: 9.33666e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.07276e-01\tAbsError: 5.05102e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.07245e-01\tAbsError: 4.28564e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.31893e-02\tAbsError: 4.26142e-02\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.72810e-04\tAbsError: 1.68937e+08\n", + " Region: \"zone_1\"\tRelError: 8.13209e-08\tAbsError: 1.07762e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 8.13209e-08\tAbsError: 1.07762e-09\n", + " Region: \"zone_3\"\tRelError: 1.72728e-04\tAbsError: 1.68937e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.71767e-04\tAbsError: 4.50513e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.59619e-07\tAbsError: 1.23886e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 1.69289e-09\tAbsError: 1.09594e-09\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 8.47095e-13\tAbsError: 3.17846e+04\n", + " Region: \"zone_1\"\tRelError: 1.89137e-13\tAbsError: 1.13043e-16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.89137e-13\tAbsError: 1.13043e-16\n", + " Region: \"zone_3\"\tRelError: 6.57957e-13\tAbsError: 3.17846e+04\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.94024e-13\tAbsError: 1.58952e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.50744e-14\tAbsError: 1.58894e+04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.48859e-13\tAbsError: 1.13805e-16\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.82433e+02\tAbsError: 1.43454e+15\n", + " Region: \"zone_1\"\tRelError: 1.48090e+00\tAbsError: 5.91833e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.48090e+00\tAbsError: 5.91833e-02\n", + " Region: \"zone_3\"\tRelError: 4.80952e+02\tAbsError: 1.43454e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.57272e+02\tAbsError: 8.66708e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.35743e+01\tAbsError: 5.67830e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.05889e-01\tAbsError: 5.91833e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.86518e+00\tAbsError: 4.02662e+14\n", + " Region: \"zone_1\"\tRelError: 2.81960e-01\tAbsError: 3.27220e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.81960e-01\tAbsError: 3.27220e-02\n", + " Region: \"zone_3\"\tRelError: 1.58322e+00\tAbsError: 4.02662e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.13443e-01\tAbsError: 1.82808e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.09901e-01\tAbsError: 2.19855e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.98791e-02\tAbsError: 3.27220e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:58\u001b[0m.\u001b[1;36m489\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:58\u001b[0m.\u001b[1;36m489\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.20714285714285713\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Iteration: 0\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 3.21485e+01\tAbsError: 8.61846e+15\n", + " Region: \"zone_1\"\tRelError: 3.04717e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.04717e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.67686e+00\tAbsError: 8.61846e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94516e-01\tAbsError: 4.66248e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94484e-01\tAbsError: 3.95598e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.78603e-02\tAbsError: 4.09542e-02\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.42447e+03\tAbsError: 3.70580e+14\n", + " Region: \"zone_1\"\tRelError: 4.53729e-01\tAbsError: 6.16382e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.53729e-01\tAbsError: 6.16382e-02\n", + " Region: \"zone_3\"\tRelError: 9.42401e+03\tAbsError: 3.70580e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.61616e+01\tAbsError: 9.68714e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.39773e+03\tAbsError: 2.73708e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17913e-01\tAbsError: 6.16382e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.18212e+00\tAbsError: 5.40940e+13\n", + " Region: \"zone_1\"\tRelError: 4.50065e-02\tAbsError: 2.58606e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.50065e-02\tAbsError: 2.58606e-02\n", + " Region: \"zone_3\"\tRelError: 1.13712e+00\tAbsError: 5.40940e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.53826e-01\tAbsError: 3.02007e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.38163e-01\tAbsError: 2.38932e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.51291e-02\tAbsError: 2.58973e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.07800e+00\tAbsError: 3.45404e+14\n", + " Region: \"zone_1\"\tRelError: 5.44178e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.44178e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.53382e+00\tAbsError: 3.45404e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90662e-01\tAbsError: 1.56300e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.87478e-01\tAbsError: 1.89103e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.56802e-02\tAbsError: 3.07632e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.00096e+02\tAbsError: 3.25866e+14\n", + " Region: \"zone_1\"\tRelError: 2.42568e-01\tAbsError: 5.23282e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.42568e-01\tAbsError: 5.23282e-02\n", + " Region: \"zone_3\"\tRelError: 3.99853e+02\tAbsError: 3.25866e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.97144e+02\tAbsError: 2.25150e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.02625e+02\tAbsError: 1.00716e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.47475e-02\tAbsError: 5.23282e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.67376e+02\tAbsError: 5.27737e+14\n", + " Region: \"zone_1\"\tRelError: 4.70139e-01\tAbsError: 5.51934e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.70139e-01\tAbsError: 5.51934e-02\n", + " Region: \"zone_3\"\tRelError: 1.66906e+02\tAbsError: 5.27737e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.26954e+02\tAbsError: 3.23447e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.98575e+01\tAbsError: 2.04290e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.42599e-02\tAbsError: 5.51934e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.19813e+01\tAbsError: 9.23407e+15\n", + " Region: \"zone_1\"\tRelError: 1.02779e+01\tAbsError: 4.23835e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02779e+01\tAbsError: 4.23835e-02\n", + " Region: \"zone_3\"\tRelError: 1.70346e+00\tAbsError: 9.23407e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.05551e-01\tAbsError: 4.99552e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.05520e-01\tAbsError: 4.23855e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.23930e-02\tAbsError: 4.23835e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.47964e-01\tAbsError: 2.72816e+12\n", + " Region: \"zone_1\"\tRelError: 1.75691e-02\tAbsError: 1.17190e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.75691e-02\tAbsError: 1.17190e-02\n", + " Region: \"zone_3\"\tRelError: 4.30394e-01\tAbsError: 2.72816e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.07313e-01\tAbsError: 1.74663e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.05231e-01\tAbsError: 9.81531e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.78508e-02\tAbsError: 1.17190e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.11313e+00\tAbsError: 4.26791e+13\n", + " Region: \"zone_1\"\tRelError: 7.05940e-02\tAbsError: 2.58377e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.05940e-02\tAbsError: 2.58377e-02\n", + " Region: \"zone_3\"\tRelError: 1.04254e+00\tAbsError: 4.26791e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14646e-01\tAbsError: 2.38411e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.85599e-01\tAbsError: 1.88379e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.22941e-02\tAbsError: 2.58015e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 9.63412e+03\tAbsError: 7.11539e+13\n", + " Region: \"zone_1\"\tRelError: 6.58173e-02\tAbsError: 4.42512e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.58173e-02\tAbsError: 4.42512e-02\n", + " Region: \"zone_3\"\tRelError: 9.63405e+03\tAbsError: 7.11539e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.27619e+02\tAbsError: 1.01552e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.30637e+03\tAbsError: 6.09987e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.62284e-02\tAbsError: 4.42513e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.45643e+02\tAbsError: 1.41192e+14\n", + " Region: \"zone_1\"\tRelError: 9.40268e-02\tAbsError: 4.76391e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.40268e-02\tAbsError: 4.76391e-02\n", + " Region: \"zone_3\"\tRelError: 6.45549e+02\tAbsError: 1.41192e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.67511e+02\tAbsError: 9.22825e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.77963e+02\tAbsError: 4.89099e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.43903e-02\tAbsError: 4.76391e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.12618e-01\tAbsError: 1.67703e+11\n", + " Region: \"zone_1\"\tRelError: 8.07019e-05\tAbsError: 1.19119e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.07019e-05\tAbsError: 1.19119e-06\n", + " Region: \"zone_3\"\tRelError: 1.12538e-01\tAbsError: 1.67703e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12411e-01\tAbsError: 5.81197e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.24559e-04\tAbsError: 1.09583e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.31628e-06\tAbsError: 1.26920e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.83480e-01\tAbsError: 2.88954e+12\n", + " Region: \"zone_1\"\tRelError: 1.35212e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35212e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.69958e-01\tAbsError: 2.88954e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88338e-01\tAbsError: 2.12977e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.78790e-02\tAbsError: 2.67656e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37417e-02\tAbsError: 9.16534e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.87614e+00\tAbsError: 3.94195e+14\n", + " Region: \"zone_1\"\tRelError: 2.99922e-01\tAbsError: 3.24492e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.99922e-01\tAbsError: 3.24492e-02\n", + " Region: \"zone_3\"\tRelError: 1.57621e+00\tAbsError: 3.94195e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.10160e-01\tAbsError: 1.78861e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.07263e-01\tAbsError: 2.15334e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.87924e-02\tAbsError: 3.24493e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.16512e+02\tAbsError: 9.24158e+13\n", + " Region: \"zone_1\"\tRelError: 7.94582e-02\tAbsError: 3.46606e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.94582e-02\tAbsError: 3.46606e-02\n", + " Region: \"zone_3\"\tRelError: 2.16432e+02\tAbsError: 9.24158e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.04810e+02\tAbsError: 5.48422e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.15737e+01\tAbsError: 3.75736e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.86497e-02\tAbsError: 3.46607e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.75979e-06\tAbsError: 9.15943e+05\n", + " Region: \"zone_1\"\tRelError: 2.41515e-10\tAbsError: 4.07741e-12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.41515e-10\tAbsError: 4.07741e-12\n", + " Region: \"zone_3\"\tRelError: 2.75955e-06\tAbsError: 9.15943e+05\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.75771e-06\tAbsError: 1.84364e+05\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.83413e-09\tAbsError: 7.31579e+05\n", + " Equation: \"PotentialEquation\"\tRelError: 8.05841e-12\tAbsError: 4.42587e-12\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.85209e+03\tAbsError: 3.15377e+13\n", + " Region: \"zone_1\"\tRelError: 5.58938e-02\tAbsError: 3.86842e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.58938e-02\tAbsError: 3.86842e-02\n", + " Region: \"zone_3\"\tRelError: 5.85204e+03\tAbsError: 3.15377e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.78253e+03\tAbsError: 8.91278e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.94521e+01\tAbsError: 2.26249e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.62456e-02\tAbsError: 3.86842e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:59\u001b[0m.\u001b[1;36m773\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:59\u001b[0m.\u001b[1;36m773\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.31666666666666665\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.16827e+00\tAbsError: 5.24298e+13\n", + " Region: \"zone_1\"\tRelError: 4.47125e-02\tAbsError: 2.58923e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.47125e-02\tAbsError: 2.58923e-02\n", + " Region: \"zone_3\"\tRelError: 1.12355e+00\tAbsError: 5.24298e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.48461e-01\tAbsError: 2.92951e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.30280e-01\tAbsError: 2.31347e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.48109e-02\tAbsError: 2.58991e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.38444e-02\tAbsError: 3.70458e+12\n", + " Region: \"zone_1\"\tRelError: 3.59871e-03\tAbsError: 2.71390e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.59871e-03\tAbsError: 2.71390e-05\n", + " Region: \"zone_3\"\tRelError: 9.02457e-02\tAbsError: 3.70458e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.84320e-02\tAbsError: 1.19345e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.76575e-03\tAbsError: 2.51114e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.79561e-05\tAbsError: 2.71828e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.59514e+02\tAbsError: 2.50534e+13\n", + " Region: \"zone_1\"\tRelError: 4.08268e-02\tAbsError: 2.81019e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.08268e-02\tAbsError: 2.81019e-02\n", + " Region: \"zone_3\"\tRelError: 3.59473e+02\tAbsError: 2.50534e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.58860e+02\tAbsError: 1.45093e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.72615e-01\tAbsError: 1.05441e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.08214e-02\tAbsError: 2.81020e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.01135e+03\tAbsError: 1.36473e+13\n", + " Region: \"zone_1\"\tRelError: 3.79634e-02\tAbsError: 2.58868e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.79634e-02\tAbsError: 2.58868e-02\n", + " Region: \"zone_3\"\tRelError: 1.01132e+03\tAbsError: 1.36473e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.00963e+03\tAbsError: 8.33029e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.64673e+00\tAbsError: 5.31702e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.81405e-02\tAbsError: 2.57846e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.96038e-05\tAbsError: 5.27330e+08\n", + " Region: \"zone_1\"\tRelError: 3.38320e-07\tAbsError: 2.80513e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.38320e-07\tAbsError: 2.80513e-09\n", + " Region: \"zone_3\"\tRelError: 4.92654e-05\tAbsError: 5.27330e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.82203e-05\tAbsError: 1.20057e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.04006e-06\tAbsError: 4.07273e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 5.04648e-09\tAbsError: 2.84942e-09\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.34212e-01\tAbsError: 2.61245e+12\n", + " Region: \"zone_1\"\tRelError: 1.69568e-02\tAbsError: 1.13359e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.69568e-02\tAbsError: 1.13359e-02\n", + " Region: \"zone_3\"\tRelError: 4.17255e-01\tAbsError: 2.61245e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.00635e-01\tAbsError: 1.65011e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.93911e-02\tAbsError: 9.62337e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72292e-02\tAbsError: 1.13359e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 8.80016e+00\tAbsError: 9.26520e+15\n", + " Region: \"zone_1\"\tRelError: 7.07643e+00\tAbsError: 4.26142e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.07643e+00\tAbsError: 4.26142e-02\n", + " Region: \"zone_3\"\tRelError: 1.72373e+00\tAbsError: 9.26520e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.07327e-01\tAbsError: 5.24812e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.07316e-01\tAbsError: 4.01709e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09088e-01\tAbsError: 4.26142e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:00\u001b[0m.\u001b[1;36m322\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:00\u001b[0m.\u001b[1;36m322\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.07850e+00\tAbsError: 1.70830e+12\n", + " Region: \"zone_1\"\tRelError: 1.83637e-02\tAbsError: 1.47172e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.83637e-02\tAbsError: 1.47172e-02\n", + " Region: \"zone_3\"\tRelError: 1.06013e+00\tAbsError: 1.70830e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.97311e-01\tAbsError: 5.14807e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.40601e-02\tAbsError: 1.19349e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87632e-02\tAbsError: 1.47172e-02\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.22208e+00\tAbsError: 2.75802e+12\n", + " Region: \"zone_1\"\tRelError: 2.87771e-02\tAbsError: 2.26488e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.87771e-02\tAbsError: 2.26488e-02\n", + " Region: \"zone_3\"\tRelError: 1.19330e+00\tAbsError: 2.75802e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99833e-01\tAbsError: 1.67616e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.64198e-01\tAbsError: 1.08185e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.92713e-02\tAbsError: 2.26489e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.08767e-01\tAbsError: 9.15820e+10\n", + " Region: \"zone_1\"\tRelError: 3.50074e-06\tAbsError: 2.32618e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 3.50074e-06\tAbsError: 2.32618e-07\n", + " Region: \"zone_3\"\tRelError: 1.08764e-01\tAbsError: 9.15820e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.08683e-01\tAbsError: 2.45142e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.10349e-05\tAbsError: 8.91305e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.11010e-07\tAbsError: 2.47753e-07\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 6.03578e-01\tAbsError: 1.20875e+12\n", + " Region: \"zone_1\"\tRelError: 6.45299e-04\tAbsError: 7.15824e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.45299e-04\tAbsError: 7.15824e-06\n", + " Region: \"zone_3\"\tRelError: 6.02933e-01\tAbsError: 1.20875e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.02052e-01\tAbsError: 3.27309e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.69519e-04\tAbsError: 8.81446e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13066e-05\tAbsError: 7.27175e-06\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 8.97893e-01\tAbsError: 7.55600e+11\n", + " Region: \"zone_1\"\tRelError: 1.29308e-04\tAbsError: 2.23218e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29308e-04\tAbsError: 2.23218e-06\n", + " Region: \"zone_3\"\tRelError: 8.97763e-01\tAbsError: 7.55600e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.96369e-01\tAbsError: 1.03886e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.39021e-03\tAbsError: 6.51714e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.72140e-06\tAbsError: 2.34576e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.02057e+00\tAbsError: 3.92740e+14\n", + " Region: \"zone_1\"\tRelError: 4.23022e-01\tAbsError: 3.27220e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.23022e-01\tAbsError: 3.27220e-02\n", + " Region: \"zone_3\"\tRelError: 1.59755e+00\tAbsError: 3.92740e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.13652e-01\tAbsError: 2.06183e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.10105e-01\tAbsError: 1.86557e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.37891e-02\tAbsError: 3.27220e-02\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.04952e-04\tAbsError: 1.41961e+07\n", + " Region: \"zone_1\"\tRelError: 1.02048e-08\tAbsError: 1.35544e-10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02048e-08\tAbsError: 1.35544e-10\n", + " Region: \"zone_3\"\tRelError: 1.04942e-04\tAbsError: 1.41961e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04766e-04\tAbsError: 6.03537e+06\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.75523e-07\tAbsError: 8.16076e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.19763e-10\tAbsError: 1.41360e-10\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.64184e-07\tAbsError: 6.99685e+04\n", + " Region: \"zone_1\"\tRelError: 1.53583e-11\tAbsError: 2.11293e-13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.53583e-11\tAbsError: 2.11293e-13\n", + " Region: \"zone_3\"\tRelError: 5.64169e-07\tAbsError: 6.99685e+04\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.64107e-07\tAbsError: 1.79086e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.20585e-11\tAbsError: 5.20599e+04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.03557e-13\tAbsError: 2.20449e-13\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 6.66959e-05\tAbsError: 3.18899e+06\n", + " Region: \"zone_1\"\tRelError: 7.45090e-10\tAbsError: 1.97675e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 7.45090e-10\tAbsError: 1.97675e-11\n", + " Region: \"zone_3\"\tRelError: 6.66952e-05\tAbsError: 3.18899e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.66668e-05\tAbsError: 1.78142e+05\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.83350e-08\tAbsError: 3.01085e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.11360e-11\tAbsError: 2.08037e-11\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.62677e+00\tAbsError: 8.55868e+15\n", + " Region: \"zone_1\"\tRelError: 3.93566e+00\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.93566e+00\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.69111e+00\tAbsError: 8.55868e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94568e-01\tAbsError: 4.83229e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94557e-01\tAbsError: 3.72639e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01989e-01\tAbsError: 4.09542e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:01\u001b[0m.\u001b[1;36m044\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.20625\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:01\u001b[0m.\u001b[1;36m044\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:01\u001b[0m.\u001b[1;36m044\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.3142857142857143\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.20591e+00\tAbsError: 3.39308e+13\n", + " Region: \"zone_1\"\tRelError: 5.60532e-02\tAbsError: 2.58742e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.60532e-02\tAbsError: 2.58742e-02\n", + " Region: \"zone_3\"\tRelError: 1.14986e+00\tAbsError: 3.39308e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.53907e-01\tAbsError: 2.17210e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.39740e-01\tAbsError: 1.22098e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.62087e-02\tAbsError: 2.58980e-02\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 1.88658e-13\tAbsError: 3.08154e+04\n", + " Region: \"zone_1\"\tRelError: 8.30400e-14\tAbsError: 1.14869e-16\n", + " Equation: \"PotentialEquation\"\tRelError: 8.30400e-14\tAbsError: 1.14869e-16\n", + " Region: \"zone_3\"\tRelError: 1.05618e-13\tAbsError: 3.08154e+04\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.97303e-14\tAbsError: 1.58947e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.24995e-15\tAbsError: 1.49207e+04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.46374e-14\tAbsError: 1.12518e-16\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:01\u001b[0m.\u001b[1;36m245\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.2\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.54174e-01\tAbsError: 2.63999e+12\n", + " Region: \"zone_1\"\tRelError: 2.16661e-02\tAbsError: 1.17190e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.16661e-02\tAbsError: 1.17190e-02\n", + " Region: \"zone_3\"\tRelError: 4.32508e-01\tAbsError: 2.63999e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.06955e-01\tAbsError: 1.55437e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03619e-01\tAbsError: 1.08561e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.19328e-02\tAbsError: 1.17190e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.68467e+00\tAbsError: 3.35446e+14\n", + " Region: \"zone_1\"\tRelError: 1.36557e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.36557e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.54812e+00\tAbsError: 3.35446e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90679e-01\tAbsError: 1.72457e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.87899e-01\tAbsError: 1.62989e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.95382e-02\tAbsError: 3.07632e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.28470e+01\tAbsError: 9.15711e+15\n", + " Region: \"zone_1\"\tRelError: 1.11470e+01\tAbsError: 4.22091e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11470e+01\tAbsError: 4.22091e-02\n", + " Region: \"zone_3\"\tRelError: 1.70000e+00\tAbsError: 9.15711e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.04237e-01\tAbsError: 4.95388e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.04206e-01\tAbsError: 4.20323e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.15525e-02\tAbsError: 4.22091e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.73208e+00\tAbsError: 9.16435e+15\n", + " Region: \"zone_1\"\tRelError: 6.01267e+00\tAbsError: 4.23835e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.01267e+00\tAbsError: 4.23835e-02\n", + " Region: \"zone_3\"\tRelError: 1.71942e+00\tAbsError: 9.16435e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.05602e-01\tAbsError: 5.18862e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.05591e-01\tAbsError: 3.97573e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08224e-01\tAbsError: 4.23835e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.12470e-01\tAbsError: 2.41978e+11\n", + " Region: \"zone_1\"\tRelError: 3.41928e-05\tAbsError: 3.25966e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 3.41928e-05\tAbsError: 3.25966e-07\n", + " Region: \"zone_3\"\tRelError: 1.12436e-01\tAbsError: 2.41978e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12179e-01\tAbsError: 1.55249e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.56546e-04\tAbsError: 2.26453e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 7.79208e-07\tAbsError: 3.44024e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.21485e+01\tAbsError: 8.61846e+15\n", + " Region: \"zone_1\"\tRelError: 3.04717e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.04717e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.67686e+00\tAbsError: 8.61846e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94516e-01\tAbsError: 4.66248e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94484e-01\tAbsError: 3.95598e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.78603e-02\tAbsError: 4.09542e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.10405e+00\tAbsError: 2.84626e+13\n", + " Region: \"zone_1\"\tRelError: 5.09442e-02\tAbsError: 2.58970e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.09442e-02\tAbsError: 2.58970e-02\n", + " Region: \"zone_3\"\tRelError: 1.05311e+00\tAbsError: 2.84626e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14915e-01\tAbsError: 1.81960e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.86897e-01\tAbsError: 1.02666e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.12979e-02\tAbsError: 2.58565e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.88714e+00\tAbsError: 3.87948e+14\n", + " Region: \"zone_1\"\tRelError: 3.15624e-01\tAbsError: 3.22432e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.15624e-01\tAbsError: 3.22432e-02\n", + " Region: \"zone_3\"\tRelError: 1.57151e+00\tAbsError: 3.87948e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.07930e-01\tAbsError: 1.75972e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.04835e-01\tAbsError: 2.11976e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.87474e-02\tAbsError: 3.22432e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.48978e-07\tAbsError: 3.61558e+05\n", + " Region: \"zone_1\"\tRelError: 1.68628e-12\tAbsError: 3.44674e-13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.68628e-12\tAbsError: 3.44674e-13\n", + " Region: \"zone_3\"\tRelError: 4.48977e-07\tAbsError: 3.61558e+05\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.48424e-07\tAbsError: 1.54412e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.51743e-10\tAbsError: 3.46117e+05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.60385e-13\tAbsError: 3.52997e-13\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.92499e+00\tAbsError: 3.84281e+14\n", + " Region: \"zone_1\"\tRelError: 3.34214e-01\tAbsError: 3.24492e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.34214e-01\tAbsError: 3.24492e-02\n", + " Region: \"zone_3\"\tRelError: 1.59078e+00\tAbsError: 3.84281e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.10494e-01\tAbsError: 2.01137e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.07227e-01\tAbsError: 1.83145e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.30565e-02\tAbsError: 3.24492e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.07800e+00\tAbsError: 3.45404e+14\n", + " Region: \"zone_1\"\tRelError: 5.44178e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.44178e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.53382e+00\tAbsError: 3.45404e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90662e-01\tAbsError: 1.56300e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.87478e-01\tAbsError: 1.89103e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.56802e-02\tAbsError: 3.07632e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:02\u001b[0m.\u001b[1;36m164\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:02\u001b[0m.\u001b[1;36m164\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.42500000000000004\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.15902e+00\tAbsError: 5.11241e+13\n", + " Region: \"zone_1\"\tRelError: 4.51307e-02\tAbsError: 2.58740e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.51307e-02\tAbsError: 2.58740e-02\n", + " Region: \"zone_3\"\tRelError: 1.11389e+00\tAbsError: 5.11241e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.44316e-01\tAbsError: 2.85584e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.25056e-01\tAbsError: 2.25657e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.45193e-02\tAbsError: 2.58647e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.87738e-01\tAbsError: 1.50257e+12\n", + " Region: \"zone_1\"\tRelError: 1.63299e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.63299e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.71408e-01\tAbsError: 1.50257e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88723e-01\tAbsError: 2.92089e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.61472e-02\tAbsError: 1.21048e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65380e-02\tAbsError: 9.16534e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.19211e+00\tAbsError: 3.32532e+13\n", + " Region: \"zone_1\"\tRelError: 5.53890e-02\tAbsError: 2.58920e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.53890e-02\tAbsError: 2.58920e-02\n", + " Region: \"zone_3\"\tRelError: 1.13672e+00\tAbsError: 3.32532e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.48642e-01\tAbsError: 2.13165e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.32451e-01\tAbsError: 1.19367e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.56280e-02\tAbsError: 2.58962e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.23439e-01\tAbsError: 2.48858e+12\n", + " Region: \"zone_1\"\tRelError: 1.65047e-02\tAbsError: 1.10525e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65047e-02\tAbsError: 1.10525e-02\n", + " Region: \"zone_3\"\tRelError: 4.06934e-01\tAbsError: 2.48858e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.94927e-01\tAbsError: 1.39921e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.52365e-02\tAbsError: 1.08937e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.67704e-02\tAbsError: 1.10525e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.11313e+00\tAbsError: 4.26791e+13\n", + " Region: \"zone_1\"\tRelError: 7.05940e-02\tAbsError: 2.58377e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.05940e-02\tAbsError: 2.58377e-02\n", + " Region: \"zone_3\"\tRelError: 1.04254e+00\tAbsError: 4.26791e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14646e-01\tAbsError: 2.38411e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.85599e-01\tAbsError: 1.88379e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.22941e-02\tAbsError: 2.58015e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.96849e-02\tAbsError: 2.07362e+12\n", + " Region: \"zone_1\"\tRelError: 7.02885e-04\tAbsError: 1.90198e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.02885e-04\tAbsError: 1.90198e-05\n", + " Region: \"zone_3\"\tRelError: 8.89820e-02\tAbsError: 2.07362e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.78375e-02\tAbsError: 8.90891e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10276e-03\tAbsError: 1.18273e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.17313e-05\tAbsError: 1.96984e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 4.19960e+00\tAbsError: 9.13325e+15\n", + " Region: \"zone_1\"\tRelError: 2.46103e+00\tAbsError: 4.26142e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.46103e+00\tAbsError: 4.26142e-02\n", + " Region: \"zone_3\"\tRelError: 1.73857e+00\tAbsError: 9.13325e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.07329e-01\tAbsError: 5.34387e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.07315e-01\tAbsError: 3.78938e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.23925e-01\tAbsError: 4.26142e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.39831e-01\tAbsError: 2.55802e+12\n", + " Region: \"zone_1\"\tRelError: 2.08443e-02\tAbsError: 1.13359e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.08443e-02\tAbsError: 1.13359e-02\n", + " Region: \"zone_3\"\tRelError: 4.18986e-01\tAbsError: 2.55802e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.00015e-01\tAbsError: 1.46829e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.78664e-02\tAbsError: 1.08972e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.11047e-02\tAbsError: 1.13359e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.06933e-01\tAbsError: 5.18671e+11\n", + " Region: \"zone_1\"\tRelError: 3.54917e-04\tAbsError: 4.66744e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.54917e-04\tAbsError: 4.66744e-06\n", + " Region: \"zone_3\"\tRelError: 1.06578e-01\tAbsError: 5.18671e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.06131e-01\tAbsError: 2.20799e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.37889e-04\tAbsError: 2.97871e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 8.78698e-06\tAbsError: 4.85813e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.83480e-01\tAbsError: 2.88954e+12\n", + " Region: \"zone_1\"\tRelError: 1.35212e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35212e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.69958e-01\tAbsError: 2.88954e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88338e-01\tAbsError: 2.12977e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.78790e-02\tAbsError: 2.67656e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37417e-02\tAbsError: 9.16534e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.40982e-05\tAbsError: 1.92019e+08\n", + " Region: \"zone_1\"\tRelError: 4.03285e-08\tAbsError: 1.17477e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 4.03285e-08\tAbsError: 1.17477e-09\n", + " Region: \"zone_3\"\tRelError: 3.40579e-05\tAbsError: 1.92019e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.36060e-05\tAbsError: 5.55442e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.49187e-07\tAbsError: 1.36475e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 2.67835e-09\tAbsError: 1.26430e-09\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.71932e+00\tAbsError: 3.84693e+14\n", + " Region: \"zone_1\"\tRelError: 1.01771e-01\tAbsError: 3.27220e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01771e-01\tAbsError: 3.27220e-02\n", + " Region: \"zone_3\"\tRelError: 1.61755e+00\tAbsError: 3.84693e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.13531e-01\tAbsError: 2.43732e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.10807e-01\tAbsError: 1.40961e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.32090e-02\tAbsError: 3.27220e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:03\u001b[0m.\u001b[1;36m095\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.4\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.08419e-01\tAbsError: 1.78582e+11\n", + " Region: \"zone_1\"\tRelError: 4.38975e-05\tAbsError: 5.32125e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 4.38975e-05\tAbsError: 5.32125e-07\n", + " Region: \"zone_3\"\tRelError: 1.08375e-01\tAbsError: 1.78582e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.08198e-01\tAbsError: 2.44620e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.75328e-04\tAbsError: 1.54120e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21401e-06\tAbsError: 5.53297e-07\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.38444e-02\tAbsError: 3.70458e+12\n", + " Region: \"zone_1\"\tRelError: 3.59871e-03\tAbsError: 2.71390e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.59871e-03\tAbsError: 2.71390e-05\n", + " Region: \"zone_3\"\tRelError: 9.02457e-02\tAbsError: 3.70458e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.84320e-02\tAbsError: 1.19345e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.76575e-03\tAbsError: 2.51114e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.79561e-05\tAbsError: 2.71828e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.24334e+00\tAbsError: 5.69750e+13\n", + " Region: \"zone_1\"\tRelError: 7.33683e-02\tAbsError: 2.58826e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.33683e-02\tAbsError: 2.58826e-02\n", + " Region: \"zone_3\"\tRelError: 1.16997e+00\tAbsError: 5.69750e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.53959e-01\tAbsError: 4.18873e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.42390e-01\tAbsError: 1.50877e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.36175e-02\tAbsError: 2.58826e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.11708e-05\tAbsError: 9.26273e+06\n", + " Region: \"zone_1\"\tRelError: 4.48579e-09\tAbsError: 6.49167e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.48579e-09\tAbsError: 6.49167e-11\n", + " Region: \"zone_3\"\tRelError: 1.11663e-05\tAbsError: 9.26273e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.11195e-05\tAbsError: 3.00525e+06\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.66737e-08\tAbsError: 6.25748e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.25761e-10\tAbsError: 6.95491e-11\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:03\u001b[0m.\u001b[1;36m456\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.3125\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.56244e+00\tAbsError: 8.45570e+15\n", + " Region: \"zone_1\"\tRelError: 3.85573e+00\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.85573e+00\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.70670e+00\tAbsError: 8.45570e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94571e-01\tAbsError: 4.92914e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94557e-01\tAbsError: 3.52655e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17574e-01\tAbsError: 4.09542e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.30803e-06\tAbsError: 1.39215e+05\n", + " Region: \"zone_1\"\tRelError: 4.09874e-11\tAbsError: 4.86456e-13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.09874e-11\tAbsError: 4.86456e-13\n", + " Region: \"zone_3\"\tRelError: 1.30799e-06\tAbsError: 1.39215e+05\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.30706e-06\tAbsError: 2.54601e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.20349e-10\tAbsError: 1.13755e+05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14721e-12\tAbsError: 5.00050e-13\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.96038e-05\tAbsError: 5.27329e+08\n", + " Region: \"zone_1\"\tRelError: 3.38319e-07\tAbsError: 2.80513e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.38319e-07\tAbsError: 2.80513e-09\n", + " Region: \"zone_3\"\tRelError: 4.92654e-05\tAbsError: 5.27329e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.82203e-05\tAbsError: 1.20057e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.04006e-06\tAbsError: 4.07273e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 5.04648e-09\tAbsError: 2.84942e-09\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:03\u001b[0m.\u001b[1;36m734\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:03\u001b[0m.\u001b[1;36m734\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.4214285714285714\u001b[0m \n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.67898e-01\tAbsError: 7.04138e+12\n", + " Region: \"zone_1\"\tRelError: 2.81523e-02\tAbsError: 1.17190e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.81523e-02\tAbsError: 1.17190e-02\n", + " Region: \"zone_3\"\tRelError: 4.39746e-01\tAbsError: 7.04138e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.06769e-01\tAbsError: 2.74850e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.04598e-01\tAbsError: 4.29289e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.83778e-02\tAbsError: 1.17190e-02\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:03\u001b[0m.\u001b[1;36m755\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: \u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:03\u001b[0m.\u001b[1;36m755\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.67739e+00\tAbsError: 3.26551e+14\n", + " Region: \"zone_1\"\tRelError: 1.13651e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13651e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.56374e+00\tAbsError: 3.26551e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91179e-01\tAbsError: 1.98410e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.87607e-01\tAbsError: 1.28141e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.49517e-02\tAbsError: 3.07632e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.10811e+00\tAbsError: 9.08870e+15\n", + " Region: \"zone_1\"\tRelError: 5.39249e+00\tAbsError: 4.22091e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.39249e+00\tAbsError: 4.22091e-02\n", + " Region: \"zone_3\"\tRelError: 1.71562e+00\tAbsError: 9.08870e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.04288e-01\tAbsError: 5.14403e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.04277e-01\tAbsError: 3.94467e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07055e-01\tAbsError: 4.22091e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.13460e-01\tAbsError: 6.89826e+11\n", + " Region: \"zone_1\"\tRelError: 1.18399e-04\tAbsError: 6.54909e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18399e-04\tAbsError: 6.54909e-06\n", + " Region: \"zone_3\"\tRelError: 1.13342e-01\tAbsError: 6.89826e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12681e-01\tAbsError: 3.53309e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.39335e-04\tAbsError: 3.36517e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.16295e-05\tAbsError: 7.19104e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.13583e+00\tAbsError: 3.35166e+13\n", + " Region: \"zone_1\"\tRelError: 6.49986e-02\tAbsError: 2.58787e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.49986e-02\tAbsError: 2.58787e-02\n", + " Region: \"zone_3\"\tRelError: 1.07083e+00\tAbsError: 3.35166e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14794e-01\tAbsError: 2.31889e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.90894e-01\tAbsError: 1.03277e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.51440e-02\tAbsError: 2.58923e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.42127e-05\tAbsError: 2.61598e+07\n", + " Region: \"zone_1\"\tRelError: 3.82398e-09\tAbsError: 2.37448e-10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.82398e-09\tAbsError: 2.37448e-10\n", + " Region: \"zone_3\"\tRelError: 1.42089e-05\tAbsError: 2.61598e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.41120e-05\tAbsError: 1.42128e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.60310e-08\tAbsError: 1.19470e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 8.29382e-10\tAbsError: 2.71915e-10\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.87280e+00\tAbsError: 3.78063e+14\n", + " Region: \"zone_1\"\tRelError: 2.87477e-01\tAbsError: 3.22432e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.87477e-01\tAbsError: 3.22432e-02\n", + " Region: \"zone_3\"\tRelError: 1.58533e+00\tAbsError: 3.78063e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.08269e-01\tAbsError: 1.97458e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.04792e-01\tAbsError: 1.80605e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.22654e-02\tAbsError: 3.22432e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.97996e+00\tAbsError: 9.03690e+15\n", + " Region: \"zone_1\"\tRelError: 2.24677e+00\tAbsError: 4.23835e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.24677e+00\tAbsError: 4.23835e-02\n", + " Region: \"zone_3\"\tRelError: 1.73319e+00\tAbsError: 9.03690e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.05604e-01\tAbsError: 5.28487e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.05590e-01\tAbsError: 3.75204e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21995e-01\tAbsError: 4.23835e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:04\u001b[0m.\u001b[1;36m472\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:04\u001b[0m.\u001b[1;36m472\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5333333333333333\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.62677e+00\tAbsError: 8.55868e+15\n", + " Region: \"zone_1\"\tRelError: 3.93566e+00\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.93566e+00\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.69111e+00\tAbsError: 8.55868e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94568e-01\tAbsError: 4.83229e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94557e-01\tAbsError: 3.72639e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01989e-01\tAbsError: 4.09542e-02\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.97006e-01\tAbsError: 3.97798e+12\n", + " Region: \"zone_1\"\tRelError: 2.05644e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.05644e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.76441e-01\tAbsError: 3.97798e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88505e-01\tAbsError: 1.01871e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.71832e-02\tAbsError: 2.95927e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.07533e-02\tAbsError: 9.16534e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.71120e+00\tAbsError: 3.76250e+14\n", + " Region: \"zone_1\"\tRelError: 1.01047e-01\tAbsError: 3.24492e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01047e-01\tAbsError: 3.24492e-02\n", + " Region: \"zone_3\"\tRelError: 1.61015e+00\tAbsError: 3.76250e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.10602e-01\tAbsError: 2.37048e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.07623e-01\tAbsError: 1.39202e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.19253e-02\tAbsError: 3.24493e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.18219e+00\tAbsError: 3.25905e+13\n", + " Region: \"zone_1\"\tRelError: 5.50731e-02\tAbsError: 2.58881e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.50731e-02\tAbsError: 2.58881e-02\n", + " Region: \"zone_3\"\tRelError: 1.12712e+00\tAbsError: 3.25905e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.44603e-01\tAbsError: 2.08693e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.27351e-01\tAbsError: 1.17212e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.51633e-02\tAbsError: 2.58974e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.68467e+00\tAbsError: 3.35446e+14\n", + " Region: \"zone_1\"\tRelError: 1.36557e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.36557e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.54812e+00\tAbsError: 3.35446e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90679e-01\tAbsError: 1.72457e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.87899e-01\tAbsError: 1.62989e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.95382e-02\tAbsError: 3.07632e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.75905e-02\tAbsError: 6.14178e+11\n", + " Region: \"zone_1\"\tRelError: 1.87871e-04\tAbsError: 5.35919e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87871e-04\tAbsError: 5.35919e-06\n", + " Region: \"zone_3\"\tRelError: 8.74026e-02\tAbsError: 6.14178e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.70791e-02\tAbsError: 2.57149e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.08574e-04\tAbsError: 3.57029e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49985e-05\tAbsError: 5.65537e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.22827e+00\tAbsError: 5.37376e+13\n", + " Region: \"zone_1\"\tRelError: 7.15835e-02\tAbsError: 2.58629e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.15835e-02\tAbsError: 2.58629e-02\n", + " Region: \"zone_3\"\tRelError: 1.15669e+00\tAbsError: 5.37376e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.48602e-01\tAbsError: 3.94447e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.35622e-01\tAbsError: 1.42929e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.24649e-02\tAbsError: 2.58483e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.29005e-01\tAbsError: 2.53945e+12\n", + " Region: \"zone_1\"\tRelError: 2.02409e-02\tAbsError: 1.10525e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.02409e-02\tAbsError: 1.10525e-02\n", + " Region: \"zone_3\"\tRelError: 4.08764e-01\tAbsError: 2.53945e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.94460e-01\tAbsError: 1.43263e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.38075e-02\tAbsError: 1.10682e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.04965e-02\tAbsError: 1.10525e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.35717e+02\tAbsError: 9.03749e+15\n", + " Region: \"zone_1\"\tRelError: 1.33965e+02\tAbsError: 4.26142e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33965e+02\tAbsError: 4.26142e-02\n", + " Region: \"zone_3\"\tRelError: 1.75243e+00\tAbsError: 9.03749e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.07326e-01\tAbsError: 5.40486e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.07307e-01\tAbsError: 3.63263e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37792e-01\tAbsError: 4.26142e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.10405e+00\tAbsError: 2.84626e+13\n", + " Region: \"zone_1\"\tRelError: 5.09442e-02\tAbsError: 2.58970e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.09442e-02\tAbsError: 2.58970e-02\n", + " Region: \"zone_3\"\tRelError: 1.05311e+00\tAbsError: 2.84626e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14915e-01\tAbsError: 1.81960e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.86897e-01\tAbsError: 1.02666e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.12979e-02\tAbsError: 2.58565e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 9.95471e-06\tAbsError: 1.37438e+07\n", + " Region: \"zone_1\"\tRelError: 1.96051e-09\tAbsError: 6.30623e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.96051e-09\tAbsError: 6.30623e-11\n", + " Region: \"zone_3\"\tRelError: 9.95275e-06\tAbsError: 1.37438e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.91827e-06\tAbsError: 3.21256e+06\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.43047e-08\tAbsError: 1.05312e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.78389e-10\tAbsError: 6.72816e-11\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:05\u001b[0m.\u001b[1;36m405\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.5\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Iteration: 3\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + " Device: \"device\"\tRelError: 4.52390e-01\tAbsError: 6.45583e+12\n", + " Region: \"zone_1\"\tRelError: 2.69601e-02\tAbsError: 1.13359e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.69601e-02\tAbsError: 1.13359e-02\n", + " Region: \"zone_3\"\tRelError: 4.25430e-01\tAbsError: 6.45583e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.99644e-01\tAbsError: 2.39511e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.86014e-02\tAbsError: 4.06072e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.71842e-02\tAbsError: 1.13359e-02\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.05316e-01\tAbsError: 5.79540e+10\n", + " Region: \"zone_1\"\tRelError: 7.85176e-06\tAbsError: 1.71162e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 7.85176e-06\tAbsError: 1.71162e-07\n", + " Region: \"zone_3\"\tRelError: 1.05308e-01\tAbsError: 5.79540e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.05226e-01\tAbsError: 5.43885e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.20943e-05\tAbsError: 5.25152e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.65925e-07\tAbsError: 1.77014e-07\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.33167e+00\tAbsError: 4.68608e+14\n", + " Region: \"zone_1\"\tRelError: 6.88547e-01\tAbsError: 3.27220e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.88547e-01\tAbsError: 3.27220e-02\n", + " Region: \"zone_3\"\tRelError: 1.64312e+00\tAbsError: 4.68608e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.14298e-01\tAbsError: 3.32999e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.10136e-01\tAbsError: 1.35609e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18685e-01\tAbsError: 3.27220e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.87738e-01\tAbsError: 1.50257e+12\n", + " Region: \"zone_1\"\tRelError: 1.63299e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.63299e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.71408e-01\tAbsError: 1.50257e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88723e-01\tAbsError: 2.92089e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.61472e-02\tAbsError: 1.21048e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65380e-02\tAbsError: 9.16534e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.09153e-01\tAbsError: 6.52102e+11\n", + " Region: \"zone_1\"\tRelError: 1.28718e-04\tAbsError: 6.46805e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28718e-04\tAbsError: 6.46805e-06\n", + " Region: \"zone_3\"\tRelError: 1.09024e-01\tAbsError: 6.52102e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.08417e-01\tAbsError: 3.48257e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.86286e-04\tAbsError: 3.03845e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.10131e-05\tAbsError: 7.10532e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.94336e-07\tAbsError: 3.10240e+04\n", + " Region: \"zone_1\"\tRelError: 2.64468e-12\tAbsError: 8.09012e-14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.64468e-12\tAbsError: 8.09012e-14\n", + " Region: \"zone_3\"\tRelError: 5.94333e-07\tAbsError: 3.10240e+04\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.94222e-07\tAbsError: 1.55669e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10786e-10\tAbsError: 1.54571e+04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49149e-13\tAbsError: 8.55910e-14\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:05\u001b[0m.\u001b[1;36m882\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:05\u001b[0m.\u001b[1;36m882\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.41874999999999996\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.87556e+01\tAbsError: 8.34767e+15\n", + " Region: \"zone_1\"\tRelError: 6.70313e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.70313e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.72426e+00\tAbsError: 8.34767e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94570e-01\tAbsError: 4.96926e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94551e-01\tAbsError: 3.37841e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35138e-01\tAbsError: 4.09542e-02\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.83071e+00\tAbsError: 1.53197e+14\n", + " Region: \"zone_1\"\tRelError: 6.21775e-01\tAbsError: 2.56371e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.21775e-01\tAbsError: 2.56371e-02\n", + " Region: \"zone_3\"\tRelError: 1.20894e+00\tAbsError: 1.53197e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.54286e-01\tAbsError: 8.99731e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.51877e-01\tAbsError: 6.32239e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02774e-01\tAbsError: 2.58431e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.45285e-05\tAbsError: 1.94103e+07\n", + " Region: \"zone_1\"\tRelError: 2.89450e-09\tAbsError: 1.67720e-10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.89450e-09\tAbsError: 1.67720e-10\n", + " Region: \"zone_3\"\tRelError: 1.45256e-05\tAbsError: 1.94103e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.44344e-05\tAbsError: 1.03183e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.06255e-08\tAbsError: 9.09197e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.79572e-10\tAbsError: 1.93371e-10\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.96849e-02\tAbsError: 2.07362e+12\n", + " Region: \"zone_1\"\tRelError: 7.02885e-04\tAbsError: 1.90198e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.02885e-04\tAbsError: 1.90198e-05\n", + " Region: \"zone_3\"\tRelError: 8.89820e-02\tAbsError: 2.07362e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.78375e-02\tAbsError: 8.90891e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10276e-03\tAbsError: 1.18273e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.17313e-05\tAbsError: 1.96984e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:06\u001b[0m.\u001b[1;36m182\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:06\u001b[0m.\u001b[1;36m182\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5285714285714286\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.18244e+00\tAbsError: 3.45808e+14\n", + " Region: \"zone_1\"\tRelError: 5.95786e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95786e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.58666e+00\tAbsError: 3.45808e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91491e-01\tAbsError: 2.56450e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.87672e-01\tAbsError: 8.93573e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07491e-01\tAbsError: 3.07632e-02\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 4.07391e+00\tAbsError: 8.96454e+15\n", + " Region: \"zone_1\"\tRelError: 2.34478e+00\tAbsError: 4.22091e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.34478e+00\tAbsError: 4.22091e-02\n", + " Region: \"zone_3\"\tRelError: 1.72912e+00\tAbsError: 8.96454e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.04290e-01\tAbsError: 5.24055e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.04276e-01\tAbsError: 3.72398e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20557e-01\tAbsError: 4.22091e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.40982e-05\tAbsError: 1.92019e+08\n", + " Region: \"zone_1\"\tRelError: 4.03284e-08\tAbsError: 1.17477e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 4.03284e-08\tAbsError: 1.17477e-09\n", + " Region: \"zone_3\"\tRelError: 3.40579e-05\tAbsError: 1.92019e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.36060e-05\tAbsError: 5.55442e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.49187e-07\tAbsError: 1.36475e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 2.67835e-09\tAbsError: 1.26430e-09\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:06\u001b[0m.\u001b[1;36m509\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.4\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 2\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 1.19247e+00\tAbsError: 8.54805e+13\n", + " Region: \"zone_1\"\tRelError: 9.12229e-02\tAbsError: 2.58978e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.12229e-02\tAbsError: 2.58978e-02\n", + " Region: \"zone_3\"\tRelError: 1.10125e+00\tAbsError: 8.54805e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14822e-01\tAbsError: 5.48784e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.98551e-01\tAbsError: 3.06021e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.78742e-02\tAbsError: 2.58989e-02\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 9.07379e-01\tAbsError: 7.09930e+13\n", + " Region: \"zone_1\"\tRelError: 4.33630e-01\tAbsError: 1.17190e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.33630e-01\tAbsError: 1.17190e-02\n", + " Region: \"zone_3\"\tRelError: 4.73749e-01\tAbsError: 7.09930e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.05206e-01\tAbsError: 3.39039e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.29527e-01\tAbsError: 3.70891e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.90150e-02\tAbsError: 1.17190e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.77164e+01\tAbsError: 8.93909e+15\n", + " Region: \"zone_1\"\tRelError: 2.59693e+01\tAbsError: 4.23835e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.59693e+01\tAbsError: 4.23835e-02\n", + " Region: \"zone_3\"\tRelError: 1.74706e+00\tAbsError: 8.93909e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.05602e-01\tAbsError: 5.34299e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.05583e-01\tAbsError: 3.59610e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35874e-01\tAbsError: 4.23835e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.70349e+00\tAbsError: 3.69951e+14\n", + " Region: \"zone_1\"\tRelError: 9.90112e-02\tAbsError: 3.22432e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.90112e-02\tAbsError: 3.22432e-02\n", + " Region: \"zone_3\"\tRelError: 1.60448e+00\tAbsError: 3.69951e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.08368e-01\tAbsError: 2.32085e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.05186e-01\tAbsError: 1.37866e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.09261e-02\tAbsError: 3.22432e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.72006e-01\tAbsError: 1.34673e+13\n", + " Region: \"zone_1\"\tRelError: 5.38023e-02\tAbsError: 8.38576e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.38023e-02\tAbsError: 8.38576e-05\n", + " Region: \"zone_3\"\tRelError: 1.18204e-01\tAbsError: 1.34673e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.11488e-01\tAbsError: 6.83755e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.33436e-03\tAbsError: 6.62974e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.82194e-04\tAbsError: 9.17770e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.52183e-01\tAbsError: 2.83225e+13\n", + " Region: \"zone_1\"\tRelError: 5.95279e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95279e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.92655e-01\tAbsError: 2.83225e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.85164e-01\tAbsError: 1.34603e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.99920e-02\tAbsError: 1.48622e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.74993e-02\tAbsError: 9.16534e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.21707e+00\tAbsError: 5.14100e+13\n", + " Region: \"zone_1\"\tRelError: 7.05172e-02\tAbsError: 2.58330e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.05172e-02\tAbsError: 2.58330e-02\n", + " Region: \"zone_3\"\tRelError: 1.14655e+00\tAbsError: 5.14100e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.44586e-01\tAbsError: 3.76870e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.30328e-01\tAbsError: 1.37229e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.16401e-02\tAbsError: 2.58529e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.47389e+00\tAbsError: 4.49152e+14\n", + " Region: \"zone_1\"\tRelError: 8.38694e-01\tAbsError: 3.24492e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.38694e-01\tAbsError: 3.24492e-02\n", + " Region: \"zone_3\"\tRelError: 1.63520e+00\tAbsError: 4.49152e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.11302e-01\tAbsError: 3.21890e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.07074e-01\tAbsError: 1.27262e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16820e-01\tAbsError: 3.24492e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.56244e+00\tAbsError: 8.45570e+15\n", + " Region: \"zone_1\"\tRelError: 3.85573e+00\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.85573e+00\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.70670e+00\tAbsError: 8.45570e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94571e-01\tAbsError: 4.92914e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94557e-01\tAbsError: 3.52655e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17574e-01\tAbsError: 4.09542e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.20842e-04\tAbsError: 2.15808e+10\n", + " Region: \"zone_1\"\tRelError: 1.03547e-04\tAbsError: 1.76087e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03547e-04\tAbsError: 1.76087e-07\n", + " Region: \"zone_3\"\tRelError: 2.17295e-04\tAbsError: 2.15808e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07574e-04\tAbsError: 1.44905e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.92433e-06\tAbsError: 7.09027e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 7.96777e-07\tAbsError: 1.90604e-07\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.52644e-02\tAbsError: 2.55837e+12\n", + " Region: \"zone_1\"\tRelError: 7.16041e-03\tAbsError: 2.30338e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.16041e-03\tAbsError: 2.30338e-05\n", + " Region: \"zone_3\"\tRelError: 8.81040e-02\tAbsError: 2.55837e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.71797e-02\tAbsError: 1.35830e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.38768e-04\tAbsError: 1.20006e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.54583e-05\tAbsError: 2.40500e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.47221e+00\tAbsError: 1.38206e+14\n", + " Region: \"zone_1\"\tRelError: 2.77597e-01\tAbsError: 2.57923e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.77597e-01\tAbsError: 2.57923e-02\n", + " Region: \"zone_3\"\tRelError: 1.19461e+00\tAbsError: 1.38206e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.48886e-01\tAbsError: 8.13987e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.44879e-01\tAbsError: 5.68069e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00850e-01\tAbsError: 2.58970e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.67739e+00\tAbsError: 3.26551e+14\n", + " Region: \"zone_1\"\tRelError: 1.13651e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13651e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.56374e+00\tAbsError: 3.26551e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91179e-01\tAbsError: 1.98410e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.87607e-01\tAbsError: 1.28141e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.49517e-02\tAbsError: 3.07632e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 9.98204e-10\tAbsError: 6.88449e+04\n", + " Region: \"zone_1\"\tRelError: 2.51168e-10\tAbsError: 4.66791e-13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.51168e-10\tAbsError: 4.66791e-13\n", + " Region: \"zone_3\"\tRelError: 7.47037e-10\tAbsError: 6.88449e+04\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.16501e-10\tAbsError: 4.91562e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.84705e-11\tAbsError: 1.96886e+04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06479e-12\tAbsError: 4.91347e-13\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:07\u001b[0m.\u001b[1;36m651\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:07\u001b[0m.\u001b[1;36m651\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6416666666666667\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Iteration: 3\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 4.40857e-01\tAbsError: 6.00505e+12\n", + " Region: \"zone_1\"\tRelError: 2.60893e-02\tAbsError: 1.10525e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.60893e-02\tAbsError: 1.10525e-02\n", + " Region: \"zone_3\"\tRelError: 4.14768e-01\tAbsError: 6.00505e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.94016e-01\tAbsError: 2.13559e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.44396e-02\tAbsError: 3.86946e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.63124e-02\tAbsError: 1.10525e-02\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.58292e-05\tAbsError: 4.59514e+08\n", + " Region: \"zone_1\"\tRelError: 9.81723e-07\tAbsError: 3.18909e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 9.81723e-07\tAbsError: 3.18909e-09\n", + " Region: \"zone_3\"\tRelError: 3.48474e-05\tAbsError: 4.59514e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.45053e-05\tAbsError: 3.33895e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.30263e-07\tAbsError: 1.25619e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18628e-08\tAbsError: 3.31754e-09\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.13583e+00\tAbsError: 3.35166e+13\n", + " Region: \"zone_1\"\tRelError: 6.49986e-02\tAbsError: 2.58787e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.49986e-02\tAbsError: 2.58787e-02\n", + " Region: \"zone_3\"\tRelError: 1.07083e+00\tAbsError: 3.35166e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14794e-01\tAbsError: 2.31889e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.90894e-01\tAbsError: 1.03277e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.51440e-02\tAbsError: 2.58923e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:07\u001b[0m.\u001b[1;36m859\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.6\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.79000e-01\tAbsError: 6.23803e+13\n", + " Region: \"zone_1\"\tRelError: 1.22093e-01\tAbsError: 1.13359e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.22093e-01\tAbsError: 1.13359e-02\n", + " Region: \"zone_3\"\tRelError: 4.56906e-01\tAbsError: 6.23803e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.98027e-01\tAbsError: 2.99509e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.21690e-01\tAbsError: 3.24293e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.71902e-02\tAbsError: 1.13359e-02\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.06340e-01\tAbsError: 7.39211e+11\n", + " Region: \"zone_1\"\tRelError: 1.63325e-04\tAbsError: 7.71560e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.63325e-04\tAbsError: 7.71560e-06\n", + " Region: \"zone_3\"\tRelError: 1.06177e-01\tAbsError: 7.39211e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.05521e-01\tAbsError: 4.07148e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.31950e-04\tAbsError: 3.32064e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.43075e-05\tAbsError: 8.33799e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.97006e-01\tAbsError: 3.97798e+12\n", + " Region: \"zone_1\"\tRelError: 2.05644e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.05644e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.76441e-01\tAbsError: 3.97798e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88505e-01\tAbsError: 1.01871e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.71832e-02\tAbsError: 2.95927e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.07533e-02\tAbsError: 9.16534e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 4.25793e+02\tAbsError: 9.01354e+15\n", + " Region: \"zone_1\"\tRelError: 4.23991e+02\tAbsError: 4.26142e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.23991e+02\tAbsError: 4.26142e-02\n", + " Region: \"zone_3\"\tRelError: 1.80182e+00\tAbsError: 9.01354e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.07310e-01\tAbsError: 5.29382e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.07259e-01\tAbsError: 3.71973e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87247e-01\tAbsError: 4.26142e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.29396e-01\tAbsError: 1.11086e+13\n", + " Region: \"zone_1\"\tRelError: 1.63271e-02\tAbsError: 7.10138e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.63271e-02\tAbsError: 7.10138e-05\n", + " Region: \"zone_3\"\tRelError: 1.13069e-01\tAbsError: 1.11086e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07610e-01\tAbsError: 5.70070e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.13801e-03\tAbsError: 5.40789e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.20942e-04\tAbsError: 7.85800e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.78346e-05\tAbsError: 2.12339e+07\n", + " Region: \"zone_1\"\tRelError: 2.08951e-09\tAbsError: 1.24570e-10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.08951e-09\tAbsError: 1.24570e-10\n", + " Region: \"zone_3\"\tRelError: 1.78325e-05\tAbsError: 2.12339e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.77106e-05\tAbsError: 9.80122e+06\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.21506e-07\tAbsError: 1.14326e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 4.37674e-10\tAbsError: 1.47768e-10\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:08\u001b[0m.\u001b[1;36m417\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.525\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.75905e-02\tAbsError: 6.14178e+11\n", + " Region: \"zone_1\"\tRelError: 1.87871e-04\tAbsError: 5.35919e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87871e-04\tAbsError: 5.35919e-06\n", + " Region: \"zone_3\"\tRelError: 8.74026e-02\tAbsError: 6.14178e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.70791e-02\tAbsError: 2.57149e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.08574e-04\tAbsError: 3.57029e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49985e-05\tAbsError: 5.65537e-06\n", + "number of equations 22602\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.45236e+01\tAbsError: 8.31884e+15\n", + " Region: \"zone_1\"\tRelError: 1.27753e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.27753e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.74827e+00\tAbsError: 8.31884e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94561e-01\tAbsError: 4.96691e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94525e-01\tAbsError: 3.35193e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.59186e-01\tAbsError: 4.09542e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.98520e-04\tAbsError: 1.42293e+10\n", + " Region: \"zone_1\"\tRelError: 2.60200e-05\tAbsError: 1.21066e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.60200e-05\tAbsError: 1.21066e-07\n", + " Region: \"zone_3\"\tRelError: 1.72500e-04\tAbsError: 1.42293e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.66144e-04\tAbsError: 9.64960e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.81290e-06\tAbsError: 4.57971e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 5.42901e-07\tAbsError: 1.32074e-07\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 4.09319e+00\tAbsError: 1.95003e+15\n", + " Region: \"zone_1\"\tRelError: 2.42608e+00\tAbsError: 3.27220e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.42608e+00\tAbsError: 3.27220e-02\n", + " Region: \"zone_3\"\tRelError: 1.66711e+00\tAbsError: 1.95003e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.14648e-01\tAbsError: 1.08906e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.00229e-01\tAbsError: 8.60967e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.52238e-01\tAbsError: 3.27220e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 9.95471e-06\tAbsError: 1.37438e+07\n", + " Region: \"zone_1\"\tRelError: 1.96050e-09\tAbsError: 6.30624e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.96050e-09\tAbsError: 6.30624e-11\n", + " Region: \"zone_3\"\tRelError: 9.95275e-06\tAbsError: 1.37438e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.91827e-06\tAbsError: 3.21255e+06\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.43047e-08\tAbsError: 1.05312e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.78389e-10\tAbsError: 6.72817e-11\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.91465e+00\tAbsError: 8.82588e+14\n", + " Region: \"zone_1\"\tRelError: 3.03324e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.03324e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.61133e+00\tAbsError: 8.82588e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91758e-01\tAbsError: 5.05615e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.83634e-01\tAbsError: 3.76973e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35939e-01\tAbsError: 3.07632e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.53033e+01\tAbsError: 8.86526e+15\n", + " Region: \"zone_1\"\tRelError: 1.35603e+01\tAbsError: 4.22091e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35603e+01\tAbsError: 4.22091e-02\n", + " Region: \"zone_3\"\tRelError: 1.74298e+00\tAbsError: 8.86526e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.04288e-01\tAbsError: 5.29650e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.04269e-01\tAbsError: 3.56876e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.34425e-01\tAbsError: 4.22091e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:08\u001b[0m.\u001b[1;36m931\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.5\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 4.55085e+00\tAbsError: 1.52020e+15\n", + " Region: \"zone_1\"\tRelError: 3.34328e+00\tAbsError: 2.57301e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.34328e+00\tAbsError: 2.57301e-02\n", + " Region: \"zone_3\"\tRelError: 1.20757e+00\tAbsError: 1.52020e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.57600e-01\tAbsError: 6.59311e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.06886e-01\tAbsError: 8.60885e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43086e-01\tAbsError: 2.58820e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.17968e-10\tAbsError: 3.68902e+04\n", + " Region: \"zone_1\"\tRelError: 4.10813e-11\tAbsError: 2.01096e-13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.10813e-11\tAbsError: 2.01096e-13\n", + " Region: \"zone_3\"\tRelError: 3.76886e-10\tAbsError: 3.68902e+04\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.64075e-10\tAbsError: 2.06737e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.19115e-11\tAbsError: 1.62165e+04\n", + " Equation: \"PotentialEquation\"\tRelError: 8.99293e-13\tAbsError: 2.18109e-13\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.95950e+00\tAbsError: 4.34971e+14\n", + " Region: \"zone_1\"\tRelError: 3.29888e-01\tAbsError: 3.22432e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.29888e-01\tAbsError: 3.22432e-02\n", + " Region: \"zone_3\"\tRelError: 1.62961e+00\tAbsError: 4.34971e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.09020e-01\tAbsError: 3.13542e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.04723e-01\tAbsError: 1.21429e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15866e-01\tAbsError: 3.22432e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.34467e+00\tAbsError: 5.44154e+14\n", + " Region: \"zone_1\"\tRelError: 2.20632e-01\tAbsError: 2.58931e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20632e-01\tAbsError: 2.58931e-02\n", + " Region: \"zone_3\"\tRelError: 1.12404e+00\tAbsError: 5.44154e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.17234e-01\tAbsError: 2.66383e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.89208e-01\tAbsError: 2.77771e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17596e-01\tAbsError: 2.58999e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:09\u001b[0m.\u001b[1;36m267\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:09\u001b[0m.\u001b[1;36m267\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6357142857142857\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 9.15949e-01\tAbsError: 7.10976e+14\n", + " Region: \"zone_1\"\tRelError: 3.77162e-01\tAbsError: 1.17190e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.77162e-01\tAbsError: 1.17190e-02\n", + " Region: \"zone_3\"\tRelError: 5.38787e-01\tAbsError: 7.10976e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.04705e-01\tAbsError: 3.54664e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.83282e-01\tAbsError: 3.56312e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.07995e-02\tAbsError: 1.17190e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.87556e+01\tAbsError: 8.34767e+15\n", + " Region: \"zone_1\"\tRelError: 6.70313e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.70313e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.72426e+00\tAbsError: 8.34767e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94570e-01\tAbsError: 4.96926e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94551e-01\tAbsError: 3.37841e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35138e-01\tAbsError: 4.09542e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.29903e+00\tAbsError: 1.28270e+14\n", + " Region: \"zone_1\"\tRelError: 1.15748e-01\tAbsError: 2.56301e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15748e-01\tAbsError: 2.56301e-02\n", + " Region: \"zone_3\"\tRelError: 1.18328e+00\tAbsError: 1.28270e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.44766e-01\tAbsError: 7.58073e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.39540e-01\tAbsError: 5.24626e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.89722e-02\tAbsError: 2.57921e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.58303e-01\tAbsError: 2.58889e+14\n", + " Region: \"zone_1\"\tRelError: 3.50075e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.50075e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 4.23296e-01\tAbsError: 2.58889e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.70968e-01\tAbsError: 1.16796e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.16540e-01\tAbsError: 1.42093e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.57873e-02\tAbsError: 9.16534e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.67979e+01\tAbsError: 8.91230e+15\n", + " Region: \"zone_1\"\tRelError: 2.50038e+01\tAbsError: 4.23835e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.50038e+01\tAbsError: 4.23835e-02\n", + " Region: \"zone_3\"\tRelError: 1.79419e+00\tAbsError: 8.91230e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.05587e-01\tAbsError: 5.25148e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.05539e-01\tAbsError: 3.66082e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.83062e-01\tAbsError: 4.23835e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.18244e+00\tAbsError: 3.45808e+14\n", + " Region: \"zone_1\"\tRelError: 5.95786e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95786e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.58666e+00\tAbsError: 3.45808e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91491e-01\tAbsError: 2.56450e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.87672e-01\tAbsError: 8.93573e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07491e-01\tAbsError: 3.07632e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 3.12901e-01\tAbsError: 1.51064e+14\n", + " Region: \"zone_1\"\tRelError: 1.87797e-01\tAbsError: 3.92494e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87797e-01\tAbsError: 3.92494e-04\n", + " Region: \"zone_3\"\tRelError: 1.25105e-01\tAbsError: 1.51064e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.02833e-01\tAbsError: 8.54481e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.00100e-02\tAbsError: 6.56163e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.26152e-03\tAbsError: 3.94188e-04\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.00758e-01\tAbsError: 5.64850e+13\n", + " Region: \"zone_1\"\tRelError: 5.60005e-02\tAbsError: 1.10525e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.60005e-02\tAbsError: 1.10525e-02\n", + " Region: \"zone_3\"\tRelError: 4.44758e-01\tAbsError: 5.64850e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.92751e-01\tAbsError: 2.72341e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.16145e-01\tAbsError: 2.92508e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.58616e-02\tAbsError: 1.10525e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.06225e-01\tAbsError: 3.99157e+13\n", + " Region: \"zone_1\"\tRelError: 1.41229e-02\tAbsError: 1.62376e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.41229e-02\tAbsError: 1.62376e-04\n", + " Region: \"zone_3\"\tRelError: 9.21025e-02\tAbsError: 3.99157e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.51238e-02\tAbsError: 2.25076e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.14819e-03\tAbsError: 1.74081e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.30563e-04\tAbsError: 1.67642e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.19247e+00\tAbsError: 8.54805e+13\n", + " Region: \"zone_1\"\tRelError: 9.12229e-02\tAbsError: 2.58978e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.12229e-02\tAbsError: 2.58978e-02\n", + " Region: \"zone_3\"\tRelError: 1.10125e+00\tAbsError: 8.54805e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14822e-01\tAbsError: 5.48784e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.98551e-01\tAbsError: 3.06021e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.78742e-02\tAbsError: 2.58989e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.16759e-01\tAbsError: 9.63744e+12\n", + " Region: \"zone_1\"\tRelError: 7.49074e-03\tAbsError: 6.25327e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.49074e-03\tAbsError: 6.25327e-05\n", + " Region: \"zone_3\"\tRelError: 1.09268e-01\tAbsError: 9.63744e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04636e-01\tAbsError: 4.92578e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.35150e-03\tAbsError: 4.71165e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.81133e-04\tAbsError: 6.96737e-05\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 9.91832e+00\tAbsError: 1.75141e+15\n", + " Region: \"zone_1\"\tRelError: 8.25926e+00\tAbsError: 3.24492e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.25926e+00\tAbsError: 3.24492e-02\n", + " Region: \"zone_3\"\tRelError: 1.65906e+00\tAbsError: 1.75141e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.11671e-01\tAbsError: 9.86267e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.98064e-01\tAbsError: 7.65145e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49326e-01\tAbsError: 3.24493e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.77778e-04\tAbsError: 4.11734e+10\n", + " Region: \"zone_1\"\tRelError: 2.64497e-05\tAbsError: 2.72288e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.64497e-05\tAbsError: 2.72288e-07\n", + " Region: \"zone_3\"\tRelError: 1.51329e-04\tAbsError: 4.11734e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.47345e-04\tAbsError: 2.82922e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.54557e-06\tAbsError: 1.28813e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43781e-06\tAbsError: 2.89039e-07\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.90192e-03\tAbsError: 5.23223e+11\n", + " Region: \"zone_1\"\tRelError: 1.45474e-03\tAbsError: 2.69983e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.45474e-03\tAbsError: 2.69983e-06\n", + " Region: \"zone_3\"\tRelError: 4.47183e-04\tAbsError: 5.23223e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.96135e-04\tAbsError: 3.92343e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.50366e-05\tAbsError: 1.30880e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.60123e-05\tAbsError: 2.77806e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.52183e-01\tAbsError: 2.83225e+13\n", + " Region: \"zone_1\"\tRelError: 5.95279e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95279e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.92655e-01\tAbsError: 2.83225e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.85164e-01\tAbsError: 1.34603e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.99920e-02\tAbsError: 1.48622e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.74993e-02\tAbsError: 9.16534e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.53636e-04\tAbsError: 1.02507e+10\n", + " Region: \"zone_1\"\tRelError: 1.02124e-05\tAbsError: 9.04311e-08\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02124e-05\tAbsError: 9.04311e-08\n", + " Region: \"zone_3\"\tRelError: 1.43423e-04\tAbsError: 1.02507e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.38889e-04\tAbsError: 7.00540e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.13077e-06\tAbsError: 3.24531e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 4.03096e-07\tAbsError: 9.92951e-08\n", + "Iteration: 4\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 9.52644e-02\tAbsError: 2.55837e+12\n", + " Region: \"zone_1\"\tRelError: 7.16041e-03\tAbsError: 2.30338e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.16041e-03\tAbsError: 2.30338e-05\n", + " Region: \"zone_3\"\tRelError: 8.81040e-02\tAbsError: 2.55837e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.71797e-02\tAbsError: 1.35830e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.38768e-04\tAbsError: 1.20006e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.54583e-05\tAbsError: 2.40500e-05\n", + " Device: \"device\"\tRelError: 1.94888e+00\tAbsError: 1.31586e+15\n", + " Region: \"zone_1\"\tRelError: 7.52860e-01\tAbsError: 2.57556e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.52860e-01\tAbsError: 2.57556e-02\n", + " Region: \"zone_3\"\tRelError: 1.19602e+00\tAbsError: 1.31586e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.52100e-01\tAbsError: 5.76348e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.05857e-01\tAbsError: 7.39516e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.38064e-01\tAbsError: 2.55829e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.06514e-10\tAbsError: 5.16648e+04\n", + " Region: \"zone_1\"\tRelError: 2.76360e-11\tAbsError: 2.68296e-13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.76360e-11\tAbsError: 2.68296e-13\n", + " Region: \"zone_3\"\tRelError: 1.78878e-10\tAbsError: 5.16648e+04\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.71768e-10\tAbsError: 3.00847e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.70903e-12\tAbsError: 2.15800e+04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40086e-12\tAbsError: 2.79958e-13\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:10\u001b[0m.\u001b[1;36m829\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.7000000000000001\u001b[0m\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Iteration: 6\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 3.03122e-08\tAbsError: 8.48023e+06\n", + " Region: \"zone_1\"\tRelError: 2.36894e-08\tAbsError: 4.35270e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.36894e-08\tAbsError: 4.35270e-11\n", + " Region: \"zone_3\"\tRelError: 6.62277e-09\tAbsError: 8.48023e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.47509e-09\tAbsError: 5.20890e+06\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.80542e-10\tAbsError: 3.27133e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.67134e-10\tAbsError: 4.62569e-11\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.30961e-10\tAbsError: 3.18796e+04\n", + " Region: \"zone_1\"\tRelError: 1.14293e-11\tAbsError: 1.05399e-13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14293e-11\tAbsError: 1.05399e-13\n", + " Region: \"zone_3\"\tRelError: 2.19532e-10\tAbsError: 3.18796e+04\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.13023e-10\tAbsError: 1.58426e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.04015e-12\tAbsError: 1.60370e+04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.68049e-13\tAbsError: 1.14963e-13\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:11\u001b[0m.\u001b[1;36m016\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: 0.75\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:11\u001b[0m.\u001b[1;36m071\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.63125\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Iteration: 3\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 6.21302e-01\tAbsError: 6.18803e+14\n", + " Region: \"zone_1\"\tRelError: 1.01501e-01\tAbsError: 1.13359e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01501e-01\tAbsError: 1.13359e-02\n", + " Region: \"zone_3\"\tRelError: 5.19801e-01\tAbsError: 6.18803e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.97738e-01\tAbsError: 3.04418e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.73552e-01\tAbsError: 3.14385e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.85106e-02\tAbsError: 1.13359e-02\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.58292e-05\tAbsError: 4.59514e+08\n", + " Region: \"zone_1\"\tRelError: 9.81723e-07\tAbsError: 3.18909e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 9.81723e-07\tAbsError: 3.18909e-09\n", + " Region: \"zone_3\"\tRelError: 3.48474e-05\tAbsError: 4.59514e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.45053e-05\tAbsError: 3.33895e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.30263e-07\tAbsError: 1.25619e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18628e-08\tAbsError: 3.31754e-09\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:11\u001b[0m.\u001b[1;36m201\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.6\u001b[0m \n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "number of equations 22602\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.22389e+00\tAbsError: 8.51989e+15\n", + " Region: \"zone_1\"\tRelError: 5.41698e+00\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.41698e+00\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.80691e+00\tAbsError: 8.51989e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94484e-01\tAbsError: 4.63675e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94370e-01\tAbsError: 3.88315e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.18056e-01\tAbsError: 4.09542e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.06329e-01\tAbsError: 1.29092e+14\n", + " Region: \"zone_1\"\tRelError: 8.73098e-02\tAbsError: 3.61435e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 8.73098e-02\tAbsError: 3.61435e-04\n", + " Region: \"zone_3\"\tRelError: 1.19019e-01\tAbsError: 1.29092e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.90943e-02\tAbsError: 7.25515e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.78743e-02\tAbsError: 5.65410e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.05040e-03\tAbsError: 3.64470e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 8.36839e+00\tAbsError: 1.17799e+16\n", + " Region: \"zone_1\"\tRelError: 6.49050e+00\tAbsError: 4.26142e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.49050e+00\tAbsError: 4.26142e-02\n", + " Region: \"zone_3\"\tRelError: 1.87789e+00\tAbsError: 1.17799e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.07111e-01\tAbsError: 6.02482e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.06929e-01\tAbsError: 5.75508e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.63853e-01\tAbsError: 4.26142e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.83930e+01\tAbsError: 8.83697e+15\n", + " Region: \"zone_1\"\tRelError: 3.66046e+01\tAbsError: 4.22091e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.66046e+01\tAbsError: 4.22091e-02\n", + " Region: \"zone_3\"\tRelError: 1.78846e+00\tAbsError: 8.83697e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.04274e-01\tAbsError: 5.21875e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.04228e-01\tAbsError: 3.61823e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.79960e-01\tAbsError: 4.22091e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.89109e+00\tAbsError: 5.48219e+15\n", + " Region: \"zone_1\"\tRelError: 2.49390e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49390e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.64170e+00\tAbsError: 5.48219e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90716e-01\tAbsError: 2.59543e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.66285e-01\tAbsError: 2.88675e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.84697e-01\tAbsError: 3.07632e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.45236e+01\tAbsError: 8.31884e+15\n", + " Region: \"zone_1\"\tRelError: 1.27753e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.27753e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.74827e+00\tAbsError: 8.31884e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94561e-01\tAbsError: 4.96691e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94525e-01\tAbsError: 3.35193e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.59186e-01\tAbsError: 4.09542e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.00380e-03\tAbsError: 4.00864e+11\n", + " Region: \"zone_1\"\tRelError: 6.01786e-04\tAbsError: 2.19773e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.01786e-04\tAbsError: 2.19773e-06\n", + " Region: \"zone_3\"\tRelError: 4.02017e-04\tAbsError: 4.00864e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.61344e-04\tAbsError: 3.02524e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.77744e-05\tAbsError: 9.83399e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28989e-05\tAbsError: 2.28510e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.27347e+00\tAbsError: 1.45254e+16\n", + " Region: \"zone_1\"\tRelError: 5.52729e-01\tAbsError: 3.27220e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.52729e-01\tAbsError: 3.27220e-02\n", + " Region: \"zone_3\"\tRelError: 1.72074e+00\tAbsError: 1.45254e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.12137e-01\tAbsError: 7.08362e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.83962e-01\tAbsError: 7.44180e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.24645e-01\tAbsError: 3.27220e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.31531e+00\tAbsError: 1.61409e+15\n", + " Region: \"zone_1\"\tRelError: 1.66184e+00\tAbsError: 3.22432e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66184e+00\tAbsError: 3.22432e-02\n", + " Region: \"zone_3\"\tRelError: 1.65347e+00\tAbsError: 1.61409e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.09389e-01\tAbsError: 9.13798e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.96380e-01\tAbsError: 7.00294e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.47701e-01\tAbsError: 3.22432e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.28809e+00\tAbsError: 4.35524e+15\n", + " Region: \"zone_1\"\tRelError: 1.47109e-01\tAbsError: 2.58916e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.47109e-01\tAbsError: 2.58916e-02\n", + " Region: \"zone_3\"\tRelError: 1.14098e+00\tAbsError: 4.35524e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.22693e-01\tAbsError: 2.04103e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.66769e-01\tAbsError: 2.31421e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51518e-01\tAbsError: 2.53379e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.91465e+00\tAbsError: 8.82588e+14\n", + " Region: \"zone_1\"\tRelError: 3.03324e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.03324e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.61133e+00\tAbsError: 8.82588e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91758e-01\tAbsError: 5.05615e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.83634e-01\tAbsError: 3.76973e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35939e-01\tAbsError: 3.07632e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.25937e-08\tAbsError: 5.25364e+06\n", + " Region: \"zone_1\"\tRelError: 7.69679e-09\tAbsError: 2.75782e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 7.69679e-09\tAbsError: 2.75782e-11\n", + " Region: \"zone_3\"\tRelError: 4.89691e-09\tAbsError: 5.25364e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.09704e-09\tAbsError: 3.18003e+06\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.32194e-10\tAbsError: 2.07360e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.67668e-10\tAbsError: 2.96314e-11\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:12\u001b[0m.\u001b[1;36m226\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:12\u001b[0m.\u001b[1;36m226\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7428571428571428\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.46941e+00\tAbsError: 1.18382e+16\n", + " Region: \"zone_1\"\tRelError: 1.96893e-01\tAbsError: 2.58653e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.96893e-01\tAbsError: 2.58653e-02\n", + " Region: \"zone_3\"\tRelError: 1.27252e+00\tAbsError: 1.18382e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.59625e-01\tAbsError: 5.91923e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.16005e-01\tAbsError: 5.91901e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.96893e-01\tAbsError: 2.54683e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.59444e+00\tAbsError: 1.17799e+15\n", + " Region: \"zone_1\"\tRelError: 4.05057e-01\tAbsError: 2.56335e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.05057e-01\tAbsError: 2.56335e-02\n", + " Region: \"zone_3\"\tRelError: 1.18938e+00\tAbsError: 1.17799e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.47890e-01\tAbsError: 5.20055e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.05564e-01\tAbsError: 6.57931e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35930e-01\tAbsError: 2.56335e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.61364e-01\tAbsError: 1.56107e+15\n", + " Region: \"zone_1\"\tRelError: 1.02187e-01\tAbsError: 9.16531e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02187e-01\tAbsError: 9.16531e-03\n", + " Region: \"zone_3\"\tRelError: 4.59177e-01\tAbsError: 1.56107e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52513e-01\tAbsError: 8.30423e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.62306e-01\tAbsError: 7.30643e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.43577e-02\tAbsError: 9.16534e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.34467e+00\tAbsError: 5.44154e+14\n", + " Region: \"zone_1\"\tRelError: 2.20632e-01\tAbsError: 2.58931e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20632e-01\tAbsError: 2.58931e-02\n", + " Region: \"zone_3\"\tRelError: 1.12404e+00\tAbsError: 5.44154e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.17234e-01\tAbsError: 2.66383e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.89208e-01\tAbsError: 2.77771e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17596e-01\tAbsError: 2.58999e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 8.75005e-01\tAbsError: 5.02949e+15\n", + " Region: \"zone_1\"\tRelError: 3.13766e-01\tAbsError: 1.17190e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.13766e-01\tAbsError: 1.17190e-02\n", + " Region: \"zone_3\"\tRelError: 5.61239e-01\tAbsError: 5.02949e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.93040e-01\tAbsError: 2.67220e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.02032e-01\tAbsError: 2.35729e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 6.61665e-02\tAbsError: 1.17190e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.50542e-01\tAbsError: 5.55015e+14\n", + " Region: \"zone_1\"\tRelError: 4.54885e-02\tAbsError: 1.10525e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.54885e-02\tAbsError: 1.10525e-02\n", + " Region: \"zone_3\"\tRelError: 5.05053e-01\tAbsError: 5.55015e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91973e-01\tAbsError: 2.69181e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.66277e-01\tAbsError: 2.85834e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.68029e-02\tAbsError: 1.10525e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.25460e+01\tAbsError: 1.05704e+16\n", + " Region: \"zone_1\"\tRelError: 1.06788e+01\tAbsError: 4.23835e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06788e+01\tAbsError: 4.23835e-02\n", + " Region: \"zone_3\"\tRelError: 1.86719e+00\tAbsError: 1.05704e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.05413e-01\tAbsError: 5.48694e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.05244e-01\tAbsError: 5.08345e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.56536e-01\tAbsError: 4.23835e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.58303e-01\tAbsError: 2.58889e+14\n", + " Region: \"zone_1\"\tRelError: 3.50075e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.50075e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 4.23296e-01\tAbsError: 2.58889e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.70968e-01\tAbsError: 1.16796e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.16540e-01\tAbsError: 1.42093e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.57873e-02\tAbsError: 9.16534e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.02751e-01\tAbsError: 2.88406e+14\n", + " Region: \"zone_1\"\tRelError: 3.60577e-03\tAbsError: 2.29628e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.60577e-03\tAbsError: 2.29628e-04\n", + " Region: \"zone_3\"\tRelError: 9.91456e-02\tAbsError: 2.88406e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.45252e-02\tAbsError: 1.12757e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.29594e-02\tAbsError: 1.75650e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66104e-03\tAbsError: 2.42032e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.51571e-01\tAbsError: 1.03733e+15\n", + " Region: \"zone_1\"\tRelError: 1.05569e-02\tAbsError: 3.64353e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.05569e-02\tAbsError: 3.64353e-04\n", + " Region: \"zone_3\"\tRelError: 1.41014e-01\tAbsError: 1.03733e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03208e-01\tAbsError: 5.91205e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.34455e-02\tAbsError: 4.46122e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43599e-02\tAbsError: 3.90053e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.53315e-01\tAbsError: 1.14074e+14\n", + " Region: \"zone_1\"\tRelError: 3.81468e-02\tAbsError: 3.36449e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.81468e-02\tAbsError: 3.36449e-04\n", + " Region: \"zone_3\"\tRelError: 1.15168e-01\tAbsError: 1.14074e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.71088e-02\tAbsError: 6.46008e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.61726e-02\tAbsError: 4.94737e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88681e-03\tAbsError: 3.40626e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.43197e+00\tAbsError: 1.27930e+16\n", + " Region: \"zone_1\"\tRelError: 1.72392e+00\tAbsError: 3.24492e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72392e+00\tAbsError: 3.24492e-02\n", + " Region: \"zone_3\"\tRelError: 1.70805e+00\tAbsError: 1.27930e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.09557e-01\tAbsError: 6.17279e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.80692e-01\tAbsError: 6.62016e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.17802e-01\tAbsError: 3.24492e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.06225e-01\tAbsError: 3.99157e+13\n", + " Region: \"zone_1\"\tRelError: 1.41229e-02\tAbsError: 1.62376e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.41229e-02\tAbsError: 1.62376e-04\n", + " Region: \"zone_3\"\tRelError: 9.21025e-02\tAbsError: 3.99157e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.51238e-02\tAbsError: 2.25076e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.14819e-03\tAbsError: 1.74081e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.30563e-04\tAbsError: 1.67642e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.04675e-04\tAbsError: 3.04021e+11\n", + " Region: \"zone_1\"\tRelError: 6.05493e-06\tAbsError: 5.20454e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 6.05493e-06\tAbsError: 5.20454e-07\n", + " Region: \"zone_3\"\tRelError: 2.98620e-04\tAbsError: 3.04021e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.67672e-04\tAbsError: 1.93910e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.70905e-05\tAbsError: 1.10111e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.85729e-06\tAbsError: 5.51479e-07\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.26215e-04\tAbsError: 3.47082e+12\n", + " Region: \"zone_1\"\tRelError: 1.68789e-05\tAbsError: 1.98685e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.68789e-05\tAbsError: 1.98685e-06\n", + " Region: \"zone_3\"\tRelError: 5.09336e-04\tAbsError: 3.47082e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.10584e-04\tAbsError: 2.32737e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.17851e-05\tAbsError: 1.14346e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.69672e-05\tAbsError: 2.13719e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.03561e-04\tAbsError: 3.24187e+11\n", + " Region: \"zone_1\"\tRelError: 2.35722e-04\tAbsError: 1.82349e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.35722e-04\tAbsError: 1.82349e-06\n", + " Region: \"zone_3\"\tRelError: 3.67839e-04\tAbsError: 3.24187e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.34888e-04\tAbsError: 2.42190e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.23647e-05\tAbsError: 8.19967e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.05865e-05\tAbsError: 1.90371e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.44621e+00\tAbsError: 1.02247e+16\n", + " Region: \"zone_1\"\tRelError: 1.89936e-01\tAbsError: 2.58588e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.89936e-01\tAbsError: 2.58588e-02\n", + " Region: \"zone_3\"\tRelError: 1.25627e+00\tAbsError: 1.02247e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.54587e-01\tAbsError: 5.05790e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.11749e-01\tAbsError: 5.16683e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.89936e-01\tAbsError: 2.56589e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.77778e-04\tAbsError: 4.11734e+10\n", + " Region: \"zone_1\"\tRelError: 2.64497e-05\tAbsError: 2.72288e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.64497e-05\tAbsError: 2.72288e-07\n", + " Region: \"zone_3\"\tRelError: 1.51329e-04\tAbsError: 4.11734e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.47345e-04\tAbsError: 2.82922e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.54557e-06\tAbsError: 1.28813e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43781e-06\tAbsError: 2.89039e-07\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.59425e-10\tAbsError: 1.22832e+06\n", + " Region: \"zone_1\"\tRelError: 9.68754e-11\tAbsError: 2.65442e-12\n", + " Equation: \"PotentialEquation\"\tRelError: 9.68754e-11\tAbsError: 2.65442e-12\n", + " Region: \"zone_3\"\tRelError: 6.62549e-10\tAbsError: 1.22832e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38517e-10\tAbsError: 7.28669e+05\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03770e-10\tAbsError: 4.99652e+05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.02616e-11\tAbsError: 2.83300e-12\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:13\u001b[0m.\u001b[1;36m777\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.8\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.03046e-08\tAbsError: 6.74445e+07\n", + " Region: \"zone_1\"\tRelError: 1.11183e-09\tAbsError: 1.07725e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11183e-09\tAbsError: 1.07725e-11\n", + " Region: \"zone_3\"\tRelError: 9.19276e-09\tAbsError: 6.74445e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.60782e-09\tAbsError: 4.48423e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.49946e-10\tAbsError: 2.26022e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 6.34993e-10\tAbsError: 1.07947e-11\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.10130e-09\tAbsError: 3.42919e+06\n", + " Region: \"zone_1\"\tRelError: 2.42570e-09\tAbsError: 1.82661e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.42570e-09\tAbsError: 1.82661e-11\n", + " Region: \"zone_3\"\tRelError: 3.67560e-09\tAbsError: 3.42919e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.12934e-09\tAbsError: 2.08088e+06\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.36715e-10\tAbsError: 1.34831e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09546e-10\tAbsError: 1.96712e-11\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.07504e+00\tAbsError: 4.26851e+15\n", + " Region: \"zone_1\"\tRelError: 5.30266e-01\tAbsError: 1.13358e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.30266e-01\tAbsError: 1.13358e-02\n", + " Region: \"zone_3\"\tRelError: 5.44776e-01\tAbsError: 4.26851e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.85152e-01\tAbsError: 2.27652e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.96788e-01\tAbsError: 1.99199e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 6.28352e-02\tAbsError: 1.13359e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:14\u001b[0m.\u001b[1;36m009\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:14\u001b[0m.\u001b[1;36m009\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7374999999999999\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.06529e-10\tAbsError: 4.94075e+04\n", + " Region: \"zone_1\"\tRelError: 2.76502e-11\tAbsError: 2.68329e-13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.76502e-11\tAbsError: 2.68329e-13\n", + " Region: \"zone_3\"\tRelError: 1.78878e-10\tAbsError: 4.94075e+04\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.71769e-10\tAbsError: 3.00848e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.70893e-12\tAbsError: 1.93227e+04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40075e-12\tAbsError: 2.79937e-13\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:14\u001b[0m.\u001b[1;36m140\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.7000000000000001\u001b[0m\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.06248e+01\tAbsError: 3.16044e+16\n", + " Region: \"zone_1\"\tRelError: 1.87257e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87257e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.89912e+00\tAbsError: 3.16044e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.93746e-01\tAbsError: 1.57387e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.93249e-01\tAbsError: 1.58657e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.12130e-01\tAbsError: 4.09543e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.49122e-01\tAbsError: 8.74518e+14\n", + " Region: \"zone_1\"\tRelError: 1.60013e-02\tAbsError: 3.43893e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.60013e-02\tAbsError: 3.43893e-04\n", + " Region: \"zone_3\"\tRelError: 1.33121e-01\tAbsError: 8.74518e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01241e-01\tAbsError: 4.86514e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.17497e-02\tAbsError: 3.88004e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01303e-02\tAbsError: 3.66897e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.25674e+01\tAbsError: 9.91926e+15\n", + " Region: \"zone_1\"\tRelError: 2.07081e+01\tAbsError: 4.22091e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.07081e+01\tAbsError: 4.22091e-02\n", + " Region: \"zone_3\"\tRelError: 1.85938e+00\tAbsError: 9.91926e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.04116e-01\tAbsError: 5.29079e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.03957e-01\tAbsError: 4.62846e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.51307e-01\tAbsError: 4.22091e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:14\u001b[0m.\u001b[1;36m805\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.45748e+00\tAbsError: 3.69441e+16\n", + " Region: \"zone_1\"\tRelError: 4.13331e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.13331e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 2.04415e+00\tAbsError: 3.69441e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.88321e-01\tAbsError: 1.86445e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.52684e-01\tAbsError: 1.82996e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.03145e-01\tAbsError: 3.07632e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.91660e-04\tAbsError: 2.54040e+12\n", + " Region: \"zone_1\"\tRelError: 1.35073e-05\tAbsError: 1.64927e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35073e-05\tAbsError: 1.64927e-06\n", + " Region: \"zone_3\"\tRelError: 4.78152e-04\tAbsError: 2.54040e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.93348e-04\tAbsError: 1.71253e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.78162e-05\tAbsError: 8.27868e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.69884e-05\tAbsError: 1.78053e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.22389e+00\tAbsError: 8.51989e+15\n", + " Region: \"zone_1\"\tRelError: 5.41698e+00\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.41698e+00\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.80691e+00\tAbsError: 8.51989e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94484e-01\tAbsError: 4.63675e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94370e-01\tAbsError: 3.88315e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.18056e-01\tAbsError: 4.09542e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:14\u001b[0m.\u001b[1;36m838\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.0 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:14\u001b[0m.\u001b[1;36m874\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 6.07101e+00\tAbsError: 1.14165e+16\n", + " Region: \"zone_1\"\tRelError: 4.37111e+00\tAbsError: 3.22431e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.37111e+00\tAbsError: 3.22431e-02\n", + " Region: \"zone_3\"\tRelError: 1.69990e+00\tAbsError: 1.14165e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.07074e-01\tAbsError: 5.53066e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.79620e-01\tAbsError: 5.88581e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.13207e-01\tAbsError: 3.22432e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 4.80876e+00\tAbsError: 2.48392e+16\n", + " Region: \"zone_1\"\tRelError: 2.08564e-01\tAbsError: 2.58396e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.08564e-01\tAbsError: 2.58396e-02\n", + " Region: \"zone_3\"\tRelError: 4.60020e+00\tAbsError: 2.48392e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.12756e-01\tAbsError: 1.24031e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.61077e-01\tAbsError: 1.24362e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.62637e+00\tAbsError: 2.33304e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.89109e+00\tAbsError: 5.48219e+15\n", + " Region: \"zone_1\"\tRelError: 2.49390e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49390e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.64170e+00\tAbsError: 5.48219e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90716e-01\tAbsError: 2.59543e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.66285e-01\tAbsError: 2.88675e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.84697e-01\tAbsError: 3.07632e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 8.13140e-09\tAbsError: 3.88209e+07\n", + " Region: \"zone_1\"\tRelError: 1.56368e-09\tAbsError: 8.49011e-12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.56368e-09\tAbsError: 8.49011e-12\n", + " Region: \"zone_3\"\tRelError: 6.56771e-09\tAbsError: 3.88209e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.49331e-09\tAbsError: 2.53073e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.15049e-10\tAbsError: 1.35136e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 3.59356e-10\tAbsError: 8.61252e-12\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:15\u001b[0m.\u001b[1;36m275\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: 0.85\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.98506e+00\tAbsError: 9.22482e+15\n", + " Region: \"zone_1\"\tRelError: 7.44294e-01\tAbsError: 2.58187e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.44294e-01\tAbsError: 2.58187e-02\n", + " Region: \"zone_3\"\tRelError: 1.24077e+00\tAbsError: 9.22482e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.51188e-01\tAbsError: 4.56555e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.04989e-01\tAbsError: 4.65926e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.84591e-01\tAbsError: 2.57518e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 4.82261e+02\tAbsError: 3.52167e+17\n", + " Region: \"zone_1\"\tRelError: 6.12444e+01\tAbsError: 8.44807e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.12444e+01\tAbsError: 8.44807e-02\n", + " Region: \"zone_3\"\tRelError: 4.21017e+02\tAbsError: 3.52167e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.77839e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.97707e+02\tAbsError: 1.74328e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43100e+01\tAbsError: 8.44807e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.55071e+00\tAbsError: 8.48657e+15\n", + " Region: \"zone_1\"\tRelError: 8.11805e-01\tAbsError: 9.16529e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 8.11805e-01\tAbsError: 9.16529e-03\n", + " Region: \"zone_3\"\tRelError: 2.73890e+00\tAbsError: 8.48657e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.34197e-01\tAbsError: 4.50158e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.40806e-01\tAbsError: 3.98499e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.36390e+00\tAbsError: 9.16533e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.28809e+00\tAbsError: 4.35524e+15\n", + " Region: \"zone_1\"\tRelError: 1.47109e-01\tAbsError: 2.58916e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.47109e-01\tAbsError: 2.58916e-02\n", + " Region: \"zone_3\"\tRelError: 1.14098e+00\tAbsError: 4.35524e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.22693e-01\tAbsError: 2.04103e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.66769e-01\tAbsError: 2.31421e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51518e-01\tAbsError: 2.53379e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.75902e+00\tAbsError: 3.77919e+15\n", + " Region: \"zone_1\"\tRelError: 1.22599e+00\tAbsError: 1.10525e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.22599e+00\tAbsError: 1.10525e-02\n", + " Region: \"zone_3\"\tRelError: 5.33038e-01\tAbsError: 3.77919e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.79636e-01\tAbsError: 2.01911e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.93051e-01\tAbsError: 1.76009e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 6.03505e-02\tAbsError: 1.10525e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.03144e+01\tAbsError: 2.22942e+17\n", + " Region: \"zone_1\"\tRelError: 4.58501e+00\tAbsError: 8.10225e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.58501e+00\tAbsError: 8.10225e-02\n", + " Region: \"zone_3\"\tRelError: 2.57294e+01\tAbsError: 2.22942e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.11571e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.31347e+01\tAbsError: 1.11371e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 3.59472e+00\tAbsError: 8.10225e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.42490e+01\tAbsError: 7.52592e+16\n", + " Region: \"zone_1\"\tRelError: 1.08478e+01\tAbsError: 4.23835e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08478e+01\tAbsError: 4.23835e-02\n", + " Region: \"zone_3\"\tRelError: 3.40120e+00\tAbsError: 7.52592e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.03566e-01\tAbsError: 3.76063e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.02485e-01\tAbsError: 3.76529e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.79515e+00\tAbsError: 4.23835e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 5.10055e-01\tAbsError: 1.79008e+15\n", + " Region: \"zone_1\"\tRelError: 7.10147e-02\tAbsError: 3.19256e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.10147e-02\tAbsError: 3.19256e-04\n", + " Region: \"zone_3\"\tRelError: 4.39040e-01\tAbsError: 1.79008e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39314e-02\tAbsError: 9.39738e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.81226e-02\tAbsError: 8.50345e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.56986e-01\tAbsError: 3.21663e-04\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.61364e-01\tAbsError: 1.56107e+15\n", + " Region: \"zone_1\"\tRelError: 1.02187e-01\tAbsError: 9.16531e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02187e-01\tAbsError: 9.16531e-03\n", + " Region: \"zone_3\"\tRelError: 4.59177e-01\tAbsError: 1.56107e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52513e-01\tAbsError: 8.30423e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.62306e-01\tAbsError: 7.30643e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.43577e-02\tAbsError: 9.16534e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.61775e-01\tAbsError: 7.66138e+14\n", + " Region: \"zone_1\"\tRelError: 3.36594e-02\tAbsError: 3.29572e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.36594e-02\tAbsError: 3.29572e-04\n", + " Region: \"zone_3\"\tRelError: 1.28116e-01\tAbsError: 7.66138e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.96948e-02\tAbsError: 4.16285e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.05597e-02\tAbsError: 3.49853e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.86134e-03\tAbsError: 3.48882e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.63152e+02\tAbsError: 9.44307e+16\n", + " Region: \"zone_1\"\tRelError: 6.85128e+00\tAbsError: 7.72065e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.85128e+00\tAbsError: 7.72065e-02\n", + " Region: \"zone_3\"\tRelError: 2.56301e+02\tAbsError: 9.44307e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.09414e+01\tAbsError: 5.77259e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.45135e+02\tAbsError: 3.67049e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.24279e-01\tAbsError: 7.72065e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 6.60752e+00\tAbsError: 8.84428e+16\n", + " Region: \"zone_1\"\tRelError: 3.94093e+00\tAbsError: 3.24492e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.94093e+00\tAbsError: 3.24492e-02\n", + " Region: \"zone_3\"\tRelError: 2.66659e+00\tAbsError: 8.84428e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.02377e-01\tAbsError: 4.49927e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.60258e-01\tAbsError: 4.34502e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20395e+00\tAbsError: 3.24492e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.33163e-03\tAbsError: 7.03544e+12\n", + " Region: \"zone_1\"\tRelError: 6.88994e-05\tAbsError: 8.74550e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 6.88994e-05\tAbsError: 8.74550e-07\n", + " Region: \"zone_3\"\tRelError: 1.26273e-03\tAbsError: 7.03544e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.78279e-04\tAbsError: 4.08452e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.87916e-05\tAbsError: 2.95092e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.95662e-04\tAbsError: 9.67670e-07\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.02751e-01\tAbsError: 2.88406e+14\n", + " Region: \"zone_1\"\tRelError: 3.60577e-03\tAbsError: 2.29628e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.60577e-03\tAbsError: 2.29628e-04\n", + " Region: \"zone_3\"\tRelError: 9.91456e-02\tAbsError: 2.88406e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.45252e-02\tAbsError: 1.12757e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.29594e-02\tAbsError: 1.75650e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66104e-03\tAbsError: 2.42032e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.91192e-04\tAbsError: 1.99218e+12\n", + " Region: \"zone_1\"\tRelError: 3.52940e-05\tAbsError: 1.42123e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.52940e-05\tAbsError: 1.42123e-06\n", + " Region: \"zone_3\"\tRelError: 4.55898e-04\tAbsError: 1.99218e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.79849e-04\tAbsError: 1.34746e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.47342e-05\tAbsError: 6.44716e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.13148e-05\tAbsError: 1.54165e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 7.45533e+02\tAbsError: 3.05911e+16\n", + " Region: \"zone_1\"\tRelError: 3.90969e+01\tAbsError: 7.29586e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.90969e+01\tAbsError: 7.29586e-02\n", + " Region: \"zone_3\"\tRelError: 7.06436e+02\tAbsError: 3.05911e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.79786e+01\tAbsError: 1.48185e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.88272e+02\tAbsError: 1.57727e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.85829e-01\tAbsError: 7.29586e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.09243e+01\tAbsError: 6.47175e+16\n", + " Region: \"zone_1\"\tRelError: 1.64997e+01\tAbsError: 2.57213e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.64997e+01\tAbsError: 2.57213e-02\n", + " Region: \"zone_3\"\tRelError: 4.42461e+00\tAbsError: 6.47175e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.25399e-01\tAbsError: 3.23288e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.61564e-01\tAbsError: 3.23887e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.43764e+00\tAbsError: 2.58341e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.48938e-08\tAbsError: 9.78087e+07\n", + " Region: \"zone_1\"\tRelError: 2.39367e-09\tAbsError: 9.98115e-12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.39367e-09\tAbsError: 9.98115e-12\n", + " Region: \"zone_3\"\tRelError: 1.25002e-08\tAbsError: 9.78087e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.82653e-09\tAbsError: 5.13414e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.35560e-10\tAbsError: 4.64673e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 9.13807e-09\tAbsError: 1.21236e-11\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.04675e-04\tAbsError: 3.04021e+11\n", + " Region: \"zone_1\"\tRelError: 6.05493e-06\tAbsError: 5.20454e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 6.05493e-06\tAbsError: 5.20454e-07\n", + " Region: \"zone_3\"\tRelError: 2.98620e-04\tAbsError: 3.04021e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.67672e-04\tAbsError: 1.93910e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.70905e-05\tAbsError: 1.10111e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.85729e-06\tAbsError: 5.51479e-07\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 8.14411e-09\tAbsError: 2.52751e+07\n", + " Region: \"zone_1\"\tRelError: 3.10247e-09\tAbsError: 7.66784e-12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.10247e-09\tAbsError: 7.66784e-12\n", + " Region: \"zone_3\"\tRelError: 5.04165e-09\tAbsError: 2.52751e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.24046e-09\tAbsError: 1.61978e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.68440e-10\tAbsError: 9.07731e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.32744e-10\tAbsError: 7.83237e-12\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:16\u001b[0m.\u001b[1;36m974\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.84375\u001b[0m \n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 3.52323e+04\tAbsError: 2.58880e+15\n", + " Region: \"zone_1\"\tRelError: 3.55607e+00\tAbsError: 6.81819e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.55607e+00\tAbsError: 6.81819e-02\n", + " Region: \"zone_3\"\tRelError: 3.52288e+04\tAbsError: 2.58880e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.44264e+04\tAbsError: 1.67252e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.02246e+02\tAbsError: 9.16280e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.46351e-01\tAbsError: 6.81819e-02\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 3\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 2.12792e+00\tAbsError: 2.83243e+16\n", + " Region: \"zone_1\"\tRelError: 1.14894e+00\tAbsError: 1.13358e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14894e+00\tAbsError: 1.13358e-02\n", + " Region: \"zone_3\"\tRelError: 9.78978e-01\tAbsError: 2.83243e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.37101e-01\tAbsError: 1.51418e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.37082e-01\tAbsError: 1.31825e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.04795e-01\tAbsError: 1.13359e-02\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.59430e-10\tAbsError: 1.22833e+06\n", + " Region: \"zone_1\"\tRelError: 9.68792e-11\tAbsError: 2.65442e-12\n", + " Equation: \"PotentialEquation\"\tRelError: 9.68792e-11\tAbsError: 2.65442e-12\n", + " Region: \"zone_3\"\tRelError: 6.62551e-10\tAbsError: 1.22833e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38518e-10\tAbsError: 7.28675e+05\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03772e-10\tAbsError: 4.99657e+05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.02617e-11\tAbsError: 2.83302e-12\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:17\u001b[0m.\u001b[1;36m250\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.8\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.83787e+01\tAbsError: 1.33604e+15\n", + " Region: \"zone_1\"\tRelError: 2.07590e+00\tAbsError: 6.27474e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.07590e+00\tAbsError: 6.27474e-02\n", + " Region: \"zone_3\"\tRelError: 5.63028e+01\tAbsError: 1.33604e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.22975e+01\tAbsError: 7.85057e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.38884e+01\tAbsError: 5.50987e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16846e-01\tAbsError: 6.27475e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 4.10994e-01\tAbsError: 6.33231e+15\n", + " Region: \"zone_1\"\tRelError: 2.03112e-01\tAbsError: 4.63625e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03112e-01\tAbsError: 4.63625e-04\n", + " Region: \"zone_3\"\tRelError: 2.07882e-01\tAbsError: 6.33231e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.54885e-02\tAbsError: 3.31801e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.90225e-02\tAbsError: 3.01430e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.23371e-01\tAbsError: 4.85010e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.18672e+01\tAbsError: 6.77330e+16\n", + " Region: \"zone_1\"\tRelError: 2.92339e+01\tAbsError: 4.22091e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.92339e+01\tAbsError: 4.22091e-02\n", + " Region: \"zone_3\"\tRelError: 2.63329e+00\tAbsError: 6.77330e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.02473e-01\tAbsError: 3.37687e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.01495e-01\tAbsError: 3.39643e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02932e+00\tAbsError: 4.22091e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.31378e+02\tAbsError: 7.60663e+14\n", + " Region: \"zone_1\"\tRelError: 7.71613e-01\tAbsError: 5.64827e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.71613e-01\tAbsError: 5.64827e-02\n", + " Region: \"zone_3\"\tRelError: 2.30606e+02\tAbsError: 7.60663e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52408e+02\tAbsError: 5.17768e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.81037e+01\tAbsError: 2.42894e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.43265e-02\tAbsError: 5.64827e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:17\u001b[0m.\u001b[1;36m819\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.06248e+01\tAbsError: 3.16044e+16\n", + " Region: \"zone_1\"\tRelError: 1.87257e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87257e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.89912e+00\tAbsError: 3.16044e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.93746e-01\tAbsError: 1.57387e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.93249e-01\tAbsError: 1.58657e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.12130e-01\tAbsError: 4.09543e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:17\u001b[0m.\u001b[1;36m852\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.05 bias\u001b[0m \n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.61528e-03\tAbsError: 4.57027e+13\n", + " Region: \"zone_1\"\tRelError: 6.59185e-04\tAbsError: 1.10622e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.59185e-04\tAbsError: 1.10622e-06\n", + " Region: \"zone_3\"\tRelError: 9.56097e-04\tAbsError: 4.57027e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.75674e-04\tAbsError: 2.40788e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.45396e-04\tAbsError: 2.16239e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.35027e-04\tAbsError: 1.16216e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:17\u001b[0m.\u001b[1;36m883\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 5.28950e+00\tAbsError: 7.92389e+16\n", + " Region: \"zone_1\"\tRelError: 2.40844e+00\tAbsError: 3.22431e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.40844e+00\tAbsError: 3.22431e-02\n", + " Region: \"zone_3\"\tRelError: 2.88106e+00\tAbsError: 7.92389e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.00584e-01\tAbsError: 4.07058e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.61442e-01\tAbsError: 3.85331e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.41903e+00\tAbsError: 3.22432e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.71787e+04\tAbsError: 1.75933e+14\n", + " Region: \"zone_1\"\tRelError: 7.47327e-02\tAbsError: 4.91583e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.47327e-02\tAbsError: 4.91583e-02\n", + " Region: \"zone_3\"\tRelError: 1.71786e+04\tAbsError: 1.75933e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.47883e+04\tAbsError: 8.79941e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.39026e+03\tAbsError: 8.79391e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.51412e-02\tAbsError: 4.91584e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.45748e+00\tAbsError: 3.69441e+16\n", + " Region: \"zone_1\"\tRelError: 4.13331e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.13331e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 2.04415e+00\tAbsError: 3.69441e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.88321e-01\tAbsError: 1.86445e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.52684e-01\tAbsError: 1.82996e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.03145e-01\tAbsError: 3.07632e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.14099e-08\tAbsError: 4.54906e+08\n", + " Region: \"zone_1\"\tRelError: 4.36669e-09\tAbsError: 5.33468e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.36669e-09\tAbsError: 5.33468e-11\n", + " Region: \"zone_3\"\tRelError: 7.04323e-09\tAbsError: 4.54906e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.71744e-09\tAbsError: 2.24456e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.78894e-10\tAbsError: 2.30450e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 2.74690e-09\tAbsError: 5.92822e-11\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.20466e+01\tAbsError: 5.52934e+16\n", + " Region: \"zone_1\"\tRelError: 2.16515e+00\tAbsError: 2.58803e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.16515e+00\tAbsError: 2.58803e-02\n", + " Region: \"zone_3\"\tRelError: 9.88145e+00\tAbsError: 5.52934e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.25644e-01\tAbsError: 2.74416e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.60760e-01\tAbsError: 2.78518e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 8.89504e+00\tAbsError: 2.54624e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.88372e+02\tAbsError: 9.95901e+17\n", + " Region: \"zone_1\"\tRelError: 9.83806e+01\tAbsError: 8.63290e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.83806e+01\tAbsError: 8.63290e-02\n", + " Region: \"zone_3\"\tRelError: 4.89991e+02\tAbsError: 9.95901e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.64932e+02\tAbsError: 4.41210e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.04095e+01\tAbsError: 5.54690e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 4.64997e+00\tAbsError: 8.63291e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 8.00464e+02\tAbsError: 1.76846e+14\n", + " Region: \"zone_1\"\tRelError: 1.51285e-01\tAbsError: 4.04895e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51285e-01\tAbsError: 4.04895e-02\n", + " Region: \"zone_3\"\tRelError: 8.00313e+02\tAbsError: 1.76846e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.76154e+02\tAbsError: 1.03150e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.41019e+01\tAbsError: 7.36963e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.75475e-02\tAbsError: 4.04896e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 4.80876e+00\tAbsError: 2.48392e+16\n", + " Region: \"zone_1\"\tRelError: 2.08564e-01\tAbsError: 2.58396e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.08564e-01\tAbsError: 2.58396e-02\n", + " Region: \"zone_3\"\tRelError: 4.60020e+00\tAbsError: 2.48392e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.12756e-01\tAbsError: 1.24031e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.61077e-01\tAbsError: 1.24362e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.62637e+00\tAbsError: 2.33304e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.43062e+00\tAbsError: 2.48503e+16\n", + " Region: \"zone_1\"\tRelError: 3.72922e+00\tAbsError: 1.10524e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.72922e+00\tAbsError: 1.10524e-02\n", + " Region: \"zone_3\"\tRelError: 1.70140e+00\tAbsError: 2.48503e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.43322e-01\tAbsError: 1.33123e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.40880e-01\tAbsError: 1.15380e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31720e+00\tAbsError: 1.10525e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.27833e+03\tAbsError: 7.47754e+17\n", + " Region: \"zone_1\"\tRelError: 2.20826e+01\tAbsError: 8.30497e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20826e+01\tAbsError: 8.30497e-02\n", + " Region: \"zone_3\"\tRelError: 1.25625e+03\tAbsError: 7.47754e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.20804e+01\tAbsError: 3.45452e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.21005e+03\tAbsError: 4.02302e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.41176e+01\tAbsError: 8.30498e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.98801e+02\tAbsError: 3.29823e+13\n", + " Region: \"zone_1\"\tRelError: 4.03852e-02\tAbsError: 3.02166e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.03852e-02\tAbsError: 3.02166e-02\n", + " Region: \"zone_3\"\tRelError: 2.98761e+02\tAbsError: 3.29823e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88198e+02\tAbsError: 2.12465e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.05220e+01\tAbsError: 1.17358e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.08123e-02\tAbsError: 3.02167e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.55071e+00\tAbsError: 8.48657e+15\n", + " Region: \"zone_1\"\tRelError: 8.11805e-01\tAbsError: 9.16529e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 8.11805e-01\tAbsError: 9.16529e-03\n", + " Region: \"zone_3\"\tRelError: 2.73890e+00\tAbsError: 8.48657e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.34197e-01\tAbsError: 4.50158e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.40806e-01\tAbsError: 3.98499e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.36390e+00\tAbsError: 9.16533e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 3.49152e+00\tAbsError: 5.38829e+15\n", + " Region: \"zone_1\"\tRelError: 3.18911e+00\tAbsError: 4.54221e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.18911e+00\tAbsError: 4.54221e-04\n", + " Region: \"zone_3\"\tRelError: 3.02408e-01\tAbsError: 5.38829e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.21294e-02\tAbsError: 2.89081e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.87533e-02\tAbsError: 2.49748e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.21525e-01\tAbsError: 4.70929e-04\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 4.88396e+00\tAbsError: 4.23056e+12\n", + " Region: \"zone_1\"\tRelError: 3.34297e-02\tAbsError: 2.58995e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.34297e-02\tAbsError: 2.58995e-02\n", + " Region: \"zone_3\"\tRelError: 4.85053e+00\tAbsError: 4.23056e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.29475e+00\tAbsError: 4.51961e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.21955e-01\tAbsError: 3.77860e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.38273e-02\tAbsError: 2.55819e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:19\u001b[0m.\u001b[1;36m285\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.40949e+03\tAbsError: 2.06202e+17\n", + " Region: \"zone_1\"\tRelError: 1.35262e+01\tAbsError: 7.94472e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35262e+01\tAbsError: 7.94472e-02\n", + " Region: \"zone_3\"\tRelError: 1.39597e+03\tAbsError: 2.06202e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.04789e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.38616e+03\tAbsError: 1.01413e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 8.03041e-01\tAbsError: 7.94473e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:19\u001b[0m.\u001b[1;36m314\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.1 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:19\u001b[0m.\u001b[1;36m341\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 5.10055e-01\tAbsError: 1.79008e+15\n", + " Region: \"zone_1\"\tRelError: 7.10147e-02\tAbsError: 3.19256e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.10147e-02\tAbsError: 3.19256e-04\n", + " Region: \"zone_3\"\tRelError: 4.39040e-01\tAbsError: 1.79008e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39314e-02\tAbsError: 9.39738e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.81226e-02\tAbsError: 8.50345e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.56986e-01\tAbsError: 3.21663e-04\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.35643e+00\tAbsError: 1.11855e+14\n", + " Region: \"zone_1\"\tRelError: 1.12239e-02\tAbsError: 8.53138e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12239e-02\tAbsError: 8.53138e-03\n", + " Region: \"zone_3\"\tRelError: 1.34521e+00\tAbsError: 1.11855e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.32958e+00\tAbsError: 4.27147e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.01792e-03\tAbsError: 1.07583e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06154e-02\tAbsError: 8.53144e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 9.62592e-03\tAbsError: 3.88409e+13\n", + " Region: \"zone_1\"\tRelError: 8.48628e-03\tAbsError: 1.12576e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.48628e-03\tAbsError: 1.12576e-06\n", + " Region: \"zone_3\"\tRelError: 1.13964e-03\tAbsError: 3.88409e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.87588e-04\tAbsError: 2.04690e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.11011e-04\tAbsError: 1.83719e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.41039e-04\tAbsError: 1.18470e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.95503e+02\tAbsError: 4.24862e+16\n", + " Region: \"zone_1\"\tRelError: 2.94334e+02\tAbsError: 7.54578e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.94334e+02\tAbsError: 7.54578e-02\n", + " Region: \"zone_3\"\tRelError: 1.01169e+02\tAbsError: 4.24862e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.38365e+01\tAbsError: 1.85875e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.71030e+01\tAbsError: 2.38987e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29656e-01\tAbsError: 7.54578e-02\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 3.20441e-01\tAbsError: 1.14285e+14\n", + " Region: \"zone_1\"\tRelError: 1.39310e-02\tAbsError: 1.62545e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39310e-02\tAbsError: 1.62545e-04\n", + " Region: \"zone_3\"\tRelError: 3.06510e-01\tAbsError: 1.14285e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.97341e-01\tAbsError: 5.84084e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.93145e-03\tAbsError: 1.08444e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.37145e-04\tAbsError: 1.67877e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.33163e-03\tAbsError: 7.03544e+12\n", + " Region: \"zone_1\"\tRelError: 6.88994e-05\tAbsError: 8.74550e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 6.88994e-05\tAbsError: 8.74550e-07\n", + " Region: \"zone_3\"\tRelError: 1.26273e-03\tAbsError: 7.03544e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.78279e-04\tAbsError: 4.08452e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.87916e-05\tAbsError: 2.95092e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.95662e-04\tAbsError: 9.67670e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 8.36114e+02\tAbsError: 2.84935e+18\n", + " Region: \"zone_1\"\tRelError: 8.09924e+01\tAbsError: 8.80542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.09924e+01\tAbsError: 8.80542e-02\n", + " Region: \"zone_3\"\tRelError: 7.55122e+02\tAbsError: 2.84935e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.43696e+02\tAbsError: 1.30907e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.47319e+00\tAbsError: 1.54028e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 2.01953e+02\tAbsError: 8.80543e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 8.88631e-08\tAbsError: 3.64677e+08\n", + " Region: \"zone_1\"\tRelError: 7.93721e-08\tAbsError: 3.00603e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 7.93721e-08\tAbsError: 3.00603e-11\n", + " Region: \"zone_3\"\tRelError: 9.49096e-09\tAbsError: 3.64677e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.13123e-09\tAbsError: 1.87502e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.36663e-10\tAbsError: 1.77175e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 5.72307e-09\tAbsError: 3.29037e-11\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 8.69833e-04\tAbsError: 5.99552e+10\n", + " Region: \"zone_1\"\tRelError: 6.49723e-06\tAbsError: 1.04391e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 6.49723e-06\tAbsError: 1.04391e-07\n", + " Region: \"zone_3\"\tRelError: 8.63335e-04\tAbsError: 5.99552e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.33783e-04\tAbsError: 2.55001e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.93958e-05\tAbsError: 5.74052e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.56229e-07\tAbsError: 1.10596e-07\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 4.94286e+02\tAbsError: 9.83428e+15\n", + " Region: \"zone_1\"\tRelError: 5.09637e+00\tAbsError: 7.09984e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.09637e+00\tAbsError: 7.09984e-02\n", + " Region: \"zone_3\"\tRelError: 4.89190e+02\tAbsError: 9.83428e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34021e+01\tAbsError: 5.67320e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.75629e+02\tAbsError: 4.16108e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.58896e-01\tAbsError: 7.09985e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:20\u001b[0m.\u001b[1;36m102\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.95\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 6\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 1.48929e-08\tAbsError: 9.78087e+07\n", + " Region: \"zone_1\"\tRelError: 2.39367e-09\tAbsError: 9.98115e-12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.39367e-09\tAbsError: 9.98115e-12\n", + " Region: \"zone_3\"\tRelError: 1.24992e-08\tAbsError: 9.78087e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.82653e-09\tAbsError: 5.13414e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.35561e-10\tAbsError: 4.64672e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 9.13709e-09\tAbsError: 1.21236e-11\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 2.93063e-10\tAbsError: 3.78900e+04\n", + " Region: \"zone_1\"\tRelError: 2.84034e-12\tAbsError: 4.64333e-14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.84034e-12\tAbsError: 4.64333e-14\n", + " Region: \"zone_3\"\tRelError: 2.90222e-10\tAbsError: 3.78900e+04\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.66433e-10\tAbsError: 1.60248e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.37165e-11\tAbsError: 2.18653e+04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.25207e-14\tAbsError: 4.91959e-14\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:20\u001b[0m.\u001b[1;36m352\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.9\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Iteration: 1\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 2.12599e+03\tAbsError: 2.38404e+18\n", + " Region: \"zone_1\"\tRelError: 3.81488e+02\tAbsError: 8.49344e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.81488e+02\tAbsError: 8.49344e-02\n", + " Region: \"zone_3\"\tRelError: 1.74450e+03\tAbsError: 2.38404e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.13077e+01\tAbsError: 1.11961e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.44770e+03\tAbsError: 1.26443e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 2.75501e+02\tAbsError: 8.49344e-02\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:20\u001b[0m.\u001b[1;36m390\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.2\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.12665e+04\tAbsError: 6.12458e+14\n", + " Region: \"zone_1\"\tRelError: 6.44959e-01\tAbsError: 6.59600e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.44959e-01\tAbsError: 6.59600e-02\n", + " Region: \"zone_3\"\tRelError: 5.12658e+04\tAbsError: 6.12458e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.80729e+04\tAbsError: 2.42664e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.31928e+04\tAbsError: 3.69795e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.27747e-01\tAbsError: 6.59600e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.78763e+01\tAbsError: 4.03409e+17\n", + " Region: \"zone_1\"\tRelError: 4.29478e+00\tAbsError: 8.15209e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.29478e+00\tAbsError: 8.15209e-02\n", + " Region: \"zone_3\"\tRelError: 2.35815e+01\tAbsError: 4.03409e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.06155e+01\tAbsError: 1.97169e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.06241e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 3.96600e+00\tAbsError: 8.15210e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.27822e+01\tAbsError: 4.38306e+17\n", + " Region: \"zone_1\"\tRelError: 2.71885e+01\tAbsError: 4.22090e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.71885e+01\tAbsError: 4.22090e-02\n", + " Region: \"zone_3\"\tRelError: 5.59377e+00\tAbsError: 4.38306e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83490e-01\tAbsError: 2.08688e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.75359e-01\tAbsError: 2.29619e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 4.03492e+00\tAbsError: 4.22091e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.20842e+03\tAbsError: 4.11496e+14\n", + " Region: \"zone_1\"\tRelError: 3.41372e-01\tAbsError: 6.01966e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.41372e-01\tAbsError: 6.01966e-02\n", + " Region: \"zone_3\"\tRelError: 1.20808e+03\tAbsError: 4.11496e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.72015e+02\tAbsError: 2.66199e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.35961e+02\tAbsError: 1.45297e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03148e-01\tAbsError: 6.01966e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.19725e+01\tAbsError: 1.92958e+17\n", + " Region: \"zone_1\"\tRelError: 2.64183e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.64183e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 5.55416e+00\tAbsError: 1.92958e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86635e-01\tAbsError: 9.77277e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.83108e-01\tAbsError: 9.52302e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.98441e+00\tAbsError: 4.09542e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.21485e+01\tAbsError: 8.61846e+15\n", + " Region: \"zone_1\"\tRelError: 3.04717e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.04717e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.67686e+00\tAbsError: 8.61846e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94516e-01\tAbsError: 4.66248e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94484e-01\tAbsError: 3.95598e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.78603e-02\tAbsError: 4.09542e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 6.15676e+01\tAbsError: 4.87835e+17\n", + " Region: \"zone_1\"\tRelError: 5.20397e+01\tAbsError: 3.22429e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.20397e+01\tAbsError: 3.22429e-02\n", + " Region: \"zone_3\"\tRelError: 9.52795e+00\tAbsError: 4.87835e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.21731e-01\tAbsError: 2.43628e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.25441e-01\tAbsError: 2.44207e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 8.28077e+00\tAbsError: 3.22432e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 8.30077e+02\tAbsError: 1.03233e+17\n", + " Region: \"zone_1\"\tRelError: 1.14748e+00\tAbsError: 7.77584e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14748e+00\tAbsError: 7.77584e-02\n", + " Region: \"zone_3\"\tRelError: 8.28930e+02\tAbsError: 1.03233e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.61472e+02\tAbsError: 6.58302e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.67005e+02\tAbsError: 3.74024e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 4.53792e-01\tAbsError: 7.77584e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.04768e+03\tAbsError: 1.13224e+14\n", + " Region: \"zone_1\"\tRelError: 8.26456e-02\tAbsError: 5.35128e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.26456e-02\tAbsError: 5.35128e-02\n", + " Region: \"zone_3\"\tRelError: 1.04760e+03\tAbsError: 1.13224e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.27525e+02\tAbsError: 4.98494e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.19988e+02\tAbsError: 6.33747e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.29780e-02\tAbsError: 5.35129e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 5.59678e+00\tAbsError: 2.20718e+17\n", + " Region: \"zone_1\"\tRelError: 8.54328e-01\tAbsError: 3.07631e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.54328e-01\tAbsError: 3.07631e-02\n", + " Region: \"zone_3\"\tRelError: 4.74245e+00\tAbsError: 2.20718e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.57165e-01\tAbsError: 1.09369e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.88364e-01\tAbsError: 1.11350e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 3.39692e+00\tAbsError: 3.07632e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.07800e+00\tAbsError: 3.45404e+14\n", + " Region: \"zone_1\"\tRelError: 5.44178e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.44178e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.53382e+00\tAbsError: 3.45404e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90662e-01\tAbsError: 1.56300e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.87478e-01\tAbsError: 1.89103e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.56802e-02\tAbsError: 3.07632e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.94701e+03\tAbsError: 3.51605e+16\n", + " Region: \"zone_1\"\tRelError: 2.32944e+01\tAbsError: 7.35755e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.32944e+01\tAbsError: 7.35755e-02\n", + " Region: \"zone_3\"\tRelError: 2.92372e+03\tAbsError: 3.51605e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04217e+01\tAbsError: 2.19896e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.91312e+03\tAbsError: 1.31709e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.76554e-01\tAbsError: 7.35755e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.23212e+01\tAbsError: 1.83511e+17\n", + " Region: \"zone_1\"\tRelError: 1.26811e+01\tAbsError: 2.58959e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.26811e+01\tAbsError: 2.58959e-02\n", + " Region: \"zone_3\"\tRelError: 9.64015e+00\tAbsError: 1.83511e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.40244e-01\tAbsError: 9.20472e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.21277e-01\tAbsError: 9.14639e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 9.07863e+00\tAbsError: 2.58031e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 5.61412e+03\tAbsError: 4.48404e+13\n", + " Region: \"zone_1\"\tRelError: 6.49958e-02\tAbsError: 4.56537e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.49958e-02\tAbsError: 4.56537e-02\n", + " Region: \"zone_3\"\tRelError: 5.61405e+03\tAbsError: 4.48404e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.22859e+03\tAbsError: 1.56495e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.38540e+03\tAbsError: 2.91909e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.52942e-02\tAbsError: 4.56538e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.11313e+00\tAbsError: 4.26791e+13\n", + " Region: \"zone_1\"\tRelError: 7.05940e-02\tAbsError: 2.58377e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.05940e-02\tAbsError: 2.58377e-02\n", + " Region: \"zone_3\"\tRelError: 1.04254e+00\tAbsError: 4.26791e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14646e-01\tAbsError: 2.38411e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.85599e-01\tAbsError: 1.88379e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.22941e-02\tAbsError: 2.58015e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 3.40459e+00\tAbsError: 1.40151e+17\n", + " Region: \"zone_1\"\tRelError: 9.91077e-01\tAbsError: 2.58298e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.91077e-01\tAbsError: 2.58298e-02\n", + " Region: \"zone_3\"\tRelError: 2.41351e+00\tAbsError: 1.40151e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.12962e-01\tAbsError: 7.03247e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.20637e-01\tAbsError: 6.98261e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.67991e+00\tAbsError: 2.58976e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 6.38842e+01\tAbsError: 2.01361e+16\n", + " Region: \"zone_1\"\tRelError: 2.27796e+00\tAbsError: 1.10520e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.27796e+00\tAbsError: 1.10520e-02\n", + " Region: \"zone_3\"\tRelError: 6.16063e+01\tAbsError: 2.01361e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78655e-02\tAbsError: 1.01092e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.72051e-02\tAbsError: 1.00269e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.15012e+01\tAbsError: 1.10525e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.69574e+03\tAbsError: 2.98489e+15\n", + " Region: \"zone_1\"\tRelError: 2.69436e+00\tAbsError: 6.88788e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.69436e+00\tAbsError: 6.88788e-02\n", + " Region: \"zone_3\"\tRelError: 1.69305e+03\tAbsError: 2.98489e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.37947e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.68391e+03\tAbsError: 1.60542e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40413e-01\tAbsError: 6.88788e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.87168e+02\tAbsError: 3.87608e+13\n", + " Region: \"zone_1\"\tRelError: 4.83851e-02\tAbsError: 3.63251e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.83851e-02\tAbsError: 3.63251e-02\n", + " Region: \"zone_3\"\tRelError: 2.87120e+02\tAbsError: 3.87608e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95625e+02\tAbsError: 2.20451e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.14461e+01\tAbsError: 1.67157e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.86857e-02\tAbsError: 3.63252e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.83480e-01\tAbsError: 2.88954e+12\n", + " Region: \"zone_1\"\tRelError: 1.35212e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35212e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.69958e-01\tAbsError: 2.88954e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88338e-01\tAbsError: 2.12977e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.78790e-02\tAbsError: 2.67656e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37417e-02\tAbsError: 9.16534e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.15760e+00\tAbsError: 3.46533e+16\n", + " Region: \"zone_1\"\tRelError: 4.44487e-01\tAbsError: 9.16511e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 4.44487e-01\tAbsError: 9.16511e-03\n", + " Region: \"zone_3\"\tRelError: 7.13113e-01\tAbsError: 3.46533e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34412e-01\tAbsError: 1.73980e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.38070e-02\tAbsError: 1.72552e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 5.24894e-01\tAbsError: 9.16533e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.32137e+02\tAbsError: 2.29730e+15\n", + " Region: \"zone_1\"\tRelError: 2.07460e+00\tAbsError: 6.35445e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.07460e+00\tAbsError: 6.35445e-02\n", + " Region: \"zone_3\"\tRelError: 4.30062e+02\tAbsError: 2.29730e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.80679e+02\tAbsError: 1.41594e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.92715e+01\tAbsError: 8.81358e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11655e-01\tAbsError: 6.35446e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.76114e+00\tAbsError: 3.11157e+15\n", + " Region: \"zone_1\"\tRelError: 1.46998e-01\tAbsError: 5.72926e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.46998e-01\tAbsError: 5.72926e-05\n", + " Region: \"zone_3\"\tRelError: 1.61414e+00\tAbsError: 3.11157e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.13906e-03\tAbsError: 1.60788e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.01418e-04\tAbsError: 1.50369e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.60610e+00\tAbsError: 5.72926e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.80174e+03\tAbsError: 1.56957e+13\n", + " Region: \"zone_1\"\tRelError: 3.66656e-02\tAbsError: 2.57139e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.66656e-02\tAbsError: 2.57139e-02\n", + " Region: \"zone_3\"\tRelError: 3.80170e+03\tAbsError: 1.56957e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.80091e+03\tAbsError: 6.65708e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.49117e-01\tAbsError: 1.50300e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.74641e-02\tAbsError: 2.58924e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 5.74119e-02\tAbsError: 3.00253e+15\n", + " Region: \"zone_1\"\tRelError: 1.72667e-02\tAbsError: 6.21206e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72667e-02\tAbsError: 6.21206e-05\n", + " Region: \"zone_3\"\tRelError: 4.01452e-02\tAbsError: 3.00253e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.04052e-02\tAbsError: 1.53972e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.58359e-03\tAbsError: 1.46281e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.81563e-02\tAbsError: 6.25380e-05\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.38444e-02\tAbsError: 3.70458e+12\n", + " Region: \"zone_1\"\tRelError: 3.59871e-03\tAbsError: 2.71390e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.59871e-03\tAbsError: 2.71390e-05\n", + " Region: \"zone_3\"\tRelError: 9.02457e-02\tAbsError: 3.70458e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.84320e-02\tAbsError: 1.19345e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.76575e-03\tAbsError: 2.51114e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.79561e-05\tAbsError: 2.71828e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 2.61238e+00\tAbsError: 1.11231e+13\n", + " Region: \"zone_1\"\tRelError: 2.12491e-02\tAbsError: 1.77022e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.12491e-02\tAbsError: 1.77022e-02\n", + " Region: \"zone_3\"\tRelError: 2.59113e+00\tAbsError: 1.11231e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.56346e+00\tAbsError: 5.43531e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.10503e-03\tAbsError: 1.05796e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.15668e-02\tAbsError: 1.77023e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.33375e+03\tAbsError: 3.70248e+14\n", + " Region: \"zone_1\"\tRelError: 8.99378e-02\tAbsError: 5.74069e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.99378e-02\tAbsError: 5.74069e-02\n", + " Region: \"zone_3\"\tRelError: 4.33366e+03\tAbsError: 3.70248e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.01982e+02\tAbsError: 1.56203e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.13159e+03\tAbsError: 2.14045e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.01902e-02\tAbsError: 5.74070e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.77034e-04\tAbsError: 8.73262e+11\n", + " Region: \"zone_1\"\tRelError: 7.70938e-06\tAbsError: 1.62726e-08\n", + " Equation: \"PotentialEquation\"\tRelError: 7.70938e-06\tAbsError: 1.62726e-08\n", + " Region: \"zone_3\"\tRelError: 1.69324e-04\tAbsError: 8.73262e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.91186e-06\tAbsError: 4.56387e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.48171e-07\tAbsError: 4.16875e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.67064e-04\tAbsError: 1.62726e-08\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 5.81678e-01\tAbsError: 8.11567e+12\n", + " Region: \"zone_1\"\tRelError: 2.44659e-03\tAbsError: 2.61873e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.44659e-03\tAbsError: 2.61873e-05\n", + " Region: \"zone_3\"\tRelError: 5.79232e-01\tAbsError: 8.11567e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.76787e-01\tAbsError: 1.13091e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.40509e-03\tAbsError: 6.98476e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.99008e-05\tAbsError: 2.64685e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.14148e-05\tAbsError: 7.36262e+11\n", + " Region: \"zone_1\"\tRelError: 4.55231e-07\tAbsError: 9.54534e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 4.55231e-07\tAbsError: 9.54534e-09\n", + " Region: \"zone_3\"\tRelError: 1.09596e-05\tAbsError: 7.36262e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.23017e-06\tAbsError: 3.79166e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.26674e-07\tAbsError: 3.57096e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00275e-06\tAbsError: 1.00816e-08\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.96038e-05\tAbsError: 5.27329e+08\n", + " Region: \"zone_1\"\tRelError: 3.38320e-07\tAbsError: 2.80513e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.38320e-07\tAbsError: 2.80513e-09\n", + " Region: \"zone_3\"\tRelError: 4.92654e-05\tAbsError: 5.27329e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.82203e-05\tAbsError: 1.20057e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.04006e-06\tAbsError: 4.07273e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 5.04648e-09\tAbsError: 2.84942e-09\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:23\u001b[0m.\u001b[1;36m231\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:23\u001b[0m.\u001b[1;36m231\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 4.35849e-04\tAbsError: 3.72621e+08\n", + " Region: \"zone_1\"\tRelError: 9.74733e-08\tAbsError: 1.39396e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 9.74733e-08\tAbsError: 1.39396e-09\n", + " Region: \"zone_3\"\tRelError: 4.35752e-04\tAbsError: 3.72621e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.34041e-04\tAbsError: 4.56136e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.70891e-06\tAbsError: 3.27007e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 2.16343e-09\tAbsError: 1.45042e-09\n", + "Iteration: 8\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 1.02608e+03\tAbsError: 1.57087e+14\n", + " Region: \"zone_1\"\tRelError: 1.57533e-01\tAbsError: 5.02452e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.57533e-01\tAbsError: 5.02452e-02\n", + " Region: \"zone_3\"\tRelError: 1.02593e+03\tAbsError: 1.57087e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.24945e+02\tAbsError: 5.51555e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.00908e+02\tAbsError: 1.01931e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.22342e-02\tAbsError: 5.02452e-02\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.46859e-12\tAbsError: 7.81503e+04\n", + " Region: \"zone_1\"\tRelError: 2.38783e-13\tAbsError: 1.16589e-15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.38783e-13\tAbsError: 1.16589e-15\n", + " Region: \"zone_3\"\tRelError: 2.22981e-12\tAbsError: 7.81503e+04\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.62269e-13\tAbsError: 3.99082e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.70018e-14\tAbsError: 3.82421e+04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.05054e-12\tAbsError: 1.16589e-15\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 6.63476e-12\tAbsError: 3.12455e+04\n", + " Region: \"zone_1\"\tRelError: 2.28845e-13\tAbsError: 1.11990e-16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.28845e-13\tAbsError: 1.11990e-16\n", + " Region: \"zone_3\"\tRelError: 6.40592e-12\tAbsError: 3.12455e+04\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.32925e-12\tAbsError: 1.56395e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.20403e-14\tAbsError: 1.56060e+04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.46296e-14\tAbsError: 1.15404e-16\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:23\u001b[0m.\u001b[1;36m696\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:23\u001b[0m.\u001b[1;36m696\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.20555555555555557\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 9\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 3.51162e+02\tAbsError: 1.51715e+14\n", + " Region: \"zone_1\"\tRelError: 1.16438e-01\tAbsError: 4.17804e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16438e-01\tAbsError: 4.17804e-02\n", + " Region: \"zone_3\"\tRelError: 3.51046e+02\tAbsError: 1.51715e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.03907e+02\tAbsError: 8.14342e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.70825e+01\tAbsError: 7.02811e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.60305e-02\tAbsError: 4.17805e-02\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.62677e+00\tAbsError: 8.55868e+15\n", + " Region: \"zone_1\"\tRelError: 3.93566e+00\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.93566e+00\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.69111e+00\tAbsError: 8.55868e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94568e-01\tAbsError: 4.83229e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94557e-01\tAbsError: 3.72639e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01989e-01\tAbsError: 4.09542e-02\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.46957e+02\tAbsError: 7.87014e+13\n", + " Region: \"zone_1\"\tRelError: 4.00573e-02\tAbsError: 3.17370e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.00573e-02\tAbsError: 3.17370e-02\n", + " Region: \"zone_3\"\tRelError: 1.46917e+02\tAbsError: 7.87014e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.42905e+02\tAbsError: 5.10431e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.97144e+00\tAbsError: 7.35971e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.02690e-02\tAbsError: 3.17371e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.68467e+00\tAbsError: 3.35446e+14\n", + " Region: \"zone_1\"\tRelError: 1.36557e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.36557e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.54812e+00\tAbsError: 3.35446e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90679e-01\tAbsError: 1.72457e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.87899e-01\tAbsError: 1.62989e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.95382e-02\tAbsError: 3.07632e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:24\u001b[0m.\u001b[1;36m280\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:24\u001b[0m.\u001b[1;36m313\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.15 bias\u001b[0m \n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 3.42199e+01\tAbsError: 6.33431e+13\n", + " Region: \"zone_1\"\tRelError: 3.22245e-02\tAbsError: 2.58704e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.22245e-02\tAbsError: 2.58704e-02\n", + " Region: \"zone_3\"\tRelError: 3.41876e+01\tAbsError: 6.33431e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.39955e+01\tAbsError: 1.79340e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.59887e-01\tAbsError: 6.15497e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.22245e-02\tAbsError: 2.46614e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:24\u001b[0m.\u001b[1;36m348\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: 0.1\u001b[0m \n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.36416e+01\tAbsError: 9.09726e+15\n", + " Region: \"zone_1\"\tRelError: 1.19443e+01\tAbsError: 4.20726e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19443e+01\tAbsError: 4.20726e-02\n", + " Region: \"zone_3\"\tRelError: 1.69727e+00\tAbsError: 9.09726e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.03202e-01\tAbsError: 4.92151e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.03171e-01\tAbsError: 4.17576e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.08998e-02\tAbsError: 4.20726e-02\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:24\u001b[0m.\u001b[1;36m417\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:24\u001b[0m.\u001b[1;36m449\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.2 bias\u001b[0m \n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:24\u001b[0m.\u001b[1;36m484\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.1\u001b[0m \n", + "number of equations 22602\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.58081e+00\tAbsError: 1.11842e+14\n", + " Region: \"zone_1\"\tRelError: 1.21721e-02\tAbsError: 1.03782e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21721e-02\tAbsError: 1.03782e-02\n", + " Region: \"zone_3\"\tRelError: 1.56863e+00\tAbsError: 1.11842e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.55004e+00\tAbsError: 4.08486e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.14119e-03\tAbsError: 1.07757e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.24479e-02\tAbsError: 1.03783e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.10405e+00\tAbsError: 2.84626e+13\n", + " Region: \"zone_1\"\tRelError: 5.09442e-02\tAbsError: 2.58970e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.09442e-02\tAbsError: 2.58970e-02\n", + " Region: \"zone_3\"\tRelError: 1.05311e+00\tAbsError: 2.84626e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14915e-01\tAbsError: 1.81960e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.86897e-01\tAbsError: 1.02666e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.12979e-02\tAbsError: 2.58565e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.89696e+00\tAbsError: 3.83121e+14\n", + " Region: \"zone_1\"\tRelError: 3.29440e-01\tAbsError: 3.20820e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.29440e-01\tAbsError: 3.20820e-02\n", + " Region: \"zone_3\"\tRelError: 1.56752e+00\tAbsError: 3.83121e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.06173e-01\tAbsError: 1.73741e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.02918e-01\tAbsError: 2.09380e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.84246e-02\tAbsError: 3.20820e-02\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 1.99331e-01\tAbsError: 1.43366e+14\n", + " Region: \"zone_1\"\tRelError: 1.64438e-02\tAbsError: 1.92112e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.64438e-02\tAbsError: 1.92112e-04\n", + " Region: \"zone_3\"\tRelError: 1.82888e-01\tAbsError: 1.43366e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.72124e-01\tAbsError: 6.88270e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.04833e-02\tAbsError: 1.36484e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.80128e-04\tAbsError: 1.98494e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.55178e+02\tAbsError: 4.19296e+18\n", + " Region: \"zone_1\"\tRelError: 9.46717e+01\tAbsError: 8.96715e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.46717e+01\tAbsError: 8.96715e-02\n", + " Region: \"zone_3\"\tRelError: 5.60506e+02\tAbsError: 4.19296e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.71840e+02\tAbsError: 2.09941e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.42818e+02\tAbsError: 2.09356e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 1.45848e+02\tAbsError: 8.96718e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.52899e+03\tAbsError: 5.52426e+18\n", + " Region: \"zone_1\"\tRelError: 1.19471e+02\tAbsError: 9.11937e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19471e+02\tAbsError: 9.11937e-02\n", + " Region: \"zone_3\"\tRelError: 1.40951e+03\tAbsError: 5.52426e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.00001e+03\tAbsError: 2.32297e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.07895e+02\tAbsError: 3.20129e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 3.01606e+02\tAbsError: 9.11941e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.87738e-01\tAbsError: 1.50257e+12\n", + " Region: \"zone_1\"\tRelError: 1.63299e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.63299e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.71408e-01\tAbsError: 1.50257e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88723e-01\tAbsError: 2.92089e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.61472e-02\tAbsError: 1.21048e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65380e-02\tAbsError: 9.16534e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.15294e+00\tAbsError: 5.01228e+13\n", + " Region: \"zone_1\"\tRelError: 4.66659e-02\tAbsError: 2.58180e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.66659e-02\tAbsError: 2.58180e-02\n", + " Region: \"zone_3\"\tRelError: 1.10628e+00\tAbsError: 5.01228e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.41002e-01\tAbsError: 2.79935e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.21167e-01\tAbsError: 2.21292e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.41094e-02\tAbsError: 2.57601e-02\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 6.38047e-04\tAbsError: 8.40237e+10\n", + " Region: \"zone_1\"\tRelError: 8.71093e-06\tAbsError: 1.41888e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 8.71093e-06\tAbsError: 1.41888e-07\n", + " Region: \"zone_3\"\tRelError: 6.29336e-04\tAbsError: 8.40237e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.88281e-04\tAbsError: 3.39539e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.08430e-05\tAbsError: 8.06283e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.12387e-07\tAbsError: 1.50351e-07\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 5.59128e+02\tAbsError: 3.70246e+18\n", + " Region: \"zone_1\"\tRelError: 7.27506e+01\tAbsError: 8.66949e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.27506e+01\tAbsError: 8.66949e-02\n", + " Region: \"zone_3\"\tRelError: 4.86377e+02\tAbsError: 3.70246e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.84555e+01\tAbsError: 1.87060e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.32939e+01\tAbsError: 1.83186e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 3.64628e+02\tAbsError: 8.66950e-02\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 3.36908e-10\tAbsError: 5.80084e+04\n", + " Region: \"zone_1\"\tRelError: 5.10232e-12\tAbsError: 8.55220e-14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.10232e-12\tAbsError: 8.55220e-14\n", + " Region: \"zone_3\"\tRelError: 3.31806e-10\tAbsError: 5.80084e+04\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.87749e-10\tAbsError: 1.56061e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.38210e-11\tAbsError: 4.24023e+04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.35487e-13\tAbsError: 9.08369e-14\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 7.99996e+02\tAbsError: 4.79855e+18\n", + " Region: \"zone_1\"\tRelError: 4.84124e+02\tAbsError: 8.83465e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.84124e+02\tAbsError: 8.83465e-02\n", + " Region: \"zone_3\"\tRelError: 3.15873e+02\tAbsError: 4.79855e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.69613e+01\tAbsError: 2.06031e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.73824e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 2.09911e+02\tAbsError: 8.83466e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.96849e-02\tAbsError: 2.07362e+12\n", + " Region: \"zone_1\"\tRelError: 7.02885e-04\tAbsError: 1.90198e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.02885e-04\tAbsError: 1.90198e-05\n", + " Region: \"zone_3\"\tRelError: 8.89820e-02\tAbsError: 2.07362e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.78375e-02\tAbsError: 8.90891e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10276e-03\tAbsError: 1.18273e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.17313e-05\tAbsError: 1.96984e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:25\u001b[0m.\u001b[1;36m555\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.2\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.15526e-01\tAbsError: 2.42634e+12\n", + " Region: \"zone_1\"\tRelError: 1.61579e-02\tAbsError: 1.08344e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.61579e-02\tAbsError: 1.08344e-02\n", + " Region: \"zone_3\"\tRelError: 3.99368e-01\tAbsError: 2.42634e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91128e-01\tAbsError: 1.32019e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.18221e-02\tAbsError: 1.10616e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.64183e-02\tAbsError: 1.08344e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 3.53516e+01\tAbsError: 7.53728e+17\n", + " Region: \"zone_1\"\tRelError: 9.71612e+00\tAbsError: 8.34500e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.71612e+00\tAbsError: 8.34500e-02\n", + " Region: \"zone_3\"\tRelError: 2.56355e+01\tAbsError: 7.53728e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.85616e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.68112e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 7.63549e+00\tAbsError: 8.34501e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.40982e-05\tAbsError: 1.92019e+08\n", + " Region: \"zone_1\"\tRelError: 4.03285e-08\tAbsError: 1.17477e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 4.03285e-08\tAbsError: 1.17477e-09\n", + " Region: \"zone_3\"\tRelError: 3.40579e-05\tAbsError: 1.92019e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.36060e-05\tAbsError: 5.55442e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.49187e-07\tAbsError: 1.36475e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 2.67835e-09\tAbsError: 1.26430e-09\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 6.11681e+02\tAbsError: 9.73831e+17\n", + " Region: \"zone_1\"\tRelError: 1.66118e+01\tAbsError: 8.52530e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66118e+01\tAbsError: 8.52530e-02\n", + " Region: \"zone_3\"\tRelError: 5.95070e+02\tAbsError: 9.73831e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 4.64637e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.45073e+02\tAbsError: 5.09194e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 4.40997e+02\tAbsError: 8.52530e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:26\u001b[0m.\u001b[1;36m006\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.4\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.04481e-01\tAbsError: 6.34896e+11\n", + " Region: \"zone_1\"\tRelError: 4.71054e-04\tAbsError: 5.88390e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.71054e-04\tAbsError: 5.88390e-06\n", + " Region: \"zone_3\"\tRelError: 1.04010e-01\tAbsError: 6.34896e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03474e-01\tAbsError: 2.77921e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.25244e-04\tAbsError: 3.56974e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10538e-05\tAbsError: 6.12131e-06\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.57138e+02\tAbsError: 1.91537e+17\n", + " Region: \"zone_1\"\tRelError: 2.14306e+01\tAbsError: 7.98885e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.14306e+01\tAbsError: 7.98885e-02\n", + " Region: \"zone_3\"\tRelError: 4.35707e+02\tAbsError: 1.91537e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.17395e+02\tAbsError: 1.23405e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.17404e+02\tAbsError: 6.81323e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 9.07859e-01\tAbsError: 7.98942e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.21485e+01\tAbsError: 8.61846e+15\n", + " Region: \"zone_1\"\tRelError: 3.04717e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.04717e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.67686e+00\tAbsError: 8.61846e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94516e-01\tAbsError: 4.66248e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94484e-01\tAbsError: 3.95598e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.78603e-02\tAbsError: 4.09542e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.53509e+03\tAbsError: 2.64355e+17\n", + " Region: \"zone_1\"\tRelError: 8.11560e+00\tAbsError: 8.18705e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.11560e+00\tAbsError: 8.18705e-02\n", + " Region: \"zone_3\"\tRelError: 1.52697e+03\tAbsError: 2.64355e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.51231e+03\tAbsError: 1.58326e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.19219e+01\tAbsError: 1.06029e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 2.73627e+00\tAbsError: 8.18706e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.34755e-05\tAbsError: 1.52606e+07\n", + " Region: \"zone_1\"\tRelError: 7.60373e-09\tAbsError: 1.04179e-10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.60373e-09\tAbsError: 1.04179e-10\n", + " Region: \"zone_3\"\tRelError: 1.34679e-05\tAbsError: 1.52606e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33958e-05\tAbsError: 4.82777e+06\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.19416e-08\tAbsError: 1.04328e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.01664e-10\tAbsError: 1.11640e-10\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:26\u001b[0m.\u001b[1;36m619\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:26\u001b[0m.\u001b[1;36m619\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.3111111111111111\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.31502e+02\tAbsError: 6.87028e+16\n", + " Region: \"zone_1\"\tRelError: 1.68094e+01\tAbsError: 7.59542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.68094e+01\tAbsError: 7.59542e-02\n", + " Region: \"zone_3\"\tRelError: 8.14692e+02\tAbsError: 6.87028e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.83334e+02\tAbsError: 4.38759e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.31160e+02\tAbsError: 2.48269e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.98992e-01\tAbsError: 7.59565e-02\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.07800e+00\tAbsError: 3.45404e+14\n", + " Region: \"zone_1\"\tRelError: 5.44178e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.44178e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.53382e+00\tAbsError: 3.45404e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90662e-01\tAbsError: 1.56300e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.87478e-01\tAbsError: 1.89103e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.56802e-02\tAbsError: 3.07632e-02\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.56244e+00\tAbsError: 8.45570e+15\n", + " Region: \"zone_1\"\tRelError: 3.85573e+00\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.85573e+00\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.70670e+00\tAbsError: 8.45570e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94571e-01\tAbsError: 4.92914e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94557e-01\tAbsError: 3.52655e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17574e-01\tAbsError: 4.09542e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.31694e+02\tAbsError: 8.22528e+16\n", + " Region: \"zone_1\"\tRelError: 1.67084e+02\tAbsError: 7.81452e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.67084e+02\tAbsError: 7.81452e-02\n", + " Region: \"zone_3\"\tRelError: 6.46099e+01\tAbsError: 8.22528e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.91409e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.53588e+01\tAbsError: 4.31119e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.51084e-01\tAbsError: 7.81452e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.51444e+02\tAbsError: 6.18288e+15\n", + " Region: \"zone_1\"\tRelError: 5.96684e+01\tAbsError: 7.15580e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.96684e+01\tAbsError: 7.15580e-02\n", + " Region: \"zone_3\"\tRelError: 4.91775e+02\tAbsError: 6.18288e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.96477e+01\tAbsError: 1.82578e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.51973e+02\tAbsError: 4.35710e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55063e-01\tAbsError: 7.15593e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.67739e+00\tAbsError: 3.26551e+14\n", + " Region: \"zone_1\"\tRelError: 1.13651e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13651e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.56374e+00\tAbsError: 3.26551e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91179e-01\tAbsError: 1.98410e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.87607e-01\tAbsError: 1.28141e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.49517e-02\tAbsError: 3.07632e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.11313e+00\tAbsError: 4.26791e+13\n", + " Region: \"zone_1\"\tRelError: 7.05940e-02\tAbsError: 2.58377e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.05940e-02\tAbsError: 2.58377e-02\n", + " Region: \"zone_3\"\tRelError: 1.04254e+00\tAbsError: 4.26791e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14646e-01\tAbsError: 2.38411e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.85599e-01\tAbsError: 1.88379e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.22941e-02\tAbsError: 2.58015e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.59844e+02\tAbsError: 1.24880e+16\n", + " Region: \"zone_1\"\tRelError: 1.03700e+01\tAbsError: 7.40072e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03700e+01\tAbsError: 7.40072e-02\n", + " Region: \"zone_3\"\tRelError: 4.49474e+02\tAbsError: 1.24880e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 4.24800e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.40305e+02\tAbsError: 8.23998e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.69842e-01\tAbsError: 7.40073e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.69894e+00\tAbsError: 9.02984e+15\n", + " Region: \"zone_1\"\tRelError: 4.98629e+00\tAbsError: 4.20726e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.98629e+00\tAbsError: 4.20726e-02\n", + " Region: \"zone_3\"\tRelError: 1.71265e+00\tAbsError: 9.02984e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.03254e-01\tAbsError: 5.10935e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.03243e-01\tAbsError: 3.92049e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06149e-01\tAbsError: 4.20726e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.49917e+02\tAbsError: 2.95788e+15\n", + " Region: \"zone_1\"\tRelError: 3.04492e+00\tAbsError: 6.65940e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.04492e+00\tAbsError: 6.65940e-02\n", + " Region: \"zone_3\"\tRelError: 1.46872e+02\tAbsError: 2.95788e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.68810e+01\tAbsError: 1.83594e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.19869e+02\tAbsError: 1.12194e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21422e-01\tAbsError: 6.65969e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.83480e-01\tAbsError: 2.88954e+12\n", + " Region: \"zone_1\"\tRelError: 1.35212e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35212e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.69958e-01\tAbsError: 2.88954e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88338e-01\tAbsError: 2.12977e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.78790e-02\tAbsError: 2.67656e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37417e-02\tAbsError: 9.16534e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.13583e+00\tAbsError: 3.35166e+13\n", + " Region: \"zone_1\"\tRelError: 6.49986e-02\tAbsError: 2.58787e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.49986e-02\tAbsError: 2.58787e-02\n", + " Region: \"zone_3\"\tRelError: 1.07083e+00\tAbsError: 3.35166e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14794e-01\tAbsError: 2.31889e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.90894e-01\tAbsError: 1.03277e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.51440e-02\tAbsError: 2.58923e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.11429e+03\tAbsError: 2.38864e+15\n", + " Region: \"zone_1\"\tRelError: 1.50596e+00\tAbsError: 6.93659e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.50596e+00\tAbsError: 6.93659e-02\n", + " Region: \"zone_3\"\tRelError: 2.11278e+03\tAbsError: 2.38864e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.71799e+01\tAbsError: 1.29149e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.07547e+03\tAbsError: 1.09714e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33696e-01\tAbsError: 6.93660e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.83976e+00\tAbsError: 3.73254e+14\n", + " Region: \"zone_1\"\tRelError: 2.58614e-01\tAbsError: 3.20820e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.58614e-01\tAbsError: 3.20820e-02\n", + " Region: \"zone_3\"\tRelError: 1.58115e+00\tAbsError: 3.73254e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.06515e-01\tAbsError: 1.94620e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.02868e-01\tAbsError: 1.78634e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.17646e-02\tAbsError: 3.20820e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.83585e+04\tAbsError: 7.32345e+14\n", + " Region: \"zone_1\"\tRelError: 4.44128e-01\tAbsError: 6.09260e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.44128e-01\tAbsError: 6.09260e-02\n", + " Region: \"zone_3\"\tRelError: 3.83580e+04\tAbsError: 7.32345e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.30599e+02\tAbsError: 3.72701e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.78273e+04\tAbsError: 3.59644e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.79120e-02\tAbsError: 6.09290e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.38444e-02\tAbsError: 3.70458e+12\n", + " Region: \"zone_1\"\tRelError: 3.59871e-03\tAbsError: 2.71390e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.59871e-03\tAbsError: 2.71390e-05\n", + " Region: \"zone_3\"\tRelError: 9.02457e-02\tAbsError: 3.70458e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.84320e-02\tAbsError: 1.19345e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.76575e-03\tAbsError: 2.51114e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.79561e-05\tAbsError: 2.71828e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.97006e-01\tAbsError: 3.97798e+12\n", + " Region: \"zone_1\"\tRelError: 2.05644e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.05644e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.76441e-01\tAbsError: 3.97798e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88505e-01\tAbsError: 1.01871e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.71832e-02\tAbsError: 2.95927e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.07533e-02\tAbsError: 9.16534e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.25231e+03\tAbsError: 9.03734e+14\n", + " Region: \"zone_1\"\tRelError: 8.82466e-01\tAbsError: 6.41008e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.82466e-01\tAbsError: 6.41008e-02\n", + " Region: \"zone_3\"\tRelError: 2.25143e+03\tAbsError: 9.03734e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.57304e+02\tAbsError: 4.07168e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.69402e+03\tAbsError: 4.96566e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07550e-01\tAbsError: 6.41009e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.17417e+00\tAbsError: 3.20760e+13\n", + " Region: \"zone_1\"\tRelError: 5.46381e-02\tAbsError: 2.58802e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.46381e-02\tAbsError: 2.58802e-02\n", + " Region: \"zone_3\"\tRelError: 1.11953e+00\tAbsError: 3.20760e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.41378e-01\tAbsError: 2.05221e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.23358e-01\tAbsError: 1.15539e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.47948e-02\tAbsError: 2.58959e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.25275e+04\tAbsError: 2.12614e+14\n", + " Region: \"zone_1\"\tRelError: 7.91343e-02\tAbsError: 5.43640e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.91343e-02\tAbsError: 5.43640e-02\n", + " Region: \"zone_3\"\tRelError: 2.25274e+04\tAbsError: 2.12614e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.66145e+03\tAbsError: 2.65979e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.98659e+04\tAbsError: 1.86016e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.93208e-02\tAbsError: 5.43673e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.96038e-05\tAbsError: 5.27330e+08\n", + " Region: \"zone_1\"\tRelError: 3.38320e-07\tAbsError: 2.80513e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.38320e-07\tAbsError: 2.80513e-09\n", + " Region: \"zone_3\"\tRelError: 4.92654e-05\tAbsError: 5.27330e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.82203e-05\tAbsError: 1.20057e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.04006e-06\tAbsError: 4.07273e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 5.04648e-09\tAbsError: 2.84942e-09\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.75905e-02\tAbsError: 6.14178e+11\n", + " Region: \"zone_1\"\tRelError: 1.87871e-04\tAbsError: 5.35919e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87871e-04\tAbsError: 5.35919e-06\n", + " Region: \"zone_3\"\tRelError: 8.74026e-02\tAbsError: 6.14178e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.70791e-02\tAbsError: 2.57149e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.08574e-04\tAbsError: 3.57029e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49985e-05\tAbsError: 5.65537e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:28\u001b[0m.\u001b[1;36m462\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:28\u001b[0m.\u001b[1;36m462\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.35767e+03\tAbsError: 4.38346e+14\n", + " Region: \"zone_1\"\tRelError: 1.72519e-01\tAbsError: 5.80509e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72519e-01\tAbsError: 5.80509e-02\n", + " Region: \"zone_3\"\tRelError: 3.35750e+03\tAbsError: 4.38346e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.54842e+03\tAbsError: 1.20412e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.80899e+03\tAbsError: 3.17935e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.54433e-02\tAbsError: 5.80510e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.20610e-01\tAbsError: 2.46367e+12\n", + " Region: \"zone_1\"\tRelError: 1.97787e-02\tAbsError: 1.08344e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.97787e-02\tAbsError: 1.08344e-02\n", + " Region: \"zone_3\"\tRelError: 4.00831e-01\tAbsError: 2.46367e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.90180e-01\tAbsError: 1.36067e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.06203e-02\tAbsError: 1.10300e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.00308e-02\tAbsError: 1.08344e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.83174e+03\tAbsError: 3.03017e+14\n", + " Region: \"zone_1\"\tRelError: 1.86561e-01\tAbsError: 4.66596e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86561e-01\tAbsError: 4.66596e-02\n", + " Region: \"zone_3\"\tRelError: 2.83156e+03\tAbsError: 3.03017e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.69901e+03\tAbsError: 1.18356e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.32487e+02\tAbsError: 1.84661e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.30157e-02\tAbsError: 4.66636e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 9.95471e-06\tAbsError: 1.37438e+07\n", + " Region: \"zone_1\"\tRelError: 1.96051e-09\tAbsError: 6.30623e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.96051e-09\tAbsError: 6.30623e-11\n", + " Region: \"zone_3\"\tRelError: 9.95275e-06\tAbsError: 1.37438e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.91827e-06\tAbsError: 3.21255e+06\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.43047e-08\tAbsError: 1.05312e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.78389e-10\tAbsError: 6.72816e-11\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:28\u001b[0m.\u001b[1;36m940\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.5\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 9.11329e+02\tAbsError: 3.55421e+14\n", + " Region: \"zone_1\"\tRelError: 6.92220e-02\tAbsError: 5.10012e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.92220e-02\tAbsError: 5.10012e-02\n", + " Region: \"zone_3\"\tRelError: 9.11259e+02\tAbsError: 3.55421e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28865e+02\tAbsError: 2.22302e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.82326e+02\tAbsError: 3.33191e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.90503e-02\tAbsError: 5.10013e-02\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.70427e+04\tAbsError: 2.02458e+14\n", + " Region: \"zone_1\"\tRelError: 4.75338e-02\tAbsError: 3.75199e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.75338e-02\tAbsError: 3.75199e-02\n", + " Region: \"zone_3\"\tRelError: 3.70426e+04\tAbsError: 2.02458e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.23519e+02\tAbsError: 1.48588e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.67191e+04\tAbsError: 1.87599e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.78377e-02\tAbsError: 3.75245e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.03169e-01\tAbsError: 1.09582e+11\n", + " Region: \"zone_1\"\tRelError: 5.27309e-05\tAbsError: 7.87175e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 5.27309e-05\tAbsError: 7.87175e-07\n", + " Region: \"zone_3\"\tRelError: 1.03117e-01\tAbsError: 1.09582e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.02996e-01\tAbsError: 3.80676e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.19243e-04\tAbsError: 7.15146e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.81215e-06\tAbsError: 8.31957e-07\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.62677e+00\tAbsError: 8.55868e+15\n", + " Region: \"zone_1\"\tRelError: 3.93566e+00\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.93566e+00\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.69111e+00\tAbsError: 8.55868e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94568e-01\tAbsError: 4.83229e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94557e-01\tAbsError: 3.72639e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01989e-01\tAbsError: 4.09542e-02\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.99508e+02\tAbsError: 3.56712e+14\n", + " Region: \"zone_1\"\tRelError: 5.37825e-02\tAbsError: 4.26778e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.37825e-02\tAbsError: 4.26778e-02\n", + " Region: \"zone_3\"\tRelError: 3.99454e+02\tAbsError: 3.56712e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.74733e+02\tAbsError: 9.45682e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.46668e+01\tAbsError: 3.47255e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.40853e-02\tAbsError: 4.26779e-02\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 4.97099e+01\tAbsError: 1.83373e+14\n", + " Region: \"zone_1\"\tRelError: 3.58093e-02\tAbsError: 2.67472e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.58093e-02\tAbsError: 2.67472e-02\n", + " Region: \"zone_3\"\tRelError: 4.96741e+01\tAbsError: 1.83373e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.86384e+01\tAbsError: 7.10112e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.99823e-01\tAbsError: 1.76272e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.58093e-02\tAbsError: 2.67523e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.18157e-06\tAbsError: 1.01458e+05\n", + " Region: \"zone_1\"\tRelError: 9.31729e-12\tAbsError: 3.59108e-13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.31729e-12\tAbsError: 3.59108e-13\n", + " Region: \"zone_3\"\tRelError: 2.18156e-06\tAbsError: 1.01458e+05\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.17993e-06\tAbsError: 1.94300e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.62794e-09\tAbsError: 8.20285e+04\n", + " Equation: \"PotentialEquation\"\tRelError: 8.91197e-13\tAbsError: 4.12009e-13\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.68467e+00\tAbsError: 3.35446e+14\n", + " Region: \"zone_1\"\tRelError: 1.36557e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.36557e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.54812e+00\tAbsError: 3.35446e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90679e-01\tAbsError: 1.72457e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.87899e-01\tAbsError: 1.62989e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.95382e-02\tAbsError: 3.07632e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:29\u001b[0m.\u001b[1;36m571\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:29\u001b[0m.\u001b[1;36m571\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.41666666666666674\u001b[0m \n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 2.12568e+01\tAbsError: 3.59469e+14\n", + " Region: \"zone_1\"\tRelError: 3.95899e-02\tAbsError: 3.27971e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.95899e-02\tAbsError: 3.27971e-02\n", + " Region: \"zone_3\"\tRelError: 2.12172e+01\tAbsError: 3.59469e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.09538e+01\tAbsError: 1.57655e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.23758e-01\tAbsError: 3.43704e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.96086e-02\tAbsError: 3.27973e-02\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 2.07093e+03\tAbsError: 1.48037e+14\n", + " Region: \"zone_1\"\tRelError: 2.37100e-02\tAbsError: 2.00969e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.37100e-02\tAbsError: 2.00969e-02\n", + " Region: \"zone_3\"\tRelError: 2.07090e+03\tAbsError: 1.48037e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07086e+03\tAbsError: 6.00698e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.31635e-02\tAbsError: 1.42030e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.38215e-02\tAbsError: 2.01053e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.87556e+01\tAbsError: 8.34767e+15\n", + " Region: \"zone_1\"\tRelError: 6.70313e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.70313e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.72426e+00\tAbsError: 8.34767e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94570e-01\tAbsError: 4.96926e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94551e-01\tAbsError: 3.37841e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35138e-01\tAbsError: 4.09542e-02\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.79606e+02\tAbsError: 3.17335e+14\n", + " Region: \"zone_1\"\tRelError: 3.16890e-02\tAbsError: 2.57088e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.16890e-02\tAbsError: 2.57088e-02\n", + " Region: \"zone_3\"\tRelError: 1.79574e+02\tAbsError: 3.17335e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.79511e+02\tAbsError: 1.15814e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.15584e-02\tAbsError: 3.05753e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.16890e-02\tAbsError: 2.54280e-02\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 1.01490e+00\tAbsError: 9.76040e+13\n", + " Region: \"zone_1\"\tRelError: 1.13824e-02\tAbsError: 1.29477e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13824e-02\tAbsError: 1.29477e-04\n", + " Region: \"zone_3\"\tRelError: 1.00352e+00\tAbsError: 9.76040e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.95736e-01\tAbsError: 4.79799e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.59601e-03\tAbsError: 9.28060e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.89534e-04\tAbsError: 1.32435e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.10405e+00\tAbsError: 2.84626e+13\n", + " Region: \"zone_1\"\tRelError: 5.09442e-02\tAbsError: 2.58970e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.09442e-02\tAbsError: 2.58970e-02\n", + " Region: \"zone_3\"\tRelError: 1.05311e+00\tAbsError: 2.84626e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14915e-01\tAbsError: 1.81960e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.86897e-01\tAbsError: 1.02666e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.12979e-02\tAbsError: 2.58565e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.18244e+00\tAbsError: 3.45808e+14\n", + " Region: \"zone_1\"\tRelError: 5.95786e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95786e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.58666e+00\tAbsError: 3.45808e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91491e-01\tAbsError: 2.56450e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.87672e-01\tAbsError: 8.93573e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07491e-01\tAbsError: 3.07632e-02\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 3.61611e+00\tAbsError: 7.63894e+14\n", + " Region: \"zone_1\"\tRelError: 2.06202e-02\tAbsError: 1.18262e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06202e-02\tAbsError: 1.18262e-02\n", + " Region: \"zone_3\"\tRelError: 3.59549e+00\tAbsError: 7.63894e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.56908e+00\tAbsError: 8.10617e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.26902e-02\tAbsError: 7.55788e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37185e-02\tAbsError: 1.18264e-02\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 2.81250e-03\tAbsError: 3.78042e+10\n", + " Region: \"zone_1\"\tRelError: 1.35215e-06\tAbsError: 3.48965e-08\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35215e-06\tAbsError: 3.48965e-08\n", + " Region: \"zone_3\"\tRelError: 2.81115e-03\tAbsError: 3.78042e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.78840e-03\tAbsError: 4.25724e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.26984e-05\tAbsError: 3.73784e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.25178e-08\tAbsError: 3.71778e-08\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 4.17123e+00\tAbsError: 8.90820e+15\n", + " Region: \"zone_1\"\tRelError: 2.44528e+00\tAbsError: 4.20726e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.44528e+00\tAbsError: 4.20726e-02\n", + " Region: \"zone_3\"\tRelError: 1.72594e+00\tAbsError: 8.90820e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.03256e-01\tAbsError: 5.20606e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.03242e-01\tAbsError: 3.70214e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19444e-01\tAbsError: 4.20726e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.87738e-01\tAbsError: 1.50257e+12\n", + " Region: \"zone_1\"\tRelError: 1.63299e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.63299e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.71408e-01\tAbsError: 1.50257e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88723e-01\tAbsError: 2.92089e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.61472e-02\tAbsError: 1.21048e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65380e-02\tAbsError: 9.16534e-03\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 1.80607e-01\tAbsError: 9.20974e+14\n", + " Region: \"zone_1\"\tRelError: 4.39208e-02\tAbsError: 5.29899e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.39208e-02\tAbsError: 5.29899e-04\n", + " Region: \"zone_3\"\tRelError: 1.36686e-01\tAbsError: 9.20974e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10840e-01\tAbsError: 1.78896e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.50927e-02\tAbsError: 9.03084e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.53382e-04\tAbsError: 5.45403e-04\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 9.46472e-10\tAbsError: 3.21542e+04\n", + " Region: \"zone_1\"\tRelError: 3.69710e-13\tAbsError: 4.70633e-15\n", + " Equation: \"PotentialEquation\"\tRelError: 3.69710e-13\tAbsError: 4.70633e-15\n", + " Region: \"zone_3\"\tRelError: 9.46103e-10\tAbsError: 3.21542e+04\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.44098e-10\tAbsError: 1.58432e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.90513e-12\tAbsError: 1.63110e+04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.95121e-14\tAbsError: 5.04159e-15\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.19247e+00\tAbsError: 8.54805e+13\n", + " Region: \"zone_1\"\tRelError: 9.12229e-02\tAbsError: 2.58978e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.12229e-02\tAbsError: 2.58978e-02\n", + " Region: \"zone_3\"\tRelError: 1.10125e+00\tAbsError: 8.54805e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14822e-01\tAbsError: 5.48784e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.98551e-01\tAbsError: 3.06021e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.78742e-02\tAbsError: 2.58989e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:30\u001b[0m.\u001b[1;36m583\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: 0.205\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.69773e+00\tAbsError: 3.65074e+14\n", + " Region: \"zone_1\"\tRelError: 9.74499e-02\tAbsError: 3.20820e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.74499e-02\tAbsError: 3.20820e-02\n", + " Region: \"zone_3\"\tRelError: 1.60028e+00\tAbsError: 3.65074e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.06609e-01\tAbsError: 2.28256e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.03263e-01\tAbsError: 1.36818e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.04094e-02\tAbsError: 3.20820e-02\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "Iteration: 15\n", + "number of equations 22602\n", + " Device: \"device\"\tRelError: 1.00868e-03\tAbsError: 6.59671e+11\n", + " Region: \"zone_1\"\tRelError: 1.82829e-06\tAbsError: 3.39387e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82829e-06\tAbsError: 3.39387e-07\n", + " Region: \"zone_3\"\tRelError: 1.00685e-03\tAbsError: 6.59671e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.19086e-04\tAbsError: 4.09834e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.87254e-04\tAbsError: 6.55573e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.11603e-07\tAbsError: 3.69091e-07\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.96849e-02\tAbsError: 2.07362e+12\n", + " Region: \"zone_1\"\tRelError: 7.02885e-04\tAbsError: 1.90198e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.02885e-04\tAbsError: 1.90198e-05\n", + " Region: \"zone_3\"\tRelError: 8.89820e-02\tAbsError: 2.07362e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.78375e-02\tAbsError: 8.90891e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10276e-03\tAbsError: 1.18273e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.17313e-05\tAbsError: 1.96984e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.52183e-01\tAbsError: 2.83225e+13\n", + " Region: \"zone_1\"\tRelError: 5.95279e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95279e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.92655e-01\tAbsError: 2.83225e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.85164e-01\tAbsError: 1.34603e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.99920e-02\tAbsError: 1.48622e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.74993e-02\tAbsError: 9.16534e-03\n", + "Iteration: 16\n", + " Device: \"device\"\tRelError: 3.24333e-09\tAbsError: 5.47448e+05\n", + " Region: \"zone_1\"\tRelError: 4.98786e-11\tAbsError: 5.80319e-13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.98786e-11\tAbsError: 5.80319e-13\n", + " Region: \"zone_3\"\tRelError: 3.19345e-09\tAbsError: 5.47448e+05\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.68401e-09\tAbsError: 2.45391e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.08574e-10\tAbsError: 5.22909e+05\n", + " Equation: \"PotentialEquation\"\tRelError: 8.69485e-13\tAbsError: 6.27282e-13\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.20926e+00\tAbsError: 4.96551e+13\n", + " Region: \"zone_1\"\tRelError: 7.04411e-02\tAbsError: 2.58711e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.04411e-02\tAbsError: 2.58711e-02\n", + " Region: \"zone_3\"\tRelError: 1.13882e+00\tAbsError: 4.96551e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.41311e-01\tAbsError: 3.63622e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.26374e-01\tAbsError: 1.32929e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.11331e-02\tAbsError: 2.59000e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:31\u001b[0m.\u001b[1;36m083\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.21\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.40982e-05\tAbsError: 1.92019e+08\n", + " Region: \"zone_1\"\tRelError: 4.03284e-08\tAbsError: 1.17477e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 4.03284e-08\tAbsError: 1.17477e-09\n", + " Region: \"zone_3\"\tRelError: 3.40579e-05\tAbsError: 1.92019e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.36060e-05\tAbsError: 5.55442e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.49187e-07\tAbsError: 1.36475e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 2.67835e-09\tAbsError: 1.26430e-09\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.43736e+01\tAbsError: 9.04938e+15\n", + " Region: \"zone_1\"\tRelError: 1.26785e+01\tAbsError: 4.19629e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.26785e+01\tAbsError: 4.19629e-02\n", + " Region: \"zone_3\"\tRelError: 1.69508e+00\tAbsError: 9.04938e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.02367e-01\tAbsError: 4.89560e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.02336e-01\tAbsError: 4.15378e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.03781e-02\tAbsError: 4.19629e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:31\u001b[0m.\u001b[1;36m325\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.4\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Iteration: 4\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 9.52644e-02\tAbsError: 2.55837e+12\n", + " Region: \"zone_1\"\tRelError: 7.16041e-03\tAbsError: 2.30338e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.16041e-03\tAbsError: 2.30338e-05\n", + " Region: \"zone_3\"\tRelError: 8.81040e-02\tAbsError: 2.55837e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.71797e-02\tAbsError: 1.35830e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.38768e-04\tAbsError: 1.20006e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.54583e-05\tAbsError: 2.40500e-05\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.31682e-01\tAbsError: 5.72438e+12\n", + " Region: \"zone_1\"\tRelError: 2.54263e-02\tAbsError: 1.08344e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.54263e-02\tAbsError: 1.08344e-02\n", + " Region: \"zone_3\"\tRelError: 4.06256e-01\tAbsError: 5.72438e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.89676e-01\tAbsError: 1.95965e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.09313e-02\tAbsError: 3.76473e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.56484e-02\tAbsError: 1.08344e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.90572e+00\tAbsError: 3.79278e+14\n", + " Region: \"zone_1\"\tRelError: 3.41688e-01\tAbsError: 3.19525e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.41688e-01\tAbsError: 3.19525e-02\n", + " Region: \"zone_3\"\tRelError: 1.56404e+00\tAbsError: 3.79278e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.04753e-01\tAbsError: 1.71966e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.01366e-01\tAbsError: 2.07313e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.79172e-02\tAbsError: 3.19525e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 9.99488e+00\tAbsError: 9.48030e+15\n", + " Region: \"zone_1\"\tRelError: 8.28205e+00\tAbsError: 4.29338e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.28205e+00\tAbsError: 4.29338e-02\n", + " Region: \"zone_3\"\tRelError: 1.71283e+00\tAbsError: 9.48030e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09640e-01\tAbsError: 5.12873e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.09610e-01\tAbsError: 4.35158e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.35761e-02\tAbsError: 4.29338e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.58292e-05\tAbsError: 4.59514e+08\n", + " Region: \"zone_1\"\tRelError: 9.81723e-07\tAbsError: 3.18909e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 9.81723e-07\tAbsError: 3.18909e-09\n", + " Region: \"zone_3\"\tRelError: 3.48474e-05\tAbsError: 4.59514e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.45053e-05\tAbsError: 3.33895e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.30263e-07\tAbsError: 1.25619e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18628e-08\tAbsError: 3.31754e-09\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:31\u001b[0m.\u001b[1;36m829\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.6\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.04268e-01\tAbsError: 7.37500e+11\n", + " Region: \"zone_1\"\tRelError: 1.67452e-04\tAbsError: 7.57989e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.67452e-04\tAbsError: 7.57989e-06\n", + " Region: \"zone_3\"\tRelError: 1.04100e-01\tAbsError: 7.37500e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03480e-01\tAbsError: 3.96342e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.96689e-04\tAbsError: 3.41157e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.35958e-05\tAbsError: 8.18114e-06\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.56244e+00\tAbsError: 8.45570e+15\n", + " Region: \"zone_1\"\tRelError: 3.85573e+00\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.85573e+00\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.70670e+00\tAbsError: 8.45570e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94571e-01\tAbsError: 4.92914e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94557e-01\tAbsError: 3.52655e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17574e-01\tAbsError: 4.09542e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.14844e+00\tAbsError: 4.93491e+13\n", + " Region: \"zone_1\"\tRelError: 4.80488e-02\tAbsError: 2.58683e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.80488e-02\tAbsError: 2.58683e-02\n", + " Region: \"zone_3\"\tRelError: 1.10039e+00\tAbsError: 4.93491e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38510e-01\tAbsError: 2.75600e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.17843e-01\tAbsError: 2.17891e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.40365e-02\tAbsError: 2.58683e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.85366e+00\tAbsError: 4.14640e+14\n", + " Region: \"zone_1\"\tRelError: 2.61180e-01\tAbsError: 3.31000e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.61180e-01\tAbsError: 3.31000e-02\n", + " Region: \"zone_3\"\tRelError: 1.59248e+00\tAbsError: 4.14640e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.17871e-01\tAbsError: 1.88389e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.13734e-01\tAbsError: 2.26251e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.08768e-02\tAbsError: 3.31000e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.71575e-05\tAbsError: 1.92506e+07\n", + " Region: \"zone_1\"\tRelError: 1.81976e-09\tAbsError: 1.03649e-10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.81976e-09\tAbsError: 1.03649e-10\n", + " Region: \"zone_3\"\tRelError: 1.71557e-05\tAbsError: 1.92506e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.70431e-05\tAbsError: 8.02160e+06\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.12167e-07\tAbsError: 1.12290e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 3.66593e-10\tAbsError: 1.24918e-10\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:32\u001b[0m.\u001b[1;36m376\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:32\u001b[0m.\u001b[1;36m376\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5222222222222223\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.67739e+00\tAbsError: 3.26551e+14\n", + " Region: \"zone_1\"\tRelError: 1.13651e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13651e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.56374e+00\tAbsError: 3.26551e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91179e-01\tAbsError: 1.98410e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.87607e-01\tAbsError: 1.28141e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.49517e-02\tAbsError: 3.07632e-02\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.45236e+01\tAbsError: 8.31884e+15\n", + " Region: \"zone_1\"\tRelError: 1.27753e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.27753e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.74827e+00\tAbsError: 8.31884e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94561e-01\tAbsError: 4.96691e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94525e-01\tAbsError: 3.35193e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.59186e-01\tAbsError: 4.09542e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.20078e+00\tAbsError: 5.64838e+13\n", + " Region: \"zone_1\"\tRelError: 4.55160e-02\tAbsError: 2.58865e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.55160e-02\tAbsError: 2.58865e-02\n", + " Region: \"zone_3\"\tRelError: 1.15526e+00\tAbsError: 5.64838e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.61025e-01\tAbsError: 3.15083e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.48693e-01\tAbsError: 2.49756e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.55410e-02\tAbsError: 2.58905e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.10615e-01\tAbsError: 2.38900e+12\n", + " Region: \"zone_1\"\tRelError: 1.58823e-02\tAbsError: 1.06614e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.58823e-02\tAbsError: 1.06614e-02\n", + " Region: \"zone_3\"\tRelError: 3.94733e-01\tAbsError: 2.38900e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.89596e-01\tAbsError: 9.05884e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.89979e-02\tAbsError: 1.48312e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.61387e-02\tAbsError: 1.06615e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.13583e+00\tAbsError: 3.35166e+13\n", + " Region: \"zone_1\"\tRelError: 6.49986e-02\tAbsError: 2.58787e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.49986e-02\tAbsError: 2.58787e-02\n", + " Region: \"zone_3\"\tRelError: 1.07083e+00\tAbsError: 3.35166e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14794e-01\tAbsError: 2.31889e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.90894e-01\tAbsError: 1.03277e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.51440e-02\tAbsError: 2.58923e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.91465e+00\tAbsError: 8.82588e+14\n", + " Region: \"zone_1\"\tRelError: 3.03324e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.03324e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.61133e+00\tAbsError: 8.82588e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91758e-01\tAbsError: 5.05615e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.83634e-01\tAbsError: 3.76973e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35939e-01\tAbsError: 3.07632e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.67195e-01\tAbsError: 2.99700e+12\n", + " Region: \"zone_1\"\tRelError: 1.84458e-02\tAbsError: 1.22654e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.84458e-02\tAbsError: 1.22654e-02\n", + " Region: \"zone_3\"\tRelError: 4.48750e-01\tAbsError: 2.99700e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.16869e-01\tAbsError: 1.89558e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.13140e-01\tAbsError: 1.10142e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87406e-02\tAbsError: 1.22654e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.67018e+01\tAbsError: 8.80781e+15\n", + " Region: \"zone_1\"\tRelError: 1.49620e+01\tAbsError: 4.20726e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49620e+01\tAbsError: 4.20726e-02\n", + " Region: \"zone_3\"\tRelError: 1.73978e+00\tAbsError: 8.80781e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.03254e-01\tAbsError: 5.26028e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.03235e-01\tAbsError: 3.54753e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33293e-01\tAbsError: 4.20726e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.05086e-01\tAbsError: 1.56249e+12\n", + " Region: \"zone_1\"\tRelError: 1.17716e-03\tAbsError: 1.41851e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17716e-03\tAbsError: 1.41851e-05\n", + " Region: \"zone_3\"\tRelError: 1.03909e-01\tAbsError: 1.56249e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.02758e-01\tAbsError: 6.64521e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.12394e-03\tAbsError: 8.97971e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.64584e-05\tAbsError: 1.46898e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.97006e-01\tAbsError: 3.97798e+12\n", + " Region: \"zone_1\"\tRelError: 2.05644e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.05644e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.76441e-01\tAbsError: 3.97798e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88505e-01\tAbsError: 1.01871e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.71832e-02\tAbsError: 2.95927e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.07533e-02\tAbsError: 9.16534e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.34467e+00\tAbsError: 5.44154e+14\n", + " Region: \"zone_1\"\tRelError: 2.20632e-01\tAbsError: 2.58931e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20632e-01\tAbsError: 2.58931e-02\n", + " Region: \"zone_3\"\tRelError: 1.12404e+00\tAbsError: 5.44154e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.17234e-01\tAbsError: 2.66383e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.89208e-01\tAbsError: 2.77771e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17596e-01\tAbsError: 2.58999e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.14814e-05\tAbsError: 9.59770e+07\n", + " Region: \"zone_1\"\tRelError: 4.93269e-08\tAbsError: 6.44093e-10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.93269e-08\tAbsError: 6.44093e-10\n", + " Region: \"zone_3\"\tRelError: 3.14321e-05\tAbsError: 9.59770e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.10500e-05\tAbsError: 2.98685e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.80832e-07\tAbsError: 6.61085e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.24009e-09\tAbsError: 6.87068e-10\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.18420e-01\tAbsError: 2.77452e+11\n", + " Region: \"zone_1\"\tRelError: 1.60281e-04\tAbsError: 2.62019e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.60281e-04\tAbsError: 2.62019e-06\n", + " Region: \"zone_3\"\tRelError: 1.18259e-01\tAbsError: 2.77452e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.18060e-01\tAbsError: 1.27601e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.94154e-04\tAbsError: 1.49851e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.08922e-06\tAbsError: 2.78229e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.85210e+00\tAbsError: 4.24275e+14\n", + " Region: \"zone_1\"\tRelError: 2.27335e-01\tAbsError: 3.20820e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.27335e-01\tAbsError: 3.20820e-02\n", + " Region: \"zone_3\"\tRelError: 1.62476e+00\tAbsError: 4.24275e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.07224e-01\tAbsError: 3.07050e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.02862e-01\tAbsError: 1.17225e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14677e-01\tAbsError: 3.20820e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:33\u001b[0m.\u001b[1;36m594\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:33\u001b[0m.\u001b[1;36m594\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30999999999999994\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.75905e-02\tAbsError: 6.14178e+11\n", + " Region: \"zone_1\"\tRelError: 1.87871e-04\tAbsError: 5.35919e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87871e-04\tAbsError: 5.35919e-06\n", + " Region: \"zone_3\"\tRelError: 8.74026e-02\tAbsError: 6.14178e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.70791e-02\tAbsError: 2.57149e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.08574e-04\tAbsError: 3.57029e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49985e-05\tAbsError: 5.65537e-06\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.58303e-01\tAbsError: 2.58889e+14\n", + " Region: \"zone_1\"\tRelError: 3.50075e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.50075e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 4.23296e-01\tAbsError: 2.58889e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.70968e-01\tAbsError: 1.16796e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.16540e-01\tAbsError: 1.42093e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.57873e-02\tAbsError: 9.16534e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.49173e-06\tAbsError: 2.80629e+06\n", + " Region: \"zone_1\"\tRelError: 5.46297e-10\tAbsError: 1.14586e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.46297e-10\tAbsError: 1.14586e-11\n", + " Region: \"zone_3\"\tRelError: 6.49119e-06\tAbsError: 2.80629e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.47826e-06\tAbsError: 4.87641e+05\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.29012e-08\tAbsError: 2.31865e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.30092e-11\tAbsError: 1.26062e-11\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.27177e+00\tAbsError: 1.21181e+14\n", + " Region: \"zone_1\"\tRelError: 9.69734e-02\tAbsError: 2.58832e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.69734e-02\tAbsError: 2.58832e-02\n", + " Region: \"zone_3\"\tRelError: 1.17480e+00\tAbsError: 1.21181e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.41539e-01\tAbsError: 7.18420e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.35304e-01\tAbsError: 4.93394e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.79587e-02\tAbsError: 2.58545e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:34\u001b[0m.\u001b[1;36m004\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:34\u001b[0m.\u001b[1;36m004\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.31999999999999995\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 9.95471e-06\tAbsError: 1.37437e+07\n", + " Region: \"zone_1\"\tRelError: 1.96051e-09\tAbsError: 6.30624e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.96051e-09\tAbsError: 6.30624e-11\n", + " Region: \"zone_3\"\tRelError: 9.95275e-06\tAbsError: 1.37437e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.91827e-06\tAbsError: 3.21250e+06\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.43047e-08\tAbsError: 1.05312e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.78389e-10\tAbsError: 6.72816e-11\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:34\u001b[0m.\u001b[1;36m170\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.5\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.06225e-01\tAbsError: 3.99157e+13\n", + " Region: \"zone_1\"\tRelError: 1.41229e-02\tAbsError: 1.62376e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.41229e-02\tAbsError: 1.62376e-04\n", + " Region: \"zone_3\"\tRelError: 9.21025e-02\tAbsError: 3.99157e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.51238e-02\tAbsError: 2.25076e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.14819e-03\tAbsError: 1.74081e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.30563e-04\tAbsError: 1.67642e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.40990e+00\tAbsError: 8.98276e+15\n", + " Region: \"zone_1\"\tRelError: 4.69964e+00\tAbsError: 4.19629e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.69964e+00\tAbsError: 4.19629e-02\n", + " Region: \"zone_3\"\tRelError: 1.71025e+00\tAbsError: 8.98276e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.02419e-01\tAbsError: 5.08161e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.02408e-01\tAbsError: 3.90114e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.05428e-01\tAbsError: 4.19629e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.72632e-01\tAbsError: 5.23306e+13\n", + " Region: \"zone_1\"\tRelError: 3.75087e-02\tAbsError: 1.08344e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.75087e-02\tAbsError: 1.08344e-02\n", + " Region: \"zone_3\"\tRelError: 4.35123e-01\tAbsError: 5.23306e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88539e-01\tAbsError: 2.52519e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.11733e-01\tAbsError: 2.70786e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.48516e-02\tAbsError: 1.08344e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.10506e+01\tAbsError: 9.40634e+15\n", + " Region: \"zone_1\"\tRelError: 9.32438e+00\tAbsError: 4.29338e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.32438e+00\tAbsError: 4.29338e-02\n", + " Region: \"zone_3\"\tRelError: 1.72626e+00\tAbsError: 9.40634e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09691e-01\tAbsError: 5.33144e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.09680e-01\tAbsError: 4.07489e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06894e-01\tAbsError: 4.29338e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.81693e+00\tAbsError: 3.69427e+14\n", + " Region: \"zone_1\"\tRelError: 2.39020e-01\tAbsError: 3.19525e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.39020e-01\tAbsError: 3.19525e-02\n", + " Region: \"zone_3\"\tRelError: 1.57791e+00\tAbsError: 3.69427e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.05098e-01\tAbsError: 1.92366e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.01312e-01\tAbsError: 1.77061e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.14993e-02\tAbsError: 3.19525e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.77778e-04\tAbsError: 4.11734e+10\n", + " Region: \"zone_1\"\tRelError: 2.64497e-05\tAbsError: 2.72288e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.64497e-05\tAbsError: 2.72288e-07\n", + " Region: \"zone_3\"\tRelError: 1.51329e-04\tAbsError: 4.11734e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.47345e-04\tAbsError: 2.82922e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.54557e-06\tAbsError: 1.28813e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43781e-06\tAbsError: 2.89039e-07\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.11582e-01\tAbsError: 8.77074e+12\n", + " Region: \"zone_1\"\tRelError: 5.05586e-03\tAbsError: 5.73412e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.05586e-03\tAbsError: 5.73412e-05\n", + " Region: \"zone_3\"\tRelError: 1.06526e-01\tAbsError: 8.77074e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.02463e-01\tAbsError: 4.39984e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.81050e-03\tAbsError: 4.37090e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.53363e-04\tAbsError: 6.35227e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.87556e+01\tAbsError: 8.34767e+15\n", + " Region: \"zone_1\"\tRelError: 6.70313e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.70313e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.72426e+00\tAbsError: 8.34767e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94570e-01\tAbsError: 4.96926e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94551e-01\tAbsError: 3.37841e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35138e-01\tAbsError: 4.09542e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.26294e+00\tAbsError: 4.04710e+14\n", + " Region: \"zone_1\"\tRelError: 6.55990e-01\tAbsError: 3.31000e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.55990e-01\tAbsError: 3.31000e-02\n", + " Region: \"zone_3\"\tRelError: 1.60695e+00\tAbsError: 4.04710e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.17961e-01\tAbsError: 2.13363e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.14153e-01\tAbsError: 1.91347e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.48377e-02\tAbsError: 3.31000e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.16790e+00\tAbsError: 3.16667e+13\n", + " Region: \"zone_1\"\tRelError: 5.44268e-02\tAbsError: 2.58977e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.44268e-02\tAbsError: 2.58977e-02\n", + " Region: \"zone_3\"\tRelError: 1.11347e+00\tAbsError: 3.16667e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38800e-01\tAbsError: 2.02461e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.20184e-01\tAbsError: 1.14205e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.44904e-02\tAbsError: 2.58987e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.06505e-10\tAbsError: 5.44918e+04\n", + " Region: \"zone_1\"\tRelError: 2.76262e-11\tAbsError: 2.68307e-13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.76262e-11\tAbsError: 2.68307e-13\n", + " Region: \"zone_3\"\tRelError: 1.78879e-10\tAbsError: 5.44918e+04\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.71769e-10\tAbsError: 3.00849e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.70882e-12\tAbsError: 2.44069e+04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40078e-12\tAbsError: 2.79942e-13\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:35\u001b[0m.\u001b[1;36m212\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.7000000000000001\u001b[0m\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.29405e-04\tAbsError: 7.84013e+09\n", + " Region: \"zone_1\"\tRelError: 6.03171e-06\tAbsError: 7.09418e-08\n", + " Equation: \"PotentialEquation\"\tRelError: 6.03171e-06\tAbsError: 7.09418e-08\n", + " Region: \"zone_3\"\tRelError: 1.23373e-04\tAbsError: 7.84013e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.19968e-04\tAbsError: 5.39909e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.09006e-06\tAbsError: 2.44103e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.14964e-07\tAbsError: 7.84794e-08\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.18244e+00\tAbsError: 3.45808e+14\n", + " Region: \"zone_1\"\tRelError: 5.95786e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95786e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.58666e+00\tAbsError: 3.45808e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91491e-01\tAbsError: 2.56450e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.87672e-01\tAbsError: 8.93573e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07491e-01\tAbsError: 3.07632e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.24212e+00\tAbsError: 3.49826e+13\n", + " Region: \"zone_1\"\tRelError: 7.44892e-02\tAbsError: 2.58685e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.44892e-02\tAbsError: 2.58685e-02\n", + " Region: \"zone_3\"\tRelError: 1.16763e+00\tAbsError: 3.49826e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.61171e-01\tAbsError: 2.23843e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.49557e-01\tAbsError: 1.25983e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.68989e-02\tAbsError: 2.58685e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.16139e-01\tAbsError: 2.41248e+12\n", + " Region: \"zone_1\"\tRelError: 1.94138e-02\tAbsError: 1.06615e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.94138e-02\tAbsError: 1.06615e-02\n", + " Region: \"zone_3\"\tRelError: 3.96725e-01\tAbsError: 2.41248e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.89038e-01\tAbsError: 1.30547e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.80237e-02\tAbsError: 1.10701e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.96629e-02\tAbsError: 1.06615e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.44758e-10\tAbsError: 3.08183e+04\n", + " Region: \"zone_1\"\tRelError: 5.02762e-12\tAbsError: 6.09584e-14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.02762e-12\tAbsError: 6.09584e-14\n", + " Region: \"zone_3\"\tRelError: 1.39731e-10\tAbsError: 3.08183e+04\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.36093e-10\tAbsError: 1.55261e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.36741e-12\tAbsError: 1.52922e+04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.69928e-13\tAbsError: 6.69430e-14\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.19247e+00\tAbsError: 8.54805e+13\n", + " Region: \"zone_1\"\tRelError: 9.12229e-02\tAbsError: 2.58978e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.12229e-02\tAbsError: 2.58978e-02\n", + " Region: \"zone_3\"\tRelError: 1.10125e+00\tAbsError: 8.54805e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14822e-01\tAbsError: 5.48784e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.98551e-01\tAbsError: 3.06021e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.78742e-02\tAbsError: 2.58989e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:35\u001b[0m.\u001b[1;36m811\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:35\u001b[0m.\u001b[1;36m811\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6277777777777779\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.22389e+00\tAbsError: 8.51989e+15\n", + " Region: \"zone_1\"\tRelError: 5.41698e+00\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.41698e+00\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.80691e+00\tAbsError: 8.51989e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94484e-01\tAbsError: 4.63675e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94370e-01\tAbsError: 3.88315e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.18056e-01\tAbsError: 4.09542e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.74278e-01\tAbsError: 2.59384e+12\n", + " Region: \"zone_1\"\tRelError: 2.28487e-02\tAbsError: 1.22654e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.28487e-02\tAbsError: 1.22654e-02\n", + " Region: \"zone_3\"\tRelError: 4.51429e-01\tAbsError: 2.59384e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.16516e-01\tAbsError: 1.52691e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.11789e-01\tAbsError: 1.06693e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.31245e-02\tAbsError: 1.22654e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.01451e-01\tAbsError: 1.52289e+11\n", + " Region: \"zone_1\"\tRelError: 8.04598e-05\tAbsError: 1.28794e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.04598e-05\tAbsError: 1.28794e-06\n", + " Region: \"zone_3\"\tRelError: 1.01371e-01\tAbsError: 1.52289e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01221e-01\tAbsError: 6.25880e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.46825e-04\tAbsError: 8.97009e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.96577e-06\tAbsError: 1.36312e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.52183e-01\tAbsError: 2.83225e+13\n", + " Region: \"zone_1\"\tRelError: 5.95279e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95279e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 3.92655e-01\tAbsError: 2.83225e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.85164e-01\tAbsError: 1.34603e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.99920e-02\tAbsError: 1.48622e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.74993e-02\tAbsError: 9.16534e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.89109e+00\tAbsError: 5.48219e+15\n", + " Region: \"zone_1\"\tRelError: 2.49390e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49390e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.64170e+00\tAbsError: 5.48219e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90716e-01\tAbsError: 2.59543e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.66285e-01\tAbsError: 2.88675e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.84697e-01\tAbsError: 3.07632e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.19005e-01\tAbsError: 5.46470e+11\n", + " Region: \"zone_1\"\tRelError: 5.19598e-04\tAbsError: 3.00981e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.19598e-04\tAbsError: 3.00981e-06\n", + " Region: \"zone_3\"\tRelError: 1.18486e-01\tAbsError: 5.46470e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.18069e-01\tAbsError: 1.59389e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.09405e-04\tAbsError: 3.87081e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 7.48302e-06\tAbsError: 3.25953e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.30106e-06\tAbsError: 3.61693e+05\n", + " Region: \"zone_1\"\tRelError: 1.77604e-11\tAbsError: 1.24341e-12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77604e-11\tAbsError: 1.24341e-12\n", + " Region: \"zone_3\"\tRelError: 3.30104e-06\tAbsError: 3.61693e+05\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.29735e-06\tAbsError: 3.78118e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.68160e-09\tAbsError: 3.23881e+05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.70978e-12\tAbsError: 1.30380e-12\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 4.24195e+02\tAbsError: 8.77870e+15\n", + " Region: \"zone_1\"\tRelError: 4.22411e+02\tAbsError: 4.20726e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.22411e+02\tAbsError: 4.20726e-02\n", + " Region: \"zone_3\"\tRelError: 1.78400e+00\tAbsError: 8.77870e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.03241e-01\tAbsError: 5.19271e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.03196e-01\tAbsError: 3.58599e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77564e-01\tAbsError: 4.20726e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:36\u001b[0m.\u001b[1;36m577\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:36\u001b[0m.\u001b[1;36m577\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.4149999999999999\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Iteration: 4\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 9.52644e-02\tAbsError: 2.55837e+12\n", + " Region: \"zone_1\"\tRelError: 7.16041e-03\tAbsError: 2.30338e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.16041e-03\tAbsError: 2.30338e-05\n", + " Region: \"zone_3\"\tRelError: 8.81040e-02\tAbsError: 2.55837e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.71797e-02\tAbsError: 1.35830e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.38768e-04\tAbsError: 1.20006e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.54583e-05\tAbsError: 2.40500e-05\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.28809e+00\tAbsError: 4.35524e+15\n", + " Region: \"zone_1\"\tRelError: 1.47109e-01\tAbsError: 2.58916e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.47109e-01\tAbsError: 2.58916e-02\n", + " Region: \"zone_3\"\tRelError: 1.14098e+00\tAbsError: 4.35524e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.22693e-01\tAbsError: 2.04103e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.66769e-01\tAbsError: 2.31421e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51518e-01\tAbsError: 2.53379e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 8.63620e-06\tAbsError: 2.24160e+06\n", + " Region: \"zone_1\"\tRelError: 2.53878e-09\tAbsError: 2.37681e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.53878e-09\tAbsError: 2.37681e-11\n", + " Region: \"zone_3\"\tRelError: 8.63366e-06\tAbsError: 2.24160e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.60416e-06\tAbsError: 5.89307e+05\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.94484e-08\tAbsError: 1.65229e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.35025e-11\tAbsError: 2.45711e-11\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:36\u001b[0m.\u001b[1;36m928\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:36\u001b[0m.\u001b[1;36m928\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.42999999999999994\u001b[0m \n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.61293e+00\tAbsError: 1.51368e+15\n", + " Region: \"zone_1\"\tRelError: 9.64682e-01\tAbsError: 3.20820e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.64682e-01\tAbsError: 3.20820e-02\n", + " Region: \"zone_3\"\tRelError: 1.64825e+00\tAbsError: 1.51368e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.07584e-01\tAbsError: 8.60067e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.95031e-01\tAbsError: 6.53616e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.45637e-01\tAbsError: 3.20820e-02\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.58292e-05\tAbsError: 4.59514e+08\n", + " Region: \"zone_1\"\tRelError: 9.81723e-07\tAbsError: 3.18909e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 9.81723e-07\tAbsError: 3.18909e-09\n", + " Region: \"zone_3\"\tRelError: 3.48474e-05\tAbsError: 4.59514e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.45053e-05\tAbsError: 3.33895e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.30263e-07\tAbsError: 1.25619e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18628e-08\tAbsError: 3.31754e-09\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:37\u001b[0m.\u001b[1;36m097\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.6\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 4.25664e+00\tAbsError: 8.86308e+15\n", + " Region: \"zone_1\"\tRelError: 2.53325e+00\tAbsError: 4.19629e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.53325e+00\tAbsError: 4.19629e-02\n", + " Region: \"zone_3\"\tRelError: 1.72338e+00\tAbsError: 8.86308e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.02421e-01\tAbsError: 5.17844e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.02407e-01\tAbsError: 3.68465e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18556e-01\tAbsError: 4.19629e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.61364e-01\tAbsError: 1.56107e+15\n", + " Region: \"zone_1\"\tRelError: 1.02187e-01\tAbsError: 9.16531e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02187e-01\tAbsError: 9.16531e-03\n", + " Region: \"zone_3\"\tRelError: 4.59177e-01\tAbsError: 1.56107e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52513e-01\tAbsError: 8.30423e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.62306e-01\tAbsError: 7.30643e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.43577e-02\tAbsError: 9.16534e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.63185e+00\tAbsError: 1.07904e+15\n", + " Region: \"zone_1\"\tRelError: 4.48144e-01\tAbsError: 2.58591e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.48144e-01\tAbsError: 2.58591e-02\n", + " Region: \"zone_3\"\tRelError: 1.18371e+00\tAbsError: 1.07904e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.44602e-01\tAbsError: 4.79426e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.04977e-01\tAbsError: 5.99614e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.34128e-01\tAbsError: 2.56444e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 4.57466e+00\tAbsError: 9.26788e+15\n", + " Region: \"zone_1\"\tRelError: 2.82864e+00\tAbsError: 4.29338e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.82864e+00\tAbsError: 4.29338e-02\n", + " Region: \"zone_3\"\tRelError: 1.74602e+00\tAbsError: 9.26788e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09693e-01\tAbsError: 5.42632e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.09679e-01\tAbsError: 3.84156e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.26649e-01\tAbsError: 4.29338e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.69296e+00\tAbsError: 3.61186e+14\n", + " Region: \"zone_1\"\tRelError: 9.62143e-02\tAbsError: 3.19525e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.62143e-02\tAbsError: 3.19525e-02\n", + " Region: \"zone_3\"\tRelError: 1.59674e+00\tAbsError: 3.61186e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.05187e-01\tAbsError: 2.25213e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.01705e-01\tAbsError: 1.35974e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.98519e-02\tAbsError: 3.19525e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.02751e-01\tAbsError: 2.88406e+14\n", + " Region: \"zone_1\"\tRelError: 3.60577e-03\tAbsError: 2.29628e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.60577e-03\tAbsError: 2.29628e-04\n", + " Region: \"zone_3\"\tRelError: 9.91456e-02\tAbsError: 2.88406e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.45252e-02\tAbsError: 1.12757e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.29594e-02\tAbsError: 1.75650e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66104e-03\tAbsError: 2.42032e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.45236e+01\tAbsError: 8.31884e+15\n", + " Region: \"zone_1\"\tRelError: 1.27753e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.27753e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.74827e+00\tAbsError: 8.31884e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94561e-01\tAbsError: 4.96691e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94525e-01\tAbsError: 3.35193e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.59186e-01\tAbsError: 4.09542e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.37855e-01\tAbsError: 5.10221e+14\n", + " Region: \"zone_1\"\tRelError: 4.41958e-02\tAbsError: 1.08344e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.41958e-02\tAbsError: 1.08344e-02\n", + " Region: \"zone_3\"\tRelError: 4.93659e-01\tAbsError: 5.10221e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.87521e-01\tAbsError: 2.44419e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.60651e-01\tAbsError: 2.65802e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.54875e-02\tAbsError: 1.08344e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.73313e+00\tAbsError: 3.96589e+14\n", + " Region: \"zone_1\"\tRelError: 1.05624e-01\tAbsError: 3.31000e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.05624e-01\tAbsError: 3.31000e-02\n", + " Region: \"zone_3\"\tRelError: 1.62751e+00\tAbsError: 3.96589e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.17540e-01\tAbsError: 2.53211e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.15147e-01\tAbsError: 1.43378e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.48212e-02\tAbsError: 3.31000e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.20232e+00\tAbsError: 4.82858e+13\n", + " Region: \"zone_1\"\tRelError: 7.00808e-02\tAbsError: 2.58538e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.00808e-02\tAbsError: 2.58538e-02\n", + " Region: \"zone_3\"\tRelError: 1.13224e+00\tAbsError: 4.82858e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38719e-01\tAbsError: 3.53290e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.23098e-01\tAbsError: 1.29568e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.04208e-02\tAbsError: 2.58937e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.04675e-04\tAbsError: 3.04021e+11\n", + " Region: \"zone_1\"\tRelError: 6.05493e-06\tAbsError: 5.20454e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 6.05493e-06\tAbsError: 5.20454e-07\n", + " Region: \"zone_3\"\tRelError: 2.98620e-04\tAbsError: 3.04021e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.67672e-04\tAbsError: 1.93910e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.70905e-05\tAbsError: 1.10111e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.85729e-06\tAbsError: 5.51479e-07\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.91465e+00\tAbsError: 8.82588e+14\n", + " Region: \"zone_1\"\tRelError: 3.03324e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.03324e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.61133e+00\tAbsError: 8.82588e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91758e-01\tAbsError: 5.05615e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.83634e-01\tAbsError: 3.76973e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35939e-01\tAbsError: 3.07632e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.46514e-01\tAbsError: 1.03219e+14\n", + " Region: \"zone_1\"\tRelError: 3.43169e-02\tAbsError: 3.16852e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.43169e-02\tAbsError: 3.16852e-04\n", + " Region: \"zone_3\"\tRelError: 1.12197e-01\tAbsError: 1.03219e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.55228e-02\tAbsError: 5.87205e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.49125e-02\tAbsError: 4.44984e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.76215e-03\tAbsError: 3.21983e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.26176e+00\tAbsError: 6.17820e+13\n", + " Region: \"zone_1\"\tRelError: 7.36238e-02\tAbsError: 2.56439e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.36238e-02\tAbsError: 2.56439e-02\n", + " Region: \"zone_3\"\tRelError: 1.18814e+00\tAbsError: 6.17820e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.61240e-01\tAbsError: 4.55005e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.51872e-01\tAbsError: 1.62815e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.50269e-02\tAbsError: 2.58894e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.27072e-01\tAbsError: 5.50903e+12\n", + " Region: \"zone_1\"\tRelError: 2.49046e-02\tAbsError: 1.06615e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49046e-02\tAbsError: 1.06615e-02\n", + " Region: \"zone_3\"\tRelError: 4.02167e-01\tAbsError: 5.50903e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88687e-01\tAbsError: 1.84640e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.83541e-02\tAbsError: 3.66263e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.51259e-02\tAbsError: 1.06615e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.59434e-10\tAbsError: 1.22832e+06\n", + " Region: \"zone_1\"\tRelError: 9.68844e-11\tAbsError: 2.65442e-12\n", + " Equation: \"PotentialEquation\"\tRelError: 9.68844e-11\tAbsError: 2.65442e-12\n", + " Region: \"zone_3\"\tRelError: 6.62549e-10\tAbsError: 1.22832e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38517e-10\tAbsError: 7.28670e+05\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03771e-10\tAbsError: 4.99651e+05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.02616e-11\tAbsError: 2.83300e-12\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.35346e-04\tAbsError: 2.72676e+11\n", + " Region: \"zone_1\"\tRelError: 1.93851e-04\tAbsError: 1.56442e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.93851e-04\tAbsError: 1.56442e-06\n", + " Region: \"zone_3\"\tRelError: 3.41495e-04\tAbsError: 2.72676e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.13735e-04\tAbsError: 2.02047e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.87537e-05\tAbsError: 7.06297e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 9.00571e-06\tAbsError: 1.63938e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.34467e+00\tAbsError: 5.44154e+14\n", + " Region: \"zone_1\"\tRelError: 2.20632e-01\tAbsError: 2.58931e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20632e-01\tAbsError: 2.58931e-02\n", + " Region: \"zone_3\"\tRelError: 1.12404e+00\tAbsError: 5.44154e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.17234e-01\tAbsError: 2.66383e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.89208e-01\tAbsError: 2.77771e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17596e-01\tAbsError: 2.58999e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:38\u001b[0m.\u001b[1;36m705\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.8\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.89862e-01\tAbsError: 7.99664e+12\n", + " Region: \"zone_1\"\tRelError: 2.98842e-02\tAbsError: 1.22654e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.98842e-02\tAbsError: 1.22654e-02\n", + " Region: \"zone_3\"\tRelError: 4.59978e-01\tAbsError: 7.99664e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.16917e-01\tAbsError: 3.30963e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.12949e-01\tAbsError: 4.68701e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.01113e-02\tAbsError: 1.22654e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.02165e-01\tAbsError: 9.37234e+11\n", + " Region: \"zone_1\"\tRelError: 1.61822e-04\tAbsError: 7.03019e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.61822e-04\tAbsError: 7.03019e-06\n", + " Region: \"zone_3\"\tRelError: 1.02004e-01\tAbsError: 9.37234e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01441e-01\tAbsError: 3.65419e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.41199e-04\tAbsError: 5.71815e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.16745e-05\tAbsError: 7.56571e-06\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.57251e-09\tAbsError: 2.43009e+06\n", + " Region: \"zone_1\"\tRelError: 1.66994e-09\tAbsError: 1.30733e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66994e-09\tAbsError: 1.30733e-11\n", + " Region: \"zone_3\"\tRelError: 2.90256e-09\tAbsError: 2.43009e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.50630e-09\tAbsError: 1.47608e+06\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.18993e-10\tAbsError: 9.54012e+05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.72705e-11\tAbsError: 1.40492e-11\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.58303e-01\tAbsError: 2.58889e+14\n", + " Region: \"zone_1\"\tRelError: 3.50075e-02\tAbsError: 9.16532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.50075e-02\tAbsError: 9.16532e-03\n", + " Region: \"zone_3\"\tRelError: 4.23296e-01\tAbsError: 2.58889e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.70968e-01\tAbsError: 1.16796e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.16540e-01\tAbsError: 1.42093e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.57873e-02\tAbsError: 9.16534e-03\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:39\u001b[0m.\u001b[1;36m168\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:39\u001b[0m.\u001b[1;36m168\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7333333333333334\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.19535e-01\tAbsError: 7.67511e+11\n", + " Region: \"zone_1\"\tRelError: 1.02132e-04\tAbsError: 6.40339e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02132e-04\tAbsError: 6.40339e-06\n", + " Region: \"zone_3\"\tRelError: 1.19432e-01\tAbsError: 7.67511e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.18713e-01\tAbsError: 3.47334e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.98127e-04\tAbsError: 4.20177e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.17746e-05\tAbsError: 7.06173e-06\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.06248e+01\tAbsError: 3.16044e+16\n", + " Region: \"zone_1\"\tRelError: 1.87257e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87257e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.89912e+00\tAbsError: 3.16044e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.93746e-01\tAbsError: 1.57387e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.93249e-01\tAbsError: 1.58657e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.12130e-01\tAbsError: 4.09543e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.56445e-05\tAbsError: 1.51528e+07\n", + " Region: \"zone_1\"\tRelError: 1.06669e-09\tAbsError: 8.91987e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06669e-09\tAbsError: 8.91987e-11\n", + " Region: \"zone_3\"\tRelError: 1.56435e-05\tAbsError: 1.51528e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.55486e-05\tAbsError: 6.58261e+06\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.46298e-08\tAbsError: 8.57017e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.39891e-10\tAbsError: 8.97859e-11\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:39\u001b[0m.\u001b[1;36m454\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:39\u001b[0m.\u001b[1;36m454\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5199999999999999\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.06225e-01\tAbsError: 3.99157e+13\n", + " Region: \"zone_1\"\tRelError: 1.41229e-02\tAbsError: 1.62376e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.41229e-02\tAbsError: 1.62376e-04\n", + " Region: \"zone_3\"\tRelError: 9.21025e-02\tAbsError: 3.99157e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.51238e-02\tAbsError: 2.25076e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.14819e-03\tAbsError: 1.74081e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.30563e-04\tAbsError: 1.67642e-04\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.39115e-05\tAbsError: 3.56195e+07\n", + " Region: \"zone_1\"\tRelError: 4.59619e-09\tAbsError: 3.23674e-10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.59619e-09\tAbsError: 3.23674e-10\n", + " Region: \"zone_3\"\tRelError: 1.39069e-05\tAbsError: 3.56195e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.38108e-05\tAbsError: 1.93540e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.49639e-08\tAbsError: 1.62655e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15594e-09\tAbsError: 3.70759e-10\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.45748e+00\tAbsError: 3.69441e+16\n", + " Region: \"zone_1\"\tRelError: 4.13331e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.13331e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 2.04415e+00\tAbsError: 3.69441e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.88321e-01\tAbsError: 1.86445e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.52684e-01\tAbsError: 1.82996e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.03145e-01\tAbsError: 3.07632e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:39\u001b[0m.\u001b[1;36m779\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.5399999999999999\u001b[0m\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.85767e+01\tAbsError: 9.53342e+15\n", + " Region: \"zone_1\"\tRelError: 7.67234e+01\tAbsError: 4.20726e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.67234e+01\tAbsError: 4.20726e-02\n", + " Region: \"zone_3\"\tRelError: 1.85327e+00\tAbsError: 9.53342e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.03095e-01\tAbsError: 5.14999e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.02942e-01\tAbsError: 4.38343e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.47235e-01\tAbsError: 4.20726e-02\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.77778e-04\tAbsError: 4.11734e+10\n", + " Region: \"zone_1\"\tRelError: 2.64497e-05\tAbsError: 2.72288e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.64497e-05\tAbsError: 2.72288e-07\n", + " Region: \"zone_3\"\tRelError: 1.51329e-04\tAbsError: 4.11734e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.47345e-04\tAbsError: 2.82922e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.54557e-06\tAbsError: 1.28813e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43781e-06\tAbsError: 2.89039e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.35778e+01\tAbsError: 8.76184e+15\n", + " Region: \"zone_1\"\tRelError: 2.18316e+01\tAbsError: 4.19629e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.18316e+01\tAbsError: 4.19629e-02\n", + " Region: \"zone_3\"\tRelError: 1.74625e+00\tAbsError: 8.76184e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.02419e-01\tAbsError: 5.23127e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.02400e-01\tAbsError: 3.53057e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.41432e-01\tAbsError: 4.19629e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 4.80876e+00\tAbsError: 2.48392e+16\n", + " Region: \"zone_1\"\tRelError: 2.08564e-01\tAbsError: 2.58396e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.08564e-01\tAbsError: 2.58396e-02\n", + " Region: \"zone_3\"\tRelError: 4.60020e+00\tAbsError: 2.48392e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.12756e-01\tAbsError: 1.24031e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.61077e-01\tAbsError: 1.24362e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.62637e+00\tAbsError: 2.33304e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 5.04143e+00\tAbsError: 1.05556e+16\n", + " Region: \"zone_1\"\tRelError: 3.34872e+00\tAbsError: 3.20820e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.34872e+00\tAbsError: 3.20820e-02\n", + " Region: \"zone_3\"\tRelError: 1.69271e+00\tAbsError: 1.05556e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.05643e-01\tAbsError: 5.09390e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.77441e-01\tAbsError: 5.46173e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.09625e-01\tAbsError: 3.20820e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.06530e-10\tAbsError: 5.12697e+04\n", + " Region: \"zone_1\"\tRelError: 2.76520e-11\tAbsError: 2.68299e-13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.76520e-11\tAbsError: 2.68299e-13\n", + " Region: \"zone_3\"\tRelError: 1.78878e-10\tAbsError: 5.12697e+04\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.71768e-10\tAbsError: 3.00847e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.70892e-12\tAbsError: 2.11850e+04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40088e-12\tAbsError: 2.79933e-13\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:40\u001b[0m.\u001b[1;36m423\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.7000000000000001\u001b[0m\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.50411e+01\tAbsError: 9.17516e+15\n", + " Region: \"zone_1\"\tRelError: 2.32813e+01\tAbsError: 4.29338e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.32813e+01\tAbsError: 4.29338e-02\n", + " Region: \"zone_3\"\tRelError: 1.75981e+00\tAbsError: 9.17516e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09690e-01\tAbsError: 5.49119e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.09670e-01\tAbsError: 3.68397e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40449e-01\tAbsError: 4.29338e-02\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.80496e+00\tAbsError: 4.20326e+14\n", + " Region: \"zone_1\"\tRelError: 1.83409e-01\tAbsError: 3.19525e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.83409e-01\tAbsError: 3.19525e-02\n", + " Region: \"zone_3\"\tRelError: 1.62155e+00\tAbsError: 4.20326e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.05409e-01\tAbsError: 3.06370e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.01733e-01\tAbsError: 1.13956e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14413e-01\tAbsError: 3.19525e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.55071e+00\tAbsError: 8.48657e+15\n", + " Region: \"zone_1\"\tRelError: 8.11805e-01\tAbsError: 9.16529e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 8.11805e-01\tAbsError: 9.16529e-03\n", + " Region: \"zone_3\"\tRelError: 2.73890e+00\tAbsError: 8.48657e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.34197e-01\tAbsError: 4.50158e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.40806e-01\tAbsError: 3.98499e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.36390e+00\tAbsError: 9.16533e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.41161e+00\tAbsError: 8.47971e+15\n", + " Region: \"zone_1\"\tRelError: 1.80410e-01\tAbsError: 2.58842e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.80410e-01\tAbsError: 2.58842e-02\n", + " Region: \"zone_3\"\tRelError: 1.23120e+00\tAbsError: 8.47971e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.48016e-01\tAbsError: 4.18892e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.02777e-01\tAbsError: 4.29078e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.80410e-01\tAbsError: 2.57972e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.82843e+00\tAbsError: 4.96905e+14\n", + " Region: \"zone_1\"\tRelError: 1.74894e-01\tAbsError: 3.31000e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74894e-01\tAbsError: 3.31000e-02\n", + " Region: \"zone_3\"\tRelError: 1.65354e+00\tAbsError: 4.96905e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.18406e-01\tAbsError: 3.48442e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.14285e-01\tAbsError: 1.48463e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20848e-01\tAbsError: 3.31000e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.26282e+00\tAbsError: 1.16685e+14\n", + " Region: \"zone_1\"\tRelError: 9.53101e-02\tAbsError: 2.58525e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.53101e-02\tAbsError: 2.58525e-02\n", + " Region: \"zone_3\"\tRelError: 1.16751e+00\tAbsError: 1.16685e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.39099e-01\tAbsError: 6.97086e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.31203e-01\tAbsError: 4.69768e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.72093e-02\tAbsError: 2.58966e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 5.10055e-01\tAbsError: 1.79008e+15\n", + " Region: \"zone_1\"\tRelError: 7.10147e-02\tAbsError: 3.19256e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.10147e-02\tAbsError: 3.19256e-04\n", + " Region: \"zone_3\"\tRelError: 4.39040e-01\tAbsError: 1.79008e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39314e-02\tAbsError: 9.39738e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.81226e-02\tAbsError: 8.50345e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.56986e-01\tAbsError: 3.21663e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.22389e+00\tAbsError: 8.51989e+15\n", + " Region: \"zone_1\"\tRelError: 5.41698e+00\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.41698e+00\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.80691e+00\tAbsError: 8.51989e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94484e-01\tAbsError: 4.63675e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94370e-01\tAbsError: 3.88315e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.18056e-01\tAbsError: 4.09542e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.38247e+01\tAbsError: 3.42646e+15\n", + " Region: \"zone_1\"\tRelError: 1.33015e+01\tAbsError: 1.08344e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33015e+01\tAbsError: 1.08344e-02\n", + " Region: \"zone_3\"\tRelError: 5.23208e-01\tAbsError: 3.42646e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.74976e-01\tAbsError: 1.82876e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.89790e-01\tAbsError: 1.59771e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.84420e-02\tAbsError: 1.08344e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.37737e+00\tAbsError: 1.78105e+14\n", + " Region: \"zone_1\"\tRelError: 1.48634e-01\tAbsError: 2.57619e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.48634e-01\tAbsError: 2.57619e-02\n", + " Region: \"zone_3\"\tRelError: 1.22873e+00\tAbsError: 1.78105e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.61703e-01\tAbsError: 1.04558e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.61460e-01\tAbsError: 7.35471e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.05569e-01\tAbsError: 2.58968e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.33163e-03\tAbsError: 7.03544e+12\n", + " Region: \"zone_1\"\tRelError: 6.88994e-05\tAbsError: 8.74550e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 6.88994e-05\tAbsError: 8.74550e-07\n", + " Region: \"zone_3\"\tRelError: 1.26273e-03\tAbsError: 7.03544e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.78279e-04\tAbsError: 4.08452e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.87916e-05\tAbsError: 2.95092e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.95662e-04\tAbsError: 9.67670e-07\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.61927e-01\tAbsError: 4.92934e+13\n", + " Region: \"zone_1\"\tRelError: 3.38141e-02\tAbsError: 1.06615e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.38141e-02\tAbsError: 1.06615e-02\n", + " Region: \"zone_3\"\tRelError: 4.28113e-01\tAbsError: 4.92934e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.85411e-01\tAbsError: 2.38523e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.08645e-01\tAbsError: 2.54412e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.40579e-02\tAbsError: 1.06615e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.89109e+00\tAbsError: 5.48219e+15\n", + " Region: \"zone_1\"\tRelError: 2.49390e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49390e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 1.64170e+00\tAbsError: 5.48219e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90716e-01\tAbsError: 2.59543e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.66285e-01\tAbsError: 2.88675e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.84697e-01\tAbsError: 3.07632e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.00885e-01\tAbsError: 6.88542e+14\n", + " Region: \"zone_1\"\tRelError: 5.76573e-01\tAbsError: 3.18704e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.76573e-01\tAbsError: 3.18704e-04\n", + " Region: \"zone_3\"\tRelError: 1.24312e-01\tAbsError: 6.88542e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.82071e-02\tAbsError: 3.65909e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.96440e-02\tAbsError: 3.22633e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.46133e-03\tAbsError: 3.35790e-04\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.72011e-01\tAbsError: 8.49829e+13\n", + " Region: \"zone_1\"\tRelError: 7.44559e-02\tAbsError: 1.22654e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.44559e-02\tAbsError: 1.22654e-02\n", + " Region: \"zone_3\"\tRelError: 4.97555e-01\tAbsError: 8.49829e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.15246e-01\tAbsError: 4.00907e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.40638e-01\tAbsError: 4.48922e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.16711e-02\tAbsError: 1.22654e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.08779e-01\tAbsError: 7.86412e+12\n", + " Region: \"zone_1\"\tRelError: 3.94315e-03\tAbsError: 5.37617e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.94315e-03\tAbsError: 5.37617e-05\n", + " Region: \"zone_3\"\tRelError: 1.04836e-01\tAbsError: 7.86412e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01239e-01\tAbsError: 4.02502e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.36279e-03\tAbsError: 3.83909e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.34183e-04\tAbsError: 5.93697e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.48913e-08\tAbsError: 9.78087e+07\n", + " Region: \"zone_1\"\tRelError: 2.39366e-09\tAbsError: 9.98116e-12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.39366e-09\tAbsError: 9.98116e-12\n", + " Region: \"zone_3\"\tRelError: 1.24976e-08\tAbsError: 9.78087e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.82653e-09\tAbsError: 5.13414e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.35560e-10\tAbsError: 4.64672e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 9.13552e-09\tAbsError: 1.21236e-11\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:41\u001b[0m.\u001b[1;36m913\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.9\u001b[0m \n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.28809e+00\tAbsError: 4.35524e+15\n", + " Region: \"zone_1\"\tRelError: 1.47109e-01\tAbsError: 2.58916e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.47109e-01\tAbsError: 2.58916e-02\n", + " Region: \"zone_3\"\tRelError: 1.14098e+00\tAbsError: 4.35524e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.22693e-01\tAbsError: 2.04103e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.66769e-01\tAbsError: 2.31421e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51518e-01\tAbsError: 2.53379e-02\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 5\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 1.26639e-03\tAbsError: 1.63175e+12\n", + " Region: \"zone_1\"\tRelError: 8.28809e-04\tAbsError: 1.27507e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.28809e-04\tAbsError: 1.27507e-06\n", + " Region: \"zone_3\"\tRelError: 4.37586e-04\tAbsError: 1.63175e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.67912e-04\tAbsError: 1.10540e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.19952e-05\tAbsError: 5.26349e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.76786e-05\tAbsError: 1.38379e-06\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.35620e-01\tAbsError: 1.72712e+13\n", + " Region: \"zone_1\"\tRelError: 9.74579e-03\tAbsError: 1.05058e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.74579e-03\tAbsError: 1.05058e-04\n", + " Region: \"zone_3\"\tRelError: 1.25874e-01\tAbsError: 1.72712e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.17031e-01\tAbsError: 8.70382e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.35880e-03\tAbsError: 8.56740e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.84384e-04\tAbsError: 1.13804e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.12912e-04\tAbsError: 6.22497e+09\n", + " Region: \"zone_1\"\tRelError: 4.19318e-06\tAbsError: 5.80483e-08\n", + " Equation: \"PotentialEquation\"\tRelError: 4.19318e-06\tAbsError: 5.80483e-08\n", + " Region: \"zone_3\"\tRelError: 1.08718e-04\tAbsError: 6.22497e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.06088e-04\tAbsError: 4.32375e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.37301e-06\tAbsError: 1.90122e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.57558e-07\tAbsError: 6.47718e-08\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.61364e-01\tAbsError: 1.56107e+15\n", + " Region: \"zone_1\"\tRelError: 1.02187e-01\tAbsError: 9.16531e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02187e-01\tAbsError: 9.16531e-03\n", + " Region: \"zone_3\"\tRelError: 4.59177e-01\tAbsError: 1.56107e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52513e-01\tAbsError: 8.30423e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.62306e-01\tAbsError: 7.30643e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.43577e-02\tAbsError: 9.16534e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 5.38910e-08\tAbsError: 1.78449e+07\n", + " Region: \"zone_1\"\tRelError: 4.98436e-08\tAbsError: 7.02794e-12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.98436e-08\tAbsError: 7.02794e-12\n", + " Region: \"zone_3\"\tRelError: 4.04737e-09\tAbsError: 1.78449e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.41581e-09\tAbsError: 1.12628e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.67215e-10\tAbsError: 6.58204e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.64338e-10\tAbsError: 7.21610e-12\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:42\u001b[0m.\u001b[1;36m479\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:42\u001b[0m.\u001b[1;36m479\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.8388888888888889\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.15889e-04\tAbsError: 3.71681e+10\n", + " Region: \"zone_1\"\tRelError: 2.41579e-05\tAbsError: 2.90587e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.41579e-05\tAbsError: 2.90587e-07\n", + " Region: \"zone_3\"\tRelError: 2.91731e-04\tAbsError: 3.71681e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.74902e-04\tAbsError: 2.46870e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.54957e-05\tAbsError: 1.24811e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33364e-06\tAbsError: 3.11133e-07\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.19725e+01\tAbsError: 1.92958e+17\n", + " Region: \"zone_1\"\tRelError: 2.64183e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.64183e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 5.55416e+00\tAbsError: 1.92958e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86635e-01\tAbsError: 9.77277e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.83108e-01\tAbsError: 9.52302e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.98441e+00\tAbsError: 4.09542e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 9.68479e-11\tAbsError: 3.24994e+04\n", + " Region: \"zone_1\"\tRelError: 2.67602e-12\tAbsError: 3.81036e-14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.67602e-12\tAbsError: 3.81036e-14\n", + " Region: \"zone_3\"\tRelError: 9.41719e-11\tAbsError: 3.24994e+04\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.20056e-11\tAbsError: 1.65668e+04\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.99791e-12\tAbsError: 1.59326e+04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.68351e-13\tAbsError: 4.22123e-14\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.02751e-01\tAbsError: 2.88406e+14\n", + " Region: \"zone_1\"\tRelError: 3.60577e-03\tAbsError: 2.29628e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.60577e-03\tAbsError: 2.29628e-04\n", + " Region: \"zone_3\"\tRelError: 9.91456e-02\tAbsError: 2.88406e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.45252e-02\tAbsError: 1.12757e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.29594e-02\tAbsError: 1.75650e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66104e-03\tAbsError: 2.42032e-04\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:42\u001b[0m.\u001b[1;36m766\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:42\u001b[0m.\u001b[1;36m766\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6249999999999999\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.90381e-09\tAbsError: 2.12026e+05\n", + " Region: \"zone_1\"\tRelError: 1.00312e-10\tAbsError: 1.55136e-12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00312e-10\tAbsError: 1.55136e-12\n", + " Region: \"zone_3\"\tRelError: 1.80350e-09\tAbsError: 2.12026e+05\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.71088e-09\tAbsError: 1.50477e+05\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.62946e-11\tAbsError: 6.15487e+04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.32889e-12\tAbsError: 1.60667e-12\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:43\u001b[0m.\u001b[1;36m054\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.6499999999999999\u001b[0m\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 5.59678e+00\tAbsError: 2.20718e+17\n", + " Region: \"zone_1\"\tRelError: 8.54328e-01\tAbsError: 3.07631e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.54328e-01\tAbsError: 3.07631e-02\n", + " Region: \"zone_3\"\tRelError: 4.74245e+00\tAbsError: 2.20718e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.57165e-01\tAbsError: 1.09369e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.88364e-01\tAbsError: 1.11350e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 3.39692e+00\tAbsError: 3.07632e-02\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.44083e+02\tAbsError: 6.23143e+16\n", + " Region: \"zone_1\"\tRelError: 1.41746e+02\tAbsError: 4.20726e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.41746e+02\tAbsError: 4.20726e-02\n", + " Region: \"zone_3\"\tRelError: 2.33769e+00\tAbsError: 6.23143e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.01593e-01\tAbsError: 3.10038e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.00688e-01\tAbsError: 3.13105e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 7.35405e-01\tAbsError: 4.20726e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.04675e-04\tAbsError: 3.04021e+11\n", + " Region: \"zone_1\"\tRelError: 6.05493e-06\tAbsError: 5.20454e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 6.05493e-06\tAbsError: 5.20454e-07\n", + " Region: \"zone_3\"\tRelError: 2.98620e-04\tAbsError: 3.04021e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.67672e-04\tAbsError: 1.93910e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.70905e-05\tAbsError: 1.10111e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.85729e-06\tAbsError: 5.51479e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.95055e+01\tAbsError: 8.73225e+15\n", + " Region: \"zone_1\"\tRelError: 3.77251e+01\tAbsError: 4.19629e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.77251e+01\tAbsError: 4.19629e-02\n", + " Region: \"zone_3\"\tRelError: 1.78043e+00\tAbsError: 8.73225e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.02406e-01\tAbsError: 5.17151e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.02362e-01\tAbsError: 3.56074e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.75661e-01\tAbsError: 4.19629e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 3.40459e+00\tAbsError: 1.40151e+17\n", + " Region: \"zone_1\"\tRelError: 9.91077e-01\tAbsError: 2.58298e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.91077e-01\tAbsError: 2.58298e-02\n", + " Region: \"zone_3\"\tRelError: 2.41351e+00\tAbsError: 1.40151e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.12962e-01\tAbsError: 7.03247e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.20637e-01\tAbsError: 6.98261e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.67991e+00\tAbsError: 2.58976e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 4.98434e+00\tAbsError: 7.37896e+16\n", + " Region: \"zone_1\"\tRelError: 1.81427e+00\tAbsError: 3.20820e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.81427e+00\tAbsError: 3.20820e-02\n", + " Region: \"zone_3\"\tRelError: 3.17007e+00\tAbsError: 7.37896e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.99909e-01\tAbsError: 3.77060e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.60109e-01\tAbsError: 3.60836e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.71005e+00\tAbsError: 3.20820e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.59422e-10\tAbsError: 1.22833e+06\n", + " Region: \"zone_1\"\tRelError: 9.68713e-11\tAbsError: 2.65442e-12\n", + " Equation: \"PotentialEquation\"\tRelError: 9.68713e-11\tAbsError: 2.65442e-12\n", + " Region: \"zone_3\"\tRelError: 6.62551e-10\tAbsError: 1.22833e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38518e-10\tAbsError: 7.28673e+05\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03771e-10\tAbsError: 4.99655e+05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.02615e-11\tAbsError: 2.83299e-12\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.04122e+01\tAbsError: 9.15719e+15\n", + " Region: \"zone_1\"\tRelError: 5.85997e+01\tAbsError: 4.29338e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.85997e+01\tAbsError: 4.29338e-02\n", + " Region: \"zone_3\"\tRelError: 1.81249e+00\tAbsError: 9.15719e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09671e-01\tAbsError: 5.35064e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.09616e-01\tAbsError: 3.80655e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.93207e-01\tAbsError: 4.29338e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:43\u001b[0m.\u001b[1;36m703\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.8\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.49752e+00\tAbsError: 1.43728e+15\n", + " Region: \"zone_1\"\tRelError: 8.52793e-01\tAbsError: 3.19525e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.52793e-01\tAbsError: 3.19525e-02\n", + " Region: \"zone_3\"\tRelError: 1.64473e+00\tAbsError: 1.43728e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.06123e-01\tAbsError: 8.18697e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.93926e-01\tAbsError: 6.18581e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.44679e-01\tAbsError: 3.19525e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.15760e+00\tAbsError: 3.46533e+16\n", + " Region: \"zone_1\"\tRelError: 4.44487e-01\tAbsError: 9.16511e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 4.44487e-01\tAbsError: 9.16511e-03\n", + " Region: \"zone_3\"\tRelError: 7.13113e-01\tAbsError: 3.46533e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34412e-01\tAbsError: 1.73980e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.38070e-02\tAbsError: 1.72552e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 5.24894e-01\tAbsError: 9.16533e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.12855e+01\tAbsError: 4.98281e+16\n", + " Region: \"zone_1\"\tRelError: 8.25173e+00\tAbsError: 2.57970e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.25173e+00\tAbsError: 2.57970e-02\n", + " Region: \"zone_3\"\tRelError: 3.03375e+00\tAbsError: 4.98281e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.24699e-01\tAbsError: 2.52260e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.64645e-01\tAbsError: 2.46021e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.04441e+00\tAbsError: 2.57091e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.66737e+00\tAbsError: 2.26108e+15\n", + " Region: \"zone_1\"\tRelError: 9.89112e-01\tAbsError: 3.31000e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.89112e-01\tAbsError: 3.31000e-02\n", + " Region: \"zone_3\"\tRelError: 1.67826e+00\tAbsError: 2.26108e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.18687e-01\tAbsError: 1.24573e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.03123e-01\tAbsError: 1.01535e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.56453e-01\tAbsError: 3.31000e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.85026e+00\tAbsError: 1.00498e+15\n", + " Region: \"zone_1\"\tRelError: 6.71376e-01\tAbsError: 2.56697e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.71376e-01\tAbsError: 2.56697e-02\n", + " Region: \"zone_3\"\tRelError: 1.17888e+00\tAbsError: 1.00498e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.41919e-01\tAbsError: 4.48768e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.04352e-01\tAbsError: 5.56214e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.32610e-01\tAbsError: 2.56412e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 5.74119e-02\tAbsError: 3.00253e+15\n", + " Region: \"zone_1\"\tRelError: 1.72667e-02\tAbsError: 6.21206e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72667e-02\tAbsError: 6.21206e-05\n", + " Region: \"zone_3\"\tRelError: 4.01452e-02\tAbsError: 3.00253e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.04052e-02\tAbsError: 1.53972e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.58359e-03\tAbsError: 1.46281e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.81563e-02\tAbsError: 6.25380e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.72164e+01\tAbsError: 2.27463e+16\n", + " Region: \"zone_1\"\tRelError: 1.85589e+00\tAbsError: 1.08343e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.85589e+00\tAbsError: 1.08343e-02\n", + " Region: \"zone_3\"\tRelError: 2.53605e+01\tAbsError: 2.27463e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.43070e-01\tAbsError: 1.22773e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.41963e-01\tAbsError: 1.04689e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49755e+01\tAbsError: 1.08344e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.06248e+01\tAbsError: 3.16044e+16\n", + " Region: \"zone_1\"\tRelError: 1.87257e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87257e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 1.89912e+00\tAbsError: 3.16044e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.93746e-01\tAbsError: 1.57387e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.93249e-01\tAbsError: 1.58657e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.12130e-01\tAbsError: 4.09543e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.57562e+00\tAbsError: 1.85067e+15\n", + " Region: \"zone_1\"\tRelError: 3.48899e-01\tAbsError: 2.58724e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.48899e-01\tAbsError: 2.58724e-02\n", + " Region: \"zone_3\"\tRelError: 1.22672e+00\tAbsError: 1.85067e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.65203e-01\tAbsError: 7.94760e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.14656e-01\tAbsError: 1.05591e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.46858e-01\tAbsError: 2.56646e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.27711e-01\tAbsError: 4.77267e+14\n", + " Region: \"zone_1\"\tRelError: 4.31745e-02\tAbsError: 1.06614e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.31745e-02\tAbsError: 1.06614e-02\n", + " Region: \"zone_3\"\tRelError: 4.84536e-01\tAbsError: 4.77267e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.84030e-01\tAbsError: 2.26718e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.56062e-01\tAbsError: 2.50549e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.44447e-02\tAbsError: 1.06615e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.14148e-05\tAbsError: 7.36262e+11\n", + " Region: \"zone_1\"\tRelError: 4.55231e-07\tAbsError: 9.54534e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 4.55231e-07\tAbsError: 9.54534e-09\n", + " Region: \"zone_3\"\tRelError: 1.09596e-05\tAbsError: 7.36262e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.23017e-06\tAbsError: 3.79166e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.26674e-07\tAbsError: 3.57096e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00275e-06\tAbsError: 1.00816e-08\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.53965e+00\tAbsError: 4.86692e+15\n", + " Region: \"zone_1\"\tRelError: 2.38392e-01\tAbsError: 4.52967e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.38392e-01\tAbsError: 4.52967e-04\n", + " Region: \"zone_3\"\tRelError: 1.30126e+00\tAbsError: 4.86692e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38553e-02\tAbsError: 2.62229e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.91289e-02\tAbsError: 2.24463e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21828e+00\tAbsError: 4.65426e-04\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:44\u001b[0m.\u001b[1;36m818\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 1.0\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Iteration: 1\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + " Device: \"device\"\tRelError: 2.45748e+00\tAbsError: 3.69441e+16\n", + " Region: \"zone_1\"\tRelError: 4.13331e-01\tAbsError: 3.07632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.13331e-01\tAbsError: 3.07632e-02\n", + " Region: \"zone_3\"\tRelError: 2.04415e+00\tAbsError: 3.69441e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.88321e-01\tAbsError: 1.86445e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.52684e-01\tAbsError: 1.82996e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.03145e-01\tAbsError: 3.07632e-02\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 6.62870e-01\tAbsError: 8.58491e+14\n", + " Region: \"zone_1\"\tRelError: 9.69362e-02\tAbsError: 1.22653e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.69362e-02\tAbsError: 1.22653e-02\n", + " Region: \"zone_3\"\tRelError: 5.65934e-01\tAbsError: 8.58491e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.14889e-01\tAbsError: 4.34973e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.96689e-01\tAbsError: 4.23518e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.43556e-02\tAbsError: 1.22654e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.57904e-01\tAbsError: 9.50853e+13\n", + " Region: \"zone_1\"\tRelError: 4.80473e-02\tAbsError: 3.01426e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.80473e-02\tAbsError: 3.01426e-04\n", + " Region: \"zone_3\"\tRelError: 1.09857e-01\tAbsError: 9.50853e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.42491e-02\tAbsError: 5.42455e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.39423e-02\tAbsError: 4.08397e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66512e-03\tAbsError: 3.07235e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.68644e-03\tAbsError: 3.48994e+13\n", + " Region: \"zone_1\"\tRelError: 5.21035e-04\tAbsError: 1.13321e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.21035e-04\tAbsError: 1.13321e-06\n", + " Region: \"zone_3\"\tRelError: 4.16540e-03\tAbsError: 3.48994e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.06545e-04\tAbsError: 1.84003e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.15394e-04\tAbsError: 1.64991e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.64346e-03\tAbsError: 1.18905e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 4.80876e+00\tAbsError: 2.48392e+16\n", + " Region: \"zone_1\"\tRelError: 2.08564e-01\tAbsError: 2.58396e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.08564e-01\tAbsError: 2.58396e-02\n", + " Region: \"zone_3\"\tRelError: 4.60020e+00\tAbsError: 2.48392e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.12756e-01\tAbsError: 1.24031e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.61077e-01\tAbsError: 1.24362e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.62637e+00\tAbsError: 2.33304e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.84400e-01\tAbsError: 1.84489e+14\n", + " Region: \"zone_1\"\tRelError: 5.08949e-02\tAbsError: 4.34577e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.08949e-02\tAbsError: 4.34577e-04\n", + " Region: \"zone_3\"\tRelError: 1.33505e-01\tAbsError: 1.84489e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07596e-01\tAbsError: 1.04840e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.33209e-02\tAbsError: 7.96491e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.58735e-03\tAbsError: 4.38742e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.46971e+03\tAbsError: 1.01752e+18\n", + " Region: \"zone_1\"\tRelError: 3.33693e+03\tAbsError: 4.09540e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.33693e+03\tAbsError: 4.09540e-02\n", + " Region: \"zone_3\"\tRelError: 1.32780e+02\tAbsError: 1.01752e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.36242e-01\tAbsError: 4.96799e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.16599e-01\tAbsError: 5.20717e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31327e+02\tAbsError: 4.09542e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.72801e-04\tAbsError: 2.36462e+11\n", + " Region: \"zone_1\"\tRelError: 2.51830e-04\tAbsError: 1.37797e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.51830e-04\tAbsError: 1.37797e-06\n", + " Region: \"zone_3\"\tRelError: 3.20970e-04\tAbsError: 2.36462e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.96882e-04\tAbsError: 1.74027e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.62102e-05\tAbsError: 6.24347e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.87814e-06\tAbsError: 1.44860e-06\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.18196e-08\tAbsError: 3.69718e+08\n", + " Region: \"zone_1\"\tRelError: 4.96905e-09\tAbsError: 3.01388e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.96905e-09\tAbsError: 3.01388e-11\n", + " Region: \"zone_3\"\tRelError: 3.68506e-08\tAbsError: 3.69718e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.36089e-09\tAbsError: 1.89656e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.03371e-10\tAbsError: 1.80062e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 3.27863e-08\tAbsError: 3.32598e-11\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:45\u001b[0m.\u001b[1;36m725\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:45\u001b[0m.\u001b[1;36m725\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.9444444444444445\u001b[0m \n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.55071e+00\tAbsError: 8.48657e+15\n", + " Region: \"zone_1\"\tRelError: 8.11805e-01\tAbsError: 9.16529e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 8.11805e-01\tAbsError: 9.16529e-03\n", + " Region: \"zone_3\"\tRelError: 2.73890e+00\tAbsError: 8.48657e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.34197e-01\tAbsError: 4.50158e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.40806e-01\tAbsError: 3.98499e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.36390e+00\tAbsError: 9.16533e-03\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 9.66432e-04\tAbsError: 7.61489e+11\n", + " Region: \"zone_1\"\tRelError: 4.42890e-04\tAbsError: 3.54702e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.42890e-04\tAbsError: 3.54702e-06\n", + " Region: \"zone_3\"\tRelError: 5.23542e-04\tAbsError: 7.61489e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.54885e-04\tAbsError: 5.60496e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.72654e-05\tAbsError: 2.00993e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.13918e-05\tAbsError: 3.60294e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 5.65180e+03\tAbsError: 5.72030e+17\n", + " Region: \"zone_1\"\tRelError: 4.78800e+03\tAbsError: 3.07628e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.78800e+03\tAbsError: 3.07628e-02\n", + " Region: \"zone_3\"\tRelError: 8.63794e+02\tAbsError: 5.72030e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.05958e-01\tAbsError: 2.86919e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.81098e-01\tAbsError: 2.85111e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 8.62807e+02\tAbsError: 3.07632e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.25906e-09\tAbsError: 1.82945e+06\n", + " Region: \"zone_1\"\tRelError: 1.87221e-09\tAbsError: 9.90777e-12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87221e-09\tAbsError: 9.90777e-12\n", + " Region: \"zone_3\"\tRelError: 2.38685e-09\tAbsError: 1.82945e+06\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.08433e-09\tAbsError: 1.11322e+06\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.44618e-10\tAbsError: 7.16226e+05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.79058e-11\tAbsError: 1.06265e-11\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:46\u001b[0m.\u001b[1;36m082\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:46\u001b[0m.\u001b[1;36m082\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7299999999999999\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 5.10055e-01\tAbsError: 1.79008e+15\n", + " Region: \"zone_1\"\tRelError: 7.10147e-02\tAbsError: 3.19256e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.10147e-02\tAbsError: 3.19256e-04\n", + " Region: \"zone_3\"\tRelError: 4.39040e-01\tAbsError: 1.79008e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39314e-02\tAbsError: 9.39738e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.81226e-02\tAbsError: 8.50345e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.56986e-01\tAbsError: 3.21663e-04\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.97260e-08\tAbsError: 1.61510e+07\n", + " Region: \"zone_1\"\tRelError: 9.39372e-09\tAbsError: 7.94516e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 9.39372e-09\tAbsError: 7.94516e-11\n", + " Region: \"zone_3\"\tRelError: 1.03323e-08\tAbsError: 1.61510e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.49613e-09\tAbsError: 1.01388e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.34197e-09\tAbsError: 6.01217e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.94202e-10\tAbsError: 8.30962e-11\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:46\u001b[0m.\u001b[1;36m350\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.7599999999999999\u001b[0m\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.88673e+01\tAbsError: 3.96845e+17\n", + " Region: \"zone_1\"\tRelError: 1.50825e+01\tAbsError: 4.20725e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.50825e+01\tAbsError: 4.20725e-02\n", + " Region: \"zone_3\"\tRelError: 1.37848e+01\tAbsError: 3.96845e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.84462e-01\tAbsError: 1.90025e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.77026e-01\tAbsError: 2.06820e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.22233e+01\tAbsError: 4.20726e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 4.89714e+02\tAbsError: 1.10434e+17\n", + " Region: \"zone_1\"\tRelError: 9.55845e+01\tAbsError: 2.58991e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.55845e+01\tAbsError: 2.58991e-02\n", + " Region: \"zone_3\"\tRelError: 3.94130e+02\tAbsError: 1.10434e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.85160e-01\tAbsError: 5.54007e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.05739e-01\tAbsError: 5.50328e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.93839e+02\tAbsError: 2.58972e-02\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.33163e-03\tAbsError: 7.03544e+12\n", + " Region: \"zone_1\"\tRelError: 6.88994e-05\tAbsError: 8.74550e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 6.88994e-05\tAbsError: 8.74550e-07\n", + " Region: \"zone_3\"\tRelError: 1.26273e-03\tAbsError: 7.03544e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.78279e-04\tAbsError: 4.08452e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.87916e-05\tAbsError: 2.95092e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.95662e-04\tAbsError: 9.67670e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.59297e+02\tAbsError: 9.37580e+15\n", + " Region: \"zone_1\"\tRelError: 1.57449e+02\tAbsError: 4.19629e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.57449e+02\tAbsError: 4.19629e-02\n", + " Region: \"zone_3\"\tRelError: 1.84837e+00\tAbsError: 9.37580e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.02269e-01\tAbsError: 5.04440e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.02121e-01\tAbsError: 4.33140e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.43978e-01\tAbsError: 4.19629e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.43213e+01\tAbsError: 4.51925e+17\n", + " Region: \"zone_1\"\tRelError: 9.72728e+00\tAbsError: 3.20817e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.72728e+00\tAbsError: 3.20817e-02\n", + " Region: \"zone_3\"\tRelError: 1.45940e+01\tAbsError: 4.51925e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.26127e-01\tAbsError: 2.25636e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.37098e-01\tAbsError: 2.26288e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33307e+01\tAbsError: 3.20820e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.66351e+02\tAbsError: 9.19252e+15\n", + " Region: \"zone_1\"\tRelError: 3.26361e+01\tAbsError: 9.16476e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.26361e+01\tAbsError: 9.16476e-03\n", + " Region: \"zone_3\"\tRelError: 1.33715e+02\tAbsError: 9.19252e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.93363e-02\tAbsError: 3.80375e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.29874e-03\tAbsError: 5.38877e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33687e+02\tAbsError: 9.16533e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.48935e-08\tAbsError: 9.78086e+07\n", + " Region: \"zone_1\"\tRelError: 2.39367e-09\tAbsError: 9.98117e-12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.39367e-09\tAbsError: 9.98117e-12\n", + " Region: \"zone_3\"\tRelError: 1.24998e-08\tAbsError: 9.78086e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.82653e-09\tAbsError: 5.13414e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.35560e-10\tAbsError: 4.64672e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 9.13775e-09\tAbsError: 1.21236e-11\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.46452e+01\tAbsError: 1.39214e+16\n", + " Region: \"zone_1\"\tRelError: 1.27520e+01\tAbsError: 4.29338e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.27520e+01\tAbsError: 4.29338e-02\n", + " Region: \"zone_3\"\tRelError: 1.89312e+00\tAbsError: 1.39214e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09433e-01\tAbsError: 7.08522e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.09229e-01\tAbsError: 6.83614e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.74457e-01\tAbsError: 4.29338e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:47\u001b[0m.\u001b[1;36m019\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.9\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.53037e+00\tAbsError: 9.91902e+15\n", + " Region: \"zone_1\"\tRelError: 8.43252e-01\tAbsError: 3.19524e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.43252e-01\tAbsError: 3.19524e-02\n", + " Region: \"zone_3\"\tRelError: 1.68712e+00\tAbsError: 9.91902e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.04474e-01\tAbsError: 4.77887e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.75728e-01\tAbsError: 5.14015e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06918e-01\tAbsError: 3.19525e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.95192e+01\tAbsError: 1.87367e+17\n", + " Region: \"zone_1\"\tRelError: 7.47528e+00\tAbsError: 2.58439e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.47528e+00\tAbsError: 2.58439e-02\n", + " Region: \"zone_3\"\tRelError: 1.20439e+01\tAbsError: 1.87367e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.50571e-01\tAbsError: 9.40532e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.24908e-01\tAbsError: 9.33136e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14684e+01\tAbsError: 2.58398e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.32987e-01\tAbsError: 2.66374e+15\n", + " Region: \"zone_1\"\tRelError: 3.15232e-01\tAbsError: 4.41461e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.15232e-01\tAbsError: 4.41461e-05\n", + " Region: \"zone_3\"\tRelError: 3.17755e-01\tAbsError: 2.66374e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.80897e-03\tAbsError: 4.60284e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.14468e-04\tAbsError: 2.20346e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 3.15232e-01\tAbsError: 4.48094e-05\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.03361e+00\tAbsError: 1.75457e+16\n", + " Region: \"zone_1\"\tRelError: 2.96801e-01\tAbsError: 3.31000e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.96801e-01\tAbsError: 3.31000e-02\n", + " Region: \"zone_3\"\tRelError: 1.73681e+00\tAbsError: 1.75457e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.16200e-01\tAbsError: 8.62297e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.86789e-01\tAbsError: 8.92275e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.33819e-01\tAbsError: 3.31000e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.40037e+00\tAbsError: 7.91855e+15\n", + " Region: \"zone_1\"\tRelError: 1.77050e-01\tAbsError: 2.58157e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77050e-01\tAbsError: 2.58157e-02\n", + " Region: \"zone_3\"\tRelError: 1.22332e+00\tAbsError: 7.91855e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.45454e-01\tAbsError: 3.90031e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.00819e-01\tAbsError: 4.01824e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77050e-01\tAbsError: 2.58157e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 8.75936e+00\tAbsError: 2.19100e+16\n", + " Region: \"zone_1\"\tRelError: 5.91836e-01\tAbsError: 1.08340e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.91836e-01\tAbsError: 1.08340e-02\n", + " Region: \"zone_3\"\tRelError: 8.16752e+00\tAbsError: 2.19100e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.41856e-02\tAbsError: 1.10284e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.95173e-02\tAbsError: 1.08816e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 8.05382e+00\tAbsError: 1.08344e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 9.38206e-06\tAbsError: 3.71586e+11\n", + " Region: \"zone_1\"\tRelError: 3.57211e-06\tAbsError: 1.32884e-09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.57211e-06\tAbsError: 1.32884e-09\n", + " Region: \"zone_3\"\tRelError: 5.80995e-06\tAbsError: 3.71586e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.88317e-07\tAbsError: 1.74877e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.86151e-07\tAbsError: 1.96709e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.03548e-06\tAbsError: 1.32977e-09\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.19725e+01\tAbsError: 1.92958e+17\n", + " Region: \"zone_1\"\tRelError: 2.64183e+01\tAbsError: 4.09542e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.64183e+01\tAbsError: 4.09542e-02\n", + " Region: \"zone_3\"\tRelError: 5.55416e+00\tAbsError: 1.92958e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86635e-01\tAbsError: 9.77277e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.83108e-01\tAbsError: 9.52302e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.98441e+00\tAbsError: 4.09542e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.50364e+00\tAbsError: 1.43673e+16\n", + " Region: \"zone_1\"\tRelError: 2.06229e-01\tAbsError: 2.57690e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06229e-01\tAbsError: 2.57690e-02\n", + " Region: \"zone_3\"\tRelError: 1.29741e+00\tAbsError: 1.43673e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.65900e-01\tAbsError: 7.23214e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.25278e-01\tAbsError: 7.13518e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06229e-01\tAbsError: 2.50728e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.70911e+00\tAbsError: 3.16280e+15\n", + " Region: \"zone_1\"\tRelError: 1.19373e+00\tAbsError: 1.06614e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19373e+00\tAbsError: 1.06614e-02\n", + " Region: \"zone_3\"\tRelError: 5.15380e-01\tAbsError: 3.16280e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.71283e-01\tAbsError: 1.68374e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.87166e-01\tAbsError: 1.47905e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.69319e-02\tAbsError: 1.06615e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 3.01804e-01\tAbsError: 3.36603e+15\n", + " Region: \"zone_1\"\tRelError: 2.65712e-02\tAbsError: 6.30769e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.65712e-02\tAbsError: 6.30769e-05\n", + " Region: \"zone_3\"\tRelError: 2.75233e-01\tAbsError: 3.36603e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.46142e-03\tAbsError: 1.73937e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.04193e-03\tAbsError: 1.62666e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.65729e-01\tAbsError: 6.31187e-05\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 5.59678e+00\tAbsError: 2.20718e+17\n", + " Region: \"zone_1\"\tRelError: 8.54328e-01\tAbsError: 3.07631e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.54328e-01\tAbsError: 3.07631e-02\n", + " Region: \"zone_3\"\tRelError: 4.74245e+00\tAbsError: 2.20718e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.57165e-01\tAbsError: 1.09369e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.88364e-01\tAbsError: 1.11350e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 3.39692e+00\tAbsError: 3.07632e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.10487e+00\tAbsError: 6.11018e+15\n", + " Region: \"zone_1\"\tRelError: 5.10621e-01\tAbsError: 1.22653e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.10621e-01\tAbsError: 1.22653e-02\n", + " Region: \"zone_3\"\tRelError: 5.94250e-01\tAbsError: 6.11018e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.03660e-01\tAbsError: 3.26136e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.08790e-01\tAbsError: 2.84882e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.17995e-02\tAbsError: 1.22654e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.54944e-01\tAbsError: 6.31247e+14\n", + " Region: \"zone_1\"\tRelError: 3.35277e-02\tAbsError: 3.09977e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.35277e-02\tAbsError: 3.09977e-04\n", + " Region: \"zone_3\"\tRelError: 1.21416e-01\tAbsError: 6.31247e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.69365e-02\tAbsError: 3.28792e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.89497e-02\tAbsError: 3.02454e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.53021e-03\tAbsError: 3.26964e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.16816e-05\tAbsError: 9.44595e+11\n", + " Region: \"zone_1\"\tRelError: 1.39205e-06\tAbsError: 1.83406e-08\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39205e-06\tAbsError: 1.83406e-08\n", + " Region: \"zone_3\"\tRelError: 3.02895e-05\tAbsError: 9.44595e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.64960e-06\tAbsError: 4.94394e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.51657e-07\tAbsError: 4.50201e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.71883e-05\tAbsError: 1.83406e-08\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 3.40459e+00\tAbsError: 1.40151e+17\n", + " Region: \"zone_1\"\tRelError: 9.91077e-01\tAbsError: 2.58298e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.91077e-01\tAbsError: 2.58298e-02\n", + " Region: \"zone_3\"\tRelError: 2.41351e+00\tAbsError: 1.40151e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.12962e-01\tAbsError: 7.03247e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.20637e-01\tAbsError: 6.98261e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.67991e+00\tAbsError: 2.58976e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:48\u001b[0m.\u001b[1;36m571\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: 1.05\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.81734e-01\tAbsError: 1.29397e+15\n", + " Region: \"zone_1\"\tRelError: 2.65607e-02\tAbsError: 4.00616e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.65607e-02\tAbsError: 4.00616e-04\n", + " Region: \"zone_3\"\tRelError: 1.55174e-01\tAbsError: 1.29397e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.05235e-01\tAbsError: 7.52366e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.59033e-02\tAbsError: 5.41606e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.40353e-02\tAbsError: 4.21669e-04\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:48\u001b[0m.\u001b[1;36m774\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:48\u001b[0m.\u001b[1;36m805\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.25 bias\u001b[0m \n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.77292e-04\tAbsError: 1.38473e+12\n", + " Region: \"zone_1\"\tRelError: 5.44385e-05\tAbsError: 1.16755e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.44385e-05\tAbsError: 1.16755e-06\n", + " Region: \"zone_3\"\tRelError: 4.22853e-04\tAbsError: 1.38473e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.57884e-04\tAbsError: 9.38758e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.97750e-05\tAbsError: 4.45977e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51936e-05\tAbsError: 1.26574e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:48\u001b[0m.\u001b[1;36m833\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.15760e+00\tAbsError: 3.46533e+16\n", + " Region: \"zone_1\"\tRelError: 4.44487e-01\tAbsError: 9.16511e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 4.44487e-01\tAbsError: 9.16511e-03\n", + " Region: \"zone_3\"\tRelError: 7.13113e-01\tAbsError: 3.46533e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34412e-01\tAbsError: 1.73980e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.38070e-02\tAbsError: 1.72552e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 5.24894e-01\tAbsError: 9.16533e-03\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.31774e-04\tAbsError: 5.24071e+12\n", + " Region: \"zone_1\"\tRelError: 7.43582e-05\tAbsError: 2.53146e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 7.43582e-05\tAbsError: 2.53146e-06\n", + " Region: \"zone_3\"\tRelError: 5.57416e-04\tAbsError: 5.24071e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.32902e-04\tAbsError: 3.49386e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.63617e-05\tAbsError: 1.74685e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.81517e-05\tAbsError: 2.70236e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.70323e+03\tAbsError: 1.65122e+18\n", + " Region: \"zone_1\"\tRelError: 3.32065e+02\tAbsError: 4.20723e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.32065e+02\tAbsError: 4.20723e-02\n", + " Region: \"zone_3\"\tRelError: 1.37117e+03\tAbsError: 1.65122e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.08593e-01\tAbsError: 8.18918e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.84678e-01\tAbsError: 8.32299e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.36977e+03\tAbsError: 4.20726e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.07328e-09\tAbsError: 1.34257e+07\n", + " Region: \"zone_1\"\tRelError: 2.69641e-09\tAbsError: 6.49962e-12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.69641e-09\tAbsError: 6.49962e-12\n", + " Region: \"zone_3\"\tRelError: 3.37687e-09\tAbsError: 1.34257e+07\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.85536e-09\tAbsError: 8.36283e+06\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.97808e-10\tAbsError: 5.06285e+06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.23706e-10\tAbsError: 6.69897e-12\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:49\u001b[0m.\u001b[1;36m341\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:49\u001b[0m.\u001b[1;36m341\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.8349999999999999\u001b[0m \n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Iteration: 4\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 5.74119e-02\tAbsError: 3.00253e+15\n", + " Region: \"zone_1\"\tRelError: 1.72667e-02\tAbsError: 6.21206e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72667e-02\tAbsError: 6.21206e-05\n", + " Region: \"zone_3\"\tRelError: 4.01452e-02\tAbsError: 3.00253e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.04052e-02\tAbsError: 1.53972e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.58359e-03\tAbsError: 1.46281e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.81563e-02\tAbsError: 6.25380e-05\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.02819e+04\tAbsError: 9.43628e+18\n", + " Region: \"zone_1\"\tRelError: 9.68046e+03\tAbsError: 9.26313e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.68046e+03\tAbsError: 9.26313e-02\n", + " Region: \"zone_3\"\tRelError: 1.06015e+04\tAbsError: 9.43628e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.25110e+02\tAbsError: 3.83433e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.95896e+02\tAbsError: 5.60195e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 9.68046e+03\tAbsError: 9.26320e-02\n", + "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: PotentialEquation\n", + "number of equations 22602\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.68177e-08\tAbsError: 1.37298e+08\n", + " Region: \"zone_1\"\tRelError: 2.83992e-09\tAbsError: 2.34907e-11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.83992e-09\tAbsError: 2.34907e-11\n", + " Region: \"zone_3\"\tRelError: 1.39778e-08\tAbsError: 1.37298e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12757e-08\tAbsError: 9.31515e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.32268e-09\tAbsError: 4.41463e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37946e-09\tAbsError: 2.41052e-11\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:49\u001b[0m.\u001b[1;36m631\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.8699999999999999\u001b[0m\n", + "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", + "Iteration: 1\n", + "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 5.63649e+03\tAbsError: 5.73085e+17\n", + " Region: \"zone_1\"\tRelError: 1.94437e+03\tAbsError: 3.20814e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.94437e+03\tAbsError: 3.20814e-02\n", + " Region: \"zone_3\"\tRelError: 3.69212e+03\tAbsError: 5.73085e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.36268e-01\tAbsError: 2.87360e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.24144e-01\tAbsError: 2.85725e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 3.69126e+03\tAbsError: 3.20820e-02\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n" + ] + } + ], + "source": [ + "results_iso = run_heat_sim(sim=sim_iso, log_level=\"DEBUG\")\n", + "subprocess.run([\"cp\", \"-r\", \"tmp\", \"tmp_Ba_example_iso\"]) \n", + "subprocess.run([\"cp\", \"output/simulation_data.hdf5\", \"tmp_Ba_example_iso/\"]) " + ] + }, + { + "cell_type": "code", + "execution_count": 17, + "id": "04d6037a-adb9-4b8c-b319-64074b203f9c", + "metadata": { + "scrolled": true + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:24\u001b[0m.\u001b[1;36m801\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.55 V. Current applied bias: 0.55\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 8.69185e-05\tAbsError: 3.95954e+10\n", + " Region: \"zone_1\"\tRelError: 7.32516e-06\tAbsError: 6.15078e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 7.30759e-06\tAbsError: 3.68566e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75656e-08\tAbsError: 6.11392e-06\n", + " Region: \"zone_3\"\tRelError: 7.95933e-05\tAbsError: 3.95954e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.79841e-06\tAbsError: 1.32431e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.77435e-06\tAbsError: 2.63522e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.40030e-05\tAbsError: 3.69064e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75729e-08\tAbsError: 6.11658e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:25\u001b[0m.\u001b[1;36m081\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: 0.54\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.61549e-04\tAbsError: 5.47840e+10\n", + " Region: \"zone_1\"\tRelError: 1.81900e-05\tAbsError: 1.93945e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.81846e-05\tAbsError: 4.89694e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.43105e-09\tAbsError: 1.89048e-06\n", + " Region: \"zone_3\"\tRelError: 1.43359e-04\tAbsError: 5.47840e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.04114e-06\tAbsError: 2.20323e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.00674e-06\tAbsError: 3.27517e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35306e-04\tAbsError: 4.90033e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.43421e-09\tAbsError: 1.89162e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.14452e-04\tAbsError: 7.30289e+10\n", + " Region: \"zone_1\"\tRelError: 2.86940e-05\tAbsError: 6.36360e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.86759e-05\tAbsError: 5.89548e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.81140e-08\tAbsError: 6.30465e-06\n", + " Region: \"zone_3\"\tRelError: 1.85758e-04\tAbsError: 7.30289e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.82939e-06\tAbsError: 2.93609e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.78814e-06\tAbsError: 4.36680e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.76122e-04\tAbsError: 5.96153e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.81216e-08\tAbsError: 6.30740e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.42427e-04\tAbsError: 5.63748e+10\n", + " Region: \"zone_1\"\tRelError: 1.23755e-05\tAbsError: 6.53179e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.23569e-05\tAbsError: 4.83198e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.86277e-08\tAbsError: 6.48347e-06\n", + " Region: \"zone_3\"\tRelError: 1.30051e-04\tAbsError: 5.63748e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.81534e-06\tAbsError: 2.09516e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.78294e-06\tAbsError: 3.54232e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.22434e-04\tAbsError: 4.86777e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.86354e-08\tAbsError: 6.48630e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 4.17538e+01\tAbsError: 9.25847e+15\n", + " Region: \"zone_1\"\tRelError: 4.00213e+01\tAbsError: 4.34081e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.00213e+01\tAbsError: 4.34059e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.13543e-09\tAbsError: 2.13056e-06\n", + " Region: \"zone_3\"\tRelError: 1.73246e+00\tAbsError: 9.25847e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.89882e-01\tAbsError: 5.37570e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.89829e-01\tAbsError: 3.88277e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.52747e-01\tAbsError: 4.34059e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.13711e-09\tAbsError: 2.13108e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.55715e-06\tAbsError: 1.55373e+09\n", + " Region: \"zone_1\"\tRelError: 2.75443e-07\tAbsError: 3.15707e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.66361e-07\tAbsError: 7.16801e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.08162e-09\tAbsError: 3.15635e-06\n", + " Region: \"zone_3\"\tRelError: 2.28171e-06\tAbsError: 1.55373e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01860e-07\tAbsError: 1.23173e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.92720e-08\tAbsError: 3.21997e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 2.10150e-06\tAbsError: 7.37244e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.08225e-09\tAbsError: 3.15662e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.78742e+01\tAbsError: 9.05161e+15\n", + " Region: \"zone_1\"\tRelError: 1.61544e+01\tAbsError: 4.29358e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.61544e+01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.66407e-09\tAbsError: 1.96688e-06\n", + " Region: \"zone_3\"\tRelError: 1.71987e+00\tAbsError: 9.05161e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86128e-01\tAbsError: 5.27529e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.86079e-01\tAbsError: 3.77633e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.47659e-01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.66503e-09\tAbsError: 1.96717e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:26\u001b[0m.\u001b[1;36m827\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.5 V. Current applied bias: 0.5\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.22665e-05\tAbsError: 5.09033e+09\n", + " Region: \"zone_1\"\tRelError: 4.34074e-06\tAbsError: 3.93347e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.32944e-06\tAbsError: 3.33444e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13089e-08\tAbsError: 3.93013e-06\n", + " Region: \"zone_3\"\tRelError: 1.79258e-05\tAbsError: 5.09033e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.07491e-07\tAbsError: 3.86922e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.88310e-07\tAbsError: 1.22111e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.73186e-05\tAbsError: 3.47370e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13093e-08\tAbsError: 3.93031e-06\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:27\u001b[0m.\u001b[1;36m020\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.6 V. Current applied bias: 0.6\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Iteration: 8\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 2.23392e-05\tAbsError: 5.34475e+09\n", + " Region: \"zone_1\"\tRelError: 2.09068e-06\tAbsError: 2.89040e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.08236e-06\tAbsError: 3.49141e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.31400e-09\tAbsError: 2.88691e-06\n", + " Region: \"zone_3\"\tRelError: 2.02485e-05\tAbsError: 5.34475e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.20754e-07\tAbsError: 3.93870e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.15383e-07\tAbsError: 1.40605e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.96041e-05\tAbsError: 3.63779e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.31461e-09\tAbsError: 2.88716e-06\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:27\u001b[0m.\u001b[1;36m163\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: 0.58\u001b[0m \n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.07279e+01\tAbsError: 1.48541e+15\n", + " Region: \"zone_1\"\tRelError: 9.16669e+00\tAbsError: 7.57653e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.16657e+00\tAbsError: 3.36591e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.21167e-04\tAbsError: 4.21062e-02\n", + " Region: \"zone_3\"\tRelError: 1.56119e+00\tAbsError: 1.48541e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.76744e-01\tAbsError: 8.47073e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.60738e-01\tAbsError: 6.38333e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.23585e-01\tAbsError: 3.36593e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.21167e-04\tAbsError: 4.21062e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.83311e+00\tAbsError: 1.26455e+15\n", + " Region: \"zone_1\"\tRelError: 2.88937e-01\tAbsError: 7.51136e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88816e-01\tAbsError: 3.31003e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20899e-04\tAbsError: 4.20134e-02\n", + " Region: \"zone_3\"\tRelError: 1.54417e+00\tAbsError: 1.26455e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.70125e-01\tAbsError: 7.28712e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.54876e-01\tAbsError: 5.35842e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19050e-01\tAbsError: 3.31004e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20899e-04\tAbsError: 4.20134e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.44671e+02\tAbsError: 8.23352e+15\n", + " Region: \"zone_1\"\tRelError: 5.43003e+02\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.43003e+02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.11267e-10\tAbsError: 1.43080e-07\n", + " Region: \"zone_3\"\tRelError: 1.66763e+00\tAbsError: 8.23352e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.84587e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69628e-01\tAbsError: 3.38765e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28340e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.11422e-10\tAbsError: 1.43134e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.88271e+01\tAbsError: 1.03297e+16\n", + " Region: \"zone_1\"\tRelError: 1.70343e+01\tAbsError: 4.56456e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.70343e+01\tAbsError: 4.56455e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.07702e-10\tAbsError: 1.41907e-07\n", + " Region: \"zone_3\"\tRelError: 1.79279e+00\tAbsError: 1.03297e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.06826e-01\tAbsError: 5.83689e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.06752e-01\tAbsError: 4.49285e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.79207e-01\tAbsError: 4.56455e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.07906e-10\tAbsError: 1.41981e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.41492e+01\tAbsError: 9.89143e+15\n", + " Region: \"zone_1\"\tRelError: 2.23800e+01\tAbsError: 4.47730e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.23800e+01\tAbsError: 4.47728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.25599e-10\tAbsError: 2.17748e-07\n", + " Region: \"zone_3\"\tRelError: 1.76921e+00\tAbsError: 9.89143e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.00389e-01\tAbsError: 5.65978e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.00325e-01\tAbsError: 4.23166e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.68492e-01\tAbsError: 4.47728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.25887e-10\tAbsError: 2.17851e-07\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.78585e+00\tAbsError: 9.41451e+14\n", + " Region: \"zone_1\"\tRelError: 7.13109e-01\tAbsError: 3.44571e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.13084e-01\tAbsError: 2.58762e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.46922e-05\tAbsError: 8.58088e-03\n", + " Region: \"zone_3\"\tRelError: 1.07274e+00\tAbsError: 9.41451e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.00333e-01\tAbsError: 4.29385e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.58044e-01\tAbsError: 5.12066e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14338e-01\tAbsError: 2.58947e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.46922e-05\tAbsError: 8.58088e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.16142e+00\tAbsError: 7.46156e+14\n", + " Region: \"zone_1\"\tRelError: 1.09872e-01\tAbsError: 3.44018e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09847e-01\tAbsError: 2.58558e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.45917e-05\tAbsError: 8.54603e-03\n", + " Region: \"zone_3\"\tRelError: 1.05155e+00\tAbsError: 7.46156e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.89433e-01\tAbsError: 3.46738e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.51496e-01\tAbsError: 3.99417e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10596e-01\tAbsError: 2.58925e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.45917e-05\tAbsError: 8.54603e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 4.93663e+00\tAbsError: 6.37428e+14\n", + " Region: \"zone_1\"\tRelError: 3.46019e+00\tAbsError: 7.21476e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.46007e+00\tAbsError: 3.07635e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", + " Region: \"zone_3\"\tRelError: 1.47644e+00\tAbsError: 6.37428e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.40577e-01\tAbsError: 3.72575e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.27797e-01\tAbsError: 2.64853e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07947e-01\tAbsError: 3.07638e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 4.78493e+01\tAbsError: 3.20100e+15\n", + " Region: \"zone_1\"\tRelError: 4.62100e+01\tAbsError: 7.94945e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.62099e+01\tAbsError: 3.63156e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.24260e-04\tAbsError: 4.31789e-02\n", + " Region: \"zone_3\"\tRelError: 1.63930e+00\tAbsError: 3.20100e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.06426e-01\tAbsError: 1.69245e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.84342e-01\tAbsError: 1.50855e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.48412e-01\tAbsError: 3.63156e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.24260e-04\tAbsError: 4.31789e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.49591e+00\tAbsError: 2.36630e+15\n", + " Region: \"zone_1\"\tRelError: 1.88679e+00\tAbsError: 7.78202e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88667e+00\tAbsError: 3.52795e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22421e-04\tAbsError: 4.25407e-02\n", + " Region: \"zone_3\"\tRelError: 1.60912e+00\tAbsError: 2.36630e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.95285e-01\tAbsError: 1.29391e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.75748e-01\tAbsError: 1.07240e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37963e-01\tAbsError: 3.52796e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22421e-04\tAbsError: 4.25407e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.97805e-01\tAbsError: 4.22171e+14\n", + " Region: \"zone_1\"\tRelError: 1.57599e-01\tAbsError: 1.98078e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.57580e-01\tAbsError: 1.31068e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.92831e-05\tAbsError: 6.70102e-03\n", + " Region: \"zone_3\"\tRelError: 4.40206e-01\tAbsError: 4.22171e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.55362e-01\tAbsError: 2.02981e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.39059e-01\tAbsError: 2.19190e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.57657e-02\tAbsError: 1.31068e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.92831e-05\tAbsError: 6.70102e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.49598e-01\tAbsError: 3.37443e+14\n", + " Region: \"zone_1\"\tRelError: 4.08488e-02\tAbsError: 1.80805e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.08321e-02\tAbsError: 1.22656e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67328e-05\tAbsError: 5.81483e-03\n", + " Region: \"zone_3\"\tRelError: 4.08750e-01\tAbsError: 3.37443e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.41863e-01\tAbsError: 1.59086e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.25055e-01\tAbsError: 1.78357e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.18148e-02\tAbsError: 1.22657e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67328e-05\tAbsError: 5.81483e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.95431e+00\tAbsError: 2.96317e+14\n", + " Region: \"zone_1\"\tRelError: 2.00902e+00\tAbsError: 3.34445e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.00900e+00\tAbsError: 2.58782e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", + " Region: \"zone_3\"\tRelError: 9.45295e-01\tAbsError: 2.96317e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42034e-01\tAbsError: 1.59420e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.10683e-01\tAbsError: 1.36896e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.25558e-02\tAbsError: 2.58843e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.99450e+00\tAbsError: 2.69783e+15\n", + " Region: \"zone_1\"\tRelError: 8.00609e-01\tAbsError: 3.34477e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.00587e-01\tAbsError: 2.57631e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.21384e-05\tAbsError: 7.68460e-03\n", + " Region: \"zone_3\"\tRelError: 1.19389e+00\tAbsError: 2.69783e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.49930e-01\tAbsError: 1.16830e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.12020e-01\tAbsError: 1.52953e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31922e-01\tAbsError: 2.56133e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.21545e-05\tAbsError: 7.69038e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.67527e+00\tAbsError: 1.79984e+15\n", + " Region: \"zone_1\"\tRelError: 5.30726e-01\tAbsError: 3.40936e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.30702e-01\tAbsError: 2.58093e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.38662e-05\tAbsError: 8.28427e-03\n", + " Region: \"zone_3\"\tRelError: 1.14454e+00\tAbsError: 1.79984e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.31015e-01\tAbsError: 7.86562e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.87926e-01\tAbsError: 1.01328e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.25580e-01\tAbsError: 2.58205e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.38792e-05\tAbsError: 8.28883e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.62335e-01\tAbsError: 8.52607e+13\n", + " Region: \"zone_1\"\tRelError: 1.60436e-01\tAbsError: 8.47864e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.60413e-01\tAbsError: 3.10853e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.35349e-05\tAbsError: 8.16779e-03\n", + " Region: \"zone_3\"\tRelError: 1.01899e-01\tAbsError: 8.52607e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.58516e-02\tAbsError: 4.50523e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.50106e-02\tAbsError: 4.02084e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10135e-02\tAbsError: 3.29324e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.35395e-05\tAbsError: 8.16938e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.04059e-01\tAbsError: 6.56185e+13\n", + " Region: \"zone_1\"\tRelError: 1.13333e-02\tAbsError: 6.89729e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13142e-02\tAbsError: 2.55833e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91291e-05\tAbsError: 6.64145e-03\n", + " Region: \"zone_3\"\tRelError: 9.27262e-02\tAbsError: 6.56185e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.04845e-02\tAbsError: 3.55492e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.18771e-02\tAbsError: 3.00692e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03455e-02\tAbsError: 2.71121e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91291e-05\tAbsError: 6.64145e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.90232e-01\tAbsError: 1.27257e+14\n", + " Region: \"zone_1\"\tRelError: 2.88169e-01\tAbsError: 1.34324e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88157e-01\tAbsError: 9.16559e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22923e-05\tAbsError: 4.26682e-03\n", + " Region: \"zone_3\"\tRelError: 3.02062e-01\tAbsError: 1.27257e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98145e-01\tAbsError: 5.59682e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.53461e-02\tAbsError: 7.12890e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.85587e-02\tAbsError: 9.16563e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22942e-05\tAbsError: 4.26755e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.00720e+00\tAbsError: 1.15188e+15\n", + " Region: \"zone_1\"\tRelError: 4.40654e+00\tAbsError: 3.68300e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.40649e+00\tAbsError: 1.76841e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.50999e-05\tAbsError: 1.91459e-02\n", + " Region: \"zone_3\"\tRelError: 6.00656e-01\tAbsError: 1.15188e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.20391e-01\tAbsError: 5.67234e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.11129e-01\tAbsError: 5.84644e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.90811e-02\tAbsError: 1.76842e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.51005e-05\tAbsError: 1.91459e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 6.92102e-01\tAbsError: 7.85625e+14\n", + " Region: \"zone_1\"\tRelError: 1.55937e-01\tAbsError: 2.88894e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55899e-01\tAbsError: 1.57809e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.77234e-05\tAbsError: 1.31085e-02\n", + " Region: \"zone_3\"\tRelError: 5.36165e-01\tAbsError: 7.85625e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.94721e-01\tAbsError: 3.88094e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.82672e-01\tAbsError: 3.97531e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.87349e-02\tAbsError: 1.57810e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.77234e-05\tAbsError: 1.31085e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.22238e-02\tAbsError: 4.20049e+12\n", + " Region: \"zone_1\"\tRelError: 9.02002e-04\tAbsError: 2.21541e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.01377e-04\tAbsError: 4.51852e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.24524e-07\tAbsError: 2.17023e-04\n", + " Region: \"zone_3\"\tRelError: 1.13218e-02\tAbsError: 4.20049e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.21631e-04\tAbsError: 1.57143e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.43383e-04\tAbsError: 2.62907e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04561e-02\tAbsError: 4.55127e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.24524e-07\tAbsError: 2.17023e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 9.70535e-03\tAbsError: 3.37743e+12\n", + " Region: \"zone_1\"\tRelError: 8.78757e-04\tAbsError: 1.91107e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 8.78217e-04\tAbsError: 3.61781e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.39528e-07\tAbsError: 1.87489e-04\n", + " Region: \"zone_3\"\tRelError: 8.82659e-03\tAbsError: 3.37743e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.29951e-04\tAbsError: 1.23275e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.83501e-04\tAbsError: 2.14468e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.11260e-03\tAbsError: 3.63680e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.39528e-07\tAbsError: 1.87489e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.81369e-01\tAbsError: 1.65118e+13\n", + " Region: \"zone_1\"\tRelError: 1.13683e-01\tAbsError: 2.48930e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13676e-01\tAbsError: 7.97182e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", + " Region: \"zone_3\"\tRelError: 6.76863e-02\tAbsError: 1.65118e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.50220e-02\tAbsError: 9.05581e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.84537e-03\tAbsError: 7.45604e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 9.81196e-03\tAbsError: 8.36703e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 5.04216e+00\tAbsError: 2.77132e+14\n", + " Region: \"zone_1\"\tRelError: 4.86460e+00\tAbsError: 1.64874e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.86456e+00\tAbsError: 6.36021e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.56571e-05\tAbsError: 1.58514e-02\n", + " Region: \"zone_3\"\tRelError: 1.77555e-01\tAbsError: 2.77132e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10831e-01\tAbsError: 1.40024e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.52740e-02\tAbsError: 1.37108e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.14041e-02\tAbsError: 6.44948e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.56571e-05\tAbsError: 1.58514e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.46538e-01\tAbsError: 1.72857e+14\n", + " Region: \"zone_1\"\tRelError: 1.03351e-01\tAbsError: 1.21126e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03317e-01\tAbsError: 4.92001e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.34699e-05\tAbsError: 1.16206e-02\n", + " Region: \"zone_3\"\tRelError: 1.43187e-01\tAbsError: 1.72857e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.52949e-02\tAbsError: 8.65648e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.61175e-02\tAbsError: 8.62923e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.17415e-02\tAbsError: 5.11595e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.34699e-05\tAbsError: 1.16206e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.26071e-04\tAbsError: 1.28152e+11\n", + " Region: \"zone_1\"\tRelError: 1.75841e-05\tAbsError: 2.73744e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.67966e-05\tAbsError: 8.67708e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.87521e-07\tAbsError: 2.73657e-04\n", + " Region: \"zone_3\"\tRelError: 2.08487e-04\tAbsError: 1.28152e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03318e-05\tAbsError: 1.00310e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.04880e-06\tAbsError: 2.78416e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.89318e-04\tAbsError: 9.08068e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.87521e-07\tAbsError: 2.73657e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.74946e-04\tAbsError: 1.17170e+11\n", + " Region: \"zone_1\"\tRelError: 2.69263e-05\tAbsError: 2.18382e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.62981e-05\tAbsError: 8.01643e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.28213e-07\tAbsError: 2.18302e-04\n", + " Region: \"zone_3\"\tRelError: 2.48020e-04\tAbsError: 1.17170e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.02611e-06\tAbsError: 9.22316e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.05400e-06\tAbsError: 2.49383e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.31311e-04\tAbsError: 8.38265e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.28213e-07\tAbsError: 2.18302e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 7.11615e-03\tAbsError: 1.08851e+12\n", + " Region: \"zone_1\"\tRelError: 5.30759e-03\tAbsError: 1.67972e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.30711e-03\tAbsError: 1.45981e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", + " Region: \"zone_3\"\tRelError: 1.80856e-03\tAbsError: 1.08851e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43945e-04\tAbsError: 2.92186e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.94756e-05\tAbsError: 7.96320e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.56466e-03\tAbsError: 1.47422e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.71729e-02\tAbsError: 5.98603e+12\n", + " Region: \"zone_1\"\tRelError: 9.52337e-04\tAbsError: 6.34742e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.50533e-04\tAbsError: 7.76974e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.80433e-06\tAbsError: 6.26972e-04\n", + " Region: \"zone_3\"\tRelError: 1.62206e-02\tAbsError: 5.98603e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.52054e-04\tAbsError: 2.22170e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.46515e-04\tAbsError: 3.76433e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.50202e-02\tAbsError: 7.87871e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.80433e-06\tAbsError: 6.26972e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 8.58310e-02\tAbsError: 8.39317e+12\n", + " Region: \"zone_1\"\tRelError: 6.31932e-02\tAbsError: 1.05953e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.31902e-02\tAbsError: 1.15729e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.01602e-06\tAbsError: 1.04796e-03\n", + " Region: \"zone_3\"\tRelError: 2.26378e-02\tAbsError: 8.39317e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.85729e-04\tAbsError: 3.23963e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.66097e-04\tAbsError: 5.15354e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.10829e-02\tAbsError: 1.17300e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.01602e-06\tAbsError: 1.04796e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.12260e-03\tAbsError: 2.61827e+11\n", + " Region: \"zone_1\"\tRelError: 2.35312e-04\tAbsError: 8.30379e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.35289e-04\tAbsError: 1.63368e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.33999e-08\tAbsError: 8.14042e-06\n", + " Region: \"zone_3\"\tRelError: 8.87286e-04\tAbsError: 2.61827e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.54593e-05\tAbsError: 1.30676e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.53483e-05\tAbsError: 1.31151e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 8.56455e-04\tAbsError: 1.68252e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.34097e-08\tAbsError: 8.14375e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 7.74042e-04\tAbsError: 2.09517e+11\n", + " Region: \"zone_1\"\tRelError: 7.83547e-05\tAbsError: 6.01138e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 7.83378e-05\tAbsError: 1.34565e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.68927e-08\tAbsError: 5.87682e-06\n", + " Region: \"zone_3\"\tRelError: 6.95687e-04\tAbsError: 2.09517e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.25872e-05\tAbsError: 1.03107e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.24933e-05\tAbsError: 1.06409e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 6.70590e-04\tAbsError: 1.38390e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69000e-08\tAbsError: 5.87933e-06\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.59900e-03\tAbsError: 1.40711e+11\n", + " Region: \"zone_1\"\tRelError: 2.06948e-03\tAbsError: 6.41578e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06929e-03\tAbsError: 9.09489e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84503e-07\tAbsError: 6.40668e-05\n", + " Region: \"zone_3\"\tRelError: 5.29527e-04\tAbsError: 1.40711e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.39801e-06\tAbsError: 9.47438e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.30618e-06\tAbsError: 4.59674e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.12638e-04\tAbsError: 9.48359e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84568e-07\tAbsError: 6.40878e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.24434e-03\tAbsError: 3.91752e+11\n", + " Region: \"zone_1\"\tRelError: 7.67299e-05\tAbsError: 3.70354e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.56648e-05\tAbsError: 2.52102e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06512e-06\tAbsError: 3.70102e-04\n", + " Region: \"zone_3\"\tRelError: 1.16761e-03\tAbsError: 3.91752e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.51504e-05\tAbsError: 2.67283e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.33744e-05\tAbsError: 1.24469e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11802e-03\tAbsError: 2.65527e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06512e-06\tAbsError: 3.70104e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.66865e-02\tAbsError: 6.43390e+11\n", + " Region: \"zone_1\"\tRelError: 1.46089e-02\tAbsError: 4.93091e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.46075e-02\tAbsError: 4.06773e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41798e-06\tAbsError: 4.92684e-04\n", + " Region: \"zone_3\"\tRelError: 2.07764e-03\tAbsError: 6.43390e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.90233e-05\tAbsError: 4.29245e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.79244e-05\tAbsError: 2.14145e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.99927e-03\tAbsError: 4.25329e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41801e-06\tAbsError: 4.92703e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.95239e-05\tAbsError: 7.21340e+09\n", + " Region: \"zone_1\"\tRelError: 1.93321e-05\tAbsError: 1.67318e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.92840e-05\tAbsError: 6.44594e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.81287e-08\tAbsError: 1.67253e-05\n", + " Region: \"zone_3\"\tRelError: 5.01918e-05\tAbsError: 7.21340e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.16012e-07\tAbsError: 2.75283e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.25510e-07\tAbsError: 4.46057e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 4.91021e-05\tAbsError: 6.58815e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.81495e-08\tAbsError: 1.67326e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.88635e-05\tAbsError: 4.66862e+09\n", + " Region: \"zone_1\"\tRelError: 4.12564e-06\tAbsError: 1.32768e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.08745e-06\tAbsError: 4.74361e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.81931e-08\tAbsError: 1.32720e-05\n", + " Region: \"zone_3\"\tRelError: 3.47379e-05\tAbsError: 4.66862e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.57140e-07\tAbsError: 1.44736e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.64945e-07\tAbsError: 3.22126e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.39776e-05\tAbsError: 4.85044e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.82079e-08\tAbsError: 1.32779e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:37\u001b[0m.\u001b[1;36m811\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: 0.65\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 6.84757e-04\tAbsError: 5.79872e+10\n", + " Region: \"zone_1\"\tRelError: 5.39232e-04\tAbsError: 6.69464e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.39213e-04\tAbsError: 4.49143e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91058e-08\tAbsError: 6.64972e-06\n", + " Region: \"zone_3\"\tRelError: 1.45525e-04\tAbsError: 5.79872e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.71562e-06\tAbsError: 2.34463e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.68397e-06\tAbsError: 3.45410e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.38106e-04\tAbsError: 4.56915e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91137e-08\tAbsError: 6.65261e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.27709e-03\tAbsError: 3.55210e+11\n", + " Region: \"zone_1\"\tRelError: 7.75140e-05\tAbsError: 7.68347e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 7.74925e-05\tAbsError: 2.05171e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.14878e-08\tAbsError: 7.47830e-06\n", + " Region: \"zone_3\"\tRelError: 1.19957e-03\tAbsError: 3.55210e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.97584e-05\tAbsError: 1.77993e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.96259e-05\tAbsError: 1.77217e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16017e-03\tAbsError: 2.13005e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.14968e-08\tAbsError: 7.48159e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.28600e-02\tAbsError: 4.74877e+11\n", + " Region: \"zone_1\"\tRelError: 1.12352e-02\tAbsError: 1.84675e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12351e-02\tAbsError: 2.62164e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.23931e-08\tAbsError: 1.82053e-05\n", + " Region: \"zone_3\"\tRelError: 1.62483e-03\tAbsError: 4.74877e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52780e-05\tAbsError: 2.39181e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.51249e-05\tAbsError: 2.35695e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.57437e-03\tAbsError: 2.67665e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.23931e-08\tAbsError: 1.82053e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.20708e+01\tAbsError: 9.38375e+15\n", + " Region: \"zone_1\"\tRelError: 1.03034e+01\tAbsError: 4.29349e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03034e+01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.20208e-09\tAbsError: 1.11278e-06\n", + " Region: \"zone_3\"\tRelError: 1.76735e+00\tAbsError: 9.38375e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86030e-01\tAbsError: 4.95036e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.85888e-01\tAbsError: 4.43339e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.95437e-01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.20329e-09\tAbsError: 1.11320e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.02364e-04\tAbsError: 5.62247e+09\n", + " Region: \"zone_1\"\tRelError: 8.15379e-05\tAbsError: 3.03368e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.15291e-05\tAbsError: 3.57289e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.71937e-09\tAbsError: 3.03011e-06\n", + " Region: \"zone_3\"\tRelError: 2.08260e-05\tAbsError: 5.62247e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.14319e-07\tAbsError: 4.05600e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.09034e-07\tAbsError: 1.56647e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.01939e-05\tAbsError: 3.71851e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.71944e-09\tAbsError: 3.03019e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 9.67016e-06\tAbsError: 5.74516e+09\n", + " Region: \"zone_1\"\tRelError: 6.60113e-07\tAbsError: 2.15591e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.98078e-07\tAbsError: 2.63279e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.20343e-08\tAbsError: 2.15565e-05\n", + " Region: \"zone_3\"\tRelError: 9.01005e-06\tAbsError: 5.74516e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.59313e-07\tAbsError: 5.10906e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.57242e-07\tAbsError: 6.36096e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 8.13143e-06\tAbsError: 2.71356e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.20615e-08\tAbsError: 2.15660e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.69643e-04\tAbsError: 1.47420e+10\n", + " Region: \"zone_1\"\tRelError: 1.45495e-04\tAbsError: 2.80955e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.45414e-04\tAbsError: 7.53367e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.08344e-08\tAbsError: 2.80880e-05\n", + " Region: \"zone_3\"\tRelError: 2.41485e-05\tAbsError: 1.47420e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.10279e-07\tAbsError: 1.16771e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.44925e-07\tAbsError: 3.06488e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.24124e-05\tAbsError: 7.88086e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.08691e-08\tAbsError: 2.81001e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:39\u001b[0m.\u001b[1;36m876\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: 0.7\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:39\u001b[0m.\u001b[1;36m964\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:40\u001b[0m.\u001b[1;36m013\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.75 bias\u001b[0m \n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:40\u001b[0m.\u001b[1;36m060\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.75513e+00\tAbsError: 7.04878e+15\n", + " Region: \"zone_1\"\tRelError: 1.90080e-01\tAbsError: 7.81805e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.89950e-01\tAbsError: 3.31001e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.29742e-04\tAbsError: 4.50804e-02\n", + " Region: \"zone_3\"\tRelError: 1.56505e+00\tAbsError: 7.04878e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67981e-01\tAbsError: 3.36624e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.39518e-01\tAbsError: 3.68255e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.57423e-01\tAbsError: 3.31002e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.29742e-04\tAbsError: 4.50804e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.62671e-05\tAbsError: 3.10482e+09\n", + " Region: \"zone_1\"\tRelError: 3.66806e-05\tAbsError: 2.21724e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 3.66799e-05\tAbsError: 2.06476e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.31104e-10\tAbsError: 2.19659e-07\n", + " Region: \"zone_3\"\tRelError: 9.58659e-06\tAbsError: 3.10482e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88628e-07\tAbsError: 1.51765e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.86687e-07\tAbsError: 1.58718e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 9.21065e-06\tAbsError: 2.10348e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.31398e-10\tAbsError: 2.19764e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.08650e+01\tAbsError: 3.91395e+16\n", + " Region: \"zone_1\"\tRelError: 2.64221e+01\tAbsError: 7.53955e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.64221e+01\tAbsError: 7.53940e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.29236e-09\tAbsError: 1.49165e-06\n", + " Region: \"zone_3\"\tRelError: 3.44429e+01\tAbsError: 3.91395e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.38671e+01\tAbsError: 2.06460e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.03435e+01\tAbsError: 1.84936e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.32357e-01\tAbsError: 7.53940e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.29383e-09\tAbsError: 1.49216e-06\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 8.80001e-04\tAbsError: 2.77064e+10\n", + " Region: \"zone_1\"\tRelError: 7.72213e-04\tAbsError: 7.92012e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 7.72211e-04\tAbsError: 1.37821e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.24149e-09\tAbsError: 7.78230e-07\n", + " Region: \"zone_3\"\tRelError: 1.07787e-04\tAbsError: 2.77064e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.42447e-06\tAbsError: 1.54677e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.41534e-06\tAbsError: 1.22386e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04945e-04\tAbsError: 1.43316e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.24213e-09\tAbsError: 7.78437e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.11831e+01\tAbsError: 1.42484e+16\n", + " Region: \"zone_1\"\tRelError: 2.93524e+01\tAbsError: 4.47737e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.93524e+01\tAbsError: 4.47728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.83682e-09\tAbsError: 9.85742e-07\n", + " Region: \"zone_3\"\tRelError: 1.83065e+00\tAbsError: 1.42484e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.00155e-01\tAbsError: 7.24354e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.99947e-01\tAbsError: 7.00487e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.30545e-01\tAbsError: 4.47728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.83682e-09\tAbsError: 9.85743e-07\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.21630e+00\tAbsError: 5.18264e+15\n", + " Region: \"zone_1\"\tRelError: 1.31236e-01\tAbsError: 3.17671e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31218e-01\tAbsError: 2.57644e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72758e-05\tAbsError: 6.00278e-03\n", + " Region: \"zone_3\"\tRelError: 1.08506e+00\tAbsError: 5.18264e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.91482e-01\tAbsError: 2.47681e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.47298e-01\tAbsError: 2.70583e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.46263e-01\tAbsError: 2.58377e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72758e-05\tAbsError: 6.00278e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 5.08889e-05\tAbsError: 7.24317e+08\n", + " Region: \"zone_1\"\tRelError: 4.50261e-05\tAbsError: 1.77627e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.50210e-05\tAbsError: 5.70798e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.11028e-09\tAbsError: 1.77570e-06\n", + " Region: \"zone_3\"\tRelError: 5.86272e-06\tAbsError: 7.24317e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.93674e-08\tAbsError: 3.18976e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.07369e-08\tAbsError: 4.05341e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 5.75751e-06\tAbsError: 5.85488e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.11142e-09\tAbsError: 1.77610e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.74440e+03\tAbsError: 9.91965e+15\n", + " Region: \"zone_1\"\tRelError: 1.07784e+00\tAbsError: 2.35444e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07737e+00\tAbsError: 7.09269e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73206e-04\tAbsError: 1.64517e-01\n", + " Region: \"zone_3\"\tRelError: 3.74333e+03\tAbsError: 9.91965e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.37749e+01\tAbsError: 5.01980e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.68934e+03\tAbsError: 4.89985e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06276e-01\tAbsError: 7.09271e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73206e-04\tAbsError: 1.64517e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 4.45723e+00\tAbsError: 1.63266e+16\n", + " Region: \"zone_1\"\tRelError: 2.81667e+00\tAbsError: 1.05674e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.81646e+00\tAbsError: 3.52793e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.02626e-04\tAbsError: 7.03945e-02\n", + " Region: \"zone_3\"\tRelError: 1.64056e+00\tAbsError: 1.63266e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91761e-01\tAbsError: 8.00317e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.61788e-01\tAbsError: 8.32341e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86811e-01\tAbsError: 3.52793e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.02626e-04\tAbsError: 7.03945e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:43\u001b[0m.\u001b[1;36m408\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:43\u001b[0m.\u001b[1;36m440\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.8 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:43\u001b[0m.\u001b[1;36m468\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 3\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 5.70365e-01\tAbsError: 1.98816e+15\n", + " Region: \"zone_1\"\tRelError: 1.29557e-01\tAbsError: 5.07227e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29446e-01\tAbsError: 1.22662e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10816e-04\tAbsError: 3.84565e-02\n", + " Region: \"zone_3\"\tRelError: 4.40808e-01\tAbsError: 1.98816e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.36802e-01\tAbsError: 1.06250e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.52219e-01\tAbsError: 9.25662e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.16747e-02\tAbsError: 1.22663e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11508e-04\tAbsError: 3.86954e-02\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 5.58930e+02\tAbsError: 7.27584e+15\n", + " Region: \"zone_1\"\tRelError: 7.93812e-01\tAbsError: 8.13553e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.93768e-01\tAbsError: 6.58787e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.45635e-05\tAbsError: 1.54766e-02\n", + " Region: \"zone_3\"\tRelError: 5.58137e+02\tAbsError: 7.27584e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.07952e+01\tAbsError: 2.69436e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.17061e+02\tAbsError: 4.58148e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.80139e-01\tAbsError: 6.58787e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.45635e-05\tAbsError: 1.54766e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.61395e+00\tAbsError: 1.26801e+16\n", + " Region: \"zone_1\"\tRelError: 4.05768e-01\tAbsError: 5.54621e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.05683e-01\tAbsError: 2.56990e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.56785e-05\tAbsError: 2.97631e-02\n", + " Region: \"zone_3\"\tRelError: 1.20818e+00\tAbsError: 1.26801e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.30811e-01\tAbsError: 6.31874e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.95490e-01\tAbsError: 6.36135e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.81798e-01\tAbsError: 2.45098e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.57611e-05\tAbsError: 2.97924e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.85348e+01\tAbsError: 3.33183e+16\n", + " Region: \"zone_1\"\tRelError: 1.40835e+01\tAbsError: 7.25192e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40835e+01\tAbsError: 7.25190e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.06764e-10\tAbsError: 1.76108e-07\n", + " Region: \"zone_3\"\tRelError: 5.44513e+01\tAbsError: 3.33183e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.58563e+01\tAbsError: 1.83639e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.83884e+01\tAbsError: 1.49544e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06615e-01\tAbsError: 7.25190e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.06930e-10\tAbsError: 1.76171e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:44\u001b[0m.\u001b[1;36m695\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:44\u001b[0m.\u001b[1;36m731\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.85 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:44\u001b[0m.\u001b[1;36m763\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.63797e-01\tAbsError: 3.64765e+14\n", + " Region: \"zone_1\"\tRelError: 1.74354e-02\tAbsError: 3.39678e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.73383e-02\tAbsError: 2.51825e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.71283e-05\tAbsError: 3.37160e-02\n", + " Region: \"zone_3\"\tRelError: 1.46362e-01\tAbsError: 3.64765e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.05471e-02\tAbsError: 2.16352e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.33909e-02\tAbsError: 1.48413e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.23269e-02\tAbsError: 2.62821e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.71283e-05\tAbsError: 3.37160e-02\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 7.39784e+01\tAbsError: 4.25646e+14\n", + " Region: \"zone_1\"\tRelError: 1.20510e-01\tAbsError: 9.75069e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20403e-01\tAbsError: 6.01031e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.07573e-04\tAbsError: 3.74038e-02\n", + " Region: \"zone_3\"\tRelError: 7.38579e+01\tAbsError: 4.25646e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.71227e+01\tAbsError: 2.73214e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.66147e+01\tAbsError: 1.52432e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20428e-01\tAbsError: 6.01031e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.07573e-04\tAbsError: 3.74038e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 9.54736e-01\tAbsError: 5.35441e+15\n", + " Region: \"zone_1\"\tRelError: 3.96144e-01\tAbsError: 8.53966e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.95944e-01\tAbsError: 1.57805e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.00443e-04\tAbsError: 6.96161e-02\n", + " Region: \"zone_3\"\tRelError: 5.58592e-01\tAbsError: 5.35441e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.89869e-01\tAbsError: 2.68572e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.92706e-01\tAbsError: 2.66870e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.58172e-02\tAbsError: 1.57805e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.00499e-04\tAbsError: 6.96306e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 8.06708e+01\tAbsError: 6.27680e+16\n", + " Region: \"zone_1\"\tRelError: 4.86663e+01\tAbsError: 7.79816e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.86663e+01\tAbsError: 7.79815e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.55907e-10\tAbsError: 1.58416e-07\n", + " Region: \"zone_3\"\tRelError: 3.20045e+01\tAbsError: 6.27680e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.14175e+01\tAbsError: 3.43987e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.03250e+01\tAbsError: 2.83694e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.62020e-01\tAbsError: 7.79815e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.56011e-10\tAbsError: 1.58453e-07\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 5.86885e+02\tAbsError: 3.75531e+15\n", + " Region: \"zone_1\"\tRelError: 2.91550e-01\tAbsError: 1.88467e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.91202e-01\tAbsError: 6.76847e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.47432e-04\tAbsError: 1.20783e-01\n", + " Region: \"zone_3\"\tRelError: 5.86593e+02\tAbsError: 3.75531e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.80952e+01\tAbsError: 1.94186e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.58338e+02\tAbsError: 1.81345e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.59709e-01\tAbsError: 6.76849e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.47432e-04\tAbsError: 1.20783e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.80286e-02\tAbsError: 1.80043e+13\n", + " Region: \"zone_1\"\tRelError: 5.97130e-03\tAbsError: 5.99908e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.96961e-03\tAbsError: 1.31746e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.68890e-06\tAbsError: 5.86733e-04\n", + " Region: \"zone_3\"\tRelError: 5.20573e-02\tAbsError: 1.80043e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.22256e-03\tAbsError: 7.89900e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.11166e-03\tAbsError: 1.01053e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.97214e-02\tAbsError: 1.37677e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.68890e-06\tAbsError: 5.86733e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.88537e+02\tAbsError: 5.54056e+14\n", + " Region: \"zone_1\"\tRelError: 9.55706e-02\tAbsError: 5.68586e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.55607e-02\tAbsError: 5.34036e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.94226e-06\tAbsError: 3.45499e-03\n", + " Region: \"zone_3\"\tRelError: 2.88441e+02\tAbsError: 5.54056e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01149e+02\tAbsError: 4.03929e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.87196e+02\tAbsError: 1.50127e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.56736e-02\tAbsError: 5.34036e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.94326e-06\tAbsError: 3.45537e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 3.44525e-01\tAbsError: 1.06041e+15\n", + " Region: \"zone_1\"\tRelError: 9.75460e-02\tAbsError: 7.81452e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.73221e-02\tAbsError: 4.45656e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.23905e-04\tAbsError: 7.76995e-02\n", + " Region: \"zone_3\"\tRelError: 2.46979e-01\tAbsError: 1.06041e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.07506e-02\tAbsError: 5.91244e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.56972e-02\tAbsError: 4.69170e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.30307e-01\tAbsError: 4.58663e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.23905e-04\tAbsError: 7.76995e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 6.64004e+02\tAbsError: 3.19562e+16\n", + " Region: \"zone_1\"\tRelError: 1.02711e+01\tAbsError: 3.71341e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02703e+01\tAbsError: 7.38247e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.55520e-04\tAbsError: 2.97517e-01\n", + " Region: \"zone_3\"\tRelError: 6.53733e+02\tAbsError: 3.19562e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.97454e+01\tAbsError: 1.62663e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.33455e+02\tAbsError: 1.56900e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 5.31683e-01\tAbsError: 7.38249e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.55520e-04\tAbsError: 2.97517e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 9.19464e+02\tAbsError: 4.04524e+15\n", + " Region: \"zone_1\"\tRelError: 4.46837e-01\tAbsError: 1.06447e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.46710e-01\tAbsError: 6.21780e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27338e-04\tAbsError: 4.42687e-02\n", + " Region: \"zone_3\"\tRelError: 9.19017e+02\tAbsError: 4.04524e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.57418e+01\tAbsError: 2.06871e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.03094e+02\tAbsError: 1.97653e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.80848e-01\tAbsError: 6.21780e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27373e-04\tAbsError: 4.42827e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.25730e-04\tAbsError: 4.09198e+11\n", + " Region: \"zone_1\"\tRelError: 8.09639e-05\tAbsError: 1.05680e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.79223e-05\tAbsError: 2.31215e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.04151e-06\tAbsError: 1.05657e-03\n", + " Region: \"zone_3\"\tRelError: 6.44766e-04\tAbsError: 4.09198e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.69437e-05\tAbsError: 3.66831e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.46261e-05\tAbsError: 4.23676e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 6.00155e-04\tAbsError: 2.35772e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.04158e-06\tAbsError: 1.05661e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.61612e+04\tAbsError: 1.37906e+14\n", + " Region: \"zone_1\"\tRelError: 7.41751e-02\tAbsError: 5.38905e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.41510e-02\tAbsError: 4.55245e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.40596e-05\tAbsError: 8.36596e-03\n", + " Region: \"zone_3\"\tRelError: 4.61611e+04\tAbsError: 1.37906e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.25911e+04\tAbsError: 9.87600e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.56996e+03\tAbsError: 3.91463e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.43675e-02\tAbsError: 4.55246e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.40596e-05\tAbsError: 8.36596e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.36002e-01\tAbsError: 6.07978e+13\n", + " Region: \"zone_1\"\tRelError: 6.95111e-02\tAbsError: 9.25006e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.95086e-02\tAbsError: 2.72112e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.58714e-06\tAbsError: 8.97795e-04\n", + " Region: \"zone_3\"\tRelError: 1.66491e-01\tAbsError: 6.07978e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.38802e-03\tAbsError: 2.95297e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.19525e-03\tAbsError: 3.12681e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.61905e-01\tAbsError: 2.72112e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.58878e-06\tAbsError: 8.98338e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 3.77528e+02\tAbsError: 1.23430e+16\n", + " Region: \"zone_1\"\tRelError: 1.29894e+00\tAbsError: 1.91163e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29859e+00\tAbsError: 6.91599e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.50937e-04\tAbsError: 1.22003e-01\n", + " Region: \"zone_3\"\tRelError: 3.76229e+02\tAbsError: 1.23430e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.27510e+02\tAbsError: 2.69801e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.48205e+02\tAbsError: 9.64500e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.13796e-01\tAbsError: 6.91599e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.50937e-04\tAbsError: 1.22003e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 8.02047e+01\tAbsError: 4.76727e+14\n", + " Region: \"zone_1\"\tRelError: 1.04826e-01\tAbsError: 8.34367e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04746e-01\tAbsError: 5.58213e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.94195e-05\tAbsError: 2.76154e-02\n", + " Region: \"zone_3\"\tRelError: 8.00998e+01\tAbsError: 4.76727e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.85718e+01\tAbsError: 3.07028e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.14232e+01\tAbsError: 1.69700e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04769e-01\tAbsError: 5.58213e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.94195e-05\tAbsError: 2.76154e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.50762e-03\tAbsError: 1.02667e+12\n", + " Region: \"zone_1\"\tRelError: 4.77667e-04\tAbsError: 4.19184e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.77548e-04\tAbsError: 5.13940e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19272e-07\tAbsError: 4.14045e-05\n", + " Region: \"zone_3\"\tRelError: 4.02995e-03\tAbsError: 1.02667e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.92271e-05\tAbsError: 5.17713e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.89991e-05\tAbsError: 5.08953e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.93161e-03\tAbsError: 5.31847e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19272e-07\tAbsError: 4.14045e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.46711e+02\tAbsError: 5.06500e+13\n", + " Region: \"zone_1\"\tRelError: 5.45390e-02\tAbsError: 3.77284e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.45345e-02\tAbsError: 3.61717e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.48202e-06\tAbsError: 1.55673e-03\n", + " Region: \"zone_3\"\tRelError: 1.46656e+02\tAbsError: 5.06500e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.45480e+02\tAbsError: 2.85847e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.12174e+00\tAbsError: 2.20653e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.48383e-02\tAbsError: 3.61718e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.48202e-06\tAbsError: 1.55673e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.92621e+03\tAbsError: 3.52155e+15\n", + " Region: \"zone_1\"\tRelError: 3.93767e-01\tAbsError: 1.13500e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.93624e-01\tAbsError: 6.38659e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42910e-04\tAbsError: 4.96339e-02\n", + " Region: \"zone_3\"\tRelError: 1.92581e+03\tAbsError: 3.52155e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17500e+01\tAbsError: 2.11357e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.86377e+03\tAbsError: 1.40799e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.90752e-01\tAbsError: 6.38659e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42910e-04\tAbsError: 4.96339e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.46362e-03\tAbsError: 8.86968e+11\n", + " Region: \"zone_1\"\tRelError: 6.90137e-04\tAbsError: 2.34211e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.83394e-04\tAbsError: 6.31008e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.74299e-06\tAbsError: 2.34148e-03\n", + " Region: \"zone_3\"\tRelError: 1.77348e-03\tAbsError: 8.86968e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.15266e-05\tAbsError: 4.91411e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.00836e-05\tAbsError: 3.95557e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.70513e-03\tAbsError: 6.41498e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.74370e-06\tAbsError: 2.34177e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.92390e+03\tAbsError: 8.33185e+13\n", + " Region: \"zone_1\"\tRelError: 8.16755e-02\tAbsError: 4.91163e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.16734e-02\tAbsError: 4.83794e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.11914e-06\tAbsError: 7.36892e-04\n", + " Region: \"zone_3\"\tRelError: 6.92382e+03\tAbsError: 8.33185e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.79886e+03\tAbsError: 3.08110e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.24871e+02\tAbsError: 5.25076e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.18178e-02\tAbsError: 4.83795e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.11914e-06\tAbsError: 7.36892e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.87878e-04\tAbsError: 3.71113e+10\n", + " Region: \"zone_1\"\tRelError: 3.08061e-05\tAbsError: 6.36156e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.06230e-05\tAbsError: 2.65699e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83040e-07\tAbsError: 6.35890e-05\n", + " Region: \"zone_3\"\tRelError: 2.57072e-04\tAbsError: 3.71113e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.17303e-06\tAbsError: 1.49809e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.20928e-06\tAbsError: 2.21304e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.52507e-04\tAbsError: 2.72049e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83108e-07\tAbsError: 6.36126e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.26686e+00\tAbsError: 1.15324e+13\n", + " Region: \"zone_1\"\tRelError: 4.20255e-02\tAbsError: 2.90045e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.20165e-02\tAbsError: 2.58850e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.98143e-06\tAbsError: 3.11954e-03\n", + " Region: \"zone_3\"\tRelError: 1.22484e+00\tAbsError: 1.15324e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99994e-01\tAbsError: 7.07820e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.82489e-01\tAbsError: 4.45424e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.23455e-02\tAbsError: 2.58807e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.98143e-06\tAbsError: 3.11954e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 4.93407e+02\tAbsError: 4.86622e+14\n", + " Region: \"zone_1\"\tRelError: 1.09282e-01\tAbsError: 8.57972e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09202e-01\tAbsError: 5.77790e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.05790e-05\tAbsError: 2.80182e-02\n", + " Region: \"zone_3\"\tRelError: 4.93298e+02\tAbsError: 4.86622e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07506e+02\tAbsError: 1.60245e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.85683e+02\tAbsError: 3.26377e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09279e-01\tAbsError: 5.77791e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.05790e-05\tAbsError: 2.80182e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.80479e-02\tAbsError: 2.50346e+12\n", + " Region: \"zone_1\"\tRelError: 5.40374e-03\tAbsError: 1.30048e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.40337e-03\tAbsError: 1.04735e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.71722e-07\tAbsError: 1.29001e-04\n", + " Region: \"zone_3\"\tRelError: 1.26441e-02\tAbsError: 2.50346e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.73060e-05\tAbsError: 1.25473e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.65146e-05\tAbsError: 1.24873e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.24499e-02\tAbsError: 1.06992e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.71735e-07\tAbsError: 1.29002e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.47740e+03\tAbsError: 2.32331e+13\n", + " Region: \"zone_1\"\tRelError: 6.14540e-02\tAbsError: 4.24419e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.14457e-02\tAbsError: 3.95640e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.28570e-06\tAbsError: 2.87786e-03\n", + " Region: \"zone_3\"\tRelError: 3.47734e+03\tAbsError: 2.32331e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.47473e+03\tAbsError: 7.88349e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.54397e+00\tAbsError: 1.53496e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.16827e-02\tAbsError: 3.95641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.28570e-06\tAbsError: 2.87786e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 3.15874e-04\tAbsError: 6.29995e+10\n", + " Region: \"zone_1\"\tRelError: 3.36655e-05\tAbsError: 6.22152e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.36476e-05\tAbsError: 2.89646e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.78252e-08\tAbsError: 6.19255e-06\n", + " Region: \"zone_3\"\tRelError: 2.82208e-04\tAbsError: 6.29995e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.92738e-06\tAbsError: 3.54342e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.90850e-06\tAbsError: 2.75653e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.76354e-04\tAbsError: 2.97673e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.78310e-08\tAbsError: 6.19458e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.49568e+06\tAbsError: 2.62728e+12\n", + " Region: \"zone_1\"\tRelError: 2.30462e-02\tAbsError: 2.12762e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.30351e-02\tAbsError: 1.74104e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11298e-05\tAbsError: 3.86578e-03\n", + " Region: \"zone_3\"\tRelError: 1.49568e+06\tAbsError: 2.62728e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.49568e+06\tAbsError: 1.23253e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.03928e-02\tAbsError: 1.39475e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.34298e-02\tAbsError: 1.74105e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11298e-05\tAbsError: 3.86578e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.25727e+02\tAbsError: 4.16178e+14\n", + " Region: \"zone_1\"\tRelError: 8.59757e-02\tAbsError: 5.54955e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.59618e-02\tAbsError: 5.06821e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.38444e-05\tAbsError: 4.81334e-03\n", + " Region: \"zone_3\"\tRelError: 4.25641e+02\tAbsError: 4.16178e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.19904e+02\tAbsError: 2.66373e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.65014e+00\tAbsError: 1.49805e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.62548e-02\tAbsError: 5.06822e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.38449e-05\tAbsError: 4.81369e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.45380e-03\tAbsError: 1.53142e+11\n", + " Region: \"zone_1\"\tRelError: 4.36448e-04\tAbsError: 1.39694e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.36046e-04\tAbsError: 7.04413e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.02062e-07\tAbsError: 1.39623e-04\n", + " Region: \"zone_3\"\tRelError: 1.01735e-03\tAbsError: 1.53142e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.93160e-06\tAbsError: 7.62931e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.97976e-06\tAbsError: 7.68486e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00504e-03\tAbsError: 7.23938e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.02172e-07\tAbsError: 1.39662e-04\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.92670e-05\tAbsError: 5.95028e+09\n", + " Region: \"zone_1\"\tRelError: 4.20495e-06\tAbsError: 4.23098e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.19278e-06\tAbsError: 3.10942e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.21699e-08\tAbsError: 4.22787e-06\n", + " Region: \"zone_3\"\tRelError: 3.50620e-05\tAbsError: 5.95028e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.01282e-07\tAbsError: 3.34784e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.02333e-07\tAbsError: 2.60243e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.44462e-05\tAbsError: 3.17149e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.21718e-08\tAbsError: 4.22856e-06\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.23060e+03\tAbsError: 1.13927e+13\n", + " Region: \"zone_1\"\tRelError: 4.39038e-02\tAbsError: 3.18697e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.38959e-02\tAbsError: 2.91306e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.88625e-06\tAbsError: 2.73914e-03\n", + " Region: \"zone_3\"\tRelError: 2.23056e+03\tAbsError: 1.13927e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.23014e+03\tAbsError: 6.81734e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.75883e-01\tAbsError: 4.57539e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.44473e-02\tAbsError: 2.91306e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.88625e-06\tAbsError: 2.73914e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.00227e+00\tAbsError: 2.54667e+12\n", + " Region: \"zone_1\"\tRelError: 1.21369e-04\tAbsError: 6.00683e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04100e-04\tAbsError: 8.81970e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72683e-05\tAbsError: 5.99801e-03\n", + " Region: \"zone_3\"\tRelError: 1.00214e+00\tAbsError: 2.54667e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99998e-01\tAbsError: 8.50699e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.16160e-03\tAbsError: 1.69597e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 9.67964e-04\tAbsError: 9.25856e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72683e-05\tAbsError: 5.99801e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.47587e+03\tAbsError: 1.37021e+14\n", + " Region: \"zone_1\"\tRelError: 6.58552e-02\tAbsError: 4.40073e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.58503e-02\tAbsError: 4.22991e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.91268e-06\tAbsError: 1.70821e-03\n", + " Region: \"zone_3\"\tRelError: 1.47580e+03\tAbsError: 1.37021e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.37201e+03\tAbsError: 9.48995e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03732e+02\tAbsError: 4.21217e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.61976e-02\tAbsError: 4.22992e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.91268e-06\tAbsError: 1.70821e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.24475e-03\tAbsError: 1.53017e+11\n", + " Region: \"zone_1\"\tRelError: 3.73962e-04\tAbsError: 1.57755e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.73917e-04\tAbsError: 5.81035e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.52602e-08\tAbsError: 1.57174e-05\n", + " Region: \"zone_3\"\tRelError: 8.70784e-04\tAbsError: 1.53017e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.73394e-06\tAbsError: 7.95928e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.67445e-06\tAbsError: 7.34246e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 8.59331e-04\tAbsError: 6.03244e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.52710e-08\tAbsError: 1.57212e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.11435e+00\tAbsError: 2.56027e+12\n", + " Region: \"zone_1\"\tRelError: 3.31148e-02\tAbsError: 2.80077e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.31053e-02\tAbsError: 2.47258e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.44895e-06\tAbsError: 3.28195e-03\n", + " Region: \"zone_3\"\tRelError: 1.08123e+00\tAbsError: 2.56027e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99686e-01\tAbsError: 1.22484e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.79624e-02\tAbsError: 1.33543e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.35769e-02\tAbsError: 2.47260e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.44895e-06\tAbsError: 3.28195e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 7.30356e-03\tAbsError: 3.16323e+12\n", + " Region: \"zone_1\"\tRelError: 7.06000e-04\tAbsError: 8.08571e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.05779e-04\tAbsError: 3.89462e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.21331e-07\tAbsError: 7.69624e-05\n", + " Region: \"zone_3\"\tRelError: 6.59756e-03\tAbsError: 3.16323e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.65369e-04\tAbsError: 9.98710e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.29064e-04\tAbsError: 2.16452e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.80290e-03\tAbsError: 3.94132e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.21331e-07\tAbsError: 7.69624e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.70866e-04\tAbsError: 1.74039e+10\n", + " Region: \"zone_1\"\tRelError: 5.14065e-05\tAbsError: 9.22102e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.13801e-05\tAbsError: 7.07909e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.64848e-08\tAbsError: 9.21394e-06\n", + " Region: \"zone_3\"\tRelError: 1.19459e-04\tAbsError: 1.74039e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.74477e-07\tAbsError: 8.71301e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.73252e-07\tAbsError: 8.69090e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18085e-04\tAbsError: 7.35517e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.64949e-08\tAbsError: 9.21749e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:55\u001b[0m.\u001b[1;36m243\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.08407e+00\tAbsError: 2.56590e+13\n", + " Region: \"zone_1\"\tRelError: 4.70180e-02\tAbsError: 3.66279e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.70057e-02\tAbsError: 3.23496e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.23179e-05\tAbsError: 4.27834e-03\n", + " Region: \"zone_3\"\tRelError: 2.03705e+00\tAbsError: 2.56590e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.97938e-01\tAbsError: 1.32544e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.91702e-01\tAbsError: 1.24046e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.74027e-02\tAbsError: 3.23497e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.23179e-05\tAbsError: 4.27834e-03\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:55\u001b[0m.\u001b[1;36m288\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.9 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:55\u001b[0m.\u001b[1;36m340\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 7.92908e-01\tAbsError: 1.90893e+12\n", + " Region: \"zone_1\"\tRelError: 7.45423e-05\tAbsError: 6.94713e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.45496e-05\tAbsError: 2.82529e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.99927e-05\tAbsError: 6.94431e-03\n", + " Region: \"zone_3\"\tRelError: 7.92833e-01\tAbsError: 1.90893e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.92004e-01\tAbsError: 5.67421e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.73647e-04\tAbsError: 1.34151e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.52663e-05\tAbsError: 2.88056e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.99927e-05\tAbsError: 6.94431e-03\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 5.00128e-04\tAbsError: 6.52866e+10\n", + " Region: \"zone_1\"\tRelError: 5.30193e-05\tAbsError: 2.05211e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.24288e-05\tAbsError: 6.99366e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.90586e-07\tAbsError: 2.05141e-04\n", + " Region: \"zone_3\"\tRelError: 4.47108e-04\tAbsError: 6.52866e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.25702e-05\tAbsError: 2.98698e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03058e-05\tAbsError: 3.54167e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.23642e-04\tAbsError: 7.09351e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.90608e-07\tAbsError: 2.05151e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 8.44361e+01\tAbsError: 1.41106e+17\n", + " Region: \"zone_1\"\tRelError: 6.61097e+01\tAbsError: 8.03344e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.61097e+01\tAbsError: 8.03338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83834e-09\tAbsError: 6.38649e-07\n", + " Region: \"zone_3\"\tRelError: 1.83264e+01\tAbsError: 1.41106e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 7.30985e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 6.80079e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.26430e-01\tAbsError: 8.03338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83857e-09\tAbsError: 6.38730e-07\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 8.65993e-05\tAbsError: 1.01653e+10\n", + " Region: \"zone_1\"\tRelError: 2.60547e-05\tAbsError: 1.49793e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.60504e-05\tAbsError: 3.97229e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.29429e-09\tAbsError: 1.49396e-06\n", + " Region: \"zone_3\"\tRelError: 6.05446e-05\tAbsError: 1.01653e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.70719e-07\tAbsError: 5.41900e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.66709e-07\tAbsError: 4.74632e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 5.98029e-05\tAbsError: 4.11440e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.29592e-09\tAbsError: 1.49454e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.30668e+04\tAbsError: 7.46291e+12\n", + " Region: \"zone_1\"\tRelError: 3.83242e-02\tAbsError: 2.95562e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.83134e-02\tAbsError: 2.58125e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.07783e-05\tAbsError: 3.74364e-03\n", + " Region: \"zone_3\"\tRelError: 6.30668e+04\tAbsError: 7.46291e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.30664e+04\tAbsError: 3.45167e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.28904e-01\tAbsError: 4.01125e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.90005e-02\tAbsError: 2.57582e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.07783e-05\tAbsError: 3.74364e-03\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 6.28603e-04\tAbsError: 1.99882e+11\n", + " Region: \"zone_1\"\tRelError: 6.39992e-05\tAbsError: 1.73295e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.39498e-05\tAbsError: 1.52893e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.93979e-08\tAbsError: 1.71766e-05\n", + " Region: \"zone_3\"\tRelError: 5.64604e-04\tAbsError: 1.99882e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.04492e-05\tAbsError: 9.24222e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.03161e-05\tAbsError: 1.07460e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.23789e-04\tAbsError: 1.55021e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.94093e-08\tAbsError: 1.71812e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 8.76682e-03\tAbsError: 3.66905e+12\n", + " Region: \"zone_1\"\tRelError: 8.36399e-04\tAbsError: 1.31358e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 8.36034e-04\tAbsError: 4.50885e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.64798e-07\tAbsError: 1.26849e-04\n", + " Region: \"zone_3\"\tRelError: 7.93042e-03\tAbsError: 3.66905e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.57300e-04\tAbsError: 1.17649e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.01683e-04\tAbsError: 2.49256e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 6.87107e-03\tAbsError: 4.56272e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.64798e-07\tAbsError: 1.26849e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 8.37365e+01\tAbsError: 7.67421e+16\n", + " Region: \"zone_1\"\tRelError: 4.53781e+00\tAbsError: 5.57061e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.53643e+00\tAbsError: 7.64430e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.38154e-03\tAbsError: 4.80618e-01\n", + " Region: \"zone_3\"\tRelError: 7.91987e+01\tAbsError: 7.67421e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 4.02016e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.82528e+01\tAbsError: 3.65405e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.94456e+00\tAbsError: 7.64430e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.38154e-03\tAbsError: 4.80618e-01\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 7.78051e-05\tAbsError: 1.62693e+10\n", + " Region: \"zone_1\"\tRelError: 8.16648e-06\tAbsError: 1.33984e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 8.12799e-06\tAbsError: 1.21676e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.84977e-08\tAbsError: 1.33863e-05\n", + " Region: \"zone_3\"\tRelError: 6.96386e-05\tAbsError: 1.62693e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.72931e-06\tAbsError: 8.65618e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.72298e-06\tAbsError: 7.61314e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 6.61478e-05\tAbsError: 1.23316e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.85089e-08\tAbsError: 1.33905e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.03853e+00\tAbsError: 3.18028e+12\n", + " Region: \"zone_1\"\tRelError: 1.44918e-02\tAbsError: 1.58284e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.44785e-02\tAbsError: 1.11984e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.33301e-05\tAbsError: 4.63001e-03\n", + " Region: \"zone_3\"\tRelError: 1.02404e+00\tAbsError: 3.18028e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99981e-01\tAbsError: 1.55439e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.22099e-03\tAbsError: 1.62589e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.48224e-02\tAbsError: 1.11985e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.33301e-05\tAbsError: 4.63001e-03\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:58\u001b[0m.\u001b[1;36m093\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:58\u001b[0m.\u001b[1;36m093\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.20833333333333334\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 10\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 6.96843e-04\tAbsError: 1.13577e+11\n", + " Region: \"zone_1\"\tRelError: 7.40041e-05\tAbsError: 2.40654e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.33116e-05\tAbsError: 1.09664e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.92510e-07\tAbsError: 2.40545e-04\n", + " Region: \"zone_3\"\tRelError: 6.22838e-04\tAbsError: 1.13577e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.45499e-05\tAbsError: 5.24533e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.37560e-05\tAbsError: 6.11233e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.93840e-04\tAbsError: 1.11237e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.92510e-07\tAbsError: 2.40545e-04\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:58\u001b[0m.\u001b[1;36m844\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:58\u001b[0m.\u001b[1;36m875\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.95 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:58\u001b[0m.\u001b[1;36m905\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 4.67971e+03\tAbsError: 3.01461e+16\n", + " Region: \"zone_1\"\tRelError: 4.04216e+01\tAbsError: 2.77713e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.04210e+01\tAbsError: 7.21037e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.91375e-04\tAbsError: 2.05609e-01\n", + " Region: \"zone_3\"\tRelError: 4.63929e+03\tAbsError: 3.01461e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.26446e+03\tAbsError: 1.32531e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.37410e+03\tAbsError: 1.68930e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 7.25285e-01\tAbsError: 7.21037e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.91375e-04\tAbsError: 2.05609e-01\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.78033e-01\tAbsError: 3.70628e+12\n", + " Region: \"zone_1\"\tRelError: 2.47988e-04\tAbsError: 5.43708e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.32390e-04\tAbsError: 1.92962e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.55978e-05\tAbsError: 5.41778e-03\n", + " Region: \"zone_3\"\tRelError: 3.77785e-01\tAbsError: 3.70628e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.74214e-01\tAbsError: 1.32572e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.40773e-03\tAbsError: 2.38056e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.14798e-03\tAbsError: 1.94593e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.55978e-05\tAbsError: 5.41778e-03\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 7.47471e-04\tAbsError: 2.34931e+11\n", + " Region: \"zone_1\"\tRelError: 7.61699e-05\tAbsError: 2.26699e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.61052e-05\tAbsError: 1.79159e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.46815e-08\tAbsError: 2.24908e-05\n", + " Region: \"zone_3\"\tRelError: 6.71301e-04\tAbsError: 2.34931e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.40726e-05\tAbsError: 1.09456e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.39157e-05\tAbsError: 1.25476e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 6.23248e-04\tAbsError: 1.81660e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.46979e-08\tAbsError: 2.24974e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.26592e+01\tAbsError: 9.07666e+15\n", + " Region: \"zone_1\"\tRelError: 6.10008e+01\tAbsError: 4.26161e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.10008e+01\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.53966e-09\tAbsError: 1.92633e-06\n", + " Region: \"zone_3\"\tRelError: 1.65838e+00\tAbsError: 9.07666e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83421e-01\tAbsError: 5.02255e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.83353e-01\tAbsError: 4.05411e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.16036e-02\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.54116e-09\tAbsError: 1.92686e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.45051e+02\tAbsError: 3.22525e+17\n", + " Region: \"zone_1\"\tRelError: 6.54094e+01\tAbsError: 8.24908e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.54094e+01\tAbsError: 8.24901e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.85102e-09\tAbsError: 6.43964e-07\n", + " Region: \"zone_3\"\tRelError: 7.96416e+01\tAbsError: 3.22525e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.35911e+01\tAbsError: 1.62303e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.52689e+01\tAbsError: 1.60222e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 7.81616e-01\tAbsError: 8.24901e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.85177e-09\tAbsError: 6.44234e-07\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 6.72475e-03\tAbsError: 2.85913e+12\n", + " Region: \"zone_1\"\tRelError: 6.31779e-04\tAbsError: 3.90493e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.31676e-04\tAbsError: 3.51587e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.02188e-07\tAbsError: 3.55335e-05\n", + " Region: \"zone_3\"\tRelError: 6.09297e-03\tAbsError: 2.85913e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.08369e-04\tAbsError: 9.02566e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.89143e-04\tAbsError: 1.95656e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.19536e-03\tAbsError: 3.55808e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.02188e-07\tAbsError: 3.55335e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.67873e+03\tAbsError: 1.05528e+16\n", + " Region: \"zone_1\"\tRelError: 1.00757e+00\tAbsError: 1.20375e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00742e+00\tAbsError: 6.72143e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52930e-04\tAbsError: 5.31609e-02\n", + " Region: \"zone_3\"\tRelError: 5.67772e+03\tAbsError: 1.05528e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.39587e+01\tAbsError: 5.79006e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.64342e+03\tAbsError: 4.76271e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 3.37998e-01\tAbsError: 6.72143e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52930e-04\tAbsError: 5.31609e-02\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 9.96706e-05\tAbsError: 2.13761e+10\n", + " Region: \"zone_1\"\tRelError: 1.04456e-05\tAbsError: 1.59397e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03998e-05\tAbsError: 1.57890e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.57957e-08\tAbsError: 1.59239e-05\n", + " Region: \"zone_3\"\tRelError: 8.92250e-05\tAbsError: 2.13761e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.25511e-06\tAbsError: 1.14120e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.24614e-06\tAbsError: 9.96404e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 8.46780e-05\tAbsError: 1.60006e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.58100e-08\tAbsError: 1.59294e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:00\u001b[0m.\u001b[1;36m602\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.2\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.27969e+00\tAbsError: 3.48721e+14\n", + " Region: \"zone_1\"\tRelError: 1.79507e+00\tAbsError: 9.78465e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.79489e+00\tAbsError: 3.27224e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.87321e-04\tAbsError: 6.51242e-02\n", + " Region: \"zone_3\"\tRelError: 1.48462e+00\tAbsError: 3.48721e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.62890e-01\tAbsError: 1.71311e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.57486e-01\tAbsError: 1.77410e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.40543e-02\tAbsError: 3.27228e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.87321e-04\tAbsError: 6.51242e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.82544e+01\tAbsError: 2.10291e+17\n", + " Region: \"zone_1\"\tRelError: 1.04168e+01\tAbsError: 4.87343e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04157e+01\tAbsError: 7.88298e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.17496e-03\tAbsError: 4.08513e-01\n", + " Region: \"zone_3\"\tRelError: 2.78375e+01\tAbsError: 2.10291e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.09352e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.29716e+01\tAbsError: 1.00939e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 5.86472e+00\tAbsError: 7.88298e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.17496e-03\tAbsError: 4.08513e-01\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 3.44573e-04\tAbsError: 2.22312e+10\n", + " Region: \"zone_1\"\tRelError: 3.62300e-05\tAbsError: 1.83529e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.57017e-05\tAbsError: 3.53910e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.28265e-07\tAbsError: 1.83494e-04\n", + " Region: \"zone_3\"\tRelError: 3.08343e-04\tAbsError: 2.22312e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.13840e-05\tAbsError: 9.98484e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.35525e-06\tAbsError: 1.22464e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.87075e-04\tAbsError: 3.58808e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.28288e-07\tAbsError: 1.83504e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.34034e+03\tAbsError: 1.20343e+15\n", + " Region: \"zone_1\"\tRelError: 1.22444e-01\tAbsError: 1.58781e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.22165e-01\tAbsError: 6.16386e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.79375e-04\tAbsError: 9.71428e-02\n", + " Region: \"zone_3\"\tRelError: 1.34022e+03\tAbsError: 1.20343e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.83041e+02\tAbsError: 6.78262e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.57032e+02\tAbsError: 5.25172e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.46551e-01\tAbsError: 6.16387e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.79375e-04\tAbsError: 9.71428e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.15185e+01\tAbsError: 8.37846e+15\n", + " Region: \"zone_1\"\tRelError: 9.89193e+00\tAbsError: 4.09567e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.89193e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.96045e-09\tAbsError: 2.42039e-06\n", + " Region: \"zone_3\"\tRelError: 1.62652e+00\tAbsError: 8.37846e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69532e-01\tAbsError: 4.63620e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69461e-01\tAbsError: 3.74226e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.75319e-02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.96229e-09\tAbsError: 2.42104e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.29078e+00\tAbsError: 4.47109e+13\n", + " Region: \"zone_1\"\tRelError: 2.42382e-01\tAbsError: 3.11434e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.42367e-01\tAbsError: 2.58832e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.51300e-05\tAbsError: 5.26019e-03\n", + " Region: \"zone_3\"\tRelError: 1.04840e+00\tAbsError: 4.47109e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.78941e-01\tAbsError: 3.21718e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.51761e-01\tAbsError: 1.25392e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17681e-01\tAbsError: 2.58952e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.51300e-05\tAbsError: 5.26019e-03\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 5.57184e-04\tAbsError: 1.78594e+11\n", + " Region: \"zone_1\"\tRelError: 5.66836e-05\tAbsError: 1.33048e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.66457e-05\tAbsError: 1.36613e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.78695e-08\tAbsError: 1.31682e-05\n", + " Region: \"zone_3\"\tRelError: 5.00501e-04\tAbsError: 1.78594e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.82685e-05\tAbsError: 8.24428e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.81485e-05\tAbsError: 9.61515e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.64046e-04\tAbsError: 1.38512e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.78774e-08\tAbsError: 1.31711e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 6.93966e+02\tAbsError: 8.18852e+16\n", + " Region: \"zone_1\"\tRelError: 1.61185e+01\tAbsError: 4.86099e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.61173e+01\tAbsError: 7.47713e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18190e-03\tAbsError: 4.11328e-01\n", + " Region: \"zone_3\"\tRelError: 6.77847e+02\tAbsError: 8.18852e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.08584e+02\tAbsError: 4.73922e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.68793e+02\tAbsError: 3.44930e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 4.68594e-01\tAbsError: 7.47714e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18560e-03\tAbsError: 4.12638e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.95686e+02\tAbsError: 6.28264e+14\n", + " Region: \"zone_1\"\tRelError: 9.69104e-02\tAbsError: 6.14111e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.68925e-02\tAbsError: 5.51938e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.78804e-05\tAbsError: 6.21733e-03\n", + " Region: \"zone_3\"\tRelError: 3.95589e+02\tAbsError: 6.28264e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.54891e+02\tAbsError: 3.72710e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.05420e+01\tAbsError: 2.55554e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55752e-01\tAbsError: 5.51939e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.78804e-05\tAbsError: 6.21733e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.94648e+00\tAbsError: 2.98429e+14\n", + " Region: \"zone_1\"\tRelError: 5.14531e-01\tAbsError: 9.09002e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.14358e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72973e-04\tAbsError: 6.01365e-02\n", + " Region: \"zone_3\"\tRelError: 1.43195e+00\tAbsError: 2.98429e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37879e-01\tAbsError: 1.45713e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32394e-01\tAbsError: 1.52715e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.15050e-02\tAbsError: 3.07641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72973e-04\tAbsError: 6.01365e-02\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 6.18426e-05\tAbsError: 1.23605e+10\n", + " Region: \"zone_1\"\tRelError: 6.50735e-06\tAbsError: 1.18225e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.47337e-06\tAbsError: 9.41299e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.39733e-08\tAbsError: 1.18131e-05\n", + " Region: \"zone_3\"\tRelError: 5.53353e-05\tAbsError: 1.23605e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33181e-06\tAbsError: 6.56801e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.32777e-06\tAbsError: 5.79248e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 5.26417e-05\tAbsError: 9.54137e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.39830e-08\tAbsError: 1.18168e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.41241e-01\tAbsError: 2.92135e+12\n", + " Region: \"zone_1\"\tRelError: 1.87261e-02\tAbsError: 1.52077e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87161e-02\tAbsError: 1.17194e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00337e-05\tAbsError: 3.48833e-03\n", + " Region: \"zone_3\"\tRelError: 3.22515e-01\tAbsError: 2.92135e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.35811e-01\tAbsError: 2.03287e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.77298e-02\tAbsError: 8.88478e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.89640e-02\tAbsError: 1.17194e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00341e-05\tAbsError: 3.48852e-03\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:03\u001b[0m.\u001b[1;36m816\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:03\u001b[0m.\u001b[1;36m816\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.20714285714285713\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.62856e+03\tAbsError: 2.33966e+16\n", + " Region: \"zone_1\"\tRelError: 1.79222e+00\tAbsError: 6.25008e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.79062e+00\tAbsError: 7.02256e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59642e-03\tAbsError: 5.54782e-01\n", + " Region: \"zone_3\"\tRelError: 3.62677e+03\tAbsError: 2.33966e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68602e+01\tAbsError: 1.20119e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.54928e+03\tAbsError: 1.13847e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.22038e-01\tAbsError: 7.02257e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59642e-03\tAbsError: 5.54782e-01\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.23312e+02\tAbsError: 1.77523e+14\n", + " Region: \"zone_1\"\tRelError: 7.60374e-02\tAbsError: 4.96944e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.60314e-02\tAbsError: 4.76396e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.91597e-06\tAbsError: 2.05477e-03\n", + " Region: \"zone_3\"\tRelError: 7.23236e+02\tAbsError: 1.77523e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.57278e+02\tAbsError: 1.33374e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.65882e+02\tAbsError: 4.41496e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.64860e-02\tAbsError: 4.76397e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.91597e-06\tAbsError: 2.05477e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.04599e+00\tAbsError: 3.86283e+13\n", + " Region: \"zone_1\"\tRelError: 9.93293e-02\tAbsError: 3.04735e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.93161e-02\tAbsError: 2.58731e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32322e-05\tAbsError: 4.60043e-03\n", + " Region: \"zone_3\"\tRelError: 9.46661e-01\tAbsError: 3.86283e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39749e-01\tAbsError: 2.78664e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.98990e-01\tAbsError: 1.07619e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07909e-01\tAbsError: 2.56750e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32322e-05\tAbsError: 4.60043e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.91289e-02\tAbsError: 2.88158e+12\n", + " Region: \"zone_1\"\tRelError: 6.81446e-03\tAbsError: 2.78526e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.80644e-03\tAbsError: 1.86670e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.01434e-06\tAbsError: 2.78339e-03\n", + " Region: \"zone_3\"\tRelError: 8.23144e-02\tAbsError: 2.88158e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.35009e-02\tAbsError: 1.71236e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.35888e-04\tAbsError: 1.16922e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.56961e-03\tAbsError: 1.86733e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.01434e-06\tAbsError: 2.78339e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.31027e+02\tAbsError: 3.00458e+15\n", + " Region: \"zone_1\"\tRelError: 3.24992e-01\tAbsError: 2.59747e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.24433e-01\tAbsError: 6.50815e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.59832e-04\tAbsError: 1.94665e-01\n", + " Region: \"zone_3\"\tRelError: 6.30702e+02\tAbsError: 3.00458e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.67501e+02\tAbsError: 2.00631e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.61532e+02\tAbsError: 9.98272e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66880e+00\tAbsError: 6.50816e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.59832e-04\tAbsError: 1.94665e-01\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.77748e+01\tAbsError: 8.97693e+15\n", + " Region: \"zone_1\"\tRelError: 3.61197e+01\tAbsError: 4.23851e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.61197e+01\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.52655e-09\tAbsError: 1.57404e-06\n", + " Region: \"zone_3\"\tRelError: 1.65511e+00\tAbsError: 8.97693e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.81540e-01\tAbsError: 4.96736e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.81472e-01\tAbsError: 4.00957e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.21013e-02\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.52778e-09\tAbsError: 1.57447e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.14650e+00\tAbsError: 4.20836e+13\n", + " Region: \"zone_1\"\tRelError: 5.72071e-02\tAbsError: 4.38145e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.71923e-02\tAbsError: 3.86848e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47693e-05\tAbsError: 5.12967e-03\n", + " Region: \"zone_3\"\tRelError: 3.08929e+00\tAbsError: 4.20836e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.97813e-01\tAbsError: 2.36968e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.03383e+00\tAbsError: 1.83868e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.76355e-02\tAbsError: 3.86849e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47693e-05\tAbsError: 5.12967e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.81931e-01\tAbsError: 3.51173e+12\n", + " Region: \"zone_1\"\tRelError: 1.43962e-02\tAbsError: 1.26242e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43863e-02\tAbsError: 9.16567e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.94788e-06\tAbsError: 3.45854e-03\n", + " Region: \"zone_3\"\tRelError: 2.67534e-01\tAbsError: 3.51173e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.10366e-01\tAbsError: 2.07267e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.20559e-02\tAbsError: 1.43906e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51023e-02\tAbsError: 9.16572e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.94788e-06\tAbsError: 3.45854e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.23983e-03\tAbsError: 1.36792e+12\n", + " Region: \"zone_1\"\tRelError: 1.01079e-03\tAbsError: 1.28339e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01043e-03\tAbsError: 1.92525e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.63132e-07\tAbsError: 1.26414e-04\n", + " Region: \"zone_3\"\tRelError: 2.22904e-03\tAbsError: 1.36792e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.74133e-04\tAbsError: 3.74390e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.76038e-04\tAbsError: 9.93532e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87850e-03\tAbsError: 1.92892e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.63295e-07\tAbsError: 1.26474e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.88819e+03\tAbsError: 9.32942e+14\n", + " Region: \"zone_1\"\tRelError: 1.18425e-01\tAbsError: 9.22039e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18330e-01\tAbsError: 5.91837e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.49690e-05\tAbsError: 3.30202e-02\n", + " Region: \"zone_3\"\tRelError: 2.88807e+03\tAbsError: 9.32942e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.43139e+03\tAbsError: 6.31743e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.56293e+02\tAbsError: 3.01199e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.87206e-01\tAbsError: 5.91838e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.49690e-05\tAbsError: 3.30202e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 5.57520e+00\tAbsError: 3.41172e+14\n", + " Region: \"zone_1\"\tRelError: 4.09766e+00\tAbsError: 9.68705e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.09747e+00\tAbsError: 3.24496e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.85298e-04\tAbsError: 6.44208e-02\n", + " Region: \"zone_3\"\tRelError: 1.47755e+00\tAbsError: 3.41172e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.59180e-01\tAbsError: 1.67399e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.54624e-01\tAbsError: 1.73772e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.35588e-02\tAbsError: 3.24501e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.85298e-04\tAbsError: 6.44208e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 8.92264e+02\tAbsError: 1.46420e+13\n", + " Region: \"zone_1\"\tRelError: 4.21097e-02\tAbsError: 3.28380e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.20961e-02\tAbsError: 2.81027e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36338e-05\tAbsError: 4.73535e-03\n", + " Region: \"zone_3\"\tRelError: 8.92222e+02\tAbsError: 1.46420e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.91554e+02\tAbsError: 6.91559e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.25440e-01\tAbsError: 7.72638e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.23139e-02\tAbsError: 2.81028e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36338e-05\tAbsError: 4.73535e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.22418e-02\tAbsError: 3.50272e+12\n", + " Region: \"zone_1\"\tRelError: 6.27955e-03\tAbsError: 2.19287e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.27328e-03\tAbsError: 1.50746e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.27058e-06\tAbsError: 2.17780e-03\n", + " Region: \"zone_3\"\tRelError: 6.59622e-02\tAbsError: 3.50272e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.67826e-02\tAbsError: 2.11762e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.14388e-04\tAbsError: 1.38509e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.55902e-03\tAbsError: 1.55696e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.27058e-06\tAbsError: 2.17780e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.09066e-04\tAbsError: 1.04921e+11\n", + " Region: \"zone_1\"\tRelError: 2.62531e-04\tAbsError: 8.16597e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.62297e-04\tAbsError: 5.98558e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.34939e-07\tAbsError: 8.15998e-05\n", + " Region: \"zone_3\"\tRelError: 3.46534e-04\tAbsError: 1.04921e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.33554e-06\tAbsError: 7.61208e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.25715e-06\tAbsError: 2.87997e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.29706e-04\tAbsError: 6.29349e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.35038e-07\tAbsError: 8.16321e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.13880e+02\tAbsError: 1.57052e+14\n", + " Region: \"zone_1\"\tRelError: 8.55413e-02\tAbsError: 7.29682e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.54820e-02\tAbsError: 5.23288e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.93599e-05\tAbsError: 2.06393e-02\n", + " Region: \"zone_3\"\tRelError: 1.13794e+02\tAbsError: 1.57052e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.49330e+01\tAbsError: 4.83658e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.87403e+01\tAbsError: 1.08686e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20863e-01\tAbsError: 5.23289e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.93599e-05\tAbsError: 2.06393e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.45566e+00\tAbsError: 4.38834e+13\n", + " Region: \"zone_1\"\tRelError: 4.22260e-01\tAbsError: 3.10654e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.22245e-01\tAbsError: 2.58856e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.48986e-05\tAbsError: 5.17974e-03\n", + " Region: \"zone_3\"\tRelError: 1.03340e+00\tAbsError: 4.38834e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73706e-01\tAbsError: 3.15931e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.43368e-01\tAbsError: 1.22903e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16309e-01\tAbsError: 2.58965e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.48986e-05\tAbsError: 5.17974e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.08957e+00\tAbsError: 4.67918e+12\n", + " Region: \"zone_1\"\tRelError: 2.91985e-02\tAbsError: 2.86891e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.91811e-02\tAbsError: 2.26505e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73858e-05\tAbsError: 6.03862e-03\n", + " Region: \"zone_3\"\tRelError: 1.06038e+00\tAbsError: 4.67918e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.96820e-01\tAbsError: 1.64471e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.38070e-02\tAbsError: 3.03447e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.97307e-02\tAbsError: 2.26508e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73858e-05\tAbsError: 6.03862e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.61553e-03\tAbsError: 1.05148e+12\n", + " Region: \"zone_1\"\tRelError: 2.24360e-04\tAbsError: 1.45741e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.23946e-04\tAbsError: 1.49308e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14364e-07\tAbsError: 1.44248e-04\n", + " Region: \"zone_3\"\tRelError: 1.39117e-03\tAbsError: 1.05148e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46575e-04\tAbsError: 2.71194e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.31745e-04\tAbsError: 7.80282e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11244e-03\tAbsError: 1.49720e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14525e-07\tAbsError: 1.44306e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.18323e-04\tAbsError: 7.54503e+10\n", + " Region: \"zone_1\"\tRelError: 1.32414e-04\tAbsError: 3.51021e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.32404e-04\tAbsError: 6.46082e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.89739e-09\tAbsError: 3.44561e-06\n", + " Region: \"zone_3\"\tRelError: 1.85909e-04\tAbsError: 7.54503e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.96290e-06\tAbsError: 3.07843e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.90608e-06\tAbsError: 4.46660e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72030e-04\tAbsError: 6.49049e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.90251e-09\tAbsError: 3.44747e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.32840e-01\tAbsError: 2.84312e+12\n", + " Region: \"zone_1\"\tRelError: 2.06699e-02\tAbsError: 1.48305e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06599e-02\tAbsError: 1.13363e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00507e-05\tAbsError: 3.49425e-03\n", + " Region: \"zone_3\"\tRelError: 3.12170e-01\tAbsError: 2.84312e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.30160e-01\tAbsError: 1.94377e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.36988e-02\tAbsError: 8.99360e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.83008e-02\tAbsError: 1.13363e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00507e-05\tAbsError: 3.49425e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.48129e+04\tAbsError: 1.20564e+14\n", + " Region: \"zone_1\"\tRelError: 6.63227e-02\tAbsError: 4.87508e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.63097e-02\tAbsError: 4.42519e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.29540e-05\tAbsError: 4.49889e-03\n", + " Region: \"zone_3\"\tRelError: 5.48128e+04\tAbsError: 1.20564e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.93615e+02\tAbsError: 6.52648e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.46192e+04\tAbsError: 5.52991e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.67437e-02\tAbsError: 4.42520e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.29540e-05\tAbsError: 4.49889e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 5.82249e-01\tAbsError: 3.89306e+12\n", + " Region: \"zone_1\"\tRelError: 1.15390e-04\tAbsError: 1.16461e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.18796e-05\tAbsError: 6.35138e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.35108e-05\tAbsError: 1.16397e-02\n", + " Region: \"zone_3\"\tRelError: 5.82134e-01\tAbsError: 3.89306e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.80954e-01\tAbsError: 1.04210e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.18447e-04\tAbsError: 2.85096e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.27764e-04\tAbsError: 6.51921e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.35108e-05\tAbsError: 1.16397e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.04474e-04\tAbsError: 1.25302e+11\n", + " Region: \"zone_1\"\tRelError: 1.66223e-04\tAbsError: 5.88340e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66054e-04\tAbsError: 7.31627e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69180e-07\tAbsError: 5.87608e-05\n", + " Region: \"zone_3\"\tRelError: 4.38251e-04\tAbsError: 1.25302e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07347e-05\tAbsError: 8.57551e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.06392e-05\tAbsError: 3.95471e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.16708e-04\tAbsError: 7.69543e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69180e-07\tAbsError: 5.87608e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 9.48378e-06\tAbsError: 2.45281e+09\n", + " Region: \"zone_1\"\tRelError: 3.59744e-06\tAbsError: 4.31703e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.58502e-06\tAbsError: 1.36333e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.24138e-08\tAbsError: 4.31567e-06\n", + " Region: \"zone_3\"\tRelError: 5.88634e-06\tAbsError: 2.45281e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.31749e-07\tAbsError: 2.17401e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.05660e-07\tAbsError: 2.78792e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 5.43652e-06\tAbsError: 1.42292e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.24148e-08\tAbsError: 4.31610e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:10\u001b[0m.\u001b[1;36m903\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:10\u001b[0m.\u001b[1;36m903\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.31666666666666665\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.45241e-02\tAbsError: 6.08779e+12\n", + " Region: \"zone_1\"\tRelError: 1.38533e-03\tAbsError: 1.93904e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.38480e-03\tAbsError: 7.53521e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.35967e-07\tAbsError: 1.86369e-04\n", + " Region: \"zone_3\"\tRelError: 1.31387e-02\tAbsError: 6.08779e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.19346e-04\tAbsError: 1.95279e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.35855e-04\tAbsError: 4.13500e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13830e-02\tAbsError: 7.62534e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.35967e-07\tAbsError: 1.86369e-04\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.24302e-02\tAbsError: 2.86262e+12\n", + " Region: \"zone_1\"\tRelError: 1.27117e-02\tAbsError: 2.69830e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.27040e-02\tAbsError: 1.65367e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.76457e-06\tAbsError: 2.69665e-03\n", + " Region: \"zone_3\"\tRelError: 7.97185e-02\tAbsError: 2.86262e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.09232e-02\tAbsError: 1.72387e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.97977e-04\tAbsError: 1.13875e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.58955e-03\tAbsError: 1.70416e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.76457e-06\tAbsError: 2.69665e-03\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.70703e+02\tAbsError: 2.82032e+13\n", + " Region: \"zone_1\"\tRelError: 4.84371e-02\tAbsError: 4.21872e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.84154e-02\tAbsError: 3.46615e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.16687e-05\tAbsError: 7.52567e-03\n", + " Region: \"zone_3\"\tRelError: 3.70655e+02\tAbsError: 2.82032e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.69606e+02\tAbsError: 1.64213e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.99820e-01\tAbsError: 1.17818e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.88175e-02\tAbsError: 3.46617e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.16687e-05\tAbsError: 7.52567e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.49534e-04\tAbsError: 5.25628e+10\n", + " Region: \"zone_1\"\tRelError: 3.67429e-05\tAbsError: 6.09081e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.67256e-05\tAbsError: 4.65389e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73624e-08\tAbsError: 6.04427e-06\n", + " Region: \"zone_3\"\tRelError: 1.12791e-04\tAbsError: 5.25628e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.87822e-06\tAbsError: 1.95393e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.83754e-06\tAbsError: 3.30235e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03058e-04\tAbsError: 4.67667e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73702e-08\tAbsError: 6.04712e-06\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.08965e-03\tAbsError: 1.66126e+11\n", + " Region: \"zone_1\"\tRelError: 1.15781e-04\tAbsError: 3.98908e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14633e-04\tAbsError: 1.63463e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.14796e-06\tAbsError: 3.98745e-04\n", + " Region: \"zone_3\"\tRelError: 9.73866e-04\tAbsError: 1.66126e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.41675e-05\tAbsError: 7.66761e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.03134e-05\tAbsError: 8.94495e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 9.28237e-04\tAbsError: 1.65873e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.14796e-06\tAbsError: 3.98745e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.46753e+00\tAbsError: 8.85142e+12\n", + " Region: \"zone_1\"\tRelError: 3.80736e-02\tAbsError: 3.50731e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.80472e-02\tAbsError: 2.58955e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.64244e-05\tAbsError: 9.17760e-03\n", + " Region: \"zone_3\"\tRelError: 1.42945e+00\tAbsError: 8.85142e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.13018e+00\tAbsError: 2.66676e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.60374e-01\tAbsError: 6.18465e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.88771e-02\tAbsError: 2.58916e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.64244e-05\tAbsError: 9.17760e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.75500e-03\tAbsError: 1.32204e+12\n", + " Region: \"zone_1\"\tRelError: 1.65378e-03\tAbsError: 1.30948e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65340e-03\tAbsError: 1.86320e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.70805e-07\tAbsError: 1.29085e-04\n", + " Region: \"zone_3\"\tRelError: 2.10123e-03\tAbsError: 1.32204e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.68767e-04\tAbsError: 3.59146e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.69627e-04\tAbsError: 9.62892e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.76246e-03\tAbsError: 1.86697e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.70964e-07\tAbsError: 1.29144e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.66636e+01\tAbsError: 8.97630e+15\n", + " Region: \"zone_1\"\tRelError: 2.49916e+01\tAbsError: 4.26144e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49916e+01\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.33059e-10\tAbsError: 1.50679e-07\n", + " Region: \"zone_3\"\tRelError: 1.67196e+00\tAbsError: 8.97630e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83514e-01\tAbsError: 5.13521e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.83497e-01\tAbsError: 3.84109e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04945e-01\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.33239e-10\tAbsError: 1.50741e-07\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.34617e-05\tAbsError: 4.93078e+09\n", + " Region: \"zone_1\"\tRelError: 6.39658e-06\tAbsError: 2.70504e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.38880e-06\tAbsError: 2.92925e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.78001e-09\tAbsError: 2.70211e-06\n", + " Region: \"zone_3\"\tRelError: 1.70651e-05\tAbsError: 4.93078e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.08409e-07\tAbsError: 3.64055e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.02771e-07\tAbsError: 1.29023e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.62462e-05\tAbsError: 3.07627e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.78042e-09\tAbsError: 2.70228e-06\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 1.23496e-03\tAbsError: 3.88937e+11\n", + " Region: \"zone_1\"\tRelError: 1.25820e-04\tAbsError: 3.61467e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.25717e-04\tAbsError: 2.96756e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.03101e-07\tAbsError: 3.58499e-05\n", + " Region: \"zone_3\"\tRelError: 1.10914e-03\tAbsError: 3.88937e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.98691e-05\tAbsError: 1.81164e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.96088e-05\tAbsError: 2.07773e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02956e-03\tAbsError: 3.00897e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.03128e-07\tAbsError: 3.58606e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:13\u001b[0m.\u001b[1;36m398\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:13\u001b[0m.\u001b[1;36m398\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 5.89664e-01\tAbsError: 7.12933e+12\n", + " Region: \"zone_1\"\tRelError: 1.82370e-02\tAbsError: 2.54424e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82061e-02\tAbsError: 1.47192e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.08737e-05\tAbsError: 1.07232e-02\n", + " Region: \"zone_3\"\tRelError: 5.71427e-01\tAbsError: 7.12933e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.46019e-01\tAbsError: 1.65823e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.76669e-03\tAbsError: 5.47110e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86105e-02\tAbsError: 1.47194e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.08737e-05\tAbsError: 1.07232e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 8.49928e-04\tAbsError: 1.08021e+11\n", + " Region: \"zone_1\"\tRelError: 4.89613e-04\tAbsError: 7.83192e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.89388e-04\tAbsError: 6.17623e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.25315e-07\tAbsError: 7.82574e-05\n", + " Region: \"zone_3\"\tRelError: 3.60315e-04\tAbsError: 1.08021e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.68128e-06\tAbsError: 7.75669e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.60123e-06\tAbsError: 3.04546e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.42807e-04\tAbsError: 6.49402e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.25391e-07\tAbsError: 7.82820e-05\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.64103e+00\tAbsError: 3.38547e+14\n", + " Region: \"zone_1\"\tRelError: 1.41318e-01\tAbsError: 9.34351e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.41143e-01\tAbsError: 3.27224e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.74663e-04\tAbsError: 6.07127e-02\n", + " Region: \"zone_3\"\tRelError: 1.49971e+00\tAbsError: 3.38547e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.63048e-01\tAbsError: 1.99221e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.58072e-01\tAbsError: 1.39326e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.84139e-02\tAbsError: 3.27228e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.74663e-04\tAbsError: 6.07127e-02\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 1.60246e-04\tAbsError: 3.40369e+10\n", + " Region: \"zone_1\"\tRelError: 1.68034e-05\tAbsError: 2.63003e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.67278e-05\tAbsError: 2.52237e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.55647e-08\tAbsError: 2.62751e-05\n", + " Region: \"zone_3\"\tRelError: 1.43443e-04\tAbsError: 3.40369e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.59868e-06\tAbsError: 1.81685e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.58484e-06\tAbsError: 1.58684e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.36183e-04\tAbsError: 2.55624e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.55881e-08\tAbsError: 2.62841e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 2.88205e-01\tAbsError: 8.63940e+12\n", + " Region: \"zone_1\"\tRelError: 4.35098e-04\tAbsError: 1.57759e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.89774e-04\tAbsError: 3.29820e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.53240e-05\tAbsError: 1.57429e-02\n", + " Region: \"zone_3\"\tRelError: 2.87770e-01\tAbsError: 8.63940e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.82323e-01\tAbsError: 2.51161e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.35683e-03\tAbsError: 6.12779e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.04524e-03\tAbsError: 3.30252e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.53240e-05\tAbsError: 1.57429e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 9.54016e+00\tAbsError: 8.28773e+15\n", + " Region: \"zone_1\"\tRelError: 7.90066e+00\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.90066e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.70870e-10\tAbsError: 1.98737e-07\n", + " Region: \"zone_3\"\tRelError: 1.63951e+00\tAbsError: 8.28773e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69626e-01\tAbsError: 4.72857e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69607e-01\tAbsError: 3.55916e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00272e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.71133e-10\tAbsError: 1.98833e-07\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.96126e-04\tAbsError: 7.20782e+10\n", + " Region: \"zone_1\"\tRelError: 2.21127e-04\tAbsError: 3.89252e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.21116e-04\tAbsError: 6.19595e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10031e-08\tAbsError: 3.83056e-06\n", + " Region: \"zone_3\"\tRelError: 1.74999e-04\tAbsError: 7.20782e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.65804e-06\tAbsError: 2.91079e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.60364e-06\tAbsError: 4.29703e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.61727e-04\tAbsError: 6.22469e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10087e-08\tAbsError: 3.83256e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.28948e+00\tAbsError: 4.14353e+13\n", + " Region: \"zone_1\"\tRelError: 2.38341e-01\tAbsError: 3.22323e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.38323e-01\tAbsError: 2.58129e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84675e-05\tAbsError: 6.41942e-03\n", + " Region: \"zone_3\"\tRelError: 1.05113e+00\tAbsError: 4.14353e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.79303e-01\tAbsError: 3.03763e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.54468e-01\tAbsError: 1.10590e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17345e-01\tAbsError: 2.58893e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84675e-05\tAbsError: 6.41942e-03\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 9.49376e-05\tAbsError: 2.57660e+10\n", + " Region: \"zone_1\"\tRelError: 9.79246e-06\tAbsError: 3.93277e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 9.78120e-06\tAbsError: 1.74738e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12594e-08\tAbsError: 3.91529e-06\n", + " Region: \"zone_3\"\tRelError: 8.51451e-05\tAbsError: 2.57660e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.56549e-06\tAbsError: 1.38663e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.54725e-06\tAbsError: 1.18996e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 8.00211e-05\tAbsError: 1.77235e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12624e-08\tAbsError: 3.91634e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:15\u001b[0m.\u001b[1;36m767\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.2\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 12\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 1.96714e-02\tAbsError: 8.16211e+12\n", + " Region: \"zone_1\"\tRelError: 1.87172e-03\tAbsError: 1.88005e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87121e-03\tAbsError: 1.01416e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.11506e-07\tAbsError: 1.77863e-04\n", + " Region: \"zone_3\"\tRelError: 1.77997e-02\tAbsError: 8.16211e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28006e-03\tAbsError: 2.65961e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.13272e-03\tAbsError: 5.50249e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.53864e-02\tAbsError: 1.02631e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.11506e-07\tAbsError: 1.77863e-04\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.57084e+00\tAbsError: 2.89575e+14\n", + " Region: \"zone_1\"\tRelError: 1.26543e-01\tAbsError: 8.72430e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.26381e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62480e-04\tAbsError: 5.64794e-02\n", + " Region: \"zone_3\"\tRelError: 1.44430e+00\tAbsError: 2.89575e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37983e-01\tAbsError: 1.66847e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32917e-01\tAbsError: 1.22728e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.32359e-02\tAbsError: 3.07641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62480e-04\tAbsError: 5.64794e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.64462e-05\tAbsError: 2.76462e+09\n", + " Region: \"zone_1\"\tRelError: 8.94814e-06\tAbsError: 4.07812e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.93642e-06\tAbsError: 1.58768e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.17259e-08\tAbsError: 4.07653e-06\n", + " Region: \"zone_3\"\tRelError: 7.49807e-06\tAbsError: 2.76462e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.34484e-07\tAbsError: 2.39149e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.06254e-07\tAbsError: 3.73129e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 7.04561e-06\tAbsError: 1.66770e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.17267e-08\tAbsError: 4.07688e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:16\u001b[0m.\u001b[1;36m743\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:16\u001b[0m.\u001b[1;36m743\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.3142857142857143\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Iteration: 3\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 3.68972e-01\tAbsError: 5.93574e+12\n", + " Region: \"zone_1\"\tRelError: 4.08424e-02\tAbsError: 1.48565e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.08334e-02\tAbsError: 1.17194e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.02522e-06\tAbsError: 3.13711e-03\n", + " Region: \"zone_3\"\tRelError: 3.28129e-01\tAbsError: 5.93574e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.35893e-01\tAbsError: 3.04330e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.85715e-02\tAbsError: 2.89244e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.36552e-02\tAbsError: 1.17194e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.02730e-06\tAbsError: 3.13793e-03\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 1.25625e-03\tAbsError: 1.44271e+11\n", + " Region: \"zone_1\"\tRelError: 1.32976e-04\tAbsError: 5.31943e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31445e-04\tAbsError: 1.55231e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.53098e-06\tAbsError: 5.31788e-04\n", + " Region: \"zone_3\"\tRelError: 1.12327e-03\tAbsError: 1.44271e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.23384e-05\tAbsError: 6.93544e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.72047e-05\tAbsError: 7.49163e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06220e-03\tAbsError: 1.57379e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.53098e-06\tAbsError: 5.31788e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.15185e+01\tAbsError: 8.37847e+15\n", + " Region: \"zone_1\"\tRelError: 9.89198e+00\tAbsError: 4.09561e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.89198e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.44792e-09\tAbsError: 1.89443e-06\n", + " Region: \"zone_3\"\tRelError: 1.62652e+00\tAbsError: 8.37847e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69532e-01\tAbsError: 4.63620e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69461e-01\tAbsError: 3.74227e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.75319e-02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.44931e-09\tAbsError: 1.89492e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.08933e+00\tAbsError: 3.08258e+13\n", + " Region: \"zone_1\"\tRelError: 1.39766e-01\tAbsError: 3.14532e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39750e-01\tAbsError: 2.58726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60540e-05\tAbsError: 5.58058e-03\n", + " Region: \"zone_3\"\tRelError: 9.49568e-01\tAbsError: 3.08258e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40223e-01\tAbsError: 2.27975e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.01508e-01\tAbsError: 8.02831e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07820e-01\tAbsError: 2.58966e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60540e-05\tAbsError: 5.58058e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.00828e-01\tAbsError: 2.58321e+12\n", + " Region: \"zone_1\"\tRelError: 1.80463e-02\tAbsError: 1.94095e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.80407e-02\tAbsError: 5.43828e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.57358e-06\tAbsError: 1.93551e-03\n", + " Region: \"zone_3\"\tRelError: 8.27815e-02\tAbsError: 2.58321e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.36586e-02\tAbsError: 1.73538e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.57188e-04\tAbsError: 8.47840e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 8.76020e-03\tAbsError: 5.92018e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.57358e-06\tAbsError: 1.93551e-03\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 1.64697e-03\tAbsError: 5.18786e+11\n", + " Region: \"zone_1\"\tRelError: 1.67763e-04\tAbsError: 4.37003e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.67639e-04\tAbsError: 3.94746e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.24542e-07\tAbsError: 4.33055e-05\n", + " Region: \"zone_3\"\tRelError: 1.47920e-03\tAbsError: 5.18786e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.32202e-05\tAbsError: 2.42889e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.28692e-05\tAbsError: 2.75896e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37299e-03\tAbsError: 4.00256e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.24579e-07\tAbsError: 4.33199e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.77904e+01\tAbsError: 8.87794e+15\n", + " Region: \"zone_1\"\tRelError: 5.61221e+01\tAbsError: 4.23836e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.61221e+01\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.50661e-10\tAbsError: 1.22012e-07\n", + " Region: \"zone_3\"\tRelError: 1.66827e+00\tAbsError: 8.87794e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.81634e-01\tAbsError: 5.07701e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.81616e-01\tAbsError: 3.80093e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.05019e-01\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.50819e-10\tAbsError: 1.22067e-07\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.94647e+00\tAbsError: 2.98429e+14\n", + " Region: \"zone_1\"\tRelError: 5.14524e-01\tAbsError: 9.09015e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.14351e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72976e-04\tAbsError: 6.01378e-02\n", + " Region: \"zone_3\"\tRelError: 1.43195e+00\tAbsError: 2.98429e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37879e-01\tAbsError: 1.45714e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32394e-01\tAbsError: 1.52716e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.15050e-02\tAbsError: 3.07641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72976e-04\tAbsError: 6.01378e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.94758e-01\tAbsError: 4.98642e+12\n", + " Region: \"zone_1\"\tRelError: 2.19383e-02\tAbsError: 1.22221e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.19295e-02\tAbsError: 9.16564e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.79291e-06\tAbsError: 3.05651e-03\n", + " Region: \"zone_3\"\tRelError: 2.72820e-01\tAbsError: 4.98642e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12699e-01\tAbsError: 2.77867e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.23181e-02\tAbsError: 2.20775e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77940e-02\tAbsError: 9.16568e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.79389e-06\tAbsError: 3.05683e-03\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 1.98584e-04\tAbsError: 4.08166e+10\n", + " Region: \"zone_1\"\tRelError: 2.08608e-05\tAbsError: 3.48398e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.07607e-05\tAbsError: 3.04350e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00109e-07\tAbsError: 3.48094e-05\n", + " Region: \"zone_3\"\tRelError: 1.77724e-04\tAbsError: 4.08166e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.34980e-06\tAbsError: 2.19178e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.33496e-06\tAbsError: 1.88988e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.68939e-04\tAbsError: 3.08478e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00140e-07\tAbsError: 3.48217e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.70741e-03\tAbsError: 9.43014e+11\n", + " Region: \"zone_1\"\tRelError: 1.62358e-03\tAbsError: 1.39491e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.62318e-03\tAbsError: 1.40436e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.96704e-07\tAbsError: 1.38086e-04\n", + " Region: \"zone_3\"\tRelError: 1.08383e-03\tAbsError: 9.43014e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.09769e-04\tAbsError: 2.31971e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.02599e-04\tAbsError: 7.11044e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 8.71070e-04\tAbsError: 1.40908e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.96869e-07\tAbsError: 1.38147e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.75967e+00\tAbsError: 3.31374e+14\n", + " Region: \"zone_1\"\tRelError: 2.67484e-01\tAbsError: 9.25755e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.67311e-01\tAbsError: 3.24496e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72974e-04\tAbsError: 6.01259e-02\n", + " Region: \"zone_3\"\tRelError: 1.49219e+00\tAbsError: 3.31374e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.59591e-01\tAbsError: 1.94436e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.54784e-01\tAbsError: 1.36938e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.76418e-02\tAbsError: 3.24500e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72974e-04\tAbsError: 6.01259e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.04600e+00\tAbsError: 3.86292e+13\n", + " Region: \"zone_1\"\tRelError: 9.93314e-02\tAbsError: 3.04738e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.93181e-02\tAbsError: 2.58731e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32329e-05\tAbsError: 4.60067e-03\n", + " Region: \"zone_3\"\tRelError: 9.46666e-01\tAbsError: 3.86292e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39748e-01\tAbsError: 2.78671e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.98990e-01\tAbsError: 1.07621e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07914e-01\tAbsError: 2.56750e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32329e-05\tAbsError: 4.60067e-03\n", + "Iteration: 16\n", + " Device: \"device\"\tRelError: 1.25453e-04\tAbsError: 3.41182e+10\n", + " Region: \"zone_1\"\tRelError: 1.29374e-05\tAbsError: 4.94542e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29233e-05\tAbsError: 2.30857e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41554e-08\tAbsError: 4.92233e-06\n", + " Region: \"zone_3\"\tRelError: 1.12515e-04\tAbsError: 3.41182e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.39538e-06\tAbsError: 1.83959e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.37099e-06\tAbsError: 1.57223e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.05735e-04\tAbsError: 2.34162e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41591e-08\tAbsError: 4.92361e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.73338e-02\tAbsError: 3.09182e+12\n", + " Region: \"zone_1\"\tRelError: 1.11598e-02\tAbsError: 1.65988e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11551e-02\tAbsError: 1.42279e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73882e-06\tAbsError: 1.64565e-03\n", + " Region: \"zone_3\"\tRelError: 6.61739e-02\tAbsError: 3.09182e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.71921e-02\tAbsError: 1.98622e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.49402e-04\tAbsError: 1.10560e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.42774e-03\tAbsError: 1.50865e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73882e-06\tAbsError: 1.64565e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.30730e-03\tAbsError: 1.19612e+11\n", + " Region: \"zone_1\"\tRelError: 8.58744e-04\tAbsError: 5.14180e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 8.58596e-04\tAbsError: 7.13446e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47850e-07\tAbsError: 5.13467e-05\n", + " Region: \"zone_3\"\tRelError: 4.48561e-04\tAbsError: 1.19612e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.84494e-06\tAbsError: 8.20842e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.76493e-06\tAbsError: 3.75278e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.30803e-04\tAbsError: 7.51545e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47850e-07\tAbsError: 5.13467e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.41236e+00\tAbsError: 3.74251e+13\n", + " Region: \"zone_1\"\tRelError: 3.75384e-01\tAbsError: 3.22046e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.75366e-01\tAbsError: 2.58960e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.81486e-05\tAbsError: 6.30858e-03\n", + " Region: \"zone_3\"\tRelError: 1.03697e+00\tAbsError: 3.74251e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73965e-01\tAbsError: 2.68550e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.46971e-01\tAbsError: 1.05700e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16017e-01\tAbsError: 2.58965e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.81486e-05\tAbsError: 6.30858e-03\n", + "Iteration: 17\n", + " Device: \"device\"\tRelError: 2.11687e-05\tAbsError: 4.65217e+09\n", + " Region: \"zone_1\"\tRelError: 2.21392e-06\tAbsError: 2.49552e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20676e-06\tAbsError: 3.16709e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.16739e-09\tAbsError: 2.49235e-06\n", + " Region: \"zone_3\"\tRelError: 1.89547e-05\tAbsError: 4.65217e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.78662e-07\tAbsError: 2.65424e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.76615e-07\tAbsError: 1.99793e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.79923e-05\tAbsError: 3.21147e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.16920e-09\tAbsError: 2.49299e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.81932e-01\tAbsError: 3.51191e+12\n", + " Region: \"zone_1\"\tRelError: 1.43962e-02\tAbsError: 1.26244e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43862e-02\tAbsError: 9.16567e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.94829e-06\tAbsError: 3.45869e-03\n", + " Region: \"zone_3\"\tRelError: 2.67535e-01\tAbsError: 3.51191e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.10366e-01\tAbsError: 2.07283e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.20558e-02\tAbsError: 1.43908e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51034e-02\tAbsError: 9.16572e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.94829e-06\tAbsError: 3.45869e-03\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:21\u001b[0m.\u001b[1;36m692\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.20625\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.35940e-03\tAbsError: 7.91644e+11\n", + " Region: \"zone_1\"\tRelError: 6.17001e-04\tAbsError: 1.42075e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.16596e-04\tAbsError: 1.18665e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.04748e-07\tAbsError: 1.40888e-04\n", + " Region: \"zone_3\"\tRelError: 7.42401e-04\tAbsError: 7.91644e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.00211e-04\tAbsError: 1.88344e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.60094e-05\tAbsError: 6.03301e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.55776e-04\tAbsError: 1.18974e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.04912e-07\tAbsError: 1.40947e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.64377e-04\tAbsError: 4.52414e+10\n", + " Region: \"zone_1\"\tRelError: 1.70304e-04\tAbsError: 6.12495e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.70287e-04\tAbsError: 4.29528e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.74725e-08\tAbsError: 6.08200e-06\n", + " Region: \"zone_3\"\tRelError: 9.40730e-05\tAbsError: 4.52414e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.68905e-06\tAbsError: 1.57870e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.65669e-06\tAbsError: 2.94544e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 8.67098e-05\tAbsError: 4.29962e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.74802e-08\tAbsError: 6.08483e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.82063e-01\tAbsError: 5.70563e+12\n", + " Region: \"zone_1\"\tRelError: 6.50909e-02\tAbsError: 1.43712e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.50822e-02\tAbsError: 1.13362e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.73140e-06\tAbsError: 3.03499e-03\n", + " Region: \"zone_3\"\tRelError: 3.16972e-01\tAbsError: 5.70563e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.29746e-01\tAbsError: 2.94606e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.44628e-02\tAbsError: 2.75958e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.27548e-02\tAbsError: 1.13363e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.73488e-06\tAbsError: 3.03633e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.22423e-02\tAbsError: 3.50280e+12\n", + " Region: \"zone_1\"\tRelError: 6.27969e-03\tAbsError: 2.19297e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.27342e-03\tAbsError: 1.50745e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.27086e-06\tAbsError: 2.17790e-03\n", + " Region: \"zone_3\"\tRelError: 6.59626e-02\tAbsError: 3.50280e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.67825e-02\tAbsError: 2.11769e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.14375e-04\tAbsError: 1.38511e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.55940e-03\tAbsError: 1.55695e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.27086e-06\tAbsError: 2.17790e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.02141e-03\tAbsError: 1.23957e+11\n", + " Region: \"zone_1\"\tRelError: 5.52143e-04\tAbsError: 4.11028e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.52024e-04\tAbsError: 7.43261e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18138e-07\tAbsError: 4.10285e-05\n", + " Region: \"zone_3\"\tRelError: 4.69263e-04\tAbsError: 1.23957e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.58109e-06\tAbsError: 8.33431e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.49437e-06\tAbsError: 4.06143e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.50070e-04\tAbsError: 7.83274e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18138e-07\tAbsError: 4.10285e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.91829e+01\tAbsError: 8.90212e+15\n", + " Region: \"zone_1\"\tRelError: 2.75315e+01\tAbsError: 4.22096e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.75315e+01\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.34515e-09\tAbsError: 4.67755e-07\n", + " Region: \"zone_3\"\tRelError: 1.65141e+00\tAbsError: 8.90212e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80108e-01\tAbsError: 4.92596e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.80039e-01\tAbsError: 3.97616e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.12637e-02\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.34538e-09\tAbsError: 4.67835e-07\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 5.47022e-05\tAbsError: 5.00638e+09\n", + " Region: \"zone_1\"\tRelError: 3.59259e-05\tAbsError: 2.28996e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.59193e-05\tAbsError: 3.06179e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.58527e-09\tAbsError: 2.28690e-06\n", + " Region: \"zone_3\"\tRelError: 1.87763e-05\tAbsError: 5.00638e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.63684e-07\tAbsError: 3.65206e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.58517e-07\tAbsError: 1.35432e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.80475e-05\tAbsError: 3.21633e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.58713e-09\tAbsError: 2.28757e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:23\u001b[0m.\u001b[1;36m653\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:23\u001b[0m.\u001b[1;36m653\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.42500000000000004\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.08168e-01\tAbsError: 2.50771e+12\n", + " Region: \"zone_1\"\tRelError: 2.80959e-02\tAbsError: 1.99697e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.80902e-02\tAbsError: 5.40237e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.73499e-06\tAbsError: 1.99156e-03\n", + " Region: \"zone_3\"\tRelError: 8.00718e-02\tAbsError: 2.50771e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.11633e-02\tAbsError: 1.69868e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.42315e-04\tAbsError: 8.09036e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 8.46039e-03\tAbsError: 5.79510e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.73499e-06\tAbsError: 1.99156e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.61557e-03\tAbsError: 1.05156e+12\n", + " Region: \"zone_1\"\tRelError: 2.24358e-04\tAbsError: 1.45747e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.23943e-04\tAbsError: 1.49317e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14383e-07\tAbsError: 1.44254e-04\n", + " Region: \"zone_3\"\tRelError: 1.39121e-03\tAbsError: 1.05156e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46581e-04\tAbsError: 2.71206e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.31751e-04\tAbsError: 7.80353e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11247e-03\tAbsError: 1.49728e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14543e-07\tAbsError: 1.44312e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.30911e-04\tAbsError: 3.51442e+10\n", + " Region: \"zone_1\"\tRelError: 6.81885e-05\tAbsError: 6.92614e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.81687e-05\tAbsError: 3.42472e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.97989e-08\tAbsError: 6.89189e-06\n", + " Region: \"zone_3\"\tRelError: 6.27220e-05\tAbsError: 3.51442e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91737e-06\tAbsError: 1.11617e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.89123e-06\tAbsError: 2.39825e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.68936e-05\tAbsError: 3.42673e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.98072e-08\tAbsError: 6.89488e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.71568e+03\tAbsError: 3.35717e+14\n", + " Region: \"zone_1\"\tRelError: 1.71420e+03\tAbsError: 9.61254e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.71420e+03\tAbsError: 3.22436e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83747e-04\tAbsError: 6.38819e-02\n", + " Region: \"zone_3\"\tRelError: 1.47181e+00\tAbsError: 3.35717e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.56735e-01\tAbsError: 1.64637e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.51848e-01\tAbsError: 1.71080e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.30478e-02\tAbsError: 3.22440e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83747e-04\tAbsError: 6.38819e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 4.48312e+02\tAbsError: 8.94911e+15\n", + " Region: \"zone_1\"\tRelError: 4.46630e+02\tAbsError: 4.26144e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.46630e+02\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.62615e-10\tAbsError: 2.30654e-07\n", + " Region: \"zone_3\"\tRelError: 1.68233e+00\tAbsError: 8.94911e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83539e-01\tAbsError: 5.26125e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.83518e-01\tAbsError: 3.68785e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15269e-01\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.62924e-10\tAbsError: 2.30765e-07\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.33228e-03\tAbsError: 9.74742e+11\n", + " Region: \"zone_1\"\tRelError: 3.08967e-03\tAbsError: 1.32041e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.08930e-03\tAbsError: 1.44698e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.75173e-07\tAbsError: 1.30594e-04\n", + " Region: \"zone_3\"\tRelError: 1.24261e-03\tAbsError: 9.74742e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.15122e-04\tAbsError: 2.46318e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.07963e-04\tAbsError: 7.28424e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01915e-03\tAbsError: 1.45186e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.75331e-07\tAbsError: 1.30651e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.04500e-04\tAbsError: 1.25308e+11\n", + " Region: \"zone_1\"\tRelError: 1.66230e-04\tAbsError: 5.88380e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66061e-04\tAbsError: 7.31659e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69192e-07\tAbsError: 5.87648e-05\n", + " Region: \"zone_3\"\tRelError: 4.38270e-04\tAbsError: 1.25308e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07352e-05\tAbsError: 8.57589e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.06397e-05\tAbsError: 3.95489e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.16726e-04\tAbsError: 7.69576e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69192e-07\tAbsError: 5.87648e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 4.91977e-05\tAbsError: 5.89587e+09\n", + " Region: \"zone_1\"\tRelError: 2.66095e-05\tAbsError: 1.68142e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.66047e-05\tAbsError: 3.56714e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.83123e-09\tAbsError: 1.67785e-06\n", + " Region: \"zone_3\"\tRelError: 2.25882e-05\tAbsError: 5.89587e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.48785e-07\tAbsError: 4.10022e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.43251e-07\tAbsError: 1.79565e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.16913e-05\tAbsError: 3.75397e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.83123e-09\tAbsError: 1.67785e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.01989e+00\tAbsError: 4.31984e+13\n", + " Region: \"zone_1\"\tRelError: 9.96747e-01\tAbsError: 3.09938e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.96733e-01\tAbsError: 2.58940e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.46688e-05\tAbsError: 5.09985e-03\n", + " Region: \"zone_3\"\tRelError: 1.02314e+00\tAbsError: 4.31984e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.69533e-01\tAbsError: 3.11070e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.38351e-01\tAbsError: 1.20915e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15242e-01\tAbsError: 2.58944e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.46688e-05\tAbsError: 5.09985e-03\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:26\u001b[0m.\u001b[1;36m225\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.4\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.40232e+00\tAbsError: 3.73139e+14\n", + " Region: \"zone_1\"\tRelError: 8.85228e-01\tAbsError: 8.59449e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.85075e-01\tAbsError: 3.27223e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.53137e-04\tAbsError: 5.32226e-02\n", + " Region: \"zone_3\"\tRelError: 1.51710e+00\tAbsError: 3.73139e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.64079e-01\tAbsError: 2.70317e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.57262e-01\tAbsError: 1.02822e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.56017e-02\tAbsError: 3.27227e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.53137e-04\tAbsError: 5.32226e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.69414e-03\tAbsError: 1.12063e+11\n", + " Region: \"zone_1\"\tRelError: 1.27847e-03\tAbsError: 5.43584e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.27831e-03\tAbsError: 6.67185e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.56330e-07\tAbsError: 5.42917e-05\n", + " Region: \"zone_3\"\tRelError: 4.15667e-04\tAbsError: 1.12063e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.22862e-06\tAbsError: 7.78226e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.15163e-06\tAbsError: 3.42401e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.99131e-04\tAbsError: 7.02554e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.56330e-07\tAbsError: 5.42917e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.49541e-04\tAbsError: 5.25664e+10\n", + " Region: \"zone_1\"\tRelError: 3.67446e-05\tAbsError: 6.09105e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.67272e-05\tAbsError: 4.65423e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73631e-08\tAbsError: 6.04451e-06\n", + " Region: \"zone_3\"\tRelError: 1.12797e-04\tAbsError: 5.25664e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.87853e-06\tAbsError: 1.95402e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.83785e-06\tAbsError: 3.30262e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03063e-04\tAbsError: 4.67701e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73709e-08\tAbsError: 6.04735e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.55312e-01\tAbsError: 2.79981e+12\n", + " Region: \"zone_1\"\tRelError: 5.12467e-02\tAbsError: 1.44746e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.12369e-02\tAbsError: 1.10529e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.84208e-06\tAbsError: 3.42173e-03\n", + " Region: \"zone_3\"\tRelError: 3.04065e-01\tAbsError: 2.79981e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.25490e-01\tAbsError: 1.88988e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.07536e-02\tAbsError: 9.09929e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.78116e-02\tAbsError: 1.10529e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.84244e-06\tAbsError: 3.42191e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 8.62552e+00\tAbsError: 8.26510e+15\n", + " Region: \"zone_1\"\tRelError: 6.97719e+00\tAbsError: 4.09546e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.97719e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.33437e-10\tAbsError: 3.24924e-07\n", + " Region: \"zone_3\"\tRelError: 1.64833e+00\tAbsError: 8.26510e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69652e-01\tAbsError: 4.84454e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69632e-01\tAbsError: 3.42056e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09044e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.33825e-10\tAbsError: 3.25065e-07\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.49580e+00\tAbsError: 9.39285e+13\n", + " Region: \"zone_1\"\tRelError: 4.42602e-01\tAbsError: 3.34520e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.42580e-01\tAbsError: 2.58963e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17396e-05\tAbsError: 7.55574e-03\n", + " Region: \"zone_3\"\tRelError: 1.05320e+00\tAbsError: 9.39285e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.80080e-01\tAbsError: 5.56726e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.63197e-01\tAbsError: 3.82559e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09902e-01\tAbsError: 2.58951e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17396e-05\tAbsError: 7.55574e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.20550e-04\tAbsError: 4.84741e+10\n", + " Region: \"zone_1\"\tRelError: 3.13594e-04\tAbsError: 5.43528e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.13579e-04\tAbsError: 4.52935e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54842e-08\tAbsError: 5.38998e-06\n", + " Region: \"zone_3\"\tRelError: 1.06955e-04\tAbsError: 4.84741e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.96786e-06\tAbsError: 1.76724e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.93306e-06\tAbsError: 3.08016e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 9.90390e-05\tAbsError: 4.53361e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54915e-08\tAbsError: 5.39262e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.34625e-05\tAbsError: 4.93094e+09\n", + " Region: \"zone_1\"\tRelError: 6.39679e-06\tAbsError: 2.70523e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.38901e-06\tAbsError: 2.92935e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.78057e-09\tAbsError: 2.70230e-06\n", + " Region: \"zone_3\"\tRelError: 1.70657e-05\tAbsError: 4.93094e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.08421e-07\tAbsError: 3.64070e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.02783e-07\tAbsError: 1.29024e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.62467e-05\tAbsError: 3.07637e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.78097e-09\tAbsError: 2.70247e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:28\u001b[0m.\u001b[1;36m663\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:28\u001b[0m.\u001b[1;36m663\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.08284e-01\tAbsError: 2.80262e+12\n", + " Region: \"zone_1\"\tRelError: 3.07855e-02\tAbsError: 2.71657e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.07777e-02\tAbsError: 1.59621e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.81732e-06\tAbsError: 2.71497e-03\n", + " Region: \"zone_3\"\tRelError: 7.74984e-02\tAbsError: 2.80262e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.89088e-02\tAbsError: 1.70510e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.75146e-04\tAbsError: 1.09751e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.40665e-03\tAbsError: 1.68287e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.81732e-06\tAbsError: 2.71497e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.56210e+00\tAbsError: 2.88655e+14\n", + " Region: \"zone_1\"\tRelError: 1.01850e-01\tAbsError: 8.11752e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01705e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.45044e-04\tAbsError: 5.04116e-02\n", + " Region: \"zone_3\"\tRelError: 1.46025e+00\tAbsError: 2.88655e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39145e-01\tAbsError: 2.10222e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.31918e-01\tAbsError: 7.84329e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.90395e-02\tAbsError: 3.07640e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.45044e-04\tAbsError: 5.04116e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.83522e-01\tAbsError: 3.54933e+13\n", + " Region: \"zone_1\"\tRelError: 2.33507e-01\tAbsError: 1.43725e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.33499e-01\tAbsError: 1.17193e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.63430e-06\tAbsError: 2.65326e-03\n", + " Region: \"zone_3\"\tRelError: 3.50016e-01\tAbsError: 3.54933e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.34133e-01\tAbsError: 1.71908e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.49655e-02\tAbsError: 1.83026e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.09091e-02\tAbsError: 1.17193e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.63720e-06\tAbsError: 2.65431e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.44773e-05\tAbsError: 4.32661e+09\n", + " Region: \"zone_1\"\tRelError: 4.86330e-05\tAbsError: 2.50407e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.86258e-05\tAbsError: 2.65675e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.20296e-09\tAbsError: 2.50141e-06\n", + " Region: \"zone_3\"\tRelError: 1.58443e-05\tAbsError: 4.32661e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.09737e-07\tAbsError: 3.25544e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.04907e-07\tAbsError: 1.07118e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.52224e-05\tAbsError: 2.78624e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.20356e-09\tAbsError: 2.50165e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:29\u001b[0m.\u001b[1;36m772\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:29\u001b[0m.\u001b[1;36m772\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.4214285714285714\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 9.54016e+00\tAbsError: 8.28773e+15\n", + " Region: \"zone_1\"\tRelError: 7.90066e+00\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.90066e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.70878e-10\tAbsError: 1.98740e-07\n", + " Region: \"zone_3\"\tRelError: 1.63951e+00\tAbsError: 8.28773e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69626e-01\tAbsError: 4.72857e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69607e-01\tAbsError: 3.55916e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00272e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.71142e-10\tAbsError: 1.98836e-07\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.36717e-03\tAbsError: 1.33167e+12\n", + " Region: \"zone_1\"\tRelError: 4.20849e-03\tAbsError: 1.26692e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.20813e-03\tAbsError: 1.87616e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.58541e-07\tAbsError: 1.24816e-04\n", + " Region: \"zone_3\"\tRelError: 2.15868e-03\tAbsError: 1.33167e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.71347e-04\tAbsError: 3.63972e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.71719e-04\tAbsError: 9.67699e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.81526e-03\tAbsError: 1.88004e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.58699e-07\tAbsError: 1.24874e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.02466e+00\tAbsError: 6.04267e+13\n", + " Region: \"zone_1\"\tRelError: 7.18592e-02\tAbsError: 3.22577e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.18409e-02\tAbsError: 2.58878e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83272e-05\tAbsError: 6.36990e-03\n", + " Region: \"zone_3\"\tRelError: 9.52804e-01\tAbsError: 6.04267e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40508e-01\tAbsError: 3.80417e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.10167e-01\tAbsError: 2.23851e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02110e-01\tAbsError: 2.58991e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83272e-05\tAbsError: 6.36990e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.10471e-01\tAbsError: 5.30987e+12\n", + " Region: \"zone_1\"\tRelError: 2.72318e-02\tAbsError: 1.77544e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.72268e-02\tAbsError: 3.65311e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.00788e-06\tAbsError: 1.73891e-03\n", + " Region: \"zone_3\"\tRelError: 8.32389e-02\tAbsError: 5.30987e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.27195e-02\tAbsError: 2.71759e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.48665e-03\tAbsError: 2.59228e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.02772e-03\tAbsError: 4.07396e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.00788e-06\tAbsError: 1.73891e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.28164e+01\tAbsError: 8.85147e+15\n", + " Region: \"zone_1\"\tRelError: 3.11365e+01\tAbsError: 4.23837e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.11365e+01\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.91236e-10\tAbsError: 1.70998e-07\n", + " Region: \"zone_3\"\tRelError: 1.67985e+00\tAbsError: 8.85147e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.81658e-01\tAbsError: 5.20181e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.81638e-01\tAbsError: 3.64966e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16552e-01\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.91480e-10\tAbsError: 1.71086e-07\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.57084e+00\tAbsError: 2.89575e+14\n", + " Region: \"zone_1\"\tRelError: 1.26543e-01\tAbsError: 8.72430e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.26381e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62480e-04\tAbsError: 5.64794e-02\n", + " Region: \"zone_3\"\tRelError: 1.44430e+00\tAbsError: 2.89575e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37983e-01\tAbsError: 1.66847e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32917e-01\tAbsError: 1.22728e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.32359e-02\tAbsError: 3.07641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62480e-04\tAbsError: 5.64794e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.47046e-03\tAbsError: 1.03678e+11\n", + " Region: \"zone_1\"\tRelError: 1.12698e-03\tAbsError: 7.93760e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12675e-03\tAbsError: 5.92781e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28365e-07\tAbsError: 7.93168e-05\n", + " Region: \"zone_3\"\tRelError: 3.43475e-04\tAbsError: 1.03678e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.28615e-06\tAbsError: 7.51228e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.20842e-06\tAbsError: 2.85551e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.26752e-04\tAbsError: 6.23260e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28457e-07\tAbsError: 7.93466e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.07050e-01\tAbsError: 1.83634e+13\n", + " Region: \"zone_1\"\tRelError: 2.24108e-02\tAbsError: 1.12606e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.24048e-02\tAbsError: 9.16557e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.02744e-06\tAbsError: 2.09499e-03\n", + " Region: \"zone_3\"\tRelError: 2.84640e-01\tAbsError: 1.83634e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.09245e-01\tAbsError: 8.86934e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.28005e-02\tAbsError: 9.49405e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.25878e-02\tAbsError: 9.16561e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.02994e-06\tAbsError: 2.09586e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.64532e-03\tAbsError: 8.16897e+11\n", + " Region: \"zone_1\"\tRelError: 7.82382e-04\tAbsError: 1.31169e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.82008e-04\tAbsError: 1.21129e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.73904e-07\tAbsError: 1.29958e-04\n", + " Region: \"zone_3\"\tRelError: 8.62936e-04\tAbsError: 8.16897e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.19497e-04\tAbsError: 1.88712e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.83220e-05\tAbsError: 6.28185e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 6.64743e-04\tAbsError: 1.21360e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.73904e-07\tAbsError: 1.29958e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.74151e+00\tAbsError: 3.58703e+14\n", + " Region: \"zone_1\"\tRelError: 1.23207e+00\tAbsError: 8.53073e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.23192e+00\tAbsError: 3.24496e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52087e-04\tAbsError: 5.28578e-02\n", + " Region: \"zone_3\"\tRelError: 1.50944e+00\tAbsError: 3.58703e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.60563e-01\tAbsError: 2.60371e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.54059e-01\tAbsError: 9.83320e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.46637e-02\tAbsError: 3.24500e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52087e-04\tAbsError: 5.28578e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.08933e+00\tAbsError: 3.08258e+13\n", + " Region: \"zone_1\"\tRelError: 1.39766e-01\tAbsError: 3.14532e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39750e-01\tAbsError: 2.58726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60540e-05\tAbsError: 5.58058e-03\n", + " Region: \"zone_3\"\tRelError: 9.49568e-01\tAbsError: 3.08258e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40223e-01\tAbsError: 2.27975e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.01508e-01\tAbsError: 8.02831e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07820e-01\tAbsError: 2.58966e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60540e-05\tAbsError: 5.58058e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 7.32841e-04\tAbsError: 7.32581e+10\n", + " Region: \"zone_1\"\tRelError: 5.53070e-04\tAbsError: 3.54075e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.53060e-04\tAbsError: 6.27391e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.99046e-09\tAbsError: 3.47801e-06\n", + " Region: \"zone_3\"\tRelError: 1.79771e-04\tAbsError: 7.32581e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.77544e-06\tAbsError: 2.98226e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.72018e-06\tAbsError: 4.34355e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66266e-04\tAbsError: 6.30335e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.99552e-09\tAbsError: 3.47985e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.39650e-02\tAbsError: 2.30731e+12\n", + " Region: \"zone_1\"\tRelError: 9.33244e-04\tAbsError: 2.05118e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 9.27371e-04\tAbsError: 1.17101e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.87337e-06\tAbsError: 2.03947e-03\n", + " Region: \"zone_3\"\tRelError: 6.30318e-02\tAbsError: 2.30731e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.63237e-02\tAbsError: 1.57438e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.61914e-04\tAbsError: 7.32926e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 6.34034e-03\tAbsError: 1.22701e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.87337e-06\tAbsError: 2.03947e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.94127e-04\tAbsError: 1.13091e+11\n", + " Region: \"zone_1\"\tRelError: 5.03283e-05\tAbsError: 4.43145e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.02009e-05\tAbsError: 7.27026e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27403e-07\tAbsError: 4.42417e-05\n", + " Region: \"zone_3\"\tRelError: 4.43799e-04\tAbsError: 1.13091e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.49594e-06\tAbsError: 7.71052e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.42465e-06\tAbsError: 3.59861e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.28751e-04\tAbsError: 7.59369e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27403e-07\tAbsError: 4.42417e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.31343e+00\tAbsError: 8.70893e+13\n", + " Region: \"zone_1\"\tRelError: 2.74195e-01\tAbsError: 3.32768e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.74174e-01\tAbsError: 2.58913e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.12496e-05\tAbsError: 7.38544e-03\n", + " Region: \"zone_3\"\tRelError: 1.03923e+00\tAbsError: 8.70893e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.74714e-01\tAbsError: 5.16570e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.55644e-01\tAbsError: 3.54323e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08852e-01\tAbsError: 2.58666e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.12496e-05\tAbsError: 7.38544e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.94758e-01\tAbsError: 4.98642e+12\n", + " Region: \"zone_1\"\tRelError: 2.19383e-02\tAbsError: 1.22221e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.19295e-02\tAbsError: 9.16564e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.79291e-06\tAbsError: 3.05651e-03\n", + " Region: \"zone_3\"\tRelError: 2.72820e-01\tAbsError: 4.98642e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12699e-01\tAbsError: 2.77867e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.23181e-02\tAbsError: 2.20775e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77940e-02\tAbsError: 9.16568e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.79389e-06\tAbsError: 3.05683e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.29111e-05\tAbsError: 2.48408e+09\n", + " Region: \"zone_1\"\tRelError: 1.67401e-05\tAbsError: 4.18088e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.67281e-05\tAbsError: 1.39314e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20220e-08\tAbsError: 4.17948e-06\n", + " Region: \"zone_3\"\tRelError: 6.17105e-06\tAbsError: 2.48408e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.28362e-07\tAbsError: 2.18835e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.02485e-07\tAbsError: 2.95729e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 5.72818e-06\tAbsError: 1.45679e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20230e-08\tAbsError: 4.17988e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:34\u001b[0m.\u001b[1;36m739\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.3125\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.79721e-03\tAbsError: 9.76589e+11\n", + " Region: \"zone_1\"\tRelError: 1.82738e-04\tAbsError: 8.39323e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82502e-04\tAbsError: 1.48235e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36874e-07\tAbsError: 8.24499e-05\n", + " Region: \"zone_3\"\tRelError: 1.61447e-03\tAbsError: 9.76589e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10820e-04\tAbsError: 2.51654e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.02342e-04\tAbsError: 7.24935e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40107e-03\tAbsError: 1.48793e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36983e-07\tAbsError: 8.24891e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 8.73659e-05\tAbsError: 3.83017e+10\n", + " Region: \"zone_1\"\tRelError: 1.09448e-05\tAbsError: 6.06568e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09275e-05\tAbsError: 3.59235e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73237e-08\tAbsError: 6.02976e-06\n", + " Region: \"zone_3\"\tRelError: 7.64211e-05\tAbsError: 3.83017e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.72621e-06\tAbsError: 1.27553e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.70260e-06\tAbsError: 2.55464e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.09750e-05\tAbsError: 3.59448e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73309e-08\tAbsError: 6.03238e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:35\u001b[0m.\u001b[1;36m159\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:35\u001b[0m.\u001b[1;36m159\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5333333333333333\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.44912e-01\tAbsError: 3.23386e+13\n", + " Region: \"zone_1\"\tRelError: 1.07085e-01\tAbsError: 1.39233e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07077e-01\tAbsError: 1.13362e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.44390e-06\tAbsError: 2.58710e-03\n", + " Region: \"zone_3\"\tRelError: 3.37827e-01\tAbsError: 3.23386e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.28282e-01\tAbsError: 1.57182e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.99266e-02\tAbsError: 1.66204e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.96108e-02\tAbsError: 1.13362e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.44711e-06\tAbsError: 2.58826e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.73338e-02\tAbsError: 3.09182e+12\n", + " Region: \"zone_1\"\tRelError: 1.11598e-02\tAbsError: 1.65988e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11551e-02\tAbsError: 1.42279e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73882e-06\tAbsError: 1.64565e-03\n", + " Region: \"zone_3\"\tRelError: 6.61739e-02\tAbsError: 3.09182e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.71921e-02\tAbsError: 1.98622e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.49402e-04\tAbsError: 1.10560e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.42774e-03\tAbsError: 1.50865e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73882e-06\tAbsError: 1.64565e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.68582e-04\tAbsError: 6.39514e+10\n", + " Region: \"zone_1\"\tRelError: 3.10151e-05\tAbsError: 5.94800e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.08440e-05\tAbsError: 4.08298e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71164e-07\tAbsError: 5.94392e-05\n", + " Region: \"zone_3\"\tRelError: 2.37567e-04\tAbsError: 6.39514e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16150e-06\tAbsError: 5.01904e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.80228e-06\tAbsError: 1.37610e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29432e-04\tAbsError: 4.25523e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71229e-07\tAbsError: 5.94601e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.18878e+03\tAbsError: 8.80418e+15\n", + " Region: \"zone_1\"\tRelError: 1.18711e+03\tAbsError: 4.22092e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18711e+03\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.05757e-10\tAbsError: 1.41181e-07\n", + " Region: \"zone_3\"\tRelError: 1.66432e+00\tAbsError: 8.80418e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80202e-01\tAbsError: 5.03339e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.80184e-01\tAbsError: 3.77079e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03936e-01\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.05935e-10\tAbsError: 1.41242e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 9.89628e+00\tAbsError: 8.91444e+15\n", + " Region: \"zone_1\"\tRelError: 8.18490e+00\tAbsError: 4.26161e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.18490e+00\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.46480e-09\tAbsError: 1.89769e-06\n", + " Region: \"zone_3\"\tRelError: 1.71138e+00\tAbsError: 8.91444e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83550e-01\tAbsError: 5.20673e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.83503e-01\tAbsError: 3.70771e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.44328e-01\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.46563e-09\tAbsError: 1.89793e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.32808e-02\tAbsError: 4.75699e+12\n", + " Region: \"zone_1\"\tRelError: 1.32874e-02\tAbsError: 1.76357e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.32824e-02\tAbsError: 3.29582e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.98398e-06\tAbsError: 1.73061e-03\n", + " Region: \"zone_3\"\tRelError: 7.99934e-02\tAbsError: 4.75699e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.00834e-02\tAbsError: 2.45657e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.06171e-03\tAbsError: 2.30042e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.84329e-03\tAbsError: 3.64116e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.98398e-06\tAbsError: 1.73061e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.35940e-03\tAbsError: 7.91644e+11\n", + " Region: \"zone_1\"\tRelError: 6.17001e-04\tAbsError: 1.42075e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.16596e-04\tAbsError: 1.18665e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.04748e-07\tAbsError: 1.40888e-04\n", + " Region: \"zone_3\"\tRelError: 7.42401e-04\tAbsError: 7.91644e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.00211e-04\tAbsError: 1.88344e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.60094e-05\tAbsError: 6.03301e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.55776e-04\tAbsError: 1.18974e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.04912e-07\tAbsError: 1.40947e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.61549e-04\tAbsError: 5.47840e+10\n", + " Region: \"zone_1\"\tRelError: 1.81900e-05\tAbsError: 1.93945e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.81846e-05\tAbsError: 4.89694e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.43105e-09\tAbsError: 1.89048e-06\n", + " Region: \"zone_3\"\tRelError: 1.43359e-04\tAbsError: 5.47840e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.04114e-06\tAbsError: 2.20323e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.00674e-06\tAbsError: 3.27517e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35306e-04\tAbsError: 4.90033e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.43421e-09\tAbsError: 1.89162e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.37089e+00\tAbsError: 3.26099e+14\n", + " Region: \"zone_1\"\tRelError: 8.84636e-01\tAbsError: 9.19122e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.84464e-01\tAbsError: 3.22435e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71658e-04\tAbsError: 5.96687e-02\n", + " Region: \"zone_3\"\tRelError: 1.48626e+00\tAbsError: 3.26099e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.57141e-01\tAbsError: 1.90943e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.52007e-01\tAbsError: 1.35156e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.69369e-02\tAbsError: 3.22440e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71658e-04\tAbsError: 5.96687e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.74553e+00\tAbsError: 1.13341e+15\n", + " Region: \"zone_1\"\tRelError: 2.12627e-01\tAbsError: 7.46675e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.12506e-01\tAbsError: 3.27222e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20702e-04\tAbsError: 4.19453e-02\n", + " Region: \"zone_3\"\tRelError: 1.53291e+00\tAbsError: 1.13341e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.65557e-01\tAbsError: 6.56816e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.50766e-01\tAbsError: 4.76590e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16464e-01\tAbsError: 3.27224e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20702e-04\tAbsError: 4.19453e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.30006e-03\tAbsError: 8.16150e+11\n", + " Region: \"zone_1\"\tRelError: 3.99821e-04\tAbsError: 1.25932e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.99463e-04\tAbsError: 1.21699e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.58320e-07\tAbsError: 1.24715e-04\n", + " Region: \"zone_3\"\tRelError: 9.00235e-04\tAbsError: 8.16150e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12573e-04\tAbsError: 1.90859e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.90086e-05\tAbsError: 6.25291e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 7.08294e-04\tAbsError: 1.22015e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.58458e-07\tAbsError: 1.24765e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.02141e-03\tAbsError: 1.23957e+11\n", + " Region: \"zone_1\"\tRelError: 5.52143e-04\tAbsError: 4.11028e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.52024e-04\tAbsError: 7.43261e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18138e-07\tAbsError: 4.10285e-05\n", + " Region: \"zone_3\"\tRelError: 4.69263e-04\tAbsError: 1.23957e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.58109e-06\tAbsError: 8.33431e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.49437e-06\tAbsError: 4.06143e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.50070e-04\tAbsError: 7.83274e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18138e-07\tAbsError: 4.10285e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.55715e-06\tAbsError: 1.55371e+09\n", + " Region: \"zone_1\"\tRelError: 2.75443e-07\tAbsError: 3.15707e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.66361e-07\tAbsError: 7.16801e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.08162e-09\tAbsError: 3.15635e-06\n", + " Region: \"zone_3\"\tRelError: 2.28171e-06\tAbsError: 1.55371e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01860e-07\tAbsError: 1.23171e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.92720e-08\tAbsError: 3.21996e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 2.10150e-06\tAbsError: 7.37244e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.08225e-09\tAbsError: 3.15662e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.69411e+00\tAbsError: 3.60477e+13\n", + " Region: \"zone_1\"\tRelError: 6.67424e-01\tAbsError: 3.21034e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.67406e-01\tAbsError: 2.58975e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.78531e-05\tAbsError: 6.20590e-03\n", + " Region: \"zone_3\"\tRelError: 1.02669e+00\tAbsError: 3.60477e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.69875e-01\tAbsError: 2.58324e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.41824e-01\tAbsError: 1.02153e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14971e-01\tAbsError: 2.58997e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.78531e-05\tAbsError: 6.20590e-03\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:39\u001b[0m.\u001b[1;36m223\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.5\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.14650e+00\tAbsError: 6.35932e+14\n", + " Region: \"zone_1\"\tRelError: 1.10371e-01\tAbsError: 3.43387e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10347e-01\tAbsError: 2.58939e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.43003e-05\tAbsError: 8.44480e-03\n", + " Region: \"zone_3\"\tRelError: 1.03613e+00\tAbsError: 6.35932e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.81867e-01\tAbsError: 2.98873e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.46371e-01\tAbsError: 3.37059e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07870e-01\tAbsError: 2.58834e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.43003e-05\tAbsError: 8.44480e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.68812e-04\tAbsError: 1.08478e+11\n", + " Region: \"zone_1\"\tRelError: 4.45604e-05\tAbsError: 4.47049e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.44318e-05\tAbsError: 6.94824e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.28536e-07\tAbsError: 4.46354e-05\n", + " Region: \"zone_3\"\tRelError: 4.24252e-04\tAbsError: 1.08478e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.17207e-06\tAbsError: 7.43642e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.10313e-06\tAbsError: 3.41139e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.09848e-04\tAbsError: 7.25698e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.28536e-07\tAbsError: 4.46354e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.30911e-04\tAbsError: 3.51442e+10\n", + " Region: \"zone_1\"\tRelError: 6.81885e-05\tAbsError: 6.92614e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.81687e-05\tAbsError: 3.42472e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.97989e-08\tAbsError: 6.89189e-06\n", + " Region: \"zone_3\"\tRelError: 6.27220e-05\tAbsError: 3.51442e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91737e-06\tAbsError: 1.11617e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.89123e-06\tAbsError: 2.39825e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.68936e-05\tAbsError: 3.42673e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.98072e-08\tAbsError: 6.89488e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.28405e-01\tAbsError: 5.49587e+12\n", + " Region: \"zone_1\"\tRelError: 1.19521e-01\tAbsError: 1.39329e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19513e-01\tAbsError: 1.10528e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.28535e-06\tAbsError: 2.88012e-03\n", + " Region: \"zone_3\"\tRelError: 3.08884e-01\tAbsError: 5.49587e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.25115e-01\tAbsError: 2.79766e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.16660e-02\tAbsError: 2.69821e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20941e-02\tAbsError: 1.10529e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.28980e-06\tAbsError: 2.88167e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.44671e+02\tAbsError: 8.23352e+15\n", + " Region: \"zone_1\"\tRelError: 5.43003e+02\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.43003e+02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.11266e-10\tAbsError: 1.43080e-07\n", + " Region: \"zone_3\"\tRelError: 1.66763e+00\tAbsError: 8.23352e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.84587e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69628e-01\tAbsError: 3.38765e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28340e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.11422e-10\tAbsError: 1.43134e-07\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.26564e-01\tAbsError: 2.88431e+14\n", + " Region: \"zone_1\"\tRelError: 3.85183e-02\tAbsError: 1.72171e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.85025e-02\tAbsError: 1.17193e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.58221e-05\tAbsError: 5.49778e-03\n", + " Region: \"zone_3\"\tRelError: 3.88046e-01\tAbsError: 2.88431e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.32962e-01\tAbsError: 1.33696e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.15669e-01\tAbsError: 1.54734e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.93993e-02\tAbsError: 1.17193e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.58309e-05\tAbsError: 5.50105e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 8.79838e-05\tAbsError: 3.88886e+10\n", + " Region: \"zone_1\"\tRelError: 7.96260e-06\tAbsError: 5.71318e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 7.94629e-06\tAbsError: 3.63581e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.63097e-08\tAbsError: 5.67682e-06\n", + " Region: \"zone_3\"\tRelError: 8.00212e-05\tAbsError: 3.88886e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.78253e-06\tAbsError: 1.32297e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.75836e-06\tAbsError: 2.56589e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.44640e-05\tAbsError: 3.63668e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.63165e-08\tAbsError: 5.67931e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:41\u001b[0m.\u001b[1;36m291\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:41\u001b[0m.\u001b[1;36m291\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5285714285714286\u001b[0m \n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 4.91977e-05\tAbsError: 5.89585e+09\n", + " Region: \"zone_1\"\tRelError: 2.66095e-05\tAbsError: 1.68142e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.66047e-05\tAbsError: 3.56714e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.83123e-09\tAbsError: 1.67785e-06\n", + " Region: \"zone_3\"\tRelError: 2.25882e-05\tAbsError: 5.89585e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.48785e-07\tAbsError: 4.10022e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.43251e-07\tAbsError: 1.79564e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.16913e-05\tAbsError: 3.75397e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.83123e-09\tAbsError: 1.67785e-06\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:41\u001b[0m.\u001b[1;36m412\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.4\u001b[0m \n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "number of equations 31816\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.25936e-01\tAbsError: 2.39001e+12\n", + " Region: \"zone_1\"\tRelError: 4.86940e-02\tAbsError: 2.12649e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 4.86879e-02\tAbsError: 3.66551e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.11296e-06\tAbsError: 2.12282e-03\n", + " Region: \"zone_3\"\tRelError: 7.72419e-02\tAbsError: 2.39001e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.89638e-02\tAbsError: 1.60154e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.54757e-04\tAbsError: 7.88466e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 8.01716e-03\tAbsError: 3.86019e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.11296e-06\tAbsError: 2.12282e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 4.93663e+00\tAbsError: 6.37428e+14\n", + " Region: \"zone_1\"\tRelError: 3.46019e+00\tAbsError: 7.21476e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.46007e+00\tAbsError: 3.07635e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", + " Region: \"zone_3\"\tRelError: 1.47644e+00\tAbsError: 6.37428e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.40577e-01\tAbsError: 3.72575e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.27797e-01\tAbsError: 2.64853e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07947e-01\tAbsError: 3.07638e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.68261e-02\tAbsError: 5.43663e+13\n", + " Region: \"zone_1\"\tRelError: 9.06245e-03\tAbsError: 5.74468e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 9.04655e-03\tAbsError: 2.21279e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59082e-05\tAbsError: 5.52340e-03\n", + " Region: \"zone_3\"\tRelError: 8.77637e-02\tAbsError: 5.43663e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.72497e-02\tAbsError: 3.00106e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.95974e-03\tAbsError: 2.43557e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.05383e-02\tAbsError: 2.34603e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59082e-05\tAbsError: 5.52340e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.71321e+00\tAbsError: 8.81673e+15\n", + " Region: \"zone_1\"\tRelError: 6.00794e+00\tAbsError: 4.23854e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.00794e+00\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.60595e-09\tAbsError: 1.94672e-06\n", + " Region: \"zone_3\"\tRelError: 1.70527e+00\tAbsError: 8.81673e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.81670e-01\tAbsError: 5.15698e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.81625e-01\tAbsError: 3.65975e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.41972e-01\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.60753e-09\tAbsError: 1.94721e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 8.62552e+00\tAbsError: 8.26510e+15\n", + " Region: \"zone_1\"\tRelError: 6.97719e+00\tAbsError: 4.09546e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.97719e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.33437e-10\tAbsError: 3.24924e-07\n", + " Region: \"zone_3\"\tRelError: 1.64833e+00\tAbsError: 8.26510e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69652e-01\tAbsError: 4.84454e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69632e-01\tAbsError: 3.42056e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09044e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.33825e-10\tAbsError: 3.25065e-07\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 8.80926e-03\tAbsError: 1.04555e+12\n", + " Region: \"zone_1\"\tRelError: 7.27674e-03\tAbsError: 1.19488e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.27640e-03\tAbsError: 1.54619e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.38826e-07\tAbsError: 1.17942e-04\n", + " Region: \"zone_3\"\tRelError: 1.53252e-03\tAbsError: 1.04555e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.23053e-04\tAbsError: 2.74165e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.18573e-04\tAbsError: 7.71385e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29055e-03\tAbsError: 1.55151e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.38967e-07\tAbsError: 1.17994e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.95431e+00\tAbsError: 2.96317e+14\n", + " Region: \"zone_1\"\tRelError: 2.00902e+00\tAbsError: 3.34445e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.00900e+00\tAbsError: 2.58782e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", + " Region: \"zone_3\"\tRelError: 9.45295e-01\tAbsError: 2.96317e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42034e-01\tAbsError: 1.59420e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.10683e-01\tAbsError: 1.36896e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.25558e-02\tAbsError: 2.58843e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 7.75776e-03\tAbsError: 2.76446e+12\n", + " Region: \"zone_1\"\tRelError: 8.22210e-04\tAbsError: 1.95288e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 8.21657e-04\tAbsError: 3.02703e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.53255e-07\tAbsError: 1.92261e-04\n", + " Region: \"zone_3\"\tRelError: 6.93555e-03\tAbsError: 2.76446e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.63616e-04\tAbsError: 9.74964e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.36190e-04\tAbsError: 1.78949e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 6.33519e-03\tAbsError: 3.03888e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.53255e-07\tAbsError: 1.92261e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.75729e+00\tAbsError: 1.04697e+15\n", + " Region: \"zone_1\"\tRelError: 2.31703e-01\tAbsError: 7.43403e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.31582e-01\tAbsError: 3.24495e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20545e-04\tAbsError: 4.18908e-02\n", + " Region: \"zone_3\"\tRelError: 1.52558e+00\tAbsError: 1.04697e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.62218e-01\tAbsError: 6.08738e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.47724e-01\tAbsError: 4.38234e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15521e-01\tAbsError: 3.24497e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20545e-04\tAbsError: 4.18908e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.56210e+00\tAbsError: 2.88655e+14\n", + " Region: \"zone_1\"\tRelError: 1.01850e-01\tAbsError: 8.11752e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01705e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.45044e-04\tAbsError: 5.04116e-02\n", + " Region: \"zone_3\"\tRelError: 1.46025e+00\tAbsError: 2.88655e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39145e-01\tAbsError: 2.10222e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.31918e-01\tAbsError: 7.84329e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.90395e-02\tAbsError: 3.07640e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.45044e-04\tAbsError: 5.04116e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.38465e-03\tAbsError: 9.89941e+10\n", + " Region: \"zone_1\"\tRelError: 2.02526e-03\tAbsError: 6.04134e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.02509e-03\tAbsError: 5.87660e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73788e-07\tAbsError: 6.03547e-05\n", + " Region: \"zone_3\"\tRelError: 3.59392e-04\tAbsError: 9.89941e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.10601e-06\tAbsError: 7.06670e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.03564e-06\tAbsError: 2.83270e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.45076e-04\tAbsError: 6.17837e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73818e-07\tAbsError: 6.03636e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.90232e-01\tAbsError: 1.27257e+14\n", + " Region: \"zone_1\"\tRelError: 2.88169e-01\tAbsError: 1.34324e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88157e-01\tAbsError: 9.16559e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22923e-05\tAbsError: 4.26682e-03\n", + " Region: \"zone_3\"\tRelError: 3.02062e-01\tAbsError: 1.27257e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98145e-01\tAbsError: 5.59682e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.53461e-02\tAbsError: 7.12890e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.85587e-02\tAbsError: 9.16563e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22942e-05\tAbsError: 4.26755e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.03450e-04\tAbsError: 1.30819e+11\n", + " Region: \"zone_1\"\tRelError: 4.77036e-05\tAbsError: 1.75374e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.71992e-05\tAbsError: 8.81101e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.04420e-07\tAbsError: 1.75286e-04\n", + " Region: \"zone_3\"\tRelError: 3.55747e-04\tAbsError: 1.30819e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.08527e-06\tAbsError: 9.76850e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.48031e-06\tAbsError: 3.31340e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.38677e-04\tAbsError: 9.20454e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.04420e-07\tAbsError: 1.75286e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.15658e+00\tAbsError: 5.66055e+14\n", + " Region: \"zone_1\"\tRelError: 1.31850e-01\tAbsError: 3.41253e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31826e-01\tAbsError: 2.58364e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.38517e-05\tAbsError: 8.28893e-03\n", + " Region: \"zone_3\"\tRelError: 1.02473e+00\tAbsError: 5.66055e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.76444e-01\tAbsError: 2.68305e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.42329e-01\tAbsError: 2.97750e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.05937e-01\tAbsError: 2.58885e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.38517e-05\tAbsError: 8.28893e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.02466e+00\tAbsError: 6.04267e+13\n", + " Region: \"zone_1\"\tRelError: 7.18592e-02\tAbsError: 3.22577e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.18409e-02\tAbsError: 2.58878e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83272e-05\tAbsError: 6.36990e-03\n", + " Region: \"zone_3\"\tRelError: 9.52804e-01\tAbsError: 6.04267e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40508e-01\tAbsError: 3.80417e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.10167e-01\tAbsError: 2.23851e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02110e-01\tAbsError: 2.58991e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83272e-05\tAbsError: 6.36990e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 8.44431e-04\tAbsError: 5.49302e+10\n", + " Region: \"zone_1\"\tRelError: 7.13090e-04\tAbsError: 4.21004e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 7.13078e-04\tAbsError: 5.01862e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19503e-08\tAbsError: 4.15985e-06\n", + " Region: \"zone_3\"\tRelError: 1.31342e-04\tAbsError: 5.49302e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.51186e-06\tAbsError: 2.12338e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.47250e-06\tAbsError: 3.36964e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.22345e-04\tAbsError: 5.02300e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19561e-08\tAbsError: 4.16197e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 6.19343e-04\tAbsError: 1.68979e+11\n", + " Region: \"zone_1\"\tRelError: 7.37376e-05\tAbsError: 3.31699e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 7.37284e-05\tAbsError: 1.11458e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.21362e-09\tAbsError: 3.20553e-06\n", + " Region: \"zone_3\"\tRelError: 5.45605e-04\tAbsError: 1.68979e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.02630e-05\tAbsError: 8.16562e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.01840e-05\tAbsError: 8.73224e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.25149e-04\tAbsError: 1.14194e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.21831e-09\tAbsError: 3.20711e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.81369e-01\tAbsError: 1.65118e+13\n", + " Region: \"zone_1\"\tRelError: 1.13683e-01\tAbsError: 2.48930e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13676e-01\tAbsError: 7.97182e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", + " Region: \"zone_3\"\tRelError: 6.76863e-02\tAbsError: 1.65118e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.50220e-02\tAbsError: 9.05581e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.84537e-03\tAbsError: 7.45604e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 9.81196e-03\tAbsError: 8.36703e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.10445e-01\tAbsError: 2.57026e+14\n", + " Region: \"zone_1\"\tRelError: 3.68944e-02\tAbsError: 1.67806e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.68788e-02\tAbsError: 1.13361e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.56850e-05\tAbsError: 5.44447e-03\n", + " Region: \"zone_3\"\tRelError: 3.73550e-01\tAbsError: 2.57026e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.26469e-01\tAbsError: 1.17749e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.09349e-01\tAbsError: 1.39277e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.77163e-02\tAbsError: 1.13362e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.56976e-05\tAbsError: 5.44890e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.07050e-01\tAbsError: 1.83634e+13\n", + " Region: \"zone_1\"\tRelError: 2.24108e-02\tAbsError: 1.12606e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.24048e-02\tAbsError: 9.16557e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.02744e-06\tAbsError: 2.09499e-03\n", + " Region: \"zone_3\"\tRelError: 2.84640e-01\tAbsError: 1.83634e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.09245e-01\tAbsError: 8.86934e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.28005e-02\tAbsError: 9.49405e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.25878e-02\tAbsError: 9.16561e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.02994e-06\tAbsError: 2.09586e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.98804e-05\tAbsError: 3.09962e+09\n", + " Region: \"zone_1\"\tRelError: 5.92720e-05\tAbsError: 2.99292e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.92634e-05\tAbsError: 1.93476e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.60480e-09\tAbsError: 2.99098e-06\n", + " Region: \"zone_3\"\tRelError: 1.06085e-05\tAbsError: 3.09962e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.21372e-07\tAbsError: 2.55195e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.06164e-07\tAbsError: 5.47662e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01723e-05\tAbsError: 2.01719e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.60488e-09\tAbsError: 2.99106e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:47\u001b[0m.\u001b[1;36m454\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:47\u001b[0m.\u001b[1;36m454\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.41874999999999996\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.00650e-05\tAbsError: 2.07855e+09\n", + " Region: \"zone_1\"\tRelError: 2.54140e-06\tAbsError: 1.04982e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.51119e-06\tAbsError: 2.66080e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.02028e-08\tAbsError: 1.04955e-05\n", + " Region: \"zone_3\"\tRelError: 1.75236e-05\tAbsError: 2.07855e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52303e-07\tAbsError: 3.52420e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.59594e-07\tAbsError: 1.72613e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.71815e-05\tAbsError: 2.70902e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.02126e-08\tAbsError: 1.04992e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 7.11615e-03\tAbsError: 1.08851e+12\n", + " Region: \"zone_1\"\tRelError: 5.30759e-03\tAbsError: 1.67972e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.30711e-03\tAbsError: 1.45981e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", + " Region: \"zone_3\"\tRelError: 1.80856e-03\tAbsError: 1.08851e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43945e-04\tAbsError: 2.92186e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.94756e-05\tAbsError: 7.96320e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.56466e-03\tAbsError: 1.47422e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:47\u001b[0m.\u001b[1;36m958\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:47\u001b[0m.\u001b[1;36m958\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6416666666666667\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.39650e-02\tAbsError: 2.30731e+12\n", + " Region: \"zone_1\"\tRelError: 9.33244e-04\tAbsError: 2.05118e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 9.27371e-04\tAbsError: 1.17101e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.87337e-06\tAbsError: 2.03947e-03\n", + " Region: \"zone_3\"\tRelError: 6.30318e-02\tAbsError: 2.30731e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.63237e-02\tAbsError: 1.57438e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.61914e-04\tAbsError: 7.32926e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 6.34034e-03\tAbsError: 1.22701e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.87337e-06\tAbsError: 2.03947e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.45294e-02\tAbsError: 4.75798e+13\n", + " Region: \"zone_1\"\tRelError: 9.83113e-03\tAbsError: 4.84305e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 9.81775e-03\tAbsError: 1.96851e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.33816e-05\tAbsError: 4.64620e-03\n", + " Region: \"zone_3\"\tRelError: 8.46983e-02\tAbsError: 4.75798e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.50937e-02\tAbsError: 2.64070e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.66534e-03\tAbsError: 2.11728e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09259e-02\tAbsError: 2.08766e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.33816e-05\tAbsError: 4.64620e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.87927e+01\tAbsError: 8.77821e+15\n", + " Region: \"zone_1\"\tRelError: 1.71169e+01\tAbsError: 4.22091e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.71169e+01\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.79161e-10\tAbsError: 6.23688e-08\n", + " Region: \"zone_3\"\tRelError: 1.67579e+00\tAbsError: 8.77821e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80226e-01\tAbsError: 5.15720e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.80206e-01\tAbsError: 3.62102e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15353e-01\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.79280e-10\tAbsError: 6.24114e-08\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.59900e-03\tAbsError: 1.40711e+11\n", + " Region: \"zone_1\"\tRelError: 2.06948e-03\tAbsError: 6.41578e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06929e-03\tAbsError: 9.09489e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84503e-07\tAbsError: 6.40668e-05\n", + " Region: \"zone_3\"\tRelError: 5.29527e-04\tAbsError: 1.40711e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.39801e-06\tAbsError: 9.47438e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.30618e-06\tAbsError: 4.59673e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.12638e-04\tAbsError: 9.48359e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84568e-07\tAbsError: 6.40878e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.54404e+00\tAbsError: 9.19653e+15\n", + " Region: \"zone_1\"\tRelError: 5.78704e+00\tAbsError: 4.26149e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.78704e+00\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.09033e-09\tAbsError: 7.26390e-07\n", + " Region: \"zone_3\"\tRelError: 1.75700e+00\tAbsError: 9.19653e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83468e-01\tAbsError: 4.88666e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.83333e-01\tAbsError: 4.30987e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.90195e-01\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.09072e-09\tAbsError: 7.26556e-07\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.79721e-03\tAbsError: 9.76589e+11\n", + " Region: \"zone_1\"\tRelError: 1.82738e-04\tAbsError: 8.39323e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82502e-04\tAbsError: 1.48235e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36874e-07\tAbsError: 8.24499e-05\n", + " Region: \"zone_3\"\tRelError: 1.61447e-03\tAbsError: 9.76589e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10820e-04\tAbsError: 2.51654e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.02342e-04\tAbsError: 7.24935e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40107e-03\tAbsError: 1.48793e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36983e-07\tAbsError: 8.24891e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.18118e-03\tAbsError: 2.28028e+12\n", + " Region: \"zone_1\"\tRelError: 7.42289e-04\tAbsError: 2.07979e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.41698e-04\tAbsError: 2.57621e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.91069e-07\tAbsError: 2.05403e-04\n", + " Region: \"zone_3\"\tRelError: 5.43889e-03\tAbsError: 2.28028e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.11866e-04\tAbsError: 7.70443e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.97347e-04\tAbsError: 1.50984e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.92909e-03\tAbsError: 2.58602e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.91069e-07\tAbsError: 2.05403e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.95137e+00\tAbsError: 3.48893e+14\n", + " Region: \"zone_1\"\tRelError: 4.47469e-01\tAbsError: 8.48100e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.47317e-01\tAbsError: 3.22435e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.51248e-04\tAbsError: 5.25665e-02\n", + " Region: \"zone_3\"\tRelError: 1.50390e+00\tAbsError: 3.48893e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.58073e-01\tAbsError: 2.53777e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.51336e-01\tAbsError: 9.51163e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.43386e-02\tAbsError: 3.22439e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.51248e-04\tAbsError: 5.25665e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 6.84757e-04\tAbsError: 5.79872e+10\n", + " Region: \"zone_1\"\tRelError: 5.39232e-04\tAbsError: 6.69464e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.39213e-04\tAbsError: 4.49143e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91058e-08\tAbsError: 6.64972e-06\n", + " Region: \"zone_3\"\tRelError: 1.45525e-04\tAbsError: 5.79872e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.71562e-06\tAbsError: 2.34463e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.68397e-06\tAbsError: 3.45410e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.38106e-04\tAbsError: 4.56915e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91137e-08\tAbsError: 6.65261e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.76152e+00\tAbsError: 6.12661e+15\n", + " Region: \"zone_1\"\tRelError: 2.09395e-01\tAbsError: 7.53205e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.09272e-01\tAbsError: 3.27221e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22597e-04\tAbsError: 4.25984e-02\n", + " Region: \"zone_3\"\tRelError: 1.55213e+00\tAbsError: 6.12661e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.63853e-01\tAbsError: 2.91068e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.34999e-01\tAbsError: 3.21593e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.53154e-01\tAbsError: 3.27222e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22597e-04\tAbsError: 4.25984e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.68582e-04\tAbsError: 6.39514e+10\n", + " Region: \"zone_1\"\tRelError: 3.10151e-05\tAbsError: 5.94800e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.08440e-05\tAbsError: 4.08298e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71164e-07\tAbsError: 5.94392e-05\n", + " Region: \"zone_3\"\tRelError: 2.37567e-04\tAbsError: 6.39514e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16150e-06\tAbsError: 5.01904e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.80228e-06\tAbsError: 1.37610e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29432e-04\tAbsError: 4.25523e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71229e-07\tAbsError: 5.94601e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 5.42428e-04\tAbsError: 1.49895e+11\n", + " Region: \"zone_1\"\tRelError: 7.43693e-05\tAbsError: 1.42149e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.39602e-05\tAbsError: 9.90020e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.09109e-07\tAbsError: 1.42050e-04\n", + " Region: \"zone_3\"\tRelError: 4.68059e-04\tAbsError: 1.49895e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.53557e-06\tAbsError: 1.05959e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.74851e-06\tAbsError: 4.39358e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.49366e-04\tAbsError: 1.03361e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.09109e-07\tAbsError: 1.42050e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.14013e+00\tAbsError: 8.25371e+13\n", + " Region: \"zone_1\"\tRelError: 1.11172e-01\tAbsError: 3.30262e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11151e-01\tAbsError: 2.57853e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.08335e-05\tAbsError: 7.24085e-03\n", + " Region: \"zone_3\"\tRelError: 1.02896e+00\tAbsError: 8.25371e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.70525e-01\tAbsError: 4.90867e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.50397e-01\tAbsError: 3.34505e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08014e-01\tAbsError: 2.58239e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.08335e-05\tAbsError: 7.24085e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.02364e-04\tAbsError: 5.62248e+09\n", + " Region: \"zone_1\"\tRelError: 8.15379e-05\tAbsError: 3.03368e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.15291e-05\tAbsError: 3.57289e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.71937e-09\tAbsError: 3.03011e-06\n", + " Region: \"zone_3\"\tRelError: 2.08260e-05\tAbsError: 5.62248e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.14319e-07\tAbsError: 4.05602e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.09034e-07\tAbsError: 1.56647e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.01939e-05\tAbsError: 3.71851e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.71944e-09\tAbsError: 3.03019e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.19309e+00\tAbsError: 4.43505e+15\n", + " Region: \"zone_1\"\tRelError: 1.28635e-01\tAbsError: 3.41725e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28609e-01\tAbsError: 2.52181e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.57713e-05\tAbsError: 8.95443e-03\n", + " Region: \"zone_3\"\tRelError: 1.06446e+00\tAbsError: 4.43505e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.84044e-01\tAbsError: 2.10617e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.39432e-01\tAbsError: 2.32888e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40955e-01\tAbsError: 2.56263e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.57981e-05\tAbsError: 8.96393e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.61549e-04\tAbsError: 5.47840e+10\n", + " Region: \"zone_1\"\tRelError: 1.81900e-05\tAbsError: 1.93945e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.81846e-05\tAbsError: 4.89694e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.43105e-09\tAbsError: 1.89048e-06\n", + " Region: \"zone_3\"\tRelError: 1.43359e-04\tAbsError: 5.47840e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.04114e-06\tAbsError: 2.20323e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.00674e-06\tAbsError: 3.27517e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35306e-04\tAbsError: 4.90033e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.43421e-09\tAbsError: 1.89162e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.91927e-04\tAbsError: 1.36404e+11\n", + " Region: \"zone_1\"\tRelError: 6.69713e-05\tAbsError: 3.11592e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.69626e-05\tAbsError: 9.20653e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.68788e-09\tAbsError: 3.02386e-06\n", + " Region: \"zone_3\"\tRelError: 4.24956e-04\tAbsError: 1.36404e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.34577e-06\tAbsError: 6.44393e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.27955e-06\tAbsError: 7.19643e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.08322e-04\tAbsError: 9.42720e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.69229e-09\tAbsError: 3.02544e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.75588e-01\tAbsError: 3.01123e+13\n", + " Region: \"zone_1\"\tRelError: 4.71817e-02\tAbsError: 1.36022e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.71744e-02\tAbsError: 1.10528e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.33552e-06\tAbsError: 2.54944e-03\n", + " Region: \"zone_3\"\tRelError: 3.28406e-01\tAbsError: 3.01123e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.23669e-01\tAbsError: 1.46557e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.60685e-02\tAbsError: 1.54566e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.86615e-02\tAbsError: 1.10528e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.33882e-06\tAbsError: 2.55063e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.62672e-05\tAbsError: 3.10481e+09\n", + " Region: \"zone_1\"\tRelError: 3.66806e-05\tAbsError: 2.21724e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 3.66799e-05\tAbsError: 2.06476e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.31104e-10\tAbsError: 2.19659e-07\n", + " Region: \"zone_3\"\tRelError: 9.58660e-06\tAbsError: 3.10481e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88628e-07\tAbsError: 1.51763e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.86687e-07\tAbsError: 1.58718e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 9.21065e-06\tAbsError: 2.10348e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.31398e-10\tAbsError: 2.19764e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:53\u001b[0m.\u001b[1;36m530\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.6\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.92644e-01\tAbsError: 1.63079e+15\n", + " Region: \"zone_1\"\tRelError: 7.03148e-02\tAbsError: 4.00940e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.02331e-02\tAbsError: 1.17197e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.16694e-05\tAbsError: 2.83743e-02\n", + " Region: \"zone_3\"\tRelError: 4.22329e-01\tAbsError: 1.63079e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.29131e-01\tAbsError: 8.82419e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.44724e-01\tAbsError: 7.48376e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.83927e-02\tAbsError: 1.17198e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.16694e-05\tAbsError: 2.83743e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.55715e-06\tAbsError: 1.55372e+09\n", + " Region: \"zone_1\"\tRelError: 2.75443e-07\tAbsError: 3.15707e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.66361e-07\tAbsError: 7.16801e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.08162e-09\tAbsError: 3.15635e-06\n", + " Region: \"zone_3\"\tRelError: 2.28171e-06\tAbsError: 1.55372e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01860e-07\tAbsError: 1.23173e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.92720e-08\tAbsError: 3.21996e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 2.10150e-06\tAbsError: 7.37244e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.08225e-09\tAbsError: 3.15662e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.79676e-06\tAbsError: 2.40078e+09\n", + " Region: \"zone_1\"\tRelError: 4.23223e-07\tAbsError: 8.23258e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.99535e-07\tAbsError: 1.09967e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36875e-08\tAbsError: 8.23148e-06\n", + " Region: \"zone_3\"\tRelError: 2.37354e-06\tAbsError: 2.40078e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.77442e-07\tAbsError: 2.05901e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.23886e-07\tAbsError: 3.41766e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 2.04852e-06\tAbsError: 1.12122e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36936e-08\tAbsError: 8.23382e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:54\u001b[0m.\u001b[1;36m139\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.5\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:54\u001b[0m.\u001b[1;36m244\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:54\u001b[0m.\u001b[1;36m244\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6357142857142857\u001b[0m \n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "number of equations 31816\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.36867e-02\tAbsError: 4.49639e+12\n", + " Region: \"zone_1\"\tRelError: 6.00906e-03\tAbsError: 1.73862e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.00414e-03\tAbsError: 3.08269e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.91824e-06\tAbsError: 1.70779e-03\n", + " Region: \"zone_3\"\tRelError: 7.76776e-02\tAbsError: 4.49639e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.81380e-02\tAbsError: 2.39823e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.79324e-03\tAbsError: 2.09816e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.74142e-03\tAbsError: 3.38601e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.91824e-06\tAbsError: 1.70779e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.29483e-01\tAbsError: 3.05068e+14\n", + " Region: \"zone_1\"\tRelError: 8.16545e-03\tAbsError: 2.91905e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.08201e-03\tAbsError: 2.25848e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.34378e-05\tAbsError: 2.89646e-02\n", + " Region: \"zone_3\"\tRelError: 1.21317e-01\tAbsError: 3.05068e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.58578e-02\tAbsError: 1.79486e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.20322e-02\tAbsError: 1.25582e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.33440e-02\tAbsError: 2.36235e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.34378e-05\tAbsError: 2.89646e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.94073e+01\tAbsError: 8.32958e+15\n", + " Region: \"zone_1\"\tRelError: 1.77016e+01\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77016e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.06764e-10\tAbsError: 1.76108e-07\n", + " Region: \"zone_3\"\tRelError: 1.70569e+00\tAbsError: 8.32958e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69637e-01\tAbsError: 4.59097e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69532e-01\tAbsError: 3.73860e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66519e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.06930e-10\tAbsError: 1.76171e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.44671e+02\tAbsError: 8.23352e+15\n", + " Region: \"zone_1\"\tRelError: 5.43003e+02\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.43003e+02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.11267e-10\tAbsError: 1.43080e-07\n", + " Region: \"zone_3\"\tRelError: 1.66763e+00\tAbsError: 8.23352e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.84587e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69628e-01\tAbsError: 3.38765e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28340e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.11422e-10\tAbsError: 1.43134e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.13690e+00\tAbsError: 9.06564e+15\n", + " Region: \"zone_1\"\tRelError: 4.38729e+00\tAbsError: 4.23839e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.38729e+00\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10788e-09\tAbsError: 3.85000e-07\n", + " Region: \"zone_3\"\tRelError: 1.74961e+00\tAbsError: 9.06564e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.81598e-01\tAbsError: 4.84230e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.81467e-01\tAbsError: 4.22333e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86547e-01\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10788e-09\tAbsError: 3.85000e-07\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.07855e-03\tAbsError: 8.06829e+11\n", + " Region: \"zone_1\"\tRelError: 1.84429e-04\tAbsError: 1.23665e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.84077e-04\tAbsError: 1.20782e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.51834e-07\tAbsError: 1.22457e-04\n", + " Region: \"zone_3\"\tRelError: 8.94125e-04\tAbsError: 8.06829e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07774e-04\tAbsError: 1.89260e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.83970e-05\tAbsError: 6.17569e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 7.07602e-04\tAbsError: 1.21142e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.51972e-07\tAbsError: 1.22508e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.96602e-02\tAbsError: 1.51748e+13\n", + " Region: \"zone_1\"\tRelError: 4.68184e-03\tAbsError: 3.54680e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.68086e-03\tAbsError: 1.17136e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.87176e-07\tAbsError: 3.42966e-04\n", + " Region: \"zone_3\"\tRelError: 4.49784e-02\tAbsError: 1.51748e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07526e-03\tAbsError: 6.43367e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.83883e-04\tAbsError: 8.74109e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.29183e-02\tAbsError: 1.21270e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.87176e-07\tAbsError: 3.42966e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.07616e+01\tAbsError: 3.02291e+15\n", + " Region: \"zone_1\"\tRelError: 9.27113e+00\tAbsError: 6.52674e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.27103e+00\tAbsError: 3.07634e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.92954e-05\tAbsError: 3.45040e-02\n", + " Region: \"zone_3\"\tRelError: 1.49044e+00\tAbsError: 3.02291e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.40308e-01\tAbsError: 1.49698e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.14159e-01\tAbsError: 1.52592e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35875e-01\tAbsError: 3.07635e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.92954e-05\tAbsError: 3.45040e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 4.93663e+00\tAbsError: 6.37428e+14\n", + " Region: \"zone_1\"\tRelError: 3.46019e+00\tAbsError: 7.21476e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.46007e+00\tAbsError: 3.07635e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", + " Region: \"zone_3\"\tRelError: 1.47644e+00\tAbsError: 6.37428e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.40577e-01\tAbsError: 3.72575e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.27797e-01\tAbsError: 2.64853e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07947e-01\tAbsError: 3.07638e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.79485e+00\tAbsError: 5.47603e+15\n", + " Region: \"zone_1\"\tRelError: 2.51138e-01\tAbsError: 7.31255e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.51021e-01\tAbsError: 3.24494e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.17064e-04\tAbsError: 4.06761e-02\n", + " Region: \"zone_3\"\tRelError: 1.54371e+00\tAbsError: 5.47603e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.60529e-01\tAbsError: 2.61823e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32596e-01\tAbsError: 2.85780e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.50466e-01\tAbsError: 3.24494e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.17064e-04\tAbsError: 4.06761e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.60447e-04\tAbsError: 1.06355e+11\n", + " Region: \"zone_1\"\tRelError: 4.47681e-05\tAbsError: 4.42560e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.46408e-05\tAbsError: 6.79569e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27248e-07\tAbsError: 4.41881e-05\n", + " Region: \"zone_3\"\tRelError: 4.15679e-04\tAbsError: 1.06355e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.03322e-06\tAbsError: 7.30303e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.96546e-06\tAbsError: 3.33242e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.01553e-04\tAbsError: 7.09759e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27248e-07\tAbsError: 4.41881e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.52996e-04\tAbsError: 2.81948e+11\n", + " Region: \"zone_1\"\tRelError: 2.18342e-05\tAbsError: 9.35229e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.91426e-05\tAbsError: 1.70183e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69160e-06\tAbsError: 9.35059e-04\n", + " Region: \"zone_3\"\tRelError: 2.31162e-04\tAbsError: 2.81948e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.87484e-05\tAbsError: 2.24250e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.27443e-06\tAbsError: 5.76984e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.00448e-04\tAbsError: 1.70517e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69168e-06\tAbsError: 9.35104e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.22732e+00\tAbsError: 2.06865e+15\n", + " Region: \"zone_1\"\tRelError: 2.78568e-01\tAbsError: 2.74627e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78563e-01\tAbsError: 2.58185e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73142e-06\tAbsError: 1.64416e-03\n", + " Region: \"zone_3\"\tRelError: 9.48751e-01\tAbsError: 2.06865e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.44918e-01\tAbsError: 9.02348e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.89155e-01\tAbsError: 1.16630e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14673e-01\tAbsError: 2.51147e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73142e-06\tAbsError: 1.64416e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.95431e+00\tAbsError: 2.96317e+14\n", + " Region: \"zone_1\"\tRelError: 2.00902e+00\tAbsError: 3.34445e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.00900e+00\tAbsError: 2.58782e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", + " Region: \"zone_3\"\tRelError: 9.45295e-01\tAbsError: 2.96317e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42034e-01\tAbsError: 1.59420e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.10683e-01\tAbsError: 1.36896e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.25558e-02\tAbsError: 2.58843e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.17461e+00\tAbsError: 4.04065e+15\n", + " Region: \"zone_1\"\tRelError: 1.26446e-01\tAbsError: 3.40013e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.26423e-01\tAbsError: 2.57765e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36708e-05\tAbsError: 8.22472e-03\n", + " Region: \"zone_3\"\tRelError: 1.04817e+00\tAbsError: 4.04065e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.78908e-01\tAbsError: 1.87301e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.31622e-01\tAbsError: 2.16764e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37612e-01\tAbsError: 2.56811e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36844e-05\tAbsError: 8.22958e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 8.78515e-05\tAbsError: 3.85456e+10\n", + " Region: \"zone_1\"\tRelError: 8.13611e-06\tAbsError: 5.58107e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.12018e-06\tAbsError: 3.60972e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59308e-08\tAbsError: 5.54497e-06\n", + " Region: \"zone_3\"\tRelError: 7.97153e-05\tAbsError: 3.85456e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.76828e-06\tAbsError: 1.31596e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.74419e-06\tAbsError: 2.53860e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.41869e-05\tAbsError: 3.60990e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59375e-08\tAbsError: 5.54742e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:58\u001b[0m.\u001b[1;36m865\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.525\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.89158e-03\tAbsError: 9.05298e+11\n", + " Region: \"zone_1\"\tRelError: 3.78207e-04\tAbsError: 4.44628e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.78080e-04\tAbsError: 4.56527e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26768e-07\tAbsError: 4.40063e-05\n", + " Region: \"zone_3\"\tRelError: 3.51337e-03\tAbsError: 9.05298e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42984e-05\tAbsError: 4.59366e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.41399e-05\tAbsError: 4.45932e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.42481e-03\tAbsError: 4.75231e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26809e-07\tAbsError: 4.40212e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 7.18897e+00\tAbsError: 6.29402e+14\n", + " Region: \"zone_1\"\tRelError: 6.86170e+00\tAbsError: 2.22868e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.86166e+00\tAbsError: 9.16572e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.77613e-05\tAbsError: 1.31211e-02\n", + " Region: \"zone_3\"\tRelError: 3.27267e-01\tAbsError: 6.29402e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84319e-01\tAbsError: 3.28649e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.08857e-01\tAbsError: 3.00753e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.40527e-02\tAbsError: 9.16579e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.77613e-05\tAbsError: 1.31211e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.90232e-01\tAbsError: 1.27257e+14\n", + " Region: \"zone_1\"\tRelError: 2.88169e-01\tAbsError: 1.34324e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88157e-01\tAbsError: 9.16559e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22923e-05\tAbsError: 4.26682e-03\n", + " Region: \"zone_3\"\tRelError: 3.02062e-01\tAbsError: 1.27257e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98145e-01\tAbsError: 5.59682e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.53461e-02\tAbsError: 7.12890e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.85587e-02\tAbsError: 9.16563e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22942e-05\tAbsError: 4.26755e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.86737e-01\tAbsError: 1.42449e+15\n", + " Region: \"zone_1\"\tRelError: 7.79806e-02\tAbsError: 3.66548e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.79077e-02\tAbsError: 1.13365e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.28716e-05\tAbsError: 2.53183e-02\n", + " Region: \"zone_3\"\tRelError: 4.08757e-01\tAbsError: 1.42449e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.22785e-01\tAbsError: 7.62606e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.39761e-01\tAbsError: 6.61889e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.61373e-02\tAbsError: 1.13366e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.28716e-05\tAbsError: 2.53183e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.69212e+00\tAbsError: 8.74359e+15\n", + " Region: \"zone_1\"\tRelError: 4.99147e+00\tAbsError: 4.22110e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.99147e+00\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.56758e-09\tAbsError: 1.93339e-06\n", + " Region: \"zone_3\"\tRelError: 1.70065e+00\tAbsError: 8.74359e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80239e-01\tAbsError: 5.11926e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.80194e-01\tAbsError: 3.62433e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40220e-01\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.56931e-09\tAbsError: 1.93394e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.97153e-04\tAbsError: 4.19543e+10\n", + " Region: \"zone_1\"\tRelError: 2.91864e-05\tAbsError: 5.71878e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.90219e-05\tAbsError: 2.71119e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.64529e-07\tAbsError: 5.71607e-05\n", + " Region: \"zone_3\"\tRelError: 2.67967e-04\tAbsError: 4.19543e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.38035e-06\tAbsError: 1.92714e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.40994e-06\tAbsError: 2.26829e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.63012e-04\tAbsError: 2.79421e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.64589e-07\tAbsError: 5.71816e-05\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.42105e-01\tAbsError: 9.57843e+13\n", + " Region: \"zone_1\"\tRelError: 5.64317e-01\tAbsError: 1.44974e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.64276e-01\tAbsError: 1.24104e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14024e-05\tAbsError: 1.43733e-02\n", + " Region: \"zone_3\"\tRelError: 7.77880e-02\tAbsError: 9.57843e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.25473e-02\tAbsError: 4.71405e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.65020e-03\tAbsError: 4.86438e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.95491e-02\tAbsError: 1.28397e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14024e-05\tAbsError: 1.43733e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.81369e-01\tAbsError: 1.65118e+13\n", + " Region: \"zone_1\"\tRelError: 1.13683e-01\tAbsError: 2.48930e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13676e-01\tAbsError: 7.97182e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", + " Region: \"zone_3\"\tRelError: 6.76863e-02\tAbsError: 1.65118e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.50220e-02\tAbsError: 9.05581e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.84537e-03\tAbsError: 7.45604e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 9.81196e-03\tAbsError: 8.36703e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.19037e-01\tAbsError: 2.65162e+14\n", + " Region: \"zone_1\"\tRelError: 5.99790e-03\tAbsError: 2.62748e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.92282e-03\tAbsError: 2.08974e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.50856e-05\tAbsError: 2.60658e-02\n", + " Region: \"zone_3\"\tRelError: 1.13040e-01\tAbsError: 2.65162e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38024e-02\tAbsError: 1.56704e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.09425e-02\tAbsError: 1.08458e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.82196e-02\tAbsError: 2.18158e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.50856e-05\tAbsError: 2.60658e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.77192e+00\tAbsError: 9.85877e+14\n", + " Region: \"zone_1\"\tRelError: 2.52573e-01\tAbsError: 7.40894e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.52452e-01\tAbsError: 3.22434e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20416e-04\tAbsError: 4.18460e-02\n", + " Region: \"zone_3\"\tRelError: 1.51935e+00\tAbsError: 9.85877e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.59672e-01\tAbsError: 5.74420e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.45383e-01\tAbsError: 4.11458e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14171e-01\tAbsError: 3.22436e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20416e-04\tAbsError: 4.18460e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.75864e-04\tAbsError: 5.63886e+10\n", + " Region: \"zone_1\"\tRelError: 2.69666e-05\tAbsError: 6.16583e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.69489e-05\tAbsError: 2.63967e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.76715e-08\tAbsError: 6.13943e-06\n", + " Region: \"zone_3\"\tRelError: 2.48898e-04\tAbsError: 5.63886e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.67515e-06\tAbsError: 3.18401e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.66080e-06\tAbsError: 2.45485e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.43544e-04\tAbsError: 2.74388e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.76766e-08\tAbsError: 6.14120e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.36557e-01\tAbsError: 7.18470e+12\n", + " Region: \"zone_1\"\tRelError: 1.16158e-01\tAbsError: 1.78279e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16157e-01\tAbsError: 6.59165e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.94530e-07\tAbsError: 1.71687e-04\n", + " Region: \"zone_3\"\tRelError: 2.03993e-02\tAbsError: 7.18470e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.98223e-04\tAbsError: 2.78831e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.37326e-04\tAbsError: 4.39639e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.92632e-02\tAbsError: 6.83641e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.94530e-07\tAbsError: 1.71687e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 7.11615e-03\tAbsError: 1.08851e+12\n", + " Region: \"zone_1\"\tRelError: 5.30759e-03\tAbsError: 1.67972e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.30711e-03\tAbsError: 1.45981e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", + " Region: \"zone_3\"\tRelError: 1.80856e-03\tAbsError: 1.08851e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43945e-04\tAbsError: 2.92186e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.94756e-05\tAbsError: 7.96320e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.56466e-03\tAbsError: 1.47422e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.38825e-02\tAbsError: 1.34352e+13\n", + " Region: \"zone_1\"\tRelError: 3.90365e-03\tAbsError: 2.91296e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.90285e-03\tAbsError: 1.07704e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.07428e-07\tAbsError: 2.80526e-04\n", + " Region: \"zone_3\"\tRelError: 3.99789e-02\tAbsError: 1.34352e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.86559e-04\tAbsError: 5.55385e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.99792e-04\tAbsError: 7.88132e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.80917e-02\tAbsError: 1.10910e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.07428e-07\tAbsError: 2.80526e-04\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.70615e-05\tAbsError: 5.88164e+09\n", + " Region: \"zone_1\"\tRelError: 3.64088e-06\tAbsError: 3.85278e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.62980e-06\tAbsError: 3.10674e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10807e-08\tAbsError: 3.84967e-06\n", + " Region: \"zone_3\"\tRelError: 3.34206e-05\tAbsError: 5.88164e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.00628e-07\tAbsError: 3.35788e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.01512e-07\tAbsError: 2.52376e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.28074e-05\tAbsError: 3.20733e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10825e-08\tAbsError: 3.85030e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.17046e+00\tAbsError: 5.18157e+14\n", + " Region: \"zone_1\"\tRelError: 1.54680e-01\tAbsError: 3.40645e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.54656e-01\tAbsError: 2.58448e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36523e-05\tAbsError: 8.21968e-03\n", + " Region: \"zone_3\"\tRelError: 1.01578e+00\tAbsError: 5.18157e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.72316e-01\tAbsError: 2.47147e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.39064e-01\tAbsError: 2.71010e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04375e-01\tAbsError: 2.57967e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36523e-05\tAbsError: 8.21968e-03\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:03\u001b[0m.\u001b[1;36m346\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: 0.75\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.13498e-03\tAbsError: 1.41105e+11\n", + " Region: \"zone_1\"\tRelError: 2.73398e-03\tAbsError: 4.76357e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.73260e-03\tAbsError: 1.35633e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37060e-06\tAbsError: 4.76221e-04\n", + " Region: \"zone_3\"\tRelError: 4.01007e-04\tAbsError: 1.41105e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.96062e-06\tAbsError: 6.85210e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.81427e-06\tAbsError: 7.25836e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.87862e-04\tAbsError: 1.38229e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37060e-06\tAbsError: 4.76221e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.59900e-03\tAbsError: 1.40711e+11\n", + " Region: \"zone_1\"\tRelError: 2.06948e-03\tAbsError: 6.41578e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06929e-03\tAbsError: 9.09489e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84503e-07\tAbsError: 6.40668e-05\n", + " Region: \"zone_3\"\tRelError: 5.29527e-04\tAbsError: 1.40711e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.39801e-06\tAbsError: 9.47438e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.30618e-06\tAbsError: 4.59673e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.12638e-04\tAbsError: 9.48359e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84568e-07\tAbsError: 6.40878e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.10085e-04\tAbsError: 2.49978e+11\n", + " Region: \"zone_1\"\tRelError: 2.66948e-05\tAbsError: 8.47545e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.42556e-05\tAbsError: 1.53478e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.43917e-06\tAbsError: 8.47391e-04\n", + " Region: \"zone_3\"\tRelError: 2.83390e-04\tAbsError: 2.49978e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.62105e-05\tAbsError: 1.91658e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.80553e-06\tAbsError: 5.83197e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.56935e-04\tAbsError: 1.54001e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.43923e-06\tAbsError: 8.47427e-04\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.98481e-01\tAbsError: 2.35572e+14\n", + " Region: \"zone_1\"\tRelError: 3.57005e-02\tAbsError: 1.65805e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.56846e-02\tAbsError: 1.10528e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59248e-05\tAbsError: 5.52768e-03\n", + " Region: \"zone_3\"\tRelError: 3.62780e-01\tAbsError: 2.35572e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.21638e-01\tAbsError: 1.07223e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.04647e-01\tAbsError: 1.28348e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.64794e-02\tAbsError: 1.10528e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59361e-05\tAbsError: 5.53170e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.09784e+02\tAbsError: 3.38352e+16\n", + " Region: \"zone_1\"\tRelError: 1.07958e+02\tAbsError: 4.26148e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07958e+02\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.76616e-09\tAbsError: 6.13601e-07\n", + " Region: \"zone_3\"\tRelError: 1.82645e+00\tAbsError: 3.38352e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.82692e-01\tAbsError: 1.68867e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.82173e-01\tAbsError: 1.69485e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.61588e-01\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.76638e-09\tAbsError: 6.13676e-07\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.31814e-02\tAbsError: 4.58362e+11\n", + " Region: \"zone_1\"\tRelError: 1.15315e-02\tAbsError: 2.80900e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15314e-02\tAbsError: 2.57528e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.01667e-08\tAbsError: 2.78324e-05\n", + " Region: \"zone_3\"\tRelError: 1.64997e-03\tAbsError: 4.58362e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47024e-05\tAbsError: 2.30121e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.45967e-05\tAbsError: 2.28241e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.60059e-03\tAbsError: 2.62890e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.01667e-08\tAbsError: 2.78324e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 6.84757e-04\tAbsError: 5.79873e+10\n", + " Region: \"zone_1\"\tRelError: 5.39232e-04\tAbsError: 6.69464e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.39213e-04\tAbsError: 4.49143e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91058e-08\tAbsError: 6.64972e-06\n", + " Region: \"zone_3\"\tRelError: 1.45525e-04\tAbsError: 5.79873e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.71562e-06\tAbsError: 2.34463e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.68397e-06\tAbsError: 3.45410e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.38106e-04\tAbsError: 4.56915e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91137e-08\tAbsError: 6.65261e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.45230e-03\tAbsError: 8.19006e+11\n", + " Region: \"zone_1\"\tRelError: 3.16929e-04\tAbsError: 4.12787e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.16811e-04\tAbsError: 4.16156e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.17710e-07\tAbsError: 4.08626e-05\n", + " Region: \"zone_3\"\tRelError: 3.13537e-03\tAbsError: 8.19006e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.06413e-05\tAbsError: 4.15540e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.05304e-05\tAbsError: 4.03467e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.05408e-03\tAbsError: 4.34810e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.17738e-07\tAbsError: 4.08731e-05\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.34957e-02\tAbsError: 4.23641e+13\n", + " Region: \"zone_1\"\tRelError: 1.07688e-02\tAbsError: 4.16936e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07573e-02\tAbsError: 1.79758e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.14905e-05\tAbsError: 3.98960e-03\n", + " Region: \"zone_3\"\tRelError: 8.27269e-02\tAbsError: 4.23641e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.35207e-02\tAbsError: 2.38732e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.77445e-03\tAbsError: 1.84909e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14203e-02\tAbsError: 1.90667e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.14905e-05\tAbsError: 3.98960e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.24383e+00\tAbsError: 3.59726e+16\n", + " Region: \"zone_1\"\tRelError: 6.31680e-01\tAbsError: 1.71583e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 6.31280e-01\tAbsError: 3.27219e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.99867e-04\tAbsError: 1.38861e-01\n", + " Region: \"zone_3\"\tRelError: 1.61215e+00\tAbsError: 3.59726e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.60313e-01\tAbsError: 1.81432e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.24896e-01\tAbsError: 1.78294e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.26543e-01\tAbsError: 3.27220e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.99867e-04\tAbsError: 1.38861e-01\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.25913e-03\tAbsError: 2.71128e+10\n", + " Region: \"zone_1\"\tRelError: 1.10973e-03\tAbsError: 2.99279e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10965e-03\tAbsError: 1.77983e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.60783e-08\tAbsError: 2.99101e-05\n", + " Region: \"zone_3\"\tRelError: 1.49391e-04\tAbsError: 2.71128e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.61984e-06\tAbsError: 1.29863e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.63350e-06\tAbsError: 1.41265e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.46052e-04\tAbsError: 1.82225e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.61134e-08\tAbsError: 2.99224e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.02364e-04\tAbsError: 5.62247e+09\n", + " Region: \"zone_1\"\tRelError: 8.15379e-05\tAbsError: 3.03368e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.15291e-05\tAbsError: 3.57289e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.71937e-09\tAbsError: 3.03011e-06\n", + " Region: \"zone_3\"\tRelError: 2.08260e-05\tAbsError: 5.62247e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.14319e-07\tAbsError: 4.05602e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.09034e-07\tAbsError: 1.56645e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.01939e-05\tAbsError: 3.71851e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.71944e-09\tAbsError: 3.03019e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.69782e-04\tAbsError: 3.91534e+10\n", + " Region: \"zone_1\"\tRelError: 2.50455e-05\tAbsError: 5.20353e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.48958e-05\tAbsError: 2.51864e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.49699e-07\tAbsError: 5.20101e-05\n", + " Region: \"zone_3\"\tRelError: 2.44736e-04\tAbsError: 3.91534e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.23816e-06\tAbsError: 1.81837e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.26547e-06\tAbsError: 2.09697e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.40083e-04\tAbsError: 2.60525e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.49755e-07\tAbsError: 5.20295e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.96199e-03\tAbsError: 1.91554e+12\n", + " Region: \"zone_1\"\tRelError: 6.58625e-04\tAbsError: 2.23948e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.57987e-04\tAbsError: 2.24579e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.37961e-07\tAbsError: 2.21702e-04\n", + " Region: \"zone_3\"\tRelError: 4.30337e-03\tAbsError: 1.91554e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.72509e-04\tAbsError: 6.15591e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.67636e-04\tAbsError: 1.29995e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.86259e-03\tAbsError: 2.25284e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.37961e-07\tAbsError: 2.21702e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 9.89584e-04\tAbsError: 2.93050e+10\n", + " Region: \"zone_1\"\tRelError: 8.69289e-04\tAbsError: 3.58476e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.69279e-04\tAbsError: 1.49163e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.02736e-08\tAbsError: 3.56984e-06\n", + " Region: \"zone_3\"\tRelError: 1.20295e-04\tAbsError: 2.93050e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52554e-06\tAbsError: 1.64489e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.51838e-06\tAbsError: 1.28561e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17241e-04\tAbsError: 1.55101e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.02768e-08\tAbsError: 3.57094e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.12505e+00\tAbsError: 2.31531e+16\n", + " Region: \"zone_1\"\tRelError: 1.58868e-01\tAbsError: 1.05142e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.58639e-01\tAbsError: 2.56126e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.29065e-04\tAbsError: 7.95290e-02\n", + " Region: \"zone_3\"\tRelError: 1.96618e+00\tAbsError: 2.31531e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.75933e-01\tAbsError: 1.14785e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.26157e-01\tAbsError: 1.16746e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06386e+00\tAbsError: 2.48349e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.29065e-04\tAbsError: 7.95290e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.62672e-05\tAbsError: 3.10482e+09\n", + " Region: \"zone_1\"\tRelError: 3.66806e-05\tAbsError: 2.21724e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 3.66799e-05\tAbsError: 2.06476e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.31104e-10\tAbsError: 2.19659e-07\n", + " Region: \"zone_3\"\tRelError: 9.58660e-06\tAbsError: 3.10482e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88628e-07\tAbsError: 1.51763e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.86687e-07\tAbsError: 1.58719e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 9.21065e-06\tAbsError: 2.10348e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.31398e-10\tAbsError: 2.19764e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:08\u001b[0m.\u001b[1;36m397\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.6\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.45670e-04\tAbsError: 5.12227e+10\n", + " Region: \"zone_1\"\tRelError: 2.26882e-05\tAbsError: 5.68447e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.26719e-05\tAbsError: 2.41814e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62919e-08\tAbsError: 5.66029e-06\n", + " Region: \"zone_3\"\tRelError: 2.22982e-04\tAbsError: 5.12227e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.46355e-06\tAbsError: 2.89207e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.45248e-06\tAbsError: 2.23020e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.18049e-04\tAbsError: 2.53174e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62965e-08\tAbsError: 5.66192e-06\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.77277e-04\tAbsError: 1.69406e+11\n", + " Region: \"zone_1\"\tRelError: 1.04989e-04\tAbsError: 1.17617e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04650e-04\tAbsError: 1.10516e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.38424e-07\tAbsError: 1.17507e-04\n", + " Region: \"zone_3\"\tRelError: 5.72288e-04\tAbsError: 1.69406e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01879e-05\tAbsError: 1.15108e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.00498e-05\tAbsError: 5.42984e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.51712e-04\tAbsError: 1.15347e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.38451e-07\tAbsError: 1.17518e-04\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.48739e-04\tAbsError: 3.41314e+09\n", + " Region: \"zone_1\"\tRelError: 1.31134e-04\tAbsError: 2.06494e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31128e-04\tAbsError: 1.91971e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.93716e-09\tAbsError: 2.06302e-06\n", + " Region: \"zone_3\"\tRelError: 1.76048e-05\tAbsError: 3.41314e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88514e-07\tAbsError: 1.94837e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.89063e-07\tAbsError: 1.46477e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72213e-05\tAbsError: 1.99642e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.93836e-09\tAbsError: 2.06344e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 7.92425e+00\tAbsError: 7.57393e+15\n", + " Region: \"zone_1\"\tRelError: 6.50438e+00\tAbsError: 5.67741e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.50425e+00\tAbsError: 1.17189e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.29791e-04\tAbsError: 4.50552e-02\n", + " Region: \"zone_3\"\tRelError: 1.41987e+00\tAbsError: 7.57393e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12287e-01\tAbsError: 4.15774e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.27964e-01\tAbsError: 3.41619e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07949e+00\tAbsError: 1.17190e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.29791e-04\tAbsError: 4.50552e-02\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.33744e-05\tAbsError: 5.41736e+09\n", + " Region: \"zone_1\"\tRelError: 3.09836e-06\tAbsError: 3.51825e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.08825e-06\tAbsError: 2.88215e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.01182e-08\tAbsError: 3.51537e-06\n", + " Region: \"zone_3\"\tRelError: 3.02760e-05\tAbsError: 5.41736e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.80133e-07\tAbsError: 3.09626e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.81126e-07\tAbsError: 2.32110e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.97047e-05\tAbsError: 2.99667e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.01199e-08\tAbsError: 3.51597e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:09\u001b[0m.\u001b[1;36m880\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:09\u001b[0m.\u001b[1;36m880\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7428571428571428\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.94073e+01\tAbsError: 8.32958e+15\n", + " Region: \"zone_1\"\tRelError: 1.77016e+01\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77016e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.06764e-10\tAbsError: 1.76108e-07\n", + " Region: \"zone_3\"\tRelError: 1.70569e+00\tAbsError: 8.32958e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69637e-01\tAbsError: 4.59097e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69532e-01\tAbsError: 3.73860e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66519e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.06930e-10\tAbsError: 1.76171e-07\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 7.33109e-05\tAbsError: 1.99171e+09\n", + " Region: \"zone_1\"\tRelError: 6.45108e-05\tAbsError: 3.50573e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 6.45098e-05\tAbsError: 1.06453e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00585e-09\tAbsError: 3.49509e-07\n", + " Region: \"zone_3\"\tRelError: 8.80008e-06\tAbsError: 1.99171e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03719e-07\tAbsError: 1.17952e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03272e-07\tAbsError: 8.12185e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 8.59208e-06\tAbsError: 1.10473e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00600e-09\tAbsError: 3.49562e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:10\u001b[0m.\u001b[1;36m234\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.7000000000000001\u001b[0m\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.92207e-04\tAbsError: 1.11515e+11\n", + " Region: \"zone_1\"\tRelError: 5.98028e-05\tAbsError: 5.69528e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.97866e-05\tAbsError: 7.69182e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.61427e-08\tAbsError: 5.61837e-06\n", + " Region: \"zone_3\"\tRelError: 3.32405e-04\tAbsError: 1.11515e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.85875e-06\tAbsError: 5.12772e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.80258e-06\tAbsError: 6.02373e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.18727e-04\tAbsError: 7.87224e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.61498e-08\tAbsError: 5.62096e-06\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.79873e+00\tAbsError: 1.72669e+15\n", + " Region: \"zone_1\"\tRelError: 1.69883e+00\tAbsError: 1.92473e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.69827e+00\tAbsError: 3.36867e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.53976e-04\tAbsError: 1.92136e-01\n", + " Region: \"zone_3\"\tRelError: 9.99032e-02\tAbsError: 1.72669e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.09613e-02\tAbsError: 8.58572e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.79843e-02\tAbsError: 8.68118e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.04024e-02\tAbsError: 3.67321e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.55146e-04\tAbsError: 1.92536e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.07616e+01\tAbsError: 3.02291e+15\n", + " Region: \"zone_1\"\tRelError: 9.27113e+00\tAbsError: 6.52674e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.27103e+00\tAbsError: 3.07634e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.92954e-05\tAbsError: 3.45040e-02\n", + " Region: \"zone_3\"\tRelError: 1.49044e+00\tAbsError: 3.02291e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.40308e-01\tAbsError: 1.49698e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.14159e-01\tAbsError: 1.52592e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35875e-01\tAbsError: 3.07635e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.92954e-05\tAbsError: 3.45040e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.44971e+01\tAbsError: 3.04084e+16\n", + " Region: \"zone_1\"\tRelError: 3.26810e+01\tAbsError: 4.23840e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.26810e+01\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62519e-09\tAbsError: 5.64640e-07\n", + " Region: \"zone_3\"\tRelError: 1.81608e+00\tAbsError: 3.04084e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80898e-01\tAbsError: 1.52254e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.80422e-01\tAbsError: 1.51830e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.54761e-01\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62539e-09\tAbsError: 5.64711e-07\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.32281e-05\tAbsError: 4.39719e+09\n", + " Region: \"zone_1\"\tRelError: 2.01633e-06\tAbsError: 6.48161e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.99769e-06\tAbsError: 2.67095e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.86442e-08\tAbsError: 6.47894e-06\n", + " Region: \"zone_3\"\tRelError: 1.12117e-05\tAbsError: 4.39719e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.71767e-07\tAbsError: 3.55045e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.15277e-07\tAbsError: 8.46742e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07060e-05\tAbsError: 2.77920e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.86479e-08\tAbsError: 6.48033e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:11\u001b[0m.\u001b[1;36m773\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.63125\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.94222e+01\tAbsError: 1.62190e+16\n", + " Region: \"zone_1\"\tRelError: 2.76662e+01\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.76662e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.29578e-10\tAbsError: 1.49268e-07\n", + " Region: \"zone_3\"\tRelError: 1.75598e+00\tAbsError: 1.62190e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69267e-01\tAbsError: 8.18784e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.68971e-01\tAbsError: 8.03117e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.17740e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.29628e-10\tAbsError: 1.49286e-07\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.95883e+00\tAbsError: 2.59839e+14\n", + " Region: \"zone_1\"\tRelError: 1.13863e-01\tAbsError: 1.16709e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13830e-01\tAbsError: 5.73242e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.34838e-05\tAbsError: 1.16136e-02\n", + " Region: \"zone_3\"\tRelError: 3.84497e+00\tAbsError: 2.59839e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.47446e-03\tAbsError: 1.31141e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.26729e-03\tAbsError: 1.28698e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.83620e+00\tAbsError: 5.93737e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.35121e-05\tAbsError: 1.16231e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.22732e+00\tAbsError: 2.06865e+15\n", + " Region: \"zone_1\"\tRelError: 2.78568e-01\tAbsError: 2.74627e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78563e-01\tAbsError: 2.58185e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73142e-06\tAbsError: 1.64416e-03\n", + " Region: \"zone_3\"\tRelError: 9.48751e-01\tAbsError: 2.06865e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.44918e-01\tAbsError: 9.02348e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.89155e-01\tAbsError: 1.16630e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14673e-01\tAbsError: 2.51147e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73142e-06\tAbsError: 1.64416e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.21062e+00\tAbsError: 3.24117e+16\n", + " Region: \"zone_1\"\tRelError: 1.60959e+00\tAbsError: 1.60634e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.60922e+00\tAbsError: 3.24492e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.69101e-04\tAbsError: 1.28185e-01\n", + " Region: \"zone_3\"\tRelError: 1.60102e+00\tAbsError: 3.24117e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.57897e-01\tAbsError: 1.62735e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.20964e-01\tAbsError: 1.61383e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.21796e-01\tAbsError: 3.24492e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.69101e-04\tAbsError: 1.28185e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.57455e+00\tAbsError: 1.59389e+16\n", + " Region: \"zone_1\"\tRelError: 1.04759e+00\tAbsError: 1.06162e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04737e+00\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17045e-04\tAbsError: 7.53990e-02\n", + " Region: \"zone_3\"\tRelError: 1.52696e+00\tAbsError: 1.59389e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37511e-01\tAbsError: 7.87332e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.04735e-01\tAbsError: 8.06553e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.84502e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17045e-04\tAbsError: 7.53990e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.44977e+00\tAbsError: 8.96903e+15\n", + " Region: \"zone_1\"\tRelError: 3.70568e+00\tAbsError: 4.22092e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.70568e+00\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.36239e-10\tAbsError: 1.51767e-07\n", + " Region: \"zone_3\"\tRelError: 1.74409e+00\tAbsError: 8.96903e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80173e-01\tAbsError: 4.80961e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.80046e-01\tAbsError: 4.15942e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.83872e-01\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.36414e-10\tAbsError: 1.51827e-07\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.57963e-01\tAbsError: 1.91072e+13\n", + " Region: \"zone_1\"\tRelError: 2.78504e-02\tAbsError: 5.69747e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78339e-02\tAbsError: 4.27049e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.64146e-05\tAbsError: 5.69320e-03\n", + " Region: \"zone_3\"\tRelError: 7.30113e-01\tAbsError: 1.91072e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.16966e-04\tAbsError: 9.66509e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.22761e-04\tAbsError: 9.44216e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.29456e-01\tAbsError: 4.53717e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.64194e-05\tAbsError: 5.69496e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 7.18897e+00\tAbsError: 6.29402e+14\n", + " Region: \"zone_1\"\tRelError: 6.86170e+00\tAbsError: 2.22868e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.86166e+00\tAbsError: 9.16572e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.77613e-05\tAbsError: 1.31211e-02\n", + " Region: \"zone_3\"\tRelError: 3.27267e-01\tAbsError: 6.29402e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84319e-01\tAbsError: 3.28649e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.08857e-01\tAbsError: 3.00753e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.40527e-02\tAbsError: 9.16579e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.77613e-05\tAbsError: 1.31211e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.77741e+00\tAbsError: 2.06093e+16\n", + " Region: \"zone_1\"\tRelError: 1.65058e-01\tAbsError: 9.97024e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.64845e-01\tAbsError: 2.55931e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.13439e-04\tAbsError: 7.41092e-02\n", + " Region: \"zone_3\"\tRelError: 1.61236e+00\tAbsError: 2.06093e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.71347e-01\tAbsError: 1.02911e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.25181e-01\tAbsError: 1.03182e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 7.15614e-01\tAbsError: 2.50412e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.13439e-04\tAbsError: 7.41092e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.14822e+00\tAbsError: 9.83178e+15\n", + " Region: \"zone_1\"\tRelError: 1.39457e-01\tAbsError: 7.32841e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39320e-01\tAbsError: 2.58400e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36592e-04\tAbsError: 4.74441e-02\n", + " Region: \"zone_3\"\tRelError: 1.00877e+00\tAbsError: 9.83178e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43427e-01\tAbsError: 4.83336e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.90483e-01\tAbsError: 4.99841e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74720e-01\tAbsError: 2.58193e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36592e-04\tAbsError: 4.74441e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.82964e+00\tAbsError: 5.08570e+15\n", + " Region: \"zone_1\"\tRelError: 2.92321e-01\tAbsError: 7.19255e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.92207e-01\tAbsError: 3.22433e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.14202e-04\tAbsError: 3.96822e-02\n", + " Region: \"zone_3\"\tRelError: 1.53731e+00\tAbsError: 5.08570e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.57973e-01\tAbsError: 2.41919e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.30808e-01\tAbsError: 2.66650e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.48419e-01\tAbsError: 3.22434e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.14202e-04\tAbsError: 3.96822e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.70944e-01\tAbsError: 1.19240e+13\n", + " Region: \"zone_1\"\tRelError: 2.58368e-02\tAbsError: 7.03989e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.58348e-02\tAbsError: 2.13236e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.02254e-06\tAbsError: 7.01857e-04\n", + " Region: \"zone_3\"\tRelError: 3.45107e-01\tAbsError: 1.19240e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.00810e-04\tAbsError: 6.03241e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.97504e-04\tAbsError: 5.89158e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.44707e-01\tAbsError: 2.37149e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.02313e-06\tAbsError: 7.02082e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.42105e-01\tAbsError: 9.57843e+13\n", + " Region: \"zone_1\"\tRelError: 5.64317e-01\tAbsError: 1.44974e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.64276e-01\tAbsError: 1.24104e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14024e-05\tAbsError: 1.43733e-02\n", + " Region: \"zone_3\"\tRelError: 7.77880e-02\tAbsError: 9.57843e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.25473e-02\tAbsError: 4.71405e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.65020e-03\tAbsError: 4.86438e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.95491e-02\tAbsError: 1.28397e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14024e-05\tAbsError: 1.43733e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.45845e+00\tAbsError: 6.57748e+15\n", + " Region: \"zone_1\"\tRelError: 5.68646e-01\tAbsError: 4.93656e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.68537e-01\tAbsError: 1.13358e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.09536e-04\tAbsError: 3.80298e-02\n", + " Region: \"zone_3\"\tRelError: 8.89808e-01\tAbsError: 6.57748e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07117e-01\tAbsError: 3.60805e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.24797e-01\tAbsError: 2.96943e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.57785e-01\tAbsError: 1.13359e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.09601e-04\tAbsError: 3.80526e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 9.17087e-01\tAbsError: 2.70112e+15\n", + " Region: \"zone_1\"\tRelError: 4.13278e-01\tAbsError: 1.18036e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.12964e-01\tAbsError: 9.16529e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.13541e-04\tAbsError: 1.08871e-01\n", + " Region: \"zone_3\"\tRelError: 5.03809e-01\tAbsError: 2.70112e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.83333e-01\tAbsError: 1.43386e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03452e-01\tAbsError: 1.26726e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.16711e-01\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.13541e-04\tAbsError: 1.08871e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.16025e+00\tAbsError: 3.70042e+15\n", + " Region: \"zone_1\"\tRelError: 1.24653e-01\tAbsError: 3.31998e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.24632e-01\tAbsError: 2.58287e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.12139e-05\tAbsError: 7.37111e-03\n", + " Region: \"zone_3\"\tRelError: 1.03560e+00\tAbsError: 3.70042e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.75009e-01\tAbsError: 1.71136e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.25597e-01\tAbsError: 1.98907e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.34975e-01\tAbsError: 2.56848e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.12245e-05\tAbsError: 7.37495e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.15873e-02\tAbsError: 1.55712e+12\n", + " Region: \"zone_1\"\tRelError: 4.62135e-03\tAbsError: 3.47131e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.62035e-03\tAbsError: 2.68329e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.98917e-07\tAbsError: 3.46863e-04\n", + " Region: \"zone_3\"\tRelError: 5.69659e-02\tAbsError: 1.55712e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.63013e-05\tAbsError: 7.86152e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.59055e-05\tAbsError: 7.70966e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.69127e-02\tAbsError: 3.00469e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.99081e-07\tAbsError: 3.46996e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.36557e-01\tAbsError: 7.18470e+12\n", + " Region: \"zone_1\"\tRelError: 1.16158e-01\tAbsError: 1.78279e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16157e-01\tAbsError: 6.59165e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.94530e-07\tAbsError: 1.71687e-04\n", + " Region: \"zone_3\"\tRelError: 2.03993e-02\tAbsError: 7.18470e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.98223e-04\tAbsError: 2.78831e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.37326e-04\tAbsError: 4.39639e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.92632e-02\tAbsError: 6.83641e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.94530e-07\tAbsError: 1.71687e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.87235e-01\tAbsError: 1.50716e+15\n", + " Region: \"zone_1\"\tRelError: 5.41370e-02\tAbsError: 1.84184e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.36069e-02\tAbsError: 3.24655e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.30067e-04\tAbsError: 1.83860e-01\n", + " Region: \"zone_3\"\tRelError: 1.33098e-01\tAbsError: 1.50716e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.05112e-02\tAbsError: 7.09659e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.73893e-02\tAbsError: 7.97504e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.46658e-02\tAbsError: 3.54468e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.31323e-04\tAbsError: 1.84290e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 4.27279e-01\tAbsError: 8.17053e+14\n", + " Region: \"zone_1\"\tRelError: 1.09940e-01\tAbsError: 2.21034e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09304e-01\tAbsError: 3.29075e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.36020e-04\tAbsError: 2.20705e-01\n", + " Region: \"zone_3\"\tRelError: 3.17339e-01\tAbsError: 8.17053e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.72653e-02\tAbsError: 1.99598e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.68899e-02\tAbsError: 6.17455e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.42547e-01\tAbsError: 3.29140e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.36020e-04\tAbsError: 2.20705e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.84371e-01\tAbsError: 1.29148e+15\n", + " Region: \"zone_1\"\tRelError: 8.57081e-02\tAbsError: 3.42913e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.56412e-02\tAbsError: 1.10531e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.68838e-05\tAbsError: 2.32383e-02\n", + " Region: \"zone_3\"\tRelError: 3.98663e-01\tAbsError: 1.29148e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.18101e-01\tAbsError: 6.87691e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.36005e-01\tAbsError: 6.03794e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.44889e-02\tAbsError: 1.10532e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.68838e-05\tAbsError: 2.32383e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.74137e-02\tAbsError: 7.24736e+11\n", + " Region: \"zone_1\"\tRelError: 2.11554e-03\tAbsError: 6.11484e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.11537e-03\tAbsError: 1.19465e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75486e-07\tAbsError: 6.10289e-05\n", + " Region: \"zone_3\"\tRelError: 2.52982e-02\tAbsError: 7.24736e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.22609e-05\tAbsError: 3.66403e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.20047e-05\tAbsError: 3.58333e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.52738e-02\tAbsError: 1.35544e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75553e-07\tAbsError: 6.10532e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.13498e-03\tAbsError: 1.41105e+11\n", + " Region: \"zone_1\"\tRelError: 2.73398e-03\tAbsError: 4.76357e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.73260e-03\tAbsError: 1.35633e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37060e-06\tAbsError: 4.76221e-04\n", + " Region: \"zone_3\"\tRelError: 4.01007e-04\tAbsError: 1.41105e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.96062e-06\tAbsError: 6.85210e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.81427e-06\tAbsError: 7.25836e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.87862e-04\tAbsError: 1.38229e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37060e-06\tAbsError: 4.76221e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.84987e+00\tAbsError: 2.28445e+14\n", + " Region: \"zone_1\"\tRelError: 5.95418e-02\tAbsError: 1.11721e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95098e-02\tAbsError: 5.68051e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.20442e-05\tAbsError: 1.11153e-02\n", + " Region: \"zone_3\"\tRelError: 2.79033e+00\tAbsError: 2.28445e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43841e-03\tAbsError: 1.14936e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.24161e-03\tAbsError: 1.13509e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78161e+00\tAbsError: 5.82573e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.20714e-05\tAbsError: 1.11244e-02\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 5.34536e-03\tAbsError: 1.27222e+11\n", + " Region: \"zone_1\"\tRelError: 4.35109e-04\tAbsError: 2.41289e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.35040e-04\tAbsError: 2.19915e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.93177e-08\tAbsError: 2.41070e-05\n", + " Region: \"zone_3\"\tRelError: 4.91025e-03\tAbsError: 1.27222e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.15267e-06\tAbsError: 6.42044e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.11288e-06\tAbsError: 6.30181e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.90592e-03\tAbsError: 2.48653e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.93443e-08\tAbsError: 2.41166e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 7.01035e-01\tAbsError: 1.64733e+14\n", + " Region: \"zone_1\"\tRelError: 2.03094e-01\tAbsError: 1.60100e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03048e-01\tAbsError: 7.96658e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.59052e-05\tAbsError: 1.59303e-02\n", + " Region: \"zone_3\"\tRelError: 4.97941e-01\tAbsError: 1.64733e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17881e-03\tAbsError: 7.88164e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.07895e-03\tAbsError: 8.59168e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.85637e-01\tAbsError: 8.00849e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.59052e-05\tAbsError: 1.59303e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.12960e-01\tAbsError: 2.37713e+14\n", + " Region: \"zone_1\"\tRelError: 5.59460e-03\tAbsError: 2.42560e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.52529e-03\tAbsError: 1.96929e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.93040e-05\tAbsError: 2.40591e-02\n", + " Region: \"zone_3\"\tRelError: 1.07365e-01\tAbsError: 2.37713e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.22456e-02\tAbsError: 1.40642e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.01600e-02\tAbsError: 9.70713e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.48903e-02\tAbsError: 2.04946e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.93040e-05\tAbsError: 2.40591e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.31814e-02\tAbsError: 4.58362e+11\n", + " Region: \"zone_1\"\tRelError: 1.15315e-02\tAbsError: 2.80900e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15314e-02\tAbsError: 2.57528e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.01667e-08\tAbsError: 2.78324e-05\n", + " Region: \"zone_3\"\tRelError: 1.64997e-03\tAbsError: 4.58362e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47024e-05\tAbsError: 2.30121e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.45967e-05\tAbsError: 2.28241e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.60059e-03\tAbsError: 2.62890e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.01667e-08\tAbsError: 2.78324e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.45765e-01\tAbsError: 1.69493e+13\n", + " Region: \"zone_1\"\tRelError: 6.80757e-03\tAbsError: 5.51469e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.79169e-03\tAbsError: 4.23796e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.58863e-05\tAbsError: 5.51045e-03\n", + " Region: \"zone_3\"\tRelError: 2.38957e-01\tAbsError: 1.69493e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.17749e-04\tAbsError: 8.55131e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.22485e-04\tAbsError: 8.39799e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.38301e-01\tAbsError: 4.46238e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.58903e-05\tAbsError: 5.51193e-03\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.94906e-03\tAbsError: 4.76686e+10\n", + " Region: \"zone_1\"\tRelError: 1.58013e-04\tAbsError: 5.01989e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.57999e-04\tAbsError: 8.43998e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.44100e-08\tAbsError: 5.01145e-06\n", + " Region: \"zone_3\"\tRelError: 1.79105e-03\tAbsError: 4.76686e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.07419e-07\tAbsError: 2.40867e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.89452e-07\tAbsError: 2.35820e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.78944e-03\tAbsError: 9.47662e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.44155e-08\tAbsError: 5.01349e-06\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.04323e-01\tAbsError: 1.53102e+13\n", + " Region: \"zone_1\"\tRelError: 3.15774e-02\tAbsError: 7.15567e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.15568e-02\tAbsError: 7.10876e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.05999e-05\tAbsError: 7.14856e-03\n", + " Region: \"zone_3\"\tRelError: 7.27454e-02\tAbsError: 1.53102e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.94207e-04\tAbsError: 7.65839e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.98721e-04\tAbsError: 7.65181e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.15319e-02\tAbsError: 7.17354e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.06009e-05\tAbsError: 7.14900e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.99564e-02\tAbsError: 1.22577e+13\n", + " Region: \"zone_1\"\tRelError: 3.41063e-03\tAbsError: 2.57675e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.40992e-03\tAbsError: 1.00926e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.11464e-07\tAbsError: 2.47582e-04\n", + " Region: \"zone_3\"\tRelError: 3.65458e-02\tAbsError: 1.22577e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.23239e-04\tAbsError: 4.97251e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.40102e-04\tAbsError: 7.28515e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.47817e-02\tAbsError: 1.03524e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.11760e-07\tAbsError: 2.47692e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.25913e-03\tAbsError: 2.71128e+10\n", + " Region: \"zone_1\"\tRelError: 1.10973e-03\tAbsError: 2.99279e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10965e-03\tAbsError: 1.77983e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.60783e-08\tAbsError: 2.99101e-05\n", + " Region: \"zone_3\"\tRelError: 1.49391e-04\tAbsError: 2.71128e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.61984e-06\tAbsError: 1.29863e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.63350e-06\tAbsError: 1.41265e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.46052e-04\tAbsError: 1.82225e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.61134e-08\tAbsError: 2.99224e-05\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 4.29595e-04\tAbsError: 9.92758e+09\n", + " Region: \"zone_1\"\tRelError: 3.58438e-05\tAbsError: 1.69659e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.58389e-05\tAbsError: 1.80123e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.87324e-09\tAbsError: 1.69479e-06\n", + " Region: \"zone_3\"\tRelError: 3.93751e-04\tAbsError: 9.92758e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.68110e-07\tAbsError: 5.00991e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.64709e-07\tAbsError: 4.91766e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.93414e-04\tAbsError: 2.01959e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.87521e-09\tAbsError: 1.69552e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.08991e-01\tAbsError: 1.05549e+13\n", + " Region: \"zone_1\"\tRelError: 4.83463e-03\tAbsError: 6.90627e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.83265e-03\tAbsError: 2.14369e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.98379e-06\tAbsError: 6.88484e-04\n", + " Region: \"zone_3\"\tRelError: 2.04156e-01\tAbsError: 1.05549e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.00089e-04\tAbsError: 5.32743e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.97434e-04\tAbsError: 5.22743e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03757e-01\tAbsError: 2.35062e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.98435e-06\tAbsError: 6.88703e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.82885e-02\tAbsError: 7.75343e+12\n", + " Region: \"zone_1\"\tRelError: 1.74263e-02\tAbsError: 1.11082e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74231e-02\tAbsError: 3.27682e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.18949e-06\tAbsError: 1.10754e-03\n", + " Region: \"zone_3\"\tRelError: 4.08622e-02\tAbsError: 7.75343e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.01160e-04\tAbsError: 3.88269e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.99390e-04\tAbsError: 3.87074e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.02585e-02\tAbsError: 3.34987e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.19059e-06\tAbsError: 1.10796e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.30988e-04\tAbsError: 2.29044e+11\n", + " Region: \"zone_1\"\tRelError: 2.79478e-05\tAbsError: 7.85541e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.56871e-05\tAbsError: 1.43357e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.26068e-06\tAbsError: 7.85398e-04\n", + " Region: \"zone_3\"\tRelError: 3.03040e-04\tAbsError: 2.29044e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.45448e-05\tAbsError: 1.71014e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.83903e-06\tAbsError: 5.80300e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.79396e-04\tAbsError: 1.44178e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.26072e-06\tAbsError: 7.85427e-04\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 1.38753e-04\tAbsError: 3.26741e+09\n", + " Region: \"zone_1\"\tRelError: 1.15196e-05\tAbsError: 3.90487e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15185e-05\tAbsError: 5.98873e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12109e-09\tAbsError: 3.89888e-07\n", + " Region: \"zone_3\"\tRelError: 1.27233e-04\tAbsError: 3.26741e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.53697e-08\tAbsError: 1.65038e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.41124e-08\tAbsError: 1.61704e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.27122e-04\tAbsError: 6.69167e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12155e-09\tAbsError: 3.90056e-07\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 9.89584e-04\tAbsError: 2.93050e+10\n", + " Region: \"zone_1\"\tRelError: 8.69289e-04\tAbsError: 3.58476e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.69279e-04\tAbsError: 1.49163e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.02736e-08\tAbsError: 3.56984e-06\n", + " Region: \"zone_3\"\tRelError: 1.20295e-04\tAbsError: 2.93050e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52554e-06\tAbsError: 1.64489e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.51838e-06\tAbsError: 1.28561e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17241e-04\tAbsError: 1.55101e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.02768e-08\tAbsError: 3.57094e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.20041e-02\tAbsError: 1.39093e+12\n", + " Region: \"zone_1\"\tRelError: 7.66248e-04\tAbsError: 3.38842e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.65272e-04\tAbsError: 2.70408e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.75473e-07\tAbsError: 3.38572e-04\n", + " Region: \"zone_3\"\tRelError: 3.12378e-02\tAbsError: 1.39093e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.64460e-05\tAbsError: 7.00708e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.61310e-05\tAbsError: 6.90221e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.11843e-02\tAbsError: 3.00354e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.75637e-07\tAbsError: 3.38624e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.09210e-02\tAbsError: 1.22286e+12\n", + " Region: \"zone_1\"\tRelError: 3.28469e-03\tAbsError: 4.72819e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.28333e-03\tAbsError: 4.87030e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36013e-06\tAbsError: 4.72332e-04\n", + " Region: \"zone_3\"\tRelError: 7.63634e-03\tAbsError: 1.22286e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.75678e-05\tAbsError: 6.11672e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.73305e-05\tAbsError: 6.11193e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 7.54008e-03\tAbsError: 5.02425e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36049e-06\tAbsError: 4.72455e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.15307e-03\tAbsError: 7.58272e+11\n", + " Region: \"zone_1\"\tRelError: 2.77988e-04\tAbsError: 3.88732e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.77877e-04\tAbsError: 3.87449e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10861e-07\tAbsError: 3.84857e-05\n", + " Region: \"zone_3\"\tRelError: 2.87508e-03\tAbsError: 7.58272e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.80273e-05\tAbsError: 3.84531e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.79342e-05\tAbsError: 3.73741e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.79901e-03\tAbsError: 4.06154e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10883e-07\tAbsError: 3.84939e-05\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 3.30599e-05\tAbsError: 7.54140e+08\n", + " Region: \"zone_1\"\tRelError: 2.78667e-06\tAbsError: 1.20638e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78633e-06\tAbsError: 1.39905e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.46482e-10\tAbsError: 1.20498e-07\n", + " Region: \"zone_3\"\tRelError: 3.02733e-05\tAbsError: 7.54140e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.27759e-08\tAbsError: 3.80597e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.25046e-08\tAbsError: 3.73543e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 3.02476e-05\tAbsError: 1.56263e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.46627e-10\tAbsError: 1.20551e-07\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.48739e-04\tAbsError: 3.41314e+09\n", + " Region: \"zone_1\"\tRelError: 1.31134e-04\tAbsError: 2.06494e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31128e-04\tAbsError: 1.91971e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.93716e-09\tAbsError: 2.06302e-06\n", + " Region: \"zone_3\"\tRelError: 1.76048e-05\tAbsError: 3.41314e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88514e-07\tAbsError: 1.94837e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.89063e-07\tAbsError: 1.46477e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72213e-05\tAbsError: 1.99642e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.93836e-09\tAbsError: 2.06344e-06\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.47103e-02\tAbsError: 6.45496e+11\n", + " Region: \"zone_1\"\tRelError: 3.47376e-04\tAbsError: 5.99802e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.47204e-04\tAbsError: 1.21236e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72111e-07\tAbsError: 5.98589e-05\n", + " Region: \"zone_3\"\tRelError: 1.43629e-02\tAbsError: 6.45496e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.22916e-05\tAbsError: 3.25623e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.20745e-05\tAbsError: 3.19873e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43383e-02\tAbsError: 1.35138e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72176e-07\tAbsError: 5.98823e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.38843e-03\tAbsError: 5.18838e+11\n", + " Region: \"zone_1\"\tRelError: 1.31867e-03\tAbsError: 9.39018e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31840e-03\tAbsError: 1.99779e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69826e-07\tAbsError: 9.37020e-05\n", + " Region: \"zone_3\"\tRelError: 3.06976e-03\tAbsError: 5.18838e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95362e-05\tAbsError: 2.68345e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.93671e-05\tAbsError: 2.50493e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.03058e-03\tAbsError: 2.07424e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69859e-07\tAbsError: 9.37138e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 7.33109e-05\tAbsError: 1.99171e+09\n", + " Region: \"zone_1\"\tRelError: 6.45108e-05\tAbsError: 3.50573e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 6.45098e-05\tAbsError: 1.06453e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00585e-09\tAbsError: 3.49509e-07\n", + " Region: \"zone_3\"\tRelError: 8.80008e-06\tAbsError: 1.99171e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03719e-07\tAbsError: 1.17952e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03272e-07\tAbsError: 8.12185e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 8.59208e-06\tAbsError: 1.10473e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00600e-09\tAbsError: 3.49562e-07\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.50049e-04\tAbsError: 3.69775e+10\n", + " Region: \"zone_1\"\tRelError: 2.23036e-05\tAbsError: 4.83607e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.21645e-05\tAbsError: 2.37427e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39124e-07\tAbsError: 4.83369e-05\n", + " Region: \"zone_3\"\tRelError: 2.27745e-04\tAbsError: 3.69775e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12670e-06\tAbsError: 1.72736e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.15245e-06\tAbsError: 1.97039e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.23327e-04\tAbsError: 2.46197e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39176e-07\tAbsError: 4.83551e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:24\u001b[0m.\u001b[1;36m900\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.7000000000000001\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.85426e-03\tAbsError: 1.14136e+11\n", + " Region: \"zone_1\"\tRelError: 6.76752e-05\tAbsError: 2.36054e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.76074e-05\tAbsError: 2.24599e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.78070e-08\tAbsError: 2.35829e-05\n", + " Region: \"zone_3\"\tRelError: 2.78659e-03\tAbsError: 1.14136e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.17375e-06\tAbsError: 5.74776e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.14053e-06\tAbsError: 5.66581e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78221e-03\tAbsError: 2.49675e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.78330e-08\tAbsError: 2.35924e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 9.50080e-04\tAbsError: 1.03863e+11\n", + " Region: \"zone_1\"\tRelError: 2.85910e-04\tAbsError: 3.37412e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.85814e-04\tAbsError: 4.14946e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.68675e-08\tAbsError: 3.36997e-05\n", + " Region: \"zone_3\"\tRelError: 6.64170e-04\tAbsError: 1.03863e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.88184e-06\tAbsError: 5.40187e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.85553e-06\tAbsError: 4.98443e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 6.56335e-04\tAbsError: 4.30256e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.69043e-08\tAbsError: 3.37128e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:26\u001b[0m.\u001b[1;36m048\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:26\u001b[0m.\u001b[1;36m080\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.0 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:26\u001b[0m.\u001b[1;36m119\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.25000e-04\tAbsError: 4.75549e+10\n", + " Region: \"zone_1\"\tRelError: 1.99583e-05\tAbsError: 5.32788e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.99431e-05\tAbsError: 2.25774e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52698e-08\tAbsError: 5.30530e-06\n", + " Region: \"zone_3\"\tRelError: 2.05042e-04\tAbsError: 4.75549e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.31012e-06\tAbsError: 2.68418e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.30114e-06\tAbsError: 2.07131e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.00415e-04\tAbsError: 2.37542e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52742e-08\tAbsError: 5.30684e-06\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.94222e+01\tAbsError: 1.62190e+16\n", + " Region: \"zone_1\"\tRelError: 2.76662e+01\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.76662e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.29578e-10\tAbsError: 1.49268e-07\n", + " Region: \"zone_3\"\tRelError: 1.75598e+00\tAbsError: 1.62190e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69267e-01\tAbsError: 8.18784e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.68971e-01\tAbsError: 8.03117e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.17740e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.29628e-10\tAbsError: 1.49286e-07\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.04232e-03\tAbsError: 4.27220e+10\n", + " Region: \"zone_1\"\tRelError: 2.46914e-05\tAbsError: 4.94110e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.46772e-05\tAbsError: 8.59123e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41822e-08\tAbsError: 4.93251e-06\n", + " Region: \"zone_3\"\tRelError: 1.01763e-03\tAbsError: 4.27220e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.14485e-07\tAbsError: 2.15406e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.99005e-07\tAbsError: 2.11814e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01600e-03\tAbsError: 9.49058e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41877e-08\tAbsError: 4.93449e-06\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 3.25927e-04\tAbsError: 3.72018e+10\n", + " Region: \"zone_1\"\tRelError: 9.80813e-05\tAbsError: 7.68282e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 9.80593e-05\tAbsError: 1.46928e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.20415e-08\tAbsError: 7.66812e-06\n", + " Region: \"zone_3\"\tRelError: 2.27846e-04\tAbsError: 3.72018e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.36089e-06\tAbsError: 1.97599e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.34801e-06\tAbsError: 1.74420e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.25115e-04\tAbsError: 1.52180e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.20501e-08\tAbsError: 7.67121e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.14608e+03\tAbsError: 7.70037e+17\n", + " Region: \"zone_1\"\tRelError: 3.19069e+01\tAbsError: 8.44807e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.19069e+01\tAbsError: 8.44806e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.48266e-11\tAbsError: 2.95006e-08\n", + " Region: \"zone_3\"\tRelError: 1.11417e+03\tAbsError: 7.70037e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.48445e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10104e+03\tAbsError: 4.21592e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 4.13482e+00\tAbsError: 8.44807e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.48621e-11\tAbsError: 2.95137e-08\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.07877e-05\tAbsError: 5.07473e+09\n", + " Region: \"zone_1\"\tRelError: 2.74585e-06\tAbsError: 3.27783e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.73642e-06\tAbsError: 2.71292e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.42651e-09\tAbsError: 3.27512e-06\n", + " Region: \"zone_3\"\tRelError: 2.80418e-05\tAbsError: 5.07473e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.64686e-07\tAbsError: 2.90165e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.65753e-07\tAbsError: 2.17308e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.75020e-05\tAbsError: 2.83440e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.42815e-09\tAbsError: 3.27570e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:27\u001b[0m.\u001b[1;36m453\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:27\u001b[0m.\u001b[1;36m453\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7374999999999999\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 2.30254e-04\tAbsError: 8.94840e+09\n", + " Region: \"zone_1\"\tRelError: 5.45902e-06\tAbsError: 1.66915e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.45423e-06\tAbsError: 1.84279e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.79393e-09\tAbsError: 1.66731e-06\n", + " Region: \"zone_3\"\tRelError: 2.24795e-04\tAbsError: 8.94840e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.70555e-07\tAbsError: 4.50630e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.67655e-07\tAbsError: 4.44210e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.24452e-04\tAbsError: 2.03358e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.79583e-09\tAbsError: 1.66801e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.57455e+00\tAbsError: 1.59389e+16\n", + " Region: \"zone_1\"\tRelError: 1.04759e+00\tAbsError: 1.06162e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04737e+00\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17045e-04\tAbsError: 7.53990e-02\n", + " Region: \"zone_3\"\tRelError: 1.52696e+00\tAbsError: 1.59389e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37511e-01\tAbsError: 7.87332e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.04735e-01\tAbsError: 8.06553e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.84502e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17045e-04\tAbsError: 7.53990e-02\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 7.72661e-05\tAbsError: 8.43440e+09\n", + " Region: \"zone_1\"\tRelError: 2.32650e-05\tAbsError: 2.49052e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.32578e-05\tAbsError: 3.39814e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.14902e-09\tAbsError: 2.48712e-06\n", + " Region: \"zone_3\"\tRelError: 5.40011e-05\tAbsError: 8.43440e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.08161e-07\tAbsError: 4.47974e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.05735e-07\tAbsError: 3.95466e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 5.33800e-05\tAbsError: 3.51782e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.15190e-09\tAbsError: 2.48816e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:28\u001b[0m.\u001b[1;36m160\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.8\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 7.84156e+01\tAbsError: 5.47936e+17\n", + " Region: \"zone_1\"\tRelError: 4.40326e+01\tAbsError: 3.51503e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.40318e+01\tAbsError: 8.10225e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.80415e-04\tAbsError: 2.70481e-01\n", + " Region: \"zone_3\"\tRelError: 3.43830e+01\tAbsError: 5.47936e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.48014e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.23022e+01\tAbsError: 2.99922e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.30800e+01\tAbsError: 8.10225e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.81664e-04\tAbsError: 2.70911e-01\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 7.44231e-05\tAbsError: 2.94597e+09\n", + " Region: \"zone_1\"\tRelError: 1.76441e-06\tAbsError: 3.86023e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.76330e-06\tAbsError: 6.12245e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10815e-09\tAbsError: 3.85411e-07\n", + " Region: \"zone_3\"\tRelError: 7.26587e-05\tAbsError: 2.94597e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.61898e-08\tAbsError: 1.48485e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.50971e-08\tAbsError: 1.46112e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 7.25463e-05\tAbsError: 6.73509e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10859e-09\tAbsError: 3.85574e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:28\u001b[0m.\u001b[1;36m964\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: 0.85\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.37306e+01\tAbsError: 2.80943e+16\n", + " Region: \"zone_1\"\tRelError: 5.19223e+01\tAbsError: 4.22096e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.19223e+01\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52166e-09\tAbsError: 5.28680e-07\n", + " Region: \"zone_3\"\tRelError: 1.80829e+00\tAbsError: 2.80943e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.79526e-01\tAbsError: 1.40876e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.79080e-01\tAbsError: 1.40066e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49679e-01\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52185e-09\tAbsError: 5.28749e-07\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.14822e+00\tAbsError: 9.83178e+15\n", + " Region: \"zone_1\"\tRelError: 1.39457e-01\tAbsError: 7.32841e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39320e-01\tAbsError: 2.58400e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36592e-04\tAbsError: 4.74441e-02\n", + " Region: \"zone_3\"\tRelError: 1.00877e+00\tAbsError: 9.83178e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43427e-01\tAbsError: 4.83336e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.90483e-01\tAbsError: 4.99841e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74720e-01\tAbsError: 2.58193e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36592e-04\tAbsError: 4.74441e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.91796e+01\tAbsError: 8.00136e+16\n", + " Region: \"zone_1\"\tRelError: 1.61687e+01\tAbsError: 4.09548e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.61687e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75011e-09\tAbsError: 6.08861e-07\n", + " Region: \"zone_3\"\tRelError: 3.01093e+00\tAbsError: 8.00136e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.66958e-01\tAbsError: 4.00295e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.65547e-01\tAbsError: 3.99841e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.47843e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75082e-09\tAbsError: 6.09112e-07\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.27390e+04\tAbsError: 1.60623e+17\n", + " Region: \"zone_1\"\tRelError: 7.10484e+00\tAbsError: 2.18687e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 7.09880e+00\tAbsError: 7.72092e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.04153e-03\tAbsError: 2.10967e+00\n", + " Region: \"zone_3\"\tRelError: 1.27319e+04\tAbsError: 1.60623e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.56840e+03\tAbsError: 8.48442e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.78850e+03\tAbsError: 7.57789e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.74960e+02\tAbsError: 7.72115e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.04153e-03\tAbsError: 2.10967e+00\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.07467e+00\tAbsError: 2.93721e+16\n", + " Region: \"zone_1\"\tRelError: 4.84260e-01\tAbsError: 1.51192e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.83918e-01\tAbsError: 3.22431e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.42489e-04\tAbsError: 1.18949e-01\n", + " Region: \"zone_3\"\tRelError: 1.59041e+00\tAbsError: 2.93721e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.54708e-01\tAbsError: 1.48386e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.21421e-01\tAbsError: 1.45335e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.13935e-01\tAbsError: 3.22432e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.42489e-04\tAbsError: 1.18949e-01\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.87370e+01\tAbsError: 1.65062e+17\n", + " Region: \"zone_1\"\tRelError: 2.01385e+01\tAbsError: 4.23836e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.01385e+01\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.42729e-10\tAbsError: 1.19199e-07\n", + " Region: \"zone_3\"\tRelError: 3.85984e+01\tAbsError: 1.65062e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.75626e-01\tAbsError: 8.33506e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.72789e-01\tAbsError: 8.17119e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.70500e+01\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.42869e-10\tAbsError: 1.19251e-07\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 9.17087e-01\tAbsError: 2.70112e+15\n", + " Region: \"zone_1\"\tRelError: 4.13278e-01\tAbsError: 1.18036e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.12964e-01\tAbsError: 9.16529e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.13541e-04\tAbsError: 1.08871e-01\n", + " Region: \"zone_3\"\tRelError: 5.03809e-01\tAbsError: 2.70112e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.83333e-01\tAbsError: 1.43386e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03452e-01\tAbsError: 1.26726e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.16711e-01\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.13541e-04\tAbsError: 1.08871e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.23024e+00\tAbsError: 7.24788e+16\n", + " Region: \"zone_1\"\tRelError: 2.89301e-01\tAbsError: 2.81842e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88577e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.23562e-04\tAbsError: 2.51079e-01\n", + " Region: \"zone_3\"\tRelError: 2.94094e+00\tAbsError: 7.24788e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.29061e-01\tAbsError: 3.72143e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.83761e-01\tAbsError: 3.52645e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.62740e+00\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.23562e-04\tAbsError: 2.51079e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.19207e+03\tAbsError: 3.54754e+16\n", + " Region: \"zone_1\"\tRelError: 2.44560e+00\tAbsError: 1.38996e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 2.44181e+00\tAbsError: 7.29586e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.78597e-03\tAbsError: 1.31700e+00\n", + " Region: \"zone_3\"\tRelError: 2.18963e+03\tAbsError: 3.54754e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.53288e+01\tAbsError: 1.56750e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.11148e+03\tAbsError: 1.98005e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.81772e+00\tAbsError: 7.29586e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.78597e-03\tAbsError: 1.31700e+00\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.60243e+00\tAbsError: 1.89495e+16\n", + " Region: \"zone_1\"\tRelError: 1.77181e-01\tAbsError: 1.01034e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.76965e-01\tAbsError: 2.58752e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.16453e-04\tAbsError: 7.51590e-02\n", + " Region: \"zone_3\"\tRelError: 1.42525e+00\tAbsError: 1.89495e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.69075e-01\tAbsError: 9.52361e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.16569e-01\tAbsError: 9.42585e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.39388e-01\tAbsError: 2.51407e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.16453e-04\tAbsError: 7.51590e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.58947e+01\tAbsError: 1.57768e+17\n", + " Region: \"zone_1\"\tRelError: 2.28018e+01\tAbsError: 3.32976e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.28010e+01\tAbsError: 3.24492e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.66627e-04\tAbsError: 3.00527e-01\n", + " Region: \"zone_3\"\tRelError: 3.09290e+00\tAbsError: 1.57768e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.36113e-01\tAbsError: 7.69438e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.76306e-01\tAbsError: 8.08240e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77961e+00\tAbsError: 3.24492e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.66953e-04\tAbsError: 3.00640e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 4.27279e-01\tAbsError: 8.17053e+14\n", + " Region: \"zone_1\"\tRelError: 1.09940e-01\tAbsError: 2.21034e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09304e-01\tAbsError: 3.29075e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.36020e-04\tAbsError: 2.20705e-01\n", + " Region: \"zone_3\"\tRelError: 3.17339e-01\tAbsError: 8.17053e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.72653e-02\tAbsError: 1.99598e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.68899e-02\tAbsError: 6.17455e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.42547e-01\tAbsError: 3.29140e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.36020e-04\tAbsError: 2.20705e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 5.71850e+00\tAbsError: 4.10464e+16\n", + " Region: \"zone_1\"\tRelError: 1.82923e-01\tAbsError: 1.08958e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82684e-01\tAbsError: 2.58969e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.39429e-04\tAbsError: 8.30609e-02\n", + " Region: \"zone_3\"\tRelError: 5.53558e+00\tAbsError: 4.10464e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16071e-01\tAbsError: 2.08924e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.47287e-01\tAbsError: 2.01540e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 4.77198e+00\tAbsError: 2.46271e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.39429e-04\tAbsError: 8.30609e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.51342e+03\tAbsError: 5.86099e+15\n", + " Region: \"zone_1\"\tRelError: 3.62107e-01\tAbsError: 3.26424e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.61364e-01\tAbsError: 6.81820e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.42885e-04\tAbsError: 2.58242e-01\n", + " Region: \"zone_3\"\tRelError: 1.51306e+03\tAbsError: 5.86099e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.13144e+01\tAbsError: 3.40516e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.48998e+03\tAbsError: 2.45583e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.76054e+00\tAbsError: 6.81820e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.42885e-04\tAbsError: 2.58242e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.55040e+00\tAbsError: 5.89714e+15\n", + " Region: \"zone_1\"\tRelError: 7.75093e-01\tAbsError: 4.04644e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.75009e-01\tAbsError: 1.10524e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.47082e-05\tAbsError: 2.94120e-02\n", + " Region: \"zone_3\"\tRelError: 7.75306e-01\tAbsError: 5.89714e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.03985e-01\tAbsError: 3.29311e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.22727e-01\tAbsError: 2.60404e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 4.48510e-01\tAbsError: 1.10525e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.47183e-05\tAbsError: 2.94155e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.17180e+01\tAbsError: 9.85875e+16\n", + " Region: \"zone_1\"\tRelError: 8.81208e+00\tAbsError: 6.64188e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.81197e+00\tAbsError: 2.58840e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.16908e-04\tAbsError: 4.05347e-02\n", + " Region: \"zone_3\"\tRelError: 2.90588e+00\tAbsError: 9.85875e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.07353e-01\tAbsError: 5.11756e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.24050e-01\tAbsError: 4.74119e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.17436e+00\tAbsError: 2.25833e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.16908e-04\tAbsError: 4.05347e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 7.01035e-01\tAbsError: 1.64733e+14\n", + " Region: \"zone_1\"\tRelError: 2.03094e-01\tAbsError: 1.60100e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03048e-01\tAbsError: 7.96658e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.59052e-05\tAbsError: 1.59303e-02\n", + " Region: \"zone_3\"\tRelError: 4.97941e-01\tAbsError: 1.64733e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17881e-03\tAbsError: 7.88164e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.07895e-03\tAbsError: 8.59168e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.85637e-01\tAbsError: 8.00849e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.59052e-05\tAbsError: 1.59303e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.06773e+00\tAbsError: 1.32751e+16\n", + " Region: \"zone_1\"\tRelError: 2.27618e-01\tAbsError: 5.11022e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.27498e-01\tAbsError: 9.16524e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20880e-04\tAbsError: 4.19369e-02\n", + " Region: \"zone_3\"\tRelError: 8.40108e-01\tAbsError: 1.32751e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.49254e-01\tAbsError: 7.44002e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.85993e-02\tAbsError: 5.83511e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 6.12131e-01\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.23429e-04\tAbsError: 4.28226e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.31683e+02\tAbsError: 3.11077e+15\n", + " Region: \"zone_1\"\tRelError: 3.18041e-01\tAbsError: 8.94605e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.17964e-01\tAbsError: 6.27478e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.68524e-05\tAbsError: 2.67127e-02\n", + " Region: \"zone_3\"\tRelError: 6.31365e+02\tAbsError: 3.11077e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.81123e+02\tAbsError: 2.01746e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.49993e+02\tAbsError: 1.09331e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49281e-01\tAbsError: 6.27479e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.72517e-05\tAbsError: 2.68546e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.44266e-01\tAbsError: 1.36430e+15\n", + " Region: \"zone_1\"\tRelError: 8.15698e-02\tAbsError: 1.78334e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 8.10566e-02\tAbsError: 3.17930e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.13188e-04\tAbsError: 1.78016e-01\n", + " Region: \"zone_3\"\tRelError: 1.62696e-01\tAbsError: 1.36430e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.03044e-02\tAbsError: 6.13669e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.70709e-02\tAbsError: 7.50632e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.48059e-02\tAbsError: 3.46308e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.14497e-04\tAbsError: 1.78466e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.74758e+00\tAbsError: 2.57576e+16\n", + " Region: \"zone_1\"\tRelError: 1.88051e+00\tAbsError: 5.94876e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88037e+00\tAbsError: 1.13357e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.38878e-04\tAbsError: 4.81519e-02\n", + " Region: \"zone_3\"\tRelError: 8.67068e-01\tAbsError: 2.57576e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.39441e-01\tAbsError: 1.28707e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.19210e-02\tAbsError: 1.28870e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.65567e-01\tAbsError: 1.13359e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39063e-04\tAbsError: 4.82151e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.04323e-01\tAbsError: 1.53102e+13\n", + " Region: \"zone_1\"\tRelError: 3.15774e-02\tAbsError: 7.15567e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.15568e-02\tAbsError: 7.10876e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.05999e-05\tAbsError: 7.14856e-03\n", + " Region: \"zone_3\"\tRelError: 7.27454e-02\tAbsError: 1.53102e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.94207e-04\tAbsError: 7.65839e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.98721e-04\tAbsError: 7.65181e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.15319e-02\tAbsError: 7.17354e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.06009e-05\tAbsError: 7.14900e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.91937e-01\tAbsError: 2.33353e+15\n", + " Region: \"zone_1\"\tRelError: 2.61363e-02\tAbsError: 3.15290e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.52274e-02\tAbsError: 2.65917e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.08859e-04\tAbsError: 3.15024e-01\n", + " Region: \"zone_3\"\tRelError: 2.65801e-01\tAbsError: 2.33353e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.40034e-02\tAbsError: 1.23195e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.91867e-03\tAbsError: 1.10158e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20969e-01\tAbsError: 2.95967e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.10098e-04\tAbsError: 3.15450e-01\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.10441e+03\tAbsError: 5.35337e+14\n", + " Region: \"zone_1\"\tRelError: 9.42351e-02\tAbsError: 8.38676e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.41563e-02\tAbsError: 5.64831e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.87648e-05\tAbsError: 2.73845e-02\n", + " Region: \"zone_3\"\tRelError: 1.10432e+03\tAbsError: 5.35337e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.93453e+01\tAbsError: 2.95909e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03488e+03\tAbsError: 2.39428e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.44823e-02\tAbsError: 5.64832e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.87648e-05\tAbsError: 2.73845e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.35503e+00\tAbsError: 2.07480e+14\n", + " Region: \"zone_1\"\tRelError: 7.11098e-02\tAbsError: 1.10133e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.10782e-02\tAbsError: 5.63937e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.15856e-05\tAbsError: 1.09569e-02\n", + " Region: \"zone_3\"\tRelError: 1.28392e+00\tAbsError: 2.07480e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.41215e-03\tAbsError: 1.04257e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.22201e-03\tAbsError: 1.03223e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.27526e+00\tAbsError: 5.74799e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.16113e-05\tAbsError: 1.09655e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.47364e-02\tAbsError: 3.87371e+15\n", + " Region: \"zone_1\"\tRelError: 3.75014e-02\tAbsError: 2.89882e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.66654e-02\tAbsError: 2.01080e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.36024e-04\tAbsError: 2.89680e-01\n", + " Region: \"zone_3\"\tRelError: 3.72350e-02\tAbsError: 3.87371e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.20691e-02\tAbsError: 2.03069e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.52489e-03\tAbsError: 1.84303e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.80346e-03\tAbsError: 2.27636e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.37600e-04\tAbsError: 2.90215e-01\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.82885e-02\tAbsError: 7.75343e+12\n", + " Region: \"zone_1\"\tRelError: 1.74263e-02\tAbsError: 1.11082e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74231e-02\tAbsError: 3.27682e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.18949e-06\tAbsError: 1.10754e-03\n", + " Region: \"zone_3\"\tRelError: 4.08622e-02\tAbsError: 7.75343e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.01160e-04\tAbsError: 3.88269e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.99390e-04\tAbsError: 3.87074e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.02585e-02\tAbsError: 3.34987e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.19059e-06\tAbsError: 1.10796e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.68338e-01\tAbsError: 7.28836e+14\n", + " Region: \"zone_1\"\tRelError: 4.44613e-02\tAbsError: 2.04423e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.44025e-02\tAbsError: 6.98557e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.87704e-05\tAbsError: 2.03724e-02\n", + " Region: \"zone_3\"\tRelError: 4.23877e-01\tAbsError: 7.28836e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.89975e-03\tAbsError: 3.57624e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.06394e-03\tAbsError: 3.71212e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.13854e-01\tAbsError: 7.63149e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.87832e-05\tAbsError: 2.03761e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.58513e+03\tAbsError: 4.66560e+14\n", + " Region: \"zone_1\"\tRelError: 7.45378e-02\tAbsError: 5.71757e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.45147e-02\tAbsError: 4.91589e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.30854e-05\tAbsError: 8.01676e-03\n", + " Region: \"zone_3\"\tRelError: 4.58505e+03\tAbsError: 4.66560e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.41603e+03\tAbsError: 2.81976e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.68952e+02\tAbsError: 1.84584e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.49020e-02\tAbsError: 4.91590e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.30885e-05\tAbsError: 8.01786e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.38704e-01\tAbsError: 1.58138e+13\n", + " Region: \"zone_1\"\tRelError: 8.45115e-03\tAbsError: 5.40315e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 8.43558e-03\tAbsError: 4.28698e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.55636e-05\tAbsError: 5.39886e-03\n", + " Region: \"zone_3\"\tRelError: 1.30253e-01\tAbsError: 1.58138e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.25100e-04\tAbsError: 7.95923e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.29664e-04\tAbsError: 7.85456e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29583e-01\tAbsError: 4.48645e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.55670e-05\tAbsError: 5.40013e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 7.85689e-01\tAbsError: 1.00717e+15\n", + " Region: \"zone_1\"\tRelError: 3.82557e-01\tAbsError: 1.71364e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.82508e-01\tAbsError: 5.45957e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.92961e-05\tAbsError: 1.70818e-02\n", + " Region: \"zone_3\"\tRelError: 4.03132e-01\tAbsError: 1.00717e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.85041e-03\tAbsError: 4.92208e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.97229e-03\tAbsError: 5.14960e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.97260e-01\tAbsError: 5.50253e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.93058e-05\tAbsError: 1.70845e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.09210e-02\tAbsError: 1.22286e+12\n", + " Region: \"zone_1\"\tRelError: 3.28469e-03\tAbsError: 4.72819e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.28333e-03\tAbsError: 4.87030e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36013e-06\tAbsError: 4.72332e-04\n", + " Region: \"zone_3\"\tRelError: 7.63634e-03\tAbsError: 1.22286e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.75678e-05\tAbsError: 6.11672e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.73305e-05\tAbsError: 6.11193e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 7.54008e-03\tAbsError: 5.02425e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36049e-06\tAbsError: 4.72455e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.64410e-02\tAbsError: 6.34524e+13\n", + " Region: \"zone_1\"\tRelError: 6.01943e-03\tAbsError: 8.87148e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.99386e-03\tAbsError: 6.06051e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.55757e-05\tAbsError: 8.86542e-03\n", + " Region: \"zone_3\"\tRelError: 6.04216e-02\tAbsError: 6.34524e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43427e-04\tAbsError: 3.11581e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.51084e-04\tAbsError: 3.22943e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95015e-02\tAbsError: 6.26485e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.55822e-05\tAbsError: 8.86737e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 4.24154e+02\tAbsError: 1.03613e+14\n", + " Region: \"zone_1\"\tRelError: 5.67613e-02\tAbsError: 5.05890e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.67322e-02\tAbsError: 4.04903e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.90799e-05\tAbsError: 1.00988e-02\n", + " Region: \"zone_3\"\tRelError: 4.24097e+02\tAbsError: 1.03613e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.35907e+02\tAbsError: 6.68265e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.88132e+02\tAbsError: 3.67861e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.71504e-02\tAbsError: 4.04904e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.90803e-05\tAbsError: 1.00989e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.01928e-01\tAbsError: 8.46773e+13\n", + " Region: \"zone_1\"\tRelError: 5.24736e-02\tAbsError: 7.99199e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.24506e-02\tAbsError: 4.86695e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.30504e-05\tAbsError: 7.98712e-03\n", + " Region: \"zone_3\"\tRelError: 4.94541e-02\tAbsError: 8.46773e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.53589e-04\tAbsError: 4.13669e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.44812e-04\tAbsError: 4.33105e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.89326e-02\tAbsError: 4.90616e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.30517e-05\tAbsError: 7.98725e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.04270e-01\tAbsError: 9.65405e+12\n", + " Region: \"zone_1\"\tRelError: 5.81690e-03\tAbsError: 6.92855e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.81491e-03\tAbsError: 2.15570e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.99001e-06\tAbsError: 6.90699e-04\n", + " Region: \"zone_3\"\tRelError: 9.84527e-02\tAbsError: 9.65405e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.00209e-04\tAbsError: 4.86351e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.97989e-04\tAbsError: 4.79053e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 9.80525e-02\tAbsError: 2.33977e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.99059e-06\tAbsError: 6.90923e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.38843e-03\tAbsError: 5.18838e+11\n", + " Region: \"zone_1\"\tRelError: 1.31867e-03\tAbsError: 9.39018e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31840e-03\tAbsError: 1.99779e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69826e-07\tAbsError: 9.37020e-05\n", + " Region: \"zone_3\"\tRelError: 3.06976e-03\tAbsError: 5.18838e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95362e-05\tAbsError: 2.68345e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.93671e-05\tAbsError: 2.50493e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.03058e-03\tAbsError: 2.07424e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69859e-07\tAbsError: 9.37138e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.75673e-02\tAbsError: 3.32993e+13\n", + " Region: \"zone_1\"\tRelError: 3.52548e-03\tAbsError: 1.20689e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.52200e-03\tAbsError: 3.09455e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.47154e-06\tAbsError: 1.20380e-03\n", + " Region: \"zone_3\"\tRelError: 3.40418e-02\tAbsError: 3.32993e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47698e-04\tAbsError: 1.63796e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.38649e-04\tAbsError: 1.69197e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.35520e-02\tAbsError: 3.11273e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.47235e-06\tAbsError: 1.20402e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.03697e+00\tAbsError: 2.30736e+13\n", + " Region: \"zone_1\"\tRelError: 4.14534e-02\tAbsError: 4.56411e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.14090e-02\tAbsError: 3.02176e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.44109e-05\tAbsError: 1.54235e-02\n", + " Region: \"zone_3\"\tRelError: 1.99551e+00\tAbsError: 2.30736e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.82589e-01\tAbsError: 5.66552e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.71463e-01\tAbsError: 1.74081e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.14155e-02\tAbsError: 3.02178e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.44109e-05\tAbsError: 1.54235e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.65318e-02\tAbsError: 1.29680e+12\n", + " Region: \"zone_1\"\tRelError: 9.39367e-04\tAbsError: 3.35060e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.38402e-04\tAbsError: 2.76893e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.64479e-07\tAbsError: 3.34783e-04\n", + " Region: \"zone_3\"\tRelError: 1.55924e-02\tAbsError: 1.29680e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.69684e-05\tAbsError: 6.52102e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.67030e-05\tAbsError: 6.44698e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55378e-02\tAbsError: 3.04330e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.64659e-07\tAbsError: 3.34839e-04\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 9.50080e-04\tAbsError: 1.03863e+11\n", + " Region: \"zone_1\"\tRelError: 2.85910e-04\tAbsError: 3.37412e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.85814e-04\tAbsError: 4.14946e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.68675e-08\tAbsError: 3.36997e-05\n", + " Region: \"zone_3\"\tRelError: 6.64170e-04\tAbsError: 1.03863e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.88184e-06\tAbsError: 5.40187e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.85553e-06\tAbsError: 4.98443e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 6.56335e-04\tAbsError: 4.30256e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.69043e-08\tAbsError: 3.37128e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 6.29267e-02\tAbsError: 4.93318e+13\n", + " Region: \"zone_1\"\tRelError: 3.14335e-02\tAbsError: 1.02095e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.14305e-02\tAbsError: 2.65530e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.93828e-06\tAbsError: 1.01830e-03\n", + " Region: \"zone_3\"\tRelError: 3.14932e-02\tAbsError: 4.93318e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.61086e-04\tAbsError: 2.40538e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.48388e-04\tAbsError: 2.52780e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.11808e-02\tAbsError: 2.67923e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.93884e-06\tAbsError: 1.01846e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.71378e+00\tAbsError: 2.54547e+13\n", + " Region: \"zone_1\"\tRelError: 3.31338e-02\tAbsError: 4.41787e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.30812e-02\tAbsError: 2.58991e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.26319e-05\tAbsError: 1.82796e-02\n", + " Region: \"zone_3\"\tRelError: 2.68064e+00\tAbsError: 2.54547e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.62813e+00\tAbsError: 5.74020e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.89886e-02\tAbsError: 1.97145e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.34704e-02\tAbsError: 2.58028e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.26319e-05\tAbsError: 1.82796e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.47008e-03\tAbsError: 4.77215e+12\n", + " Region: \"zone_1\"\tRelError: 6.05494e-04\tAbsError: 5.38691e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.03946e-04\tAbsError: 4.25617e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54844e-06\tAbsError: 5.38265e-04\n", + " Region: \"zone_3\"\tRelError: 5.86458e-03\tAbsError: 4.77215e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.53153e-05\tAbsError: 2.34800e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.40122e-05\tAbsError: 2.42415e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.79371e-03\tAbsError: 4.28072e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54906e-06\tAbsError: 5.38488e-04\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 3.25927e-04\tAbsError: 3.72019e+10\n", + " Region: \"zone_1\"\tRelError: 9.80813e-05\tAbsError: 7.68282e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 9.80593e-05\tAbsError: 1.46928e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.20415e-08\tAbsError: 7.66812e-06\n", + " Region: \"zone_3\"\tRelError: 2.27846e-04\tAbsError: 3.72019e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.36089e-06\tAbsError: 1.97599e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.34801e-06\tAbsError: 1.74420e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.25115e-04\tAbsError: 1.52180e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.20501e-08\tAbsError: 7.67121e-06\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 7.44715e-03\tAbsError: 5.94316e+11\n", + " Region: \"zone_1\"\tRelError: 4.20439e-04\tAbsError: 5.99657e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.20267e-04\tAbsError: 1.23145e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72057e-07\tAbsError: 5.98426e-05\n", + " Region: \"zone_3\"\tRelError: 7.02671e-03\tAbsError: 5.94316e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.23784e-05\tAbsError: 2.99276e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.21874e-05\tAbsError: 2.95040e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 7.00197e-03\tAbsError: 1.35494e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72122e-07\tAbsError: 5.98657e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.04281e-02\tAbsError: 6.78073e+12\n", + " Region: \"zone_1\"\tRelError: 5.24513e-03\tAbsError: 4.79333e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.24375e-03\tAbsError: 3.45168e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37832e-06\tAbsError: 4.78987e-04\n", + " Region: \"zone_3\"\tRelError: 5.18295e-03\tAbsError: 6.78073e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.17447e-05\tAbsError: 3.30909e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.00474e-05\tAbsError: 3.47164e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.13977e-03\tAbsError: 3.48155e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37885e-06\tAbsError: 4.79177e-04\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 6.40087e-01\tAbsError: 4.64252e+14\n", + " Region: \"zone_1\"\tRelError: 1.04847e-02\tAbsError: 1.27444e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01422e-02\tAbsError: 8.53133e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.42498e-04\tAbsError: 1.18912e-01\n", + " Region: \"zone_3\"\tRelError: 6.29603e-01\tAbsError: 4.64252e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.48953e-01\tAbsError: 1.12241e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.29352e-03\tAbsError: 4.53028e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.10140e-02\tAbsError: 8.53143e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.42498e-04\tAbsError: 1.18912e-01\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.65398e-03\tAbsError: 2.00158e+12\n", + " Region: \"zone_1\"\tRelError: 2.48909e-04\tAbsError: 1.00808e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.48620e-04\tAbsError: 1.66964e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.89512e-07\tAbsError: 1.00641e-04\n", + " Region: \"zone_3\"\tRelError: 2.40507e-03\tAbsError: 2.00158e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50347e-05\tAbsError: 9.84888e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.44145e-05\tAbsError: 1.01669e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.37533e-03\tAbsError: 1.67974e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.89623e-07\tAbsError: 1.00681e-04\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 7.72661e-05\tAbsError: 8.43440e+09\n", + " Region: \"zone_1\"\tRelError: 2.32650e-05\tAbsError: 2.49052e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.32578e-05\tAbsError: 3.39814e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.14902e-09\tAbsError: 2.48712e-06\n", + " Region: \"zone_3\"\tRelError: 5.40011e-05\tAbsError: 8.43440e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.08161e-07\tAbsError: 4.47974e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.05735e-07\tAbsError: 3.95466e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 5.33800e-05\tAbsError: 3.51782e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.15190e-09\tAbsError: 2.48816e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:42\u001b[0m.\u001b[1;36m814\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.8\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.46366e-03\tAbsError: 1.06422e+11\n", + " Region: \"zone_1\"\tRelError: 8.28492e-05\tAbsError: 2.34015e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 8.27820e-05\tAbsError: 2.30847e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.72160e-08\tAbsError: 2.33784e-05\n", + " Region: \"zone_3\"\tRelError: 1.38081e-03\tAbsError: 1.06422e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.21682e-06\tAbsError: 5.35020e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.18773e-06\tAbsError: 5.29201e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37634e-03\tAbsError: 2.53433e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.72421e-08\tAbsError: 2.33878e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.44129e-03\tAbsError: 2.98553e+12\n", + " Region: \"zone_1\"\tRelError: 2.22864e-03\tAbsError: 8.64925e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.22839e-03\tAbsError: 1.41665e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.48478e-07\tAbsError: 8.63509e-05\n", + " Region: \"zone_3\"\tRelError: 2.21265e-03\tAbsError: 2.98553e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.76851e-06\tAbsError: 1.45688e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.99704e-06\tAbsError: 1.52864e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.19363e-03\tAbsError: 1.42960e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.48573e-07\tAbsError: 8.63857e-05\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 4.02180e-01\tAbsError: 4.61203e+14\n", + " Region: \"zone_1\"\tRelError: 2.40938e-02\tAbsError: 1.58654e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.36377e-02\tAbsError: 2.27164e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.56101e-04\tAbsError: 1.58426e-01\n", + " Region: \"zone_3\"\tRelError: 3.78087e-01\tAbsError: 4.61203e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43391e-01\tAbsError: 2.70194e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.07294e-03\tAbsError: 4.34183e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29167e-01\tAbsError: 2.34103e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.56101e-04\tAbsError: 1.58426e-01\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 5.36228e-04\tAbsError: 3.67963e+11\n", + " Region: \"zone_1\"\tRelError: 5.03370e-05\tAbsError: 3.69568e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.02308e-05\tAbsError: 3.27141e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06219e-07\tAbsError: 3.69241e-05\n", + " Region: \"zone_3\"\tRelError: 4.85891e-04\tAbsError: 3.67963e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.74381e-06\tAbsError: 1.81082e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.63918e-06\tAbsError: 1.86881e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.80402e-04\tAbsError: 3.29054e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06263e-07\tAbsError: 3.69404e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 5.30904e-04\tAbsError: 3.95714e+10\n", + " Region: \"zone_1\"\tRelError: 3.00411e-05\tAbsError: 4.94346e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.00269e-05\tAbsError: 8.75793e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41879e-08\tAbsError: 4.93470e-06\n", + " Region: \"zone_3\"\tRelError: 5.00863e-04\tAbsError: 3.95714e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.25148e-07\tAbsError: 1.99182e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.11326e-07\tAbsError: 1.96532e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.99212e-04\tAbsError: 9.55948e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41934e-08\tAbsError: 4.93667e-06\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 8.74059e-04\tAbsError: 5.30655e+11\n", + " Region: \"zone_1\"\tRelError: 4.39153e-04\tAbsError: 3.27217e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.39059e-04\tAbsError: 2.68115e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.40808e-08\tAbsError: 3.26949e-05\n", + " Region: \"zone_3\"\tRelError: 4.34906e-04\tAbsError: 5.30655e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.71117e-06\tAbsError: 2.59051e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.58373e-06\tAbsError: 2.71604e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.31517e-04\tAbsError: 2.70335e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.41189e-08\tAbsError: 3.27090e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.91796e+01\tAbsError: 8.00136e+16\n", + " Region: \"zone_1\"\tRelError: 1.61687e+01\tAbsError: 4.09548e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.61687e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75011e-09\tAbsError: 6.08861e-07\n", + " Region: \"zone_3\"\tRelError: 3.01093e+00\tAbsError: 8.00136e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.66958e-01\tAbsError: 4.00295e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.65547e-01\tAbsError: 3.99841e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.47843e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75082e-09\tAbsError: 6.09112e-07\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 2.10193e-01\tAbsError: 7.99688e+13\n", + " Region: \"zone_1\"\tRelError: 2.05561e-02\tAbsError: 5.86602e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.05395e-02\tAbsError: 9.98920e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.65822e-05\tAbsError: 5.76613e-03\n", + " Region: \"zone_3\"\tRelError: 1.89637e-01\tAbsError: 7.99688e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.16339e-02\tAbsError: 2.81452e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.13621e-02\tAbsError: 5.18236e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66624e-01\tAbsError: 1.01086e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.65822e-05\tAbsError: 5.76613e-03\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.84514e-04\tAbsError: 1.29331e+11\n", + " Region: \"zone_1\"\tRelError: 1.73204e-05\tAbsError: 7.90813e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72976e-05\tAbsError: 1.15361e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.27155e-08\tAbsError: 7.89660e-06\n", + " Region: \"zone_3\"\tRelError: 1.67193e-04\tAbsError: 1.29331e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.72276e-07\tAbsError: 6.36462e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.31421e-07\tAbsError: 6.56851e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65267e-04\tAbsError: 1.16052e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.27252e-08\tAbsError: 7.90006e-06\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.18197e-04\tAbsError: 8.36035e+09\n", + " Region: \"zone_1\"\tRelError: 6.69283e-06\tAbsError: 1.66315e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.68805e-06\tAbsError: 1.89367e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.77633e-09\tAbsError: 1.66126e-06\n", + " Region: \"zone_3\"\tRelError: 1.11504e-04\tAbsError: 8.36035e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.74281e-07\tAbsError: 4.20320e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.71702e-07\tAbsError: 4.15715e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11154e-04\tAbsError: 2.06535e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.77819e-09\tAbsError: 1.66195e-06\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 3.08060e-04\tAbsError: 1.92461e+11\n", + " Region: \"zone_1\"\tRelError: 1.54735e-04\tAbsError: 6.82159e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.54716e-04\tAbsError: 9.70786e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.96010e-08\tAbsError: 6.81188e-06\n", + " Region: \"zone_3\"\tRelError: 1.53325e-04\tAbsError: 1.92461e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.27921e-07\tAbsError: 9.39467e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.79266e-07\tAbsError: 9.85140e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.52098e-04\tAbsError: 9.78772e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.96093e-08\tAbsError: 6.81486e-06\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 2.86064e-02\tAbsError: 5.75937e+12\n", + " Region: \"zone_1\"\tRelError: 2.99410e-03\tAbsError: 5.58282e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.97805e-03\tAbsError: 3.44900e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60457e-05\tAbsError: 5.57937e-03\n", + " Region: \"zone_3\"\tRelError: 2.56123e-02\tAbsError: 5.75937e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.09545e-04\tAbsError: 3.17341e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.91803e-04\tAbsError: 2.58597e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.45949e-02\tAbsError: 3.59667e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60457e-05\tAbsError: 5.57937e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.23024e+00\tAbsError: 7.24788e+16\n", + " Region: \"zone_1\"\tRelError: 2.89301e-01\tAbsError: 2.81842e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88577e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.23562e-04\tAbsError: 2.51079e-01\n", + " Region: \"zone_3\"\tRelError: 2.94094e+00\tAbsError: 7.24788e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.29061e-01\tAbsError: 3.72143e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.83761e-01\tAbsError: 3.52645e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.62740e+00\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.23562e-04\tAbsError: 2.51079e-01\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 4.13464e-05\tAbsError: 2.75069e+10\n", + " Region: \"zone_1\"\tRelError: 3.88379e-06\tAbsError: 2.55222e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.87646e-06\tAbsError: 2.54121e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.33447e-09\tAbsError: 2.54968e-06\n", + " Region: \"zone_3\"\tRelError: 3.74626e-05\tAbsError: 2.75069e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05752e-07\tAbsError: 1.35376e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.97692e-07\tAbsError: 1.39693e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.70518e-05\tAbsError: 2.55608e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.33751e-09\tAbsError: 2.55078e-06\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 3.80937e-05\tAbsError: 2.74353e+09\n", + " Region: \"zone_1\"\tRelError: 2.15708e-06\tAbsError: 3.87099e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.15597e-06\tAbsError: 6.26710e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11116e-09\tAbsError: 3.86473e-07\n", + " Region: \"zone_3\"\tRelError: 3.59366e-05\tAbsError: 2.74353e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.72335e-08\tAbsError: 1.38052e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.62500e-08\tAbsError: 1.36301e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.58220e-05\tAbsError: 6.81530e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11160e-09\tAbsError: 3.86634e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:46\u001b[0m.\u001b[1;36m619\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.84375\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 6.77016e-05\tAbsError: 3.99340e+10\n", + " Region: \"zone_1\"\tRelError: 3.40211e-05\tAbsError: 2.24822e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.40146e-05\tAbsError: 2.09384e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.46316e-09\tAbsError: 2.24613e-06\n", + " Region: \"zone_3\"\tRelError: 3.36805e-05\tAbsError: 3.99340e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.29073e-07\tAbsError: 1.94974e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.19573e-07\tAbsError: 2.04367e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.34254e-05\tAbsError: 2.11075e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.46585e-09\tAbsError: 2.24710e-06\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 1.82614e-02\tAbsError: 5.42297e+12\n", + " Region: \"zone_1\"\tRelError: 1.87149e-03\tAbsError: 7.19384e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86944e-03\tAbsError: 4.05300e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.05712e-06\tAbsError: 7.15331e-04\n", + " Region: \"zone_3\"\tRelError: 1.63899e-02\tAbsError: 5.42297e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.58853e-04\tAbsError: 2.64128e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.55286e-04\tAbsError: 2.78170e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.52737e-02\tAbsError: 4.11046e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.05769e-06\tAbsError: 7.15531e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 5.71850e+00\tAbsError: 4.10464e+16\n", + " Region: \"zone_1\"\tRelError: 1.82923e-01\tAbsError: 1.08958e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82684e-01\tAbsError: 2.58969e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.39429e-04\tAbsError: 8.30609e-02\n", + " Region: \"zone_3\"\tRelError: 5.53558e+00\tAbsError: 4.10464e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16071e-01\tAbsError: 2.08924e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.47287e-01\tAbsError: 2.01540e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 4.77198e+00\tAbsError: 2.46271e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.39429e-04\tAbsError: 8.30609e-02\n", + "Iteration: 16\n", + " Device: \"device\"\tRelError: 3.08921e-03\tAbsError: 6.82153e+11\n", + " Region: \"zone_1\"\tRelError: 3.22828e-04\tAbsError: 3.86240e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.21718e-04\tAbsError: 4.69129e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10938e-06\tAbsError: 3.85770e-04\n", + " Region: \"zone_3\"\tRelError: 2.76638e-03\tAbsError: 6.82153e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.99591e-05\tAbsError: 3.83463e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.96052e-05\tAbsError: 2.98691e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.62571e-03\tAbsError: 4.75594e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10983e-06\tAbsError: 3.85927e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.65151e+01\tAbsError: 1.51212e+17\n", + " Region: \"zone_1\"\tRelError: 1.06619e+01\tAbsError: 4.22092e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06619e+01\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.43092e-10\tAbsError: 1.19331e-07\n", + " Region: \"zone_3\"\tRelError: 5.85318e+00\tAbsError: 1.51212e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.74780e-01\tAbsError: 7.62193e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.72183e-01\tAbsError: 7.49931e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 4.30622e+00\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.43230e-10\tAbsError: 1.19382e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:48\u001b[0m.\u001b[1;36m483\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:48\u001b[0m.\u001b[1;36m515\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.05 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:48\u001b[0m.\u001b[1;36m554\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.06773e+00\tAbsError: 1.32751e+16\n", + " Region: \"zone_1\"\tRelError: 2.27618e-01\tAbsError: 5.11022e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.27498e-01\tAbsError: 9.16524e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20880e-04\tAbsError: 4.19369e-02\n", + " Region: \"zone_3\"\tRelError: 8.40108e-01\tAbsError: 1.32751e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.49254e-01\tAbsError: 7.44002e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.85993e-02\tAbsError: 5.83511e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 6.12131e-01\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.23429e-04\tAbsError: 4.28226e-02\n", + "Iteration: 17\n", + " Device: \"device\"\tRelError: 1.43003e-03\tAbsError: 3.74747e+11\n", + " Region: \"zone_1\"\tRelError: 1.47866e-04\tAbsError: 6.98200e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.47666e-04\tAbsError: 2.50990e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.00063e-07\tAbsError: 6.95690e-05\n", + " Region: \"zone_3\"\tRelError: 1.28216e-03\tAbsError: 3.74747e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.74306e-05\tAbsError: 2.06228e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.71733e-05\tAbsError: 1.68519e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20736e-03\tAbsError: 2.54594e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.00104e-07\tAbsError: 6.95833e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:49\u001b[0m.\u001b[1;36m255\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:49\u001b[0m.\u001b[1;36m296\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.1 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:49\u001b[0m.\u001b[1;36m342\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 4.90454e+02\tAbsError: 2.04840e+18\n", + " Region: \"zone_1\"\tRelError: 1.53646e+02\tAbsError: 8.63296e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.53646e+02\tAbsError: 8.63290e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70509e-09\tAbsError: 5.92742e-07\n", + " Region: \"zone_3\"\tRelError: 3.36809e+02\tAbsError: 2.04840e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 9.87637e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.22507e+02\tAbsError: 1.06076e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 5.30214e+00\tAbsError: 8.63291e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70580e-09\tAbsError: 5.92998e-07\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.62901e+00\tAbsError: 1.40999e+17\n", + " Region: \"zone_1\"\tRelError: 1.19110e+00\tAbsError: 3.28133e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19025e+00\tAbsError: 3.22431e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.53177e-04\tAbsError: 2.95890e-01\n", + " Region: \"zone_3\"\tRelError: 2.43791e+00\tAbsError: 1.40999e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.36448e-01\tAbsError: 6.92767e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.77757e-01\tAbsError: 7.17220e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12285e+00\tAbsError: 3.22432e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.53551e-04\tAbsError: 2.96020e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.91937e-01\tAbsError: 2.33353e+15\n", + " Region: \"zone_1\"\tRelError: 2.61363e-02\tAbsError: 3.15290e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.52274e-02\tAbsError: 2.65917e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.08859e-04\tAbsError: 3.15024e-01\n", + " Region: \"zone_3\"\tRelError: 2.65801e-01\tAbsError: 2.33353e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.40034e-02\tAbsError: 1.23195e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.91867e-03\tAbsError: 1.10158e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20969e-01\tAbsError: 2.95967e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.10098e-04\tAbsError: 3.15450e-01\n", + "Iteration: 18\n", + " Device: \"device\"\tRelError: 2.91465e-04\tAbsError: 6.57879e+10\n", + " Region: \"zone_1\"\tRelError: 3.04241e-05\tAbsError: 2.86234e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.03419e-05\tAbsError: 4.35410e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.21885e-08\tAbsError: 2.85798e-05\n", + " Region: \"zone_3\"\tRelError: 2.61040e-04\tAbsError: 6.57879e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.69838e-06\tAbsError: 3.81906e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.66414e-06\tAbsError: 2.75972e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.47596e-04\tAbsError: 4.41612e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.22066e-08\tAbsError: 2.85862e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.26061e+02\tAbsError: 4.05670e+18\n", + " Region: \"zone_1\"\tRelError: 3.13098e+02\tAbsError: 8.80546e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.13098e+02\tAbsError: 8.80541e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47483e-09\tAbsError: 5.12545e-07\n", + " Region: \"zone_3\"\tRelError: 2.12963e+02\tAbsError: 4.05670e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43587e+01\tAbsError: 1.96046e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.68409e+01\tAbsError: 2.09624e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21763e+02\tAbsError: 8.80543e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47544e-09\tAbsError: 5.12766e-07\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.00694e+02\tAbsError: 1.60088e+18\n", + " Region: \"zone_1\"\tRelError: 5.26463e+01\tAbsError: 6.03766e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.26448e+01\tAbsError: 8.30497e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.50446e-03\tAbsError: 5.20716e-01\n", + " Region: \"zone_3\"\tRelError: 4.80481e+01\tAbsError: 1.60088e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.37446e+00\tAbsError: 7.93354e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.97778e+01\tAbsError: 8.07530e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88943e+01\tAbsError: 8.30498e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.50569e-03\tAbsError: 5.21124e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.29329e+01\tAbsError: 8.98534e+16\n", + " Region: \"zone_1\"\tRelError: 3.00500e+00\tAbsError: 8.37435e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.00483e+00\tAbsError: 2.57434e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67274e-04\tAbsError: 5.80001e-02\n", + " Region: \"zone_3\"\tRelError: 9.92794e+00\tAbsError: 8.98534e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.09711e-01\tAbsError: 4.68434e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.31259e-01\tAbsError: 4.30101e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 9.18680e+00\tAbsError: 2.30390e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67274e-04\tAbsError: 5.80001e-02\n", + "Iteration: 19\n", + " Device: \"device\"\tRelError: 1.10900e-04\tAbsError: 2.73373e+10\n", + " Region: \"zone_1\"\tRelError: 1.15094e-05\tAbsError: 6.20610e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14916e-05\tAbsError: 1.76149e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77965e-08\tAbsError: 6.18848e-06\n", + " Region: \"zone_3\"\tRelError: 9.93909e-05\tAbsError: 2.73373e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.73043e-06\tAbsError: 1.58419e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.71188e-06\tAbsError: 1.14954e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 9.39308e-05\tAbsError: 1.78713e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77992e-08\tAbsError: 6.18941e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.68338e-01\tAbsError: 7.28836e+14\n", + " Region: \"zone_1\"\tRelError: 4.44613e-02\tAbsError: 2.04423e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.44025e-02\tAbsError: 6.98557e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.87704e-05\tAbsError: 2.03724e-02\n", + " Region: \"zone_3\"\tRelError: 4.23877e-01\tAbsError: 7.28836e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.89975e-03\tAbsError: 3.57624e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.06394e-03\tAbsError: 3.71212e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.13854e-01\tAbsError: 7.63149e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.87832e-05\tAbsError: 2.03761e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 6.47092e+02\tAbsError: 3.51922e+18\n", + " Region: \"zone_1\"\tRelError: 2.63451e+02\tAbsError: 5.86890e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.63450e+02\tAbsError: 8.49344e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.44670e-03\tAbsError: 5.01956e-01\n", + " Region: \"zone_3\"\tRelError: 3.83641e+02\tAbsError: 3.51922e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.70089e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.81832e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 3.65639e+02\tAbsError: 8.49344e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.44736e-03\tAbsError: 5.02196e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 3.07342e+03\tAbsError: 2.97837e+17\n", + " Region: \"zone_1\"\tRelError: 2.56011e+01\tAbsError: 5.04749e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 2.55870e+01\tAbsError: 7.94526e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41420e-02\tAbsError: 4.96804e+00\n", + " Region: \"zone_3\"\tRelError: 3.04782e+03\tAbsError: 2.97837e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.25861e+01\tAbsError: 1.52164e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.03129e+03\tAbsError: 1.45673e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 3.92837e+00\tAbsError: 7.94551e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41420e-02\tAbsError: 4.96804e+00\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.76566e+00\tAbsError: 2.43207e+16\n", + " Region: \"zone_1\"\tRelError: 2.86332e+00\tAbsError: 4.95127e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.86321e+00\tAbsError: 1.10523e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10923e-04\tAbsError: 3.84604e-02\n", + " Region: \"zone_3\"\tRelError: 9.02346e-01\tAbsError: 2.43207e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.42087e-01\tAbsError: 1.21709e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.47178e-02\tAbsError: 1.21498e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.95430e-01\tAbsError: 1.10525e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11265e-04\tAbsError: 3.85782e-02\n", + "Iteration: 20\n", + " Device: \"device\"\tRelError: 2.56210e-05\tAbsError: 5.83108e+09\n", + " Region: \"zone_1\"\tRelError: 2.67249e-06\tAbsError: 2.19120e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.66620e-06\tAbsError: 3.76776e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.29052e-09\tAbsError: 2.18743e-06\n", + " Region: \"zone_3\"\tRelError: 2.29485e-05\tAbsError: 5.83108e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.90368e-07\tAbsError: 3.44839e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.87141e-07\tAbsError: 2.38269e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.17647e-05\tAbsError: 3.82222e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.29144e-09\tAbsError: 2.18776e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:52\u001b[0m.\u001b[1;36m734\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.2\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.64410e-02\tAbsError: 6.34524e+13\n", + " Region: \"zone_1\"\tRelError: 6.01943e-03\tAbsError: 8.87148e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.99386e-03\tAbsError: 6.06051e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.55757e-05\tAbsError: 8.86542e-03\n", + " Region: \"zone_3\"\tRelError: 6.04216e-02\tAbsError: 6.34524e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43427e-04\tAbsError: 3.11581e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.51084e-04\tAbsError: 3.22943e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95015e-02\tAbsError: 6.26485e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.55822e-05\tAbsError: 8.86737e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.28415e+02\tAbsError: 4.82050e+17\n", + " Region: \"zone_1\"\tRelError: 9.93520e+01\tAbsError: 5.45600e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 9.93367e+01\tAbsError: 8.15209e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52835e-02\tAbsError: 5.37448e+00\n", + " Region: \"zone_3\"\tRelError: 2.90632e+01\tAbsError: 4.82050e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.38294e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.43888e+01\tAbsError: 2.43756e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 5.65902e+00\tAbsError: 8.15218e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52835e-02\tAbsError: 5.37448e+00\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.49278e+01\tAbsError: 7.81245e+16\n", + " Region: \"zone_1\"\tRelError: 3.54128e+00\tAbsError: 2.67358e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 3.53383e+00\tAbsError: 7.54578e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.45093e-03\tAbsError: 2.59812e+00\n", + " Region: \"zone_3\"\tRelError: 5.13865e+01\tAbsError: 7.81245e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.20613e+01\tAbsError: 4.02344e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.93310e+01\tAbsError: 3.78901e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 9.98674e+00\tAbsError: 7.54578e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.46007e-03\tAbsError: 2.60144e+00\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 3.33470e-01\tAbsError: 3.90416e+15\n", + " Region: \"zone_1\"\tRelError: 2.76645e-01\tAbsError: 2.96561e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.75790e-01\tAbsError: 2.14183e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.55252e-04\tAbsError: 2.96347e-01\n", + " Region: \"zone_3\"\tRelError: 5.68250e-02\tAbsError: 3.90416e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.39131e-02\tAbsError: 2.04896e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.08999e-03\tAbsError: 1.85520e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49651e-02\tAbsError: 2.43298e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.56812e-04\tAbsError: 2.96876e-01\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.75673e-02\tAbsError: 3.32993e+13\n", + " Region: \"zone_1\"\tRelError: 3.52548e-03\tAbsError: 1.20689e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.52200e-03\tAbsError: 3.09455e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.47154e-06\tAbsError: 1.20380e-03\n", + " Region: \"zone_3\"\tRelError: 3.40418e-02\tAbsError: 3.32993e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47698e-04\tAbsError: 1.63796e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.38649e-04\tAbsError: 1.69197e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.35520e-02\tAbsError: 3.11273e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.47235e-06\tAbsError: 1.20402e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.15185e+01\tAbsError: 8.37847e+15\n", + " Region: \"zone_1\"\tRelError: 9.89196e+00\tAbsError: 4.09548e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.89196e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.51739e-09\tAbsError: 5.27651e-07\n", + " Region: \"zone_3\"\tRelError: 1.62652e+00\tAbsError: 8.37847e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69532e-01\tAbsError: 4.63620e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69461e-01\tAbsError: 3.74226e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.75319e-02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.51758e-09\tAbsError: 5.27715e-07\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.18889e+02\tAbsError: 1.14552e+17\n", + " Region: \"zone_1\"\tRelError: 5.40599e+00\tAbsError: 1.94512e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.40065e+00\tAbsError: 7.77584e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.33822e-03\tAbsError: 1.86737e+00\n", + " Region: \"zone_3\"\tRelError: 1.13483e+02\tAbsError: 1.14552e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.90797e+01\tAbsError: 7.79767e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.64811e+00\tAbsError: 3.65758e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 8.74990e+00\tAbsError: 7.77584e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.33822e-03\tAbsError: 1.86737e+00\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.25625e+03\tAbsError: 1.22730e+16\n", + " Region: \"zone_1\"\tRelError: 5.23435e-01\tAbsError: 1.23727e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.20080e-01\tAbsError: 7.09984e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.35587e-03\tAbsError: 1.16627e+00\n", + " Region: \"zone_3\"\tRelError: 1.25572e+03\tAbsError: 1.22730e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.14061e+02\tAbsError: 7.22075e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.14013e+03\tAbsError: 5.05229e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.52613e+00\tAbsError: 7.09985e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.35587e-03\tAbsError: 1.16627e+00\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.12245e+00\tAbsError: 9.91584e+14\n", + " Region: \"zone_1\"\tRelError: 8.68623e-01\tAbsError: 1.80881e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.68571e-01\tAbsError: 5.61289e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.20373e-05\tAbsError: 1.80320e-02\n", + " Region: \"zone_3\"\tRelError: 2.53825e-01\tAbsError: 9.91584e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.10989e-03\tAbsError: 4.83044e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.24305e-03\tAbsError: 5.08540e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.47420e-01\tAbsError: 5.65576e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.20483e-05\tAbsError: 1.80351e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.47008e-03\tAbsError: 4.77215e+12\n", + " Region: \"zone_1\"\tRelError: 6.05494e-04\tAbsError: 5.38691e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.03946e-04\tAbsError: 4.25617e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54844e-06\tAbsError: 5.38265e-04\n", + " Region: \"zone_3\"\tRelError: 5.86458e-03\tAbsError: 4.77215e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.53153e-05\tAbsError: 2.34800e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.40122e-05\tAbsError: 2.42415e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.79371e-03\tAbsError: 4.28072e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54906e-06\tAbsError: 5.38488e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.94648e+00\tAbsError: 2.98429e+14\n", + " Region: \"zone_1\"\tRelError: 5.14527e-01\tAbsError: 9.09010e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.14354e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72975e-04\tAbsError: 6.01374e-02\n", + " Region: \"zone_3\"\tRelError: 1.43195e+00\tAbsError: 2.98429e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37879e-01\tAbsError: 1.45713e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32394e-01\tAbsError: 1.52715e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.15050e-02\tAbsError: 3.07641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72975e-04\tAbsError: 6.01374e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.95684e+02\tAbsError: 5.60954e+16\n", + " Region: \"zone_1\"\tRelError: 3.13909e+00\tAbsError: 2.03306e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 3.13346e+00\tAbsError: 7.35754e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.63340e-03\tAbsError: 1.95948e+00\n", + " Region: \"zone_3\"\tRelError: 9.92545e+02\tAbsError: 5.60954e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.47342e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.81191e+02\tAbsError: 2.13612e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.34805e+00\tAbsError: 7.35755e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.63450e-03\tAbsError: 1.95990e+00\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.11329e+02\tAbsError: 6.64526e+15\n", + " Region: \"zone_1\"\tRelError: 5.94437e-01\tAbsError: 1.17140e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.94290e-01\tAbsError: 6.59600e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47237e-04\tAbsError: 5.11801e-02\n", + " Region: \"zone_3\"\tRelError: 5.10735e+02\tAbsError: 6.64526e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.43214e+01\tAbsError: 4.35598e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.34749e+02\tAbsError: 2.28927e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66411e+00\tAbsError: 6.59600e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47237e-04\tAbsError: 5.11801e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.42634e-01\tAbsError: 8.50303e+13\n", + " Region: \"zone_1\"\tRelError: 1.08407e-01\tAbsError: 8.19922e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08383e-01\tAbsError: 5.12930e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36473e-05\tAbsError: 8.19409e-03\n", + " Region: \"zone_3\"\tRelError: 3.42278e-02\tAbsError: 8.50303e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.81155e-04\tAbsError: 4.15550e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.73729e-04\tAbsError: 4.34753e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.36493e-02\tAbsError: 5.16851e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36494e-05\tAbsError: 8.19449e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.65398e-03\tAbsError: 2.00158e+12\n", + " Region: \"zone_1\"\tRelError: 2.48909e-04\tAbsError: 1.00808e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.48620e-04\tAbsError: 1.66964e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.89512e-07\tAbsError: 1.00641e-04\n", + " Region: \"zone_3\"\tRelError: 2.40507e-03\tAbsError: 2.00158e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50347e-05\tAbsError: 9.84888e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.44145e-05\tAbsError: 1.01669e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.37533e-03\tAbsError: 1.67974e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.89623e-07\tAbsError: 1.00681e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.04599e+00\tAbsError: 3.86289e+13\n", + " Region: \"zone_1\"\tRelError: 9.93306e-02\tAbsError: 3.04736e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.93173e-02\tAbsError: 2.58731e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32325e-05\tAbsError: 4.60053e-03\n", + " Region: \"zone_3\"\tRelError: 9.46664e-01\tAbsError: 3.86289e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39748e-01\tAbsError: 2.78668e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.98990e-01\tAbsError: 1.07620e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07912e-01\tAbsError: 2.56750e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32325e-05\tAbsError: 4.60053e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.05572e+02\tAbsError: 7.27616e+15\n", + " Region: \"zone_1\"\tRelError: 3.62859e-01\tAbsError: 2.71746e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.62276e-01\tAbsError: 6.88787e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.83532e-04\tAbsError: 2.02867e-01\n", + " Region: \"zone_3\"\tRelError: 3.05209e+02\tAbsError: 7.27616e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.70310e+01\tAbsError: 3.37941e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.76142e+02\tAbsError: 3.89675e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03530e+00\tAbsError: 6.88788e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.85168e-04\tAbsError: 2.03436e-01\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.19404e+03\tAbsError: 1.14702e+15\n", + " Region: \"zone_1\"\tRelError: 1.02333e-01\tAbsError: 9.32654e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02238e-01\tAbsError: 6.01966e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.51279e-05\tAbsError: 3.30688e-02\n", + " Region: \"zone_3\"\tRelError: 3.19394e+03\tAbsError: 1.14702e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.04031e+02\tAbsError: 6.26640e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.98981e+03\tAbsError: 5.20382e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02437e-01\tAbsError: 6.01966e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.51279e-05\tAbsError: 3.30688e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 9.22389e-02\tAbsError: 4.82158e+13\n", + " Region: \"zone_1\"\tRelError: 7.18973e-02\tAbsError: 1.06561e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.18942e-02\tAbsError: 2.74508e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.06675e-06\tAbsError: 1.06286e-03\n", + " Region: \"zone_3\"\tRelError: 2.03416e-02\tAbsError: 4.82158e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.73371e-04\tAbsError: 2.34911e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.60750e-04\tAbsError: 2.47247e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.00044e-02\tAbsError: 2.76855e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.06732e-06\tAbsError: 1.06303e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 5.36228e-04\tAbsError: 3.67963e+11\n", + " Region: \"zone_1\"\tRelError: 5.03370e-05\tAbsError: 3.69568e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.02308e-05\tAbsError: 3.27141e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06219e-07\tAbsError: 3.69241e-05\n", + " Region: \"zone_3\"\tRelError: 4.85891e-04\tAbsError: 3.67963e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.74381e-06\tAbsError: 1.81082e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.63918e-06\tAbsError: 1.86881e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.80402e-04\tAbsError: 3.29054e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06263e-07\tAbsError: 3.69404e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.81931e-01\tAbsError: 3.51181e+12\n", + " Region: \"zone_1\"\tRelError: 1.43962e-02\tAbsError: 1.26243e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43862e-02\tAbsError: 9.16567e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.94816e-06\tAbsError: 3.45864e-03\n", + " Region: \"zone_3\"\tRelError: 2.67535e-01\tAbsError: 3.51181e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.10366e-01\tAbsError: 2.07274e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.20558e-02\tAbsError: 1.43906e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51029e-02\tAbsError: 9.16572e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.94816e-06\tAbsError: 3.45864e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.52143e+04\tAbsError: 8.85256e+14\n", + " Region: \"zone_1\"\tRelError: 1.13431e-01\tAbsError: 1.63012e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13145e-01\tAbsError: 6.35445e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.86193e-04\tAbsError: 9.94676e-02\n", + " Region: \"zone_3\"\tRelError: 1.52142e+04\tAbsError: 8.85256e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88796e+02\tAbsError: 3.04095e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.50252e+04\tAbsError: 5.81161e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.15776e-01\tAbsError: 6.35445e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.86193e-04\tAbsError: 9.94676e-02\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.84514e-04\tAbsError: 1.29331e+11\n", + " Region: \"zone_1\"\tRelError: 1.73204e-05\tAbsError: 7.90813e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72976e-05\tAbsError: 1.15361e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.27155e-08\tAbsError: 7.89660e-06\n", + " Region: \"zone_3\"\tRelError: 1.67193e-04\tAbsError: 1.29331e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.72276e-07\tAbsError: 6.36462e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.31421e-07\tAbsError: 6.56851e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65267e-04\tAbsError: 1.16052e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.27252e-08\tAbsError: 7.90006e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.37784e+03\tAbsError: 8.93258e+14\n", + " Region: \"zone_1\"\tRelError: 1.00933e-01\tAbsError: 6.73054e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00893e-01\tAbsError: 5.35128e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.97271e-05\tAbsError: 1.37925e-02\n", + " Region: \"zone_3\"\tRelError: 3.37774e+03\tAbsError: 8.93258e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.00117e+03\tAbsError: 5.58869e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.76480e+02\tAbsError: 3.34389e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.23077e-02\tAbsError: 5.35129e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.97519e-05\tAbsError: 1.38013e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.54653e-02\tAbsError: 6.70800e+12\n", + " Region: \"zone_1\"\tRelError: 1.20581e-02\tAbsError: 4.93668e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20566e-02\tAbsError: 3.62019e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41950e-06\tAbsError: 4.93306e-04\n", + " Region: \"zone_3\"\tRelError: 3.40728e-03\tAbsError: 6.70800e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.37608e-05\tAbsError: 3.26486e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.20449e-05\tAbsError: 3.44314e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.36006e-03\tAbsError: 3.65152e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42005e-06\tAbsError: 4.93504e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.22421e-02\tAbsError: 3.50277e+12\n", + " Region: \"zone_1\"\tRelError: 6.27963e-03\tAbsError: 2.19296e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.27336e-03\tAbsError: 1.50745e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.27082e-06\tAbsError: 2.17788e-03\n", + " Region: \"zone_3\"\tRelError: 6.59624e-02\tAbsError: 3.50277e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.67825e-02\tAbsError: 2.11767e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.14378e-04\tAbsError: 1.38511e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.55925e-03\tAbsError: 1.55695e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.27082e-06\tAbsError: 2.17788e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.55754e+03\tAbsError: 5.40333e+14\n", + " Region: \"zone_1\"\tRelError: 8.98251e-02\tAbsError: 7.71339e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.97682e-02\tAbsError: 5.74069e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.68415e-05\tAbsError: 1.97270e-02\n", + " Region: \"zone_3\"\tRelError: 1.55745e+03\tAbsError: 5.40333e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.24902e+02\tAbsError: 2.78996e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.43226e+03\tAbsError: 2.61337e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.83203e-01\tAbsError: 5.74070e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.68971e-05\tAbsError: 1.97465e-02\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 4.13464e-05\tAbsError: 2.75069e+10\n", + " Region: \"zone_1\"\tRelError: 3.88379e-06\tAbsError: 2.55222e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.87646e-06\tAbsError: 2.54121e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.33447e-09\tAbsError: 2.54968e-06\n", + " Region: \"zone_3\"\tRelError: 3.74626e-05\tAbsError: 2.75069e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05752e-07\tAbsError: 1.35376e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.97692e-07\tAbsError: 1.39693e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.70518e-05\tAbsError: 2.55608e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.33751e-09\tAbsError: 2.55078e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:00\u001b[0m.\u001b[1;36m827\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.9\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 8.34579e+02\tAbsError: 1.94708e+14\n", + " Region: \"zone_1\"\tRelError: 6.43873e-02\tAbsError: 6.04633e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.43446e-02\tAbsError: 4.56537e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.26547e-05\tAbsError: 1.48096e-02\n", + " Region: \"zone_3\"\tRelError: 8.34515e+02\tAbsError: 1.94708e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.23533e+02\tAbsError: 9.15286e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.10917e+02\tAbsError: 1.03179e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.46435e-02\tAbsError: 4.56538e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.27063e-05\tAbsError: 1.48277e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 6.56223e-03\tAbsError: 2.91406e+12\n", + " Region: \"zone_1\"\tRelError: 5.12823e-03\tAbsError: 8.98940e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.12798e-03\tAbsError: 1.46733e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.58246e-07\tAbsError: 8.97473e-05\n", + " Region: \"zone_3\"\tRelError: 1.43400e-03\tAbsError: 2.91406e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.05194e-05\tAbsError: 1.41848e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.74304e-06\tAbsError: 1.49558e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.41348e-03\tAbsError: 1.48063e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.58345e-07\tAbsError: 8.97837e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.61560e-03\tAbsError: 1.05155e+12\n", + " Region: \"zone_1\"\tRelError: 2.24368e-04\tAbsError: 1.45744e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.23954e-04\tAbsError: 1.49315e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14375e-07\tAbsError: 1.44251e-04\n", + " Region: \"zone_3\"\tRelError: 1.39123e-03\tAbsError: 1.05155e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46580e-04\tAbsError: 2.71205e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.31750e-04\tAbsError: 7.80341e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11248e-03\tAbsError: 1.49727e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14536e-07\tAbsError: 1.44309e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.11509e+03\tAbsError: 2.08027e+14\n", + " Region: \"zone_1\"\tRelError: 7.16225e-02\tAbsError: 7.72640e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.15447e-02\tAbsError: 5.02451e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.78461e-05\tAbsError: 2.70188e-02\n", + " Region: \"zone_3\"\tRelError: 6.11502e+03\tAbsError: 2.08027e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.36809e+03\tAbsError: 4.84261e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.46858e+02\tAbsError: 1.59601e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.19331e-02\tAbsError: 5.02452e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.78461e-05\tAbsError: 2.70188e-02\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.30459e-03\tAbsError: 5.22309e+11\n", + " Region: \"zone_1\"\tRelError: 1.02073e-03\tAbsError: 3.37124e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02063e-03\tAbsError: 2.80533e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.69262e-08\tAbsError: 3.36844e-05\n", + " Region: \"zone_3\"\tRelError: 2.83861e-04\tAbsError: 5.22309e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.86127e-06\tAbsError: 2.54142e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.73182e-06\tAbsError: 2.68167e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.80171e-04\tAbsError: 2.82699e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.69658e-08\tAbsError: 3.36990e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.24775e+05\tAbsError: 7.99849e+13\n", + " Region: \"zone_1\"\tRelError: 4.78059e-02\tAbsError: 6.12680e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.77341e-02\tAbsError: 3.63251e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.18354e-05\tAbsError: 2.49428e-02\n", + " Region: \"zone_3\"\tRelError: 2.24775e+05\tAbsError: 7.99849e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.24772e+05\tAbsError: 1.00992e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.14841e+00\tAbsError: 6.98857e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.81352e-02\tAbsError: 3.63252e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.18354e-05\tAbsError: 2.49428e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.18618e+01\tAbsError: 3.43486e+17\n", + " Region: \"zone_1\"\tRelError: 4.68734e+01\tAbsError: 4.09548e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.68734e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70509e-09\tAbsError: 5.92742e-07\n", + " Region: \"zone_3\"\tRelError: 1.49884e+01\tAbsError: 3.43486e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.50361e-01\tAbsError: 1.67687e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.42491e-01\tAbsError: 1.75799e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.34955e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70580e-09\tAbsError: 5.92998e-07\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.04487e-04\tAbsError: 1.25305e+11\n", + " Region: \"zone_1\"\tRelError: 1.66226e-04\tAbsError: 5.88375e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66057e-04\tAbsError: 7.31644e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69190e-07\tAbsError: 5.87644e-05\n", + " Region: \"zone_3\"\tRelError: 4.38261e-04\tAbsError: 1.25305e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07350e-05\tAbsError: 8.57573e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.06395e-05\tAbsError: 3.95481e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.16717e-04\tAbsError: 7.69561e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69190e-07\tAbsError: 5.87644e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.83105e+01\tAbsError: 1.95329e+14\n", + " Region: \"zone_1\"\tRelError: 5.56071e-02\tAbsError: 7.46696e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.55124e-02\tAbsError: 4.17804e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.47508e-05\tAbsError: 3.28892e-02\n", + " Region: \"zone_3\"\tRelError: 2.82549e+01\tAbsError: 1.95329e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.94244e+01\tAbsError: 7.65409e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.77485e+00\tAbsError: 1.87675e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.55752e-02\tAbsError: 4.17805e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.47508e-05\tAbsError: 3.28892e-02\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 4.57494e-04\tAbsError: 1.87851e+11\n", + " Region: \"zone_1\"\tRelError: 3.58124e-04\tAbsError: 7.07024e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.58104e-04\tAbsError: 1.00823e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.03150e-08\tAbsError: 7.06016e-06\n", + " Region: \"zone_3\"\tRelError: 9.93700e-05\tAbsError: 1.87851e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.76736e-07\tAbsError: 9.14150e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.27531e-07\tAbsError: 9.64360e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 9.80454e-05\tAbsError: 1.01596e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.03236e-08\tAbsError: 7.06323e-06\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.21405e+00\tAbsError: 7.36648e+13\n", + " Region: \"zone_1\"\tRelError: 3.59171e-02\tAbsError: 5.52897e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.58309e-02\tAbsError: 2.53668e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.61705e-05\tAbsError: 2.99229e-02\n", + " Region: \"zone_3\"\tRelError: 1.17813e+00\tAbsError: 7.36648e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99994e-01\tAbsError: 9.79700e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.41280e-01\tAbsError: 6.38678e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.67735e-02\tAbsError: 2.54466e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.61705e-05\tAbsError: 2.99229e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 6.59116e+00\tAbsError: 3.05940e+17\n", + " Region: \"zone_1\"\tRelError: 1.06162e+00\tAbsError: 1.92710e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06116e+00\tAbsError: 3.07630e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.67257e-04\tAbsError: 1.61947e-01\n", + " Region: \"zone_3\"\tRelError: 5.52954e+00\tAbsError: 3.05940e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.66708e-01\tAbsError: 1.53394e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.75609e-01\tAbsError: 1.52546e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 4.38676e+00\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.67257e-04\tAbsError: 1.61947e-01\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.49542e-04\tAbsError: 5.25661e+10\n", + " Region: \"zone_1\"\tRelError: 3.67450e-05\tAbsError: 6.09088e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.67276e-05\tAbsError: 4.65419e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73626e-08\tAbsError: 6.04434e-06\n", + " Region: \"zone_3\"\tRelError: 1.12797e-04\tAbsError: 5.25661e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.87851e-06\tAbsError: 1.95403e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.83782e-06\tAbsError: 3.30258e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03064e-04\tAbsError: 4.67697e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73704e-08\tAbsError: 6.04719e-06\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.17347e+02\tAbsError: 2.00590e+14\n", + " Region: \"zone_1\"\tRelError: 4.02790e-02\tAbsError: 7.42617e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.01565e-02\tAbsError: 3.17370e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22495e-04\tAbsError: 4.25247e-02\n", + " Region: \"zone_3\"\tRelError: 2.17306e+02\tAbsError: 2.00590e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.16792e+02\tAbsError: 1.28080e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.74248e-01\tAbsError: 1.87782e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.02289e-02\tAbsError: 3.17371e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22495e-04\tAbsError: 4.25247e-02\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.01166e-04\tAbsError: 3.91946e+10\n", + " Region: \"zone_1\"\tRelError: 7.92415e-05\tAbsError: 2.31694e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 7.92348e-05\tAbsError: 2.18517e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.66050e-09\tAbsError: 2.31475e-06\n", + " Region: \"zone_3\"\tRelError: 2.19241e-05\tAbsError: 3.91946e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.40019e-07\tAbsError: 1.90694e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.30355e-07\tAbsError: 2.01253e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.16471e-05\tAbsError: 2.20162e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.66326e-09\tAbsError: 2.31575e-06\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 6.63713e+04\tAbsError: 5.22530e+13\n", + " Region: \"zone_1\"\tRelError: 2.10634e-02\tAbsError: 5.42181e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.09583e-02\tAbsError: 1.77022e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.05146e-04\tAbsError: 3.65159e-02\n", + " Region: \"zone_3\"\tRelError: 6.63712e+04\tAbsError: 5.22530e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.63712e+04\tAbsError: 5.18134e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.77454e-03\tAbsError: 4.70717e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.12693e-02\tAbsError: 1.77023e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.05146e-04\tAbsError: 3.65159e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 3.39017e+01\tAbsError: 1.15461e+17\n", + " Region: \"zone_1\"\tRelError: 6.40052e-01\tAbsError: 2.51200e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 6.39402e-01\tAbsError: 2.58690e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.49519e-04\tAbsError: 2.25331e-01\n", + " Region: \"zone_3\"\tRelError: 3.32617e+01\tAbsError: 1.15461e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.89584e-01\tAbsError: 5.80157e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.82182e-01\tAbsError: 5.74450e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.27893e+01\tAbsError: 2.58944e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.51823e-04\tAbsError: 2.26124e-01\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.06804e+00\tAbsError: 1.79281e+14\n", + " Region: \"zone_1\"\tRelError: 3.16228e-02\tAbsError: 8.06229e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.14652e-02\tAbsError: 2.58829e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.57657e-04\tAbsError: 5.47400e-02\n", + " Region: \"zone_3\"\tRelError: 1.03642e+00\tAbsError: 1.79281e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.86597e-01\tAbsError: 1.34599e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.78837e-02\tAbsError: 1.65821e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.17792e-02\tAbsError: 2.43086e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.57657e-04\tAbsError: 5.47400e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.34617e-05\tAbsError: 4.93079e+09\n", + " Region: \"zone_1\"\tRelError: 6.39656e-06\tAbsError: 2.70522e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.38878e-06\tAbsError: 2.92927e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.78054e-09\tAbsError: 2.70229e-06\n", + " Region: \"zone_3\"\tRelError: 1.70651e-05\tAbsError: 4.93079e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.08409e-07\tAbsError: 3.64060e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.02770e-07\tAbsError: 1.29019e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.62462e-05\tAbsError: 3.07628e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.78095e-09\tAbsError: 2.70246e-06\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 3.18341e-05\tAbsError: 1.25603e+10\n", + " Region: \"zone_1\"\tRelError: 2.49404e-05\tAbsError: 5.30965e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49389e-05\tAbsError: 6.97982e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52580e-09\tAbsError: 5.30267e-07\n", + " Region: \"zone_3\"\tRelError: 6.89370e-06\tAbsError: 1.25603e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.51738e-08\tAbsError: 6.11147e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.19302e-08\tAbsError: 6.44887e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 6.80507e-06\tAbsError: 7.03236e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52643e-09\tAbsError: 5.30496e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:05\u001b[0m.\u001b[1;36m757\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:05\u001b[0m.\u001b[1;36m757\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 12\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 1.01474e+00\tAbsError: 4.61335e+13\n", + " Region: \"zone_1\"\tRelError: 1.47150e-03\tAbsError: 6.17553e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29402e-03\tAbsError: 1.05400e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77486e-04\tAbsError: 6.16499e-02\n", + " Region: \"zone_3\"\tRelError: 1.01327e+00\tAbsError: 4.61335e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99952e-01\tAbsError: 7.91524e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.57670e-03\tAbsError: 3.82183e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.56216e-03\tAbsError: 1.06870e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77486e-04\tAbsError: 6.16499e-02\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:05\u001b[0m.\u001b[1;36m864\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.95\u001b[0m \n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "number of equations 31816\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.68712e+00\tAbsError: 3.62564e+14\n", + " Region: \"zone_1\"\tRelError: 1.22207e-02\tAbsError: 1.54507e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.22061e-02\tAbsError: 1.03781e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.46093e-05\tAbsError: 5.07262e-03\n", + " Region: \"zone_3\"\tRelError: 1.67490e+00\tAbsError: 3.62564e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.61422e+00\tAbsError: 1.33857e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.90388e-03\tAbsError: 3.49178e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.47664e-02\tAbsError: 1.03783e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.46093e-05\tAbsError: 5.07262e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.34480e+00\tAbsError: 1.48853e+16\n", + " Region: \"zone_1\"\tRelError: 1.80604e-01\tAbsError: 1.59400e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.80172e-01\tAbsError: 9.16501e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.31839e-04\tAbsError: 1.50235e-01\n", + " Region: \"zone_3\"\tRelError: 3.16419e+00\tAbsError: 1.48853e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.34401e-02\tAbsError: 7.53366e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.19569e-02\tAbsError: 7.35164e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 3.07837e+00\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.31839e-04\tAbsError: 1.50235e-01\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 7.62884e-02\tAbsError: 3.11279e+13\n", + " Region: \"zone_1\"\tRelError: 7.32639e-03\tAbsError: 6.71228e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.32458e-03\tAbsError: 3.92163e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.81752e-06\tAbsError: 6.32012e-04\n", + " Region: \"zone_3\"\tRelError: 6.89620e-02\tAbsError: 3.11279e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.28301e-03\tAbsError: 1.04211e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.41417e-03\tAbsError: 2.07069e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.02630e-02\tAbsError: 3.96840e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.81752e-06\tAbsError: 6.32012e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 9.54016e+00\tAbsError: 8.28773e+15\n", + " Region: \"zone_1\"\tRelError: 7.90066e+00\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.90066e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.70848e-10\tAbsError: 1.98729e-07\n", + " Region: \"zone_3\"\tRelError: 1.63951e+00\tAbsError: 8.28773e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69626e-01\tAbsError: 4.72857e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69607e-01\tAbsError: 3.55916e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00272e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.71112e-10\tAbsError: 1.98826e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.74449e+01\tAbsError: 6.96689e+17\n", + " Region: \"zone_1\"\tRelError: 2.96607e+01\tAbsError: 4.22091e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.96607e+01\tAbsError: 4.22089e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.61425e-10\tAbsError: 1.60361e-07\n", + " Region: \"zone_3\"\tRelError: 7.78417e+00\tAbsError: 6.96689e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.41055e-01\tAbsError: 3.41021e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.26169e-01\tAbsError: 3.55668e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 6.31694e+00\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.61615e-10\tAbsError: 1.60430e-07\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 3.79888e-01\tAbsError: 4.76646e+14\n", + " Region: \"zone_1\"\tRelError: 8.18570e-03\tAbsError: 1.32227e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 7.80599e-03\tAbsError: 3.37742e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.79705e-04\tAbsError: 1.31889e-01\n", + " Region: \"zone_3\"\tRelError: 3.71702e-01\tAbsError: 4.76646e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.87565e-01\tAbsError: 1.19019e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.42254e-02\tAbsError: 4.64744e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.95315e-02\tAbsError: 3.47242e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.80503e-04\tAbsError: 1.32163e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 3.42204e-01\tAbsError: 1.90329e+15\n", + " Region: \"zone_1\"\tRelError: 2.01983e-02\tAbsError: 3.47392e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.91990e-02\tAbsError: 1.15001e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.99221e-04\tAbsError: 3.47277e-01\n", + " Region: \"zone_3\"\tRelError: 3.22006e-01\tAbsError: 1.90329e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.20950e-03\tAbsError: 1.00831e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03234e-03\tAbsError: 8.94978e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.11765e-01\tAbsError: 1.16357e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.99221e-04\tAbsError: 3.47277e-01\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 4.97160e-03\tAbsError: 5.38954e+11\n", + " Region: \"zone_1\"\tRelError: 5.24807e-04\tAbsError: 2.04317e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.18927e-04\tAbsError: 4.87701e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.88073e-06\tAbsError: 2.04268e-03\n", + " Region: \"zone_3\"\tRelError: 4.44679e-03\tAbsError: 5.38954e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.23342e-04\tAbsError: 2.85836e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.06330e-04\tAbsError: 2.53118e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.21124e-03\tAbsError: 4.94546e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.88073e-06\tAbsError: 2.04268e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.57084e+00\tAbsError: 2.89575e+14\n", + " Region: \"zone_1\"\tRelError: 1.26543e-01\tAbsError: 8.72430e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.26381e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62480e-04\tAbsError: 5.64794e-02\n", + " Region: \"zone_3\"\tRelError: 1.44430e+00\tAbsError: 2.89575e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37983e-01\tAbsError: 1.66847e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32917e-01\tAbsError: 1.22728e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.32359e-02\tAbsError: 3.07641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62480e-04\tAbsError: 5.64794e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.96671e+01\tAbsError: 4.78725e+17\n", + " Region: \"zone_1\"\tRelError: 1.56062e+01\tAbsError: 6.48524e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.56044e+01\tAbsError: 3.22428e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77540e-03\tAbsError: 6.16281e-01\n", + " Region: \"zone_3\"\tRelError: 2.40609e+01\tAbsError: 4.78725e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.32526e-01\tAbsError: 2.39421e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.11429e-01\tAbsError: 2.39304e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 2.30152e+01\tAbsError: 3.22432e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77768e-03\tAbsError: 6.17061e-01\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 1.68812e-01\tAbsError: 6.68290e+13\n", + " Region: \"zone_1\"\tRelError: 1.62757e-02\tAbsError: 2.11428e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.62698e-02\tAbsError: 8.34201e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.83306e-06\tAbsError: 2.03086e-03\n", + " Region: \"zone_3\"\tRelError: 1.52537e-01\tAbsError: 6.68290e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.43740e-03\tAbsError: 2.29738e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.52401e-03\tAbsError: 4.38552e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33569e-01\tAbsError: 8.44016e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.83624e-06\tAbsError: 2.03199e-03\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 6.39289e-03\tAbsError: 1.99417e+12\n", + " Region: \"zone_1\"\tRelError: 6.51668e-04\tAbsError: 1.66997e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.51192e-04\tAbsError: 1.51055e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.75922e-07\tAbsError: 1.65487e-04\n", + " Region: \"zone_3\"\tRelError: 5.74122e-03\tAbsError: 1.99417e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05094e-04\tAbsError: 9.44377e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.03732e-04\tAbsError: 1.04979e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.33192e-03\tAbsError: 1.53169e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.76123e-07\tAbsError: 1.65562e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 7.26159e-01\tAbsError: 1.60368e+15\n", + " Region: \"zone_1\"\tRelError: 2.39971e-02\tAbsError: 1.68797e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.39489e-02\tAbsError: 1.07820e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.82419e-05\tAbsError: 1.67718e-02\n", + " Region: \"zone_3\"\tRelError: 7.02162e-01\tAbsError: 1.60368e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.86883e-03\tAbsError: 7.94204e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.42424e-03\tAbsError: 8.09476e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.96821e-01\tAbsError: 1.08766e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.82636e-05\tAbsError: 1.67793e-02\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 1.38481e-02\tAbsError: 1.68702e+12\n", + " Region: \"zone_1\"\tRelError: 1.46213e-03\tAbsError: 4.42925e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.44939e-03\tAbsError: 1.36850e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27342e-05\tAbsError: 4.42788e-03\n", + " Region: \"zone_3\"\tRelError: 1.23859e-02\tAbsError: 1.68702e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.64650e-04\tAbsError: 1.13427e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.36099e-04\tAbsError: 5.52747e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18725e-02\tAbsError: 1.41163e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27342e-05\tAbsError: 4.42788e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.08933e+00\tAbsError: 3.08258e+13\n", + " Region: \"zone_1\"\tRelError: 1.39766e-01\tAbsError: 3.14532e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39750e-01\tAbsError: 2.58726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60540e-05\tAbsError: 5.58058e-03\n", + " Region: \"zone_3\"\tRelError: 9.49568e-01\tAbsError: 3.08258e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40223e-01\tAbsError: 2.27975e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.01508e-01\tAbsError: 8.02831e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07820e-01\tAbsError: 2.58966e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60540e-05\tAbsError: 5.58058e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.58934e+01\tAbsError: 1.08929e+17\n", + " Region: \"zone_1\"\tRelError: 7.76222e+00\tAbsError: 2.03869e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 7.76171e+00\tAbsError: 2.58965e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.13002e-04\tAbsError: 1.77973e-01\n", + " Region: \"zone_3\"\tRelError: 8.13122e+00\tAbsError: 1.08929e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.31874e-01\tAbsError: 5.46655e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.37122e-01\tAbsError: 5.42631e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 7.76171e+00\tAbsError: 2.58965e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.15508e-04\tAbsError: 1.78843e-01\n", + "Iteration: 16\n", + " Device: \"device\"\tRelError: 7.67318e-04\tAbsError: 1.55738e+11\n", + " Region: \"zone_1\"\tRelError: 8.06401e-05\tAbsError: 1.34410e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 8.02538e-05\tAbsError: 1.14844e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.86221e-07\tAbsError: 1.34295e-04\n", + " Region: \"zone_3\"\tRelError: 6.86678e-04\tAbsError: 1.55738e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.65553e-05\tAbsError: 8.47722e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.64999e-05\tAbsError: 7.09653e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 6.53236e-04\tAbsError: 1.16414e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.86355e-07\tAbsError: 1.34349e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.12346e-01\tAbsError: 1.08123e+14\n", + " Region: \"zone_1\"\tRelError: 3.56238e-03\tAbsError: 1.31451e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.52458e-03\tAbsError: 6.36043e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.77942e-05\tAbsError: 1.31387e-02\n", + " Region: \"zone_3\"\tRelError: 1.08784e-01\tAbsError: 1.08123e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.76703e-04\tAbsError: 5.36465e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.39449e-04\tAbsError: 5.44763e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08330e-01\tAbsError: 6.41381e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.78094e-05\tAbsError: 1.31440e-02\n", + "Iteration: 16\n", + " Device: \"device\"\tRelError: 1.41016e-02\tAbsError: 4.32538e+12\n", + " Region: \"zone_1\"\tRelError: 1.44009e-03\tAbsError: 3.91787e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43897e-03\tAbsError: 3.24685e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11735e-06\tAbsError: 3.88540e-04\n", + " Region: \"zone_3\"\tRelError: 1.26615e-02\tAbsError: 4.32538e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.44521e-04\tAbsError: 2.07782e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.41617e-04\tAbsError: 2.24755e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17742e-02\tAbsError: 3.29253e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11758e-06\tAbsError: 3.88622e-04\n", + "Iteration: 17\n", + " Device: \"device\"\tRelError: 4.85089e-04\tAbsError: 1.31358e+11\n", + " Region: \"zone_1\"\tRelError: 5.00385e-05\tAbsError: 1.89992e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.99841e-05\tAbsError: 8.85529e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.43823e-08\tAbsError: 1.89106e-05\n", + " Region: \"zone_3\"\tRelError: 4.35051e-04\tAbsError: 1.31358e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.30758e-05\tAbsError: 7.11941e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.29816e-05\tAbsError: 6.01635e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.08939e-04\tAbsError: 8.98229e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.43956e-08\tAbsError: 1.89153e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.94758e-01\tAbsError: 4.98642e+12\n", + " Region: \"zone_1\"\tRelError: 2.19383e-02\tAbsError: 1.22221e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.19295e-02\tAbsError: 9.16564e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.79291e-06\tAbsError: 3.05651e-03\n", + " Region: \"zone_3\"\tRelError: 2.72820e-01\tAbsError: 4.98642e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12699e-01\tAbsError: 2.77867e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.23181e-02\tAbsError: 2.20775e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77940e-02\tAbsError: 9.16568e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.79389e-06\tAbsError: 3.05683e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.09090e+02\tAbsError: 1.19633e+16\n", + " Region: \"zone_1\"\tRelError: 1.29631e+01\tAbsError: 2.31122e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29625e+01\tAbsError: 1.10519e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.34257e-04\tAbsError: 2.20070e-01\n", + " Region: \"zone_3\"\tRelError: 1.96127e+02\tAbsError: 1.19633e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.51181e-02\tAbsError: 6.00863e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.25304e-02\tAbsError: 5.95469e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.96079e+02\tAbsError: 1.10525e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.35003e-04\tAbsError: 2.20329e-01\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 8.36096e-02\tAbsError: 8.44228e+13\n", + " Region: \"zone_1\"\tRelError: 2.87350e-03\tAbsError: 1.23009e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.86998e-03\tAbsError: 4.23325e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.52636e-06\tAbsError: 1.22586e-03\n", + " Region: \"zone_3\"\tRelError: 8.07361e-02\tAbsError: 8.44228e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46087e-04\tAbsError: 4.18513e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.25646e-04\tAbsError: 4.25715e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.04608e-02\tAbsError: 4.27186e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.52783e-06\tAbsError: 1.22636e-03\n", + "Iteration: 17\n", + " Device: \"device\"\tRelError: 1.81980e-03\tAbsError: 3.66024e+11\n", + " Region: \"zone_1\"\tRelError: 1.91275e-04\tAbsError: 2.94745e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.90428e-04\tAbsError: 2.56341e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.46877e-07\tAbsError: 2.94489e-04\n", + " Region: \"zone_3\"\tRelError: 1.62852e-03\tAbsError: 3.66024e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.82060e-05\tAbsError: 2.08266e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.80575e-05\tAbsError: 1.57759e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55141e-03\tAbsError: 2.59920e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.47241e-07\tAbsError: 2.94616e-04\n", + "Iteration: 18\n", + " Device: \"device\"\tRelError: 8.15689e-05\tAbsError: 1.78459e+10\n", + " Region: \"zone_1\"\tRelError: 8.53265e-06\tAbsError: 9.62031e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.50502e-06\tAbsError: 1.21079e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.76308e-08\tAbsError: 9.60820e-06\n", + " Region: \"zone_3\"\tRelError: 7.30363e-05\tAbsError: 1.78459e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.83620e-06\tAbsError: 1.02277e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.82841e-06\tAbsError: 7.61829e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 6.93440e-05\tAbsError: 1.22778e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.76376e-08\tAbsError: 9.61058e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:13\u001b[0m.\u001b[1;36m069\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:13\u001b[0m.\u001b[1;36m069\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.20555555555555557\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.73338e-02\tAbsError: 3.09182e+12\n", + " Region: \"zone_1\"\tRelError: 1.11598e-02\tAbsError: 1.65988e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11551e-02\tAbsError: 1.42279e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73882e-06\tAbsError: 1.64565e-03\n", + " Region: \"zone_3\"\tRelError: 6.61739e-02\tAbsError: 3.09182e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.71921e-02\tAbsError: 1.98622e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.49402e-04\tAbsError: 1.10560e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.42774e-03\tAbsError: 1.50865e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73882e-06\tAbsError: 1.64565e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 3.05334e-02\tAbsError: 1.11116e+15\n", + " Region: \"zone_1\"\tRelError: 1.31572e-02\tAbsError: 1.15650e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28247e-02\tAbsError: 1.19112e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.32502e-04\tAbsError: 1.15639e-01\n", + " Region: \"zone_3\"\tRelError: 1.73762e-02\tAbsError: 1.11116e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.08419e-03\tAbsError: 5.81267e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.14070e-04\tAbsError: 5.29897e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.44454e-02\tAbsError: 1.22279e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.32502e-04\tAbsError: 1.15639e-01\n", + "Iteration: 18\n", + " Device: \"device\"\tRelError: 1.07179e-03\tAbsError: 2.87267e+11\n", + " Region: \"zone_1\"\tRelError: 1.10640e-04\tAbsError: 4.34533e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10516e-04\tAbsError: 1.92607e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.24407e-07\tAbsError: 4.32607e-05\n", + " Region: \"zone_3\"\tRelError: 9.61153e-04\tAbsError: 2.87267e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.86040e-05\tAbsError: 1.56933e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.83999e-05\tAbsError: 1.30334e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 9.04024e-04\tAbsError: 1.95375e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.24432e-07\tAbsError: 4.32693e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.36875e-02\tAbsError: 9.69294e+12\n", + " Region: \"zone_1\"\tRelError: 4.70501e-04\tAbsError: 6.20216e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.68718e-04\tAbsError: 4.28680e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.78298e-06\tAbsError: 6.19787e-04\n", + " Region: \"zone_3\"\tRelError: 1.32170e-02\tAbsError: 9.69294e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.60935e-05\tAbsError: 4.80983e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.36870e-05\tAbsError: 4.88312e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31854e-02\tAbsError: 4.32490e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.78363e-06\tAbsError: 6.20008e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.35940e-03\tAbsError: 7.91644e+11\n", + " Region: \"zone_1\"\tRelError: 6.17001e-04\tAbsError: 1.42075e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.16596e-04\tAbsError: 1.18665e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.04748e-07\tAbsError: 1.40888e-04\n", + " Region: \"zone_3\"\tRelError: 7.42401e-04\tAbsError: 7.91644e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.00211e-04\tAbsError: 1.88344e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.60094e-05\tAbsError: 6.03301e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.55776e-04\tAbsError: 1.18974e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.04912e-07\tAbsError: 1.40947e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.48290e+01\tAbsError: 8.84394e+15\n", + " Region: \"zone_1\"\tRelError: 2.31805e+01\tAbsError: 4.20744e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.31805e+01\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.17390e-09\tAbsError: 1.79915e-06\n", + " Region: \"zone_3\"\tRelError: 1.64851e+00\tAbsError: 8.84394e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78981e-01\tAbsError: 4.89377e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.78912e-01\tAbsError: 3.95017e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.06132e-02\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.17475e-09\tAbsError: 1.79945e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.13709e-02\tAbsError: 5.67404e+14\n", + " Region: \"zone_1\"\tRelError: 2.78016e-02\tAbsError: 1.90673e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.77962e-02\tAbsError: 3.34161e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.38355e-06\tAbsError: 1.87332e-03\n", + " Region: \"zone_3\"\tRelError: 2.35693e-02\tAbsError: 5.67404e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.43611e-04\tAbsError: 2.82078e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.73004e-04\tAbsError: 2.85326e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.23473e-02\tAbsError: 3.37111e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.38683e-06\tAbsError: 1.87446e-03\n", + "Iteration: 19\n", + " Device: \"device\"\tRelError: 1.86653e-04\tAbsError: 4.07183e+10\n", + " Region: \"zone_1\"\tRelError: 1.95254e-05\tAbsError: 2.12148e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.94645e-05\tAbsError: 2.72481e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.09302e-08\tAbsError: 2.11876e-05\n", + " Region: \"zone_3\"\tRelError: 1.67128e-04\tAbsError: 4.07183e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.17871e-06\tAbsError: 2.36500e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.16021e-06\tAbsError: 1.70683e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.58728e-04\tAbsError: 2.76329e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.09443e-08\tAbsError: 2.11925e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 6.63798e-03\tAbsError: 4.90503e+12\n", + " Region: \"zone_1\"\tRelError: 2.29406e-04\tAbsError: 9.25474e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29140e-04\tAbsError: 1.97212e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.66464e-07\tAbsError: 9.23502e-05\n", + " Region: \"zone_3\"\tRelError: 6.40857e-03\tAbsError: 4.90503e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.34900e-06\tAbsError: 2.43347e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32522e-06\tAbsError: 2.47155e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 6.39263e-03\tAbsError: 1.99078e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.66498e-07\tAbsError: 9.23593e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.02141e-03\tAbsError: 1.23957e+11\n", + " Region: \"zone_1\"\tRelError: 5.52143e-04\tAbsError: 4.11028e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.52024e-04\tAbsError: 7.43261e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18138e-07\tAbsError: 4.10285e-05\n", + " Region: \"zone_3\"\tRelError: 4.69263e-04\tAbsError: 1.23957e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.58109e-06\tAbsError: 8.33431e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.49437e-06\tAbsError: 4.06143e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.50070e-04\tAbsError: 7.83274e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18138e-07\tAbsError: 4.10285e-05\n", + "Iteration: 20\n", + " Device: \"device\"\tRelError: 8.12376e-05\tAbsError: 2.03207e+10\n", + " Region: \"zone_1\"\tRelError: 8.42267e-06\tAbsError: 4.07956e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.41098e-06\tAbsError: 1.30852e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.16942e-08\tAbsError: 4.06647e-06\n", + " Region: \"zone_3\"\tRelError: 7.28149e-05\tAbsError: 2.03207e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.02463e-06\tAbsError: 1.17351e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.01039e-06\tAbsError: 8.58558e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 6.87682e-05\tAbsError: 1.32758e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.16959e-08\tAbsError: 4.06708e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 6.61737e+00\tAbsError: 3.31502e+14\n", + " Region: \"zone_1\"\tRelError: 5.14990e+00\tAbsError: 9.55443e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.14972e+00\tAbsError: 3.20824e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.82539e-04\tAbsError: 6.34619e-02\n", + " Region: \"zone_3\"\tRelError: 1.46747e+00\tAbsError: 3.31502e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.54810e-01\tAbsError: 1.62504e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.49659e-01\tAbsError: 1.68998e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.28163e-02\tAbsError: 3.20829e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.82539e-04\tAbsError: 6.34619e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:16\u001b[0m.\u001b[1;36m292\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.2\u001b[0m \n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.28947e-03\tAbsError: 1.46573e+13\n", + " Region: \"zone_1\"\tRelError: 7.23740e-04\tAbsError: 4.27408e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.11459e-04\tAbsError: 8.86431e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22814e-05\tAbsError: 4.27319e-03\n", + " Region: \"zone_3\"\tRelError: 1.56573e-03\tAbsError: 1.46573e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.92902e-05\tAbsError: 7.30178e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.04396e-05\tAbsError: 7.35548e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.42371e-03\tAbsError: 8.92429e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22868e-05\tAbsError: 4.27500e-03\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.25648e-03\tAbsError: 7.75715e+11\n", + " Region: \"zone_1\"\tRelError: 4.35799e-05\tAbsError: 3.84452e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.34694e-05\tAbsError: 2.84735e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10539e-07\tAbsError: 3.84167e-05\n", + " Region: \"zone_3\"\tRelError: 1.21290e-03\tAbsError: 7.75715e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28473e-06\tAbsError: 3.85060e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.13479e-06\tAbsError: 3.90655e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21037e-03\tAbsError: 2.87358e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10581e-07\tAbsError: 3.84313e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.30911e-04\tAbsError: 3.51442e+10\n", + " Region: \"zone_1\"\tRelError: 6.81885e-05\tAbsError: 6.92614e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.81687e-05\tAbsError: 3.42472e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.97989e-08\tAbsError: 6.89189e-06\n", + " Region: \"zone_3\"\tRelError: 6.27220e-05\tAbsError: 3.51442e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91737e-06\tAbsError: 1.11617e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.89123e-06\tAbsError: 2.39825e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.68936e-05\tAbsError: 3.42673e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.98072e-08\tAbsError: 6.89488e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.17677e+01\tAbsError: 4.26742e+13\n", + " Region: \"zone_1\"\tRelError: 1.07525e+01\tAbsError: 3.09210e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07525e+01\tAbsError: 2.58825e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.44922e-05\tAbsError: 5.03846e-03\n", + " Region: \"zone_3\"\tRelError: 1.01514e+00\tAbsError: 4.26742e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.66369e-01\tAbsError: 3.07350e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.34345e-01\tAbsError: 1.19392e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14412e-01\tAbsError: 2.58985e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.44922e-05\tAbsError: 5.03846e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.41093e-03\tAbsError: 2.89275e+13\n", + " Region: \"zone_1\"\tRelError: 1.11675e-03\tAbsError: 2.49108e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11604e-03\tAbsError: 1.27087e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.12326e-07\tAbsError: 2.47837e-04\n", + " Region: \"zone_3\"\tRelError: 2.29418e-03\tAbsError: 2.89275e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.03893e-05\tAbsError: 1.43939e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.44517e-05\tAbsError: 1.45336e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.23862e-03\tAbsError: 1.28225e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.12611e-07\tAbsError: 2.47936e-04\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 4.79935e-04\tAbsError: 3.06765e+11\n", + " Region: \"zone_1\"\tRelError: 1.66486e-05\tAbsError: 7.60779e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66267e-05\tAbsError: 1.06336e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18595e-08\tAbsError: 7.59715e-06\n", + " Region: \"zone_3\"\tRelError: 4.63286e-04\tAbsError: 3.06765e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.16909e-07\tAbsError: 1.52260e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.59699e-07\tAbsError: 1.54505e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.62288e-04\tAbsError: 1.07353e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18679e-08\tAbsError: 7.60017e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.15185e+01\tAbsError: 8.37847e+15\n", + " Region: \"zone_1\"\tRelError: 9.89198e+00\tAbsError: 4.09558e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.89198e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.56805e-09\tAbsError: 1.58847e-06\n", + " Region: \"zone_3\"\tRelError: 1.62652e+00\tAbsError: 8.37847e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69532e-01\tAbsError: 4.63620e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69461e-01\tAbsError: 3.74227e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.75319e-02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.56875e-09\tAbsError: 1.58872e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 4.91977e-05\tAbsError: 5.89586e+09\n", + " Region: \"zone_1\"\tRelError: 2.66095e-05\tAbsError: 1.68142e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.66047e-05\tAbsError: 3.56714e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.83123e-09\tAbsError: 1.67785e-06\n", + " Region: \"zone_3\"\tRelError: 2.25882e-05\tAbsError: 5.89586e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.48785e-07\tAbsError: 4.10020e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.43251e-07\tAbsError: 1.79565e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.16913e-05\tAbsError: 3.75397e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.83123e-09\tAbsError: 1.67785e-06\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.01824e-04\tAbsError: 5.91028e+10\n", + " Region: \"zone_1\"\tRelError: 3.53926e-06\tAbsError: 2.67115e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.53158e-06\tAbsError: 2.19844e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.67947e-09\tAbsError: 2.66896e-06\n", + " Region: \"zone_3\"\tRelError: 9.82849e-05\tAbsError: 5.91028e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.78782e-08\tAbsError: 2.93440e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.77169e-08\tAbsError: 2.97588e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 9.80917e-05\tAbsError: 2.22202e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.68243e-09\tAbsError: 2.67005e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:19\u001b[0m.\u001b[1;36m098\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.4\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Iteration: 3\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 6.47042e-01\tAbsError: 2.75951e+12\n", + " Region: \"zone_1\"\tRelError: 3.49194e-01\tAbsError: 1.42105e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.49185e-01\tAbsError: 1.08348e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.70970e-06\tAbsError: 3.37571e-03\n", + " Region: \"zone_3\"\tRelError: 2.97847e-01\tAbsError: 2.75951e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.21768e-01\tAbsError: 1.84052e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.86333e-02\tAbsError: 9.18991e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74362e-02\tAbsError: 1.08349e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.71049e-06\tAbsError: 3.37604e-03\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.90184e-04\tAbsError: 2.11388e+12\n", + " Region: \"zone_1\"\tRelError: 1.29224e-04\tAbsError: 1.96202e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28659e-04\tAbsError: 8.67060e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.64262e-07\tAbsError: 1.96115e-04\n", + " Region: \"zone_3\"\tRelError: 2.60960e-04\tAbsError: 2.11388e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.64631e-06\tAbsError: 1.05289e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.62600e-06\tAbsError: 1.06099e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.52124e-04\tAbsError: 8.74089e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.64306e-07\tAbsError: 1.96180e-04\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.94648e+00\tAbsError: 2.98429e+14\n", + " Region: \"zone_1\"\tRelError: 5.14524e-01\tAbsError: 9.09014e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.14351e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72976e-04\tAbsError: 6.01378e-02\n", + " Region: \"zone_3\"\tRelError: 1.43195e+00\tAbsError: 2.98429e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37879e-01\tAbsError: 1.45714e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32394e-01\tAbsError: 1.52716e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.15050e-02\tAbsError: 3.07641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72976e-04\tAbsError: 6.01378e-02\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 3.38300e-05\tAbsError: 2.01418e+10\n", + " Region: \"zone_1\"\tRelError: 1.17571e-06\tAbsError: 5.87640e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17402e-06\tAbsError: 7.44968e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.68869e-09\tAbsError: 5.86895e-07\n", + " Region: \"zone_3\"\tRelError: 3.26543e-05\tAbsError: 2.01418e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.37367e-08\tAbsError: 9.99956e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.02428e-08\tAbsError: 1.01422e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.25886e-05\tAbsError: 7.53080e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.68939e-09\tAbsError: 5.87154e-07\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 3.50846e-01\tAbsError: 2.76167e+12\n", + " Region: \"zone_1\"\tRelError: 2.75094e-01\tAbsError: 2.71980e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.75086e-01\tAbsError: 1.59945e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.82662e-06\tAbsError: 2.71820e-03\n", + " Region: \"zone_3\"\tRelError: 7.57513e-02\tAbsError: 2.76167e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.72956e-02\tAbsError: 1.69461e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.56368e-04\tAbsError: 1.06706e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.29152e-03\tAbsError: 1.67315e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.82662e-06\tAbsError: 2.71820e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.54222e-04\tAbsError: 1.61841e+12\n", + " Region: \"zone_1\"\tRelError: 8.49561e-05\tAbsError: 2.28110e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 8.48905e-05\tAbsError: 5.74698e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.56084e-08\tAbsError: 2.27536e-05\n", + " Region: \"zone_3\"\tRelError: 1.69266e-04\tAbsError: 1.61841e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.63777e-06\tAbsError: 8.05797e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.40478e-06\tAbsError: 8.12616e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66158e-04\tAbsError: 5.79789e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.56151e-08\tAbsError: 2.27557e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 8.62552e+00\tAbsError: 8.26510e+15\n", + " Region: \"zone_1\"\tRelError: 6.97719e+00\tAbsError: 4.09546e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.97719e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.33437e-10\tAbsError: 3.24924e-07\n", + " Region: \"zone_3\"\tRelError: 1.64833e+00\tAbsError: 8.26510e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69652e-01\tAbsError: 4.84454e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69632e-01\tAbsError: 3.42056e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09044e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.33825e-10\tAbsError: 3.25065e-07\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.04600e+00\tAbsError: 3.86292e+13\n", + " Region: \"zone_1\"\tRelError: 9.93313e-02\tAbsError: 3.04737e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.93181e-02\tAbsError: 2.58731e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32328e-05\tAbsError: 4.60065e-03\n", + " Region: \"zone_3\"\tRelError: 9.46666e-01\tAbsError: 3.86292e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39748e-01\tAbsError: 2.78671e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.98990e-01\tAbsError: 1.07621e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07914e-01\tAbsError: 2.56750e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32328e-05\tAbsError: 4.60065e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.89863e-05\tAbsError: 1.96107e+11\n", + " Region: \"zone_1\"\tRelError: 1.30703e-05\tAbsError: 1.19874e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.30359e-05\tAbsError: 6.55029e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.44566e-08\tAbsError: 1.19809e-05\n", + " Region: \"zone_3\"\tRelError: 2.59160e-05\tAbsError: 1.96107e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.50307e-07\tAbsError: 9.76926e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.96535e-07\tAbsError: 9.84147e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.53347e-05\tAbsError: 6.60584e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.44696e-08\tAbsError: 1.19854e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.21540e-02\tAbsError: 1.33312e+12\n", + " Region: \"zone_1\"\tRelError: 3.99726e-02\tAbsError: 1.24237e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.99723e-02\tAbsError: 1.87829e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.51481e-07\tAbsError: 1.22358e-04\n", + " Region: \"zone_3\"\tRelError: 2.18136e-03\tAbsError: 1.33312e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.72391e-04\tAbsError: 3.65392e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.72373e-04\tAbsError: 9.67731e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.83624e-03\tAbsError: 1.88227e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.51639e-07\tAbsError: 1.22416e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.56210e+00\tAbsError: 2.88655e+14\n", + " Region: \"zone_1\"\tRelError: 1.01850e-01\tAbsError: 8.11752e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01705e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.45044e-04\tAbsError: 5.04116e-02\n", + " Region: \"zone_3\"\tRelError: 1.46025e+00\tAbsError: 2.88655e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39145e-01\tAbsError: 2.10222e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.31918e-01\tAbsError: 7.84329e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.90395e-02\tAbsError: 3.07640e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.45044e-04\tAbsError: 5.04116e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.81932e-01\tAbsError: 3.51190e+12\n", + " Region: \"zone_1\"\tRelError: 1.43962e-02\tAbsError: 1.26244e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43862e-02\tAbsError: 9.16567e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.94829e-06\tAbsError: 3.45869e-03\n", + " Region: \"zone_3\"\tRelError: 2.67535e-01\tAbsError: 3.51190e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.10366e-01\tAbsError: 2.07282e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.20558e-02\tAbsError: 1.43908e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51034e-02\tAbsError: 9.16572e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.94829e-06\tAbsError: 3.45869e-03\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:22\u001b[0m.\u001b[1;36m730\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:22\u001b[0m.\u001b[1;36m762\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.15 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:22\u001b[0m.\u001b[1;36m807\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.06372e-02\tAbsError: 1.01202e+11\n", + " Region: \"zone_1\"\tRelError: 1.03031e-02\tAbsError: 7.97062e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03028e-02\tAbsError: 5.78857e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.29320e-07\tAbsError: 7.96483e-05\n", + " Region: \"zone_3\"\tRelError: 3.34143e-04\tAbsError: 1.01202e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.06734e-06\tAbsError: 7.37076e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.99097e-06\tAbsError: 2.74944e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.17855e-04\tAbsError: 6.08606e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.29419e-07\tAbsError: 7.96808e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.02466e+00\tAbsError: 6.04267e+13\n", + " Region: \"zone_1\"\tRelError: 7.18592e-02\tAbsError: 3.22577e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.18409e-02\tAbsError: 2.58878e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83272e-05\tAbsError: 6.36990e-03\n", + " Region: \"zone_3\"\tRelError: 9.52804e-01\tAbsError: 6.04267e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40508e-01\tAbsError: 3.80417e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.10167e-01\tAbsError: 2.23851e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02110e-01\tAbsError: 2.58991e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83272e-05\tAbsError: 6.36990e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.22422e-02\tAbsError: 3.50280e+12\n", + " Region: \"zone_1\"\tRelError: 6.27969e-03\tAbsError: 2.19297e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.27342e-03\tAbsError: 1.50745e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.27087e-06\tAbsError: 2.17790e-03\n", + " Region: \"zone_3\"\tRelError: 6.59626e-02\tAbsError: 3.50280e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.67825e-02\tAbsError: 2.11769e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.14375e-04\tAbsError: 1.38511e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.55939e-03\tAbsError: 1.55695e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.27087e-06\tAbsError: 2.17790e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.93466e+03\tAbsError: 4.31846e+18\n", + " Region: \"zone_1\"\tRelError: 4.28785e+01\tAbsError: 8.96716e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.28785e+01\tAbsError: 8.96714e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.33797e-10\tAbsError: 1.85521e-07\n", + " Region: \"zone_3\"\tRelError: 1.89179e+03\tAbsError: 4.31846e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.97606e+01\tAbsError: 2.12744e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.67832e+03\tAbsError: 2.19102e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 1.23706e+02\tAbsError: 8.96718e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.34021e-10\tAbsError: 1.85602e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:24\u001b[0m.\u001b[1;36m306\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:24\u001b[0m.\u001b[1;36m340\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.2 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:24\u001b[0m.\u001b[1;36m374\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.48710e-03\tAbsError: 7.36590e+10\n", + " Region: \"zone_1\"\tRelError: 5.30545e-03\tAbsError: 3.35547e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.30544e-03\tAbsError: 6.29646e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.45758e-09\tAbsError: 3.29250e-06\n", + " Region: \"zone_3\"\tRelError: 1.81652e-04\tAbsError: 7.36590e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.81848e-06\tAbsError: 3.00987e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.76295e-06\tAbsError: 4.35602e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.68061e-04\tAbsError: 6.32627e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.46257e-09\tAbsError: 3.29432e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.07050e-01\tAbsError: 1.83634e+13\n", + " Region: \"zone_1\"\tRelError: 2.24108e-02\tAbsError: 1.12606e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.24048e-02\tAbsError: 9.16557e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.02744e-06\tAbsError: 2.09499e-03\n", + " Region: \"zone_3\"\tRelError: 2.84640e-01\tAbsError: 1.83634e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.09245e-01\tAbsError: 8.86934e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.28005e-02\tAbsError: 9.49405e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.25878e-02\tAbsError: 9.16561e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.02994e-06\tAbsError: 2.09586e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.61558e-03\tAbsError: 1.05156e+12\n", + " Region: \"zone_1\"\tRelError: 2.24360e-04\tAbsError: 1.45747e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.23945e-04\tAbsError: 1.49317e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14382e-07\tAbsError: 1.44254e-04\n", + " Region: \"zone_3\"\tRelError: 1.39122e-03\tAbsError: 1.05156e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46581e-04\tAbsError: 2.71207e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.31751e-04\tAbsError: 7.80355e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11247e-03\tAbsError: 1.49728e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14543e-07\tAbsError: 1.44312e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.50213e+03\tAbsError: 3.74135e+18\n", + " Region: \"zone_1\"\tRelError: 7.43071e+02\tAbsError: 1.38094e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 7.43067e+02\tAbsError: 8.66949e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.73736e-03\tAbsError: 1.29425e+00\n", + " Region: \"zone_3\"\tRelError: 7.59056e+02\tAbsError: 3.74135e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.17794e+01\tAbsError: 1.84767e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.22112e+02\tAbsError: 1.89368e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 5.05161e+02\tAbsError: 8.66950e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.73959e-03\tAbsError: 1.29503e+00\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.17355e+03\tAbsError: 6.59676e+18\n", + " Region: \"zone_1\"\tRelError: 6.64406e+01\tAbsError: 9.11956e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.64406e+01\tAbsError: 9.11936e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.73494e-09\tAbsError: 1.99410e-06\n", + " Region: \"zone_3\"\tRelError: 3.10711e+03\tAbsError: 6.59676e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.29981e+03\tAbsError: 2.72828e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.70071e+02\tAbsError: 3.86847e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 2.37228e+02\tAbsError: 9.11941e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.73711e-09\tAbsError: 1.99490e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.40237e-04\tAbsError: 2.33681e+09\n", + " Region: \"zone_1\"\tRelError: 1.34744e-04\tAbsError: 4.22136e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.34732e-04\tAbsError: 1.29205e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.21388e-08\tAbsError: 4.22007e-06\n", + " Region: \"zone_3\"\tRelError: 5.49356e-06\tAbsError: 2.33681e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.26121e-07\tAbsError: 2.08101e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.01255e-07\tAbsError: 2.55800e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 5.05404e-06\tAbsError: 1.34731e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.21398e-08\tAbsError: 4.22050e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.39650e-02\tAbsError: 2.30731e+12\n", + " Region: \"zone_1\"\tRelError: 9.33244e-04\tAbsError: 2.05118e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 9.27371e-04\tAbsError: 1.17101e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.87337e-06\tAbsError: 2.03947e-03\n", + " Region: \"zone_3\"\tRelError: 6.30318e-02\tAbsError: 2.30731e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.63237e-02\tAbsError: 1.57438e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.61914e-04\tAbsError: 7.32926e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 6.34034e-03\tAbsError: 1.22701e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.87337e-06\tAbsError: 2.03947e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.04499e-04\tAbsError: 1.25308e+11\n", + " Region: \"zone_1\"\tRelError: 1.66230e-04\tAbsError: 5.88382e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66060e-04\tAbsError: 7.31658e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69192e-07\tAbsError: 5.87650e-05\n", + " Region: \"zone_3\"\tRelError: 4.38270e-04\tAbsError: 1.25308e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07352e-05\tAbsError: 8.57588e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.06397e-05\tAbsError: 3.95488e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.16726e-04\tAbsError: 7.69575e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69192e-07\tAbsError: 5.87650e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 8.70313e+02\tAbsError: 6.98288e+17\n", + " Region: \"zone_1\"\tRelError: 7.13997e+00\tAbsError: 4.22170e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 7.12815e+00\tAbsError: 8.34500e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18194e-02\tAbsError: 4.13825e+00\n", + " Region: \"zone_3\"\tRelError: 8.63173e+02\tAbsError: 6.98288e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.32959e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.43790e+02\tAbsError: 3.65329e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03717e+01\tAbsError: 8.34501e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18393e-02\tAbsError: 4.14504e+00\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.01380e+03\tAbsError: 5.64204e+18\n", + " Region: \"zone_1\"\tRelError: 6.11831e+02\tAbsError: 2.66745e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 6.11823e+02\tAbsError: 8.83465e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.46831e-03\tAbsError: 2.57910e+00\n", + " Region: \"zone_3\"\tRelError: 2.40196e+03\tAbsError: 5.64204e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.12311e+01\tAbsError: 2.38950e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.15827e+03\tAbsError: 3.25254e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 2.12453e+02\tAbsError: 8.83466e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.47165e-03\tAbsError: 2.58021e+00\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.18681e-04\tAbsError: 4.27046e+09\n", + " Region: \"zone_1\"\tRelError: 4.05794e-04\tAbsError: 1.53696e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 4.05793e-04\tAbsError: 3.17325e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.32608e-10\tAbsError: 1.50523e-07\n", + " Region: \"zone_3\"\tRelError: 1.28868e-05\tAbsError: 4.27046e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.78504e-07\tAbsError: 2.11621e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.75078e-07\tAbsError: 2.15425e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21327e-05\tAbsError: 3.18974e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.32784e-10\tAbsError: 1.50583e-07\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.79721e-03\tAbsError: 9.76589e+11\n", + " Region: \"zone_1\"\tRelError: 1.82738e-04\tAbsError: 8.39323e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82502e-04\tAbsError: 1.48235e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36874e-07\tAbsError: 8.24499e-05\n", + " Region: \"zone_3\"\tRelError: 1.61447e-03\tAbsError: 9.76589e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10820e-04\tAbsError: 2.51654e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.02342e-04\tAbsError: 7.24935e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40107e-03\tAbsError: 1.48793e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36983e-07\tAbsError: 8.24891e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.49542e-04\tAbsError: 5.25665e+10\n", + " Region: \"zone_1\"\tRelError: 3.67448e-05\tAbsError: 6.09103e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.67274e-05\tAbsError: 4.65424e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73630e-08\tAbsError: 6.04449e-06\n", + " Region: \"zone_3\"\tRelError: 1.12797e-04\tAbsError: 5.25665e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.87855e-06\tAbsError: 1.95403e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.83786e-06\tAbsError: 3.30263e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03063e-04\tAbsError: 4.67703e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73708e-08\tAbsError: 6.04733e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 9.68427e+01\tAbsError: 1.86271e+17\n", + " Region: \"zone_1\"\tRelError: 3.19685e+01\tAbsError: 7.04871e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.19667e+01\tAbsError: 7.98884e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.79029e-03\tAbsError: 6.24983e-01\n", + " Region: \"zone_3\"\tRelError: 6.48742e+01\tAbsError: 1.86271e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.17407e+01\tAbsError: 1.20464e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.64556e+00\tAbsError: 6.58076e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14861e+01\tAbsError: 7.98885e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.79151e-03\tAbsError: 6.25414e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 8.53782e+01\tAbsError: 6.84374e+17\n", + " Region: \"zone_1\"\tRelError: 8.96834e+00\tAbsError: 2.10334e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 8.96253e+00\tAbsError: 8.52529e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.81623e-03\tAbsError: 2.01809e+00\n", + " Region: \"zone_3\"\tRelError: 7.64098e+01\tAbsError: 6.84374e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.05667e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.42655e+01\tAbsError: 3.78707e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 3.31385e+01\tAbsError: 8.52530e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.81888e-03\tAbsError: 2.01893e+00\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.52688e-05\tAbsError: 1.17670e+08\n", + " Region: \"zone_1\"\tRelError: 2.46158e-05\tAbsError: 2.70500e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.46150e-05\tAbsError: 1.36432e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.77640e-10\tAbsError: 2.70364e-07\n", + " Region: \"zone_3\"\tRelError: 6.53080e-07\tAbsError: 1.17670e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28285e-08\tAbsError: 3.19578e+07\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.29513e-08\tAbsError: 8.57119e+07\n", + " Equation: \"PotentialEquation\"\tRelError: 6.26522e-07\tAbsError: 1.37295e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.77947e-10\tAbsError: 2.70471e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:29\u001b[0m.\u001b[1;36m061\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:29\u001b[0m.\u001b[1;36m061\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.3111111111111111\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.68582e-04\tAbsError: 6.39514e+10\n", + " Region: \"zone_1\"\tRelError: 3.10151e-05\tAbsError: 5.94800e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.08440e-05\tAbsError: 4.08298e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71164e-07\tAbsError: 5.94392e-05\n", + " Region: \"zone_3\"\tRelError: 2.37567e-04\tAbsError: 6.39514e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16150e-06\tAbsError: 5.01904e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.80228e-06\tAbsError: 1.37610e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29432e-04\tAbsError: 4.25523e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71229e-07\tAbsError: 5.94601e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.34624e-05\tAbsError: 4.93091e+09\n", + " Region: \"zone_1\"\tRelError: 6.39676e-06\tAbsError: 2.70524e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.38897e-06\tAbsError: 2.92934e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.78060e-09\tAbsError: 2.70231e-06\n", + " Region: \"zone_3\"\tRelError: 1.70656e-05\tAbsError: 4.93091e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.08419e-07\tAbsError: 3.64067e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.02781e-07\tAbsError: 1.29024e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.62466e-05\tAbsError: 3.07636e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.78100e-09\tAbsError: 2.70248e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:29\u001b[0m.\u001b[1;36m854\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:29\u001b[0m.\u001b[1;36m854\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.24667e+02\tAbsError: 9.36869e+16\n", + " Region: \"zone_1\"\tRelError: 3.44931e+01\tAbsError: 1.92933e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 3.44878e+01\tAbsError: 7.59482e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.32955e-03\tAbsError: 1.85338e+00\n", + " Region: \"zone_3\"\tRelError: 9.01736e+01\tAbsError: 9.36869e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 5.68542e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.07385e+01\tAbsError: 3.68327e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 4.29792e-01\tAbsError: 7.59483e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.33491e-03\tAbsError: 1.85518e+00\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Iteration: 3\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 3.86267e+01\tAbsError: 4.06209e+17\n", + " Region: \"zone_1\"\tRelError: 2.78038e+01\tAbsError: 4.45349e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78027e+01\tAbsError: 8.18705e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.04531e-03\tAbsError: 3.63478e-01\n", + " Region: \"zone_3\"\tRelError: 1.08229e+01\tAbsError: 4.06209e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.41059e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.98604e-01\tAbsError: 1.65150e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 8.23283e-01\tAbsError: 8.18706e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.04717e-03\tAbsError: 3.64135e-01\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.61549e-04\tAbsError: 5.47840e+10\n", + " Region: \"zone_1\"\tRelError: 1.81900e-05\tAbsError: 1.93945e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.81846e-05\tAbsError: 4.89694e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.43105e-09\tAbsError: 1.89048e-06\n", + " Region: \"zone_3\"\tRelError: 1.43359e-04\tAbsError: 5.47840e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.04114e-06\tAbsError: 2.20323e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.00674e-06\tAbsError: 3.27517e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35306e-04\tAbsError: 4.90033e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.43421e-09\tAbsError: 1.89162e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 8.12632e+01\tAbsError: 8.74680e+15\n", + " Region: \"zone_1\"\tRelError: 7.96020e+01\tAbsError: 4.20726e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.96020e+01\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.00346e-11\tAbsError: 2.43477e-08\n", + " Region: \"zone_3\"\tRelError: 1.66123e+00\tAbsError: 8.74680e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.79075e-01\tAbsError: 4.99947e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.79057e-01\tAbsError: 3.74732e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03096e-01\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.00563e-11\tAbsError: 2.43563e-08\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.28223e+02\tAbsError: 1.62795e+16\n", + " Region: \"zone_1\"\tRelError: 8.61338e-01\tAbsError: 1.70935e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 8.61052e-01\tAbsError: 7.15491e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.85874e-04\tAbsError: 9.93859e-02\n", + " Region: \"zone_3\"\tRelError: 4.27361e+02\tAbsError: 1.62795e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.54493e+01\tAbsError: 8.35436e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.99426e+02\tAbsError: 7.92518e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.48589e+00\tAbsError: 7.15491e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.88789e-04\tAbsError: 1.00396e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.06257e+02\tAbsError: 1.29604e+17\n", + " Region: \"zone_1\"\tRelError: 8.27554e+00\tAbsError: 8.69496e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 8.27327e+00\tAbsError: 7.81451e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.27537e-03\tAbsError: 7.91351e-01\n", + " Region: \"zone_3\"\tRelError: 9.79817e+01\tAbsError: 1.29604e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 6.52819e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.97255e+01\tAbsError: 6.43224e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 9.25384e+00\tAbsError: 7.81452e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.29060e-03\tAbsError: 7.96682e-01\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 9.54016e+00\tAbsError: 8.28773e+15\n", + " Region: \"zone_1\"\tRelError: 7.90066e+00\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.90066e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.70872e-10\tAbsError: 1.98738e-07\n", + " Region: \"zone_3\"\tRelError: 1.63951e+00\tAbsError: 8.28773e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69626e-01\tAbsError: 4.72857e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69607e-01\tAbsError: 3.55916e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00272e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.71136e-10\tAbsError: 1.98834e-07\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.55715e-06\tAbsError: 1.55371e+09\n", + " Region: \"zone_1\"\tRelError: 2.75443e-07\tAbsError: 3.15707e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.66361e-07\tAbsError: 7.16801e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.08162e-09\tAbsError: 3.15635e-06\n", + " Region: \"zone_3\"\tRelError: 2.28171e-06\tAbsError: 1.55371e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01860e-07\tAbsError: 1.23171e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.92720e-08\tAbsError: 3.21996e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 2.10150e-06\tAbsError: 7.37244e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.08225e-09\tAbsError: 3.15662e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.52304e+00\tAbsError: 3.22018e+14\n", + " Region: \"zone_1\"\tRelError: 1.04116e+00\tAbsError: 9.13945e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04099e+00\tAbsError: 3.20823e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70632e-04\tAbsError: 5.93121e-02\n", + " Region: \"zone_3\"\tRelError: 1.48187e+00\tAbsError: 3.22018e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.55212e-01\tAbsError: 1.88246e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.49817e-01\tAbsError: 1.33772e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.66716e-02\tAbsError: 3.20828e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70632e-04\tAbsError: 5.93121e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:32\u001b[0m.\u001b[1;36m265\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.5\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.86745e+03\tAbsError: 2.87021e+15\n", + " Region: \"zone_1\"\tRelError: 3.03999e-01\tAbsError: 2.78978e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.03388e-01\tAbsError: 6.65853e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.11336e-04\tAbsError: 2.12392e-01\n", + " Region: \"zone_3\"\tRelError: 1.86715e+03\tAbsError: 2.87021e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.52631e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.85800e+03\tAbsError: 1.34390e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.48187e-01\tAbsError: 6.65854e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.11343e-04\tAbsError: 2.12399e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.25853e+03\tAbsError: 3.72486e+16\n", + " Region: \"zone_1\"\tRelError: 3.40834e+01\tAbsError: 2.39711e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.40829e+01\tAbsError: 7.40072e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.76619e-04\tAbsError: 1.65703e-01\n", + " Region: \"zone_3\"\tRelError: 1.22445e+03\tAbsError: 3.72486e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.78015e+01\tAbsError: 2.61006e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.17550e+03\tAbsError: 1.11480e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15080e+00\tAbsError: 7.40073e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.80200e-04\tAbsError: 1.66948e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.57084e+00\tAbsError: 2.89575e+14\n", + " Region: \"zone_1\"\tRelError: 1.26543e-01\tAbsError: 8.72430e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.26381e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62480e-04\tAbsError: 5.64794e-02\n", + " Region: \"zone_3\"\tRelError: 1.44430e+00\tAbsError: 2.89575e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37983e-01\tAbsError: 1.66847e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32917e-01\tAbsError: 1.22728e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.32359e-02\tAbsError: 3.07641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62480e-04\tAbsError: 5.64794e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.74375e+00\tAbsError: 3.50039e+13\n", + " Region: \"zone_1\"\tRelError: 1.72509e+00\tAbsError: 3.20212e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72508e+00\tAbsError: 2.58927e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.76304e-05\tAbsError: 6.12847e-03\n", + " Region: \"zone_3\"\tRelError: 1.01866e+00\tAbsError: 3.50039e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.66614e-01\tAbsError: 2.50578e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.37869e-01\tAbsError: 9.94603e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14160e-01\tAbsError: 2.58952e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.76304e-05\tAbsError: 6.12847e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.44671e+02\tAbsError: 8.23352e+15\n", + " Region: \"zone_1\"\tRelError: 5.43003e+02\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.43003e+02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.11266e-10\tAbsError: 1.43080e-07\n", + " Region: \"zone_3\"\tRelError: 1.66763e+00\tAbsError: 8.23352e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.84587e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69628e-01\tAbsError: 3.38765e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28340e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.11422e-10\tAbsError: 1.43134e-07\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.36319e+03\tAbsError: 1.41269e+15\n", + " Region: \"zone_1\"\tRelError: 1.28924e-01\tAbsError: 8.79199e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28846e-01\tAbsError: 6.09159e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.78481e-05\tAbsError: 2.70040e-02\n", + " Region: \"zone_3\"\tRelError: 5.36306e+03\tAbsError: 1.41269e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.92653e+01\tAbsError: 8.02764e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.34320e+03\tAbsError: 6.09927e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.90596e-01\tAbsError: 6.09160e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.79397e-05\tAbsError: 2.70349e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.81425e+03\tAbsError: 1.18091e+16\n", + " Region: \"zone_1\"\tRelError: 1.10058e+00\tAbsError: 3.95698e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09964e+00\tAbsError: 6.93658e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.39571e-04\tAbsError: 3.26332e-01\n", + " Region: \"zone_3\"\tRelError: 4.81315e+03\tAbsError: 1.18091e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01697e+03\tAbsError: 7.05124e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.79600e+03\tAbsError: 4.75788e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.79744e-01\tAbsError: 6.93660e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.39571e-04\tAbsError: 3.26332e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.08933e+00\tAbsError: 3.08258e+13\n", + " Region: \"zone_1\"\tRelError: 1.39766e-01\tAbsError: 3.14532e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39750e-01\tAbsError: 2.58726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60540e-05\tAbsError: 5.58058e-03\n", + " Region: \"zone_3\"\tRelError: 9.49568e-01\tAbsError: 3.08258e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40223e-01\tAbsError: 2.27975e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.01508e-01\tAbsError: 8.02831e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07820e-01\tAbsError: 2.58966e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60540e-05\tAbsError: 5.58058e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 6.75308e-01\tAbsError: 5.34944e+12\n", + " Region: \"zone_1\"\tRelError: 3.72814e-01\tAbsError: 1.35368e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.72806e-01\tAbsError: 1.08347e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.77327e-06\tAbsError: 2.70212e-03\n", + " Region: \"zone_3\"\tRelError: 3.02494e-01\tAbsError: 5.34944e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.21510e-01\tAbsError: 2.69650e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.93876e-02\tAbsError: 2.65294e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.15883e-02\tAbsError: 1.08348e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.77635e-06\tAbsError: 2.70319e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 4.93663e+00\tAbsError: 6.37428e+14\n", + " Region: \"zone_1\"\tRelError: 3.46019e+00\tAbsError: 7.21476e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.46007e+00\tAbsError: 3.07635e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", + " Region: \"zone_3\"\tRelError: 1.47644e+00\tAbsError: 6.37428e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.40577e-01\tAbsError: 3.72575e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.27797e-01\tAbsError: 2.64853e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07947e-01\tAbsError: 3.07638e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 5.84846e+03\tAbsError: 3.44554e+14\n", + " Region: \"zone_1\"\tRelError: 8.59110e-02\tAbsError: 9.29740e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.57997e-02\tAbsError: 5.43522e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11333e-04\tAbsError: 3.86218e-02\n", + " Region: \"zone_3\"\tRelError: 5.84837e+03\tAbsError: 3.44554e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.83124e+01\tAbsError: 2.76436e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.77997e+03\tAbsError: 3.16910e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.03843e-02\tAbsError: 5.43523e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11353e-04\tAbsError: 3.86287e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.67664e+03\tAbsError: 3.86757e+15\n", + " Region: \"zone_1\"\tRelError: 2.88309e-01\tAbsError: 8.78439e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88240e-01\tAbsError: 6.41007e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.84844e-05\tAbsError: 2.37431e-02\n", + " Region: \"zone_3\"\tRelError: 3.67636e+03\tAbsError: 3.86757e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.51609e+03\tAbsError: 1.51784e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.15956e+03\tAbsError: 2.34973e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.09194e-01\tAbsError: 6.41009e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.84844e-05\tAbsError: 2.37431e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.94758e-01\tAbsError: 4.98642e+12\n", + " Region: \"zone_1\"\tRelError: 2.19383e-02\tAbsError: 1.22221e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.19295e-02\tAbsError: 9.16564e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.79291e-06\tAbsError: 3.05651e-03\n", + " Region: \"zone_3\"\tRelError: 2.72820e-01\tAbsError: 4.98642e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12699e-01\tAbsError: 2.77867e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.23181e-02\tAbsError: 2.20775e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77940e-02\tAbsError: 9.16568e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.79389e-06\tAbsError: 3.05683e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.07127e-01\tAbsError: 2.27621e+12\n", + " Region: \"zone_1\"\tRelError: 1.32025e-01\tAbsError: 2.29999e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.32018e-01\tAbsError: 2.64450e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.61552e-06\tAbsError: 2.29735e-03\n", + " Region: \"zone_3\"\tRelError: 7.51022e-02\tAbsError: 2.27621e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.73929e-02\tAbsError: 1.51862e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.96700e-04\tAbsError: 7.57587e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 7.50600e-03\tAbsError: 2.76514e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.61552e-06\tAbsError: 2.29735e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.95431e+00\tAbsError: 2.96317e+14\n", + " Region: \"zone_1\"\tRelError: 2.00902e+00\tAbsError: 3.34445e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.00900e+00\tAbsError: 2.58782e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", + " Region: \"zone_3\"\tRelError: 9.45295e-01\tAbsError: 2.96317e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42034e-01\tAbsError: 1.59420e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.10683e-01\tAbsError: 1.36896e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.25558e-02\tAbsError: 2.58843e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 3.07717e+02\tAbsError: 3.41972e+14\n", + " Region: \"zone_1\"\tRelError: 6.25182e-02\tAbsError: 9.04306e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.23920e-02\tAbsError: 4.66459e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26199e-04\tAbsError: 4.37847e-02\n", + " Region: \"zone_3\"\tRelError: 3.07654e+02\tAbsError: 3.41972e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.13248e+01\tAbsError: 9.78065e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.26263e+02\tAbsError: 3.32191e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.61212e-02\tAbsError: 4.66461e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26284e-04\tAbsError: 4.38139e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.45779e+02\tAbsError: 4.88724e+14\n", + " Region: \"zone_1\"\tRelError: 1.11637e-01\tAbsError: 1.12494e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11480e-01\tAbsError: 5.80508e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.57017e-04\tAbsError: 5.44434e-02\n", + " Region: \"zone_3\"\tRelError: 3.45668e+02\tAbsError: 4.88724e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.41490e+02\tAbsError: 7.86476e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.04063e+02\tAbsError: 4.10076e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14659e-01\tAbsError: 5.80510e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.57017e-04\tAbsError: 5.44434e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.73338e-02\tAbsError: 3.09182e+12\n", + " Region: \"zone_1\"\tRelError: 1.11598e-02\tAbsError: 1.65988e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11551e-02\tAbsError: 1.42279e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73882e-06\tAbsError: 1.64565e-03\n", + " Region: \"zone_3\"\tRelError: 6.61739e-02\tAbsError: 3.09182e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.71921e-02\tAbsError: 1.98622e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.49402e-04\tAbsError: 1.10560e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.42774e-03\tAbsError: 1.50865e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73882e-06\tAbsError: 1.64565e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.83620e-02\tAbsError: 1.13870e+12\n", + " Region: \"zone_1\"\tRelError: 2.64653e-02\tAbsError: 1.04782e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.64650e-02\tAbsError: 1.67776e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.96193e-07\tAbsError: 1.03104e-04\n", + " Region: \"zone_3\"\tRelError: 1.89667e-03\tAbsError: 1.13870e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.35343e-04\tAbsError: 3.09668e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.32169e-04\tAbsError: 8.29034e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.62887e-03\tAbsError: 1.68368e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.96330e-07\tAbsError: 1.03153e-04\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.90232e-01\tAbsError: 1.27257e+14\n", + " Region: \"zone_1\"\tRelError: 2.88169e-01\tAbsError: 1.34324e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88157e-01\tAbsError: 9.16559e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22923e-05\tAbsError: 4.26682e-03\n", + " Region: \"zone_3\"\tRelError: 3.02062e-01\tAbsError: 1.27257e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98145e-01\tAbsError: 5.59682e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.53461e-02\tAbsError: 7.12890e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.85587e-02\tAbsError: 9.16563e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22942e-05\tAbsError: 4.26755e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.39393e+02\tAbsError: 3.64933e+14\n", + " Region: \"zone_1\"\tRelError: 4.82703e-02\tAbsError: 9.42476e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.81068e-02\tAbsError: 3.75039e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.63524e-04\tAbsError: 5.67437e-02\n", + " Region: \"zone_3\"\tRelError: 3.39345e+02\tAbsError: 3.64933e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.35286e+02\tAbsError: 1.87521e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.00945e+00\tAbsError: 3.46181e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.85698e-02\tAbsError: 3.75040e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.63606e-04\tAbsError: 5.67717e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.63763e+03\tAbsError: 7.31087e+14\n", + " Region: \"zone_1\"\tRelError: 8.64629e-02\tAbsError: 1.00303e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 8.63208e-02\tAbsError: 5.10011e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42170e-04\tAbsError: 4.93021e-02\n", + " Region: \"zone_3\"\tRelError: 1.63754e+03\tAbsError: 7.31087e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52841e+03\tAbsError: 1.45596e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.09042e+02\tAbsError: 5.85492e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.90210e-02\tAbsError: 5.10013e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42351e-04\tAbsError: 4.93655e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.35940e-03\tAbsError: 7.91644e+11\n", + " Region: \"zone_1\"\tRelError: 6.17001e-04\tAbsError: 1.42075e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.16596e-04\tAbsError: 1.18665e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.04748e-07\tAbsError: 1.40888e-04\n", + " Region: \"zone_3\"\tRelError: 7.42401e-04\tAbsError: 7.91644e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.00211e-04\tAbsError: 1.88344e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.60094e-05\tAbsError: 6.03301e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.55776e-04\tAbsError: 1.18974e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.04912e-07\tAbsError: 1.40947e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.97427e-03\tAbsError: 8.34481e+10\n", + " Region: \"zone_1\"\tRelError: 4.68156e-03\tAbsError: 6.81964e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.68136e-03\tAbsError: 4.94587e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.96225e-07\tAbsError: 6.81469e-05\n", + " Region: \"zone_3\"\tRelError: 2.92716e-04\tAbsError: 8.34481e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.82298e-06\tAbsError: 6.22948e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.70009e-06\tAbsError: 2.11533e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.80996e-04\tAbsError: 5.18395e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.96320e-07\tAbsError: 6.81781e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.38373e+00\tAbsError: 3.54714e+14\n", + " Region: \"zone_1\"\tRelError: 3.50043e-02\tAbsError: 1.00946e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.47904e-02\tAbsError: 2.67289e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.13833e-04\tAbsError: 7.42170e-02\n", + " Region: \"zone_3\"\tRelError: 1.34873e+00\tAbsError: 3.54714e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.91995e-01\tAbsError: 2.17117e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.20831e-01\tAbsError: 3.33002e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.56862e-02\tAbsError: 2.67290e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.13916e-04\tAbsError: 7.42453e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.81369e-01\tAbsError: 1.65118e+13\n", + " Region: \"zone_1\"\tRelError: 1.13683e-01\tAbsError: 2.48930e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13676e-01\tAbsError: 7.97182e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", + " Region: \"zone_3\"\tRelError: 6.76863e-02\tAbsError: 1.65118e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.50220e-02\tAbsError: 9.05581e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.84537e-03\tAbsError: 7.45604e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 9.81196e-03\tAbsError: 8.36703e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 5.75527e+03\tAbsError: 5.86973e+14\n", + " Region: \"zone_1\"\tRelError: 6.49389e-02\tAbsError: 1.06630e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 6.47545e-02\tAbsError: 4.26777e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84381e-04\tAbsError: 6.39523e-02\n", + " Region: \"zone_3\"\tRelError: 5.75521e+03\tAbsError: 5.86973e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.71637e+01\tAbsError: 2.47136e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.72798e+03\tAbsError: 5.62259e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.66210e-02\tAbsError: 4.26779e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84600e-04\tAbsError: 6.40289e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.02141e-03\tAbsError: 1.23957e+11\n", + " Region: \"zone_1\"\tRelError: 5.52143e-04\tAbsError: 4.11028e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.52024e-04\tAbsError: 7.43261e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18138e-07\tAbsError: 4.10285e-05\n", + " Region: \"zone_3\"\tRelError: 4.69263e-04\tAbsError: 1.23957e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.58109e-06\tAbsError: 8.33431e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.49437e-06\tAbsError: 4.06142e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.50070e-04\tAbsError: 7.83274e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18138e-07\tAbsError: 4.10285e-05\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 4.33255e+03\tAbsError: 2.74718e+14\n", + " Region: \"zone_1\"\tRelError: 2.38298e-02\tAbsError: 1.14096e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.35589e-02\tAbsError: 2.00642e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.70849e-04\tAbsError: 9.40316e-02\n", + " Region: \"zone_3\"\tRelError: 4.33253e+03\tAbsError: 2.74718e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.33248e+03\tAbsError: 1.69273e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.25127e-02\tAbsError: 2.57791e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.29273e-02\tAbsError: 2.00645e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.70968e-04\tAbsError: 9.40723e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.67864e-03\tAbsError: 6.31615e+10\n", + " Region: \"zone_1\"\tRelError: 2.51673e-03\tAbsError: 2.73456e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.51673e-03\tAbsError: 5.64919e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.69330e-09\tAbsError: 2.67806e-06\n", + " Region: \"zone_3\"\tRelError: 1.61905e-04\tAbsError: 6.31615e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.20270e-06\tAbsError: 2.57065e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.15754e-06\tAbsError: 3.74550e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51537e-04\tAbsError: 5.65377e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.69772e-09\tAbsError: 2.67968e-06\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 5.40516e+00\tAbsError: 6.10838e+14\n", + " Region: \"zone_1\"\tRelError: 4.60821e-02\tAbsError: 1.19505e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.58322e-02\tAbsError: 3.27970e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.49925e-04\tAbsError: 8.67077e-02\n", + " Region: \"zone_3\"\tRelError: 5.35908e+00\tAbsError: 6.10838e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.31178e+00\tAbsError: 4.37441e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.99602e-01\tAbsError: 5.67094e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.74406e-02\tAbsError: 3.27973e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.50164e-04\tAbsError: 8.67915e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 7.11615e-03\tAbsError: 1.08851e+12\n", + " Region: \"zone_1\"\tRelError: 5.30759e-03\tAbsError: 1.67972e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.30711e-03\tAbsError: 1.45981e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", + " Region: \"zone_3\"\tRelError: 1.80856e-03\tAbsError: 1.08851e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43945e-04\tAbsError: 2.92186e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.94756e-05\tAbsError: 7.96320e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.56466e-03\tAbsError: 1.47422e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.30911e-04\tAbsError: 3.51442e+10\n", + " Region: \"zone_1\"\tRelError: 6.81885e-05\tAbsError: 6.92614e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.81687e-05\tAbsError: 3.42472e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.97989e-08\tAbsError: 6.89189e-06\n", + " Region: \"zone_3\"\tRelError: 6.27220e-05\tAbsError: 3.51442e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91737e-06\tAbsError: 1.11617e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.89123e-06\tAbsError: 2.39825e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.68936e-05\tAbsError: 3.42673e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.98072e-08\tAbsError: 6.89488e-06\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 1.03113e+00\tAbsError: 2.11035e+14\n", + " Region: \"zone_1\"\tRelError: 4.04265e-03\tAbsError: 1.72589e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.54660e-03\tAbsError: 2.89536e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.96045e-04\tAbsError: 1.72299e-01\n", + " Region: \"zone_3\"\tRelError: 1.02709e+00\tAbsError: 2.11035e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99308e-01\tAbsError: 2.04510e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.65242e-02\tAbsError: 1.90584e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07609e-02\tAbsError: 2.94824e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.96237e-04\tAbsError: 1.72365e-01\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 4.64188e+00\tAbsError: 5.33011e+14\n", + " Region: \"zone_1\"\tRelError: 3.16465e-02\tAbsError: 1.40911e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.13151e-02\tAbsError: 2.58757e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.31467e-04\tAbsError: 1.15036e-01\n", + " Region: \"zone_3\"\tRelError: 4.61023e+00\tAbsError: 5.33011e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.05862e+00\tAbsError: 2.76173e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.10894e-01\tAbsError: 5.05394e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.03797e-02\tAbsError: 2.47844e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.31761e-04\tAbsError: 1.15139e-01\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.97090e-05\tAbsError: 1.87629e+09\n", + " Region: \"zone_1\"\tRelError: 6.53617e-05\tAbsError: 3.62362e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.53512e-05\tAbsError: 1.06367e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.04217e-08\tAbsError: 3.62255e-06\n", + " Region: \"zone_3\"\tRelError: 4.34737e-06\tAbsError: 1.87629e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.54714e-07\tAbsError: 1.70496e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.24511e-07\tAbsError: 1.71327e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 4.05772e-06\tAbsError: 1.10499e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.04226e-08\tAbsError: 3.62292e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:42\u001b[0m.\u001b[1;36m078\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:42\u001b[0m.\u001b[1;36m078\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.41666666666666674\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.59900e-03\tAbsError: 1.40711e+11\n", + " Region: \"zone_1\"\tRelError: 2.06948e-03\tAbsError: 6.41578e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06929e-03\tAbsError: 9.09489e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84503e-07\tAbsError: 6.40668e-05\n", + " Region: \"zone_3\"\tRelError: 5.29527e-04\tAbsError: 1.40711e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.39801e-06\tAbsError: 9.47438e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.30618e-06\tAbsError: 4.59674e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.12638e-04\tAbsError: 9.48359e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84568e-07\tAbsError: 6.40878e-05\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 2.12961e-01\tAbsError: 8.84450e+13\n", + " Region: \"zone_1\"\tRelError: 2.03827e-02\tAbsError: 1.35383e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03791e-02\tAbsError: 1.10127e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.57224e-06\tAbsError: 1.24370e-03\n", + " Region: \"zone_3\"\tRelError: 1.92578e-01\tAbsError: 8.84450e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.20762e-02\tAbsError: 2.90584e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.23302e-02\tAbsError: 5.93866e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.68168e-01\tAbsError: 1.11435e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.57397e-06\tAbsError: 1.24433e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 4.91977e-05\tAbsError: 5.89586e+09\n", + " Region: \"zone_1\"\tRelError: 2.66095e-05\tAbsError: 1.68142e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.66047e-05\tAbsError: 3.56714e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.83123e-09\tAbsError: 1.67785e-06\n", + " Region: \"zone_3\"\tRelError: 2.25882e-05\tAbsError: 5.89586e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.48785e-07\tAbsError: 4.10020e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.43251e-07\tAbsError: 1.79565e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.16913e-05\tAbsError: 3.75397e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.83123e-09\tAbsError: 1.67785e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:42\u001b[0m.\u001b[1;36m945\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.4\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 8.88594e-01\tAbsError: 7.19301e+14\n", + " Region: \"zone_1\"\tRelError: 1.39066e-02\tAbsError: 2.06684e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.38812e-02\tAbsError: 1.18261e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.54789e-05\tAbsError: 8.84230e-03\n", + " Region: \"zone_3\"\tRelError: 8.74688e-01\tAbsError: 7.19301e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.37645e-01\tAbsError: 1.89617e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.54753e-03\tAbsError: 7.00339e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33469e-01\tAbsError: 1.18264e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.54789e-05\tAbsError: 8.84230e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 6.84757e-04\tAbsError: 5.79873e+10\n", + " Region: \"zone_1\"\tRelError: 5.39232e-04\tAbsError: 6.69464e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.39213e-04\tAbsError: 4.49143e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91058e-08\tAbsError: 6.64972e-06\n", + " Region: \"zone_3\"\tRelError: 1.45525e-04\tAbsError: 5.79873e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.71562e-06\tAbsError: 2.34463e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.68397e-06\tAbsError: 3.45410e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.38106e-04\tAbsError: 4.56915e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91137e-08\tAbsError: 6.65261e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.42976e+01\tAbsError: 8.72124e+15\n", + " Region: \"zone_1\"\tRelError: 1.26250e+01\tAbsError: 4.20728e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.26250e+01\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.97298e-10\tAbsError: 1.38229e-07\n", + " Region: \"zone_3\"\tRelError: 1.67260e+00\tAbsError: 8.72124e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.79100e-01\tAbsError: 5.12249e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.79079e-01\tAbsError: 3.59874e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14421e-01\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.97458e-10\tAbsError: 1.38283e-07\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 1.29054e-02\tAbsError: 9.55991e+11\n", + " Region: \"zone_1\"\tRelError: 1.34678e-03\tAbsError: 5.73063e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33028e-03\tAbsError: 1.08229e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.64949e-05\tAbsError: 5.72955e-03\n", + " Region: \"zone_3\"\tRelError: 1.15586e-02\tAbsError: 9.55991e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.52563e-04\tAbsError: 6.37238e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.02234e-04\tAbsError: 3.18753e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08873e-02\tAbsError: 1.11346e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.64949e-05\tAbsError: 5.72955e-03\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 4.48439e-01\tAbsError: 7.38740e+14\n", + " Region: \"zone_1\"\tRelError: 1.96172e-02\tAbsError: 2.97738e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87611e-02\tAbsError: 3.63461e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.56135e-04\tAbsError: 2.97374e-01\n", + " Region: \"zone_3\"\tRelError: 4.28822e-01\tAbsError: 7.38740e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.97195e-01\tAbsError: 1.33763e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.37804e-02\tAbsError: 7.25364e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.16989e-01\tAbsError: 3.77506e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.57649e-04\tAbsError: 2.97894e-01\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 8.62552e+00\tAbsError: 8.26510e+15\n", + " Region: \"zone_1\"\tRelError: 6.97719e+00\tAbsError: 4.09546e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.97719e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.33437e-10\tAbsError: 3.24924e-07\n", + " Region: \"zone_3\"\tRelError: 1.64833e+00\tAbsError: 8.26510e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69652e-01\tAbsError: 4.84454e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69632e-01\tAbsError: 3.42056e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09044e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.33825e-10\tAbsError: 3.25065e-07\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.02364e-04\tAbsError: 5.62247e+09\n", + " Region: \"zone_1\"\tRelError: 8.15379e-05\tAbsError: 3.03368e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.15291e-05\tAbsError: 3.57289e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.71937e-09\tAbsError: 3.03011e-06\n", + " Region: \"zone_3\"\tRelError: 2.08260e-05\tAbsError: 5.62247e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.14319e-07\tAbsError: 4.05600e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.09034e-07\tAbsError: 1.56647e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.01939e-05\tAbsError: 3.71851e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.71944e-09\tAbsError: 3.03019e-06\n", + "Iteration: 16\n", + " Device: \"device\"\tRelError: 1.77629e-02\tAbsError: 5.59565e+12\n", + " Region: \"zone_1\"\tRelError: 1.81038e-03\tAbsError: 4.29761e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.80916e-03\tAbsError: 4.24509e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22368e-06\tAbsError: 4.25516e-04\n", + " Region: \"zone_3\"\tRelError: 1.59525e-02\tAbsError: 5.59565e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.73694e-04\tAbsError: 2.63052e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.69913e-04\tAbsError: 2.96513e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.48076e-02\tAbsError: 4.30437e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22409e-06\tAbsError: 4.25659e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.79975e+00\tAbsError: 3.41396e+14\n", + " Region: \"zone_1\"\tRelError: 3.00576e-01\tAbsError: 8.44197e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.00425e-01\tAbsError: 3.20823e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.50589e-04\tAbsError: 5.23374e-02\n", + " Region: \"zone_3\"\tRelError: 1.49918e+00\tAbsError: 3.41396e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.56115e-01\tAbsError: 2.48707e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.49187e-01\tAbsError: 9.26885e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.37238e-02\tAbsError: 3.20827e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.50589e-04\tAbsError: 5.23374e-02\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 3.78632e-01\tAbsError: 1.54781e+14\n", + " Region: \"zone_1\"\tRelError: 3.64972e-02\tAbsError: 4.47239e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.64849e-02\tAbsError: 1.90602e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22982e-05\tAbsError: 4.28179e-03\n", + " Region: \"zone_3\"\tRelError: 3.42135e-01\tAbsError: 1.54781e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.13118e-02\tAbsError: 5.14808e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.12130e-02\tAbsError: 1.03300e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.99598e-01\tAbsError: 1.92876e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.23055e-05\tAbsError: 4.28442e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.56210e+00\tAbsError: 2.88655e+14\n", + " Region: \"zone_1\"\tRelError: 1.01850e-01\tAbsError: 8.11752e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01705e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.45044e-04\tAbsError: 5.04116e-02\n", + " Region: \"zone_3\"\tRelError: 1.46025e+00\tAbsError: 2.88655e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39145e-01\tAbsError: 2.10222e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.31918e-01\tAbsError: 7.84329e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.90395e-02\tAbsError: 3.07640e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.45044e-04\tAbsError: 5.04116e-02\n", + "Iteration: 17\n", + " Device: \"device\"\tRelError: 2.03335e-03\tAbsError: 3.99942e+11\n", + " Region: \"zone_1\"\tRelError: 2.13959e-04\tAbsError: 3.73601e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.12885e-04\tAbsError: 2.93620e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.07360e-06\tAbsError: 3.73308e-04\n", + " Region: \"zone_3\"\tRelError: 1.81940e-03\tAbsError: 3.99942e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.25123e-05\tAbsError: 2.20324e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.23710e-05\tAbsError: 1.79618e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.73344e-03\tAbsError: 2.97698e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.07395e-06\tAbsError: 3.73446e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.62672e-05\tAbsError: 3.10481e+09\n", + " Region: \"zone_1\"\tRelError: 3.66806e-05\tAbsError: 2.21724e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 3.66799e-05\tAbsError: 2.06476e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.31104e-10\tAbsError: 2.19659e-07\n", + " Region: \"zone_3\"\tRelError: 9.58660e-06\tAbsError: 3.10481e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88628e-07\tAbsError: 1.51763e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.86687e-07\tAbsError: 1.58718e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 9.21065e-06\tAbsError: 2.10348e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.31398e-10\tAbsError: 2.19764e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:46\u001b[0m.\u001b[1;36m504\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.6\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 16\n", + " Device: \"device\"\tRelError: 3.05940e-02\tAbsError: 3.26270e+12\n", + " Region: \"zone_1\"\tRelError: 3.18240e-03\tAbsError: 1.00464e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.15349e-03\tAbsError: 2.83329e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.89147e-05\tAbsError: 1.00436e-02\n", + " Region: \"zone_3\"\tRelError: 2.74116e-02\tAbsError: 3.26270e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.15392e-04\tAbsError: 2.40672e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.40622e-04\tAbsError: 8.55981e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.62267e-02\tAbsError: 2.91021e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.89147e-05\tAbsError: 1.00436e-02\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.09917e+00\tAbsError: 7.91798e+13\n", + " Region: \"zone_1\"\tRelError: 7.82475e-02\tAbsError: 3.30055e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.82269e-02\tAbsError: 2.58549e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.05740e-05\tAbsError: 7.15067e-03\n", + " Region: \"zone_3\"\tRelError: 1.02092e+00\tAbsError: 7.91798e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.67275e-01\tAbsError: 4.71969e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.46242e-01\tAbsError: 3.19828e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07381e-01\tAbsError: 2.58736e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.05740e-05\tAbsError: 7.15067e-03\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 18\n", + " Device: \"device\"\tRelError: 1.34362e-03\tAbsError: 3.65764e+11\n", + " Region: \"zone_1\"\tRelError: 1.38561e-04\tAbsError: 5.07671e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.38416e-04\tAbsError: 2.46873e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.45284e-07\tAbsError: 5.05202e-05\n", + " Region: \"zone_3\"\tRelError: 1.20506e-03\tAbsError: 3.65764e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.63771e-05\tAbsError: 1.97641e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.61145e-05\tAbsError: 1.68123e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13242e-03\tAbsError: 2.50412e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.45318e-07\tAbsError: 5.05322e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.02466e+00\tAbsError: 6.04267e+13\n", + " Region: \"zone_1\"\tRelError: 7.18592e-02\tAbsError: 3.22577e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.18409e-02\tAbsError: 2.58878e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83272e-05\tAbsError: 6.36990e-03\n", + " Region: \"zone_3\"\tRelError: 9.52804e-01\tAbsError: 6.04267e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40508e-01\tAbsError: 3.80417e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.10167e-01\tAbsError: 2.23851e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02110e-01\tAbsError: 2.58991e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83272e-05\tAbsError: 6.36990e-03\n", + "Iteration: 17\n", + " Device: \"device\"\tRelError: 3.17501e-02\tAbsError: 9.87378e+12\n", + " Region: \"zone_1\"\tRelError: 3.24279e-03\tAbsError: 8.49203e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.24037e-03\tAbsError: 7.44208e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.42070e-06\tAbsError: 8.41761e-04\n", + " Region: \"zone_3\"\tRelError: 2.85073e-02\tAbsError: 9.87378e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01026e-03\tAbsError: 4.68266e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.00374e-03\tAbsError: 5.19113e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.64909e-02\tAbsError: 7.54644e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.42111e-06\tAbsError: 8.41906e-04\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.53006e-01\tAbsError: 2.85325e+13\n", + " Region: \"zone_1\"\tRelError: 3.17735e-02\tAbsError: 1.33835e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.17662e-02\tAbsError: 1.08347e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.33375e-06\tAbsError: 2.54883e-03\n", + " Region: \"zone_3\"\tRelError: 3.21233e-01\tAbsError: 2.85325e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.19887e-01\tAbsError: 1.38532e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.34008e-02\tAbsError: 1.46793e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.79373e-02\tAbsError: 1.08348e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.33696e-06\tAbsError: 2.54999e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.94073e+01\tAbsError: 8.32958e+15\n", + " Region: \"zone_1\"\tRelError: 1.77016e+01\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77016e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.06764e-10\tAbsError: 1.76108e-07\n", + " Region: \"zone_3\"\tRelError: 1.70569e+00\tAbsError: 8.32958e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69637e-01\tAbsError: 4.59097e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69532e-01\tAbsError: 3.73860e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66519e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.06930e-10\tAbsError: 1.76171e-07\n", + "Iteration: 19\n", + " Device: \"device\"\tRelError: 2.19620e-04\tAbsError: 4.76128e+10\n", + " Region: \"zone_1\"\tRelError: 2.29852e-05\tAbsError: 2.66177e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29088e-05\tAbsError: 3.23281e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.64529e-08\tAbsError: 2.65853e-05\n", + " Region: \"zone_3\"\tRelError: 1.96635e-04\tAbsError: 4.76128e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.90619e-06\tAbsError: 2.73453e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.88596e-06\tAbsError: 2.02674e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86766e-04\tAbsError: 3.27811e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.64720e-08\tAbsError: 2.65920e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.07050e-01\tAbsError: 1.83634e+13\n", + " Region: \"zone_1\"\tRelError: 2.24108e-02\tAbsError: 1.12606e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.24048e-02\tAbsError: 9.16557e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.02744e-06\tAbsError: 2.09499e-03\n", + " Region: \"zone_3\"\tRelError: 2.84640e-01\tAbsError: 1.83634e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.09245e-01\tAbsError: 8.86934e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.28005e-02\tAbsError: 9.49405e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.25878e-02\tAbsError: 9.16561e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.02994e-06\tAbsError: 2.09586e-03\n", + "Iteration: 18\n", + " Device: \"device\"\tRelError: 4.00791e-03\tAbsError: 7.94469e+11\n", + " Region: \"zone_1\"\tRelError: 4.21254e-04\tAbsError: 6.66722e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.19338e-04\tAbsError: 5.54818e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91582e-06\tAbsError: 6.66167e-04\n", + " Region: \"zone_3\"\tRelError: 3.58666e-03\tAbsError: 7.94469e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.27304e-05\tAbsError: 4.54237e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.23889e-05\tAbsError: 3.40232e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.41962e-03\tAbsError: 5.62636e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91658e-06\tAbsError: 6.66464e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.03807e-02\tAbsError: 4.31916e+12\n", + " Region: \"zone_1\"\tRelError: 4.20953e-03\tAbsError: 1.71332e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 4.20469e-03\tAbsError: 2.96488e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.84876e-06\tAbsError: 1.68367e-03\n", + " Region: \"zone_3\"\tRelError: 7.61712e-02\tAbsError: 4.31916e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.68288e-02\tAbsError: 2.37964e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.61116e-03\tAbsError: 1.93953e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.72641e-03\tAbsError: 3.23070e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.84876e-06\tAbsError: 1.68367e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.07616e+01\tAbsError: 3.02291e+15\n", + " Region: \"zone_1\"\tRelError: 9.27113e+00\tAbsError: 6.52674e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.27103e+00\tAbsError: 3.07634e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.92954e-05\tAbsError: 3.45040e-02\n", + " Region: \"zone_3\"\tRelError: 1.49044e+00\tAbsError: 3.02291e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.40308e-01\tAbsError: 1.49698e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.14159e-01\tAbsError: 1.52592e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35875e-01\tAbsError: 3.07635e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.92954e-05\tAbsError: 3.45040e-02\n", + "Iteration: 20\n", + " Device: \"device\"\tRelError: 1.01270e-04\tAbsError: 2.55605e+10\n", + " Region: \"zone_1\"\tRelError: 1.04938e-05\tAbsError: 4.88254e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04798e-05\tAbsError: 1.65111e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39935e-08\tAbsError: 4.86603e-06\n", + " Region: \"zone_3\"\tRelError: 9.07764e-05\tAbsError: 2.55605e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.54439e-06\tAbsError: 1.46826e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.52628e-06\tAbsError: 1.08779e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 8.56917e-05\tAbsError: 1.67514e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39958e-08\tAbsError: 4.86682e-06\n", + "Iteration: 19\n", + " Device: \"device\"\tRelError: 2.41571e-03\tAbsError: 6.51578e+11\n", + " Region: \"zone_1\"\tRelError: 2.49310e-04\tAbsError: 9.61601e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49035e-04\tAbsError: 4.38276e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.75272e-07\tAbsError: 9.57218e-05\n", + " Region: \"zone_3\"\tRelError: 2.16640e-03\tAbsError: 6.51578e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.48244e-05\tAbsError: 3.54039e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.43631e-05\tAbsError: 2.97539e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03694e-03\tAbsError: 4.44564e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.75326e-07\tAbsError: 9.57408e-05\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.39650e-02\tAbsError: 2.30731e+12\n", + " Region: \"zone_1\"\tRelError: 9.33244e-04\tAbsError: 2.05118e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 9.27371e-04\tAbsError: 1.17101e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.87337e-06\tAbsError: 2.03947e-03\n", + " Region: \"zone_3\"\tRelError: 6.30318e-02\tAbsError: 2.30731e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.63237e-02\tAbsError: 1.57438e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.61914e-04\tAbsError: 7.32926e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 6.34034e-03\tAbsError: 1.22701e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.87337e-06\tAbsError: 2.03947e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 9.97676e-04\tAbsError: 7.95668e+11\n", + " Region: \"zone_1\"\tRelError: 1.29401e-04\tAbsError: 1.23466e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29049e-04\tAbsError: 1.19542e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.51297e-07\tAbsError: 1.22271e-04\n", + " Region: \"zone_3\"\tRelError: 8.68275e-04\tAbsError: 7.95668e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04248e-04\tAbsError: 1.86473e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.74128e-05\tAbsError: 6.09196e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 6.86263e-04\tAbsError: 1.19935e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.51436e-07\tAbsError: 1.22321e-04\n", + "Iteration: 21\n", + " Device: \"device\"\tRelError: 2.05070e-05\tAbsError: 4.57864e+09\n", + " Region: \"zone_1\"\tRelError: 2.14180e-06\tAbsError: 1.98128e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.13612e-06\tAbsError: 2.99420e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.68907e-09\tAbsError: 1.97829e-06\n", + " Region: \"zone_3\"\tRelError: 1.83652e-05\tAbsError: 4.57864e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.66063e-07\tAbsError: 2.69416e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.63768e-07\tAbsError: 1.88448e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74296e-05\tAbsError: 3.03713e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.68998e-09\tAbsError: 1.97861e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.22732e+00\tAbsError: 2.06865e+15\n", + " Region: \"zone_1\"\tRelError: 2.78568e-01\tAbsError: 2.74627e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78563e-01\tAbsError: 2.58185e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73142e-06\tAbsError: 1.64416e-03\n", + " Region: \"zone_3\"\tRelError: 9.48751e-01\tAbsError: 2.06865e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.44918e-01\tAbsError: 9.02348e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.89155e-01\tAbsError: 1.16630e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14673e-01\tAbsError: 2.51147e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73142e-06\tAbsError: 1.64416e-03\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:50\u001b[0m.\u001b[1;36m917\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: 0.205\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 20\n", + " Device: \"device\"\tRelError: 4.14530e-04\tAbsError: 9.00878e+10\n", + " Region: \"zone_1\"\tRelError: 4.33708e-05\tAbsError: 4.78767e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.32333e-05\tAbsError: 6.03673e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37508e-07\tAbsError: 4.78163e-05\n", + " Region: \"zone_3\"\tRelError: 3.71159e-04\tAbsError: 9.00878e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.25135e-06\tAbsError: 5.23202e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.21072e-06\tAbsError: 3.77677e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.52560e-04\tAbsError: 6.12186e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37541e-07\tAbsError: 4.78278e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.79721e-03\tAbsError: 9.76589e+11\n", + " Region: \"zone_1\"\tRelError: 1.82738e-04\tAbsError: 8.39323e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82502e-04\tAbsError: 1.48235e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36874e-07\tAbsError: 8.24499e-05\n", + " Region: \"zone_3\"\tRelError: 1.61447e-03\tAbsError: 9.76589e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10820e-04\tAbsError: 2.51654e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.02342e-04\tAbsError: 7.24935e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40107e-03\tAbsError: 1.48793e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36983e-07\tAbsError: 8.24891e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.61330e-04\tAbsError: 1.06282e+11\n", + " Region: \"zone_1\"\tRelError: 4.56683e-05\tAbsError: 4.35026e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.55433e-05\tAbsError: 6.77792e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.25079e-07\tAbsError: 4.34348e-05\n", + " Region: \"zone_3\"\tRelError: 4.15662e-04\tAbsError: 1.06282e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.04343e-06\tAbsError: 7.28947e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.97562e-06\tAbsError: 3.33874e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.01518e-04\tAbsError: 7.07926e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.25079e-07\tAbsError: 4.34348e-05\n", + "Iteration: 21\n", + " Device: \"device\"\tRelError: 1.82957e-04\tAbsError: 4.59083e+10\n", + " Region: \"zone_1\"\tRelError: 1.89657e-05\tAbsError: 9.08920e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.89396e-05\tAbsError: 2.96048e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.60532e-08\tAbsError: 9.05960e-06\n", + " Region: \"zone_3\"\tRelError: 1.63992e-04\tAbsError: 4.59083e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.57251e-06\tAbsError: 2.64519e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.54031e-06\tAbsError: 1.94565e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.54853e-04\tAbsError: 3.00359e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.60571e-08\tAbsError: 9.06097e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 7.18897e+00\tAbsError: 6.29402e+14\n", + " Region: \"zone_1\"\tRelError: 6.86170e+00\tAbsError: 2.22868e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.86166e+00\tAbsError: 9.16572e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.77613e-05\tAbsError: 1.31211e-02\n", + " Region: \"zone_3\"\tRelError: 3.27267e-01\tAbsError: 6.29402e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84319e-01\tAbsError: 3.28649e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.08857e-01\tAbsError: 3.00753e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.40527e-02\tAbsError: 9.16579e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.77613e-05\tAbsError: 1.31211e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.21972e+01\tAbsError: 8.79739e+15\n", + " Region: \"zone_1\"\tRelError: 2.05511e+01\tAbsError: 4.19634e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.05511e+01\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.24058e-09\tAbsError: 4.31395e-07\n", + " Region: \"zone_3\"\tRelError: 1.64617e+00\tAbsError: 8.79739e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78071e-01\tAbsError: 4.86801e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.78002e-01\tAbsError: 3.92938e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.00933e-02\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.24074e-09\tAbsError: 4.31450e-07\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.68582e-04\tAbsError: 6.39514e+10\n", + " Region: \"zone_1\"\tRelError: 3.10151e-05\tAbsError: 5.94800e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.08440e-05\tAbsError: 4.08298e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71164e-07\tAbsError: 5.94392e-05\n", + " Region: \"zone_3\"\tRelError: 2.37567e-04\tAbsError: 6.39514e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16150e-06\tAbsError: 5.01904e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.80228e-06\tAbsError: 1.37610e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29432e-04\tAbsError: 4.25523e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71229e-07\tAbsError: 5.94601e-05\n", + "Iteration: 22\n", + " Device: \"device\"\tRelError: 3.80865e-05\tAbsError: 8.51875e+09\n", + " Region: \"zone_1\"\tRelError: 3.97720e-06\tAbsError: 3.58327e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.96691e-06\tAbsError: 5.54273e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.02887e-08\tAbsError: 3.57772e-06\n", + " Region: \"zone_3\"\tRelError: 3.41093e-05\tAbsError: 8.51875e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.66086e-07\tAbsError: 5.03274e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.61710e-07\tAbsError: 3.48600e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.23712e-05\tAbsError: 5.62244e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.02903e-08\tAbsError: 3.57829e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:53\u001b[0m.\u001b[1;36m452\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.21\u001b[0m \n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 8.56296e-05\tAbsError: 3.78286e+10\n", + " Region: \"zone_1\"\tRelError: 8.06637e-06\tAbsError: 5.60804e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.05036e-06\tAbsError: 3.55674e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60098e-08\tAbsError: 5.57247e-06\n", + " Region: \"zone_3\"\tRelError: 7.75632e-05\tAbsError: 3.78286e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.72451e-06\tAbsError: 1.28450e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.70072e-06\tAbsError: 2.49837e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.21220e-05\tAbsError: 3.55685e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60165e-08\tAbsError: 5.57492e-06\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:53\u001b[0m.\u001b[1;36m570\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:53\u001b[0m.\u001b[1;36m570\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5222222222222223\u001b[0m \n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "number of equations 31816\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.42105e-01\tAbsError: 9.57843e+13\n", + " Region: \"zone_1\"\tRelError: 5.64317e-01\tAbsError: 1.44974e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.64276e-01\tAbsError: 1.24104e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14024e-05\tAbsError: 1.43733e-02\n", + " Region: \"zone_3\"\tRelError: 7.77880e-02\tAbsError: 9.57843e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.25473e-02\tAbsError: 4.71405e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.65020e-03\tAbsError: 4.86438e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.95491e-02\tAbsError: 1.28397e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14024e-05\tAbsError: 1.43733e-02\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 4.29261e+00\tAbsError: 3.28148e+14\n", + " Region: \"zone_1\"\tRelError: 2.82868e+00\tAbsError: 9.50796e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.82849e+00\tAbsError: 3.19529e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.81575e-04\tAbsError: 6.31268e-02\n", + " Region: \"zone_3\"\tRelError: 1.46393e+00\tAbsError: 3.28148e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.53256e-01\tAbsError: 1.60807e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.47889e-01\tAbsError: 1.67341e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.26077e-02\tAbsError: 3.19533e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.81575e-04\tAbsError: 6.31268e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.61549e-04\tAbsError: 5.47840e+10\n", + " Region: \"zone_1\"\tRelError: 1.81900e-05\tAbsError: 1.93945e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.81846e-05\tAbsError: 4.89694e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.43105e-09\tAbsError: 1.89048e-06\n", + " Region: \"zone_3\"\tRelError: 1.43359e-04\tAbsError: 5.47840e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.04114e-06\tAbsError: 2.20323e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.00674e-06\tAbsError: 3.27517e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35306e-04\tAbsError: 4.90033e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.43421e-09\tAbsError: 1.89162e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.36557e-01\tAbsError: 7.18470e+12\n", + " Region: \"zone_1\"\tRelError: 1.16158e-01\tAbsError: 1.78279e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16157e-01\tAbsError: 6.59165e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.94530e-07\tAbsError: 1.71687e-04\n", + " Region: \"zone_3\"\tRelError: 2.03993e-02\tAbsError: 7.18470e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.98223e-04\tAbsError: 2.78831e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.37326e-04\tAbsError: 4.39639e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.92632e-02\tAbsError: 6.83641e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.94530e-07\tAbsError: 1.71687e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.00879e+03\tAbsError: 9.21631e+15\n", + " Region: \"zone_1\"\tRelError: 1.00712e+03\tAbsError: 4.29346e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00712e+03\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.29034e-09\tAbsError: 7.96432e-07\n", + " Region: \"zone_3\"\tRelError: 1.66508e+00\tAbsError: 9.21631e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86000e-01\tAbsError: 5.09982e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.85932e-01\tAbsError: 4.11649e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.31442e-02\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.29062e-09\tAbsError: 7.96530e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.03787e+00\tAbsError: 8.68675e+15\n", + " Region: \"zone_1\"\tRelError: 5.34083e+00\tAbsError: 4.20745e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.34083e+00\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.44746e-09\tAbsError: 1.89168e-06\n", + " Region: \"zone_3\"\tRelError: 1.69705e+00\tAbsError: 8.68675e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.79112e-01\tAbsError: 5.08967e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.79068e-01\tAbsError: 3.59708e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.38867e-01\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.44892e-09\tAbsError: 1.89214e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.01561e+00\tAbsError: 4.22498e+13\n", + " Region: \"zone_1\"\tRelError: 1.00695e+00\tAbsError: 3.08676e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00693e+00\tAbsError: 2.58780e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43517e-05\tAbsError: 4.98963e-03\n", + " Region: \"zone_3\"\tRelError: 1.00866e+00\tAbsError: 4.22498e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.63696e-01\tAbsError: 3.04335e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.31201e-01\tAbsError: 1.18163e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13751e-01\tAbsError: 2.58956e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43517e-05\tAbsError: 4.98963e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.55715e-06\tAbsError: 1.55371e+09\n", + " Region: \"zone_1\"\tRelError: 2.75443e-07\tAbsError: 3.15707e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.66361e-07\tAbsError: 7.16801e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.08162e-09\tAbsError: 3.15635e-06\n", + " Region: \"zone_3\"\tRelError: 2.28171e-06\tAbsError: 1.55371e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01860e-07\tAbsError: 1.23171e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.92720e-08\tAbsError: 3.21996e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 2.10150e-06\tAbsError: 7.37244e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.08225e-09\tAbsError: 3.15662e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:55\u001b[0m.\u001b[1;36m580\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.5\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.13498e-03\tAbsError: 1.41105e+11\n", + " Region: \"zone_1\"\tRelError: 2.73398e-03\tAbsError: 4.76357e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.73260e-03\tAbsError: 1.35633e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37060e-06\tAbsError: 4.76221e-04\n", + " Region: \"zone_3\"\tRelError: 4.01007e-04\tAbsError: 1.41105e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.96062e-06\tAbsError: 6.85210e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.81427e-06\tAbsError: 7.25836e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.87862e-04\tAbsError: 1.38229e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37060e-06\tAbsError: 4.76221e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.52211e+00\tAbsError: 3.59125e+14\n", + " Region: \"zone_1\"\tRelError: 1.02736e+00\tAbsError: 9.92324e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02717e+00\tAbsError: 3.31004e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.90221e-04\tAbsError: 6.61320e-02\n", + " Region: \"zone_3\"\tRelError: 1.49475e+00\tAbsError: 3.59125e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67298e-01\tAbsError: 1.76595e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.62445e-01\tAbsError: 1.82530e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.48202e-02\tAbsError: 3.31009e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.90221e-04\tAbsError: 6.61320e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.79028e+00\tAbsError: 9.40544e+14\n", + " Region: \"zone_1\"\tRelError: 2.75190e-01\tAbsError: 7.38905e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.75070e-01\tAbsError: 3.20822e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20307e-04\tAbsError: 4.18083e-02\n", + " Region: \"zone_3\"\tRelError: 1.51509e+00\tAbsError: 9.40544e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.57667e-01\tAbsError: 5.48737e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.43526e-01\tAbsError: 3.91807e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13778e-01\tAbsError: 3.20825e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20307e-04\tAbsError: 4.18083e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.40953e-01\tAbsError: 2.74084e+12\n", + " Region: \"zone_1\"\tRelError: 4.80746e-02\tAbsError: 1.39556e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.80651e-02\tAbsError: 1.06618e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.47399e-06\tAbsError: 3.29377e-03\n", + " Region: \"zone_3\"\tRelError: 2.92878e-01\tAbsError: 2.74084e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.18891e-01\tAbsError: 1.82408e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.68392e-02\tAbsError: 9.16762e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.71388e-02\tAbsError: 1.06619e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.47605e-06\tAbsError: 3.29454e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.44671e+02\tAbsError: 8.23352e+15\n", + " Region: \"zone_1\"\tRelError: 5.43003e+02\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.43003e+02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.11266e-10\tAbsError: 1.43080e-07\n", + " Region: \"zone_3\"\tRelError: 1.66763e+00\tAbsError: 8.23352e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.84587e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69628e-01\tAbsError: 3.38765e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28340e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.11422e-10\tAbsError: 1.43134e-07\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.31814e-02\tAbsError: 4.58362e+11\n", + " Region: \"zone_1\"\tRelError: 1.15315e-02\tAbsError: 2.80900e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15314e-02\tAbsError: 2.57528e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.01667e-08\tAbsError: 2.78324e-05\n", + " Region: \"zone_3\"\tRelError: 1.64997e-03\tAbsError: 4.58362e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47024e-05\tAbsError: 2.30121e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.45967e-05\tAbsError: 2.28241e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.60059e-03\tAbsError: 2.62890e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.01667e-08\tAbsError: 2.78324e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.22235e+00\tAbsError: 4.60128e+13\n", + " Region: \"zone_1\"\tRelError: 1.55292e-01\tAbsError: 3.12944e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55276e-01\tAbsError: 2.58827e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.55659e-05\tAbsError: 5.41171e-03\n", + " Region: \"zone_3\"\tRelError: 1.06706e+00\tAbsError: 4.60128e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.86396e-01\tAbsError: 3.30945e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.60965e-01\tAbsError: 1.29183e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19685e-01\tAbsError: 2.58997e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.55659e-05\tAbsError: 5.41171e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.04706e-01\tAbsError: 2.69889e+12\n", + " Region: \"zone_1\"\tRelError: 3.03473e-02\tAbsError: 2.78065e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.03393e-02\tAbsError: 1.57814e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.00188e-06\tAbsError: 2.77907e-03\n", + " Region: \"zone_3\"\tRelError: 7.43586e-02\tAbsError: 2.69889e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.61302e-02\tAbsError: 1.67218e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.39676e-04\tAbsError: 1.02671e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.08064e-03\tAbsError: 1.64723e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.00188e-06\tAbsError: 2.77907e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.18789e+00\tAbsError: 4.83732e+14\n", + " Region: \"zone_1\"\tRelError: 1.79190e-01\tAbsError: 3.41802e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.79166e-01\tAbsError: 2.58395e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.40007e-05\tAbsError: 8.34077e-03\n", + " Region: \"zone_3\"\tRelError: 1.00870e+00\tAbsError: 4.83732e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.69011e-01\tAbsError: 2.31920e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.36472e-01\tAbsError: 2.51812e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03191e-01\tAbsError: 2.58327e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.40007e-05\tAbsError: 8.34077e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 4.93663e+00\tAbsError: 6.37428e+14\n", + " Region: \"zone_1\"\tRelError: 3.46019e+00\tAbsError: 7.21476e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.46007e+00\tAbsError: 3.07635e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", + " Region: \"zone_3\"\tRelError: 1.47644e+00\tAbsError: 6.37428e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.40577e-01\tAbsError: 3.72575e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.27797e-01\tAbsError: 2.64853e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07947e-01\tAbsError: 3.07638e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.25913e-03\tAbsError: 2.71128e+10\n", + " Region: \"zone_1\"\tRelError: 1.10973e-03\tAbsError: 2.99279e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10965e-03\tAbsError: 1.77983e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.60783e-08\tAbsError: 2.99101e-05\n", + " Region: \"zone_3\"\tRelError: 1.49391e-04\tAbsError: 2.71128e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.61984e-06\tAbsError: 1.29863e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.63350e-06\tAbsError: 1.41265e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.46052e-04\tAbsError: 1.82225e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.61134e-08\tAbsError: 2.99224e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.57693e-01\tAbsError: 3.02154e+12\n", + " Region: \"zone_1\"\tRelError: 1.96652e-02\tAbsError: 1.57882e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.96551e-02\tAbsError: 1.22658e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.01318e-05\tAbsError: 3.52244e-03\n", + " Region: \"zone_3\"\tRelError: 3.38028e-01\tAbsError: 3.02154e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.44609e-01\tAbsError: 2.12319e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.34946e-02\tAbsError: 8.98343e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.99137e-02\tAbsError: 1.22658e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.01327e-05\tAbsError: 3.52280e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.89232e-01\tAbsError: 2.20799e+14\n", + " Region: \"zone_1\"\tRelError: 3.47859e-02\tAbsError: 1.63666e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.47699e-02\tAbsError: 1.08347e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59370e-05\tAbsError: 5.53193e-03\n", + " Region: \"zone_3\"\tRelError: 3.54446e-01\tAbsError: 2.20799e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.17998e-01\tAbsError: 9.98034e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.00900e-01\tAbsError: 1.20996e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.55324e-02\tAbsError: 1.08347e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59483e-05\tAbsError: 5.53592e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.99368e-03\tAbsError: 1.36436e+12\n", + " Region: \"zone_1\"\tRelError: 4.69498e-03\tAbsError: 1.18416e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.69465e-03\tAbsError: 1.92140e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.34635e-07\tAbsError: 1.16495e-04\n", + " Region: \"zone_3\"\tRelError: 2.29869e-03\tAbsError: 1.36436e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.77818e-04\tAbsError: 3.77261e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.77531e-04\tAbsError: 9.87102e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.94301e-03\tAbsError: 1.92550e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.34793e-07\tAbsError: 1.16552e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.95431e+00\tAbsError: 2.96317e+14\n", + " Region: \"zone_1\"\tRelError: 2.00902e+00\tAbsError: 3.34445e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.00900e+00\tAbsError: 2.58782e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", + " Region: \"zone_3\"\tRelError: 9.45295e-01\tAbsError: 2.96317e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42034e-01\tAbsError: 1.59420e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.10683e-01\tAbsError: 1.36896e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.25558e-02\tAbsError: 2.58843e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 9.89584e-04\tAbsError: 2.93050e+10\n", + " Region: \"zone_1\"\tRelError: 8.69289e-04\tAbsError: 3.58476e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.69279e-04\tAbsError: 1.49163e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.02736e-08\tAbsError: 3.56984e-06\n", + " Region: \"zone_3\"\tRelError: 1.20295e-04\tAbsError: 2.93050e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52554e-06\tAbsError: 1.64489e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.51838e-06\tAbsError: 1.28561e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17241e-04\tAbsError: 1.55101e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.02768e-08\tAbsError: 3.57094e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.07862e-02\tAbsError: 2.91329e+12\n", + " Region: \"zone_1\"\tRelError: 4.25198e-03\tAbsError: 2.87694e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 4.24370e-03\tAbsError: 1.98745e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.27799e-06\tAbsError: 2.87495e-03\n", + " Region: \"zone_3\"\tRelError: 8.65343e-02\tAbsError: 2.91329e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.76531e-02\tAbsError: 1.73373e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.28097e-04\tAbsError: 1.17955e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.64474e-03\tAbsError: 1.98943e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.27799e-06\tAbsError: 2.87495e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.27705e-02\tAbsError: 3.92143e+13\n", + " Region: \"zone_1\"\tRelError: 1.18444e-02\tAbsError: 3.97274e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18335e-02\tAbsError: 1.67051e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.09608e-05\tAbsError: 3.80569e-03\n", + " Region: \"zone_3\"\tRelError: 8.09261e-02\tAbsError: 3.92143e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.23262e-02\tAbsError: 2.18276e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.11384e-03\tAbsError: 1.73866e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14751e-02\tAbsError: 1.77220e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.09608e-05\tAbsError: 3.80569e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.32584e-03\tAbsError: 9.49817e+10\n", + " Region: \"zone_1\"\tRelError: 1.01622e-03\tAbsError: 8.23598e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01599e-03\tAbsError: 5.43240e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36970e-07\tAbsError: 8.23055e-05\n", + " Region: \"zone_3\"\tRelError: 3.09622e-04\tAbsError: 9.49817e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.47531e-06\tAbsError: 7.03893e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.40231e-06\tAbsError: 2.45924e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.94507e-04\tAbsError: 5.71127e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.37095e-07\tAbsError: 8.23471e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.90232e-01\tAbsError: 1.27257e+14\n", + " Region: \"zone_1\"\tRelError: 2.88169e-01\tAbsError: 1.34324e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88157e-01\tAbsError: 9.16559e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22923e-05\tAbsError: 4.26682e-03\n", + " Region: \"zone_3\"\tRelError: 3.02062e-01\tAbsError: 1.27257e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98145e-01\tAbsError: 5.59682e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.53461e-02\tAbsError: 7.12890e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.85587e-02\tAbsError: 9.16563e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22942e-05\tAbsError: 4.26755e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.48739e-04\tAbsError: 3.41314e+09\n", + " Region: \"zone_1\"\tRelError: 1.31134e-04\tAbsError: 2.06494e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31128e-04\tAbsError: 1.91971e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.93716e-09\tAbsError: 2.06302e-06\n", + " Region: \"zone_3\"\tRelError: 1.76048e-05\tAbsError: 3.41314e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88514e-07\tAbsError: 1.94837e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.89063e-07\tAbsError: 1.46477e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72213e-05\tAbsError: 1.99642e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.93836e-09\tAbsError: 2.06344e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.01174e-03\tAbsError: 1.41556e+12\n", + " Region: \"zone_1\"\tRelError: 6.68071e-04\tAbsError: 1.27918e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.67709e-04\tAbsError: 1.99067e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.61735e-07\tAbsError: 1.25927e-04\n", + " Region: \"zone_3\"\tRelError: 2.34367e-03\tAbsError: 1.41556e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.80161e-04\tAbsError: 3.89187e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.82303e-04\tAbsError: 1.02637e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.98085e-03\tAbsError: 1.99421e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.61901e-07\tAbsError: 1.25988e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.66013e-03\tAbsError: 1.81030e+12\n", + " Region: \"zone_1\"\tRelError: 6.83848e-04\tAbsError: 2.20908e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.83218e-04\tAbsError: 2.13698e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.29499e-07\tAbsError: 2.18771e-04\n", + " Region: \"zone_3\"\tRelError: 3.97628e-03\tAbsError: 1.81030e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.57910e-04\tAbsError: 5.71047e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.59751e-04\tAbsError: 1.23926e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.55799e-03\tAbsError: 2.13935e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.29499e-07\tAbsError: 2.18771e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 7.92825e-04\tAbsError: 7.64423e+10\n", + " Region: \"zone_1\"\tRelError: 6.01230e-04\tAbsError: 2.80077e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.01222e-04\tAbsError: 6.50022e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.85825e-09\tAbsError: 2.73577e-06\n", + " Region: \"zone_3\"\tRelError: 1.91595e-04\tAbsError: 7.64423e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.08323e-06\tAbsError: 3.16055e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.02571e-06\tAbsError: 4.48368e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77478e-04\tAbsError: 6.53128e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.86287e-09\tAbsError: 2.73743e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.81369e-01\tAbsError: 1.65118e+13\n", + " Region: \"zone_1\"\tRelError: 1.13683e-01\tAbsError: 2.48930e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13676e-01\tAbsError: 7.97182e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", + " Region: \"zone_3\"\tRelError: 6.76863e-02\tAbsError: 1.65118e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.50220e-02\tAbsError: 9.05581e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.84537e-03\tAbsError: 7.45604e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 9.81196e-03\tAbsError: 8.36703e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 7.33109e-05\tAbsError: 1.99171e+09\n", + " Region: \"zone_1\"\tRelError: 6.45108e-05\tAbsError: 3.50573e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 6.45098e-05\tAbsError: 1.06453e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00585e-09\tAbsError: 3.49509e-07\n", + " Region: \"zone_3\"\tRelError: 8.80007e-06\tAbsError: 1.99171e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03719e-07\tAbsError: 1.17952e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03272e-07\tAbsError: 8.12185e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 8.59208e-06\tAbsError: 1.10473e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00600e-09\tAbsError: 3.49562e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:02\u001b[0m.\u001b[1;36m982\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.7000000000000001\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.99885e-04\tAbsError: 1.03856e+11\n", + " Region: \"zone_1\"\tRelError: 1.59108e-04\tAbsError: 8.49171e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.58864e-04\tAbsError: 5.92152e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.44320e-07\tAbsError: 8.48579e-05\n", + " Region: \"zone_3\"\tRelError: 3.40778e-04\tAbsError: 1.03856e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.18070e-06\tAbsError: 7.59415e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.10237e-06\tAbsError: 2.79147e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.24250e-04\tAbsError: 6.22638e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.44435e-07\tAbsError: 8.48959e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.04302e-04\tAbsError: 1.69873e+11\n", + " Region: \"zone_1\"\tRelError: 1.21025e-04\tAbsError: 1.10965e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20706e-04\tAbsError: 1.10497e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.19264e-07\tAbsError: 1.10854e-04\n", + " Region: \"zone_3\"\tRelError: 5.83276e-04\tAbsError: 1.69873e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01956e-05\tAbsError: 1.15007e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.00614e-05\tAbsError: 5.48653e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.62700e-04\tAbsError: 1.15313e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.19307e-07\tAbsError: 1.10871e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 9.53700e-06\tAbsError: 1.98539e+09\n", + " Region: \"zone_1\"\tRelError: 6.19364e-06\tAbsError: 4.43903e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.18087e-06\tAbsError: 9.79483e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27657e-08\tAbsError: 4.43805e-06\n", + " Region: \"zone_3\"\tRelError: 3.34336e-06\tAbsError: 1.98539e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.26061e-07\tAbsError: 1.76204e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.03253e-07\tAbsError: 2.23352e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 2.90128e-06\tAbsError: 1.01624e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27671e-08\tAbsError: 4.43858e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:03\u001b[0m.\u001b[1;36m664\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:03\u001b[0m.\u001b[1;36m664\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30999999999999994\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 7.11615e-03\tAbsError: 1.08851e+12\n", + " Region: \"zone_1\"\tRelError: 5.30759e-03\tAbsError: 1.67972e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.30711e-03\tAbsError: 1.45981e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", + " Region: \"zone_3\"\tRelError: 1.80856e-03\tAbsError: 1.08851e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43945e-04\tAbsError: 2.92186e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.94756e-05\tAbsError: 7.96320e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.56466e-03\tAbsError: 1.47422e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.94222e+01\tAbsError: 1.62190e+16\n", + " Region: \"zone_1\"\tRelError: 2.76662e+01\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.76662e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.29578e-10\tAbsError: 1.49268e-07\n", + " Region: \"zone_3\"\tRelError: 1.75598e+00\tAbsError: 1.62190e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69267e-01\tAbsError: 8.18784e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.68971e-01\tAbsError: 8.03117e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.17740e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.29628e-10\tAbsError: 1.49286e-07\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.82167e-04\tAbsError: 7.86600e+10\n", + " Region: \"zone_1\"\tRelError: 8.64932e-05\tAbsError: 3.28075e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.64839e-05\tAbsError: 6.72220e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.23076e-09\tAbsError: 3.21353e-06\n", + " Region: \"zone_3\"\tRelError: 1.95674e-04\tAbsError: 7.86600e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.24753e-06\tAbsError: 3.22967e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.18839e-06\tAbsError: 4.63633e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.81229e-04\tAbsError: 6.75257e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.23600e-09\tAbsError: 3.21543e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.69952e-04\tAbsError: 1.04746e+11\n", + " Region: \"zone_1\"\tRelError: 6.23923e-05\tAbsError: 6.08693e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.23750e-05\tAbsError: 7.30344e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72792e-08\tAbsError: 6.01389e-06\n", + " Region: \"zone_3\"\tRelError: 3.07560e-04\tAbsError: 1.04746e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.47306e-06\tAbsError: 4.76665e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.41953e-06\tAbsError: 5.70795e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.94650e-04\tAbsError: 7.47231e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72864e-08\tAbsError: 6.01657e-06\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.59900e-03\tAbsError: 1.40711e+11\n", + " Region: \"zone_1\"\tRelError: 2.06948e-03\tAbsError: 6.41578e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06929e-03\tAbsError: 9.09489e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84503e-07\tAbsError: 6.40668e-05\n", + " Region: \"zone_3\"\tRelError: 5.29527e-04\tAbsError: 1.40711e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.39801e-06\tAbsError: 9.47438e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.30618e-06\tAbsError: 4.59673e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.12638e-04\tAbsError: 9.48359e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84568e-07\tAbsError: 6.40878e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 4.43666e+01\tAbsError: 8.70090e+15\n", + " Region: \"zone_1\"\tRelError: 4.27079e+01\tAbsError: 4.19631e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.27079e+01\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.30451e-10\tAbsError: 1.84559e-07\n", + " Region: \"zone_3\"\tRelError: 1.65874e+00\tAbsError: 8.70090e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78165e-01\tAbsError: 4.97235e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.78147e-01\tAbsError: 3.72855e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02426e-01\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.30651e-10\tAbsError: 1.84628e-07\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.57455e+00\tAbsError: 1.59389e+16\n", + " Region: \"zone_1\"\tRelError: 1.04759e+00\tAbsError: 1.06162e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04737e+00\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17045e-04\tAbsError: 7.53990e-02\n", + " Region: \"zone_3\"\tRelError: 1.52696e+00\tAbsError: 1.59389e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37511e-01\tAbsError: 7.87332e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.04735e-01\tAbsError: 8.06553e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.84502e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17045e-04\tAbsError: 7.53990e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.46289e-06\tAbsError: 2.26082e+09\n", + " Region: \"zone_1\"\tRelError: 1.63757e-06\tAbsError: 4.53256e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.62453e-06\tAbsError: 1.22136e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.30342e-08\tAbsError: 4.53134e-06\n", + " Region: \"zone_3\"\tRelError: 4.82532e-06\tAbsError: 2.26082e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.34861e-07\tAbsError: 2.04550e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.09305e-07\tAbsError: 2.15318e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 4.36812e-06\tAbsError: 1.26903e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.30354e-08\tAbsError: 4.53183e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.62562e-05\tAbsError: 4.80597e+09\n", + " Region: \"zone_1\"\tRelError: 2.76618e-06\tAbsError: 6.02701e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.74884e-06\tAbsError: 2.93870e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73352e-08\tAbsError: 6.02407e-06\n", + " Region: \"zone_3\"\tRelError: 1.34900e-05\tAbsError: 4.80597e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.86829e-07\tAbsError: 3.77211e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.31164e-07\tAbsError: 1.03387e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29547e-05\tAbsError: 3.05777e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73383e-08\tAbsError: 6.02527e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:06\u001b[0m.\u001b[1;36m206\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:06\u001b[0m.\u001b[1;36m206\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.31999999999999995\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:06\u001b[0m.\u001b[1;36m279\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:06\u001b[0m.\u001b[1;36m279\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6277777777777779\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 6.84757e-04\tAbsError: 5.79873e+10\n", + " Region: \"zone_1\"\tRelError: 5.39232e-04\tAbsError: 6.69464e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.39213e-04\tAbsError: 4.49143e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91058e-08\tAbsError: 6.64972e-06\n", + " Region: \"zone_3\"\tRelError: 1.45525e-04\tAbsError: 5.79873e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.71562e-06\tAbsError: 2.34463e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.68397e-06\tAbsError: 3.45410e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.38106e-04\tAbsError: 4.56915e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91137e-08\tAbsError: 6.65261e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.85241e+00\tAbsError: 3.18768e+14\n", + " Region: \"zone_1\"\tRelError: 3.74188e-01\tAbsError: 9.09797e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.74018e-01\tAbsError: 3.19528e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69811e-04\tAbsError: 5.90269e-02\n", + " Region: \"zone_3\"\tRelError: 1.47822e+00\tAbsError: 3.18768e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.53655e-01\tAbsError: 1.86103e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.48046e-01\tAbsError: 1.32665e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.63467e-02\tAbsError: 3.19533e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69811e-04\tAbsError: 5.90269e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.14822e+00\tAbsError: 9.83178e+15\n", + " Region: \"zone_1\"\tRelError: 1.39457e-01\tAbsError: 7.32841e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39320e-01\tAbsError: 2.58400e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36592e-04\tAbsError: 4.74441e-02\n", + " Region: \"zone_3\"\tRelError: 1.00877e+00\tAbsError: 9.83178e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43427e-01\tAbsError: 4.83336e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.90483e-01\tAbsError: 4.99841e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74720e-01\tAbsError: 2.58193e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36592e-04\tAbsError: 4.74441e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.59100e+01\tAbsError: 9.11397e+15\n", + " Region: \"zone_1\"\tRelError: 1.42309e+01\tAbsError: 4.29340e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.42309e+01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.96085e-10\tAbsError: 1.72605e-07\n", + " Region: \"zone_3\"\tRelError: 1.67911e+00\tAbsError: 9.11397e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86093e-01\tAbsError: 5.21673e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.86076e-01\tAbsError: 3.89724e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06942e-01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.96287e-10\tAbsError: 1.72675e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.18088e+00\tAbsError: 8.89482e+15\n", + " Region: \"zone_1\"\tRelError: 3.44104e+00\tAbsError: 4.20727e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.44104e+00\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.26342e-10\tAbsError: 1.13537e-07\n", + " Region: \"zone_3\"\tRelError: 1.73984e+00\tAbsError: 8.89482e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.79052e-01\tAbsError: 4.78450e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.78927e-01\tAbsError: 4.11032e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.81864e-01\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.26495e-10\tAbsError: 1.13589e-07\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.02364e-04\tAbsError: 5.62247e+09\n", + " Region: \"zone_1\"\tRelError: 8.15379e-05\tAbsError: 3.03368e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.15291e-05\tAbsError: 3.57289e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.71937e-09\tAbsError: 3.03011e-06\n", + " Region: \"zone_3\"\tRelError: 2.08260e-05\tAbsError: 5.62247e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.14319e-07\tAbsError: 4.05602e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.09034e-07\tAbsError: 1.56645e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.01939e-05\tAbsError: 3.71851e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.71944e-09\tAbsError: 3.03019e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 7.14483e+00\tAbsError: 3.41864e+13\n", + " Region: \"zone_1\"\tRelError: 6.13267e+00\tAbsError: 3.19414e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.13265e+00\tAbsError: 2.58787e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.74411e-05\tAbsError: 6.06270e-03\n", + " Region: \"zone_3\"\tRelError: 1.01216e+00\tAbsError: 3.41864e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.64045e-01\tAbsError: 2.44518e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.34593e-01\tAbsError: 9.73459e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13508e-01\tAbsError: 2.58986e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.74411e-05\tAbsError: 6.06270e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 9.17087e-01\tAbsError: 2.70112e+15\n", + " Region: \"zone_1\"\tRelError: 4.13278e-01\tAbsError: 1.18036e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.12964e-01\tAbsError: 9.16529e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.13541e-04\tAbsError: 1.08871e-01\n", + " Region: \"zone_3\"\tRelError: 5.03809e-01\tAbsError: 2.70112e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.83333e-01\tAbsError: 1.43386e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03452e-01\tAbsError: 1.26726e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.16711e-01\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.13541e-04\tAbsError: 1.08871e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.59689e+00\tAbsError: 3.48565e+14\n", + " Region: \"zone_1\"\tRelError: 8.68274e-02\tAbsError: 9.46608e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.66503e-02\tAbsError: 3.31004e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77102e-04\tAbsError: 6.15604e-02\n", + " Region: \"zone_3\"\tRelError: 1.51007e+00\tAbsError: 3.48565e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67462e-01\tAbsError: 2.05903e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.63037e-01\tAbsError: 1.42662e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.93898e-02\tAbsError: 3.31008e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77102e-04\tAbsError: 6.15604e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.86658e+00\tAbsError: 4.79765e+15\n", + " Region: \"zone_1\"\tRelError: 3.33843e-01\tAbsError: 7.09823e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.33731e-01\tAbsError: 3.20821e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11951e-04\tAbsError: 3.89002e-02\n", + " Region: \"zone_3\"\tRelError: 1.53274e+00\tAbsError: 4.79765e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.55885e-01\tAbsError: 2.27341e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.29604e-01\tAbsError: 2.52424e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.47140e-01\tAbsError: 3.20822e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11951e-04\tAbsError: 3.89002e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.62672e-05\tAbsError: 3.10482e+09\n", + " Region: \"zone_1\"\tRelError: 3.66806e-05\tAbsError: 2.21724e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 3.66799e-05\tAbsError: 2.06476e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.31104e-10\tAbsError: 2.19659e-07\n", + " Region: \"zone_3\"\tRelError: 9.58660e-06\tAbsError: 3.10482e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88628e-07\tAbsError: 1.51763e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.86687e-07\tAbsError: 1.58719e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 9.21065e-06\tAbsError: 2.10348e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.31398e-10\tAbsError: 2.19764e-07\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 7.86366e-01\tAbsError: 5.21058e+12\n", + " Region: \"zone_1\"\tRelError: 4.88854e-01\tAbsError: 1.32754e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.88846e-01\tAbsError: 1.06618e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.51860e-06\tAbsError: 2.61359e-03\n", + " Region: \"zone_3\"\tRelError: 2.97512e-01\tAbsError: 5.21058e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.18585e-01\tAbsError: 2.63420e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.77304e-02\tAbsError: 2.57639e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.11889e-02\tAbsError: 1.06618e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.52103e-06\tAbsError: 2.61444e-03\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:09\u001b[0m.\u001b[1;36m494\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.6\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 4.27279e-01\tAbsError: 8.17053e+14\n", + " Region: \"zone_1\"\tRelError: 1.09940e-01\tAbsError: 2.21034e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09304e-01\tAbsError: 3.29075e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.36020e-04\tAbsError: 2.20705e-01\n", + " Region: \"zone_3\"\tRelError: 3.17339e-01\tAbsError: 8.17053e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.72653e-02\tAbsError: 1.99598e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.68899e-02\tAbsError: 6.17455e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.42547e-01\tAbsError: 3.29140e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.36020e-04\tAbsError: 2.20705e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.22886e+00\tAbsError: 4.42708e+13\n", + " Region: \"zone_1\"\tRelError: 1.58984e-01\tAbsError: 3.21171e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.58965e-01\tAbsError: 2.55032e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.90270e-05\tAbsError: 6.61387e-03\n", + " Region: \"zone_3\"\tRelError: 1.06988e+00\tAbsError: 4.42708e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.86765e-01\tAbsError: 3.24991e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.63795e-01\tAbsError: 1.17717e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19299e-01\tAbsError: 2.58497e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.90270e-05\tAbsError: 6.61387e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.14845e+00\tAbsError: 3.47817e+15\n", + " Region: \"zone_1\"\tRelError: 1.23170e-01\tAbsError: 3.19890e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.23152e-01\tAbsError: 2.58241e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77415e-05\tAbsError: 6.16481e-03\n", + " Region: \"zone_3\"\tRelError: 1.02528e+00\tAbsError: 3.47817e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.72014e-01\tAbsError: 1.60123e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.20395e-01\tAbsError: 1.87695e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.32856e-01\tAbsError: 2.56660e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77630e-05\tAbsError: 6.17222e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 3.16100e-01\tAbsError: 2.21306e+12\n", + " Region: \"zone_1\"\tRelError: 2.42523e-01\tAbsError: 2.37532e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.42516e-01\tAbsError: 2.24934e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.83356e-06\tAbsError: 2.37307e-03\n", + " Region: \"zone_3\"\tRelError: 7.35763e-02\tAbsError: 2.21306e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.61069e-02\tAbsError: 1.47912e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.09117e-04\tAbsError: 7.33941e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 7.25338e-03\tAbsError: 2.33234e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.83356e-06\tAbsError: 2.37307e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.94073e+01\tAbsError: 8.32958e+15\n", + " Region: \"zone_1\"\tRelError: 1.77016e+01\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77016e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.06764e-10\tAbsError: 1.76108e-07\n", + " Region: \"zone_3\"\tRelError: 1.70569e+00\tAbsError: 8.32958e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69637e-01\tAbsError: 4.59097e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69532e-01\tAbsError: 3.73860e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66519e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.06930e-10\tAbsError: 1.76171e-07\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 7.01035e-01\tAbsError: 1.64733e+14\n", + " Region: \"zone_1\"\tRelError: 2.03094e-01\tAbsError: 1.60100e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03048e-01\tAbsError: 7.96658e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.59052e-05\tAbsError: 1.59303e-02\n", + " Region: \"zone_3\"\tRelError: 4.97941e-01\tAbsError: 1.64733e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17881e-03\tAbsError: 7.88164e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.07895e-03\tAbsError: 8.59168e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.85637e-01\tAbsError: 8.00849e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.59052e-05\tAbsError: 1.59303e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.71219e-01\tAbsError: 6.21215e+12\n", + " Region: \"zone_1\"\tRelError: 2.71681e-02\tAbsError: 1.54198e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.71591e-02\tAbsError: 1.22657e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.07418e-06\tAbsError: 3.15411e-03\n", + " Region: \"zone_3\"\tRelError: 3.44051e-01\tAbsError: 6.21215e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.44544e-01\tAbsError: 3.16237e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.45424e-02\tAbsError: 3.04979e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49548e-02\tAbsError: 1.22658e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.07667e-06\tAbsError: 3.15512e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.84622e-01\tAbsError: 1.19910e+15\n", + " Region: \"zone_1\"\tRelError: 9.36472e-02\tAbsError: 3.32184e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.35828e-02\tAbsError: 1.08350e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.44226e-05\tAbsError: 2.23834e-02\n", + " Region: \"zone_3\"\tRelError: 3.90975e-01\tAbsError: 1.19910e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.14567e-01\tAbsError: 6.37142e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.33113e-01\tAbsError: 5.61954e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.32306e-02\tAbsError: 1.08351e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.44226e-05\tAbsError: 2.23834e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.21034e-02\tAbsError: 1.17870e+12\n", + " Region: \"zone_1\"\tRelError: 6.00476e-02\tAbsError: 9.78333e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.00474e-02\tAbsError: 1.73477e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.76068e-07\tAbsError: 9.60986e-05\n", + " Region: \"zone_3\"\tRelError: 2.05571e-03\tAbsError: 1.17870e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.40860e-04\tAbsError: 3.24945e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.38116e-04\tAbsError: 8.53756e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77646e-03\tAbsError: 1.74090e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.76193e-07\tAbsError: 9.61438e-05\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.07616e+01\tAbsError: 3.02291e+15\n", + " Region: \"zone_1\"\tRelError: 9.27113e+00\tAbsError: 6.52674e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.27103e+00\tAbsError: 3.07634e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.92954e-05\tAbsError: 3.45040e-02\n", + " Region: \"zone_3\"\tRelError: 1.49044e+00\tAbsError: 3.02291e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.40308e-01\tAbsError: 1.49698e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.14159e-01\tAbsError: 1.52592e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35875e-01\tAbsError: 3.07635e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.92954e-05\tAbsError: 3.45040e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.04323e-01\tAbsError: 1.53102e+13\n", + " Region: \"zone_1\"\tRelError: 3.15774e-02\tAbsError: 7.15567e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.15568e-02\tAbsError: 7.10876e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.05999e-05\tAbsError: 7.14856e-03\n", + " Region: \"zone_3\"\tRelError: 7.27454e-02\tAbsError: 1.53102e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.94207e-04\tAbsError: 7.65839e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.98721e-04\tAbsError: 7.65181e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.15319e-02\tAbsError: 7.17354e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.06009e-05\tAbsError: 7.14900e-03\n", + "Iteration: 4\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.10597e-01\tAbsError: 2.17642e+14\n", + " Region: \"zone_1\"\tRelError: 5.93953e-03\tAbsError: 2.27414e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.87457e-03\tAbsError: 1.87837e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.49665e-05\tAbsError: 2.25536e-02\n", + " Region: \"zone_3\"\tRelError: 1.04658e-01\tAbsError: 2.17642e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.10024e-02\tAbsError: 1.28740e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.57541e-03\tAbsError: 8.89018e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.40148e-02\tAbsError: 1.94966e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.49665e-05\tAbsError: 2.25536e-02\n", + " Device: \"device\"\tRelError: 9.89806e-02\tAbsError: 2.63223e+12\n", + " Region: \"zone_1\"\tRelError: 1.18037e-02\tAbsError: 2.01002e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17979e-02\tAbsError: 4.44609e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.77536e-06\tAbsError: 2.00557e-03\n", + " Region: \"zone_3\"\tRelError: 8.71768e-02\tAbsError: 2.63223e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.79784e-02\tAbsError: 1.72107e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.64930e-04\tAbsError: 9.11160e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 8.82774e-03\tAbsError: 4.85959e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.77536e-06\tAbsError: 2.00557e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 9.04188e-03\tAbsError: 7.61005e+10\n", + " Region: \"zone_1\"\tRelError: 8.78012e-03\tAbsError: 7.15921e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 8.77992e-03\tAbsError: 4.50957e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.06023e-07\tAbsError: 7.15470e-05\n", + " Region: \"zone_3\"\tRelError: 2.61754e-04\tAbsError: 7.61005e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.33533e-06\tAbsError: 5.83295e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.07541e-06\tAbsError: 1.77711e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.51137e-04\tAbsError: 4.71800e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.06123e-07\tAbsError: 7.15827e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.22732e+00\tAbsError: 2.06865e+15\n", + " Region: \"zone_1\"\tRelError: 2.78568e-01\tAbsError: 2.74627e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78563e-01\tAbsError: 2.58185e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73142e-06\tAbsError: 1.64416e-03\n", + " Region: \"zone_3\"\tRelError: 9.48751e-01\tAbsError: 2.06865e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.44918e-01\tAbsError: 9.02348e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.89155e-01\tAbsError: 1.16630e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14673e-01\tAbsError: 2.51147e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73142e-06\tAbsError: 1.64416e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.82885e-02\tAbsError: 7.75343e+12\n", + " Region: \"zone_1\"\tRelError: 1.74263e-02\tAbsError: 1.11082e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74231e-02\tAbsError: 3.27682e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.18949e-06\tAbsError: 1.10754e-03\n", + " Region: \"zone_3\"\tRelError: 4.08622e-02\tAbsError: 7.75343e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.01160e-04\tAbsError: 3.88269e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.99390e-04\tAbsError: 3.87074e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.02585e-02\tAbsError: 3.34987e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.19059e-06\tAbsError: 1.10796e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.68793e-02\tAbsError: 1.13806e+13\n", + " Region: \"zone_1\"\tRelError: 3.05155e-03\tAbsError: 2.63465e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.05082e-03\tAbsError: 9.56254e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.29620e-07\tAbsError: 2.53902e-04\n", + " Region: \"zone_3\"\tRelError: 3.38277e-02\tAbsError: 1.13806e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.73812e-04\tAbsError: 4.54978e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.93557e-04\tAbsError: 6.83078e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.21596e-02\tAbsError: 9.77882e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.29928e-07\tAbsError: 2.54016e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.30530e-03\tAbsError: 9.78003e+11\n", + " Region: \"zone_1\"\tRelError: 1.14749e-03\tAbsError: 1.38882e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14710e-03\tAbsError: 1.45671e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.94799e-07\tAbsError: 1.37425e-04\n", + " Region: \"zone_3\"\tRelError: 1.15781e-03\tAbsError: 9.78003e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.11703e-04\tAbsError: 2.41528e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.06316e-04\tAbsError: 7.36475e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 9.39392e-04\tAbsError: 1.46178e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.94968e-07\tAbsError: 1.37486e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.96510e-03\tAbsError: 6.67503e+10\n", + " Region: \"zone_1\"\tRelError: 5.78981e-03\tAbsError: 2.05708e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.78981e-03\tAbsError: 5.92280e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.73914e-09\tAbsError: 1.99785e-06\n", + " Region: \"zone_3\"\tRelError: 1.75286e-04\tAbsError: 6.67503e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.50783e-06\tAbsError: 2.76624e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.46016e-06\tAbsError: 3.90878e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.64312e-04\tAbsError: 5.92735e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.74272e-09\tAbsError: 1.99915e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 7.18897e+00\tAbsError: 6.29402e+14\n", + " Region: \"zone_1\"\tRelError: 6.86170e+00\tAbsError: 2.22868e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.86166e+00\tAbsError: 9.16572e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.77613e-05\tAbsError: 1.31211e-02\n", + " Region: \"zone_3\"\tRelError: 3.27267e-01\tAbsError: 6.29402e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84319e-01\tAbsError: 3.28649e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.08857e-01\tAbsError: 3.00753e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.40527e-02\tAbsError: 9.16579e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.77613e-05\tAbsError: 1.31211e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.09210e-02\tAbsError: 1.22286e+12\n", + " Region: \"zone_1\"\tRelError: 3.28469e-03\tAbsError: 4.72819e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.28333e-03\tAbsError: 4.87030e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36013e-06\tAbsError: 4.72332e-04\n", + " Region: \"zone_3\"\tRelError: 7.63634e-03\tAbsError: 1.22286e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.75678e-05\tAbsError: 6.11672e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.73305e-05\tAbsError: 6.11193e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 7.54008e-03\tAbsError: 5.02425e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36049e-06\tAbsError: 4.72455e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.03979e-04\tAbsError: 2.18534e+11\n", + " Region: \"zone_1\"\tRelError: 1.60281e-05\tAbsError: 7.35130e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39125e-05\tAbsError: 1.32164e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.11558e-06\tAbsError: 7.34998e-04\n", + " Region: \"zone_3\"\tRelError: 1.87951e-04\tAbsError: 2.18534e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43155e-05\tAbsError: 1.73222e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.05806e-06\tAbsError: 4.53126e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.64462e-04\tAbsError: 1.32403e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.11561e-06\tAbsError: 7.35020e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 9.98595e-04\tAbsError: 1.18398e+11\n", + " Region: \"zone_1\"\tRelError: 5.54916e-04\tAbsError: 5.37957e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.54761e-04\tAbsError: 7.07360e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54699e-07\tAbsError: 5.37249e-05\n", + " Region: \"zone_3\"\tRelError: 4.43679e-04\tAbsError: 1.18398e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.67115e-06\tAbsError: 8.17908e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.59258e-06\tAbsError: 3.66073e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.26261e-04\tAbsError: 7.44323e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54699e-07\tAbsError: 5.37249e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 4.04179e-05\tAbsError: 1.70330e+09\n", + " Region: \"zone_1\"\tRelError: 3.88667e-05\tAbsError: 3.90113e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.88554e-05\tAbsError: 6.75226e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12212e-08\tAbsError: 3.90046e-06\n", + " Region: \"zone_3\"\tRelError: 1.55121e-06\tAbsError: 1.70330e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50666e-07\tAbsError: 1.31512e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.21755e-07\tAbsError: 3.88171e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 1.26756e-06\tAbsError: 6.93990e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12225e-08\tAbsError: 3.90096e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.42105e-01\tAbsError: 9.57843e+13\n", + " Region: \"zone_1\"\tRelError: 5.64317e-01\tAbsError: 1.44974e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.64276e-01\tAbsError: 1.24104e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14024e-05\tAbsError: 1.43733e-02\n", + " Region: \"zone_3\"\tRelError: 7.77880e-02\tAbsError: 9.57843e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.25473e-02\tAbsError: 4.71405e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.65020e-03\tAbsError: 4.86438e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.95491e-02\tAbsError: 1.28397e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14024e-05\tAbsError: 1.43733e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:16\u001b[0m.\u001b[1;36m499\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:16\u001b[0m.\u001b[1;36m499\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.4149999999999999\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.38843e-03\tAbsError: 5.18838e+11\n", + " Region: \"zone_1\"\tRelError: 1.31867e-03\tAbsError: 9.39018e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31840e-03\tAbsError: 1.99779e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69826e-07\tAbsError: 9.37020e-05\n", + " Region: \"zone_3\"\tRelError: 3.06976e-03\tAbsError: 5.18838e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95362e-05\tAbsError: 2.68345e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.93671e-05\tAbsError: 2.50493e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.03058e-03\tAbsError: 2.07424e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69859e-07\tAbsError: 9.37138e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.91239e-03\tAbsError: 7.09181e+11\n", + " Region: \"zone_1\"\tRelError: 2.49097e-04\tAbsError: 3.52425e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.48997e-04\tAbsError: 3.65197e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00466e-07\tAbsError: 3.48773e-05\n", + " Region: \"zone_3\"\tRelError: 2.66329e-03\tAbsError: 7.09181e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.58653e-05\tAbsError: 3.59049e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.57679e-05\tAbsError: 3.50132e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.59156e-03\tAbsError: 3.83392e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00492e-07\tAbsError: 3.48870e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.20992e-04\tAbsError: 4.75382e+10\n", + " Region: \"zone_1\"\tRelError: 1.19915e-04\tAbsError: 5.94017e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19898e-04\tAbsError: 4.49644e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69359e-08\tAbsError: 5.89520e-06\n", + " Region: \"zone_3\"\tRelError: 1.01077e-04\tAbsError: 4.75382e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.86193e-06\tAbsError: 1.68091e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.82821e-06\tAbsError: 3.07291e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 9.33703e-05\tAbsError: 4.50130e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69437e-08\tAbsError: 5.89805e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.36557e-01\tAbsError: 7.18470e+12\n", + " Region: \"zone_1\"\tRelError: 1.16158e-01\tAbsError: 1.78279e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16157e-01\tAbsError: 6.59165e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.94530e-07\tAbsError: 1.71687e-04\n", + " Region: \"zone_3\"\tRelError: 2.03993e-02\tAbsError: 7.18470e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.98223e-04\tAbsError: 2.78831e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.37326e-04\tAbsError: 4.39639e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.92632e-02\tAbsError: 6.83641e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.94530e-07\tAbsError: 1.71687e-04\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 9.50080e-04\tAbsError: 1.03863e+11\n", + " Region: \"zone_1\"\tRelError: 2.85910e-04\tAbsError: 3.37412e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.85814e-04\tAbsError: 4.14946e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.68675e-08\tAbsError: 3.36997e-05\n", + " Region: \"zone_3\"\tRelError: 6.64170e-04\tAbsError: 1.03863e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.88184e-06\tAbsError: 5.40187e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.85553e-06\tAbsError: 4.98443e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 6.56335e-04\tAbsError: 4.30256e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.69043e-08\tAbsError: 3.37128e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.20815e+01\tAbsError: 8.67564e+15\n", + " Region: \"zone_1\"\tRelError: 1.04115e+01\tAbsError: 4.19631e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04115e+01\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.25512e-10\tAbsError: 1.82505e-07\n", + " Region: \"zone_3\"\tRelError: 1.67004e+00\tAbsError: 8.67564e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78190e-01\tAbsError: 5.09472e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.78169e-01\tAbsError: 3.58092e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13676e-01\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.25512e-10\tAbsError: 1.82505e-07\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.24916e-04\tAbsError: 3.32660e+10\n", + " Region: \"zone_1\"\tRelError: 1.94731e-05\tAbsError: 4.52188e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.93431e-05\tAbsError: 2.17514e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.30085e-07\tAbsError: 4.51970e-05\n", + " Region: \"zone_3\"\tRelError: 2.05443e-04\tAbsError: 3.32660e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.93944e-06\tAbsError: 1.53287e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.96480e-06\tAbsError: 1.79373e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.01409e-04\tAbsError: 2.25864e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.30134e-07\tAbsError: 4.52143e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 4.02467e-05\tAbsError: 4.79398e+09\n", + " Region: \"zone_1\"\tRelError: 2.23553e-05\tAbsError: 2.42948e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.23483e-05\tAbsError: 2.94730e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.98740e-09\tAbsError: 2.42654e-06\n", + " Region: \"zone_3\"\tRelError: 1.78914e-05\tAbsError: 4.79398e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.44215e-07\tAbsError: 3.54889e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.39137e-07\tAbsError: 1.24509e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72010e-05\tAbsError: 3.09105e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.98888e-09\tAbsError: 2.42708e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:19\u001b[0m.\u001b[1;36m018\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:19\u001b[0m.\u001b[1;36m018\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.42999999999999994\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Iteration: 11\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + " Device: \"device\"\tRelError: 3.25927e-04\tAbsError: 3.72019e+10\n", + " Region: \"zone_1\"\tRelError: 9.80813e-05\tAbsError: 7.68282e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 9.80593e-05\tAbsError: 1.46928e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.20415e-08\tAbsError: 7.66812e-06\n", + " Region: \"zone_3\"\tRelError: 2.27846e-04\tAbsError: 3.72019e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.36089e-06\tAbsError: 1.97599e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.34801e-06\tAbsError: 1.74420e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.25115e-04\tAbsError: 1.52180e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.20501e-08\tAbsError: 7.67121e-06\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "Iteration: 6\n", + "number of equations 31816\n", + " Device: \"device\"\tRelError: 3.13498e-03\tAbsError: 1.41105e+11\n", + " Region: \"zone_1\"\tRelError: 2.73398e-03\tAbsError: 4.76357e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.73260e-03\tAbsError: 1.35633e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37060e-06\tAbsError: 4.76221e-04\n", + " Region: \"zone_3\"\tRelError: 4.01007e-04\tAbsError: 1.41105e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.96062e-06\tAbsError: 6.85210e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.81427e-06\tAbsError: 7.25836e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.87862e-04\tAbsError: 1.38229e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37060e-06\tAbsError: 4.76221e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.73360e+00\tAbsError: 3.35480e+14\n", + " Region: \"zone_1\"\tRelError: 2.38462e-01\tAbsError: 8.41052e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.38311e-01\tAbsError: 3.19528e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.50056e-04\tAbsError: 5.21524e-02\n", + " Region: \"zone_3\"\tRelError: 1.49514e+00\tAbsError: 3.35480e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.54534e-01\tAbsError: 2.44689e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.47448e-01\tAbsError: 9.07907e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.30055e-02\tAbsError: 3.19532e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.50056e-04\tAbsError: 5.21524e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.07837e-04\tAbsError: 4.44485e+10\n", + " Region: \"zone_1\"\tRelError: 1.78877e-05\tAbsError: 4.90272e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.78736e-05\tAbsError: 2.11659e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.40500e-08\tAbsError: 4.88155e-06\n", + " Region: \"zone_3\"\tRelError: 1.89950e-04\tAbsError: 4.44485e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.17511e-06\tAbsError: 2.50623e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.16753e-06\tAbsError: 1.93862e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.85593e-04\tAbsError: 2.23490e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.40541e-08\tAbsError: 4.88301e-06\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 7.72661e-05\tAbsError: 8.43440e+09\n", + " Region: \"zone_1\"\tRelError: 2.32650e-05\tAbsError: 2.49052e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.32578e-05\tAbsError: 3.39814e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.14902e-09\tAbsError: 2.48712e-06\n", + " Region: \"zone_3\"\tRelError: 5.40011e-05\tAbsError: 8.43440e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.08161e-07\tAbsError: 4.47974e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.05735e-07\tAbsError: 3.95466e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 5.33800e-05\tAbsError: 3.51782e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.15190e-09\tAbsError: 2.48816e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:20\u001b[0m.\u001b[1;36m339\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.8\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.31814e-02\tAbsError: 4.58362e+11\n", + " Region: \"zone_1\"\tRelError: 1.15315e-02\tAbsError: 2.80900e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15314e-02\tAbsError: 2.57528e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.01667e-08\tAbsError: 2.78324e-05\n", + " Region: \"zone_3\"\tRelError: 1.64997e-03\tAbsError: 4.58362e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47024e-05\tAbsError: 2.30121e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.45967e-05\tAbsError: 2.28241e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.60059e-03\tAbsError: 2.62890e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.01667e-08\tAbsError: 2.78324e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.20945e+01\tAbsError: 9.08577e+15\n", + " Region: \"zone_1\"\tRelError: 2.04049e+01\tAbsError: 4.29340e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.04049e+01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.00423e-10\tAbsError: 2.09004e-07\n", + " Region: \"zone_3\"\tRelError: 1.68962e+00\tAbsError: 9.08577e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86117e-01\tAbsError: 5.34441e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.86097e-01\tAbsError: 3.74136e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17405e-01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.00698e-10\tAbsError: 2.09103e-07\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.09215e+00\tAbsError: 7.66077e+13\n", + " Region: \"zone_1\"\tRelError: 7.77139e-02\tAbsError: 3.29192e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.76937e-02\tAbsError: 2.58684e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.02868e-05\tAbsError: 7.05086e-03\n", + " Region: \"zone_3\"\tRelError: 1.01444e+00\tAbsError: 7.66077e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.64635e-01\tAbsError: 4.57472e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.42937e-01\tAbsError: 3.08605e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06843e-01\tAbsError: 2.58845e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.02868e-05\tAbsError: 7.05086e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.81036e-05\tAbsError: 4.66807e+09\n", + " Region: \"zone_1\"\tRelError: 2.43253e-06\tAbsError: 3.06352e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.42372e-06\tAbsError: 2.50658e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.81013e-09\tAbsError: 3.06101e-06\n", + " Region: \"zone_3\"\tRelError: 2.56711e-05\tAbsError: 4.66807e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.45544e-07\tAbsError: 2.66353e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.46673e-07\tAbsError: 2.00454e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.51700e-05\tAbsError: 2.62757e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.81170e-09\tAbsError: 3.06156e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:21\u001b[0m.\u001b[1;36m434\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:21\u001b[0m.\u001b[1;36m434\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7333333333333334\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.25913e-03\tAbsError: 2.71128e+10\n", + " Region: \"zone_1\"\tRelError: 1.10973e-03\tAbsError: 2.99279e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10965e-03\tAbsError: 1.77983e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.60783e-08\tAbsError: 2.99101e-05\n", + " Region: \"zone_3\"\tRelError: 1.49391e-04\tAbsError: 2.71128e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.61984e-06\tAbsError: 1.29863e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.63350e-06\tAbsError: 1.41265e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.46052e-04\tAbsError: 1.82225e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.61134e-08\tAbsError: 2.99224e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.91796e+01\tAbsError: 8.00136e+16\n", + " Region: \"zone_1\"\tRelError: 1.61687e+01\tAbsError: 4.09548e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.61687e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75011e-09\tAbsError: 6.08861e-07\n", + " Region: \"zone_3\"\tRelError: 3.01093e+00\tAbsError: 8.00136e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.66958e-01\tAbsError: 4.00295e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.65547e-01\tAbsError: 3.99841e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.47843e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75082e-09\tAbsError: 6.09112e-07\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.77996e+00\tAbsError: 3.92703e+14\n", + " Region: \"zone_1\"\tRelError: 2.52242e-01\tAbsError: 8.68469e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.52087e-01\tAbsError: 3.31003e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54646e-04\tAbsError: 5.37466e-02\n", + " Region: \"zone_3\"\tRelError: 1.52772e+00\tAbsError: 3.92703e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.68572e-01\tAbsError: 2.83122e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.62116e-01\tAbsError: 1.09581e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.68743e-02\tAbsError: 3.31007e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54646e-04\tAbsError: 5.37466e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.42585e-01\tAbsError: 2.72886e+13\n", + " Region: \"zone_1\"\tRelError: 2.71416e-02\tAbsError: 1.31199e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.71346e-02\tAbsError: 1.06617e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.07272e-06\tAbsError: 2.45812e-03\n", + " Region: \"zone_3\"\tRelError: 3.15443e-01\tAbsError: 2.72886e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.17067e-01\tAbsError: 1.32533e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.10019e-02\tAbsError: 1.40354e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.73671e-02\tAbsError: 1.06618e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.07672e-06\tAbsError: 2.45957e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.88747e+01\tAbsError: 2.64080e+16\n", + " Region: \"zone_1\"\tRelError: 1.70725e+01\tAbsError: 4.20731e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.70725e+01\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.40999e-09\tAbsError: 4.89892e-07\n", + " Region: \"zone_3\"\tRelError: 1.80221e+00\tAbsError: 2.64080e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78443e-01\tAbsError: 1.32620e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.78018e-01\tAbsError: 1.31460e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.45750e-01\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41018e-09\tAbsError: 4.89958e-07\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 9.89584e-04\tAbsError: 2.93050e+10\n", + " Region: \"zone_1\"\tRelError: 8.69289e-04\tAbsError: 3.58476e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.69279e-04\tAbsError: 1.49163e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.02736e-08\tAbsError: 3.56984e-06\n", + " Region: \"zone_3\"\tRelError: 1.20295e-04\tAbsError: 2.93050e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52554e-06\tAbsError: 1.64489e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.51838e-06\tAbsError: 1.28561e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17241e-04\tAbsError: 1.55101e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.02768e-08\tAbsError: 3.57094e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.18761e+00\tAbsError: 1.05578e+14\n", + " Region: \"zone_1\"\tRelError: 1.15764e-01\tAbsError: 3.33783e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15742e-01\tAbsError: 2.55891e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.24115e-05\tAbsError: 7.78922e-03\n", + " Region: \"zone_3\"\tRelError: 1.07184e+00\tAbsError: 1.05578e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.87584e-01\tAbsError: 6.29656e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.72837e-01\tAbsError: 4.26125e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11399e-01\tAbsError: 2.58759e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.24115e-05\tAbsError: 7.78922e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.23024e+00\tAbsError: 7.24788e+16\n", + " Region: \"zone_1\"\tRelError: 2.89301e-01\tAbsError: 2.81842e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88577e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.23562e-04\tAbsError: 2.51079e-01\n", + " Region: \"zone_3\"\tRelError: 2.94094e+00\tAbsError: 7.24788e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.29061e-01\tAbsError: 3.72143e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.83761e-01\tAbsError: 3.52645e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.62740e+00\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.23562e-04\tAbsError: 2.51079e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.78641e-02\tAbsError: 3.94985e+12\n", + " Region: \"zone_1\"\tRelError: 3.30932e-03\tAbsError: 1.76151e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.30433e-03\tAbsError: 2.82510e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.99157e-06\tAbsError: 1.73326e-03\n", + " Region: \"zone_3\"\tRelError: 7.45548e-02\tAbsError: 3.94985e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.56024e-02\tAbsError: 2.31572e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.47093e-03\tAbsError: 1.63413e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.47641e-03\tAbsError: 3.06646e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.99157e-06\tAbsError: 1.73326e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.82088e+00\tAbsError: 2.75253e+16\n", + " Region: \"zone_1\"\tRelError: 2.37750e-01\tAbsError: 1.45747e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.37423e-01\tAbsError: 3.20819e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.27266e-04\tAbsError: 1.13665e-01\n", + " Region: \"zone_3\"\tRelError: 1.58313e+00\tAbsError: 2.75253e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.53221e-01\tAbsError: 1.38558e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.18941e-01\tAbsError: 1.36695e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.10644e-01\tAbsError: 3.20820e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.27266e-04\tAbsError: 1.13665e-01\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.48739e-04\tAbsError: 3.41314e+09\n", + " Region: \"zone_1\"\tRelError: 1.31134e-04\tAbsError: 2.06494e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31128e-04\tAbsError: 1.91971e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.93716e-09\tAbsError: 2.06302e-06\n", + " Region: \"zone_3\"\tRelError: 1.76048e-05\tAbsError: 3.41314e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88514e-07\tAbsError: 1.94837e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.89063e-07\tAbsError: 1.46477e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72213e-05\tAbsError: 1.99642e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.93836e-09\tAbsError: 2.06344e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.18721e-01\tAbsError: 4.05656e+13\n", + " Region: \"zone_1\"\tRelError: 5.06770e-02\tAbsError: 1.49437e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.06693e-02\tAbsError: 1.22657e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.70556e-06\tAbsError: 2.67801e-03\n", + " Region: \"zone_3\"\tRelError: 3.68044e-01\tAbsError: 4.05656e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.42993e-01\tAbsError: 1.95799e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.22533e-02\tAbsError: 2.09857e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.27901e-02\tAbsError: 1.22657e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.70854e-06\tAbsError: 2.67909e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 5.71850e+00\tAbsError: 4.10464e+16\n", + " Region: \"zone_1\"\tRelError: 1.82923e-01\tAbsError: 1.08958e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82684e-01\tAbsError: 2.58969e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.39429e-04\tAbsError: 8.30609e-02\n", + " Region: \"zone_3\"\tRelError: 5.53558e+00\tAbsError: 4.10464e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16071e-01\tAbsError: 2.08924e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.47287e-01\tAbsError: 2.01540e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 4.77198e+00\tAbsError: 2.46271e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.39429e-04\tAbsError: 8.30609e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.10513e-03\tAbsError: 8.23293e+11\n", + " Region: \"zone_1\"\tRelError: 1.04330e-04\tAbsError: 1.16877e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03998e-04\tAbsError: 1.23528e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.32247e-07\tAbsError: 1.15642e-04\n", + " Region: \"zone_3\"\tRelError: 1.00080e-03\tAbsError: 8.23293e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.05747e-04\tAbsError: 1.97507e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.12169e-05\tAbsError: 6.25787e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 8.13504e-04\tAbsError: 1.23947e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.32377e-07\tAbsError: 1.15689e-04\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 7.33109e-05\tAbsError: 1.99171e+09\n", + " Region: \"zone_1\"\tRelError: 6.45108e-05\tAbsError: 3.50573e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 6.45098e-05\tAbsError: 1.06453e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00585e-09\tAbsError: 3.49509e-07\n", + " Region: \"zone_3\"\tRelError: 8.80007e-06\tAbsError: 1.99171e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03719e-07\tAbsError: 1.17952e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03272e-07\tAbsError: 8.12184e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 8.59208e-06\tAbsError: 1.10473e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00600e-09\tAbsError: 3.49562e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:25\u001b[0m.\u001b[1;36m564\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.7000000000000001\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.55444e+00\tAbsError: 1.76419e+16\n", + " Region: \"zone_1\"\tRelError: 2.12177e-01\tAbsError: 9.72099e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.11971e-01\tAbsError: 2.57520e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.05785e-04\tAbsError: 7.14579e-02\n", + " Region: \"zone_3\"\tRelError: 1.34226e+00\tAbsError: 1.76419e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.66220e-01\tAbsError: 8.87623e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.15790e-01\tAbsError: 8.76568e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 4.60047e-01\tAbsError: 2.51951e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.05785e-04\tAbsError: 7.14579e-02\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.36553e-02\tAbsError: 6.47712e+12\n", + " Region: \"zone_1\"\tRelError: 5.76964e-03\tAbsError: 1.83664e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.76447e-03\tAbsError: 4.26587e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.16650e-06\tAbsError: 1.79398e-03\n", + " Region: \"zone_3\"\tRelError: 8.78857e-02\tAbsError: 6.47712e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.64913e-02\tAbsError: 3.28452e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.27207e-03\tAbsError: 3.19260e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.11716e-03\tAbsError: 4.70869e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.16650e-06\tAbsError: 1.79398e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.06773e+00\tAbsError: 1.32751e+16\n", + " Region: \"zone_1\"\tRelError: 2.27618e-01\tAbsError: 5.11022e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.27498e-01\tAbsError: 9.16524e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20880e-04\tAbsError: 4.19369e-02\n", + " Region: \"zone_3\"\tRelError: 8.40108e-01\tAbsError: 1.32751e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.49254e-01\tAbsError: 7.44002e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.85993e-02\tAbsError: 5.83511e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 6.12131e-01\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.23429e-04\tAbsError: 4.28226e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.28970e-04\tAbsError: 9.94655e+10\n", + " Region: \"zone_1\"\tRelError: 4.30793e-05\tAbsError: 4.60610e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.29469e-05\tAbsError: 6.33876e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32459e-07\tAbsError: 4.59976e-05\n", + " Region: \"zone_3\"\tRelError: 3.85891e-04\tAbsError: 9.94655e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.53699e-06\tAbsError: 6.91076e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.47213e-06\tAbsError: 3.03579e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.72749e-04\tAbsError: 6.61958e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32459e-07\tAbsError: 4.59976e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 9.48982e-01\tAbsError: 5.47232e+15\n", + " Region: \"zone_1\"\tRelError: 2.62221e-01\tAbsError: 3.66128e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.62147e-01\tAbsError: 1.08344e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.42397e-05\tAbsError: 2.57784e-02\n", + " Region: \"zone_3\"\tRelError: 6.86761e-01\tAbsError: 5.47232e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.00853e-01\tAbsError: 3.04385e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.20754e-01\tAbsError: 2.42847e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 3.65080e-01\tAbsError: 1.08344e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.42397e-05\tAbsError: 2.57784e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.94222e+01\tAbsError: 1.62190e+16\n", + " Region: \"zone_1\"\tRelError: 2.76662e+01\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.76662e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.29578e-10\tAbsError: 1.49268e-07\n", + " Region: \"zone_3\"\tRelError: 1.75598e+00\tAbsError: 1.62190e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69267e-01\tAbsError: 8.18784e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.68971e-01\tAbsError: 8.03117e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.17740e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.29628e-10\tAbsError: 1.49286e-07\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.06683e-03\tAbsError: 8.40765e+11\n", + " Region: \"zone_1\"\tRelError: 1.57719e-04\tAbsError: 1.34612e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.57335e-04\tAbsError: 1.22953e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.83760e-07\tAbsError: 1.33383e-04\n", + " Region: \"zone_3\"\tRelError: 9.09114e-04\tAbsError: 8.40765e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34420e-04\tAbsError: 1.93982e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.02092e-05\tAbsError: 6.46783e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 6.94101e-04\tAbsError: 1.22991e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.83760e-07\tAbsError: 1.33383e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.91937e-01\tAbsError: 2.33353e+15\n", + " Region: \"zone_1\"\tRelError: 2.61363e-02\tAbsError: 3.15290e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.52274e-02\tAbsError: 2.65917e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.08859e-04\tAbsError: 3.15024e-01\n", + " Region: \"zone_3\"\tRelError: 2.65801e-01\tAbsError: 2.33353e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.40034e-02\tAbsError: 1.23195e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.91867e-03\tAbsError: 1.10158e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20969e-01\tAbsError: 2.95967e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.10098e-04\tAbsError: 3.15450e-01\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 9.83107e-05\tAbsError: 4.06168e+10\n", + " Region: \"zone_1\"\tRelError: 9.45774e-06\tAbsError: 5.00143e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 9.44347e-06\tAbsError: 3.76448e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42610e-08\tAbsError: 4.96378e-06\n", + " Region: \"zone_3\"\tRelError: 8.88530e-05\tAbsError: 4.06168e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.93318e-06\tAbsError: 1.44271e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.90759e-06\tAbsError: 2.61897e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 8.29979e-05\tAbsError: 3.76467e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42674e-08\tAbsError: 4.96613e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:28\u001b[0m.\u001b[1;36m022\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:28\u001b[0m.\u001b[1;36m022\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5199999999999999\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.90750e-01\tAbsError: 1.25498e+15\n", + " Region: \"zone_1\"\tRelError: 2.65651e-02\tAbsError: 1.73575e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.60656e-02\tAbsError: 3.10437e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.99465e-04\tAbsError: 1.73265e-01\n", + " Region: \"zone_3\"\tRelError: 1.64185e-01\tAbsError: 1.25498e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.97354e-02\tAbsError: 5.42826e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.67090e-02\tAbsError: 7.12158e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.72396e-02\tAbsError: 3.38175e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.00813e-04\tAbsError: 1.73727e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.57455e+00\tAbsError: 1.59389e+16\n", + " Region: \"zone_1\"\tRelError: 1.04759e+00\tAbsError: 1.06162e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04737e+00\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17045e-04\tAbsError: 7.53990e-02\n", + " Region: \"zone_3\"\tRelError: 1.52696e+00\tAbsError: 1.59389e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37511e-01\tAbsError: 7.87332e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.04735e-01\tAbsError: 8.06553e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.84502e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17045e-04\tAbsError: 7.53990e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.95550e-04\tAbsError: 1.15056e+11\n", + " Region: \"zone_1\"\tRelError: 4.39510e-05\tAbsError: 4.57599e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.38194e-05\tAbsError: 7.44278e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.31561e-07\tAbsError: 4.56855e-05\n", + " Region: \"zone_3\"\tRelError: 4.51599e-04\tAbsError: 1.15056e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.61381e-06\tAbsError: 7.84993e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.54126e-06\tAbsError: 3.65570e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.36312e-04\tAbsError: 7.77366e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.31561e-07\tAbsError: 4.56855e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.68338e-01\tAbsError: 7.28836e+14\n", + " Region: \"zone_1\"\tRelError: 4.44613e-02\tAbsError: 2.04423e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.44025e-02\tAbsError: 6.98557e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.87704e-05\tAbsError: 2.03724e-02\n", + " Region: \"zone_3\"\tRelError: 4.23877e-01\tAbsError: 7.28836e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.89975e-03\tAbsError: 3.57624e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.06394e-03\tAbsError: 3.71212e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.13854e-01\tAbsError: 7.63149e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.87832e-05\tAbsError: 2.03761e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.65034e+00\tAbsError: 8.64133e+15\n", + " Region: \"zone_1\"\tRelError: 5.95619e+00\tAbsError: 4.19650e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95619e+00\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.98105e-09\tAbsError: 2.07690e-06\n", + " Region: \"zone_3\"\tRelError: 1.69415e+00\tAbsError: 8.64133e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78203e-01\tAbsError: 5.06586e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.78160e-01\tAbsError: 3.57547e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37789e-01\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.98227e-09\tAbsError: 2.07735e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 9.99296e-01\tAbsError: 1.91866e+14\n", + " Region: \"zone_1\"\tRelError: 8.35978e-02\tAbsError: 1.07328e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.35670e-02\tAbsError: 5.58708e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.07772e-05\tAbsError: 1.06770e-02\n", + " Region: \"zone_3\"\tRelError: 9.15698e-01\tAbsError: 1.91866e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.37367e-03\tAbsError: 9.64130e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.19215e-03\tAbsError: 9.54531e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.07102e-01\tAbsError: 5.66702e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.08019e-05\tAbsError: 1.06852e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.14822e+00\tAbsError: 9.83178e+15\n", + " Region: \"zone_1\"\tRelError: 1.39457e-01\tAbsError: 7.32841e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39320e-01\tAbsError: 2.58400e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36592e-04\tAbsError: 4.74441e-02\n", + " Region: \"zone_3\"\tRelError: 1.00877e+00\tAbsError: 9.83178e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43427e-01\tAbsError: 4.83336e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.90483e-01\tAbsError: 4.99841e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74720e-01\tAbsError: 2.58193e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36592e-04\tAbsError: 4.74441e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 8.69185e-05\tAbsError: 3.95954e+10\n", + " Region: \"zone_1\"\tRelError: 7.32516e-06\tAbsError: 6.15078e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 7.30759e-06\tAbsError: 3.68566e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75656e-08\tAbsError: 6.11392e-06\n", + " Region: \"zone_3\"\tRelError: 7.95933e-05\tAbsError: 3.95954e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.79841e-06\tAbsError: 1.32431e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.77435e-06\tAbsError: 2.63522e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.40030e-05\tAbsError: 3.69064e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75729e-08\tAbsError: 6.11658e-06\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.64410e-02\tAbsError: 6.34524e+13\n", + " Region: \"zone_1\"\tRelError: 6.01943e-03\tAbsError: 8.87148e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.99386e-03\tAbsError: 6.06051e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.55757e-05\tAbsError: 8.86542e-03\n", + " Region: \"zone_3\"\tRelError: 6.04216e-02\tAbsError: 6.34524e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43427e-04\tAbsError: 3.11581e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.51084e-04\tAbsError: 3.22943e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95015e-02\tAbsError: 6.26485e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.55822e-05\tAbsError: 8.86737e-03\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:30\u001b[0m.\u001b[1;36m308\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.5399999999999999\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.81068e+00\tAbsError: 9.05561e+14\n", + " Region: \"zone_1\"\tRelError: 2.99568e-01\tAbsError: 7.37289e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.99448e-01\tAbsError: 3.19527e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20214e-04\tAbsError: 4.17762e-02\n", + " Region: \"zone_3\"\tRelError: 1.51111e+00\tAbsError: 9.05561e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.56048e-01\tAbsError: 5.28816e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.42016e-01\tAbsError: 3.76745e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12929e-01\tAbsError: 3.19530e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20214e-04\tAbsError: 4.17762e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.07755e-01\tAbsError: 1.47113e+13\n", + " Region: \"zone_1\"\tRelError: 1.00932e-02\tAbsError: 5.29389e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00780e-02\tAbsError: 4.25637e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52480e-05\tAbsError: 5.28963e-03\n", + " Region: \"zone_3\"\tRelError: 9.76620e-02\tAbsError: 1.47113e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.24736e-04\tAbsError: 7.39880e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.29168e-04\tAbsError: 7.31253e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 9.69928e-02\tAbsError: 4.43112e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52510e-05\tAbsError: 5.29076e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 9.17087e-01\tAbsError: 2.70112e+15\n", + " Region: \"zone_1\"\tRelError: 4.13278e-01\tAbsError: 1.18036e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.12964e-01\tAbsError: 9.16529e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.13541e-04\tAbsError: 1.08871e-01\n", + " Region: \"zone_3\"\tRelError: 5.03809e-01\tAbsError: 2.70112e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.83333e-01\tAbsError: 1.43386e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03452e-01\tAbsError: 1.26726e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.16711e-01\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.13541e-04\tAbsError: 1.08871e-01\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.75673e-02\tAbsError: 3.32993e+13\n", + " Region: \"zone_1\"\tRelError: 3.52548e-03\tAbsError: 1.20689e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.52200e-03\tAbsError: 3.09455e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.47154e-06\tAbsError: 1.20380e-03\n", + " Region: \"zone_3\"\tRelError: 3.40418e-02\tAbsError: 3.32993e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47698e-04\tAbsError: 1.63796e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.38649e-04\tAbsError: 1.69197e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.35520e-02\tAbsError: 3.11273e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.47235e-06\tAbsError: 1.20402e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.78742e+01\tAbsError: 9.05161e+15\n", + " Region: \"zone_1\"\tRelError: 1.61544e+01\tAbsError: 4.29358e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.61544e+01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.66407e-09\tAbsError: 1.96688e-06\n", + " Region: \"zone_3\"\tRelError: 1.71987e+00\tAbsError: 9.05161e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86128e-01\tAbsError: 5.27529e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.86079e-01\tAbsError: 3.77633e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.47659e-01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.66503e-09\tAbsError: 1.96717e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.20896e+00\tAbsError: 4.60776e+14\n", + " Region: \"zone_1\"\tRelError: 2.06112e-01\tAbsError: 3.40032e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06089e-01\tAbsError: 2.58357e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.35020e-05\tAbsError: 8.16746e-03\n", + " Region: \"zone_3\"\tRelError: 1.00285e+00\tAbsError: 4.60776e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.66369e-01\tAbsError: 2.23470e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.34273e-01\tAbsError: 2.37306e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02181e-01\tAbsError: 2.58939e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.35020e-05\tAbsError: 8.16746e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 7.81873e-02\tAbsError: 8.95376e+12\n", + " Region: \"zone_1\"\tRelError: 6.87545e-03\tAbsError: 6.84613e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.87348e-03\tAbsError: 2.15237e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.96616e-06\tAbsError: 6.82460e-04\n", + " Region: \"zone_3\"\tRelError: 7.13119e-02\tAbsError: 8.95376e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.99157e-04\tAbsError: 4.50662e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.97267e-04\tAbsError: 4.44714e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.09135e-02\tAbsError: 2.31794e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.96673e-06\tAbsError: 6.82681e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 4.27279e-01\tAbsError: 8.17053e+14\n", + " Region: \"zone_1\"\tRelError: 1.09940e-01\tAbsError: 2.21034e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09304e-01\tAbsError: 3.29075e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.36020e-04\tAbsError: 2.20705e-01\n", + " Region: \"zone_3\"\tRelError: 3.17339e-01\tAbsError: 8.17053e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.72653e-02\tAbsError: 1.99598e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.68899e-02\tAbsError: 6.17455e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.42547e-01\tAbsError: 3.29140e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.36020e-04\tAbsError: 2.20705e-01\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.47008e-03\tAbsError: 4.77215e+12\n", + " Region: \"zone_1\"\tRelError: 6.05494e-04\tAbsError: 5.38691e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.03946e-04\tAbsError: 4.25617e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54844e-06\tAbsError: 5.38265e-04\n", + " Region: \"zone_3\"\tRelError: 5.86458e-03\tAbsError: 4.77215e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.53153e-05\tAbsError: 2.34800e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.40122e-05\tAbsError: 2.42415e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.79371e-03\tAbsError: 4.28072e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54906e-06\tAbsError: 5.38488e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.83311e+00\tAbsError: 1.26455e+15\n", + " Region: \"zone_1\"\tRelError: 2.88937e-01\tAbsError: 7.51136e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88816e-01\tAbsError: 3.31003e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20899e-04\tAbsError: 4.20134e-02\n", + " Region: \"zone_3\"\tRelError: 1.54417e+00\tAbsError: 1.26455e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.70125e-01\tAbsError: 7.28712e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.54876e-01\tAbsError: 5.35842e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19050e-01\tAbsError: 3.31004e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20899e-04\tAbsError: 4.20134e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.81762e-01\tAbsError: 2.09056e+14\n", + " Region: \"zone_1\"\tRelError: 3.40620e-02\tAbsError: 1.59640e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.40467e-02\tAbsError: 1.06617e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52754e-05\tAbsError: 5.30228e-03\n", + " Region: \"zone_3\"\tRelError: 3.47700e-01\tAbsError: 2.09056e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.14904e-01\tAbsError: 9.42359e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.79965e-02\tAbsError: 1.14820e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.47840e-02\tAbsError: 1.06618e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52847e-05\tAbsError: 5.30556e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.25385e-02\tAbsError: 1.20969e+12\n", + " Region: \"zone_1\"\tRelError: 1.11831e-03\tAbsError: 3.30063e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11736e-03\tAbsError: 2.78057e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.50037e-07\tAbsError: 3.29785e-04\n", + " Region: \"zone_3\"\tRelError: 1.14202e-02\tAbsError: 1.20969e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.69866e-05\tAbsError: 6.07592e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.67629e-05\tAbsError: 6.02095e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13655e-02\tAbsError: 3.03145e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.50221e-07\tAbsError: 3.29847e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 7.01035e-01\tAbsError: 1.64733e+14\n", + " Region: \"zone_1\"\tRelError: 2.03094e-01\tAbsError: 1.60100e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03048e-01\tAbsError: 7.96658e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.59052e-05\tAbsError: 1.59303e-02\n", + " Region: \"zone_3\"\tRelError: 4.97941e-01\tAbsError: 1.64733e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17881e-03\tAbsError: 7.88164e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.07895e-03\tAbsError: 8.59168e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.85637e-01\tAbsError: 8.00849e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.59052e-05\tAbsError: 1.59303e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.65398e-03\tAbsError: 2.00158e+12\n", + " Region: \"zone_1\"\tRelError: 2.48909e-04\tAbsError: 1.00808e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.48620e-04\tAbsError: 1.66964e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.89512e-07\tAbsError: 1.00641e-04\n", + " Region: \"zone_3\"\tRelError: 2.40507e-03\tAbsError: 2.00158e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50347e-05\tAbsError: 9.84888e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.44145e-05\tAbsError: 1.01669e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.37533e-03\tAbsError: 1.67974e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.89623e-07\tAbsError: 1.00681e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.16142e+00\tAbsError: 7.46156e+14\n", + " Region: \"zone_1\"\tRelError: 1.09872e-01\tAbsError: 3.44018e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09847e-01\tAbsError: 2.58558e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.45917e-05\tAbsError: 8.54603e-03\n", + " Region: \"zone_3\"\tRelError: 1.05155e+00\tAbsError: 7.46156e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.89433e-01\tAbsError: 3.46738e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.51496e-01\tAbsError: 3.99417e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10596e-01\tAbsError: 2.58925e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.45917e-05\tAbsError: 8.54603e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 5.61894e-03\tAbsError: 5.53183e+11\n", + " Region: \"zone_1\"\tRelError: 4.98888e-04\tAbsError: 5.92377e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.98718e-04\tAbsError: 1.23657e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69957e-07\tAbsError: 5.91141e-05\n", + " Region: \"zone_3\"\tRelError: 5.12005e-03\tAbsError: 5.53183e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.23601e-05\tAbsError: 2.78254e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.21894e-05\tAbsError: 2.74930e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.09533e-03\tAbsError: 1.34729e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70021e-07\tAbsError: 5.91367e-05\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.24336e-02\tAbsError: 3.60203e+13\n", + " Region: \"zone_1\"\tRelError: 1.30520e-02\tAbsError: 3.73274e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.30417e-02\tAbsError: 1.57108e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.02982e-05\tAbsError: 3.57563e-03\n", + " Region: \"zone_3\"\tRelError: 7.93816e-02\tAbsError: 3.60203e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.15745e-02\tAbsError: 2.04886e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.60979e-03\tAbsError: 1.55317e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11871e-02\tAbsError: 1.66755e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.02982e-05\tAbsError: 3.57563e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.04323e-01\tAbsError: 1.53102e+13\n", + " Region: \"zone_1\"\tRelError: 3.15774e-02\tAbsError: 7.15567e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.15568e-02\tAbsError: 7.10876e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.05999e-05\tAbsError: 7.14856e-03\n", + " Region: \"zone_3\"\tRelError: 7.27454e-02\tAbsError: 1.53102e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.94207e-04\tAbsError: 7.65839e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.98721e-04\tAbsError: 7.65181e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.15319e-02\tAbsError: 7.17354e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.06009e-05\tAbsError: 7.14900e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 5.36228e-04\tAbsError: 3.67963e+11\n", + " Region: \"zone_1\"\tRelError: 5.03370e-05\tAbsError: 3.69568e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.02308e-05\tAbsError: 3.27141e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06219e-07\tAbsError: 3.69241e-05\n", + " Region: \"zone_3\"\tRelError: 4.85891e-04\tAbsError: 3.67963e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.74381e-06\tAbsError: 1.81082e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.63918e-06\tAbsError: 1.86881e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.80402e-04\tAbsError: 3.29054e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06263e-07\tAbsError: 3.69404e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.49598e-01\tAbsError: 3.37443e+14\n", + " Region: \"zone_1\"\tRelError: 4.08488e-02\tAbsError: 1.80805e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.08321e-02\tAbsError: 1.22656e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67328e-05\tAbsError: 5.81483e-03\n", + " Region: \"zone_3\"\tRelError: 4.08750e-01\tAbsError: 3.37443e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.41863e-01\tAbsError: 1.59086e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.25055e-01\tAbsError: 1.78357e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.18148e-02\tAbsError: 1.22657e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67328e-05\tAbsError: 5.81483e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.10979e-03\tAbsError: 9.95031e+10\n", + " Region: \"zone_1\"\tRelError: 9.87539e-05\tAbsError: 2.30772e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 9.86876e-05\tAbsError: 2.32783e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.62809e-08\tAbsError: 2.30539e-05\n", + " Region: \"zone_3\"\tRelError: 1.01104e-03\tAbsError: 9.95031e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.22367e-06\tAbsError: 4.99642e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.19804e-06\tAbsError: 4.95389e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00655e-03\tAbsError: 2.53159e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.63071e-08\tAbsError: 2.30633e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.84514e-04\tAbsError: 1.29331e+11\n", + " Region: \"zone_1\"\tRelError: 1.73204e-05\tAbsError: 7.90813e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72976e-05\tAbsError: 1.15361e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.27155e-08\tAbsError: 7.89660e-06\n", + " Region: \"zone_3\"\tRelError: 1.67193e-04\tAbsError: 1.29331e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.72276e-07\tAbsError: 6.36462e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.31421e-07\tAbsError: 6.56851e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65267e-04\tAbsError: 1.16052e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.27252e-08\tAbsError: 7.90006e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.31903e-03\tAbsError: 1.68866e+12\n", + " Region: \"zone_1\"\tRelError: 6.91359e-04\tAbsError: 2.14092e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.90749e-04\tAbsError: 2.01876e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.10224e-07\tAbsError: 2.12073e-04\n", + " Region: \"zone_3\"\tRelError: 3.62767e-03\tAbsError: 1.68866e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.43300e-04\tAbsError: 5.21952e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.49521e-04\tAbsError: 1.16671e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.23424e-03\tAbsError: 2.02414e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.10224e-07\tAbsError: 2.12073e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.82885e-02\tAbsError: 7.75343e+12\n", + " Region: \"zone_1\"\tRelError: 1.74263e-02\tAbsError: 1.11082e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74231e-02\tAbsError: 3.27682e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.18949e-06\tAbsError: 1.10754e-03\n", + " Region: \"zone_3\"\tRelError: 4.08622e-02\tAbsError: 7.75343e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.01160e-04\tAbsError: 3.88269e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.99390e-04\tAbsError: 3.87074e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.02585e-02\tAbsError: 3.34987e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.19059e-06\tAbsError: 1.10796e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.04059e-01\tAbsError: 6.56185e+13\n", + " Region: \"zone_1\"\tRelError: 1.13333e-02\tAbsError: 6.89729e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13142e-02\tAbsError: 2.55833e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91291e-05\tAbsError: 6.64145e-03\n", + " Region: \"zone_3\"\tRelError: 9.27262e-02\tAbsError: 6.56185e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.04845e-02\tAbsError: 3.55492e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.18771e-02\tAbsError: 3.00692e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03455e-02\tAbsError: 2.71121e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91291e-05\tAbsError: 6.64145e-03\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 4.02059e-04\tAbsError: 3.69694e+10\n", + " Region: \"zone_1\"\tRelError: 3.57703e-05\tAbsError: 4.89345e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.57562e-05\tAbsError: 8.81422e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.40435e-08\tAbsError: 4.88463e-06\n", + " Region: \"zone_3\"\tRelError: 3.66288e-04\tAbsError: 3.69694e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.27052e-07\tAbsError: 1.85869e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.14548e-07\tAbsError: 1.83825e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.64633e-04\tAbsError: 9.53371e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.40489e-08\tAbsError: 4.88659e-06\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 4.13464e-05\tAbsError: 2.75069e+10\n", + " Region: \"zone_1\"\tRelError: 3.88379e-06\tAbsError: 2.55222e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.87646e-06\tAbsError: 2.54121e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.33447e-09\tAbsError: 2.54968e-06\n", + " Region: \"zone_3\"\tRelError: 3.74626e-05\tAbsError: 2.75069e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05752e-07\tAbsError: 1.35376e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.97692e-07\tAbsError: 1.39693e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.70518e-05\tAbsError: 2.55608e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.33751e-09\tAbsError: 2.55078e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:37\u001b[0m.\u001b[1;36m881\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.9\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.11841e-04\tAbsError: 1.66167e+11\n", + " Region: \"zone_1\"\tRelError: 1.33942e-04\tAbsError: 1.03262e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33645e-04\tAbsError: 1.08052e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.97084e-07\tAbsError: 1.03153e-04\n", + " Region: \"zone_3\"\tRelError: 5.77899e-04\tAbsError: 1.66167e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98830e-06\tAbsError: 1.12169e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.86071e-06\tAbsError: 5.39983e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.57753e-04\tAbsError: 1.12755e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.97142e-07\tAbsError: 1.03175e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.09210e-02\tAbsError: 1.22286e+12\n", + " Region: \"zone_1\"\tRelError: 3.28469e-03\tAbsError: 4.72819e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.28333e-03\tAbsError: 4.87030e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36013e-06\tAbsError: 4.72332e-04\n", + " Region: \"zone_3\"\tRelError: 7.63634e-03\tAbsError: 1.22286e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.75678e-05\tAbsError: 6.11672e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.73305e-05\tAbsError: 6.11193e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 7.54008e-03\tAbsError: 5.02425e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36049e-06\tAbsError: 4.72455e-04\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 8.98138e-05\tAbsError: 7.83801e+09\n", + " Region: \"zone_1\"\tRelError: 7.99573e-06\tAbsError: 1.64573e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 7.99100e-06\tAbsError: 1.91199e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.72605e-09\tAbsError: 1.64382e-06\n", + " Region: \"zone_3\"\tRelError: 8.18181e-05\tAbsError: 7.83801e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.75301e-07\tAbsError: 3.93589e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.72990e-07\tAbsError: 3.90212e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 8.14650e-05\tAbsError: 2.06683e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.72787e-09\tAbsError: 1.64450e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:38\u001b[0m.\u001b[1;36m653\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:38\u001b[0m.\u001b[1;36m653\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.8388888888888889\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 9.70535e-03\tAbsError: 3.37743e+12\n", + " Region: \"zone_1\"\tRelError: 8.78757e-04\tAbsError: 1.91107e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 8.78217e-04\tAbsError: 3.61781e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.39528e-07\tAbsError: 1.87489e-04\n", + " Region: \"zone_3\"\tRelError: 8.82659e-03\tAbsError: 3.37743e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.29951e-04\tAbsError: 1.23275e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.83501e-04\tAbsError: 2.14468e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.11260e-03\tAbsError: 3.63680e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.39528e-07\tAbsError: 1.87489e-04\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.44352e-04\tAbsError: 9.70804e+10\n", + " Region: \"zone_1\"\tRelError: 6.34748e-05\tAbsError: 6.25238e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.34570e-05\tAbsError: 6.83828e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77679e-08\tAbsError: 6.18400e-06\n", + " Region: \"zone_3\"\tRelError: 2.80877e-04\tAbsError: 9.70804e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.02045e-06\tAbsError: 4.37083e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.97041e-06\tAbsError: 5.33721e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.68869e-04\tAbsError: 6.99248e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77753e-08\tAbsError: 6.18669e-06\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.38843e-03\tAbsError: 5.18838e+11\n", + " Region: \"zone_1\"\tRelError: 1.31867e-03\tAbsError: 9.39018e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31840e-03\tAbsError: 1.99779e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69826e-07\tAbsError: 9.37020e-05\n", + " Region: \"zone_3\"\tRelError: 3.06976e-03\tAbsError: 5.18838e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95362e-05\tAbsError: 2.68345e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.93671e-05\tAbsError: 2.50493e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.03058e-03\tAbsError: 2.07424e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69859e-07\tAbsError: 9.37138e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.18618e+01\tAbsError: 3.43486e+17\n", + " Region: \"zone_1\"\tRelError: 4.68734e+01\tAbsError: 4.09548e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.68734e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70509e-09\tAbsError: 5.92742e-07\n", + " Region: \"zone_3\"\tRelError: 1.49884e+01\tAbsError: 3.43486e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.50361e-01\tAbsError: 1.67687e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.42491e-01\tAbsError: 1.75799e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.34955e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70580e-09\tAbsError: 5.92998e-07\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.74946e-04\tAbsError: 1.17170e+11\n", + " Region: \"zone_1\"\tRelError: 2.69263e-05\tAbsError: 2.18382e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.62981e-05\tAbsError: 8.01643e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.28213e-07\tAbsError: 2.18302e-04\n", + " Region: \"zone_3\"\tRelError: 2.48020e-04\tAbsError: 1.17170e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.02611e-06\tAbsError: 9.22316e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.05400e-06\tAbsError: 2.49383e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.31311e-04\tAbsError: 8.38265e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.28213e-07\tAbsError: 2.18302e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.53041e+01\tAbsError: 1.41055e+17\n", + " Region: \"zone_1\"\tRelError: 2.16347e+01\tAbsError: 4.20730e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.16347e+01\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10269e-09\tAbsError: 3.83540e-07\n", + " Region: \"zone_3\"\tRelError: 3.66939e+00\tAbsError: 1.41055e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.74068e-01\tAbsError: 7.09895e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.71643e-01\tAbsError: 7.00658e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.12368e+00\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10312e-09\tAbsError: 3.83698e-07\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 9.50080e-04\tAbsError: 1.03863e+11\n", + " Region: \"zone_1\"\tRelError: 2.85910e-04\tAbsError: 3.37412e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.85814e-04\tAbsError: 4.14946e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.68675e-08\tAbsError: 3.36997e-05\n", + " Region: \"zone_3\"\tRelError: 6.64170e-04\tAbsError: 1.03863e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.88184e-06\tAbsError: 5.40187e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.85553e-06\tAbsError: 4.98443e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 6.56335e-04\tAbsError: 4.30256e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.69043e-08\tAbsError: 3.37128e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.84100e-05\tAbsError: 5.01231e+09\n", + " Region: \"zone_1\"\tRelError: 3.44228e-06\tAbsError: 5.53190e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.42637e-06\tAbsError: 3.08245e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59100e-08\tAbsError: 5.52882e-06\n", + " Region: \"zone_3\"\tRelError: 1.49677e-05\tAbsError: 5.01231e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.92599e-07\tAbsError: 3.85792e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.47636e-07\tAbsError: 1.15439e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.44116e-05\tAbsError: 3.20740e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59126e-08\tAbsError: 5.52983e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 6.59116e+00\tAbsError: 3.05940e+17\n", + " Region: \"zone_1\"\tRelError: 1.06162e+00\tAbsError: 1.92710e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06116e+00\tAbsError: 3.07630e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.67257e-04\tAbsError: 1.61947e-01\n", + " Region: \"zone_3\"\tRelError: 5.52954e+00\tAbsError: 3.05940e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.66708e-01\tAbsError: 1.53394e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.75609e-01\tAbsError: 1.52546e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 4.38676e+00\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.67257e-04\tAbsError: 1.61947e-01\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:40\u001b[0m.\u001b[1;36m975\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:40\u001b[0m.\u001b[1;36m975\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6249999999999999\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 7.74042e-04\tAbsError: 2.09517e+11\n", + " Region: \"zone_1\"\tRelError: 7.83547e-05\tAbsError: 6.01138e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 7.83378e-05\tAbsError: 1.34565e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.68927e-08\tAbsError: 5.87682e-06\n", + " Region: \"zone_3\"\tRelError: 6.95687e-04\tAbsError: 2.09517e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.25872e-05\tAbsError: 1.03107e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.24933e-05\tAbsError: 1.06409e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 6.70590e-04\tAbsError: 1.38390e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69000e-08\tAbsError: 5.87933e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.20501e+00\tAbsError: 1.30894e+17\n", + " Region: \"zone_1\"\tRelError: 6.01862e-01\tAbsError: 3.22703e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 6.01024e-01\tAbsError: 3.20819e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.37922e-04\tAbsError: 2.90621e-01\n", + " Region: \"zone_3\"\tRelError: 2.60314e+00\tAbsError: 1.30894e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.36510e-01\tAbsError: 6.54938e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.78597e-01\tAbsError: 6.54001e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28720e+00\tAbsError: 3.20820e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.38321e-04\tAbsError: 2.90760e-01\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 3.25927e-04\tAbsError: 3.72019e+10\n", + " Region: \"zone_1\"\tRelError: 9.80813e-05\tAbsError: 7.68282e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 9.80593e-05\tAbsError: 1.46928e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.20415e-08\tAbsError: 7.66812e-06\n", + " Region: \"zone_3\"\tRelError: 2.27846e-04\tAbsError: 3.72019e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.36089e-06\tAbsError: 1.97599e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.34801e-06\tAbsError: 1.74420e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.25115e-04\tAbsError: 1.52180e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.20501e-08\tAbsError: 7.67121e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 3.39017e+01\tAbsError: 1.15461e+17\n", + " Region: \"zone_1\"\tRelError: 6.40052e-01\tAbsError: 2.51200e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 6.39402e-01\tAbsError: 2.58690e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.49519e-04\tAbsError: 2.25331e-01\n", + " Region: \"zone_3\"\tRelError: 3.32617e+01\tAbsError: 1.15461e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.89584e-01\tAbsError: 5.80157e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.82182e-01\tAbsError: 5.74450e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.27893e+01\tAbsError: 2.58944e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.51823e-04\tAbsError: 2.26124e-01\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.46441e+00\tAbsError: 8.83603e+15\n", + " Region: \"zone_1\"\tRelError: 3.72799e+00\tAbsError: 4.19630e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.72799e+00\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.33772e-10\tAbsError: 8.13325e-08\n", + " Region: \"zone_3\"\tRelError: 1.73642e+00\tAbsError: 8.83603e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78146e-01\tAbsError: 4.76459e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.78023e-01\tAbsError: 4.07144e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.80255e-01\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.33908e-10\tAbsError: 8.13805e-08\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 7.72661e-05\tAbsError: 8.43440e+09\n", + " Region: \"zone_1\"\tRelError: 2.32650e-05\tAbsError: 2.49052e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.32578e-05\tAbsError: 3.39814e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.14902e-09\tAbsError: 2.48712e-06\n", + " Region: \"zone_3\"\tRelError: 5.40011e-05\tAbsError: 8.43440e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.08161e-07\tAbsError: 4.47974e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.05735e-07\tAbsError: 3.95466e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 5.33800e-05\tAbsError: 3.51782e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.15190e-09\tAbsError: 2.48816e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:42\u001b[0m.\u001b[1;36m967\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.8\u001b[0m \n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.88635e-05\tAbsError: 4.66862e+09\n", + " Region: \"zone_1\"\tRelError: 4.12564e-06\tAbsError: 1.32768e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.08745e-06\tAbsError: 4.74361e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.81931e-08\tAbsError: 1.32720e-05\n", + " Region: \"zone_3\"\tRelError: 3.47379e-05\tAbsError: 4.66862e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.57140e-07\tAbsError: 1.44736e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.64945e-07\tAbsError: 3.22126e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.39776e-05\tAbsError: 4.85044e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.82079e-08\tAbsError: 1.32779e-05\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.03286e+01\tAbsError: 8.35371e+16\n", + " Region: \"zone_1\"\tRelError: 4.37153e+00\tAbsError: 9.54149e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.37133e+00\tAbsError: 2.56531e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.01186e-04\tAbsError: 6.97617e-02\n", + " Region: \"zone_3\"\tRelError: 5.95712e+00\tAbsError: 8.35371e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.11144e-01\tAbsError: 4.33513e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.36389e-01\tAbsError: 4.01858e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 5.20938e+00\tAbsError: 2.33619e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.01186e-04\tAbsError: 6.97617e-02\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:43\u001b[0m.\u001b[1;36m071\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.6499999999999999\u001b[0m\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.34480e+00\tAbsError: 1.48853e+16\n", + " Region: \"zone_1\"\tRelError: 1.80604e-01\tAbsError: 1.59400e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.80172e-01\tAbsError: 9.16501e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.31839e-04\tAbsError: 1.50235e-01\n", + " Region: \"zone_3\"\tRelError: 3.16419e+00\tAbsError: 1.48853e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.34401e-02\tAbsError: 7.53366e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.19569e-02\tAbsError: 7.35164e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 3.07837e+00\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.31839e-04\tAbsError: 1.50235e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.90553e+00\tAbsError: 4.57697e+15\n", + " Region: \"zone_1\"\tRelError: 3.76935e-01\tAbsError: 7.03446e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.76825e-01\tAbsError: 3.19526e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10488e-04\tAbsError: 3.83920e-02\n", + " Region: \"zone_3\"\tRelError: 1.52859e+00\tAbsError: 4.57697e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.54474e-01\tAbsError: 2.17150e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.27922e-01\tAbsError: 2.40547e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.46086e-01\tAbsError: 3.19527e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10488e-04\tAbsError: 3.83920e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 6.45087e+00\tAbsError: 2.30680e+16\n", + " Region: \"zone_1\"\tRelError: 2.57354e+00\tAbsError: 4.22735e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.57345e+00\tAbsError: 1.08343e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.06700e-05\tAbsError: 3.14392e-02\n", + " Region: \"zone_3\"\tRelError: 3.87733e+00\tAbsError: 2.30680e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43899e-01\tAbsError: 1.15701e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.67217e-02\tAbsError: 1.14979e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.66661e+00\tAbsError: 1.08344e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.11459e-05\tAbsError: 3.16036e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.91796e+01\tAbsError: 8.00136e+16\n", + " Region: \"zone_1\"\tRelError: 1.61687e+01\tAbsError: 4.09548e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.61687e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75011e-09\tAbsError: 6.08861e-07\n", + " Region: \"zone_3\"\tRelError: 3.01093e+00\tAbsError: 8.00136e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.66958e-01\tAbsError: 4.00295e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.65547e-01\tAbsError: 3.99841e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.47843e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75082e-09\tAbsError: 6.09112e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.20708e+01\tAbsError: 9.38375e+15\n", + " Region: \"zone_1\"\tRelError: 1.03034e+01\tAbsError: 4.29349e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03034e+01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.20208e-09\tAbsError: 1.11278e-06\n", + " Region: \"zone_3\"\tRelError: 1.76735e+00\tAbsError: 9.38375e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86030e-01\tAbsError: 4.95036e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.85888e-01\tAbsError: 4.43339e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.95437e-01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.20329e-09\tAbsError: 1.11320e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 3.42204e-01\tAbsError: 1.90329e+15\n", + " Region: \"zone_1\"\tRelError: 2.01983e-02\tAbsError: 3.47392e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.91990e-02\tAbsError: 1.15001e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.99221e-04\tAbsError: 3.47277e-01\n", + " Region: \"zone_3\"\tRelError: 3.22006e-01\tAbsError: 1.90329e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.20950e-03\tAbsError: 1.00831e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03234e-03\tAbsError: 8.94978e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.11765e-01\tAbsError: 1.16357e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.99221e-04\tAbsError: 3.47277e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.14033e+00\tAbsError: 3.30058e+15\n", + " Region: \"zone_1\"\tRelError: 1.21947e-01\tAbsError: 3.16391e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21930e-01\tAbsError: 2.58447e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.66760e-05\tAbsError: 5.79442e-03\n", + " Region: \"zone_3\"\tRelError: 1.01838e+00\tAbsError: 3.30058e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.69340e-01\tAbsError: 1.51432e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.17786e-01\tAbsError: 1.78626e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31236e-01\tAbsError: 2.58752e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.66940e-05\tAbsError: 5.80079e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 4.38806e-01\tAbsError: 3.87022e+15\n", + " Region: \"zone_1\"\tRelError: 1.63483e-01\tAbsError: 3.01219e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.62614e-01\tAbsError: 2.23807e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.68652e-04\tAbsError: 3.00995e-01\n", + " Region: \"zone_3\"\tRelError: 2.75324e-01\tAbsError: 3.87022e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.53410e-02\tAbsError: 2.03279e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.51471e-03\tAbsError: 1.83742e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.41598e-01\tAbsError: 2.54619e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.70193e-04\tAbsError: 3.01518e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.23024e+00\tAbsError: 7.24788e+16\n", + " Region: \"zone_1\"\tRelError: 2.89301e-01\tAbsError: 2.81842e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88577e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.23562e-04\tAbsError: 2.51079e-01\n", + " Region: \"zone_3\"\tRelError: 2.94094e+00\tAbsError: 7.24788e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.29061e-01\tAbsError: 3.72143e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.83761e-01\tAbsError: 3.52645e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.62740e+00\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.23562e-04\tAbsError: 2.51079e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.75513e+00\tAbsError: 7.04878e+15\n", + " Region: \"zone_1\"\tRelError: 1.90080e-01\tAbsError: 7.81805e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.89950e-01\tAbsError: 3.31001e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.29742e-04\tAbsError: 4.50804e-02\n", + " Region: \"zone_3\"\tRelError: 1.56505e+00\tAbsError: 7.04878e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67981e-01\tAbsError: 3.36624e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.39518e-01\tAbsError: 3.68255e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.57423e-01\tAbsError: 3.31002e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.29742e-04\tAbsError: 4.50804e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 7.26159e-01\tAbsError: 1.60368e+15\n", + " Region: \"zone_1\"\tRelError: 2.39971e-02\tAbsError: 1.68797e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.39489e-02\tAbsError: 1.07820e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.82419e-05\tAbsError: 1.67718e-02\n", + " Region: \"zone_3\"\tRelError: 7.02162e-01\tAbsError: 1.60368e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.86883e-03\tAbsError: 7.94204e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.42424e-03\tAbsError: 8.09476e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.96821e-01\tAbsError: 1.08766e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.82636e-05\tAbsError: 1.67793e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.85130e-01\tAbsError: 1.12037e+15\n", + " Region: \"zone_1\"\tRelError: 1.02020e-01\tAbsError: 3.15185e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01960e-01\tAbsError: 1.06620e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.00273e-05\tAbsError: 2.08565e-02\n", + " Region: \"zone_3\"\tRelError: 3.83110e-01\tAbsError: 1.12037e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.10094e-01\tAbsError: 5.96108e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.30728e-01\tAbsError: 5.24260e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.22285e-02\tAbsError: 1.06621e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.00273e-05\tAbsError: 2.08565e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 9.06928e-01\tAbsError: 9.73679e+14\n", + " Region: \"zone_1\"\tRelError: 2.09928e-01\tAbsError: 1.87261e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.09874e-01\tAbsError: 5.72449e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.38741e-05\tAbsError: 1.86688e-02\n", + " Region: \"zone_3\"\tRelError: 6.96999e-01\tAbsError: 9.73679e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.31559e-03\tAbsError: 4.72913e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.45755e-03\tAbsError: 5.00766e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.90172e-01\tAbsError: 5.76673e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.38857e-05\tAbsError: 1.86722e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.21630e+00\tAbsError: 5.18264e+15\n", + " Region: \"zone_1\"\tRelError: 1.31236e-01\tAbsError: 3.17671e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31218e-01\tAbsError: 2.57644e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72758e-05\tAbsError: 6.00278e-03\n", + " Region: \"zone_3\"\tRelError: 1.08506e+00\tAbsError: 5.18264e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.91482e-01\tAbsError: 2.47681e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.47298e-01\tAbsError: 2.70583e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.46263e-01\tAbsError: 2.58377e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72758e-05\tAbsError: 6.00278e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 5.71850e+00\tAbsError: 4.10464e+16\n", + " Region: \"zone_1\"\tRelError: 1.82923e-01\tAbsError: 1.08958e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82684e-01\tAbsError: 2.58969e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.39429e-04\tAbsError: 8.30609e-02\n", + " Region: \"zone_3\"\tRelError: 5.53558e+00\tAbsError: 4.10464e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16071e-01\tAbsError: 2.08924e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.47287e-01\tAbsError: 2.01540e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 4.77198e+00\tAbsError: 2.46271e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.39429e-04\tAbsError: 8.30609e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.12346e-01\tAbsError: 1.08123e+14\n", + " Region: \"zone_1\"\tRelError: 3.56238e-03\tAbsError: 1.31451e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.52458e-03\tAbsError: 6.36043e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.77942e-05\tAbsError: 1.31387e-02\n", + " Region: \"zone_3\"\tRelError: 1.08784e-01\tAbsError: 1.08123e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.76703e-04\tAbsError: 5.36465e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.39449e-04\tAbsError: 5.44763e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08330e-01\tAbsError: 6.41381e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.78094e-05\tAbsError: 1.31440e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.07843e-01\tAbsError: 1.90448e+14\n", + " Region: \"zone_1\"\tRelError: 6.11966e-03\tAbsError: 2.20754e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.05660e-03\tAbsError: 1.81593e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.30654e-05\tAbsError: 2.18938e-02\n", + " Region: \"zone_3\"\tRelError: 1.01724e-01\tAbsError: 1.90448e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.14668e-02\tAbsError: 1.08172e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.09051e-03\tAbsError: 8.22757e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.11035e-02\tAbsError: 1.89501e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.30654e-05\tAbsError: 2.18938e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.31957e-01\tAbsError: 8.43789e+13\n", + " Region: \"zone_1\"\tRelError: 3.05440e-02\tAbsError: 8.34398e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.05199e-02\tAbsError: 5.31132e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.40641e-05\tAbsError: 8.33867e-03\n", + " Region: \"zone_3\"\tRelError: 1.01413e-01\tAbsError: 8.43789e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.02209e-04\tAbsError: 4.12417e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.96030e-04\tAbsError: 4.31372e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00790e-01\tAbsError: 5.35042e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.40667e-05\tAbsError: 8.33926e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.06773e+00\tAbsError: 1.32751e+16\n", + " Region: \"zone_1\"\tRelError: 2.27618e-01\tAbsError: 5.11022e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.27498e-01\tAbsError: 9.16524e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20880e-04\tAbsError: 4.19369e-02\n", + " Region: \"zone_3\"\tRelError: 8.40108e-01\tAbsError: 1.32751e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.49254e-01\tAbsError: 7.44002e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.85993e-02\tAbsError: 5.83511e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 6.12131e-01\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.23429e-04\tAbsError: 4.28226e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.70365e-01\tAbsError: 1.98816e+15\n", + " Region: \"zone_1\"\tRelError: 1.29557e-01\tAbsError: 5.07227e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29446e-01\tAbsError: 1.22662e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10816e-04\tAbsError: 3.84565e-02\n", + " Region: \"zone_3\"\tRelError: 4.40808e-01\tAbsError: 1.98816e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.36802e-01\tAbsError: 1.06250e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.52219e-01\tAbsError: 9.25662e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.16747e-02\tAbsError: 1.22663e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11508e-04\tAbsError: 3.86954e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 8.36096e-02\tAbsError: 8.44228e+13\n", + " Region: \"zone_1\"\tRelError: 2.87350e-03\tAbsError: 1.23009e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.86998e-03\tAbsError: 4.23325e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.52636e-06\tAbsError: 1.22586e-03\n", + " Region: \"zone_3\"\tRelError: 8.07361e-02\tAbsError: 8.44228e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46087e-04\tAbsError: 4.18513e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.25646e-04\tAbsError: 4.25715e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.04608e-02\tAbsError: 4.27186e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.52783e-06\tAbsError: 1.22636e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.56387e-02\tAbsError: 1.09978e+13\n", + " Region: \"zone_1\"\tRelError: 2.87891e-03\tAbsError: 1.99562e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.87836e-03\tAbsError: 9.37283e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.46509e-07\tAbsError: 1.90190e-04\n", + " Region: \"zone_3\"\tRelError: 3.27598e-02\tAbsError: 1.09978e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.61573e-04\tAbsError: 4.35709e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.74651e-04\tAbsError: 6.64069e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.11230e-02\tAbsError: 9.56491e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.46810e-07\tAbsError: 1.90300e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 7.58172e-02\tAbsError: 4.70890e+13\n", + " Region: \"zone_1\"\tRelError: 1.84006e-02\tAbsError: 1.09588e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.83975e-02\tAbsError: 2.80956e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.15379e-06\tAbsError: 1.09307e-03\n", + " Region: \"zone_3\"\tRelError: 5.74166e-02\tAbsError: 4.70890e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.82887e-04\tAbsError: 2.29491e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.70413e-04\tAbsError: 2.41400e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.70602e-02\tAbsError: 2.83263e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.15436e-06\tAbsError: 1.09324e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.91937e-01\tAbsError: 2.33353e+15\n", + " Region: \"zone_1\"\tRelError: 2.61363e-02\tAbsError: 3.15290e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.52274e-02\tAbsError: 2.65917e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.08859e-04\tAbsError: 3.15024e-01\n", + " Region: \"zone_3\"\tRelError: 2.65801e-01\tAbsError: 2.33353e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.40034e-02\tAbsError: 1.23195e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.91867e-03\tAbsError: 1.10158e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20969e-01\tAbsError: 2.95967e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.10098e-04\tAbsError: 3.15450e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.63797e-01\tAbsError: 3.64765e+14\n", + " Region: \"zone_1\"\tRelError: 1.74354e-02\tAbsError: 3.39678e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.73383e-02\tAbsError: 2.51825e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.71283e-05\tAbsError: 3.37160e-02\n", + " Region: \"zone_3\"\tRelError: 1.46362e-01\tAbsError: 3.64765e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.05471e-02\tAbsError: 2.16352e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.33909e-02\tAbsError: 1.48413e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.23269e-02\tAbsError: 2.62821e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.71283e-05\tAbsError: 3.37160e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.36875e-02\tAbsError: 9.69294e+12\n", + " Region: \"zone_1\"\tRelError: 4.70501e-04\tAbsError: 6.20216e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.68718e-04\tAbsError: 4.28680e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.78298e-06\tAbsError: 6.19787e-04\n", + " Region: \"zone_3\"\tRelError: 1.32170e-02\tAbsError: 9.69294e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.60935e-05\tAbsError: 4.80983e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.36870e-05\tAbsError: 4.88312e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31854e-02\tAbsError: 4.32490e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.78363e-06\tAbsError: 6.20008e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.52637e-04\tAbsError: 2.13154e+11\n", + " Region: \"zone_1\"\tRelError: 3.74653e-05\tAbsError: 7.19007e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.53962e-05\tAbsError: 1.60128e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.06907e-06\tAbsError: 7.18847e-04\n", + " Region: \"zone_3\"\tRelError: 4.15172e-04\tAbsError: 2.13154e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.13844e-05\tAbsError: 1.35579e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.84410e-06\tAbsError: 7.75754e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.96874e-04\tAbsError: 1.62368e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.06909e-06\tAbsError: 7.18866e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.28991e-02\tAbsError: 6.60678e+12\n", + " Region: \"zone_1\"\tRelError: 3.14837e-03\tAbsError: 5.03566e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.14692e-03\tAbsError: 3.73976e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.44792e-06\tAbsError: 5.03192e-04\n", + " Region: \"zone_3\"\tRelError: 9.75070e-03\tAbsError: 6.60678e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52961e-05\tAbsError: 3.21691e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.35828e-05\tAbsError: 3.38987e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 9.70037e-03\tAbsError: 3.77067e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.44848e-06\tAbsError: 5.03396e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.68338e-01\tAbsError: 7.28836e+14\n", + " Region: \"zone_1\"\tRelError: 4.44613e-02\tAbsError: 2.04423e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.44025e-02\tAbsError: 6.98557e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.87704e-05\tAbsError: 2.03724e-02\n", + " Region: \"zone_3\"\tRelError: 4.23877e-01\tAbsError: 7.28836e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.89975e-03\tAbsError: 3.57624e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.06394e-03\tAbsError: 3.71212e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.13854e-01\tAbsError: 7.63149e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.87832e-05\tAbsError: 2.03761e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.80286e-02\tAbsError: 1.80043e+13\n", + " Region: \"zone_1\"\tRelError: 5.97130e-03\tAbsError: 5.99908e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.96961e-03\tAbsError: 1.31746e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.68890e-06\tAbsError: 5.86733e-04\n", + " Region: \"zone_3\"\tRelError: 5.20573e-02\tAbsError: 1.80043e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.22256e-03\tAbsError: 7.89900e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.11166e-03\tAbsError: 1.01053e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.97214e-02\tAbsError: 1.37677e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.68890e-06\tAbsError: 5.86733e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 6.63798e-03\tAbsError: 4.90503e+12\n", + " Region: \"zone_1\"\tRelError: 2.29406e-04\tAbsError: 9.25474e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29140e-04\tAbsError: 1.97212e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.66464e-07\tAbsError: 9.23502e-05\n", + " Region: \"zone_3\"\tRelError: 6.40857e-03\tAbsError: 4.90503e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.34900e-06\tAbsError: 2.43347e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32522e-06\tAbsError: 2.47155e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 6.39263e-03\tAbsError: 1.99078e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.66498e-07\tAbsError: 9.23593e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.83484e-03\tAbsError: 6.93273e+11\n", + " Region: \"zone_1\"\tRelError: 2.36858e-04\tAbsError: 3.83858e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.36749e-04\tAbsError: 3.60825e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.09532e-07\tAbsError: 3.80250e-05\n", + " Region: \"zone_3\"\tRelError: 2.59798e-03\tAbsError: 6.93273e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.53173e-05\tAbsError: 3.50881e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.52173e-05\tAbsError: 3.42392e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.52733e-03\tAbsError: 3.77534e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.09545e-07\tAbsError: 3.80301e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 5.38897e-03\tAbsError: 2.84599e+12\n", + " Region: \"zone_1\"\tRelError: 1.32294e-03\tAbsError: 9.22092e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.32267e-03\tAbsError: 1.50402e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.64893e-07\tAbsError: 9.20588e-05\n", + " Region: \"zone_3\"\tRelError: 4.06603e-03\tAbsError: 2.84599e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10980e-05\tAbsError: 1.38588e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03237e-05\tAbsError: 1.46010e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.04435e-03\tAbsError: 1.51704e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.64994e-07\tAbsError: 9.20962e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.64410e-02\tAbsError: 6.34524e+13\n", + " Region: \"zone_1\"\tRelError: 6.01943e-03\tAbsError: 8.87148e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.99386e-03\tAbsError: 6.06051e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.55757e-05\tAbsError: 8.86542e-03\n", + " Region: \"zone_3\"\tRelError: 6.04216e-02\tAbsError: 6.34524e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43427e-04\tAbsError: 3.11581e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.51084e-04\tAbsError: 3.22943e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95015e-02\tAbsError: 6.26485e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.55822e-05\tAbsError: 8.86737e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.25648e-03\tAbsError: 7.75715e+11\n", + " Region: \"zone_1\"\tRelError: 4.35799e-05\tAbsError: 3.84452e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.34694e-05\tAbsError: 2.84735e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10539e-07\tAbsError: 3.84167e-05\n", + " Region: \"zone_3\"\tRelError: 1.21290e-03\tAbsError: 7.75715e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28473e-06\tAbsError: 3.85060e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.13479e-06\tAbsError: 3.90655e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21037e-03\tAbsError: 2.87358e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10581e-07\tAbsError: 3.84313e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.25730e-04\tAbsError: 4.09198e+11\n", + " Region: \"zone_1\"\tRelError: 8.09639e-05\tAbsError: 1.05680e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.79223e-05\tAbsError: 2.31215e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.04151e-06\tAbsError: 1.05657e-03\n", + " Region: \"zone_3\"\tRelError: 6.44766e-04\tAbsError: 4.09198e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.69437e-05\tAbsError: 3.66831e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.46261e-05\tAbsError: 4.23676e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 6.00155e-04\tAbsError: 2.35772e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.04158e-06\tAbsError: 1.05661e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.07375e-03\tAbsError: 5.13009e+11\n", + " Region: \"zone_1\"\tRelError: 2.64555e-04\tAbsError: 3.43938e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.64456e-04\tAbsError: 2.89234e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.88826e-08\tAbsError: 3.43649e-05\n", + " Region: \"zone_3\"\tRelError: 8.09198e-04\tAbsError: 5.13009e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.97594e-06\tAbsError: 2.49726e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.84609e-06\tAbsError: 2.63282e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 8.05277e-04\tAbsError: 2.91353e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.89231e-08\tAbsError: 3.43800e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.37341e-04\tAbsError: 3.67215e+10\n", + " Region: \"zone_1\"\tRelError: 2.00671e-05\tAbsError: 4.45514e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.99390e-05\tAbsError: 2.32701e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.28158e-07\tAbsError: 4.45281e-05\n", + " Region: \"zone_3\"\tRelError: 2.17274e-04\tAbsError: 3.67215e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11511e-06\tAbsError: 1.73467e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.13991e-06\tAbsError: 1.93748e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.12891e-04\tAbsError: 2.42196e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.28207e-07\tAbsError: 4.45452e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 4.79935e-04\tAbsError: 3.06765e+11\n", + " Region: \"zone_1\"\tRelError: 1.66486e-05\tAbsError: 7.60779e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66267e-05\tAbsError: 1.06336e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18595e-08\tAbsError: 7.59715e-06\n", + " Region: \"zone_3\"\tRelError: 4.63286e-04\tAbsError: 3.06765e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.16909e-07\tAbsError: 1.52260e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.59699e-07\tAbsError: 1.54505e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.62288e-04\tAbsError: 1.07353e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18679e-08\tAbsError: 7.60017e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.75673e-02\tAbsError: 3.32993e+13\n", + " Region: \"zone_1\"\tRelError: 3.52548e-03\tAbsError: 1.20689e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.52200e-03\tAbsError: 3.09455e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.47154e-06\tAbsError: 1.20380e-03\n", + " Region: \"zone_3\"\tRelError: 3.40418e-02\tAbsError: 3.32993e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47698e-04\tAbsError: 1.63796e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.38649e-04\tAbsError: 1.69197e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.35520e-02\tAbsError: 3.11273e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.47235e-06\tAbsError: 1.20402e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.50762e-03\tAbsError: 1.02667e+12\n", + " Region: \"zone_1\"\tRelError: 4.77667e-04\tAbsError: 4.19184e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.77548e-04\tAbsError: 5.13940e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19272e-07\tAbsError: 4.14045e-05\n", + " Region: \"zone_3\"\tRelError: 4.02995e-03\tAbsError: 1.02667e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.92271e-05\tAbsError: 5.17713e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.89991e-05\tAbsError: 5.08953e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.93161e-03\tAbsError: 5.31847e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19272e-07\tAbsError: 4.14045e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 3.74423e-04\tAbsError: 1.83514e+11\n", + " Region: \"zone_1\"\tRelError: 9.24322e-05\tAbsError: 7.24007e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 9.24114e-05\tAbsError: 1.03473e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.08025e-08\tAbsError: 7.22972e-06\n", + " Region: \"zone_3\"\tRelError: 2.81991e-04\tAbsError: 1.83514e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.14280e-07\tAbsError: 8.93421e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.65006e-07\tAbsError: 9.41716e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.80591e-04\tAbsError: 1.04236e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.08113e-08\tAbsError: 7.23287e-06\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.03654e-04\tAbsError: 4.37520e+10\n", + " Region: \"zone_1\"\tRelError: 1.71235e-05\tAbsError: 5.08015e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.71089e-05\tAbsError: 2.09274e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.45611e-08\tAbsError: 5.05922e-06\n", + " Region: \"zone_3\"\tRelError: 1.86531e-04\tAbsError: 4.37520e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.15573e-06\tAbsError: 2.46704e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.14884e-06\tAbsError: 1.90816e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82212e-04\tAbsError: 2.21547e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.45654e-08\tAbsError: 5.06071e-06\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.01824e-04\tAbsError: 5.91028e+10\n", + " Region: \"zone_1\"\tRelError: 3.53926e-06\tAbsError: 2.67115e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.53158e-06\tAbsError: 2.19844e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.67947e-09\tAbsError: 2.66896e-06\n", + " Region: \"zone_3\"\tRelError: 9.82849e-05\tAbsError: 5.91028e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.78782e-08\tAbsError: 2.93440e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.77169e-08\tAbsError: 2.97588e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 9.80917e-05\tAbsError: 2.22202e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.68243e-09\tAbsError: 2.67005e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.47008e-03\tAbsError: 4.77215e+12\n", + " Region: \"zone_1\"\tRelError: 6.05494e-04\tAbsError: 5.38691e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.03946e-04\tAbsError: 4.25617e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54844e-06\tAbsError: 5.38265e-04\n", + " Region: \"zone_3\"\tRelError: 5.86458e-03\tAbsError: 4.77215e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.53153e-05\tAbsError: 2.34800e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.40122e-05\tAbsError: 2.42415e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.79371e-03\tAbsError: 4.28072e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54906e-06\tAbsError: 5.38488e-04\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 8.29193e-05\tAbsError: 3.84339e+10\n", + " Region: \"zone_1\"\tRelError: 2.05031e-05\tAbsError: 2.36410e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.04963e-05\tAbsError: 2.24932e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.79589e-09\tAbsError: 2.36186e-06\n", + " Region: \"zone_3\"\tRelError: 6.24162e-05\tAbsError: 3.84339e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.48397e-07\tAbsError: 1.87077e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.38686e-07\tAbsError: 1.97262e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 6.21223e-05\tAbsError: 2.26557e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.79872e-09\tAbsError: 2.36287e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.87878e-04\tAbsError: 3.71113e+10\n", + " Region: \"zone_1\"\tRelError: 3.08061e-05\tAbsError: 6.36156e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.06230e-05\tAbsError: 2.65699e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83040e-07\tAbsError: 6.35890e-05\n", + " Region: \"zone_3\"\tRelError: 2.57072e-04\tAbsError: 3.71113e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.17303e-06\tAbsError: 1.49809e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.20928e-06\tAbsError: 2.21304e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.52507e-04\tAbsError: 2.72049e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83108e-07\tAbsError: 6.36126e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:56\u001b[0m.\u001b[1;36m115\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:56\u001b[0m.\u001b[1;36m115\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.9444444444444445\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.86300e-05\tAbsError: 4.83981e+09\n", + " Region: \"zone_1\"\tRelError: 2.42070e-06\tAbsError: 3.03673e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.41197e-06\tAbsError: 2.59560e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.73266e-09\tAbsError: 3.03413e-06\n", + " Region: \"zone_3\"\tRelError: 2.62093e-05\tAbsError: 4.83981e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.54983e-07\tAbsError: 2.76736e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.56118e-07\tAbsError: 2.07245e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.56894e-05\tAbsError: 2.72893e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.73423e-09\tAbsError: 3.03468e-06\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 3.38300e-05\tAbsError: 2.01418e+10\n", + " Region: \"zone_1\"\tRelError: 1.17571e-06\tAbsError: 5.87640e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17402e-06\tAbsError: 7.44968e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.68869e-09\tAbsError: 5.86895e-07\n", + " Region: \"zone_3\"\tRelError: 3.26543e-05\tAbsError: 2.01418e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.37367e-08\tAbsError: 9.99956e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.02428e-08\tAbsError: 1.01422e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.25886e-05\tAbsError: 7.53080e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.68939e-09\tAbsError: 5.87154e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:56\u001b[0m.\u001b[1;36m557\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:56\u001b[0m.\u001b[1;36m557\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7299999999999999\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:56\u001b[0m.\u001b[1;36m645\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 1.0\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.65398e-03\tAbsError: 2.00158e+12\n", + " Region: \"zone_1\"\tRelError: 2.48909e-04\tAbsError: 1.00808e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.48620e-04\tAbsError: 1.66964e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.89512e-07\tAbsError: 1.00641e-04\n", + " Region: \"zone_3\"\tRelError: 2.40507e-03\tAbsError: 2.00158e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50347e-05\tAbsError: 9.84888e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.44145e-05\tAbsError: 1.01669e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.37533e-03\tAbsError: 1.67974e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.89623e-07\tAbsError: 1.00681e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 3.15874e-04\tAbsError: 6.29994e+10\n", + " Region: \"zone_1\"\tRelError: 3.36655e-05\tAbsError: 6.22152e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.36476e-05\tAbsError: 2.89646e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.78252e-08\tAbsError: 6.19255e-06\n", + " Region: \"zone_3\"\tRelError: 2.82208e-04\tAbsError: 6.29994e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.92738e-06\tAbsError: 3.54342e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.90850e-06\tAbsError: 2.75653e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.76354e-04\tAbsError: 2.97673e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.78310e-08\tAbsError: 6.19458e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.70881e+01\tAbsError: 6.50862e+17\n", + " Region: \"zone_1\"\tRelError: 2.91488e+01\tAbsError: 4.20730e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.91488e+01\tAbsError: 4.20725e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.56065e-09\tAbsError: 5.42392e-07\n", + " Region: \"zone_3\"\tRelError: 4.79392e+01\tAbsError: 6.50862e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.42560e-01\tAbsError: 3.17361e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.28573e-01\tAbsError: 3.33501e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 4.64681e+01\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.56130e-09\tAbsError: 5.42626e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.28636e+01\tAbsError: 2.51540e+16\n", + " Region: \"zone_1\"\tRelError: 1.10662e+01\tAbsError: 4.19634e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10662e+01\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43744e-09\tAbsError: 4.99432e-07\n", + " Region: \"zone_3\"\tRelError: 1.79735e+00\tAbsError: 2.51540e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77566e-01\tAbsError: 1.26366e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.77157e-01\tAbsError: 1.25173e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.42624e-01\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43763e-09\tAbsError: 4.99500e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.07845e+03\tAbsError: 1.16809e+18\n", + " Region: \"zone_1\"\tRelError: 2.98806e+02\tAbsError: 4.09541e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.98806e+02\tAbsError: 4.09540e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.33797e-10\tAbsError: 1.85521e-07\n", + " Region: \"zone_3\"\tRelError: 7.79646e+02\tAbsError: 1.16809e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90701e-01\tAbsError: 5.74604e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.65642e-01\tAbsError: 5.93489e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 7.78290e+02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.34021e-10\tAbsError: 1.85602e-07\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 5.36228e-04\tAbsError: 3.67963e+11\n", + " Region: \"zone_1\"\tRelError: 5.03370e-05\tAbsError: 3.69568e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.02308e-05\tAbsError: 3.27141e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06219e-07\tAbsError: 3.69241e-05\n", + " Region: \"zone_3\"\tRelError: 4.85891e-04\tAbsError: 3.67963e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.74381e-06\tAbsError: 1.81082e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.63918e-06\tAbsError: 1.86881e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.80402e-04\tAbsError: 3.29054e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06263e-07\tAbsError: 3.69404e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.92670e-05\tAbsError: 5.95026e+09\n", + " Region: \"zone_1\"\tRelError: 4.20495e-06\tAbsError: 4.23098e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.19278e-06\tAbsError: 3.10942e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.21699e-08\tAbsError: 4.22787e-06\n", + " Region: \"zone_3\"\tRelError: 3.50620e-05\tAbsError: 5.95026e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.01282e-07\tAbsError: 3.34783e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.02333e-07\tAbsError: 2.60243e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.44462e-05\tAbsError: 3.17149e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.21718e-08\tAbsError: 4.22856e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:58\u001b[0m.\u001b[1;36m698\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.7599999999999999\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.53936e+01\tAbsError: 4.63574e+17\n", + " Region: \"zone_1\"\tRelError: 1.68382e+01\tAbsError: 5.87381e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.68366e+01\tAbsError: 3.20816e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59994e-03\tAbsError: 5.55300e-01\n", + " Region: \"zone_3\"\tRelError: 8.55548e+00\tAbsError: 4.63574e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.36996e-01\tAbsError: 2.31508e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.17433e-01\tAbsError: 2.32066e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 7.49945e+00\tAbsError: 3.20820e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60182e-03\tAbsError: 5.55931e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.78042e+00\tAbsError: 2.62146e+16\n", + " Region: \"zone_1\"\tRelError: 2.05146e-01\tAbsError: 1.39912e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.04835e-01\tAbsError: 3.19524e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.10831e-04\tAbsError: 1.07960e-01\n", + " Region: \"zone_3\"\tRelError: 1.57527e+00\tAbsError: 2.62146e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.51357e-01\tAbsError: 1.30522e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.18341e-01\tAbsError: 1.31624e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.05264e-01\tAbsError: 3.19525e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.10831e-04\tAbsError: 1.07960e-01\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.84514e-04\tAbsError: 1.29331e+11\n", + " Region: \"zone_1\"\tRelError: 1.73204e-05\tAbsError: 7.90813e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72976e-05\tAbsError: 1.15361e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.27155e-08\tAbsError: 7.89660e-06\n", + " Region: \"zone_3\"\tRelError: 1.67193e-04\tAbsError: 1.29331e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.72276e-07\tAbsError: 6.36462e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.31421e-07\tAbsError: 6.56851e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65267e-04\tAbsError: 1.16052e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.27252e-08\tAbsError: 7.90006e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.95227e+03\tAbsError: 4.47180e+17\n", + " Region: \"zone_1\"\tRelError: 5.95735e+02\tAbsError: 1.32695e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95731e+02\tAbsError: 3.07627e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.72641e-03\tAbsError: 1.29619e+00\n", + " Region: \"zone_3\"\tRelError: 2.35653e+03\tAbsError: 4.47180e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.30389e-01\tAbsError: 2.23868e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.07870e-01\tAbsError: 2.23312e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 2.35569e+03\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.72703e-03\tAbsError: 1.29643e+00\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 9.31912e+00\tAbsError: 1.05474e+17\n", + " Region: \"zone_1\"\tRelError: 3.16376e+00\tAbsError: 1.80141e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.16331e+00\tAbsError: 2.58274e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.43672e-04\tAbsError: 1.54313e-01\n", + " Region: \"zone_3\"\tRelError: 6.15536e+00\tAbsError: 1.05474e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.38445e-01\tAbsError: 5.28833e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.41911e-01\tAbsError: 5.25905e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 5.77456e+00\tAbsError: 2.58274e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.43863e-04\tAbsError: 1.54374e-01\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 8.89989e+01\tAbsError: 3.92698e+16\n", + " Region: \"zone_1\"\tRelError: 8.71579e+01\tAbsError: 4.29344e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.71579e+01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83834e-09\tAbsError: 6.38649e-07\n", + " Region: \"zone_3\"\tRelError: 1.84091e+00\tAbsError: 3.92698e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.85132e-01\tAbsError: 1.95208e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.84546e-01\tAbsError: 1.97490e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.71236e-01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83857e-09\tAbsError: 6.38730e-07\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 4.13464e-05\tAbsError: 2.75069e+10\n", + " Region: \"zone_1\"\tRelError: 3.88379e-06\tAbsError: 2.55222e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.87646e-06\tAbsError: 2.54121e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.33447e-09\tAbsError: 2.54968e-06\n", + " Region: \"zone_3\"\tRelError: 3.74626e-05\tAbsError: 2.75069e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05752e-07\tAbsError: 1.35376e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.97692e-07\tAbsError: 1.39693e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.70518e-05\tAbsError: 2.55608e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.33751e-09\tAbsError: 2.55078e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:00\u001b[0m.\u001b[1;36m915\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.9\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.52969e+00\tAbsError: 1.69120e+16\n", + " Region: \"zone_1\"\tRelError: 2.50790e-01\tAbsError: 9.45900e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.50592e-01\tAbsError: 2.58713e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.97890e-04\tAbsError: 6.87187e-02\n", + " Region: \"zone_3\"\tRelError: 1.27890e+00\tAbsError: 1.69120e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.64432e-01\tAbsError: 8.40128e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.11936e-01\tAbsError: 8.51077e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 4.02336e-01\tAbsError: 2.52194e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.97890e-04\tAbsError: 6.87187e-02\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 8.37720e+02\tAbsError: 8.62713e+16\n", + " Region: \"zone_1\"\tRelError: 6.83172e+02\tAbsError: 5.09423e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 6.83170e+02\tAbsError: 2.58987e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39194e-03\tAbsError: 4.83524e-01\n", + " Region: \"zone_3\"\tRelError: 1.54548e+02\tAbsError: 8.62713e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.27446e-01\tAbsError: 4.32970e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.20316e-02\tAbsError: 4.29743e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.54357e+02\tAbsError: 2.58982e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39675e-03\tAbsError: 4.85195e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.33136e+00\tAbsError: 4.26102e+16\n", + " Region: \"zone_1\"\tRelError: 7.03868e-01\tAbsError: 1.89183e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 7.03418e-01\tAbsError: 3.31000e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.49500e-04\tAbsError: 1.56083e-01\n", + " Region: \"zone_3\"\tRelError: 1.62750e+00\tAbsError: 4.26102e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.64246e-01\tAbsError: 2.11454e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.28205e-01\tAbsError: 2.14648e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.34596e-01\tAbsError: 3.31000e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.49500e-04\tAbsError: 1.56083e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.00195e+02\tAbsError: 1.20830e+16\n", + " Region: \"zone_1\"\tRelError: 1.86371e+00\tAbsError: 2.42851e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86304e+00\tAbsError: 1.08339e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.68777e-04\tAbsError: 2.32017e-01\n", + " Region: \"zone_3\"\tRelError: 9.83312e+01\tAbsError: 1.20830e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.72462e-02\tAbsError: 6.06999e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.40219e-02\tAbsError: 6.01304e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.82793e+01\tAbsError: 1.08344e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.69062e-04\tAbsError: 2.32109e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 9.03245e-01\tAbsError: 5.18936e+15\n", + " Region: \"zone_1\"\tRelError: 2.71832e-01\tAbsError: 3.50455e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.71762e-01\tAbsError: 1.06614e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.02213e-05\tAbsError: 2.43841e-02\n", + " Region: \"zone_3\"\tRelError: 6.31413e-01\tAbsError: 5.18936e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98887e-01\tAbsError: 2.86107e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.19458e-01\tAbsError: 2.32829e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 3.12998e-01\tAbsError: 1.06615e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.02213e-05\tAbsError: 2.43841e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 6.13777e+02\tAbsError: 9.41150e+15\n", + " Region: \"zone_1\"\tRelError: 7.34943e+01\tAbsError: 1.74710e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 7.34894e+01\tAbsError: 9.16455e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.95952e-03\tAbsError: 1.73794e+00\n", + " Region: \"zone_3\"\tRelError: 5.40283e+02\tAbsError: 9.41150e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.82819e-02\tAbsError: 3.95531e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.70902e-02\tAbsError: 5.45619e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.40223e+02\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.96820e-03\tAbsError: 1.74101e+00\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.18618e+01\tAbsError: 3.43486e+17\n", + " Region: \"zone_1\"\tRelError: 4.68734e+01\tAbsError: 4.09548e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.68734e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70509e-09\tAbsError: 5.92742e-07\n", + " Region: \"zone_3\"\tRelError: 1.49884e+01\tAbsError: 3.43486e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.50361e-01\tAbsError: 1.67687e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.42491e-01\tAbsError: 1.75799e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.34955e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70580e-09\tAbsError: 5.92998e-07\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.45670e-01\tAbsError: 1.26540e+15\n", + " Region: \"zone_1\"\tRelError: 3.11411e-02\tAbsError: 1.07400e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.08323e-02\tAbsError: 1.56334e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.08810e-04\tAbsError: 1.07385e-01\n", + " Region: \"zone_3\"\tRelError: 9.14528e-01\tAbsError: 1.26540e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.37147e-03\tAbsError: 6.61259e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.87047e-04\tAbsError: 6.04144e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.11261e-01\tAbsError: 1.60143e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.08810e-04\tAbsError: 1.07385e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 3.78831e+00\tAbsError: 2.78341e+16\n", + " Region: \"zone_1\"\tRelError: 1.69902e-01\tAbsError: 1.09102e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.69661e-01\tAbsError: 2.55696e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.40621e-04\tAbsError: 8.35322e-02\n", + " Region: \"zone_3\"\tRelError: 3.61840e+00\tAbsError: 2.78341e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.81251e-01\tAbsError: 1.38039e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.31150e-01\tAbsError: 1.40303e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.70576e+00\tAbsError: 2.44241e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.40621e-04\tAbsError: 8.35322e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.76534e-01\tAbsError: 1.17369e+15\n", + " Region: \"zone_1\"\tRelError: 1.69600e-02\tAbsError: 1.69700e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.64717e-02\tAbsError: 3.03978e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.88294e-04\tAbsError: 1.69396e-01\n", + " Region: \"zone_3\"\tRelError: 1.59574e-01\tAbsError: 1.17369e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.93455e-02\tAbsError: 4.91766e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.63740e-02\tAbsError: 6.81925e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.33645e-02\tAbsError: 3.31356e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.89669e-04\tAbsError: 1.69868e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.16806e+01\tAbsError: 1.22386e+16\n", + " Region: \"zone_1\"\tRelError: 5.81165e+00\tAbsError: 2.01324e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.80588e+00\tAbsError: 6.99078e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.77633e-03\tAbsError: 2.01254e+00\n", + " Region: \"zone_3\"\tRelError: 5.86896e+00\tAbsError: 1.22386e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.88114e-02\tAbsError: 5.53671e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.06848e-02\tAbsError: 6.70184e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.80368e+00\tAbsError: 7.04147e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.78367e-03\tAbsError: 2.01512e+00\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 6.59116e+00\tAbsError: 3.05940e+17\n", + " Region: \"zone_1\"\tRelError: 1.06162e+00\tAbsError: 1.92710e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06116e+00\tAbsError: 3.07630e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.67257e-04\tAbsError: 1.61947e-01\n", + " Region: \"zone_3\"\tRelError: 5.52954e+00\tAbsError: 3.05940e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.66708e-01\tAbsError: 1.53394e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.75609e-01\tAbsError: 1.52546e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 4.38676e+00\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.67257e-04\tAbsError: 1.61947e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.55882e-01\tAbsError: 5.19874e+14\n", + " Region: \"zone_1\"\tRelError: 5.38620e-02\tAbsError: 1.20803e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.38586e-02\tAbsError: 3.11909e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.38226e-06\tAbsError: 1.17683e-03\n", + " Region: \"zone_3\"\tRelError: 5.02020e-01\tAbsError: 5.19874e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.56161e-04\tAbsError: 2.58405e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.64452e-04\tAbsError: 2.61469e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.00896e-01\tAbsError: 3.14682e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.38459e-06\tAbsError: 1.17764e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.38718e+01\tAbsError: 9.28637e+15\n", + " Region: \"zone_1\"\tRelError: 7.88025e+00\tAbsError: 6.96344e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.88008e+00\tAbsError: 1.22653e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.65287e-04\tAbsError: 5.73691e-02\n", + " Region: \"zone_3\"\tRelError: 5.99160e+00\tAbsError: 9.28637e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.18748e-01\tAbsError: 4.98903e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.31602e-01\tAbsError: 4.29734e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.64108e+00\tAbsError: 1.22654e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.65287e-04\tAbsError: 5.73691e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 8.46015e-01\tAbsError: 1.80032e+14\n", + " Region: \"zone_1\"\tRelError: 9.75495e-02\tAbsError: 1.04545e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.75195e-02\tAbsError: 5.53506e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.99752e-05\tAbsError: 1.03991e-02\n", + " Region: \"zone_3\"\tRelError: 7.48465e-01\tAbsError: 1.80032e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.33637e-03\tAbsError: 9.04288e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.16174e-03\tAbsError: 8.96033e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.39937e-01\tAbsError: 5.59249e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.99992e-05\tAbsError: 1.04072e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 8.44367e+01\tAbsError: 1.02259e+16\n", + " Region: \"zone_1\"\tRelError: 4.22055e+01\tAbsError: 1.45859e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.22051e+01\tAbsError: 5.71640e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.16833e-04\tAbsError: 1.45287e-01\n", + " Region: \"zone_3\"\tRelError: 4.22312e+01\tAbsError: 1.02259e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.97020e-02\tAbsError: 4.95775e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.96648e-03\tAbsError: 5.26817e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 4.22051e+01\tAbsError: 5.76213e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.17002e-04\tAbsError: 1.45346e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 3.39017e+01\tAbsError: 1.15461e+17\n", + " Region: \"zone_1\"\tRelError: 6.40052e-01\tAbsError: 2.51200e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 6.39402e-01\tAbsError: 2.58690e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.49519e-04\tAbsError: 2.25331e-01\n", + " Region: \"zone_3\"\tRelError: 3.32617e+01\tAbsError: 1.15461e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.89584e-01\tAbsError: 5.80157e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.82182e-01\tAbsError: 5.74450e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.27893e+01\tAbsError: 2.58944e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.51823e-04\tAbsError: 2.26124e-01\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.90203e-02\tAbsError: 8.57664e+12\n", + " Region: \"zone_1\"\tRelError: 6.51163e-04\tAbsError: 3.92189e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.39892e-04\tAbsError: 6.62870e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12712e-05\tAbsError: 3.92123e-03\n", + " Region: \"zone_3\"\tRelError: 1.83691e-02\tAbsError: 8.57664e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.99766e-05\tAbsError: 4.26406e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.25376e-05\tAbsError: 4.31258e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82453e-02\tAbsError: 6.67022e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12760e-05\tAbsError: 3.92281e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.77662e-01\tAbsError: 2.06585e+15\n", + " Region: \"zone_1\"\tRelError: 4.30114e-01\tAbsError: 2.03900e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.29527e-01\tAbsError: 3.53307e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.86951e-04\tAbsError: 2.03546e-01\n", + " Region: \"zone_3\"\tRelError: 4.47548e-01\tAbsError: 2.06585e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.13163e-02\tAbsError: 1.09818e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.86137e-02\tAbsError: 9.67666e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.67030e-01\tAbsError: 3.88113e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.87978e-04\tAbsError: 2.03897e-01\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 9.34138e-02\tAbsError: 1.37807e+13\n", + " Region: \"zone_1\"\tRelError: 1.18515e-02\tAbsError: 5.19856e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18366e-02\tAbsError: 4.20470e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.49728e-05\tAbsError: 5.19436e-03\n", + " Region: \"zone_3\"\tRelError: 8.15623e-02\tAbsError: 1.37807e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.21884e-04\tAbsError: 6.93208e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.26229e-04\tAbsError: 6.84861e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.08992e-02\tAbsError: 4.35810e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.49755e-05\tAbsError: 5.19537e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.49604e+00\tAbsError: 9.70392e+14\n", + " Region: \"zone_1\"\tRelError: 3.74605e+00\tAbsError: 7.97463e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.74582e+00\tAbsError: 4.64021e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28718e-04\tAbsError: 7.96999e-02\n", + " Region: \"zone_3\"\tRelError: 3.74999e+00\tAbsError: 9.70392e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.58316e-03\tAbsError: 4.83793e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.36045e-03\tAbsError: 4.86599e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.74582e+00\tAbsError: 4.67428e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28813e-04\tAbsError: 7.97327e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.34480e+00\tAbsError: 1.48853e+16\n", + " Region: \"zone_1\"\tRelError: 1.80604e-01\tAbsError: 1.59400e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.80172e-01\tAbsError: 9.16501e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.31839e-04\tAbsError: 1.50235e-01\n", + " Region: \"zone_3\"\tRelError: 3.16419e+00\tAbsError: 1.48853e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.34401e-02\tAbsError: 7.53366e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.19569e-02\tAbsError: 7.35164e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 3.07837e+00\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.31839e-04\tAbsError: 1.50235e-01\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.42229e-02\tAbsError: 2.62107e+13\n", + " Region: \"zone_1\"\tRelError: 9.63183e-04\tAbsError: 1.99796e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.62612e-04\tAbsError: 1.17402e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.70933e-07\tAbsError: 1.98622e-04\n", + " Region: \"zone_3\"\tRelError: 5.32597e-02\tAbsError: 2.62107e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91026e-05\tAbsError: 1.30391e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.35312e-05\tAbsError: 1.31716e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.32065e-02\tAbsError: 1.18451e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.71166e-07\tAbsError: 1.98702e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 8.53636e-01\tAbsError: 3.08501e+14\n", + " Region: \"zone_1\"\tRelError: 3.98620e-02\tAbsError: 1.23082e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.98267e-02\tAbsError: 5.75296e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.53250e-05\tAbsError: 1.22507e-02\n", + " Region: \"zone_3\"\tRelError: 8.13774e-01\tAbsError: 3.08501e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.49398e-03\tAbsError: 1.56170e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.26463e-03\tAbsError: 1.52331e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.04980e-01\tAbsError: 6.04070e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.53536e-05\tAbsError: 1.22608e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 6.68389e-02\tAbsError: 8.42161e+12\n", + " Region: \"zone_1\"\tRelError: 8.05486e-03\tAbsError: 6.74002e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 8.05293e-03\tAbsError: 2.14389e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93552e-06\tAbsError: 6.71858e-04\n", + " Region: \"zone_3\"\tRelError: 5.87840e-02\tAbsError: 8.42161e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.97849e-04\tAbsError: 4.23824e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.96209e-04\tAbsError: 4.18336e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.83880e-02\tAbsError: 2.29466e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93608e-06\tAbsError: 6.72072e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 9.26745e+00\tAbsError: 5.14481e+14\n", + " Region: \"zone_1\"\tRelError: 8.59152e+00\tAbsError: 9.35409e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 8.59150e+00\tAbsError: 2.29233e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.68516e-05\tAbsError: 9.33117e-03\n", + " Region: \"zone_3\"\tRelError: 6.75929e-01\tAbsError: 5.14481e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.99602e-04\tAbsError: 2.56366e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.52414e-04\tAbsError: 2.58114e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.74650e-01\tAbsError: 2.31041e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.68516e-05\tAbsError: 9.33117e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 3.42204e-01\tAbsError: 1.90329e+15\n", + " Region: \"zone_1\"\tRelError: 2.01983e-02\tAbsError: 3.47392e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.91990e-02\tAbsError: 1.15001e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.99221e-04\tAbsError: 3.47277e-01\n", + " Region: \"zone_3\"\tRelError: 3.22006e-01\tAbsError: 1.90329e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.20950e-03\tAbsError: 1.00831e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03234e-03\tAbsError: 8.94978e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.11765e-01\tAbsError: 1.16357e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.99221e-04\tAbsError: 3.47277e-01\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 5.30116e-03\tAbsError: 1.65033e+12\n", + " Region: \"zone_1\"\tRelError: 9.08964e-05\tAbsError: 1.77648e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.03860e-05\tAbsError: 7.18800e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.10472e-07\tAbsError: 1.77577e-04\n", + " Region: \"zone_3\"\tRelError: 5.21027e-03\tAbsError: 1.65033e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.07855e-06\tAbsError: 8.21862e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.94019e-06\tAbsError: 8.28472e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.20274e-03\tAbsError: 7.24579e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.10652e-07\tAbsError: 1.77639e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 9.89484e-02\tAbsError: 2.22861e+13\n", + " Region: \"zone_1\"\tRelError: 5.09435e-03\tAbsError: 5.93418e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.07725e-03\tAbsError: 4.26347e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70993e-05\tAbsError: 5.92992e-03\n", + " Region: \"zone_3\"\tRelError: 9.38540e-02\tAbsError: 2.22861e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.12518e-04\tAbsError: 1.13121e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.19708e-04\tAbsError: 1.09740e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.32047e-02\tAbsError: 4.58383e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71053e-05\tAbsError: 5.93209e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.07664e-02\tAbsError: 1.13884e+12\n", + " Region: \"zone_1\"\tRelError: 1.31333e-03\tAbsError: 3.25313e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31239e-03\tAbsError: 2.77300e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.36318e-07\tAbsError: 3.25036e-04\n", + " Region: \"zone_3\"\tRelError: 9.45302e-03\tAbsError: 1.13884e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.68360e-05\tAbsError: 5.72049e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.66458e-05\tAbsError: 5.66790e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 9.39861e-03\tAbsError: 3.00400e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.36507e-07\tAbsError: 3.25102e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.48030e+01\tAbsError: 7.19505e+13\n", + " Region: \"zone_1\"\tRelError: 1.40655e+01\tAbsError: 3.86191e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40655e+01\tAbsError: 2.84880e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11050e-05\tAbsError: 3.85906e-03\n", + " Region: \"zone_3\"\tRelError: 7.37529e-01\tAbsError: 7.19505e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.38672e-04\tAbsError: 3.58470e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.21484e-04\tAbsError: 3.61036e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.37257e-01\tAbsError: 2.87067e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11068e-05\tAbsError: 3.85947e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 7.26159e-01\tAbsError: 1.60368e+15\n", + " Region: \"zone_1\"\tRelError: 2.39971e-02\tAbsError: 1.68797e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.39489e-02\tAbsError: 1.07820e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.82419e-05\tAbsError: 1.67718e-02\n", + " Region: \"zone_3\"\tRelError: 7.02162e-01\tAbsError: 1.60368e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.86883e-03\tAbsError: 7.94204e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.42424e-03\tAbsError: 8.09476e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.96821e-01\tAbsError: 1.08766e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.82636e-05\tAbsError: 1.67793e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.02475e-03\tAbsError: 1.45063e+12\n", + " Region: \"zone_1\"\tRelError: 6.82332e-05\tAbsError: 1.85610e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.81798e-05\tAbsError: 5.23725e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.33733e-08\tAbsError: 1.85086e-05\n", + " Region: \"zone_3\"\tRelError: 3.95652e-03\tAbsError: 1.45063e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.55532e-06\tAbsError: 7.22108e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.33185e-06\tAbsError: 7.28517e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.95357e-03\tAbsError: 5.28441e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.33816e-08\tAbsError: 1.85110e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 7.00709e-02\tAbsError: 1.40239e+13\n", + " Region: \"zone_1\"\tRelError: 5.03970e-03\tAbsError: 7.16974e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.03764e-03\tAbsError: 2.12927e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.06030e-06\tAbsError: 7.14844e-04\n", + " Region: \"zone_3\"\tRelError: 6.50312e-02\tAbsError: 1.40239e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.99984e-04\tAbsError: 7.11157e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.96186e-04\tAbsError: 6.91232e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 6.46330e-02\tAbsError: 2.37452e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.06089e-06\tAbsError: 7.15072e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.82197e-03\tAbsError: 5.21696e+11\n", + " Region: \"zone_1\"\tRelError: 5.86077e-04\tAbsError: 5.83701e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.85910e-04\tAbsError: 1.23649e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67458e-07\tAbsError: 5.82464e-05\n", + " Region: \"zone_3\"\tRelError: 4.23589e-03\tAbsError: 5.21696e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.23100e-05\tAbsError: 2.62384e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.21550e-05\tAbsError: 2.59312e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.21126e-03\tAbsError: 1.33690e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67522e-07\tAbsError: 5.82688e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.47896e+00\tAbsError: 2.94682e+13\n", + " Region: \"zone_1\"\tRelError: 1.24509e+00\tAbsError: 6.95816e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.24509e+00\tAbsError: 1.07735e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.99937e-06\tAbsError: 6.94739e-04\n", + " Region: \"zone_3\"\tRelError: 2.33869e-01\tAbsError: 2.94682e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.81392e-05\tAbsError: 1.46808e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.76977e-05\tAbsError: 1.47873e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.33792e-01\tAbsError: 1.08579e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.99953e-06\tAbsError: 6.95001e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.12346e-01\tAbsError: 1.08123e+14\n", + " Region: \"zone_1\"\tRelError: 3.56238e-03\tAbsError: 1.31451e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.52458e-03\tAbsError: 6.36043e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.77942e-05\tAbsError: 1.31387e-02\n", + " Region: \"zone_3\"\tRelError: 1.08784e-01\tAbsError: 1.08123e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.76703e-04\tAbsError: 5.36465e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.39449e-04\tAbsError: 5.44763e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08330e-01\tAbsError: 6.41381e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.78094e-05\tAbsError: 1.31440e-02\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 5.73035e-04\tAbsError: 1.62179e+11\n", + " Region: \"zone_1\"\tRelError: 9.76105e-06\tAbsError: 1.05558e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 9.73070e-06\tAbsError: 5.56147e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.03448e-08\tAbsError: 1.05503e-05\n", + " Region: \"zone_3\"\tRelError: 5.63274e-04\tAbsError: 1.62179e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.13645e-07\tAbsError: 8.07775e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.43383e-07\tAbsError: 8.14013e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.62786e-04\tAbsError: 5.60872e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.03562e-08\tAbsError: 1.05543e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.09197e-02\tAbsError: 1.80216e+12\n", + " Region: \"zone_1\"\tRelError: 8.53563e-04\tAbsError: 3.58810e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 8.52532e-04\tAbsError: 2.71616e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.03105e-06\tAbsError: 3.58539e-04\n", + " Region: \"zone_3\"\tRelError: 1.00661e-02\tAbsError: 1.80216e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.57850e-05\tAbsError: 9.11943e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.53850e-05\tAbsError: 8.90217e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00139e-02\tAbsError: 2.97011e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.03144e-06\tAbsError: 3.58676e-04\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 9.54183e-04\tAbsError: 9.39667e+10\n", + " Region: \"zone_1\"\tRelError: 1.16209e-04\tAbsError: 2.27557e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16144e-04\tAbsError: 2.33029e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.53549e-08\tAbsError: 2.27324e-05\n", + " Region: \"zone_3\"\tRelError: 8.37974e-04\tAbsError: 9.39667e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.21772e-06\tAbsError: 4.71829e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.19489e-06\tAbsError: 4.67838e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 8.33496e-04\tAbsError: 2.51571e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.53810e-08\tAbsError: 2.27417e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.23148e-01\tAbsError: 5.24321e+12\n", + " Region: \"zone_1\"\tRelError: 2.61296e-01\tAbsError: 2.47766e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.61295e-01\tAbsError: 1.83418e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.11380e-07\tAbsError: 2.47583e-04\n", + " Region: \"zone_3\"\tRelError: 6.18518e-02\tAbsError: 5.24321e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94642e-06\tAbsError: 2.61290e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.40186e-06\tAbsError: 2.63031e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 6.18338e-02\tAbsError: 1.85316e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.11644e-07\tAbsError: 2.47677e-04\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 2.77942e-04\tAbsError: 8.68011e+10\n", + " Region: \"zone_1\"\tRelError: 4.71672e-06\tAbsError: 1.67033e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.71193e-06\tAbsError: 2.72076e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.79630e-09\tAbsError: 1.66761e-06\n", + " Region: \"zone_3\"\tRelError: 2.73225e-04\tAbsError: 8.68011e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.10687e-08\tAbsError: 4.32250e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.08382e-08\tAbsError: 4.35761e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.73048e-04\tAbsError: 2.75222e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.79812e-09\tAbsError: 1.66827e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 8.36096e-02\tAbsError: 8.44228e+13\n", + " Region: \"zone_1\"\tRelError: 2.87350e-03\tAbsError: 1.23009e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.86998e-03\tAbsError: 4.23325e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.52636e-06\tAbsError: 1.22586e-03\n", + " Region: \"zone_3\"\tRelError: 8.07361e-02\tAbsError: 8.44228e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46087e-04\tAbsError: 4.18513e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.25646e-04\tAbsError: 4.25715e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.04608e-02\tAbsError: 4.27186e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.52783e-06\tAbsError: 1.22636e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 5.01199e-03\tAbsError: 8.44881e+11\n", + " Region: \"zone_1\"\tRelError: 4.01242e-04\tAbsError: 6.23400e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.01063e-04\tAbsError: 1.18119e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.78932e-07\tAbsError: 6.22219e-05\n", + " Region: \"zone_3\"\tRelError: 4.61074e-03\tAbsError: 8.44881e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.21066e-05\tAbsError: 4.28039e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.18113e-05\tAbsError: 4.16842e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.58665e-03\tAbsError: 1.34568e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.79002e-07\tAbsError: 6.22472e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 3.45938e-04\tAbsError: 3.49606e+10\n", + " Region: \"zone_1\"\tRelError: 4.21268e-05\tAbsError: 4.83279e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.21129e-05\tAbsError: 8.82724e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.38687e-08\tAbsError: 4.82397e-06\n", + " Region: \"zone_3\"\tRelError: 3.03811e-04\tAbsError: 3.49606e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.25886e-07\tAbsError: 1.75745e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.14419e-07\tAbsError: 1.73861e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.02157e-04\tAbsError: 9.47988e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.38741e-08\tAbsError: 4.82591e-06\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 9.77270e-02\tAbsError: 1.82347e+12\n", + " Region: \"zone_1\"\tRelError: 7.65024e-02\tAbsError: 5.28468e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.65022e-02\tAbsError: 6.24160e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.51664e-07\tAbsError: 5.27844e-05\n", + " Region: \"zone_3\"\tRelError: 2.12246e-02\tAbsError: 1.82347e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11287e-06\tAbsError: 9.08701e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.75258e-06\tAbsError: 9.14773e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.12196e-02\tAbsError: 6.30788e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.51721e-07\tAbsError: 5.28055e-05\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 4.94184e-05\tAbsError: 1.34670e+10\n", + " Region: \"zone_1\"\tRelError: 8.40757e-07\tAbsError: 7.04798e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 8.38731e-07\tAbsError: 4.68512e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.02577e-09\tAbsError: 7.04330e-07\n", + " Region: \"zone_3\"\tRelError: 4.85777e-05\tAbsError: 1.34670e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.35642e-08\tAbsError: 6.71456e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.87779e-08\tAbsError: 6.75244e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 4.85433e-05\tAbsError: 4.73582e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.02653e-09\tAbsError: 7.04612e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:13\u001b[0m.\u001b[1;36m621\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: 1.05\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.36875e-02\tAbsError: 9.69294e+12\n", + " Region: \"zone_1\"\tRelError: 4.70501e-04\tAbsError: 6.20216e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.68718e-04\tAbsError: 4.28680e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.78298e-06\tAbsError: 6.19787e-04\n", + " Region: \"zone_3\"\tRelError: 1.32170e-02\tAbsError: 9.69294e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.60935e-05\tAbsError: 4.80983e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.36870e-05\tAbsError: 4.88312e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31854e-02\tAbsError: 4.32490e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.78363e-06\tAbsError: 6.20008e-04\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 9.60700e-04\tAbsError: 1.46526e+11\n", + " Region: \"zone_1\"\tRelError: 8.00160e-05\tAbsError: 2.47424e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.99449e-05\tAbsError: 2.16238e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.10889e-08\tAbsError: 2.47208e-05\n", + " Region: \"zone_3\"\tRelError: 8.80684e-04\tAbsError: 1.46526e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.10027e-06\tAbsError: 7.40950e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.05550e-06\tAbsError: 7.24314e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 8.76457e-04\tAbsError: 2.44043e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.11163e-08\tAbsError: 2.47310e-05\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 7.73949e-05\tAbsError: 7.42262e+09\n", + " Region: \"zone_1\"\tRelError: 9.43065e-06\tAbsError: 1.62687e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 9.42598e-06\tAbsError: 1.91720e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.67168e-09\tAbsError: 1.62495e-06\n", + " Region: \"zone_3\"\tRelError: 6.79643e-05\tAbsError: 7.42262e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.75307e-07\tAbsError: 3.72700e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.73213e-07\tAbsError: 3.69562e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 6.76111e-05\tAbsError: 2.05805e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.67347e-09\tAbsError: 1.62561e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:14\u001b[0m.\u001b[1;36m484\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:14\u001b[0m.\u001b[1;36m484\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.8349999999999999\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 2.05494e-02\tAbsError: 3.74583e+11\n", + " Region: \"zone_1\"\tRelError: 1.55447e-02\tAbsError: 1.67716e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55447e-02\tAbsError: 1.38057e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.81497e-08\tAbsError: 1.67577e-05\n", + " Region: \"zone_3\"\tRelError: 5.00469e-03\tAbsError: 3.74583e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.90614e-07\tAbsError: 1.86695e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.85333e-07\tAbsError: 1.87888e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.00347e-03\tAbsError: 1.39492e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.81681e-08\tAbsError: 1.67646e-05\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.39678e+02\tAbsError: 1.67099e+18\n", + " Region: \"zone_1\"\tRelError: 2.95195e+02\tAbsError: 4.20724e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.95195e+02\tAbsError: 4.20722e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.86327e-10\tAbsError: 1.34320e-07\n", + " Region: \"zone_3\"\tRelError: 4.44483e+02\tAbsError: 1.67099e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67379e-01\tAbsError: 8.29298e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.42234e-01\tAbsError: 8.41690e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 4.43174e+02\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.86484e-10\tAbsError: 1.34379e-07\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 3.52484e-04\tAbsError: 5.50892e+10\n", + " Region: \"zone_1\"\tRelError: 2.94784e-05\tAbsError: 5.09771e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.94637e-05\tAbsError: 8.23414e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.46357e-08\tAbsError: 5.08948e-06\n", + " Region: \"zone_3\"\tRelError: 3.23006e-04\tAbsError: 5.50892e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.90399e-07\tAbsError: 2.78906e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69285e-07\tAbsError: 2.71986e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.21431e-04\tAbsError: 9.35507e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.46414e-08\tAbsError: 5.09161e-06\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 6.63798e-03\tAbsError: 4.90503e+12\n", + " Region: \"zone_1\"\tRelError: 2.29406e-04\tAbsError: 9.25474e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29140e-04\tAbsError: 1.97212e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.66464e-07\tAbsError: 9.23502e-05\n", + " Region: \"zone_3\"\tRelError: 6.40857e-03\tAbsError: 4.90503e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.34900e-06\tAbsError: 2.43347e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32522e-06\tAbsError: 2.47155e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 6.39263e-03\tAbsError: 1.99078e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.66498e-07\tAbsError: 9.23593e-05\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 6.14058e-03\tAbsError: 1.17501e+11\n", + " Region: \"zone_1\"\tRelError: 4.56971e-03\tAbsError: 3.83354e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.56970e-03\tAbsError: 4.25999e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10026e-08\tAbsError: 3.82928e-06\n", + " Region: \"zone_3\"\tRelError: 1.57087e-03\tAbsError: 1.17501e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.29368e-07\tAbsError: 5.85629e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.92613e-07\tAbsError: 5.89376e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.57054e-03\tAbsError: 4.30497e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10071e-08\tAbsError: 3.83095e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.31978e+02\tAbsError: 1.33287e+17\n", + " Region: \"zone_1\"\tRelError: 1.28982e+02\tAbsError: 4.19633e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28982e+02\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.09159e-09\tAbsError: 3.79687e-07\n", + " Region: \"zone_3\"\tRelError: 2.99611e+00\tAbsError: 1.33287e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.73467e-01\tAbsError: 6.69941e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.71171e-01\tAbsError: 6.62930e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.45147e+00\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.09201e-09\tAbsError: 3.79842e-07\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 7.69368e-05\tAbsError: 1.13679e+10\n", + " Region: \"zone_1\"\tRelError: 6.56115e-06\tAbsError: 1.72638e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.55620e-06\tAbsError: 1.74878e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.95947e-09\tAbsError: 1.72463e-06\n", + " Region: \"zone_3\"\tRelError: 7.03756e-05\tAbsError: 1.13679e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.63070e-07\tAbsError: 5.74763e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.59111e-07\tAbsError: 5.62023e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 7.00485e-05\tAbsError: 1.97676e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.96153e-09\tAbsError: 1.72539e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 9.17485e+03\tAbsError: 5.47115e+17\n", + " Region: \"zone_1\"\tRelError: 2.18779e+03\tAbsError: 1.36667e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 2.18779e+03\tAbsError: 3.20813e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.83162e-03\tAbsError: 1.33458e+00\n", + " Region: \"zone_3\"\tRelError: 6.98706e+03\tAbsError: 5.47115e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.79834e-01\tAbsError: 2.74671e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.70195e-01\tAbsError: 2.72444e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 6.98631e+03\tAbsError: 3.20820e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.83194e-03\tAbsError: 1.33471e+00\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:16\u001b[0m.\u001b[1;36m588\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.8699999999999999\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.25648e-03\tAbsError: 7.75715e+11\n", + " Region: \"zone_1\"\tRelError: 4.35799e-05\tAbsError: 3.84452e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.34694e-05\tAbsError: 2.84735e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10539e-07\tAbsError: 3.84167e-05\n", + " Region: \"zone_3\"\tRelError: 1.21290e-03\tAbsError: 7.75715e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28473e-06\tAbsError: 3.85060e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.13479e-06\tAbsError: 3.90655e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21037e-03\tAbsError: 2.87358e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10581e-07\tAbsError: 3.84313e-05\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 1.39778e-03\tAbsError: 2.64036e+10\n", + " Region: \"zone_1\"\tRelError: 1.02275e-03\tAbsError: 1.13260e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02274e-03\tAbsError: 9.95943e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.25141e-09\tAbsError: 1.13160e-06\n", + " Region: \"zone_3\"\tRelError: 3.75036e-04\tAbsError: 2.64036e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.18289e-08\tAbsError: 1.31607e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.84989e-08\tAbsError: 1.32430e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.74952e-04\tAbsError: 1.00632e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.25274e-09\tAbsError: 1.13210e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.22611e+00\tAbsError: 1.23916e+17\n", + " Region: \"zone_1\"\tRelError: 4.14026e-01\tAbsError: 3.41273e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.13134e-01\tAbsError: 3.19524e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.91880e-04\tAbsError: 3.09320e-01\n", + " Region: \"zone_3\"\tRelError: 2.81209e+00\tAbsError: 1.23916e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.35108e-01\tAbsError: 6.21305e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.82507e-01\tAbsError: 6.17855e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49358e+00\tAbsError: 3.19525e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.92062e-04\tAbsError: 3.09391e-01\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 4.79935e-04\tAbsError: 3.06765e+11\n", + " Region: \"zone_1\"\tRelError: 1.66486e-05\tAbsError: 7.60779e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66267e-05\tAbsError: 1.06336e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18595e-08\tAbsError: 7.59715e-06\n", + " Region: \"zone_3\"\tRelError: 4.63286e-04\tAbsError: 3.06765e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.16909e-07\tAbsError: 1.52260e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.59699e-07\tAbsError: 1.54505e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.62288e-04\tAbsError: 1.07353e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18679e-08\tAbsError: 7.60017e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.17043e+01\tAbsError: 7.44954e+16\n", + " Region: \"zone_1\"\tRelError: 5.01901e+00\tAbsError: 1.18236e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.01570e+00\tAbsError: 2.58768e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.31341e-03\tAbsError: 1.15648e+00\n", + " Region: \"zone_3\"\tRelError: 1.66853e+01\tAbsError: 7.44954e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.76333e-02\tAbsError: 3.73658e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.69573e-02\tAbsError: 3.71296e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65274e+01\tAbsError: 2.58764e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.31557e-03\tAbsError: 1.15724e+00\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 3.99448e-04\tAbsError: 7.75693e+09\n", + " Region: \"zone_1\"\tRelError: 2.89402e-04\tAbsError: 2.71336e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.89401e-04\tAbsError: 2.89100e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.78779e-10\tAbsError: 2.71047e-07\n", + " Region: \"zone_3\"\tRelError: 1.10046e-04\tAbsError: 7.75693e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.37898e-09\tAbsError: 3.86636e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.32737e-08\tAbsError: 3.89057e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10023e-04\tAbsError: 2.92143e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.79099e-10\tAbsError: 2.71163e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.71728e+01\tAbsError: 2.16638e+17\n", + " Region: \"zone_1\"\tRelError: 7.39288e+01\tAbsError: 4.29342e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.39288e+01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13253e-09\tAbsError: 3.93831e-07\n", + " Region: \"zone_3\"\tRelError: 3.24399e+00\tAbsError: 2.16638e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77741e-01\tAbsError: 1.09826e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.73975e-01\tAbsError: 1.06812e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.69227e+00\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13300e-09\tAbsError: 3.94006e-07\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 4.47158e+00\tAbsError: 7.88995e+16\n", + " Region: \"zone_1\"\tRelError: 1.34999e+00\tAbsError: 6.46481e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.34987e+00\tAbsError: 2.58848e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11783e-04\tAbsError: 3.87633e-02\n", + " Region: \"zone_3\"\tRelError: 3.12159e+00\tAbsError: 7.88995e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.13314e-01\tAbsError: 4.06991e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.32402e-01\tAbsError: 3.82004e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.37577e+00\tAbsError: 2.35961e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11783e-04\tAbsError: 3.87633e-02\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.01824e-04\tAbsError: 5.91028e+10\n", + " Region: \"zone_1\"\tRelError: 3.53926e-06\tAbsError: 2.67115e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.53158e-06\tAbsError: 2.19844e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.67947e-09\tAbsError: 2.66896e-06\n", + " Region: \"zone_3\"\tRelError: 9.82849e-05\tAbsError: 5.91028e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.78782e-08\tAbsError: 2.93440e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.77169e-08\tAbsError: 2.97588e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 9.80917e-05\tAbsError: 2.22202e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.68243e-09\tAbsError: 2.67005e-06\n", + "Iteration: 16\n", + " Device: \"device\"\tRelError: 9.59511e-05\tAbsError: 1.84384e+09\n", + " Region: \"zone_1\"\tRelError: 6.90144e-05\tAbsError: 7.66547e-08\n", + " Equation: \"PotentialEquation\"\tRelError: 6.90142e-05\tAbsError: 7.02485e-11\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.20044e-10\tAbsError: 7.65844e-08\n", + " Region: \"zone_3\"\tRelError: 2.69367e-05\tAbsError: 1.84384e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12306e-09\tAbsError: 9.19074e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.38040e-09\tAbsError: 9.24762e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 2.69310e-05\tAbsError: 7.09816e-11\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.20135e-10\tAbsError: 7.66170e-08\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.78002e+01\tAbsError: 8.01808e+15\n", + " Region: \"zone_1\"\tRelError: 2.60361e+00\tAbsError: 5.73745e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.60200e+00\tAbsError: 1.08334e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60640e-03\tAbsError: 5.62912e-01\n", + " Region: \"zone_3\"\tRelError: 5.51966e+01\tAbsError: 8.01808e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77531e-03\tAbsError: 4.02252e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.25608e-03\tAbsError: 3.99556e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.51829e+01\tAbsError: 1.08344e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60715e-03\tAbsError: 5.63172e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.60960e+01\tAbsError: 2.20431e+17\n", + " Region: \"zone_1\"\tRelError: 1.14074e+01\tAbsError: 3.26419e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14065e+01\tAbsError: 3.30999e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.46053e-04\tAbsError: 2.93319e-01\n", + " Region: \"zone_3\"\tRelError: 4.68862e+00\tAbsError: 2.20431e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.34214e-01\tAbsError: 1.10721e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.64986e-01\tAbsError: 1.09710e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 3.38857e+00\tAbsError: 3.31000e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.46053e-04\tAbsError: 2.93319e-01\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 3.38300e-05\tAbsError: 2.01418e+10\n", + " Region: \"zone_1\"\tRelError: 1.17571e-06\tAbsError: 5.87640e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17402e-06\tAbsError: 7.44968e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.68869e-09\tAbsError: 5.86895e-07\n", + " Region: \"zone_3\"\tRelError: 3.26543e-05\tAbsError: 2.01418e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.37367e-08\tAbsError: 9.99956e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.02428e-08\tAbsError: 1.01422e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.25886e-05\tAbsError: 7.53080e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.68939e-09\tAbsError: 5.87154e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:20\u001b[0m.\u001b[1;36m270\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 1.0\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.57821e+00\tAbsError: 2.26810e+16\n", + " Region: \"zone_1\"\tRelError: 1.10562e+00\tAbsError: 4.94572e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10550e+00\tAbsError: 1.06613e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11893e-04\tAbsError: 3.87959e-02\n", + " Region: \"zone_3\"\tRelError: 1.47260e+00\tAbsError: 2.26810e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46329e-01\tAbsError: 1.16259e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.92250e-02\tAbsError: 1.10551e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.25693e+00\tAbsError: 1.06615e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12202e-04\tAbsError: 3.89055e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.57894e+00\tAbsError: 9.76840e+15\n", + " Region: \"zone_1\"\tRelError: 1.52646e-01\tAbsError: 1.16652e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49306e-01\tAbsError: 2.40793e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.33941e-03\tAbsError: 1.16628e+00\n", + " Region: \"zone_3\"\tRelError: 8.42629e+00\tAbsError: 9.76840e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.37382e-02\tAbsError: 4.38141e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.76399e-03\tAbsError: 5.38699e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.39645e+00\tAbsError: 2.43323e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.34128e-03\tAbsError: 1.16694e+00\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.25243e+01\tAbsError: 1.27893e+17\n", + " Region: \"zone_1\"\tRelError: 2.94369e+00\tAbsError: 9.88622e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.94348e+00\tAbsError: 2.55597e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.11253e-04\tAbsError: 7.33026e-02\n", + " Region: \"zone_3\"\tRelError: 9.58059e+00\tAbsError: 1.27893e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.94923e-01\tAbsError: 6.46615e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.04853e-01\tAbsError: 6.32319e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 8.88060e+00\tAbsError: 2.58610e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.11292e-04\tAbsError: 7.33127e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:21\u001b[0m.\u001b[1;36m527\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:21\u001b[0m.\u001b[1;36m552\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.25 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:21\u001b[0m.\u001b[1;36m582\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.57775e-01\tAbsError: 3.80409e+15\n", + " Region: \"zone_1\"\tRelError: 1.14600e-01\tAbsError: 3.02181e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13729e-01\tAbsError: 2.30820e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.71391e-04\tAbsError: 3.01951e-01\n", + " Region: \"zone_3\"\tRelError: 4.31748e-02\tAbsError: 3.80409e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.65260e-02\tAbsError: 1.99925e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69056e-03\tAbsError: 1.80483e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.08532e-03\tAbsError: 2.62542e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.72885e-04\tAbsError: 3.02457e-01\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.07845e+03\tAbsError: 1.16809e+18\n", + " Region: \"zone_1\"\tRelError: 2.98806e+02\tAbsError: 4.09541e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.98806e+02\tAbsError: 4.09540e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.33797e-10\tAbsError: 1.85521e-07\n", + " Region: \"zone_3\"\tRelError: 7.79646e+02\tAbsError: 1.16809e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90701e-01\tAbsError: 5.74604e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.65642e-01\tAbsError: 5.93489e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 7.78290e+02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.34021e-10\tAbsError: 1.85602e-07\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.44817e+00\tAbsError: 6.71157e+15\n", + " Region: \"zone_1\"\tRelError: 2.31265e+00\tAbsError: 5.95526e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.31248e+00\tAbsError: 3.11631e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69588e-04\tAbsError: 5.92410e-02\n", + " Region: \"zone_3\"\tRelError: 2.13552e+00\tAbsError: 6.71157e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.19978e-02\tAbsError: 3.26746e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.65453e-03\tAbsError: 3.44411e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.12070e+00\tAbsError: 3.13893e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69665e-04\tAbsError: 5.92680e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.16163e+00\tAbsError: 3.15373e+16\n", + " Region: \"zone_1\"\tRelError: 3.73877e-01\tAbsError: 1.56099e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.73462e-01\tAbsError: 1.22651e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14915e-04\tAbsError: 1.43834e-01\n", + " Region: \"zone_3\"\tRelError: 7.87757e-01\tAbsError: 3.15373e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.24889e-01\tAbsError: 1.64203e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.31812e-02\tAbsError: 1.51170e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.09272e-01\tAbsError: 1.22654e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14915e-04\tAbsError: 1.43834e-01\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.23456e+04\tAbsError: 1.02352e+19\n", + " Region: \"zone_1\"\tRelError: 3.19775e+04\tAbsError: 9.26313e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.19775e+04\tAbsError: 9.26313e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.43761e-11\tAbsError: 1.89251e-08\n", + " Region: \"zone_3\"\tRelError: 3.68111e+02\tAbsError: 1.02352e+19\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.73476e+02\tAbsError: 4.17766e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.83489e+01\tAbsError: 6.05758e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06286e+02\tAbsError: 9.26320e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.43983e-11\tAbsError: 1.89331e-08\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.70653e+00\tAbsError: 9.42995e+14\n", + " Region: \"zone_1\"\tRelError: 1.87512e-01\tAbsError: 1.86005e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87459e-01\tAbsError: 5.75054e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.35097e-05\tAbsError: 1.85430e-02\n", + " Region: \"zone_3\"\tRelError: 2.51902e+00\tAbsError: 9.42995e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.42725e-03\tAbsError: 4.56434e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.58145e-03\tAbsError: 4.86561e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.51196e+00\tAbsError: 5.79058e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.35168e-05\tAbsError: 1.85447e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.95227e+03\tAbsError: 4.47180e+17\n", + " Region: \"zone_1\"\tRelError: 5.95735e+02\tAbsError: 1.32695e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95731e+02\tAbsError: 3.07627e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.72641e-03\tAbsError: 1.29619e+00\n", + " Region: \"zone_3\"\tRelError: 2.35653e+03\tAbsError: 4.47180e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.30389e-01\tAbsError: 2.23868e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.07870e-01\tAbsError: 2.23312e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 2.35569e+03\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.72703e-03\tAbsError: 1.29643e+00\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.03801e-01\tAbsError: 3.36873e+14\n", + " Region: \"zone_1\"\tRelError: 4.76962e-01\tAbsError: 4.14745e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.76843e-01\tAbsError: 1.93448e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18688e-04\tAbsError: 4.14551e-02\n", + " Region: \"zone_3\"\tRelError: 2.26840e-01\tAbsError: 3.36873e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34636e-03\tAbsError: 1.66089e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.72901e-04\tAbsError: 1.70784e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.24702e-01\tAbsError: 1.94711e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18736e-04\tAbsError: 4.14716e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.55186e-01\tAbsError: 3.91136e+15\n", + " Region: \"zone_1\"\tRelError: 4.65576e-02\tAbsError: 1.85778e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.60219e-02\tAbsError: 1.29525e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.35764e-04\tAbsError: 1.85648e-01\n", + " Region: \"zone_3\"\tRelError: 1.08629e-01\tAbsError: 3.91136e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84355e-02\tAbsError: 2.04486e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.19784e-03\tAbsError: 1.86651e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.74587e-02\tAbsError: 1.40963e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.36803e-04\tAbsError: 1.86011e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.80855e+03\tAbsError: 8.58917e+18\n", + " Region: \"zone_1\"\tRelError: 1.23637e+02\tAbsError: 3.96683e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.23626e+02\tAbsError: 8.99016e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12575e-02\tAbsError: 3.87693e+00\n", + " Region: \"zone_3\"\tRelError: 2.68491e+03\tAbsError: 8.58917e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.59082e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.37524e+02\tAbsError: 4.99835e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 2.13838e+03\tAbsError: 8.99018e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12599e-02\tAbsError: 3.87776e+00\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.69373e-01\tAbsError: 7.96597e+13\n", + " Region: \"zone_1\"\tRelError: 2.49118e-02\tAbsError: 8.30434e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.48878e-02\tAbsError: 5.27447e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.39494e-05\tAbsError: 8.29907e-03\n", + " Region: \"zone_3\"\tRelError: 2.44461e-01\tAbsError: 7.96597e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.03029e-04\tAbsError: 3.88810e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.99138e-04\tAbsError: 4.07787e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.43835e-01\tAbsError: 5.31227e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.39515e-05\tAbsError: 8.29948e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.44034e-01\tAbsError: 2.50982e+14\n", + " Region: \"zone_1\"\tRelError: 2.52669e-01\tAbsError: 3.80409e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.52658e-01\tAbsError: 1.15800e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08740e-05\tAbsError: 3.79251e-03\n", + " Region: \"zone_3\"\tRelError: 1.91365e-01\tAbsError: 2.50982e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.75656e-04\tAbsError: 1.25054e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.84954e-04\tAbsError: 1.25928e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.90594e-01\tAbsError: 1.16615e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08740e-05\tAbsError: 3.79381e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 8.37720e+02\tAbsError: 8.62713e+16\n", + " Region: \"zone_1\"\tRelError: 6.83172e+02\tAbsError: 5.09423e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 6.83170e+02\tAbsError: 2.58987e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39194e-03\tAbsError: 4.83524e-01\n", + " Region: \"zone_3\"\tRelError: 1.54548e+02\tAbsError: 8.62713e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.27446e-01\tAbsError: 4.32970e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.20316e-02\tAbsError: 4.29743e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.54357e+02\tAbsError: 2.58982e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39675e-03\tAbsError: 4.85195e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.71034e-01\tAbsError: 7.05338e+14\n", + " Region: \"zone_1\"\tRelError: 4.96795e-02\tAbsError: 7.24479e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 4.96587e-02\tAbsError: 3.50735e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.08061e-05\tAbsError: 7.20972e-03\n", + " Region: \"zone_3\"\tRelError: 1.21355e-01\tAbsError: 7.05338e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.47438e-03\tAbsError: 3.47117e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.53212e-03\tAbsError: 3.58221e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18327e-01\tAbsError: 3.53840e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.08197e-05\tAbsError: 7.21462e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.69961e+03\tAbsError: 2.29427e+18\n", + " Region: \"zone_1\"\tRelError: 2.96536e+01\tAbsError: 3.10404e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 2.96449e+01\tAbsError: 8.69447e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.66233e-03\tAbsError: 3.01709e+00\n", + " Region: \"zone_3\"\tRelError: 1.66995e+03\tAbsError: 2.29427e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.01362e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.63130e+03\tAbsError: 1.28065e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 2.96449e+01\tAbsError: 8.69449e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.66403e-03\tAbsError: 3.01762e+00\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.94834e-01\tAbsError: 4.50761e+13\n", + " Region: \"zone_1\"\tRelError: 1.61165e-02\tAbsError: 1.06831e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.61134e-02\tAbsError: 2.81432e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.07411e-06\tAbsError: 1.06550e-03\n", + " Region: \"zone_3\"\tRelError: 1.78717e-01\tAbsError: 4.50761e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.86613e-04\tAbsError: 2.19704e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.74556e-04\tAbsError: 2.31057e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.78353e-01\tAbsError: 2.83681e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.07499e-06\tAbsError: 1.06575e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.84963e-02\tAbsError: 2.56196e+13\n", + " Region: \"zone_1\"\tRelError: 4.00746e-02\tAbsError: 1.84773e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 4.00693e-02\tAbsError: 1.18319e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.30122e-06\tAbsError: 1.84655e-03\n", + " Region: \"zone_3\"\tRelError: 2.84217e-02\tAbsError: 2.56196e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.10236e-05\tAbsError: 1.27710e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.94827e-05\tAbsError: 1.28486e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.82859e-02\tAbsError: 1.19127e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.30191e-06\tAbsError: 1.84686e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 6.13777e+02\tAbsError: 9.41150e+15\n", + " Region: \"zone_1\"\tRelError: 7.34943e+01\tAbsError: 1.74710e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 7.34894e+01\tAbsError: 9.16455e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.95952e-03\tAbsError: 1.73794e+00\n", + " Region: \"zone_3\"\tRelError: 5.40283e+02\tAbsError: 9.41150e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.82819e-02\tAbsError: 3.95531e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.70902e-02\tAbsError: 5.45619e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.40223e+02\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.96820e-03\tAbsError: 1.74101e+00\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.61029e-02\tAbsError: 4.08676e+13\n", + " Region: \"zone_1\"\tRelError: 4.74709e-03\tAbsError: 4.99792e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 4.73267e-03\tAbsError: 2.21701e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.44170e-05\tAbsError: 4.99571e-03\n", + " Region: \"zone_3\"\tRelError: 1.13558e-02\tAbsError: 4.08676e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.88341e-05\tAbsError: 2.00869e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.22806e-05\tAbsError: 2.07807e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11703e-02\tAbsError: 2.23458e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.44170e-05\tAbsError: 4.99571e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.25640e+03\tAbsError: 2.59407e+18\n", + " Region: \"zone_1\"\tRelError: 1.34547e+02\tAbsError: 1.10069e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.34544e+02\tAbsError: 8.37231e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.92836e-03\tAbsError: 1.01697e+00\n", + " Region: \"zone_3\"\tRelError: 1.12185e+03\tAbsError: 2.59407e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01259e+03\tAbsError: 1.19798e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.28405e+01\tAbsError: 1.39609e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 6.64141e+01\tAbsError: 8.37233e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.92836e-03\tAbsError: 1.01697e+00\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 3.12791e-02\tAbsError: 1.26703e+13\n", + " Region: \"zone_1\"\tRelError: 1.80768e-02\tAbsError: 2.75667e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.80761e-02\tAbsError: 5.01993e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.90781e-07\tAbsError: 2.75165e-04\n", + " Region: \"zone_3\"\tRelError: 1.32022e-02\tAbsError: 1.26703e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.15745e-05\tAbsError: 6.31722e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.07221e-05\tAbsError: 6.35307e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31591e-02\tAbsError: 5.05478e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.90922e-07\tAbsError: 2.75214e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.14777e-02\tAbsError: 6.22952e+12\n", + " Region: \"zone_1\"\tRelError: 2.69816e-03\tAbsError: 4.97182e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.69673e-03\tAbsError: 3.70717e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42953e-06\tAbsError: 4.96811e-04\n", + " Region: \"zone_3\"\tRelError: 2.87796e-02\tAbsError: 6.22952e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.54213e-05\tAbsError: 3.03376e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.37896e-05\tAbsError: 3.19576e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.87289e-02\tAbsError: 3.73663e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43009e-06\tAbsError: 4.97011e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.16806e+01\tAbsError: 1.22386e+16\n", + " Region: \"zone_1\"\tRelError: 5.81165e+00\tAbsError: 2.01324e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.80588e+00\tAbsError: 6.99078e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.77633e-03\tAbsError: 2.01254e+00\n", + " Region: \"zone_3\"\tRelError: 5.86896e+00\tAbsError: 1.22386e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.88114e-02\tAbsError: 5.53671e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.06848e-02\tAbsError: 6.70184e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.80368e+00\tAbsError: 7.04147e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.78367e-03\tAbsError: 2.01512e+00\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.36737e-02\tAbsError: 3.46945e+13\n", + " Region: \"zone_1\"\tRelError: 4.04619e-03\tAbsError: 4.96121e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.04476e-03\tAbsError: 1.62718e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42705e-06\tAbsError: 4.94493e-04\n", + " Region: \"zone_3\"\tRelError: 9.62755e-03\tAbsError: 3.46945e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.50334e-05\tAbsError: 1.70836e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.66532e-05\tAbsError: 1.76109e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.46443e-03\tAbsError: 1.64203e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42741e-06\tAbsError: 4.94624e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.68437e+02\tAbsError: 3.76826e+17\n", + " Region: \"zone_1\"\tRelError: 5.24367e+00\tAbsError: 1.64859e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.23916e+00\tAbsError: 8.01893e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.51238e-03\tAbsError: 1.56840e+00\n", + " Region: \"zone_3\"\tRelError: 8.63193e+02\tAbsError: 3.76826e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12292e+01\tAbsError: 1.43202e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.11642e+02\tAbsError: 2.33624e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 4.03176e+01\tAbsError: 8.01894e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.51534e-03\tAbsError: 1.56957e+00\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 5.58596e-03\tAbsError: 1.81500e+12\n", + " Region: \"zone_1\"\tRelError: 3.23185e-03\tAbsError: 1.08128e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.23154e-03\tAbsError: 7.20422e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.10536e-07\tAbsError: 1.08056e-04\n", + " Region: \"zone_3\"\tRelError: 2.35411e-03\tAbsError: 1.81500e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.98887e-06\tAbsError: 9.05203e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.47215e-06\tAbsError: 9.09800e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.34534e-03\tAbsError: 7.27320e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.10562e-07\tAbsError: 1.08065e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.35240e-02\tAbsError: 2.71383e+12\n", + " Region: \"zone_1\"\tRelError: 1.15361e-03\tAbsError: 9.01137e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15335e-03\tAbsError: 1.50035e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.58860e-07\tAbsError: 8.99637e-05\n", + " Region: \"zone_3\"\tRelError: 1.23704e-02\tAbsError: 2.71383e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12817e-05\tAbsError: 1.32174e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.05297e-05\tAbsError: 1.39209e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.23483e-02\tAbsError: 1.51287e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.58959e-07\tAbsError: 9.00000e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 8.44367e+01\tAbsError: 1.02259e+16\n", + " Region: \"zone_1\"\tRelError: 4.22055e+01\tAbsError: 1.45859e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.22051e+01\tAbsError: 5.71640e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.16833e-04\tAbsError: 1.45287e-01\n", + " Region: \"zone_3\"\tRelError: 4.22312e+01\tAbsError: 1.02259e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.97020e-02\tAbsError: 4.95775e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.96648e-03\tAbsError: 5.26817e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 4.22051e+01\tAbsError: 5.76213e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.17002e-04\tAbsError: 1.45346e-01\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.90554e-03\tAbsError: 3.84334e+12\n", + " Region: \"zone_1\"\tRelError: 5.67157e-04\tAbsError: 2.85941e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.66334e-04\tAbsError: 1.72086e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.22338e-07\tAbsError: 2.85769e-04\n", + " Region: \"zone_3\"\tRelError: 1.33838e-03\tAbsError: 3.84334e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.13597e-06\tAbsError: 1.89425e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.24167e-06\tAbsError: 1.94909e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.32018e-03\tAbsError: 1.73581e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.22651e-07\tAbsError: 2.85878e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.49421e+02\tAbsError: 3.45044e+16\n", + " Region: \"zone_1\"\tRelError: 2.47424e+00\tAbsError: 2.92395e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.47362e+00\tAbsError: 7.62823e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.21647e-04\tAbsError: 2.16113e-01\n", + " Region: \"zone_3\"\tRelError: 5.46946e+02\tAbsError: 3.45044e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.98453e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.35971e+02\tAbsError: 1.46591e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.97442e+00\tAbsError: 7.62825e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.21666e-04\tAbsError: 2.16115e-01\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 2.04292e-03\tAbsError: 7.05397e+11\n", + " Region: \"zone_1\"\tRelError: 1.18204e-03\tAbsError: 2.04270e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18198e-03\tAbsError: 2.66778e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.85310e-08\tAbsError: 2.04003e-05\n", + " Region: \"zone_3\"\tRelError: 8.60879e-04\tAbsError: 7.05397e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.13172e-06\tAbsError: 3.51344e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.38793e-06\tAbsError: 3.54052e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 8.58301e-04\tAbsError: 2.69418e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.85529e-08\tAbsError: 2.04083e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.66323e-03\tAbsError: 4.84759e+11\n", + " Region: \"zone_1\"\tRelError: 2.28613e-04\tAbsError: 3.39177e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.28515e-04\tAbsError: 2.84083e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.75123e-08\tAbsError: 3.38893e-05\n", + " Region: \"zone_3\"\tRelError: 2.43462e-03\tAbsError: 4.84759e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.99043e-06\tAbsError: 2.36019e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.86586e-06\tAbsError: 2.48740e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.43067e-03\tAbsError: 2.86106e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.75523e-08\tAbsError: 3.39041e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.49604e+00\tAbsError: 9.70392e+14\n", + " Region: \"zone_1\"\tRelError: 3.74605e+00\tAbsError: 7.97463e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.74582e+00\tAbsError: 4.64021e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28718e-04\tAbsError: 7.96999e-02\n", + " Region: \"zone_3\"\tRelError: 3.74999e+00\tAbsError: 9.70392e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.58316e-03\tAbsError: 4.83793e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.36045e-03\tAbsError: 4.86599e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.74582e+00\tAbsError: 4.67428e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28813e-04\tAbsError: 7.97327e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 9.55346e-04\tAbsError: 2.05462e+12\n", + " Region: \"zone_1\"\tRelError: 2.84125e-04\tAbsError: 4.49675e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.83996e-04\tAbsError: 8.40596e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.29156e-07\tAbsError: 4.48834e-05\n", + " Region: \"zone_3\"\tRelError: 6.71221e-04\tAbsError: 2.05462e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.03717e-06\tAbsError: 1.01247e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.55660e-06\tAbsError: 1.04215e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 6.61498e-04\tAbsError: 8.48402e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.29206e-07\tAbsError: 4.49013e-05\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 4.10017e-04\tAbsError: 1.25482e+11\n", + " Region: \"zone_1\"\tRelError: 2.37057e-04\tAbsError: 6.87465e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.37038e-04\tAbsError: 5.30541e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.97090e-08\tAbsError: 6.86934e-06\n", + " Region: \"zone_3\"\tRelError: 1.72960e-04\tAbsError: 1.25482e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.39658e-07\tAbsError: 6.25033e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.14206e-07\tAbsError: 6.29787e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72386e-04\tAbsError: 5.35676e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.97163e-08\tAbsError: 6.87208e-06\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.36093e+03\tAbsError: 1.73063e+16\n", + " Region: \"zone_1\"\tRelError: 2.50099e+00\tAbsError: 1.04032e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.50090e+00\tAbsError: 7.19237e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.26103e-05\tAbsError: 3.21082e-02\n", + " Region: \"zone_3\"\tRelError: 2.35843e+03\tAbsError: 1.73063e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.90026e+03\tAbsError: 7.68195e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.57215e+02\tAbsError: 9.62438e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.53038e-01\tAbsError: 7.19239e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.27224e-05\tAbsError: 3.21462e-02\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 9.36018e-04\tAbsError: 1.74566e+11\n", + " Region: \"zone_1\"\tRelError: 8.04965e-05\tAbsError: 7.09811e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.04761e-05\tAbsError: 1.02447e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.03939e-08\tAbsError: 7.08786e-06\n", + " Region: \"zone_3\"\tRelError: 8.55521e-04\tAbsError: 1.74566e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.24390e-07\tAbsError: 8.50012e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.76525e-07\tAbsError: 8.95646e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 8.54100e-04\tAbsError: 1.03181e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.04026e-08\tAbsError: 7.09095e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 9.26745e+00\tAbsError: 5.14481e+14\n", + " Region: \"zone_1\"\tRelError: 8.59152e+00\tAbsError: 9.35409e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 8.59150e+00\tAbsError: 2.29233e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.68516e-05\tAbsError: 9.33117e-03\n", + " Region: \"zone_3\"\tRelError: 6.75929e-01\tAbsError: 5.14481e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.99602e-04\tAbsError: 2.56366e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.52414e-04\tAbsError: 2.58114e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.74650e-01\tAbsError: 2.31041e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.68516e-05\tAbsError: 9.33117e-03\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 1.31093e-04\tAbsError: 4.20042e+10\n", + " Region: \"zone_1\"\tRelError: 7.58426e-05\tAbsError: 1.44285e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 7.58384e-05\tAbsError: 1.70924e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.13482e-09\tAbsError: 1.44114e-06\n", + " Region: \"zone_3\"\tRelError: 5.52503e-05\tAbsError: 4.20042e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.55628e-08\tAbsError: 2.09238e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.07224e-08\tAbsError: 2.10804e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.50899e-05\tAbsError: 1.72611e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.13649e-09\tAbsError: 1.44176e-06\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.69143e-04\tAbsError: 3.20010e+11\n", + " Region: \"zone_1\"\tRelError: 5.04529e-05\tAbsError: 1.92486e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.03976e-05\tAbsError: 1.37695e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.53502e-08\tAbsError: 1.92349e-05\n", + " Region: \"zone_3\"\tRelError: 1.18690e-04\tAbsError: 3.20010e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.67288e-07\tAbsError: 1.57764e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.98946e-07\tAbsError: 1.62246e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17168e-04\tAbsError: 1.38952e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.53717e-08\tAbsError: 1.92429e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.24927e+02\tAbsError: 9.45906e+15\n", + " Region: \"zone_1\"\tRelError: 8.54269e-01\tAbsError: 1.97970e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 8.53892e-01\tAbsError: 6.70103e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.77125e-04\tAbsError: 1.30959e-01\n", + " Region: \"zone_3\"\tRelError: 3.24073e+02\tAbsError: 9.45906e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.98994e+01\tAbsError: 4.98573e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.43969e+02\tAbsError: 4.47333e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.04289e-01\tAbsError: 6.70105e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.77125e-04\tAbsError: 1.30959e-01\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 2.06215e-04\tAbsError: 3.63594e+10\n", + " Region: \"zone_1\"\tRelError: 1.77671e-05\tAbsError: 2.32923e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77604e-05\tAbsError: 2.21535e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.69552e-09\tAbsError: 2.32701e-06\n", + " Region: \"zone_3\"\tRelError: 1.88448e-04\tAbsError: 3.63594e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.49672e-07\tAbsError: 1.77014e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.40316e-07\tAbsError: 1.86580e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88151e-04\tAbsError: 2.23089e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.69830e-09\tAbsError: 2.32802e-06\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 2.85509e-05\tAbsError: 8.53392e+09\n", + " Region: \"zone_1\"\tRelError: 1.65076e-05\tAbsError: 4.38296e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65063e-05\tAbsError: 3.70085e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.25646e-09\tAbsError: 4.37926e-07\n", + " Region: \"zone_3\"\tRelError: 1.20433e-05\tAbsError: 8.53392e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50308e-08\tAbsError: 4.25112e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.13442e-08\tAbsError: 4.28280e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20057e-05\tAbsError: 3.73687e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.25697e-09\tAbsError: 4.38116e-07\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 6.55972e-05\tAbsError: 1.30140e+11\n", + " Region: \"zone_1\"\tRelError: 1.95538e-05\tAbsError: 3.68464e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.95433e-05\tAbsError: 5.53800e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.05870e-08\tAbsError: 3.67910e-06\n", + " Region: \"zone_3\"\tRelError: 4.60434e-05\tAbsError: 1.30140e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.17662e-07\tAbsError: 6.41496e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.88393e-07\tAbsError: 6.59903e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.54267e-05\tAbsError: 5.58934e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.05914e-08\tAbsError: 3.68073e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:33\u001b[0m.\u001b[1;36m178\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.9799999999999999\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.48030e+01\tAbsError: 7.19505e+13\n", + " Region: \"zone_1\"\tRelError: 1.40655e+01\tAbsError: 3.86191e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40655e+01\tAbsError: 2.84880e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11050e-05\tAbsError: 3.85906e-03\n", + " Region: \"zone_3\"\tRelError: 7.37529e-01\tAbsError: 7.19505e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.38672e-04\tAbsError: 3.58470e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.21484e-04\tAbsError: 3.61036e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.37257e-01\tAbsError: 2.87067e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11068e-05\tAbsError: 3.85947e-03\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 6.49197e-05\tAbsError: 1.16553e+10\n", + " Region: \"zone_1\"\tRelError: 5.60093e-06\tAbsError: 5.33242e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 5.59940e-06\tAbsError: 7.08545e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.53226e-09\tAbsError: 5.32534e-07\n", + " Region: \"zone_3\"\tRelError: 5.93188e-05\tAbsError: 1.16553e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.82921e-08\tAbsError: 5.67470e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.51325e-08\tAbsError: 5.98062e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 5.92238e-05\tAbsError: 7.13541e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.53290e-09\tAbsError: 5.32764e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:33\u001b[0m.\u001b[1;36m686\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:33\u001b[0m.\u001b[1;36m686\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.9399999999999998\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 4.41228e+03\tAbsError: 1.12269e+15\n", + " Region: \"zone_1\"\tRelError: 9.92429e-02\tAbsError: 1.72929e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 9.89218e-02\tAbsError: 6.14042e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.21056e-04\tAbsError: 1.11525e-01\n", + " Region: \"zone_3\"\tRelError: 4.41219e+03\tAbsError: 1.12269e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.27001e+03\tAbsError: 3.32160e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.14155e+03\tAbsError: 7.90530e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.23042e-01\tAbsError: 6.14044e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.21056e-04\tAbsError: 1.11525e-01\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.47896e+00\tAbsError: 2.94682e+13\n", + " Region: \"zone_1\"\tRelError: 1.24509e+00\tAbsError: 6.95816e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.24509e+00\tAbsError: 1.07735e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.99937e-06\tAbsError: 6.94739e-04\n", + " Region: \"zone_3\"\tRelError: 2.33869e-01\tAbsError: 2.94682e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.81392e-05\tAbsError: 1.46808e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.76977e-05\tAbsError: 1.47873e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.33792e-01\tAbsError: 1.08579e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.99953e-06\tAbsError: 6.95001e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.14292e+01\tAbsError: 9.65069e+17\n", + " Region: \"zone_1\"\tRelError: 4.44867e+01\tAbsError: 4.29349e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.44867e+01\tAbsError: 4.29336e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.76237e-09\tAbsError: 1.30750e-06\n", + " Region: \"zone_3\"\tRelError: 2.69425e+01\tAbsError: 9.65069e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.31474e-01\tAbsError: 4.69501e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.11759e-01\tAbsError: 4.95568e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 2.54992e+01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.76396e-09\tAbsError: 1.30807e-06\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 8.68319e+04\tAbsError: 1.01395e+15\n", + " Region: \"zone_1\"\tRelError: 8.30065e-02\tAbsError: 9.69279e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.28854e-02\tAbsError: 5.49210e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.21129e-04\tAbsError: 4.20068e-02\n", + " Region: \"zone_3\"\tRelError: 8.68319e+04\tAbsError: 1.01395e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.68105e+04\tAbsError: 4.66680e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.10870e+01\tAbsError: 5.47269e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.57619e-01\tAbsError: 5.49213e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.21232e-04\tAbsError: 4.20415e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.23523e+02\tAbsError: 6.14633e+17\n", + " Region: \"zone_1\"\tRelError: 4.09043e+01\tAbsError: 4.19630e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.09043e+01\tAbsError: 4.19628e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.63544e-10\tAbsError: 1.61104e-07\n", + " Region: \"zone_3\"\tRelError: 8.26191e+01\tAbsError: 6.14633e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.43690e-01\tAbsError: 2.98656e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.30409e-01\tAbsError: 3.15977e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 8.11450e+01\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.63736e-10\tAbsError: 1.61173e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:35\u001b[0m.\u001b[1;36m554\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:35\u001b[0m.\u001b[1;36m583\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.3 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:35\u001b[0m.\u001b[1;36m632\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.23148e-01\tAbsError: 5.24321e+12\n", + " Region: \"zone_1\"\tRelError: 2.61296e-01\tAbsError: 2.47766e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.61295e-01\tAbsError: 1.83418e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.11380e-07\tAbsError: 2.47583e-04\n", + " Region: \"zone_3\"\tRelError: 6.18518e-02\tAbsError: 5.24321e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94642e-06\tAbsError: 2.61290e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.40186e-06\tAbsError: 2.63031e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 6.18338e-02\tAbsError: 1.85316e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.11644e-07\tAbsError: 2.47677e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.09355e+04\tAbsError: 5.43141e+17\n", + " Region: \"zone_1\"\tRelError: 2.11850e+03\tAbsError: 9.99073e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.11850e+03\tAbsError: 3.30996e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.78001e-03\tAbsError: 9.65974e-01\n", + " Region: \"zone_3\"\tRelError: 1.88170e+04\tAbsError: 5.43141e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.07099e-01\tAbsError: 2.72398e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.80829e-01\tAbsError: 2.70743e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88160e+04\tAbsError: 3.31000e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.78032e-03\tAbsError: 9.66102e-01\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 4.87779e+02\tAbsError: 5.45900e+14\n", + " Region: \"zone_1\"\tRelError: 6.21634e-02\tAbsError: 1.04361e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 6.19989e-02\tAbsError: 4.73177e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.64467e-04\tAbsError: 5.70437e-02\n", + " Region: \"zone_3\"\tRelError: 4.87717e+02\tAbsError: 5.45900e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.98596e+02\tAbsError: 1.44358e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.89059e+02\tAbsError: 4.01542e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.20921e-02\tAbsError: 4.73180e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.64723e-04\tAbsError: 5.71329e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.45887e+04\tAbsError: 1.43878e+19\n", + " Region: \"zone_1\"\tRelError: 1.02041e+03\tAbsError: 9.39934e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02041e+03\tAbsError: 9.39933e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.82293e-10\tAbsError: 9.83916e-08\n", + " Region: \"zone_3\"\tRelError: 7.35683e+04\tAbsError: 1.43878e+19\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.36528e+02\tAbsError: 5.88123e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.06847e+02\tAbsError: 8.50661e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 7.30249e+04\tAbsError: 9.39941e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.82408e-10\tAbsError: 9.84332e-08\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 5.28442e+02\tAbsError: 4.50811e+17\n", + " Region: \"zone_1\"\tRelError: 2.63689e+02\tAbsError: 5.40877e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.63688e+02\tAbsError: 3.19522e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.46649e-03\tAbsError: 5.08925e-01\n", + " Region: \"zone_3\"\tRelError: 2.64752e+02\tAbsError: 4.50811e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.40504e-01\tAbsError: 2.25134e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.22390e-01\tAbsError: 2.25677e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 2.63688e+02\tAbsError: 3.19525e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.46805e-03\tAbsError: 5.09446e-01\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 9.77270e-02\tAbsError: 1.82347e+12\n", + " Region: \"zone_1\"\tRelError: 7.65024e-02\tAbsError: 5.28468e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.65022e-02\tAbsError: 6.24160e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.51664e-07\tAbsError: 5.27844e-05\n", + " Region: \"zone_3\"\tRelError: 2.12246e-02\tAbsError: 1.82347e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11287e-06\tAbsError: 9.08701e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.75258e-06\tAbsError: 9.14773e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.12196e-02\tAbsError: 6.30788e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.51721e-07\tAbsError: 5.28055e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.70966e+03\tAbsError: 4.51277e+14\n", + " Region: \"zone_1\"\tRelError: 4.80054e-02\tAbsError: 1.15275e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.77835e-02\tAbsError: 3.83022e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.21879e-04\tAbsError: 7.69733e-02\n", + " Region: \"zone_3\"\tRelError: 1.70961e+03\tAbsError: 4.51277e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.70858e+03\tAbsError: 4.59297e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.82155e-01\tAbsError: 4.05348e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.78561e-02\tAbsError: 3.83026e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.22113e-04\tAbsError: 7.70552e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.05255e+03\tAbsError: 1.21992e+17\n", + " Region: \"zone_1\"\tRelError: 1.96013e+02\tAbsError: 3.72504e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.96012e+02\tAbsError: 2.58637e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.98548e-04\tAbsError: 3.46641e-01\n", + " Region: \"zone_3\"\tRelError: 8.56535e+02\tAbsError: 1.21992e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95869e-01\tAbsError: 6.12799e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.13879e-01\tAbsError: 6.07120e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 8.56224e+02\tAbsError: 2.58493e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00238e-03\tAbsError: 3.47971e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.68180e+03\tAbsError: 1.18343e+19\n", + " Region: \"zone_1\"\tRelError: 5.17715e+01\tAbsError: 5.45577e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.17559e+01\tAbsError: 9.13709e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.56182e-02\tAbsError: 5.36440e+00\n", + " Region: \"zone_3\"\tRelError: 1.63003e+03\tAbsError: 1.18343e+19\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 4.94846e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.13752e+02\tAbsError: 6.88587e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20726e+03\tAbsError: 9.13711e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.56198e-02\tAbsError: 5.36502e+00\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 2.05494e-02\tAbsError: 3.74583e+11\n", + " Region: \"zone_1\"\tRelError: 1.55447e-02\tAbsError: 1.67716e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55447e-02\tAbsError: 1.38057e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.81497e-08\tAbsError: 1.67577e-05\n", + " Region: \"zone_3\"\tRelError: 5.00469e-03\tAbsError: 3.74583e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.90614e-07\tAbsError: 1.86695e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.85333e-07\tAbsError: 1.87888e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.00347e-03\tAbsError: 1.39492e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.81681e-08\tAbsError: 1.67646e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 5.56837e+00\tAbsError: 1.07325e+17\n", + " Region: \"zone_1\"\tRelError: 2.13979e+00\tAbsError: 1.76840e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.13935e+00\tAbsError: 2.58872e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.34120e-04\tAbsError: 1.50953e-01\n", + " Region: \"zone_3\"\tRelError: 3.42858e+00\tAbsError: 1.07325e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.43649e-01\tAbsError: 5.37359e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.46620e-01\tAbsError: 5.35895e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.03788e+00\tAbsError: 2.57709e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.34307e-04\tAbsError: 1.51010e-01\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.12531e+00\tAbsError: 4.21060e+14\n", + " Region: \"zone_1\"\tRelError: 3.42960e-02\tAbsError: 1.26190e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.40121e-02\tAbsError: 2.76566e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.83947e-04\tAbsError: 9.85338e-02\n", + " Region: \"zone_3\"\tRelError: 1.09102e+00\tAbsError: 4.21060e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99815e-01\tAbsError: 2.67407e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.14073e-02\tAbsError: 3.94320e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.95111e-02\tAbsError: 2.76571e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.84251e-04\tAbsError: 9.86404e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 6.10831e+02\tAbsError: 1.05705e+16\n", + " Region: \"zone_1\"\tRelError: 1.67975e+02\tAbsError: 1.53352e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.67975e+02\tAbsError: 1.22647e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.06404e-04\tAbsError: 1.41087e-01\n", + " Region: \"zone_3\"\tRelError: 4.42856e+02\tAbsError: 1.05705e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52745e-02\tAbsError: 5.30758e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.01145e-02\tAbsError: 5.26289e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 4.42820e+02\tAbsError: 1.22654e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.06484e-04\tAbsError: 1.41119e-01\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 6.14058e-03\tAbsError: 1.17501e+11\n", + " Region: \"zone_1\"\tRelError: 4.56971e-03\tAbsError: 3.83354e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.56970e-03\tAbsError: 4.25999e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10026e-08\tAbsError: 3.82928e-06\n", + " Region: \"zone_3\"\tRelError: 1.57087e-03\tAbsError: 1.17501e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.29368e-07\tAbsError: 5.85629e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.92613e-07\tAbsError: 5.89376e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.57054e-03\tAbsError: 4.30497e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10071e-08\tAbsError: 3.83095e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 6.77537e+02\tAbsError: 3.47065e+18\n", + " Region: \"zone_1\"\tRelError: 5.27552e+01\tAbsError: 5.42650e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.27399e+01\tAbsError: 8.85379e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52685e-02\tAbsError: 5.33797e+00\n", + " Region: \"zone_3\"\tRelError: 6.24782e+02\tAbsError: 3.47065e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.32470e+02\tAbsError: 1.73897e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.39557e+02\tAbsError: 1.73167e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 5.27399e+01\tAbsError: 8.85383e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52728e-02\tAbsError: 5.33955e+00\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.12460e+00\tAbsError: 1.21483e+16\n", + " Region: \"zone_1\"\tRelError: 9.82739e-01\tAbsError: 2.46167e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 9.82060e-01\tAbsError: 1.06610e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.78912e-04\tAbsError: 2.35506e-01\n", + " Region: \"zone_3\"\tRelError: 1.14186e+00\tAbsError: 1.21483e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.90955e-02\tAbsError: 6.10228e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.44176e-02\tAbsError: 6.04607e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08766e+00\tAbsError: 1.06615e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.79147e-04\tAbsError: 2.35580e-01\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 1.14209e+04\tAbsError: 3.18688e+14\n", + " Region: \"zone_1\"\tRelError: 2.59223e-02\tAbsError: 1.40661e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.55799e-02\tAbsError: 2.17875e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.42444e-04\tAbsError: 1.18874e-01\n", + " Region: \"zone_3\"\tRelError: 1.14208e+04\tAbsError: 3.18688e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.14208e+04\tAbsError: 1.57888e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.09664e-03\tAbsError: 3.02900e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.93581e-02\tAbsError: 2.17884e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.42953e-04\tAbsError: 1.19052e-01\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 1.39778e-03\tAbsError: 2.64036e+10\n", + " Region: \"zone_1\"\tRelError: 1.02275e-03\tAbsError: 1.13260e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02274e-03\tAbsError: 9.95943e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.25141e-09\tAbsError: 1.13160e-06\n", + " Region: \"zone_3\"\tRelError: 3.75036e-04\tAbsError: 2.64036e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.18289e-08\tAbsError: 1.31607e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.84989e-08\tAbsError: 1.32430e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.74952e-04\tAbsError: 1.00632e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.25274e-09\tAbsError: 1.13210e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.98888e+00\tAbsError: 5.15087e+14\n", + " Region: \"zone_1\"\tRelError: 1.58063e+00\tAbsError: 1.38877e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.58023e+00\tAbsError: 9.18863e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.99000e-04\tAbsError: 1.38868e-01\n", + " Region: \"zone_3\"\tRelError: 4.08243e-01\tAbsError: 5.15087e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.30563e-04\tAbsError: 2.54061e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.93154e-04\tAbsError: 2.61026e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.06120e-01\tAbsError: 9.32589e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.99000e-04\tAbsError: 1.38868e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.91912e+02\tAbsError: 3.81871e+18\n", + " Region: \"zone_1\"\tRelError: 5.16724e+01\tAbsError: 2.23553e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.16662e+01\tAbsError: 8.54616e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.18799e-03\tAbsError: 2.15007e+00\n", + " Region: \"zone_3\"\tRelError: 1.40239e+02\tAbsError: 3.81871e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.90791e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.35803e+01\tAbsError: 1.91081e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 9.76528e+01\tAbsError: 8.54619e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.18799e-03\tAbsError: 2.15007e+00\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 1.04411e+00\tAbsError: 2.50280e+14\n", + " Region: \"zone_1\"\tRelError: 5.02432e-03\tAbsError: 2.11146e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.41747e-03\tAbsError: 3.60591e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.06848e-04\tAbsError: 2.10785e-01\n", + " Region: \"zone_3\"\tRelError: 1.03909e+00\tAbsError: 2.50280e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99718e-01\tAbsError: 2.56770e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.04445e-02\tAbsError: 2.24603e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.83179e-02\tAbsError: 3.68304e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.07465e-04\tAbsError: 2.11002e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.73047e-01\tAbsError: 1.36922e+15\n", + " Region: \"zone_1\"\tRelError: 1.96522e-02\tAbsError: 1.01954e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.93590e-02\tAbsError: 1.74848e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.93173e-04\tAbsError: 1.01937e-01\n", + " Region: \"zone_3\"\tRelError: 1.53395e-01\tAbsError: 1.36922e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.62916e-03\tAbsError: 7.15283e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.23255e-04\tAbsError: 6.53940e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49849e-01\tAbsError: 1.79107e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.93173e-04\tAbsError: 1.01937e-01\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 3.99447e-04\tAbsError: 7.75693e+09\n", + " Region: \"zone_1\"\tRelError: 2.89402e-04\tAbsError: 2.71336e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.89401e-04\tAbsError: 2.89100e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.78779e-10\tAbsError: 2.71047e-07\n", + " Region: \"zone_3\"\tRelError: 1.10046e-04\tAbsError: 7.75693e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.37898e-09\tAbsError: 3.86636e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.32737e-08\tAbsError: 3.89057e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10023e-04\tAbsError: 2.92143e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.79099e-10\tAbsError: 2.71163e-07\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.05350e+01\tAbsError: 7.00392e+14\n", + " Region: \"zone_1\"\tRelError: 1.88154e+01\tAbsError: 4.80835e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88154e+01\tAbsError: 3.93683e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36946e-05\tAbsError: 4.76898e-03\n", + " Region: \"zone_3\"\tRelError: 1.71959e+00\tAbsError: 7.00392e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10974e-03\tAbsError: 3.48796e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.68307e-04\tAbsError: 3.51596e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.71799e+00\tAbsError: 3.96999e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37000e-05\tAbsError: 4.77083e-03\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 2.62132e-01\tAbsError: 1.20370e+14\n", + " Region: \"zone_1\"\tRelError: 2.50228e-02\tAbsError: 1.76959e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.50181e-02\tAbsError: 1.41458e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.67653e-06\tAbsError: 1.62813e-03\n", + " Region: \"zone_3\"\tRelError: 2.37109e-01\tAbsError: 1.20370e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50710e-02\tAbsError: 3.54181e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.53409e-02\tAbsError: 8.49519e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06692e-01\tAbsError: 1.43144e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.67852e-06\tAbsError: 1.62885e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 4.47134e+03\tAbsError: 5.06320e+17\n", + " Region: \"zone_1\"\tRelError: 7.78525e+01\tAbsError: 8.09559e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 7.78504e+01\tAbsError: 8.20995e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.09575e-03\tAbsError: 7.27460e-01\n", + " Region: \"zone_3\"\tRelError: 4.39349e+03\tAbsError: 5.06320e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.22912e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.34666e+03\tAbsError: 2.83408e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 3.78239e+01\tAbsError: 8.20997e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.09710e-03\tAbsError: 7.27945e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.28010e-01\tAbsError: 4.89992e+14\n", + " Region: \"zone_1\"\tRelError: 1.30075e-02\tAbsError: 8.50269e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.30052e-02\tAbsError: 2.97332e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.35842e-06\tAbsError: 8.20536e-04\n", + " Region: \"zone_3\"\tRelError: 1.15003e-01\tAbsError: 4.89992e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.04716e-04\tAbsError: 2.43507e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.61931e-04\tAbsError: 2.46485e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13934e-01\tAbsError: 2.99961e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36059e-06\tAbsError: 8.21291e-04\n", + "Iteration: 16\n", + " Device: \"device\"\tRelError: 9.59509e-05\tAbsError: 1.84383e+09\n", + " Region: \"zone_1\"\tRelError: 6.90141e-05\tAbsError: 7.66547e-08\n", + " Equation: \"PotentialEquation\"\tRelError: 6.90139e-05\tAbsError: 7.02485e-11\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.20044e-10\tAbsError: 7.65844e-08\n", + " Region: \"zone_3\"\tRelError: 2.69368e-05\tAbsError: 1.84383e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12306e-09\tAbsError: 9.19073e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.38040e-09\tAbsError: 9.24762e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 2.69311e-05\tAbsError: 7.09816e-11\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.20135e-10\tAbsError: 7.66170e-08\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:42\u001b[0m.\u001b[1;36m759\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 1.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 16\n", + " Device: \"device\"\tRelError: 1.65985e-02\tAbsError: 1.45858e+12\n", + " Region: \"zone_1\"\tRelError: 1.72331e-03\tAbsError: 7.56454e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.70153e-03\tAbsError: 1.42959e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17736e-05\tAbsError: 7.56311e-03\n", + " Region: \"zone_3\"\tRelError: 1.48752e-02\tAbsError: 1.45858e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.82682e-04\tAbsError: 8.27787e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.80685e-04\tAbsError: 6.30790e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39900e-02\tAbsError: 1.47660e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17788e-05\tAbsError: 7.56500e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.71600e+00\tAbsError: 3.92118e+13\n", + " Region: \"zone_1\"\tRelError: 1.69230e+00\tAbsError: 5.33729e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.69229e+00\tAbsError: 1.74236e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.53221e-05\tAbsError: 5.33554e-03\n", + " Region: \"zone_3\"\tRelError: 2.36945e-02\tAbsError: 3.92118e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28370e-04\tAbsError: 1.95462e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.14838e-05\tAbsError: 1.96656e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.34693e-02\tAbsError: 1.75498e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.53283e-05\tAbsError: 5.33766e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.13672e+03\tAbsError: 3.08207e+16\n", + " Region: \"zone_1\"\tRelError: 2.36568e+01\tAbsError: 2.88538e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.36562e+01\tAbsError: 7.83982e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.04714e-04\tAbsError: 2.10140e-01\n", + " Region: \"zone_3\"\tRelError: 1.11306e+03\tAbsError: 3.08207e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.89674e+02\tAbsError: 1.98363e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.21917e+02\tAbsError: 1.09843e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.47211e+00\tAbsError: 7.83984e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.06798e-04\tAbsError: 2.10862e-01\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.61019e-03\tAbsError: 5.41292e+12\n", + " Region: \"zone_1\"\tRelError: 2.71259e-04\tAbsError: 3.69897e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.60627e-04\tAbsError: 5.44452e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06318e-05\tAbsError: 3.69843e-03\n", + " Region: \"zone_3\"\tRelError: 2.33893e-03\tAbsError: 5.41292e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.46504e-05\tAbsError: 2.68611e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.83588e-05\tAbsError: 2.72681e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.22528e-03\tAbsError: 5.47677e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06362e-05\tAbsError: 3.69989e-03\n", + "Iteration: 17\n", + " Device: \"device\"\tRelError: 2.25322e-02\tAbsError: 7.37926e+12\n", + " Region: \"zone_1\"\tRelError: 2.29241e-03\tAbsError: 5.68147e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29079e-03\tAbsError: 5.68672e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.61754e-06\tAbsError: 5.62460e-04\n", + " Region: \"zone_3\"\tRelError: 2.02398e-02\tAbsError: 7.37926e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.47694e-04\tAbsError: 3.31708e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.42959e-04\tAbsError: 4.06218e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87475e-02\tAbsError: 5.76539e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.61810e-06\tAbsError: 5.62663e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.29423e+03\tAbsError: 2.05927e+18\n", + " Region: \"zone_1\"\tRelError: 8.20020e+01\tAbsError: 4.09537e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.20020e+01\tAbsError: 4.09537e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.43761e-11\tAbsError: 1.89251e-08\n", + " Region: \"zone_3\"\tRelError: 2.21223e+03\tAbsError: 2.05927e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.07156e-01\tAbsError: 1.02695e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.89042e-01\tAbsError: 1.03232e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 2.21103e+03\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.43982e-11\tAbsError: 1.89331e-08\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 6.84397e-01\tAbsError: 3.65096e+13\n", + " Region: \"zone_1\"\tRelError: 6.42272e-01\tAbsError: 4.54710e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.42270e-01\tAbsError: 1.53943e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.30582e-06\tAbsError: 4.53171e-04\n", + " Region: \"zone_3\"\tRelError: 4.21253e-02\tAbsError: 3.65096e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.38727e-05\tAbsError: 1.81787e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.47740e-05\tAbsError: 1.83308e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.20554e-02\tAbsError: 1.55220e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.30599e-06\tAbsError: 4.53233e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.76807e+03\tAbsError: 1.55980e+16\n", + " Region: \"zone_1\"\tRelError: 1.60174e+00\tAbsError: 7.20164e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.59988e+00\tAbsError: 7.42895e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.85990e-03\tAbsError: 6.45874e-01\n", + " Region: \"zone_3\"\tRelError: 3.76647e+03\tAbsError: 1.55980e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.74521e+03\tAbsError: 3.55043e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.79546e+01\tAbsError: 1.20475e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.29813e+00\tAbsError: 7.42897e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.85990e-03\tAbsError: 6.45874e-01\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.33525e-02\tAbsError: 2.45530e+13\n", + " Region: \"zone_1\"\tRelError: 1.35325e-03\tAbsError: 1.72904e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35276e-03\tAbsError: 1.11340e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.93842e-07\tAbsError: 1.71790e-04\n", + " Region: \"zone_3\"\tRelError: 1.19992e-02\tAbsError: 2.45530e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.84766e-05\tAbsError: 1.22120e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.31490e-05\tAbsError: 1.23410e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19471e-02\tAbsError: 1.12340e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.94049e-07\tAbsError: 1.71859e-04\n", + "Iteration: 18\n", + " Device: \"device\"\tRelError: 2.64043e-03\tAbsError: 5.34779e+11\n", + " Region: \"zone_1\"\tRelError: 2.77402e-04\tAbsError: 4.85036e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.76008e-04\tAbsError: 3.99629e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39377e-06\tAbsError: 4.84636e-04\n", + " Region: \"zone_3\"\tRelError: 2.36302e-03\tAbsError: 5.34779e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.67157e-05\tAbsError: 2.86420e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.64870e-05\tAbsError: 2.48359e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.24843e-03\tAbsError: 4.05110e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39410e-06\tAbsError: 4.84764e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 4.61689e+02\tAbsError: 5.07798e+17\n", + " Region: \"zone_1\"\tRelError: 3.64692e+01\tAbsError: 1.84178e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 3.64640e+01\tAbsError: 3.07624e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.18031e-03\tAbsError: 1.81102e+00\n", + " Region: \"zone_3\"\tRelError: 4.25219e+02\tAbsError: 5.07798e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.93091e-01\tAbsError: 2.54521e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.93600e-01\tAbsError: 2.53278e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 4.24628e+02\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.18075e-03\tAbsError: 1.81120e+00\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 5.17602e-02\tAbsError: 3.81639e+12\n", + " Region: \"zone_1\"\tRelError: 5.05943e-02\tAbsError: 2.59396e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.05936e-02\tAbsError: 1.40385e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.46801e-07\tAbsError: 2.59255e-04\n", + " Region: \"zone_3\"\tRelError: 1.16583e-03\tAbsError: 3.81639e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.23974e-06\tAbsError: 1.90175e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.90322e-06\tAbsError: 1.91464e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15094e-03\tAbsError: 1.41500e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.46858e-07\tAbsError: 2.59300e-04\n", + "Iteration: 19\n", + " Device: \"device\"\tRelError: 1.73000e-03\tAbsError: 4.78739e+11\n", + " Region: \"zone_1\"\tRelError: 1.78256e-04\tAbsError: 6.66258e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.78065e-04\tAbsError: 3.27442e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.90658e-07\tAbsError: 6.62984e-05\n", + " Region: \"zone_3\"\tRelError: 1.55175e-03\tAbsError: 4.78739e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.75457e-05\tAbsError: 2.53700e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.72084e-05\tAbsError: 2.25039e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.45680e-03\tAbsError: 3.32100e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.90709e-07\tAbsError: 6.63163e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.12918e+02\tAbsError: 3.51252e+15\n", + " Region: \"zone_1\"\tRelError: 1.36922e-01\tAbsError: 1.01550e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.36830e-01\tAbsError: 6.96841e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.19319e-05\tAbsError: 3.18660e-02\n", + " Region: \"zone_3\"\tRelError: 5.12781e+02\tAbsError: 3.51252e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.88180e+01\tAbsError: 7.73156e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.62438e+02\tAbsError: 2.73936e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.52468e+00\tAbsError: 6.96843e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.19319e-05\tAbsError: 3.18660e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.19315e-03\tAbsError: 1.39866e+12\n", + " Region: \"zone_1\"\tRelError: 1.21613e-04\tAbsError: 1.66369e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21135e-04\tAbsError: 6.37067e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.78109e-07\tAbsError: 1.66305e-04\n", + " Region: \"zone_3\"\tRelError: 1.07154e-03\tAbsError: 1.39866e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.74493e-06\tAbsError: 6.96417e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.55832e-06\tAbsError: 7.02247e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06476e-03\tAbsError: 6.42163e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.78280e-07\tAbsError: 1.66364e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.49657e+00\tAbsError: 3.51966e+16\n", + " Region: \"zone_1\"\tRelError: 4.64902e-01\tAbsError: 7.04755e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.62960e-01\tAbsError: 2.58789e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94154e-03\tAbsError: 6.78876e-01\n", + " Region: \"zone_3\"\tRelError: 2.03167e+00\tAbsError: 3.51966e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.92042e-02\tAbsError: 1.76602e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.22372e-02\tAbsError: 1.75363e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.95829e+00\tAbsError: 2.58789e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94154e-03\tAbsError: 6.78876e-01\n", + "Iteration: 20\n", + " Device: \"device\"\tRelError: 2.86203e-04\tAbsError: 6.27638e+10\n", + " Region: \"zone_1\"\tRelError: 2.99365e-05\tAbsError: 3.46445e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.98370e-05\tAbsError: 4.29595e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.95054e-08\tAbsError: 3.46015e-05\n", + " Region: \"zone_3\"\tRelError: 2.56266e-04\tAbsError: 6.27638e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.46343e-06\tAbsError: 3.56504e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.43574e-06\tAbsError: 2.71134e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.43268e-04\tAbsError: 4.35591e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.95328e-08\tAbsError: 3.46111e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.73954e-02\tAbsError: 2.09217e+12\n", + " Region: \"zone_1\"\tRelError: 2.66287e-02\tAbsError: 3.97498e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.66286e-02\tAbsError: 7.21599e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.14055e-07\tAbsError: 3.96776e-05\n", + " Region: \"zone_3\"\tRelError: 7.66707e-04\tAbsError: 2.09217e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05973e-06\tAbsError: 1.04227e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.16702e-06\tAbsError: 1.04990e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.62366e-04\tAbsError: 7.27544e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.14099e-07\tAbsError: 3.96935e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.12441e+02\tAbsError: 2.27947e+15\n", + " Region: \"zone_1\"\tRelError: 2.57506e-01\tAbsError: 1.16072e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.57357e-01\tAbsError: 6.44638e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.48872e-04\tAbsError: 5.16086e-02\n", + " Region: \"zone_3\"\tRelError: 6.12183e+02\tAbsError: 2.27947e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.56346e+02\tAbsError: 1.29064e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.55679e+02\tAbsError: 9.88834e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.58235e-01\tAbsError: 6.44641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.48962e-04\tAbsError: 5.16397e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 9.93046e-04\tAbsError: 1.35047e+12\n", + " Region: \"zone_1\"\tRelError: 1.00839e-04\tAbsError: 1.62276e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00793e-04\tAbsError: 4.93121e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.66571e-08\tAbsError: 1.61783e-05\n", + " Region: \"zone_3\"\tRelError: 8.92207e-04\tAbsError: 1.35047e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.51574e-06\tAbsError: 6.72130e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.29808e-06\tAbsError: 6.78342e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 8.89346e-04\tAbsError: 4.97640e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.66657e-08\tAbsError: 1.61809e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 6.69589e+00\tAbsError: 5.37696e+15\n", + " Region: \"zone_1\"\tRelError: 3.73324e+00\tAbsError: 3.88180e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.73216e+00\tAbsError: 9.16423e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08076e-03\tAbsError: 3.79016e-01\n", + " Region: \"zone_3\"\tRelError: 2.96265e+00\tAbsError: 5.37696e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.56094e-03\tAbsError: 2.69855e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.01807e-03\tAbsError: 2.67840e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.95599e+00\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08076e-03\tAbsError: 3.79016e-01\n", + "Iteration: 21\n", + " Device: \"device\"\tRelError: 1.31318e-04\tAbsError: 3.33767e+10\n", + " Region: \"zone_1\"\tRelError: 1.36025e-05\tAbsError: 6.39159e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35842e-05\tAbsError: 2.17106e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83182e-08\tAbsError: 6.36988e-06\n", + " Region: \"zone_3\"\tRelError: 1.17716e-04\tAbsError: 3.33767e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.32200e-06\tAbsError: 1.90094e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.29852e-06\tAbsError: 1.43674e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11077e-04\tAbsError: 2.20254e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83215e-08\tAbsError: 6.37102e-06\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.33283e-03\tAbsError: 3.11070e+11\n", + " Region: \"zone_1\"\tRelError: 3.24208e-03\tAbsError: 1.67201e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.24204e-03\tAbsError: 1.08135e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.80316e-08\tAbsError: 1.67093e-05\n", + " Region: \"zone_3\"\tRelError: 9.07484e-05\tAbsError: 3.11070e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.27597e-07\tAbsError: 1.55029e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.37894e-07\tAbsError: 1.56041e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 8.97349e-05\tAbsError: 1.09264e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.80498e-08\tAbsError: 1.67159e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.48270e+02\tAbsError: 4.45564e+14\n", + " Region: \"zone_1\"\tRelError: 8.87797e-02\tAbsError: 1.14771e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 8.86173e-02\tAbsError: 5.84706e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62378e-04\tAbsError: 5.63000e-02\n", + " Region: \"zone_3\"\tRelError: 1.48181e+02\tAbsError: 4.45564e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.49194e+01\tAbsError: 5.02523e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.31608e+01\tAbsError: 3.95311e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01003e-01\tAbsError: 5.84709e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62420e-04\tAbsError: 5.63140e-02\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.35256e-04\tAbsError: 1.43351e+11\n", + " Region: \"zone_1\"\tRelError: 1.37721e-05\tAbsError: 9.73032e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37442e-05\tAbsError: 5.01073e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.79871e-08\tAbsError: 9.72531e-06\n", + " Region: \"zone_3\"\tRelError: 1.21484e-04\tAbsError: 1.43351e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.91834e-07\tAbsError: 7.13886e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.13078e-07\tAbsError: 7.19621e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21051e-04\tAbsError: 5.05336e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.79891e-08\tAbsError: 9.72902e-06\n", + "Iteration: 22\n", + " Device: \"device\"\tRelError: 2.67617e-05\tAbsError: 6.00511e+09\n", + " Region: \"zone_1\"\tRelError: 2.79436e-06\tAbsError: 2.58190e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78695e-06\tAbsError: 3.94165e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.41357e-09\tAbsError: 2.57796e-06\n", + " Region: \"zone_3\"\tRelError: 2.39674e-05\tAbsError: 6.00511e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.11125e-07\tAbsError: 3.51674e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.08086e-07\tAbsError: 2.48837e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.27407e-05\tAbsError: 3.99807e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.41485e-09\tAbsError: 2.57841e-06\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.32012e-03\tAbsError: 1.28416e+11\n", + " Region: \"zone_1\"\tRelError: 1.28498e-03\tAbsError: 3.17813e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28497e-03\tAbsError: 4.23201e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.12342e-09\tAbsError: 3.17390e-06\n", + " Region: \"zone_3\"\tRelError: 3.51385e-05\tAbsError: 1.28416e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.13826e-07\tAbsError: 6.39919e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.61332e-07\tAbsError: 6.44238e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.48542e-05\tAbsError: 4.27818e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.12696e-09\tAbsError: 3.17522e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:50\u001b[0m.\u001b[1;36m025\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:50\u001b[0m.\u001b[1;36m025\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.20454545454545453\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.88315e-01\tAbsError: 2.62271e+15\n", + " Region: \"zone_1\"\tRelError: 4.71922e-01\tAbsError: 5.76588e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.70275e-01\tAbsError: 6.27557e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.64666e-03\tAbsError: 5.76525e-01\n", + " Region: \"zone_3\"\tRelError: 3.16393e-01\tAbsError: 2.62271e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.49491e-02\tAbsError: 1.29724e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.95632e-03\tAbsError: 1.32547e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.97839e-01\tAbsError: 6.29832e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.64866e-03\tAbsError: 5.77242e-01\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.42051e+03\tAbsError: 3.54615e+14\n", + " Region: \"zone_1\"\tRelError: 6.98275e-02\tAbsError: 1.09313e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 6.96607e-02\tAbsError: 5.14934e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.66728e-04\tAbsError: 5.78196e-02\n", + " Region: \"zone_3\"\tRelError: 1.42044e+03\tAbsError: 3.54615e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.98967e+01\tAbsError: 1.27688e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.36047e+03\tAbsError: 3.41846e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.97677e-02\tAbsError: 5.14938e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.66908e-04\tAbsError: 5.78809e-02\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 6.85104e-05\tAbsError: 8.03987e+10\n", + " Region: \"zone_1\"\tRelError: 6.96313e-06\tAbsError: 1.48881e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.95886e-06\tAbsError: 2.53806e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.27498e-09\tAbsError: 1.48627e-06\n", + " Region: \"zone_3\"\tRelError: 6.15472e-05\tAbsError: 8.03987e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.83998e-08\tAbsError: 4.00300e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.82676e-08\tAbsError: 4.03687e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 6.13763e-05\tAbsError: 2.56098e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.27661e-09\tAbsError: 1.48686e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:50\u001b[0m.\u001b[1;36m707\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: 1.045\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 2.19681e-04\tAbsError: 2.36335e+10\n", + " Region: \"zone_1\"\tRelError: 2.12393e-04\tAbsError: 1.12120e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.12390e-04\tAbsError: 8.49866e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.22046e-09\tAbsError: 1.12035e-06\n", + " Region: \"zone_3\"\tRelError: 7.28849e-06\tAbsError: 2.36335e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.68162e-08\tAbsError: 1.17793e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.98264e-08\tAbsError: 1.18542e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.21862e-06\tAbsError: 8.58821e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.22171e-09\tAbsError: 1.12081e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 9.58997e+01\tAbsError: 3.20526e+15\n", + " Region: \"zone_1\"\tRelError: 1.29777e+01\tAbsError: 2.18715e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29777e+01\tAbsError: 1.22913e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.20649e-05\tAbsError: 2.17486e-02\n", + " Region: \"zone_3\"\tRelError: 8.29220e+01\tAbsError: 3.20526e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.66160e-03\tAbsError: 1.56677e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.59518e-03\tAbsError: 1.63849e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.29127e+01\tAbsError: 1.23738e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.20911e-05\tAbsError: 2.17577e-02\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 4.00781e+00\tAbsError: 3.94064e+14\n", + " Region: \"zone_1\"\tRelError: 5.54910e-02\tAbsError: 1.14682e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.52851e-02\tAbsError: 4.32616e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.05905e-04\tAbsError: 7.14208e-02\n", + " Region: \"zone_3\"\tRelError: 3.95232e+00\tAbsError: 3.94064e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.89903e+00\tAbsError: 2.21274e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.97707e-01\tAbsError: 3.71937e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.53690e-02\tAbsError: 4.32621e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.06150e-04\tAbsError: 7.15040e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.04363e+01\tAbsError: 8.75931e+15\n", + " Region: \"zone_1\"\tRelError: 1.87906e+01\tAbsError: 4.18734e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87906e+01\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62204e-09\tAbsError: 5.64041e-07\n", + " Region: \"zone_3\"\tRelError: 1.64572e+00\tAbsError: 8.75931e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77321e-01\tAbsError: 4.84694e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.77252e-01\tAbsError: 3.91237e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.11488e-02\tAbsError: 4.18729e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62226e-09\tAbsError: 5.64117e-07\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 7.39581e-05\tAbsError: 8.24568e+09\n", + " Region: \"zone_1\"\tRelError: 7.15031e-05\tAbsError: 2.38813e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 7.15024e-05\tAbsError: 2.87074e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.85640e-10\tAbsError: 2.38526e-07\n", + " Region: \"zone_3\"\tRelError: 2.45501e-06\tAbsError: 8.24568e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.01995e-09\tAbsError: 4.10956e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.14388e-08\tAbsError: 4.13612e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.43586e-06\tAbsError: 2.90181e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.85923e-10\tAbsError: 2.38630e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 4.31267e+03\tAbsError: 1.61876e+18\n", + " Region: \"zone_1\"\tRelError: 2.15568e+03\tAbsError: 4.19632e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.15568e+03\tAbsError: 4.19626e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.86381e-09\tAbsError: 6.47983e-07\n", + " Region: \"zone_3\"\tRelError: 2.15699e+03\tAbsError: 1.61876e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.69859e-01\tAbsError: 8.03022e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.44383e-01\tAbsError: 8.15742e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 2.15568e+03\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.86451e-09\tAbsError: 6.48241e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:52\u001b[0m.\u001b[1;36m408\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 1.0899999999999999\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.03311e+04\tAbsError: 3.93653e+14\n", + " Region: \"zone_1\"\tRelError: 4.12956e-02\tAbsError: 1.24407e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.10335e-02\tAbsError: 3.34880e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.62058e-04\tAbsError: 9.09187e-02\n", + " Region: \"zone_3\"\tRelError: 1.03311e+04\tAbsError: 3.93653e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03307e+04\tAbsError: 2.36735e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.21091e-01\tAbsError: 3.69979e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.10984e-02\tAbsError: 3.34886e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.62402e-04\tAbsError: 9.10387e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.68799e+00\tAbsError: 1.24428e+14\n", + " Region: \"zone_1\"\tRelError: 2.78169e+00\tAbsError: 1.62679e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78165e+00\tAbsError: 7.17419e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.64072e-05\tAbsError: 1.62607e-02\n", + " Region: \"zone_3\"\tRelError: 9.06301e-01\tAbsError: 1.24428e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.41976e-04\tAbsError: 6.19540e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.02421e-04\tAbsError: 6.24745e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.05410e-01\tAbsError: 7.21579e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.64251e-05\tAbsError: 1.62670e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.51527e+00\tAbsError: 3.25260e+14\n", + " Region: \"zone_1\"\tRelError: 2.05408e+00\tAbsError: 9.47161e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.05390e+00\tAbsError: 3.18465e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.80835e-04\tAbsError: 6.28696e-02\n", + " Region: \"zone_3\"\tRelError: 1.46119e+00\tAbsError: 3.25260e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.51540e-01\tAbsError: 1.59285e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.47035e-01\tAbsError: 1.65975e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.24340e-02\tAbsError: 3.18470e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.80835e-04\tAbsError: 6.28696e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.04408e+03\tAbsError: 5.36695e+17\n", + " Region: \"zone_1\"\tRelError: 5.36992e+02\tAbsError: 1.32221e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.36988e+02\tAbsError: 3.19518e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.70524e-03\tAbsError: 1.29026e+00\n", + " Region: \"zone_3\"\tRelError: 5.07091e+02\tAbsError: 5.36695e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.84800e-01\tAbsError: 2.69477e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.73451e-01\tAbsError: 2.67218e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 5.06329e+02\tAbsError: 3.19525e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.70570e-03\tAbsError: 1.29038e+00\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 1.08131e+00\tAbsError: 3.49481e+14\n", + " Region: \"zone_1\"\tRelError: 3.13058e-02\tAbsError: 1.42325e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.09702e-02\tAbsError: 2.58770e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.35529e-04\tAbsError: 1.16448e-01\n", + " Region: \"zone_3\"\tRelError: 1.05001e+00\tAbsError: 3.49481e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99703e-01\tAbsError: 2.12352e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.74562e-03\tAbsError: 3.28246e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.42204e-02\tAbsError: 2.45589e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.35937e-04\tAbsError: 1.16589e-01\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 8.48216e+03\tAbsError: 2.08749e+18\n", + " Region: \"zone_1\"\tRelError: 2.49066e+03\tAbsError: 4.29334e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49066e+03\tAbsError: 4.29333e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17085e-10\tAbsError: 7.55212e-08\n", + " Region: \"zone_3\"\tRelError: 5.99150e+03\tAbsError: 2.08749e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.46766e-01\tAbsError: 1.04031e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.25990e-01\tAbsError: 1.04718e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 5.99022e+03\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17175e-10\tAbsError: 7.55542e-08\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.74817e+00\tAbsError: 1.00690e+14\n", + " Region: \"zone_1\"\tRelError: 2.14136e+00\tAbsError: 1.40275e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.14135e+00\tAbsError: 4.52029e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.00073e-06\tAbsError: 1.39823e-03\n", + " Region: \"zone_3\"\tRelError: 1.60681e+00\tAbsError: 1.00690e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.04820e-04\tAbsError: 5.01493e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.34375e-04\tAbsError: 5.05408e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.60646e+00\tAbsError: 4.54847e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.00161e-06\tAbsError: 1.39859e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.57702e+00\tAbsError: 4.19775e+13\n", + " Region: \"zone_1\"\tRelError: 5.74741e-01\tAbsError: 3.08408e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.74726e-01\tAbsError: 2.58653e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43111e-05\tAbsError: 4.97551e-03\n", + " Region: \"zone_3\"\tRelError: 1.00228e+00\tAbsError: 4.19775e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.61753e-01\tAbsError: 3.02455e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.27245e-01\tAbsError: 1.17320e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13265e-01\tAbsError: 2.58955e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43111e-05\tAbsError: 4.97551e-03\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 1.40238e+00\tAbsError: 6.16489e+14\n", + " Region: \"zone_1\"\tRelError: 1.51392e-02\tAbsError: 3.50224e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.50753e-02\tAbsError: 1.28451e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.39045e-05\tAbsError: 2.21773e-02\n", + " Region: \"zone_3\"\tRelError: 1.38724e+00\tAbsError: 6.16489e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.23954e+00\tAbsError: 2.14946e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.55726e-03\tAbsError: 5.94994e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.42077e-01\tAbsError: 1.28459e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.39045e-05\tAbsError: 2.21773e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 7.20944e+01\tAbsError: 7.56708e+16\n", + " Region: \"zone_1\"\tRelError: 6.54151e+01\tAbsError: 5.01672e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 6.54137e+01\tAbsError: 2.58373e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36322e-03\tAbsError: 4.75835e-01\n", + " Region: \"zone_3\"\tRelError: 6.67933e+00\tAbsError: 7.56708e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.58102e-02\tAbsError: 3.79633e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.47265e-02\tAbsError: 3.77076e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.52743e+00\tAbsError: 2.58764e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36338e-03\tAbsError: 4.75899e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 6.96046e+02\tAbsError: 6.12303e+17\n", + " Region: \"zone_1\"\tRelError: 4.96510e+01\tAbsError: 1.78943e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 4.96460e+01\tAbsError: 3.30992e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.02903e-03\tAbsError: 1.75633e+00\n", + " Region: \"zone_3\"\tRelError: 6.46395e+02\tAbsError: 6.12303e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.43837e-01\tAbsError: 3.06626e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.44545e-01\tAbsError: 3.05677e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 6.45701e+02\tAbsError: 3.31000e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.02964e-03\tAbsError: 1.75644e+00\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.05492e-01\tAbsError: 9.06572e+12\n", + " Region: \"zone_1\"\tRelError: 4.25847e-01\tAbsError: 6.76994e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.25845e-01\tAbsError: 4.28249e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93585e-06\tAbsError: 6.76565e-04\n", + " Region: \"zone_3\"\tRelError: 1.79645e-01\tAbsError: 9.06572e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.72999e-05\tAbsError: 4.51680e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.43151e-05\tAbsError: 4.54892e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.79592e-01\tAbsError: 4.30804e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93585e-06\tAbsError: 6.76565e-04\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.17749e-01\tAbsError: 2.75400e+12\n", + " Region: \"zone_1\"\tRelError: 2.84331e-02\tAbsError: 1.37857e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.84237e-02\tAbsError: 1.05213e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.38961e-06\tAbsError: 3.26443e-03\n", + " Region: \"zone_3\"\tRelError: 2.89316e-01\tAbsError: 2.75400e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.17006e-01\tAbsError: 1.82710e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.54026e-02\tAbsError: 9.26901e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.68976e-02\tAbsError: 1.05214e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.39204e-06\tAbsError: 3.26533e-03\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 5.10120e-01\tAbsError: 6.13179e+14\n", + " Region: \"zone_1\"\tRelError: 2.16057e-02\tAbsError: 3.05911e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.07258e-02\tAbsError: 2.97755e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.79857e-04\tAbsError: 3.05613e-01\n", + " Region: \"zone_3\"\tRelError: 4.88514e-01\tAbsError: 6.13179e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.32466e-01\tAbsError: 1.25745e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.09422e-02\tAbsError: 6.00604e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.44225e-01\tAbsError: 3.09265e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.80493e-04\tAbsError: 3.05830e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.00029e+00\tAbsError: 4.66294e+15\n", + " Region: \"zone_1\"\tRelError: 2.27580e+00\tAbsError: 9.90877e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.27300e+00\tAbsError: 1.06605e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.79721e-03\tAbsError: 9.80216e-01\n", + " Region: \"zone_3\"\tRelError: 7.24485e-01\tAbsError: 4.66294e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.91065e-02\tAbsError: 1.79042e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.75448e-03\tAbsError: 2.87252e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 6.97823e-01\tAbsError: 1.06615e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.80173e-03\tAbsError: 9.81795e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 8.79492e+00\tAbsError: 6.00288e+16\n", + " Region: \"zone_1\"\tRelError: 3.50227e+00\tAbsError: 1.40347e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 3.49833e+00\tAbsError: 2.58583e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.93821e-03\tAbsError: 1.37762e+00\n", + " Region: \"zone_3\"\tRelError: 5.29264e+00\tAbsError: 6.00288e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.79218e-02\tAbsError: 3.01274e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.42552e-02\tAbsError: 2.99014e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 5.16653e+00\tAbsError: 2.58698e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.93821e-03\tAbsError: 1.37762e+00\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.48197e-01\tAbsError: 4.50048e+12\n", + " Region: \"zone_1\"\tRelError: 1.60046e-01\tAbsError: 9.62234e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.60046e-01\tAbsError: 1.80340e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.75240e-07\tAbsError: 9.60431e-05\n", + " Region: \"zone_3\"\tRelError: 8.81510e-02\tAbsError: 4.50048e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.56637e-06\tAbsError: 2.24288e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.56618e-06\tAbsError: 2.25761e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.81336e-02\tAbsError: 1.81436e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.75295e-07\tAbsError: 9.60627e-05\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.11164e-02\tAbsError: 2.67087e+12\n", + " Region: \"zone_1\"\tRelError: 1.76241e-02\tAbsError: 2.79462e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.76161e-02\tAbsError: 1.58150e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.04209e-06\tAbsError: 2.79304e-03\n", + " Region: \"zone_3\"\tRelError: 7.34923e-02\tAbsError: 2.67087e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.53543e-02\tAbsError: 1.66658e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.26844e-04\tAbsError: 1.00429e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.00307e-03\tAbsError: 1.64903e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.04209e-06\tAbsError: 2.79304e-03\n", + "Iteration: 16\n", + " Device: \"device\"\tRelError: 3.91597e-01\tAbsError: 1.73440e+14\n", + " Region: \"zone_1\"\tRelError: 3.78559e-02\tAbsError: 5.80300e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.78398e-02\tAbsError: 2.04009e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60820e-05\tAbsError: 5.59900e-03\n", + " Region: \"zone_3\"\tRelError: 3.53741e-01\tAbsError: 1.73440e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.20655e-02\tAbsError: 5.27691e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.20606e-02\tAbsError: 1.20671e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.09599e-01\tAbsError: 2.06461e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60897e-05\tAbsError: 5.60177e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.58249e+02\tAbsError: 1.00167e+16\n", + " Region: \"zone_1\"\tRelError: 1.56715e+02\tAbsError: 1.28436e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.56711e+02\tAbsError: 3.89823e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.67750e-03\tAbsError: 1.28397e+00\n", + " Region: \"zone_3\"\tRelError: 1.53416e+00\tAbsError: 1.00167e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.08913e-02\tAbsError: 4.42744e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.61882e-03\tAbsError: 5.58926e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49196e+00\tAbsError: 3.92419e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.68317e-03\tAbsError: 1.28594e+00\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 7.89743e+00\tAbsError: 9.07768e+15\n", + " Region: \"zone_1\"\tRelError: 4.30415e+00\tAbsError: 5.45655e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.30263e+00\tAbsError: 1.22641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.51850e-03\tAbsError: 5.33391e-01\n", + " Region: \"zone_3\"\tRelError: 3.59328e+00\tAbsError: 9.07768e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.05131e-03\tAbsError: 4.51642e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.02232e-02\tAbsError: 4.56126e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 3.57749e+00\tAbsError: 1.22654e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52202e-03\tAbsError: 5.34632e-01\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 4.16881e-02\tAbsError: 5.87027e+11\n", + " Region: \"zone_1\"\tRelError: 2.74007e-02\tAbsError: 3.67679e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.74006e-02\tAbsError: 2.53315e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.05297e-07\tAbsError: 3.67426e-05\n", + " Region: \"zone_3\"\tRelError: 1.42874e-02\tAbsError: 5.87027e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.44350e-06\tAbsError: 2.92634e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.68502e-06\tAbsError: 2.94393e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.42841e-02\tAbsError: 2.55528e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.05309e-07\tAbsError: 3.67468e-05\n", + "Iteration: 17\n", + " Device: \"device\"\tRelError: 3.63215e-02\tAbsError: 5.14930e+12\n", + " Region: \"zone_1\"\tRelError: 3.77742e-03\tAbsError: 1.10706e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.74556e-03\tAbsError: 3.72376e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.18607e-05\tAbsError: 1.10669e-02\n", + " Region: \"zone_3\"\tRelError: 3.25441e-02\tAbsError: 5.14930e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90786e-04\tAbsError: 3.12485e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.62634e-04\tAbsError: 2.02445e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.12588e-02\tAbsError: 3.85335e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.18645e-05\tAbsError: 1.10683e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.09610e-03\tAbsError: 1.37091e+12\n", + " Region: \"zone_1\"\tRelError: 2.76889e-03\tAbsError: 1.16527e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.76856e-03\tAbsError: 1.93106e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.29178e-07\tAbsError: 1.14596e-04\n", + " Region: \"zone_3\"\tRelError: 2.32720e-03\tAbsError: 1.37091e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.79315e-04\tAbsError: 3.79966e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.78776e-04\tAbsError: 9.90945e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.96878e-03\tAbsError: 1.93525e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.29334e-07\tAbsError: 1.14652e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.37705e+01\tAbsError: 7.27933e+15\n", + " Region: \"zone_1\"\tRelError: 4.31671e+01\tAbsError: 8.11674e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.31668e+01\tAbsError: 3.46437e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.31427e-04\tAbsError: 8.08209e-02\n", + " Region: \"zone_3\"\tRelError: 6.03404e-01\tAbsError: 7.27933e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.35117e-02\tAbsError: 3.54144e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.23337e-03\tAbsError: 3.73789e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.86427e-01\tAbsError: 3.48978e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.31517e-04\tAbsError: 8.08519e-02\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.48230e-02\tAbsError: 2.24518e+11\n", + " Region: \"zone_1\"\tRelError: 9.67323e-03\tAbsError: 6.58649e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 9.67321e-03\tAbsError: 9.07531e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.88326e-08\tAbsError: 6.57742e-06\n", + " Region: \"zone_3\"\tRelError: 5.14973e-03\tAbsError: 2.24518e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.12497e-07\tAbsError: 1.11948e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.18689e-07\tAbsError: 1.12571e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.14878e-03\tAbsError: 9.15701e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.88397e-08\tAbsError: 6.57999e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.12483e+00\tAbsError: 1.15592e+16\n", + " Region: \"zone_1\"\tRelError: 4.05248e-01\tAbsError: 1.15681e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 4.01945e-01\tAbsError: 2.01056e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.30361e-03\tAbsError: 1.15661e+00\n", + " Region: \"zone_3\"\tRelError: 7.19584e-01\tAbsError: 1.15592e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.33694e-02\tAbsError: 5.41979e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.47353e-03\tAbsError: 6.13946e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 6.91434e-01\tAbsError: 2.02997e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.30745e-03\tAbsError: 1.15796e+00\n", + "Iteration: 18\n", + " Device: \"device\"\tRelError: 3.40315e-02\tAbsError: 1.08685e+13\n", + " Region: \"zone_1\"\tRelError: 3.47306e-03\tAbsError: 1.02397e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.47014e-03\tAbsError: 8.30414e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.92082e-06\tAbsError: 1.01567e-03\n", + " Region: \"zone_3\"\tRelError: 3.05585e-02\tAbsError: 1.08685e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10259e-03\tAbsError: 4.97621e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.09570e-03\tAbsError: 5.89228e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.83573e-02\tAbsError: 8.41978e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.92167e-06\tAbsError: 1.01597e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 8.73840e-04\tAbsError: 9.29496e+10\n", + " Region: \"zone_1\"\tRelError: 5.71863e-04\tAbsError: 8.29789e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.71624e-04\tAbsError: 5.32027e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.38759e-07\tAbsError: 8.29257e-05\n", + " Region: \"zone_3\"\tRelError: 3.01977e-04\tAbsError: 9.29496e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.28949e-06\tAbsError: 6.93078e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.21757e-06\tAbsError: 2.36418e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.87231e-04\tAbsError: 5.59323e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.38888e-07\tAbsError: 8.29697e-05\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 2.80808e-03\tAbsError: 3.70977e+10\n", + " Region: \"zone_1\"\tRelError: 1.83927e-03\tAbsError: 2.15171e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.83927e-03\tAbsError: 1.71473e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.15592e-09\tAbsError: 2.15000e-06\n", + " Region: \"zone_3\"\tRelError: 9.68805e-04\tAbsError: 3.70977e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.10516e-08\tAbsError: 1.85046e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.09611e-07\tAbsError: 1.85931e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 9.68608e-04\tAbsError: 1.72971e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.15824e-09\tAbsError: 2.15085e-06\n", + "Iteration: 19\n", + " Device: \"device\"\tRelError: 4.64217e-03\tAbsError: 9.68026e+11\n", + " Region: \"zone_1\"\tRelError: 4.86514e-04\tAbsError: 7.30690e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.84414e-04\tAbsError: 6.88362e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.09942e-06\tAbsError: 7.30002e-04\n", + " Region: \"zone_3\"\tRelError: 4.15566e-03\tAbsError: 9.68026e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.00606e-04\tAbsError: 5.36847e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.00120e-04\tAbsError: 4.31179e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.95283e-03\tAbsError: 6.97826e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.10002e-06\tAbsError: 7.30231e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.26630e+00\tAbsError: 4.92451e+14\n", + " Region: \"zone_1\"\tRelError: 1.13894e+00\tAbsError: 4.71328e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13880e+00\tAbsError: 2.57047e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.34907e-04\tAbsError: 4.71071e-02\n", + " Region: \"zone_3\"\tRelError: 1.27367e-01\tAbsError: 4.92451e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.64457e-03\tAbsError: 2.45424e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.47270e-04\tAbsError: 2.47027e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.24640e-01\tAbsError: 2.58802e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.34960e-04\tAbsError: 4.71255e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 7.14566e+00\tAbsError: 7.17512e+15\n", + " Region: \"zone_1\"\tRelError: 4.32124e+00\tAbsError: 5.46696e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.32108e+00\tAbsError: 2.97009e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.55267e-04\tAbsError: 5.43726e-02\n", + " Region: \"zone_3\"\tRelError: 2.82442e+00\tAbsError: 7.17512e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.24488e-02\tAbsError: 3.50201e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.33247e-03\tAbsError: 3.67311e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.80849e+00\tAbsError: 2.99132e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.55338e-04\tAbsError: 5.43974e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.46596e-04\tAbsError: 7.70978e+10\n", + " Region: \"zone_1\"\tRelError: 3.52561e-04\tAbsError: 2.63577e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.52554e-04\tAbsError: 6.54648e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.38295e-09\tAbsError: 2.57030e-06\n", + " Region: \"zone_3\"\tRelError: 1.94035e-04\tAbsError: 7.70978e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.14845e-06\tAbsError: 3.19726e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.09047e-06\tAbsError: 4.51252e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.79789e-04\tAbsError: 6.57794e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.38722e-09\tAbsError: 2.57183e-06\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 8.73376e-04\tAbsError: 1.21033e+10\n", + " Region: \"zone_1\"\tRelError: 5.71066e-04\tAbsError: 4.32120e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 5.71065e-04\tAbsError: 5.34362e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.23573e-09\tAbsError: 4.31585e-07\n", + " Region: \"zone_3\"\tRelError: 3.02310e-04\tAbsError: 1.21033e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.19763e-08\tAbsError: 6.03773e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.10528e-08\tAbsError: 6.06556e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.02256e-04\tAbsError: 5.39200e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.23623e-09\tAbsError: 4.31772e-07\n", + "Iteration: 20\n", + " Device: \"device\"\tRelError: 2.63806e-03\tAbsError: 7.18270e+11\n", + " Region: \"zone_1\"\tRelError: 2.72151e-04\tAbsError: 1.11167e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.71833e-04\tAbsError: 4.88634e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.18284e-07\tAbsError: 1.10678e-04\n", + " Region: \"zone_3\"\tRelError: 2.36591e-03\tAbsError: 7.18270e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.14304e-05\tAbsError: 3.84457e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.09324e-05\tAbsError: 3.33813e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.22323e-03\tAbsError: 4.95599e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.18357e-07\tAbsError: 1.10704e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.58694e+00\tAbsError: 2.89132e+14\n", + " Region: \"zone_1\"\tRelError: 1.52380e+00\tAbsError: 5.15698e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.52379e+00\tAbsError: 1.32365e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47696e-05\tAbsError: 5.14374e-03\n", + " Region: \"zone_3\"\tRelError: 6.31393e-02\tAbsError: 2.89132e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.46615e-04\tAbsError: 1.44083e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.48650e-04\tAbsError: 1.45050e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.22293e-02\tAbsError: 1.33305e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47725e-05\tAbsError: 5.14444e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.30025e-01\tAbsError: 2.94556e+14\n", + " Region: \"zone_1\"\tRelError: 3.15863e-01\tAbsError: 3.78530e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.15755e-01\tAbsError: 1.75941e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08057e-04\tAbsError: 3.78354e-02\n", + " Region: \"zone_3\"\tRelError: 4.14163e-01\tAbsError: 2.94556e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.27992e-03\tAbsError: 1.46638e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.33355e-04\tAbsError: 1.47918e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.12141e-01\tAbsError: 1.76984e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08101e-04\tAbsError: 3.78506e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 4.93715e-06\tAbsError: 1.96214e+09\n", + " Region: \"zone_1\"\tRelError: 2.21785e-06\tAbsError: 4.49317e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20493e-06\tAbsError: 8.87397e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.29217e-08\tAbsError: 4.49228e-06\n", + " Region: \"zone_3\"\tRelError: 2.71931e-06\tAbsError: 1.96214e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.26346e-07\tAbsError: 1.66685e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.04086e-07\tAbsError: 2.95287e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 2.27595e-06\tAbsError: 9.19869e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.29231e-08\tAbsError: 4.49284e-06\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 1.80868e-04\tAbsError: 2.31864e+09\n", + " Region: \"zone_1\"\tRelError: 1.18462e-04\tAbsError: 1.27109e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18462e-04\tAbsError: 1.10538e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.63622e-10\tAbsError: 1.26998e-07\n", + " Region: \"zone_3\"\tRelError: 6.24053e-05\tAbsError: 2.31864e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73488e-09\tAbsError: 1.15691e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.90572e-09\tAbsError: 1.16172e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 6.23933e-05\tAbsError: 1.11505e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.63771e-10\tAbsError: 1.27053e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:03\u001b[0m.\u001b[1;36m020\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:03\u001b[0m.\u001b[1;36m020\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.3090909090909091\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 21\n", + " Device: \"device\"\tRelError: 4.72856e-04\tAbsError: 1.04675e+11\n", + " Region: \"zone_1\"\tRelError: 4.94226e-05\tAbsError: 5.28859e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.92707e-05\tAbsError: 7.05222e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.51884e-07\tAbsError: 5.28154e-05\n", + " Region: \"zone_3\"\tRelError: 4.23433e-04\tAbsError: 1.04675e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07269e-05\tAbsError: 6.01563e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.06769e-05\tAbsError: 4.45187e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.01878e-04\tAbsError: 7.15151e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.51923e-07\tAbsError: 5.28292e-05\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.23377e-01\tAbsError: 3.53784e+13\n", + " Region: \"zone_1\"\tRelError: 2.12151e-01\tAbsError: 2.19055e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.12145e-01\tAbsError: 1.54072e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.28620e-06\tAbsError: 2.18901e-03\n", + " Region: \"zone_3\"\tRelError: 1.12254e-02\tAbsError: 3.53784e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.76777e-05\tAbsError: 1.76182e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.87863e-05\tAbsError: 1.77602e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10527e-02\tAbsError: 1.55136e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.28630e-06\tAbsError: 2.18913e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.71990e-01\tAbsError: 2.33075e+14\n", + " Region: \"zone_1\"\tRelError: 3.26655e-01\tAbsError: 3.26790e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.26646e-01\tAbsError: 1.05121e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.32610e-06\tAbsError: 3.25738e-03\n", + " Region: \"zone_3\"\tRelError: 2.45334e-01\tAbsError: 2.33075e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.69921e-04\tAbsError: 1.16087e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.98872e-04\tAbsError: 1.16987e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.44556e-01\tAbsError: 1.05793e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.32610e-06\tAbsError: 3.25738e-03\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 5.16278e-05\tAbsError: 6.84005e+08\n", + " Region: \"zone_1\"\tRelError: 3.37813e-05\tAbsError: 2.73846e-08\n", + " Equation: \"PotentialEquation\"\tRelError: 3.37812e-05\tAbsError: 3.15860e-11\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.83172e-11\tAbsError: 2.73530e-08\n", + " Region: \"zone_3\"\tRelError: 1.78465e-05\tAbsError: 6.84005e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.24266e-09\tAbsError: 3.41303e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.85743e-09\tAbsError: 3.42702e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 1.78433e-05\tAbsError: 3.18691e-11\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.83488e-11\tAbsError: 2.73646e-08\n", + "Iteration: 22\n", + " Device: \"device\"\tRelError: 2.01937e-04\tAbsError: 5.08201e+10\n", + " Region: \"zone_1\"\tRelError: 2.09310e-05\tAbsError: 1.03517e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.09013e-05\tAbsError: 3.29728e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.96742e-08\tAbsError: 1.03187e-05\n", + " Region: \"zone_3\"\tRelError: 1.81006e-04\tAbsError: 5.08201e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.06381e-06\tAbsError: 2.90908e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.02859e-06\tAbsError: 2.17292e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.70884e-04\tAbsError: 3.34514e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.96790e-08\tAbsError: 1.03204e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.25390e+01\tAbsError: 8.66334e+15\n", + " Region: \"zone_1\"\tRelError: 3.08824e+01\tAbsError: 4.18730e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.08824e+01\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.61411e-10\tAbsError: 1.94992e-07\n", + " Region: \"zone_3\"\tRelError: 1.65669e+00\tAbsError: 8.66334e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77415e-01\tAbsError: 4.95016e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.77396e-01\tAbsError: 3.71318e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01878e-01\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.61411e-10\tAbsError: 1.94992e-07\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 9.78787e-02\tAbsError: 1.51579e+13\n", + " Region: \"zone_1\"\tRelError: 9.33811e-02\tAbsError: 3.72586e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.33800e-02\tAbsError: 5.93039e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06930e-06\tAbsError: 3.71993e-04\n", + " Region: \"zone_3\"\tRelError: 4.49766e-03\tAbsError: 1.51579e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.55718e-05\tAbsError: 7.54871e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.55129e-05\tAbsError: 7.60915e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.44551e-03\tAbsError: 5.97196e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06941e-06\tAbsError: 3.72032e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 7.52737e-02\tAbsError: 2.11632e+13\n", + " Region: \"zone_1\"\tRelError: 4.18693e-02\tAbsError: 1.59245e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 4.18648e-02\tAbsError: 1.01760e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.55695e-06\tAbsError: 1.59143e-03\n", + " Region: \"zone_3\"\tRelError: 3.34044e-02\tAbsError: 2.11632e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.42416e-05\tAbsError: 1.05434e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.40508e-05\tAbsError: 1.06198e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.32815e-02\tAbsError: 1.02389e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.55695e-06\tAbsError: 1.59143e-03\n", + "Iteration: 23\n", + " Device: \"device\"\tRelError: 4.31241e-05\tAbsError: 9.72368e+09\n", + " Region: \"zone_1\"\tRelError: 4.50120e-06\tAbsError: 3.97895e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.48977e-06\tAbsError: 6.34023e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.14243e-08\tAbsError: 3.97261e-06\n", + " Region: \"zone_3\"\tRelError: 3.86230e-05\tAbsError: 9.72368e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.87584e-07\tAbsError: 5.72032e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.82473e-07\tAbsError: 4.00336e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.66415e-05\tAbsError: 6.43135e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.14261e-08\tAbsError: 3.97327e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:05\u001b[0m.\u001b[1;36m445\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.2\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.71908e+00\tAbsError: 3.16119e+14\n", + " Region: \"zone_1\"\tRelError: 2.43910e-01\tAbsError: 9.06394e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.43741e-01\tAbsError: 3.18465e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69138e-04\tAbsError: 5.87930e-02\n", + " Region: \"zone_3\"\tRelError: 1.47517e+00\tAbsError: 3.16119e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.52371e-01\tAbsError: 1.84358e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.46585e-01\tAbsError: 1.31761e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.60470e-02\tAbsError: 3.18469e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69138e-04\tAbsError: 5.87930e-02\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.86969e-02\tAbsError: 2.46395e+12\n", + " Region: \"zone_1\"\tRelError: 1.78245e-02\tAbsError: 1.33518e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.78241e-02\tAbsError: 9.72546e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.82867e-07\tAbsError: 1.33421e-04\n", + " Region: \"zone_3\"\tRelError: 8.72445e-04\tAbsError: 2.46395e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.98555e-06\tAbsError: 1.22727e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.80165e-06\tAbsError: 1.23668e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.61275e-04\tAbsError: 9.81989e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.83008e-07\tAbsError: 1.33471e-04\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:06\u001b[0m.\u001b[1;36m541\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 3.58424e-02\tAbsError: 1.06654e+13\n", + " Region: \"zone_1\"\tRelError: 2.02058e-02\tAbsError: 2.22070e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.02052e-02\tAbsError: 4.26072e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.35587e-07\tAbsError: 2.21644e-04\n", + " Region: \"zone_3\"\tRelError: 1.56366e-02\tAbsError: 1.06654e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.99454e-05\tAbsError: 5.31546e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.95304e-05\tAbsError: 5.34998e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55965e-02\tAbsError: 4.28732e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.35746e-07\tAbsError: 2.21701e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.15185e+01\tAbsError: 8.37846e+15\n", + " Region: \"zone_1\"\tRelError: 9.89195e+00\tAbsError: 4.09551e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.89195e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.59013e-09\tAbsError: 9.00677e-07\n", + " Region: \"zone_3\"\tRelError: 1.62652e+00\tAbsError: 8.37846e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69532e-01\tAbsError: 4.63620e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69461e-01\tAbsError: 3.74226e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.75319e-02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.59045e-09\tAbsError: 9.00793e-07\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 6.40527e-03\tAbsError: 8.75105e+11\n", + " Region: \"zone_1\"\tRelError: 6.10804e-03\tAbsError: 2.72042e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.10796e-03\tAbsError: 3.31759e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.79703e-08\tAbsError: 2.71711e-05\n", + " Region: \"zone_3\"\tRelError: 2.97229e-04\tAbsError: 8.75105e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.37726e-06\tAbsError: 4.35905e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.72581e-06\tAbsError: 4.39200e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.94048e-04\tAbsError: 3.35063e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.79995e-08\tAbsError: 2.71819e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.29560e+00\tAbsError: 3.35290e+13\n", + " Region: \"zone_1\"\tRelError: 1.28873e+00\tAbsError: 3.19009e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28871e+00\tAbsError: 2.58882e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72972e-05\tAbsError: 6.01266e-03\n", + " Region: \"zone_3\"\tRelError: 1.00687e+00\tAbsError: 3.35290e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.61852e-01\tAbsError: 2.39644e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.32027e-01\tAbsError: 9.56462e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12978e-01\tAbsError: 2.58961e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72972e-05\tAbsError: 6.01266e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 5.84928e-03\tAbsError: 1.39322e+12\n", + " Region: \"zone_1\"\tRelError: 3.30163e-03\tAbsError: 8.73550e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.30138e-03\tAbsError: 5.81389e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.50332e-07\tAbsError: 8.72969e-05\n", + " Region: \"zone_3\"\tRelError: 2.54765e-03\tAbsError: 1.39322e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.41191e-06\tAbsError: 6.94509e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.86028e-06\tAbsError: 6.98710e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.54013e-03\tAbsError: 5.86552e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.50362e-07\tAbsError: 8.73074e-05\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.35493e-03\tAbsError: 1.68571e+11\n", + " Region: \"zone_1\"\tRelError: 1.29207e-03\tAbsError: 8.63102e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29205e-03\tAbsError: 7.02025e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.47475e-08\tAbsError: 8.62400e-06\n", + " Region: \"zone_3\"\tRelError: 6.28578e-05\tAbsError: 1.68571e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.02466e-07\tAbsError: 8.39739e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.04547e-07\tAbsError: 8.45971e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 6.21260e-05\tAbsError: 7.08891e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.47569e-08\tAbsError: 8.62749e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.94648e+00\tAbsError: 2.98429e+14\n", + " Region: \"zone_1\"\tRelError: 5.14528e-01\tAbsError: 9.09009e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.14355e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72975e-04\tAbsError: 6.01372e-02\n", + " Region: \"zone_3\"\tRelError: 1.43195e+00\tAbsError: 2.98429e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37879e-01\tAbsError: 1.45713e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32394e-01\tAbsError: 1.52715e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.15050e-02\tAbsError: 3.07641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72975e-04\tAbsError: 6.01372e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.60486e-01\tAbsError: 5.15725e+12\n", + " Region: \"zone_1\"\tRelError: 1.67222e-01\tAbsError: 1.31684e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.67215e-01\tAbsError: 1.05212e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.61512e-06\tAbsError: 2.64715e-03\n", + " Region: \"zone_3\"\tRelError: 2.93264e-01\tAbsError: 5.15725e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.16225e-01\tAbsError: 2.60346e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.61655e-02\tAbsError: 2.55379e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.08654e-02\tAbsError: 1.05213e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.61791e-06\tAbsError: 2.64812e-03\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 2.15768e-03\tAbsError: 5.43505e+11\n", + " Region: \"zone_1\"\tRelError: 1.21686e-03\tAbsError: 1.55236e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21682e-03\tAbsError: 2.14847e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.44066e-08\tAbsError: 1.55021e-05\n", + " Region: \"zone_3\"\tRelError: 9.40815e-04\tAbsError: 5.43505e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.76219e-07\tAbsError: 2.70992e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.20806e-06\tAbsError: 2.72513e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 9.38587e-04\tAbsError: 2.16821e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.44232e-08\tAbsError: 1.55082e-05\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 4.15724e-04\tAbsError: 5.32265e+10\n", + " Region: \"zone_1\"\tRelError: 3.96435e-04\tAbsError: 1.89996e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.96429e-04\tAbsError: 2.15435e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.44595e-09\tAbsError: 1.89780e-06\n", + " Region: \"zone_3\"\tRelError: 1.92895e-05\tAbsError: 5.32265e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.13529e-08\tAbsError: 2.65160e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.13912e-07\tAbsError: 2.67106e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.90888e-05\tAbsError: 2.17574e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.44817e-09\tAbsError: 1.89863e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.04599e+00\tAbsError: 3.86288e+13\n", + " Region: \"zone_1\"\tRelError: 9.93304e-02\tAbsError: 3.04736e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.93171e-02\tAbsError: 2.58731e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32324e-05\tAbsError: 4.60051e-03\n", + " Region: \"zone_3\"\tRelError: 9.46663e-01\tAbsError: 3.86288e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39748e-01\tAbsError: 2.78668e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.98990e-01\tAbsError: 1.07620e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07912e-01\tAbsError: 2.56750e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32324e-05\tAbsError: 4.60051e-03\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 4.06154e-04\tAbsError: 8.98688e+10\n", + " Region: \"zone_1\"\tRelError: 2.29538e-04\tAbsError: 5.19148e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29523e-04\tAbsError: 4.04707e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.48597e-08\tAbsError: 5.18744e-06\n", + " Region: \"zone_3\"\tRelError: 1.76616e-04\tAbsError: 8.98688e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.93792e-07\tAbsError: 4.48232e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.56876e-07\tAbsError: 4.50456e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.76151e-04\tAbsError: 4.08333e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.48652e-08\tAbsError: 5.18949e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.45727e-01\tAbsError: 2.22309e+12\n", + " Region: \"zone_1\"\tRelError: 7.29546e-02\tAbsError: 2.31873e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.29479e-02\tAbsError: 2.32615e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.67039e-06\tAbsError: 2.31641e-03\n", + " Region: \"zone_3\"\tRelError: 7.27727e-02\tAbsError: 2.22309e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.51626e-02\tAbsError: 1.48882e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.60331e-04\tAbsError: 7.34269e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 7.34309e-03\tAbsError: 2.39748e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.67039e-06\tAbsError: 2.31641e-03\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 9.37854e-05\tAbsError: 1.13966e+10\n", + " Region: \"zone_1\"\tRelError: 8.94375e-05\tAbsError: 5.57086e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 8.94359e-05\tAbsError: 4.85882e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59721e-09\tAbsError: 5.56600e-07\n", + " Region: \"zone_3\"\tRelError: 4.34795e-06\tAbsError: 1.13966e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.91086e-08\tAbsError: 5.67760e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.74403e-08\tAbsError: 5.71899e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 4.29981e-06\tAbsError: 4.90653e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59787e-09\tAbsError: 5.56840e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:10\u001b[0m.\u001b[1;36m411\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: 1.15\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 1.29151e-04\tAbsError: 2.98537e+10\n", + " Region: \"zone_1\"\tRelError: 7.29015e-05\tAbsError: 1.04164e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 7.28985e-05\tAbsError: 1.28800e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.98013e-09\tAbsError: 1.04035e-06\n", + " Region: \"zone_3\"\tRelError: 5.62494e-05\tAbsError: 2.98537e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.28726e-08\tAbsError: 1.48916e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.37179e-08\tAbsError: 1.49620e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.61198e-05\tAbsError: 1.29987e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.98133e-09\tAbsError: 1.04079e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.81931e-01\tAbsError: 3.51179e+12\n", + " Region: \"zone_1\"\tRelError: 1.43962e-02\tAbsError: 1.26243e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43862e-02\tAbsError: 9.16567e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.94812e-06\tAbsError: 3.45863e-03\n", + " Region: \"zone_3\"\tRelError: 2.67535e-01\tAbsError: 3.51179e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.10366e-01\tAbsError: 2.07273e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.20558e-02\tAbsError: 1.43906e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51028e-02\tAbsError: 9.16572e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.94812e-06\tAbsError: 3.45863e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.80600e-02\tAbsError: 1.14808e+12\n", + " Region: \"zone_1\"\tRelError: 1.61112e-02\tAbsError: 1.01064e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.61110e-02\tAbsError: 1.69201e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.85470e-07\tAbsError: 9.93716e-05\n", + " Region: \"zone_3\"\tRelError: 1.94877e-03\tAbsError: 1.14808e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.36949e-04\tAbsError: 3.13929e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.34019e-04\tAbsError: 8.34149e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.67751e-03\tAbsError: 1.69786e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.85602e-07\tAbsError: 9.94189e-05\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 2.67419e-05\tAbsError: 5.73187e+09\n", + " Region: \"zone_1\"\tRelError: 1.51156e-05\tAbsError: 3.11729e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51147e-05\tAbsError: 2.66783e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.92195e-10\tAbsError: 3.11462e-07\n", + " Region: \"zone_3\"\tRelError: 1.16262e-05\tAbsError: 5.73187e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.14918e-08\tAbsError: 2.85974e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.65087e-08\tAbsError: 2.87213e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15974e-05\tAbsError: 2.69180e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.92560e-10\tAbsError: 3.11596e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:11\u001b[0m.\u001b[1;36m894\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 1.2\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Iteration: 0\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 1.83034e+01\tAbsError: 2.49126e+18\n", + " Region: \"zone_1\"\tRelError: 7.60404e+00\tAbsError: 4.19624e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.60404e+00\tAbsError: 4.19623e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.70440e-10\tAbsError: 1.29093e-07\n", + " Region: \"zone_3\"\tRelError: 1.06993e+01\tAbsError: 2.49126e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.80717e-01\tAbsError: 1.24361e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.68985e-01\tAbsError: 1.24765e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 9.54962e+00\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.70590e-10\tAbsError: 1.29147e-07\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.22420e-02\tAbsError: 3.50277e+12\n", + " Region: \"zone_1\"\tRelError: 6.27962e-03\tAbsError: 2.19295e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.27335e-03\tAbsError: 1.50745e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.27080e-06\tAbsError: 2.17787e-03\n", + " Region: \"zone_3\"\tRelError: 6.59624e-02\tAbsError: 3.50277e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.67825e-02\tAbsError: 2.11766e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.14380e-04\tAbsError: 1.38511e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.55922e-03\tAbsError: 1.55695e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.27080e-06\tAbsError: 2.17787e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.91190e-03\tAbsError: 7.96289e+10\n", + " Region: \"zone_1\"\tRelError: 2.63465e-03\tAbsError: 6.91735e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.63445e-03\tAbsError: 4.71976e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.99045e-07\tAbsError: 6.91263e-05\n", + " Region: \"zone_3\"\tRelError: 2.77243e-04\tAbsError: 7.96289e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.57432e-06\tAbsError: 6.01559e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.39554e-06\tAbsError: 1.94730e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.66074e-04\tAbsError: 4.94439e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.99153e-07\tAbsError: 6.91621e-05\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.66836e+00\tAbsError: 5.26750e+17\n", + " Region: \"zone_1\"\tRelError: 5.40408e-01\tAbsError: 2.47466e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.33451e-01\tAbsError: 3.19514e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.95714e-03\tAbsError: 2.44271e+00\n", + " Region: \"zone_3\"\tRelError: 1.12795e+00\tAbsError: 5.26750e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.68024e-01\tAbsError: 2.63837e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.68166e-01\tAbsError: 2.62913e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 5.84807e-01\tAbsError: 3.19525e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.95799e-03\tAbsError: 2.44293e+00\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.61560e-03\tAbsError: 1.05154e+12\n", + " Region: \"zone_1\"\tRelError: 2.24369e-04\tAbsError: 1.45744e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.23954e-04\tAbsError: 1.49315e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14373e-07\tAbsError: 1.44251e-04\n", + " Region: \"zone_3\"\tRelError: 1.39123e-03\tAbsError: 1.05154e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46580e-04\tAbsError: 2.71204e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.31750e-04\tAbsError: 7.80335e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11248e-03\tAbsError: 1.49726e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14534e-07\tAbsError: 1.44309e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.10927e+00\tAbsError: 2.88051e+18\n", + " Region: \"zone_1\"\tRelError: 4.40935e+00\tAbsError: 4.29331e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.40935e+00\tAbsError: 4.29330e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.92687e-10\tAbsError: 6.72666e-08\n", + " Region: \"zone_3\"\tRelError: 2.69992e+00\tAbsError: 2.88051e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.57634e-01\tAbsError: 1.43872e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.49377e-01\tAbsError: 1.44179e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 1.59291e+00\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.92765e-10\tAbsError: 6.72951e-08\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.71121e-03\tAbsError: 6.42400e+10\n", + " Region: \"zone_1\"\tRelError: 1.54492e-03\tAbsError: 2.42438e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.54492e-03\tAbsError: 5.72492e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.79994e-09\tAbsError: 2.36713e-06\n", + " Region: \"zone_3\"\tRelError: 1.66287e-04\tAbsError: 6.42400e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.30507e-06\tAbsError: 2.63420e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.25914e-06\tAbsError: 3.78980e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55716e-04\tAbsError: 5.72919e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.80392e-09\tAbsError: 2.36856e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 5.19734e-01\tAbsError: 1.97992e+16\n", + " Region: \"zone_1\"\tRelError: 2.37038e-01\tAbsError: 2.07687e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 2.31212e-01\tAbsError: 2.58948e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.82632e-03\tAbsError: 2.05097e+00\n", + " Region: \"zone_3\"\tRelError: 2.82695e-01\tAbsError: 1.97992e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.49371e-02\tAbsError: 9.97403e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.96727e-02\tAbsError: 9.82517e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.12259e-01\tAbsError: 2.58980e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.82676e-03\tAbsError: 2.05114e+00\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.04484e-04\tAbsError: 1.25305e+11\n", + " Region: \"zone_1\"\tRelError: 1.66225e-04\tAbsError: 5.88372e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66056e-04\tAbsError: 7.31641e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69190e-07\tAbsError: 5.87641e-05\n", + " Region: \"zone_3\"\tRelError: 4.38259e-04\tAbsError: 1.25305e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07349e-05\tAbsError: 8.57569e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.06394e-05\tAbsError: 3.95479e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.16715e-04\tAbsError: 7.69558e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69190e-07\tAbsError: 5.87641e-05\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.04733e+00\tAbsError: 5.25888e+17\n", + " Region: \"zone_1\"\tRelError: 2.75293e-01\tAbsError: 3.17385e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 2.66393e-01\tAbsError: 3.30987e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.89983e-03\tAbsError: 3.14075e+00\n", + " Region: \"zone_3\"\tRelError: 7.72042e-01\tAbsError: 5.25888e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.54638e-01\tAbsError: 2.63307e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.49625e-01\tAbsError: 2.62581e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 2.58877e-01\tAbsError: 3.31000e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.90099e-03\tAbsError: 3.14105e+00\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.98365e-05\tAbsError: 1.74812e+09\n", + " Region: \"zone_1\"\tRelError: 2.67203e-05\tAbsError: 3.71573e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.67096e-05\tAbsError: 8.84078e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06872e-08\tAbsError: 3.71484e-06\n", + " Region: \"zone_3\"\tRelError: 3.11622e-06\tAbsError: 1.74812e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.51296e-07\tAbsError: 1.52564e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.22090e-07\tAbsError: 2.22487e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 2.83214e-06\tAbsError: 9.16942e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06883e-08\tAbsError: 3.71526e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:15\u001b[0m.\u001b[1;36m058\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:15\u001b[0m.\u001b[1;36m058\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.4136363636363636\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.52761e-01\tAbsError: 2.62797e+16\n", + " Region: \"zone_1\"\tRelError: 9.76584e-02\tAbsError: 3.86718e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 8.68408e-02\tAbsError: 1.06597e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08176e-02\tAbsError: 3.85652e+00\n", + " Region: \"zone_3\"\tRelError: 1.55102e-01\tAbsError: 2.62797e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.12443e-02\tAbsError: 9.31974e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.14102e-03\tAbsError: 1.69599e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 8.68796e-02\tAbsError: 1.06615e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08372e-02\tAbsError: 3.86367e+00\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.49542e-04\tAbsError: 5.25658e+10\n", + " Region: \"zone_1\"\tRelError: 3.67449e-05\tAbsError: 6.09086e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.67275e-05\tAbsError: 4.65416e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73626e-08\tAbsError: 6.04431e-06\n", + " Region: \"zone_3\"\tRelError: 1.12797e-04\tAbsError: 5.25658e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.87848e-06\tAbsError: 1.95402e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.83780e-06\tAbsError: 3.30256e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03063e-04\tAbsError: 4.67695e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73703e-08\tAbsError: 6.04716e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 3.89417e-01\tAbsError: 2.54221e+16\n", + " Region: \"zone_1\"\tRelError: 1.69711e-01\tAbsError: 4.10046e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.58247e-01\tAbsError: 2.58978e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.14640e-02\tAbsError: 4.07456e+00\n", + " Region: \"zone_3\"\tRelError: 2.19706e-01\tAbsError: 2.54221e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73312e-02\tAbsError: 1.26603e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.56527e-02\tAbsError: 1.27618e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35257e-01\tAbsError: 2.58670e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.14658e-02\tAbsError: 4.07523e+00\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.07616e+01\tAbsError: 8.63834e+15\n", + " Region: \"zone_1\"\tRelError: 9.09370e+00\tAbsError: 4.18730e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.09370e+00\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.46502e-10\tAbsError: 1.55345e-07\n", + " Region: \"zone_3\"\tRelError: 1.66793e+00\tAbsError: 8.63834e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77440e-01\tAbsError: 5.07199e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.77420e-01\tAbsError: 3.56635e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13066e-01\tAbsError: 4.18729e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.46671e-10\tAbsError: 1.55403e-07\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 4.09087e-01\tAbsError: 3.99201e+16\n", + " Region: \"zone_1\"\tRelError: 1.13300e-01\tAbsError: 4.80576e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 9.96392e-02\tAbsError: 1.27897e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36607e-02\tAbsError: 4.80448e+00\n", + " Region: \"zone_3\"\tRelError: 2.95787e-01\tAbsError: 3.99201e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.36733e-01\tAbsError: 1.96602e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.22422e-02\tAbsError: 2.02599e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13131e-01\tAbsError: 1.28517e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36804e-02\tAbsError: 4.81150e+00\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.34616e-05\tAbsError: 4.93077e+09\n", + " Region: \"zone_1\"\tRelError: 6.39653e-06\tAbsError: 2.70521e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.38875e-06\tAbsError: 2.92925e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.78050e-09\tAbsError: 2.70228e-06\n", + " Region: \"zone_3\"\tRelError: 1.70651e-05\tAbsError: 4.93077e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.08407e-07\tAbsError: 3.64057e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.02769e-07\tAbsError: 1.29020e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.62461e-05\tAbsError: 3.07627e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.78090e-09\tAbsError: 2.70245e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.31509e-01\tAbsError: 6.53670e+16\n", + " Region: \"zone_1\"\tRelError: 7.81600e-02\tAbsError: 2.54224e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 7.09907e-02\tAbsError: 1.22635e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.16926e-03\tAbsError: 2.52998e+00\n", + " Region: \"zone_3\"\tRelError: 1.53349e-01\tAbsError: 6.53670e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.15979e-02\tAbsError: 3.23947e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.35663e-02\tAbsError: 3.29723e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 7.10136e-02\tAbsError: 1.22654e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.17081e-03\tAbsError: 2.53053e+00\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:17\u001b[0m.\u001b[1;36m293\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.3\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.69633e+00\tAbsError: 3.30694e+14\n", + " Region: \"zone_1\"\tRelError: 2.04130e-01\tAbsError: 8.38465e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03981e-01\tAbsError: 3.18465e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.49617e-04\tAbsError: 5.20000e-02\n", + " Region: \"zone_3\"\tRelError: 1.49220e+00\tAbsError: 3.30694e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.53231e-01\tAbsError: 2.41427e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.46012e-01\tAbsError: 8.92668e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.28037e-02\tAbsError: 3.18468e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.49617e-04\tAbsError: 5.20000e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.98801e-01\tAbsError: 3.32657e+16\n", + " Region: \"zone_1\"\tRelError: 1.02828e-01\tAbsError: 2.82782e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02028e-01\tAbsError: 1.18619e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.00031e-04\tAbsError: 2.81596e-01\n", + " Region: \"zone_3\"\tRelError: 1.95973e-01\tAbsError: 3.32657e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.03301e-02\tAbsError: 1.63093e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.05065e-02\tAbsError: 1.69564e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14336e-01\tAbsError: 1.19290e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.00341e-04\tAbsError: 2.81704e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.06521e-01\tAbsError: 5.25690e+16\n", + " Region: \"zone_1\"\tRelError: 2.96156e-02\tAbsError: 2.10225e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 2.36714e-02\tAbsError: 4.41949e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.94425e-03\tAbsError: 2.10181e+00\n", + " Region: \"zone_3\"\tRelError: 7.69054e-02\tAbsError: 5.25690e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.50907e-02\tAbsError: 2.61546e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.12925e-02\tAbsError: 2.64144e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.45709e-02\tAbsError: 4.42076e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.95136e-03\tAbsError: 2.10432e+00\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 9.54016e+00\tAbsError: 8.28773e+15\n", + " Region: \"zone_1\"\tRelError: 7.90066e+00\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.90066e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.70846e-10\tAbsError: 1.98729e-07\n", + " Region: \"zone_3\"\tRelError: 1.63951e+00\tAbsError: 8.28773e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69626e-01\tAbsError: 4.72857e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69607e-01\tAbsError: 3.55916e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00272e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.71110e-10\tAbsError: 1.98825e-07\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.08628e+00\tAbsError: 7.45591e+13\n", + " Region: \"zone_1\"\tRelError: 7.71598e-02\tAbsError: 3.28695e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.71397e-02\tAbsError: 2.58833e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.01007e-05\tAbsError: 6.98622e-03\n", + " Region: \"zone_3\"\tRelError: 1.00912e+00\tAbsError: 7.45591e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.62470e-01\tAbsError: 4.45904e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.40211e-01\tAbsError: 2.99687e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06420e-01\tAbsError: 2.58870e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.01007e-05\tAbsError: 6.98622e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.96187e-02\tAbsError: 1.75053e+15\n", + " Region: \"zone_1\"\tRelError: 1.42724e-02\tAbsError: 1.45028e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.38595e-02\tAbsError: 8.94746e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.12887e-04\tAbsError: 1.44939e-01\n", + " Region: \"zone_3\"\tRelError: 2.53464e-02\tAbsError: 1.75053e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.74622e-03\tAbsError: 8.55545e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.60907e-03\tAbsError: 8.94984e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55782e-02\tAbsError: 8.99214e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.12890e-04\tAbsError: 1.44947e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.05243e-02\tAbsError: 1.71928e+16\n", + " Region: \"zone_1\"\tRelError: 1.39003e-02\tAbsError: 9.75908e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.36257e-02\tAbsError: 4.95045e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.74527e-04\tAbsError: 9.70958e-02\n", + " Region: \"zone_3\"\tRelError: 4.66240e-02\tAbsError: 1.71928e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.43183e-02\tAbsError: 8.46411e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.92900e-03\tAbsError: 8.72870e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.41020e-02\tAbsError: 4.97560e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.74643e-04\tAbsError: 9.71365e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.57084e+00\tAbsError: 2.89575e+14\n", + " Region: \"zone_1\"\tRelError: 1.26543e-01\tAbsError: 8.72430e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.26381e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62480e-04\tAbsError: 5.64794e-02\n", + " Region: \"zone_3\"\tRelError: 1.44430e+00\tAbsError: 2.89575e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37983e-01\tAbsError: 1.66847e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32917e-01\tAbsError: 1.22728e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.32359e-02\tAbsError: 3.07641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62480e-04\tAbsError: 5.64794e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.37573e-01\tAbsError: 2.62583e+13\n", + " Region: \"zone_1\"\tRelError: 2.66856e-02\tAbsError: 1.29341e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.66787e-02\tAbsError: 1.05212e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.94244e-06\tAbsError: 2.41284e-03\n", + " Region: \"zone_3\"\tRelError: 3.10887e-01\tAbsError: 2.62583e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.14741e-01\tAbsError: 1.27736e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.92334e-02\tAbsError: 1.34847e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.69065e-02\tAbsError: 1.05213e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.94691e-06\tAbsError: 2.41446e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.84579e-02\tAbsError: 9.27268e+14\n", + " Region: \"zone_1\"\tRelError: 7.06495e-03\tAbsError: 1.50817e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.02210e-03\tAbsError: 4.11553e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.28501e-05\tAbsError: 1.50405e-02\n", + " Region: \"zone_3\"\tRelError: 1.13930e-02\tAbsError: 9.27268e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.00214e-03\tAbsError: 4.61804e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.45972e-03\tAbsError: 4.65464e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.88825e-03\tAbsError: 4.13778e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.28501e-05\tAbsError: 1.50405e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 5.11179e-03\tAbsError: 7.70441e+14\n", + " Region: \"zone_1\"\tRelError: 1.35889e-03\tAbsError: 5.45003e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20454e-03\tAbsError: 2.78425e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54352e-04\tAbsError: 5.44725e-02\n", + " Region: \"zone_3\"\tRelError: 3.75290e-03\tAbsError: 7.70441e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.99204e-03\tAbsError: 3.85016e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.80199e-04\tAbsError: 3.85425e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.26308e-04\tAbsError: 2.79655e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54352e-04\tAbsError: 5.44725e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.08933e+00\tAbsError: 3.08258e+13\n", + " Region: \"zone_1\"\tRelError: 1.39766e-01\tAbsError: 3.14532e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39750e-01\tAbsError: 2.58726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60540e-05\tAbsError: 5.58058e-03\n", + " Region: \"zone_3\"\tRelError: 9.49568e-01\tAbsError: 3.08258e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40223e-01\tAbsError: 2.27975e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.01508e-01\tAbsError: 8.02831e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07820e-01\tAbsError: 2.58966e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60540e-05\tAbsError: 5.58058e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.61545e-02\tAbsError: 3.83266e+12\n", + " Region: \"zone_1\"\tRelError: 2.81411e-03\tAbsError: 1.78747e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.80904e-03\tAbsError: 2.72818e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.06913e-06\tAbsError: 1.76019e-03\n", + " Region: \"zone_3\"\tRelError: 7.33404e-02\tAbsError: 3.83266e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.46251e-02\tAbsError: 2.27967e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.36878e-03\tAbsError: 1.55299e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.34146e-03\tAbsError: 2.95939e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.06913e-06\tAbsError: 1.76019e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.71738e-03\tAbsError: 1.07667e+14\n", + " Region: \"zone_1\"\tRelError: 1.03630e-03\tAbsError: 5.76985e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01984e-03\tAbsError: 4.42848e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.64621e-05\tAbsError: 5.76542e-03\n", + " Region: \"zone_3\"\tRelError: 1.68108e-03\tAbsError: 1.07667e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.64362e-04\tAbsError: 5.32517e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.53711e-04\tAbsError: 5.44154e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14654e-03\tAbsError: 4.45105e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.64621e-05\tAbsError: 5.76542e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.81043e-03\tAbsError: 4.89759e+14\n", + " Region: \"zone_1\"\tRelError: 7.77711e-04\tAbsError: 4.18472e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.65896e-04\tAbsError: 1.51951e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18145e-05\tAbsError: 4.16952e-03\n", + " Region: \"zone_3\"\tRelError: 2.03272e-03\tAbsError: 4.89759e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.36181e-04\tAbsError: 2.42285e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.91630e-04\tAbsError: 2.47473e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.93091e-04\tAbsError: 1.52676e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18155e-05\tAbsError: 4.16958e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.94758e-01\tAbsError: 4.98642e+12\n", + " Region: \"zone_1\"\tRelError: 2.19383e-02\tAbsError: 1.22221e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.19295e-02\tAbsError: 9.16564e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.79291e-06\tAbsError: 3.05651e-03\n", + " Region: \"zone_3\"\tRelError: 2.72820e-01\tAbsError: 4.98642e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12699e-01\tAbsError: 2.77867e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.23181e-02\tAbsError: 2.20775e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77940e-02\tAbsError: 9.16568e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.79389e-06\tAbsError: 3.05683e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.17479e-03\tAbsError: 8.38513e+11\n", + " Region: \"zone_1\"\tRelError: 9.80301e-05\tAbsError: 1.13249e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.77084e-05\tAbsError: 1.25766e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.21759e-07\tAbsError: 1.11992e-04\n", + " Region: \"zone_3\"\tRelError: 1.07676e-03\tAbsError: 8.38513e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.06684e-04\tAbsError: 2.03880e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.34123e-05\tAbsError: 6.34633e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 8.86344e-04\tAbsError: 1.26205e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.21884e-07\tAbsError: 1.12037e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 9.60517e-04\tAbsError: 3.70140e+13\n", + " Region: \"zone_1\"\tRelError: 3.79391e-04\tAbsError: 8.82747e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.76874e-04\tAbsError: 1.49370e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.51627e-06\tAbsError: 8.81253e-04\n", + " Region: \"zone_3\"\tRelError: 5.81126e-04\tAbsError: 3.70140e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.42292e-05\tAbsError: 1.82854e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.05886e-05\tAbsError: 1.87285e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.23791e-04\tAbsError: 1.50155e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.51686e-06\tAbsError: 8.81464e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.90949e-04\tAbsError: 4.62352e+13\n", + " Region: \"zone_1\"\tRelError: 7.67261e-05\tAbsError: 1.67089e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.19872e-05\tAbsError: 1.28358e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73887e-06\tAbsError: 1.66960e-03\n", + " Region: \"zone_3\"\tRelError: 2.14223e-04\tAbsError: 4.62352e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.49627e-05\tAbsError: 2.29665e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.00098e-05\tAbsError: 2.32687e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.45113e-05\tAbsError: 1.28948e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73889e-06\tAbsError: 1.66962e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.73338e-02\tAbsError: 3.09182e+12\n", + " Region: \"zone_1\"\tRelError: 1.11598e-02\tAbsError: 1.65988e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11551e-02\tAbsError: 1.42279e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73882e-06\tAbsError: 1.64565e-03\n", + " Region: \"zone_3\"\tRelError: 6.61739e-02\tAbsError: 3.09182e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.71921e-02\tAbsError: 1.98622e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.49402e-04\tAbsError: 1.10560e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.42774e-03\tAbsError: 1.50865e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73882e-06\tAbsError: 1.64565e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.11158e-04\tAbsError: 9.57185e+10\n", + " Region: \"zone_1\"\tRelError: 4.17863e-05\tAbsError: 4.74842e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.16497e-05\tAbsError: 6.09462e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36564e-07\tAbsError: 4.74233e-05\n", + " Region: \"zone_3\"\tRelError: 3.69372e-04\tAbsError: 9.57185e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.25911e-06\tAbsError: 6.70220e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.19571e-06\tAbsError: 2.86965e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.56780e-04\tAbsError: 6.36408e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36564e-07\tAbsError: 4.74233e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.64548e-04\tAbsError: 6.13730e+12\n", + " Region: \"zone_1\"\tRelError: 6.45712e-05\tAbsError: 2.85998e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.37552e-05\tAbsError: 2.31313e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.15960e-07\tAbsError: 2.85767e-04\n", + " Region: \"zone_3\"\tRelError: 9.99767e-05\tAbsError: 6.13730e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.20916e-05\tAbsError: 3.04900e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.53543e-05\tAbsError: 3.08830e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.17148e-05\tAbsError: 2.33098e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.16042e-07\tAbsError: 2.85798e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.09161e-04\tAbsError: 1.86881e+13\n", + " Region: \"zone_1\"\tRelError: 3.26597e-05\tAbsError: 1.87205e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.21288e-05\tAbsError: 4.35351e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.30847e-07\tAbsError: 1.86769e-04\n", + " Region: \"zone_3\"\tRelError: 7.65013e-05\tAbsError: 1.86881e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07377e-05\tAbsError: 9.31169e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.19499e-05\tAbsError: 9.37639e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.32829e-05\tAbsError: 4.37180e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.30847e-07\tAbsError: 1.86769e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.35940e-03\tAbsError: 7.91644e+11\n", + " Region: \"zone_1\"\tRelError: 6.17001e-04\tAbsError: 1.42075e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.16596e-04\tAbsError: 1.18665e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.04748e-07\tAbsError: 1.40888e-04\n", + " Region: \"zone_3\"\tRelError: 7.42401e-04\tAbsError: 7.91644e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.00211e-04\tAbsError: 1.88344e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.60094e-05\tAbsError: 6.03301e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.55776e-04\tAbsError: 1.18974e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.04912e-07\tAbsError: 1.40947e-04\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 4.97822e-05\tAbsError: 1.78863e+12\n", + " Region: \"zone_1\"\tRelError: 1.99209e-05\tAbsError: 5.22253e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.97720e-05\tAbsError: 7.17372e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.48921e-07\tAbsError: 5.21536e-05\n", + " Region: \"zone_3\"\tRelError: 2.98612e-05\tAbsError: 1.78863e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.14705e-06\tAbsError: 8.88308e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.32143e-06\tAbsError: 9.00324e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.22438e-05\tAbsError: 7.23110e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.48977e-07\tAbsError: 5.21742e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.05534e-04\tAbsError: 4.21784e+10\n", + " Region: \"zone_1\"\tRelError: 1.03068e-05\tAbsError: 4.66453e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02935e-05\tAbsError: 3.88153e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32897e-08\tAbsError: 4.62572e-06\n", + " Region: \"zone_3\"\tRelError: 9.52277e-05\tAbsError: 4.21784e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.05233e-06\tAbsError: 1.53249e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.02568e-06\tAbsError: 2.68535e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 8.91364e-05\tAbsError: 3.88184e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32960e-08\tAbsError: 4.62800e-06\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.45996e-05\tAbsError: 2.40000e+12\n", + " Region: \"zone_1\"\tRelError: 4.26432e-06\tAbsError: 6.51115e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.07939e-06\tAbsError: 4.99211e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84928e-07\tAbsError: 6.50615e-05\n", + " Region: \"zone_3\"\tRelError: 1.03352e-05\tAbsError: 2.40000e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.62973e-06\tAbsError: 1.19621e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.29508e-06\tAbsError: 1.20379e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.22543e-06\tAbsError: 5.01223e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84982e-07\tAbsError: 6.50814e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.02141e-03\tAbsError: 1.23957e+11\n", + " Region: \"zone_1\"\tRelError: 5.52143e-04\tAbsError: 4.11028e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.52024e-04\tAbsError: 7.43261e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18138e-07\tAbsError: 4.10285e-05\n", + " Region: \"zone_3\"\tRelError: 4.69263e-04\tAbsError: 1.23957e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.58109e-06\tAbsError: 8.33431e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.49437e-06\tAbsError: 4.06143e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.50070e-04\tAbsError: 7.83274e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18138e-07\tAbsError: 4.10285e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.56608e-05\tAbsError: 3.69526e+09\n", + " Region: \"zone_1\"\tRelError: 1.59073e-06\tAbsError: 2.18297e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.58445e-06\tAbsError: 2.39172e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.27962e-09\tAbsError: 2.18058e-06\n", + " Region: \"zone_3\"\tRelError: 1.40700e-05\tAbsError: 3.69526e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.31303e-07\tAbsError: 2.80779e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.27370e-07\tAbsError: 8.87479e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 1.36051e-05\tAbsError: 2.49316e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.28025e-09\tAbsError: 2.18083e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:26\u001b[0m.\u001b[1;36m725\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:26\u001b[0m.\u001b[1;36m725\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5181818181818182\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:27\u001b[0m.\u001b[1;36m529\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.30911e-04\tAbsError: 3.51442e+10\n", + " Region: \"zone_1\"\tRelError: 6.81885e-05\tAbsError: 6.92614e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.81687e-05\tAbsError: 3.42472e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.97989e-08\tAbsError: 6.89189e-06\n", + " Region: \"zone_3\"\tRelError: 6.27220e-05\tAbsError: 3.51442e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91737e-06\tAbsError: 1.11617e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.89123e-06\tAbsError: 2.39825e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.68936e-05\tAbsError: 3.42673e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.98072e-08\tAbsError: 6.89488e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:28\u001b[0m.\u001b[1;36m182\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 8.27541e+00\tAbsError: 8.60418e+15\n", + " Region: \"zone_1\"\tRelError: 6.58364e+00\tAbsError: 4.18730e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.58364e+00\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.17406e-10\tAbsError: 1.45288e-07\n", + " Region: \"zone_3\"\tRelError: 1.69177e+00\tAbsError: 8.60418e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77453e-01\tAbsError: 5.04627e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.77410e-01\tAbsError: 3.55791e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.36912e-01\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.17616e-10\tAbsError: 1.45364e-07\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 4.91977e-05\tAbsError: 5.89586e+09\n", + " Region: \"zone_1\"\tRelError: 2.66095e-05\tAbsError: 1.68142e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.66047e-05\tAbsError: 3.56714e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.83123e-09\tAbsError: 1.67785e-06\n", + " Region: \"zone_3\"\tRelError: 2.25882e-05\tAbsError: 5.89586e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.48785e-07\tAbsError: 4.10020e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.43251e-07\tAbsError: 1.79565e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.16913e-05\tAbsError: 3.75397e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.83123e-09\tAbsError: 1.67785e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:28\u001b[0m.\u001b[1;36m716\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.4\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.83363e+00\tAbsError: 8.77764e+14\n", + " Region: \"zone_1\"\tRelError: 3.25771e-01\tAbsError: 7.35950e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.25651e-01\tAbsError: 3.18464e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20135e-04\tAbsError: 4.17486e-02\n", + " Region: \"zone_3\"\tRelError: 1.50785e+00\tAbsError: 8.77764e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.54712e-01\tAbsError: 5.12926e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.40765e-01\tAbsError: 3.64838e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12257e-01\tAbsError: 3.18466e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20135e-04\tAbsError: 4.17486e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 8.62552e+00\tAbsError: 8.26510e+15\n", + " Region: \"zone_1\"\tRelError: 6.97719e+00\tAbsError: 4.09546e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.97719e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.33437e-10\tAbsError: 3.24924e-07\n", + " Region: \"zone_3\"\tRelError: 1.64833e+00\tAbsError: 8.26510e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69652e-01\tAbsError: 4.84454e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69632e-01\tAbsError: 3.42056e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09044e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.33825e-10\tAbsError: 3.25065e-07\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.23424e+00\tAbsError: 4.42838e+14\n", + " Region: \"zone_1\"\tRelError: 2.36025e-01\tAbsError: 3.39690e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.36002e-01\tAbsError: 2.58732e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.32959e-05\tAbsError: 8.09586e-03\n", + " Region: \"zone_3\"\tRelError: 9.98217e-01\tAbsError: 4.42838e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.64238e-01\tAbsError: 2.16900e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.32347e-01\tAbsError: 2.25938e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01608e-01\tAbsError: 2.58503e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.32959e-05\tAbsError: 8.09586e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.56210e+00\tAbsError: 2.88655e+14\n", + " Region: \"zone_1\"\tRelError: 1.01850e-01\tAbsError: 8.11752e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01705e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.45044e-04\tAbsError: 5.04116e-02\n", + " Region: \"zone_3\"\tRelError: 1.46025e+00\tAbsError: 2.88655e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39145e-01\tAbsError: 2.10222e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.31918e-01\tAbsError: 7.84329e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.90395e-02\tAbsError: 3.07640e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.45044e-04\tAbsError: 5.04116e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.75475e-01\tAbsError: 1.99867e+14\n", + " Region: \"zone_1\"\tRelError: 3.34759e-02\tAbsError: 1.58921e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.34604e-02\tAbsError: 1.05212e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54730e-05\tAbsError: 5.37087e-03\n", + " Region: \"zone_3\"\tRelError: 3.41999e-01\tAbsError: 1.99867e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12024e-01\tAbsError: 8.98614e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.57822e-02\tAbsError: 1.10005e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.41777e-02\tAbsError: 1.05213e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54821e-05\tAbsError: 5.37408e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.02466e+00\tAbsError: 6.04267e+13\n", + " Region: \"zone_1\"\tRelError: 7.18592e-02\tAbsError: 3.22577e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.18409e-02\tAbsError: 2.58878e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83272e-05\tAbsError: 6.36990e-03\n", + " Region: \"zone_3\"\tRelError: 9.52804e-01\tAbsError: 6.04267e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40508e-01\tAbsError: 3.80417e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.10167e-01\tAbsError: 2.23851e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02110e-01\tAbsError: 2.58991e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83272e-05\tAbsError: 6.36990e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.33968e-02\tAbsError: 3.34257e+13\n", + " Region: \"zone_1\"\tRelError: 1.43902e-02\tAbsError: 3.37019e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43809e-02\tAbsError: 1.48707e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.27817e-06\tAbsError: 3.22148e-03\n", + " Region: \"zone_3\"\tRelError: 7.90066e-02\tAbsError: 3.34257e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.13103e-02\tAbsError: 1.91554e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.18326e-03\tAbsError: 1.42703e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15037e-02\tAbsError: 1.58044e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.27817e-06\tAbsError: 3.22148e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.07050e-01\tAbsError: 1.83634e+13\n", + " Region: \"zone_1\"\tRelError: 2.24108e-02\tAbsError: 1.12606e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.24048e-02\tAbsError: 9.16557e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.02744e-06\tAbsError: 2.09499e-03\n", + " Region: \"zone_3\"\tRelError: 2.84640e-01\tAbsError: 1.83634e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.09245e-01\tAbsError: 8.86934e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.28005e-02\tAbsError: 9.49405e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.25878e-02\tAbsError: 9.16561e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.02994e-06\tAbsError: 2.09586e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.63934e-03\tAbsError: 1.49207e+12\n", + " Region: \"zone_1\"\tRelError: 6.19467e-04\tAbsError: 2.24642e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.18826e-04\tAbsError: 1.84309e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.41085e-07\tAbsError: 2.22799e-04\n", + " Region: \"zone_3\"\tRelError: 3.01987e-03\tAbsError: 1.49207e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.23665e-04\tAbsError: 4.38788e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.32776e-04\tAbsError: 1.05329e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.66279e-03\tAbsError: 1.84755e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.41085e-07\tAbsError: 2.22799e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.39650e-02\tAbsError: 2.30731e+12\n", + " Region: \"zone_1\"\tRelError: 9.33244e-04\tAbsError: 2.05118e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 9.27371e-04\tAbsError: 1.17101e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.87337e-06\tAbsError: 2.03947e-03\n", + " Region: \"zone_3\"\tRelError: 6.30318e-02\tAbsError: 2.30731e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.63237e-02\tAbsError: 1.57438e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.61914e-04\tAbsError: 7.32926e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 6.34034e-03\tAbsError: 1.22701e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.87337e-06\tAbsError: 2.03947e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 8.04014e-04\tAbsError: 1.78082e+11\n", + " Region: \"zone_1\"\tRelError: 1.64236e-04\tAbsError: 8.99450e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.63978e-04\tAbsError: 1.15245e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.58711e-07\tAbsError: 8.98298e-05\n", + " Region: \"zone_3\"\tRelError: 6.39777e-04\tAbsError: 1.78082e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07882e-05\tAbsError: 1.17921e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.06608e-05\tAbsError: 6.01615e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 6.18070e-04\tAbsError: 1.20248e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.58802e-07\tAbsError: 8.98625e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.79721e-03\tAbsError: 9.76589e+11\n", + " Region: \"zone_1\"\tRelError: 1.82738e-04\tAbsError: 8.39323e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82502e-04\tAbsError: 1.48235e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36874e-07\tAbsError: 8.24499e-05\n", + " Region: \"zone_3\"\tRelError: 1.61447e-03\tAbsError: 9.76589e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10820e-04\tAbsError: 2.51654e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.02342e-04\tAbsError: 7.24935e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40107e-03\tAbsError: 1.48793e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36983e-07\tAbsError: 8.24891e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.88086e-04\tAbsError: 8.35552e+10\n", + " Region: \"zone_1\"\tRelError: 5.73074e-05\tAbsError: 7.74193e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.72853e-05\tAbsError: 5.99789e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.20722e-08\tAbsError: 7.68195e-06\n", + " Region: \"zone_3\"\tRelError: 2.30778e-04\tAbsError: 8.35552e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.19425e-06\tAbsError: 3.65804e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.15002e-06\tAbsError: 4.69748e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20412e-04\tAbsError: 6.12813e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.20814e-08\tAbsError: 7.68536e-06\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.68582e-04\tAbsError: 6.39514e+10\n", + " Region: \"zone_1\"\tRelError: 3.10151e-05\tAbsError: 5.94800e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.08440e-05\tAbsError: 4.08298e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71164e-07\tAbsError: 5.94392e-05\n", + " Region: \"zone_3\"\tRelError: 2.37567e-04\tAbsError: 6.39514e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16150e-06\tAbsError: 5.01904e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.80228e-06\tAbsError: 1.37610e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29432e-04\tAbsError: 4.25523e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71229e-07\tAbsError: 5.94601e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.80999e-05\tAbsError: 6.55525e+09\n", + " Region: \"zone_1\"\tRelError: 5.74155e-06\tAbsError: 4.57456e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.72840e-06\tAbsError: 4.04596e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.31523e-08\tAbsError: 4.57052e-06\n", + " Region: \"zone_3\"\tRelError: 2.23583e-05\tAbsError: 6.55525e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.58194e-07\tAbsError: 4.71867e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.45841e-07\tAbsError: 1.83658e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.16411e-05\tAbsError: 4.21062e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.31539e-08\tAbsError: 4.57114e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:36\u001b[0m.\u001b[1;36m356\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:36\u001b[0m.\u001b[1;36m356\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6227272727272727\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.61549e-04\tAbsError: 5.47840e+10\n", + " Region: \"zone_1\"\tRelError: 1.81900e-05\tAbsError: 1.93945e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.81846e-05\tAbsError: 4.89694e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.43105e-09\tAbsError: 1.89048e-06\n", + " Region: \"zone_3\"\tRelError: 1.43359e-04\tAbsError: 5.47840e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.04114e-06\tAbsError: 2.20323e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.00674e-06\tAbsError: 3.27517e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35306e-04\tAbsError: 4.90033e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.43421e-09\tAbsError: 1.89162e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.73597e+00\tAbsError: 8.78832e+15\n", + " Region: \"zone_1\"\tRelError: 4.00235e+00\tAbsError: 4.18730e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.00235e+00\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.45782e-10\tAbsError: 1.89960e-07\n", + " Region: \"zone_3\"\tRelError: 1.73361e+00\tAbsError: 8.78832e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77399e-01\tAbsError: 4.74842e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.77278e-01\tAbsError: 4.03990e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.78937e-01\tAbsError: 4.18729e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.46049e-10\tAbsError: 1.90057e-07\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.55715e-06\tAbsError: 1.55369e+09\n", + " Region: \"zone_1\"\tRelError: 2.75443e-07\tAbsError: 3.15707e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.66361e-07\tAbsError: 7.16801e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.08162e-09\tAbsError: 3.15635e-06\n", + " Region: \"zone_3\"\tRelError: 2.28171e-06\tAbsError: 1.55369e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01860e-07\tAbsError: 1.23171e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.92720e-08\tAbsError: 3.21980e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 2.10150e-06\tAbsError: 7.37244e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.08225e-09\tAbsError: 3.15662e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:38\u001b[0m.\u001b[1;36m102\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.5\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.94703e+00\tAbsError: 4.41099e+15\n", + " Region: \"zone_1\"\tRelError: 4.22002e-01\tAbsError: 6.98420e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.21892e-01\tAbsError: 3.18463e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.09347e-04\tAbsError: 3.79957e-02\n", + " Region: \"zone_3\"\tRelError: 1.52503e+00\tAbsError: 4.41099e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.53305e-01\tAbsError: 2.09959e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.26550e-01\tAbsError: 2.31140e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.45067e-01\tAbsError: 3.18463e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.09347e-04\tAbsError: 3.79957e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.44671e+02\tAbsError: 8.23352e+15\n", + " Region: \"zone_1\"\tRelError: 5.43003e+02\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.43003e+02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.11267e-10\tAbsError: 1.43080e-07\n", + " Region: \"zone_3\"\tRelError: 1.66763e+00\tAbsError: 8.23352e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.84587e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69628e-01\tAbsError: 3.38765e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28340e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.11422e-10\tAbsError: 1.43134e-07\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.13342e+00\tAbsError: 3.16052e+15\n", + " Region: \"zone_1\"\tRelError: 1.20914e-01\tAbsError: 3.06036e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20901e-01\tAbsError: 2.58438e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36978e-05\tAbsError: 4.75979e-03\n", + " Region: \"zone_3\"\tRelError: 1.01250e+00\tAbsError: 3.16052e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.67125e-01\tAbsError: 1.44537e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.15620e-01\tAbsError: 1.71514e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29744e-01\tAbsError: 2.58330e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36978e-05\tAbsError: 4.75979e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 4.93663e+00\tAbsError: 6.37428e+14\n", + " Region: \"zone_1\"\tRelError: 3.46019e+00\tAbsError: 7.21476e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.46007e+00\tAbsError: 3.07635e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", + " Region: \"zone_3\"\tRelError: 1.47644e+00\tAbsError: 6.37428e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.40577e-01\tAbsError: 3.72575e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.27797e-01\tAbsError: 2.64853e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07947e-01\tAbsError: 3.07638e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.87423e-01\tAbsError: 1.06489e+15\n", + " Region: \"zone_1\"\tRelError: 1.09495e-01\tAbsError: 3.11412e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09436e-01\tAbsError: 1.05215e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.93454e-05\tAbsError: 2.06197e-02\n", + " Region: \"zone_3\"\tRelError: 3.77927e-01\tAbsError: 1.06489e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07715e-01\tAbsError: 5.65159e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.28724e-01\tAbsError: 4.99726e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.14286e-02\tAbsError: 1.05216e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.93454e-05\tAbsError: 2.06197e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.95431e+00\tAbsError: 2.96317e+14\n", + " Region: \"zone_1\"\tRelError: 2.00902e+00\tAbsError: 3.34445e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.00900e+00\tAbsError: 2.58782e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", + " Region: \"zone_3\"\tRelError: 9.45295e-01\tAbsError: 2.96317e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42034e-01\tAbsError: 1.59420e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.10683e-01\tAbsError: 1.36896e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.25558e-02\tAbsError: 2.58843e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.07124e-01\tAbsError: 1.79033e+14\n", + " Region: \"zone_1\"\tRelError: 6.54489e-03\tAbsError: 2.11446e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.48449e-03\tAbsError: 1.76026e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.03999e-05\tAbsError: 2.09686e-02\n", + " Region: \"zone_3\"\tRelError: 1.00579e-01\tAbsError: 1.79033e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.05426e-02\tAbsError: 1.01224e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.72982e-03\tAbsError: 7.78084e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.12463e-02\tAbsError: 1.83300e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.03999e-05\tAbsError: 2.09686e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.90232e-01\tAbsError: 1.27257e+14\n", + " Region: \"zone_1\"\tRelError: 2.88169e-01\tAbsError: 1.34324e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88157e-01\tAbsError: 9.16559e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22923e-05\tAbsError: 4.26682e-03\n", + " Region: \"zone_3\"\tRelError: 3.02062e-01\tAbsError: 1.27257e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98145e-01\tAbsError: 5.59682e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.53461e-02\tAbsError: 7.12890e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.85587e-02\tAbsError: 9.16563e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22942e-05\tAbsError: 4.26755e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.37034e-02\tAbsError: 1.05074e+13\n", + " Region: \"zone_1\"\tRelError: 2.67000e-03\tAbsError: 2.16848e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.66940e-03\tAbsError: 9.03313e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.97153e-07\tAbsError: 2.07815e-04\n", + " Region: \"zone_3\"\tRelError: 3.10334e-02\tAbsError: 1.05074e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.29413e-04\tAbsError: 4.14886e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.45066e-04\tAbsError: 6.35852e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.94584e-02\tAbsError: 9.20156e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.97452e-07\tAbsError: 2.07924e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.81369e-01\tAbsError: 1.65118e+13\n", + " Region: \"zone_1\"\tRelError: 1.13683e-01\tAbsError: 2.48930e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13676e-01\tAbsError: 7.97182e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", + " Region: \"zone_3\"\tRelError: 6.76863e-02\tAbsError: 1.65118e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.50220e-02\tAbsError: 9.05581e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.84537e-03\tAbsError: 7.45604e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 9.81196e-03\tAbsError: 8.36703e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.09660e-04\tAbsError: 2.08695e+11\n", + " Region: \"zone_1\"\tRelError: 2.47254e-05\tAbsError: 6.86063e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.27511e-05\tAbsError: 1.43700e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.97427e-06\tAbsError: 6.85919e-04\n", + " Region: \"zone_3\"\tRelError: 2.84935e-04\tAbsError: 2.08695e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.17199e-05\tAbsError: 1.45019e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.68171e-06\tAbsError: 6.36760e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.66559e-04\tAbsError: 1.45320e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.97428e-06\tAbsError: 6.85933e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 7.11615e-03\tAbsError: 1.08851e+12\n", + " Region: \"zone_1\"\tRelError: 5.30759e-03\tAbsError: 1.67972e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.30711e-03\tAbsError: 1.45981e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", + " Region: \"zone_3\"\tRelError: 1.80856e-03\tAbsError: 1.08851e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43945e-04\tAbsError: 2.92186e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.94756e-05\tAbsError: 7.96320e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.56466e-03\tAbsError: 1.47422e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.68055e-03\tAbsError: 6.61369e+11\n", + " Region: \"zone_1\"\tRelError: 2.19776e-04\tAbsError: 3.52770e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.19675e-04\tAbsError: 3.47259e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00615e-07\tAbsError: 3.49297e-05\n", + " Region: \"zone_3\"\tRelError: 2.46078e-03\tAbsError: 6.61369e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.38712e-05\tAbsError: 3.34135e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.37692e-05\tAbsError: 3.27234e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.39304e-03\tAbsError: 3.62329e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00635e-07\tAbsError: 3.49373e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.59900e-03\tAbsError: 1.40711e+11\n", + " Region: \"zone_1\"\tRelError: 2.06948e-03\tAbsError: 6.41578e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06929e-03\tAbsError: 9.09489e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84503e-07\tAbsError: 6.40668e-05\n", + " Region: \"zone_3\"\tRelError: 5.29527e-04\tAbsError: 1.40711e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.39801e-06\tAbsError: 9.47438e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.30618e-06\tAbsError: 4.59674e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.12638e-04\tAbsError: 9.48359e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84568e-07\tAbsError: 6.40878e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.17224e-04\tAbsError: 3.34541e+10\n", + " Region: \"zone_1\"\tRelError: 1.80302e-05\tAbsError: 4.24293e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.79082e-05\tAbsError: 2.16023e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22054e-07\tAbsError: 4.24077e-05\n", + " Region: \"zone_3\"\tRelError: 1.99194e-04\tAbsError: 3.34541e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95013e-06\tAbsError: 1.55599e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.97435e-06\tAbsError: 1.78942e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.95147e-04\tAbsError: 2.25328e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22102e-07\tAbsError: 4.24242e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 6.84757e-04\tAbsError: 5.79872e+10\n", + " Region: \"zone_1\"\tRelError: 5.39232e-04\tAbsError: 6.69464e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.39213e-04\tAbsError: 4.49143e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91058e-08\tAbsError: 6.64972e-06\n", + " Region: \"zone_3\"\tRelError: 1.45525e-04\tAbsError: 5.79872e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.71562e-06\tAbsError: 2.34463e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.68397e-06\tAbsError: 3.45410e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.38106e-04\tAbsError: 4.56915e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91137e-08\tAbsError: 6.65261e-06\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.92407e-04\tAbsError: 4.16681e+10\n", + " Region: \"zone_1\"\tRelError: 1.58767e-05\tAbsError: 4.74333e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.58631e-05\tAbsError: 1.99539e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.35944e-08\tAbsError: 4.72338e-06\n", + " Region: \"zone_3\"\tRelError: 1.76530e-04\tAbsError: 4.16681e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.06328e-06\tAbsError: 2.34690e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.05628e-06\tAbsError: 1.81991e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72397e-04\tAbsError: 2.11694e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.35985e-08\tAbsError: 4.72481e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.02364e-04\tAbsError: 5.62248e+09\n", + " Region: \"zone_1\"\tRelError: 8.15379e-05\tAbsError: 3.03368e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.15291e-05\tAbsError: 3.57289e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.71937e-09\tAbsError: 3.03011e-06\n", + " Region: \"zone_3\"\tRelError: 2.08260e-05\tAbsError: 5.62248e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.14319e-07\tAbsError: 4.05602e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.09034e-07\tAbsError: 1.56647e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.01939e-05\tAbsError: 3.71851e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.71944e-09\tAbsError: 3.03019e-06\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.66442e-05\tAbsError: 4.51828e+09\n", + " Region: \"zone_1\"\tRelError: 2.21134e-06\tAbsError: 2.88818e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20303e-06\tAbsError: 2.43029e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.30553e-09\tAbsError: 2.88575e-06\n", + " Region: \"zone_3\"\tRelError: 2.44328e-05\tAbsError: 4.51828e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.39512e-07\tAbsError: 2.57717e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.40681e-07\tAbsError: 1.94111e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.39443e-05\tAbsError: 2.56001e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.30706e-09\tAbsError: 2.88629e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:47\u001b[0m.\u001b[1;36m839\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:47\u001b[0m.\u001b[1;36m839\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7272727272727272\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.62671e-05\tAbsError: 3.10481e+09\n", + " Region: \"zone_1\"\tRelError: 3.66806e-05\tAbsError: 2.21724e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 3.66799e-05\tAbsError: 2.06476e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.31104e-10\tAbsError: 2.19659e-07\n", + " Region: \"zone_3\"\tRelError: 9.58659e-06\tAbsError: 3.10481e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88628e-07\tAbsError: 1.51763e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.86687e-07\tAbsError: 1.58718e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 9.21065e-06\tAbsError: 2.10348e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.31398e-10\tAbsError: 2.19764e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:48\u001b[0m.\u001b[1;36m517\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.6\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.28678e+01\tAbsError: 2.41720e+16\n", + " Region: \"zone_1\"\tRelError: 1.10745e+01\tAbsError: 4.18733e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10745e+01\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.35235e-09\tAbsError: 4.69873e-07\n", + " Region: \"zone_3\"\tRelError: 1.79337e+00\tAbsError: 2.41720e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.76842e-01\tAbsError: 1.21471e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.76445e-01\tAbsError: 1.20250e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.40077e-01\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.35254e-09\tAbsError: 4.69938e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.94073e+01\tAbsError: 8.32958e+15\n", + " Region: \"zone_1\"\tRelError: 1.77016e+01\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77016e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.06764e-10\tAbsError: 1.76108e-07\n", + " Region: \"zone_3\"\tRelError: 1.70569e+00\tAbsError: 8.32958e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69637e-01\tAbsError: 4.59097e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69532e-01\tAbsError: 3.73860e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66519e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.06930e-10\tAbsError: 1.76171e-07\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.81152e+00\tAbsError: 2.51170e+16\n", + " Region: \"zone_1\"\tRelError: 2.40084e-01\tAbsError: 1.36620e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.39783e-01\tAbsError: 3.18461e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.01653e-04\tAbsError: 1.04774e-01\n", + " Region: \"zone_3\"\tRelError: 1.57143e+00\tAbsError: 2.51170e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.50352e-01\tAbsError: 1.24519e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.16673e-01\tAbsError: 1.26651e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.04104e-01\tAbsError: 3.18461e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.01653e-04\tAbsError: 1.04774e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.07616e+01\tAbsError: 3.02291e+15\n", + " Region: \"zone_1\"\tRelError: 9.27113e+00\tAbsError: 6.52674e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.27103e+00\tAbsError: 3.07634e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.92954e-05\tAbsError: 3.45040e-02\n", + " Region: \"zone_3\"\tRelError: 1.49044e+00\tAbsError: 3.02291e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.40308e-01\tAbsError: 1.49698e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.14159e-01\tAbsError: 1.52592e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35875e-01\tAbsError: 3.07635e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.92954e-05\tAbsError: 3.45040e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.55235e+00\tAbsError: 1.60967e+16\n", + " Region: \"zone_1\"\tRelError: 3.10275e-01\tAbsError: 9.21671e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.10084e-01\tAbsError: 2.58591e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.90943e-04\tAbsError: 6.63081e-02\n", + " Region: \"zone_3\"\tRelError: 1.24207e+00\tAbsError: 1.60967e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.62478e-01\tAbsError: 7.99951e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.11305e-01\tAbsError: 8.09715e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 3.68101e-01\tAbsError: 2.52301e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.90943e-04\tAbsError: 6.63081e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.22732e+00\tAbsError: 2.06865e+15\n", + " Region: \"zone_1\"\tRelError: 2.78568e-01\tAbsError: 2.74627e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78563e-01\tAbsError: 2.58185e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73142e-06\tAbsError: 1.64416e-03\n", + " Region: \"zone_3\"\tRelError: 9.48751e-01\tAbsError: 2.06865e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.44918e-01\tAbsError: 9.02348e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.89155e-01\tAbsError: 1.16630e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14673e-01\tAbsError: 2.51147e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73142e-06\tAbsError: 1.64416e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 9.12966e-01\tAbsError: 4.93027e+15\n", + " Region: \"zone_1\"\tRelError: 3.16482e-01\tAbsError: 3.26469e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.16418e-01\tAbsError: 1.05209e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.37165e-05\tAbsError: 2.21260e-02\n", + " Region: \"zone_3\"\tRelError: 5.96484e-01\tAbsError: 4.93027e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.96829e-01\tAbsError: 2.70578e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.18110e-01\tAbsError: 2.22449e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.81481e-01\tAbsError: 1.05209e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.37165e-05\tAbsError: 2.21260e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 7.18897e+00\tAbsError: 6.29402e+14\n", + " Region: \"zone_1\"\tRelError: 6.86170e+00\tAbsError: 2.22868e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.86166e+00\tAbsError: 9.16572e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.77613e-05\tAbsError: 1.31211e-02\n", + " Region: \"zone_3\"\tRelError: 3.27267e-01\tAbsError: 6.29402e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84319e-01\tAbsError: 3.28649e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.08857e-01\tAbsError: 3.00753e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.40527e-02\tAbsError: 9.16579e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.77613e-05\tAbsError: 1.31211e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.73417e-01\tAbsError: 1.11041e+15\n", + " Region: \"zone_1\"\tRelError: 1.30194e-02\tAbsError: 1.66649e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.25399e-02\tAbsError: 2.99019e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.79500e-04\tAbsError: 1.66350e-01\n", + " Region: \"zone_3\"\tRelError: 1.60398e-01\tAbsError: 1.11041e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.88743e-02\tAbsError: 4.52060e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.61195e-02\tAbsError: 6.58351e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.49232e-02\tAbsError: 3.25903e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.80894e-04\tAbsError: 1.66829e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.42105e-01\tAbsError: 9.57843e+13\n", + " Region: \"zone_1\"\tRelError: 5.64317e-01\tAbsError: 1.44974e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.64276e-01\tAbsError: 1.24104e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14024e-05\tAbsError: 1.43733e-02\n", + " Region: \"zone_3\"\tRelError: 7.77880e-02\tAbsError: 9.57843e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.25473e-02\tAbsError: 4.71405e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.65020e-03\tAbsError: 4.86438e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.95491e-02\tAbsError: 1.28397e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14024e-05\tAbsError: 1.43733e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 7.67871e-01\tAbsError: 1.71023e+14\n", + " Region: \"zone_1\"\tRelError: 1.13573e-01\tAbsError: 1.02796e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13544e-01\tAbsError: 5.49352e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.94716e-05\tAbsError: 1.02247e-02\n", + " Region: \"zone_3\"\tRelError: 6.54297e-01\tAbsError: 1.71023e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.30590e-03\tAbsError: 8.58374e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.13746e-03\tAbsError: 8.51855e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.45825e-01\tAbsError: 5.53316e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.94949e-05\tAbsError: 1.02325e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.36557e-01\tAbsError: 7.18470e+12\n", + " Region: \"zone_1\"\tRelError: 1.16158e-01\tAbsError: 1.78279e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16157e-01\tAbsError: 6.59165e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.94530e-07\tAbsError: 1.71687e-04\n", + " Region: \"zone_3\"\tRelError: 2.03993e-02\tAbsError: 7.18470e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.98223e-04\tAbsError: 2.78831e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.37326e-04\tAbsError: 4.39639e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.92632e-02\tAbsError: 6.83641e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.94530e-07\tAbsError: 1.71687e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 8.66150e-02\tAbsError: 1.31466e+13\n", + " Region: \"zone_1\"\tRelError: 1.39621e-02\tAbsError: 5.12705e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39474e-02\tAbsError: 4.18122e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47663e-05\tAbsError: 5.12287e-03\n", + " Region: \"zone_3\"\tRelError: 7.26529e-02\tAbsError: 1.31466e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.21405e-04\tAbsError: 6.60915e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.25654e-04\tAbsError: 6.53741e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.19911e-02\tAbsError: 4.31922e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47687e-05\tAbsError: 5.12379e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.13498e-03\tAbsError: 1.41105e+11\n", + " Region: \"zone_1\"\tRelError: 2.73398e-03\tAbsError: 4.76357e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.73260e-03\tAbsError: 1.35633e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37060e-06\tAbsError: 4.76221e-04\n", + " Region: \"zone_3\"\tRelError: 4.01007e-04\tAbsError: 1.41105e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.96062e-06\tAbsError: 6.85210e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.81427e-06\tAbsError: 7.25836e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.87862e-04\tAbsError: 1.38229e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37060e-06\tAbsError: 4.76221e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 6.10896e-02\tAbsError: 8.02079e+12\n", + " Region: \"zone_1\"\tRelError: 9.41575e-03\tAbsError: 6.68589e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.41383e-03\tAbsError: 2.13817e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91987e-06\tAbsError: 6.66451e-04\n", + " Region: \"zone_3\"\tRelError: 5.16738e-02\tAbsError: 8.02079e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.96956e-04\tAbsError: 4.03346e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.95510e-04\tAbsError: 3.98733e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.12794e-02\tAbsError: 2.27733e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.92042e-06\tAbsError: 6.66662e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.31814e-02\tAbsError: 4.58362e+11\n", + " Region: \"zone_1\"\tRelError: 1.15315e-02\tAbsError: 2.80900e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15314e-02\tAbsError: 2.57528e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.01667e-08\tAbsError: 2.78324e-05\n", + " Region: \"zone_3\"\tRelError: 1.64997e-03\tAbsError: 4.58362e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47024e-05\tAbsError: 2.30121e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.45967e-05\tAbsError: 2.28241e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.60059e-03\tAbsError: 2.62890e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.01667e-08\tAbsError: 2.78324e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 9.90143e-03\tAbsError: 1.08924e+12\n", + " Region: \"zone_1\"\tRelError: 1.54299e-03\tAbsError: 3.21984e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.54206e-03\tAbsError: 2.77661e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.26693e-07\tAbsError: 3.21707e-04\n", + " Region: \"zone_3\"\tRelError: 8.35844e-03\tAbsError: 1.08924e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.68262e-05\tAbsError: 5.46733e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.66605e-05\tAbsError: 5.42503e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 8.30402e-03\tAbsError: 2.99268e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.26885e-07\tAbsError: 3.21773e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.25913e-03\tAbsError: 2.71128e+10\n", + " Region: \"zone_1\"\tRelError: 1.10973e-03\tAbsError: 2.99279e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10965e-03\tAbsError: 1.77983e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.60783e-08\tAbsError: 2.99101e-05\n", + " Region: \"zone_3\"\tRelError: 1.49391e-04\tAbsError: 2.71128e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.61984e-06\tAbsError: 1.29863e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.63350e-06\tAbsError: 1.41265e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.46052e-04\tAbsError: 1.82225e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.61134e-08\tAbsError: 2.99224e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.42186e-03\tAbsError: 4.98160e+11\n", + " Region: \"zone_1\"\tRelError: 6.86933e-04\tAbsError: 5.78872e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.86767e-04\tAbsError: 1.23785e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.66172e-07\tAbsError: 5.77634e-05\n", + " Region: \"zone_3\"\tRelError: 3.73493e-03\tAbsError: 4.98160e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.22855e-05\tAbsError: 2.50372e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.21426e-05\tAbsError: 2.47788e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.71034e-03\tAbsError: 1.33015e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.66188e-07\tAbsError: 5.77856e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 9.89584e-04\tAbsError: 2.93050e+10\n", + " Region: \"zone_1\"\tRelError: 8.69289e-04\tAbsError: 3.58476e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.69279e-04\tAbsError: 1.49163e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.02736e-08\tAbsError: 3.56984e-06\n", + " Region: \"zone_3\"\tRelError: 1.20295e-04\tAbsError: 2.93050e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52554e-06\tAbsError: 1.64489e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.51838e-06\tAbsError: 1.28561e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17241e-04\tAbsError: 1.55101e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.02768e-08\tAbsError: 3.57094e-06\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 8.77845e-04\tAbsError: 9.00104e+10\n", + " Region: \"zone_1\"\tRelError: 1.36631e-04\tAbsError: 2.25392e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.36566e-04\tAbsError: 2.33969e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.47310e-08\tAbsError: 2.25158e-05\n", + " Region: \"zone_3\"\tRelError: 7.41215e-04\tAbsError: 9.00104e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.22024e-06\tAbsError: 4.51658e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.19948e-06\tAbsError: 4.48447e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.36730e-04\tAbsError: 2.51096e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.47572e-08\tAbsError: 2.25252e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.48739e-04\tAbsError: 3.41314e+09\n", + " Region: \"zone_1\"\tRelError: 1.31134e-04\tAbsError: 2.06494e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31128e-04\tAbsError: 1.91971e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.93716e-09\tAbsError: 2.06302e-06\n", + " Region: \"zone_3\"\tRelError: 1.76048e-05\tAbsError: 3.41314e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88514e-07\tAbsError: 1.94837e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.89063e-07\tAbsError: 1.46477e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72213e-05\tAbsError: 1.99642e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.93836e-09\tAbsError: 2.06344e-06\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 3.17998e-04\tAbsError: 3.34676e+10\n", + " Region: \"zone_1\"\tRelError: 4.94909e-05\tAbsError: 4.79910e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.94771e-05\tAbsError: 8.85122e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37715e-08\tAbsError: 4.79025e-06\n", + " Region: \"zone_3\"\tRelError: 2.68507e-04\tAbsError: 3.34676e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.26317e-07\tAbsError: 1.68128e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.15644e-07\tAbsError: 1.66549e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.66852e-04\tAbsError: 9.45123e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37769e-08\tAbsError: 4.79218e-06\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 7.33109e-05\tAbsError: 1.99171e+09\n", + " Region: \"zone_1\"\tRelError: 6.45108e-05\tAbsError: 3.50573e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 6.45098e-05\tAbsError: 1.06453e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00585e-09\tAbsError: 3.49509e-07\n", + " Region: \"zone_3\"\tRelError: 8.80008e-06\tAbsError: 1.99171e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03719e-07\tAbsError: 1.17952e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03272e-07\tAbsError: 8.12184e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 8.59208e-06\tAbsError: 1.10473e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00600e-09\tAbsError: 3.49562e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:00\u001b[0m.\u001b[1;36m749\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.7\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 7.13061e-05\tAbsError: 7.12270e+09\n", + " Region: \"zone_1\"\tRelError: 1.11041e-05\tAbsError: 1.61505e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10995e-05\tAbsError: 1.92666e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.63760e-09\tAbsError: 1.61313e-06\n", + " Region: \"zone_3\"\tRelError: 6.02020e-05\tAbsError: 7.12270e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.75816e-07\tAbsError: 3.57407e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.73885e-07\tAbsError: 3.54864e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 5.98477e-05\tAbsError: 2.05662e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.63937e-09\tAbsError: 1.61378e-06\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:00\u001b[0m.\u001b[1;36m890\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:00\u001b[0m.\u001b[1;36m890\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.8318181818181818\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.94222e+01\tAbsError: 1.62190e+16\n", + " Region: \"zone_1\"\tRelError: 2.76662e+01\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.76662e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.29578e-10\tAbsError: 1.49268e-07\n", + " Region: \"zone_3\"\tRelError: 1.75598e+00\tAbsError: 1.62190e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69267e-01\tAbsError: 8.18784e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.68971e-01\tAbsError: 8.03117e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.17740e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.29628e-10\tAbsError: 1.49286e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 4.48214e+01\tAbsError: 1.27161e+17\n", + " Region: \"zone_1\"\tRelError: 4.16643e+01\tAbsError: 4.18732e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.16643e+01\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08576e-09\tAbsError: 3.77666e-07\n", + " Region: \"zone_3\"\tRelError: 3.15707e+00\tAbsError: 1.27161e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.72955e-01\tAbsError: 6.38462e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.70759e-01\tAbsError: 6.33149e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.61336e+00\tAbsError: 4.18729e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08617e-09\tAbsError: 3.77819e-07\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.57455e+00\tAbsError: 1.59389e+16\n", + " Region: \"zone_1\"\tRelError: 1.04759e+00\tAbsError: 1.06162e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04737e+00\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17045e-04\tAbsError: 7.53990e-02\n", + " Region: \"zone_3\"\tRelError: 1.52696e+00\tAbsError: 1.59389e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37511e-01\tAbsError: 7.87332e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.04735e-01\tAbsError: 8.06553e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.84502e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17045e-04\tAbsError: 7.53990e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.41302e+00\tAbsError: 1.17930e+17\n", + " Region: \"zone_1\"\tRelError: 3.44060e-01\tAbsError: 3.41507e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.43167e-01\tAbsError: 3.18461e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.92830e-04\tAbsError: 3.09661e-01\n", + " Region: \"zone_3\"\tRelError: 3.06896e+00\tAbsError: 1.17930e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.33886e-01\tAbsError: 5.94093e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.85749e-01\tAbsError: 5.85208e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74843e+00\tAbsError: 3.18461e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.93043e-04\tAbsError: 3.09742e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.14822e+00\tAbsError: 9.83178e+15\n", + " Region: \"zone_1\"\tRelError: 1.39457e-01\tAbsError: 7.32841e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39320e-01\tAbsError: 2.58400e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36592e-04\tAbsError: 4.74441e-02\n", + " Region: \"zone_3\"\tRelError: 1.00877e+00\tAbsError: 9.83178e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43427e-01\tAbsError: 4.83336e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.90483e-01\tAbsError: 4.99841e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74720e-01\tAbsError: 2.58193e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36592e-04\tAbsError: 4.74441e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 5.86698e+00\tAbsError: 7.50678e+16\n", + " Region: \"zone_1\"\tRelError: 3.54477e+00\tAbsError: 5.54414e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.54468e+00\tAbsError: 2.58460e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.53345e-05\tAbsError: 2.95954e-02\n", + " Region: \"zone_3\"\tRelError: 2.32221e+00\tAbsError: 7.50678e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.14936e-01\tAbsError: 3.85162e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.28711e-01\tAbsError: 3.65517e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.57848e+00\tAbsError: 2.37733e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.53345e-05\tAbsError: 2.95954e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 9.17087e-01\tAbsError: 2.70112e+15\n", + " Region: \"zone_1\"\tRelError: 4.13278e-01\tAbsError: 1.18036e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.12964e-01\tAbsError: 9.16529e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.13541e-04\tAbsError: 1.08871e-01\n", + " Region: \"zone_3\"\tRelError: 5.03809e-01\tAbsError: 2.70112e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.83333e-01\tAbsError: 1.43386e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03452e-01\tAbsError: 1.26726e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.16711e-01\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.13541e-04\tAbsError: 1.08871e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.49512e+00\tAbsError: 2.22343e+16\n", + " Region: \"zone_1\"\tRelError: 7.22230e-01\tAbsError: 5.29663e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.22108e-01\tAbsError: 1.05208e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22416e-04\tAbsError: 4.24455e-02\n", + " Region: \"zone_3\"\tRelError: 7.72890e-01\tAbsError: 2.22343e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.48169e-01\tAbsError: 1.15801e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.09555e-02\tAbsError: 1.06542e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 5.53643e-01\tAbsError: 1.05209e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22416e-04\tAbsError: 4.24455e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 4.27279e-01\tAbsError: 8.17053e+14\n", + " Region: \"zone_1\"\tRelError: 1.09940e-01\tAbsError: 2.21034e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09304e-01\tAbsError: 3.29075e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.36020e-04\tAbsError: 2.20705e-01\n", + " Region: \"zone_3\"\tRelError: 3.17339e-01\tAbsError: 8.17053e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.72653e-02\tAbsError: 1.99598e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.68899e-02\tAbsError: 6.17455e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.42547e-01\tAbsError: 3.29140e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.36020e-04\tAbsError: 2.20705e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.24776e-01\tAbsError: 3.73586e+15\n", + " Region: \"zone_1\"\tRelError: 7.45352e-02\tAbsError: 3.03331e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 7.36605e-02\tAbsError: 2.36141e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.74683e-04\tAbsError: 3.03094e-01\n", + " Region: \"zone_3\"\tRelError: 5.02411e-02\tAbsError: 3.73586e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.75032e-02\tAbsError: 1.96426e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.84727e-03\tAbsError: 1.77160e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40144e-02\tAbsError: 2.68517e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.76136e-04\tAbsError: 3.03589e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 7.01035e-01\tAbsError: 1.64733e+14\n", + " Region: \"zone_1\"\tRelError: 2.03094e-01\tAbsError: 1.60100e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03048e-01\tAbsError: 7.96658e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.59052e-05\tAbsError: 1.59303e-02\n", + " Region: \"zone_3\"\tRelError: 4.97941e-01\tAbsError: 1.64733e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17881e-03\tAbsError: 7.88164e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.07895e-03\tAbsError: 8.59168e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.85637e-01\tAbsError: 8.00849e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.59052e-05\tAbsError: 1.59303e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.51962e-01\tAbsError: 9.20112e+14\n", + " Region: \"zone_1\"\tRelError: 9.61216e-02\tAbsError: 1.85870e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.60682e-02\tAbsError: 5.78211e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.34689e-05\tAbsError: 1.85292e-02\n", + " Region: \"zone_3\"\tRelError: 5.55840e-01\tAbsError: 9.20112e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.53243e-03\tAbsError: 4.43917e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.69520e-03\tAbsError: 4.76195e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.48559e-01\tAbsError: 5.87235e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.34733e-05\tAbsError: 1.85300e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.04323e-01\tAbsError: 1.53102e+13\n", + " Region: \"zone_1\"\tRelError: 3.15774e-02\tAbsError: 7.15567e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.15568e-02\tAbsError: 7.10876e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.05999e-05\tAbsError: 7.14856e-03\n", + " Region: \"zone_3\"\tRelError: 7.27454e-02\tAbsError: 1.53102e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.94207e-04\tAbsError: 7.65839e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.98721e-04\tAbsError: 7.65181e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.15319e-02\tAbsError: 7.17354e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.06009e-05\tAbsError: 7.14900e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.71590e-02\tAbsError: 7.66261e+13\n", + " Region: \"zone_1\"\tRelError: 1.20009e-02\tAbsError: 8.30452e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19770e-02\tAbsError: 5.27249e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.39494e-05\tAbsError: 8.29925e-03\n", + " Region: \"zone_3\"\tRelError: 6.51581e-02\tAbsError: 7.66261e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.06580e-04\tAbsError: 3.73072e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.04337e-04\tAbsError: 3.93189e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.45233e-02\tAbsError: 5.30950e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.39514e-05\tAbsError: 8.29962e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.82885e-02\tAbsError: 7.75343e+12\n", + " Region: \"zone_1\"\tRelError: 1.74263e-02\tAbsError: 1.11082e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74231e-02\tAbsError: 3.27682e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.18949e-06\tAbsError: 1.10754e-03\n", + " Region: \"zone_3\"\tRelError: 4.08622e-02\tAbsError: 7.75343e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.01160e-04\tAbsError: 3.88269e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.99390e-04\tAbsError: 3.87074e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.02585e-02\tAbsError: 3.34987e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.19059e-06\tAbsError: 1.10796e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.06377e-02\tAbsError: 4.36188e+13\n", + " Region: \"zone_1\"\tRelError: 7.66673e-03\tAbsError: 1.05621e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.66369e-03\tAbsError: 2.82677e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.03907e-06\tAbsError: 1.05338e-03\n", + " Region: \"zone_3\"\tRelError: 4.29710e-02\tAbsError: 4.36188e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.90527e-04\tAbsError: 2.12589e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.78772e-04\tAbsError: 2.23599e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.25987e-02\tAbsError: 2.84898e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.04014e-06\tAbsError: 1.05370e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.09210e-02\tAbsError: 1.22286e+12\n", + " Region: \"zone_1\"\tRelError: 3.28469e-03\tAbsError: 4.72819e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.28333e-03\tAbsError: 4.87030e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36013e-06\tAbsError: 4.72332e-04\n", + " Region: \"zone_3\"\tRelError: 7.63634e-03\tAbsError: 1.22286e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.75678e-05\tAbsError: 6.11672e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.73305e-05\tAbsError: 6.11193e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 7.54008e-03\tAbsError: 5.02425e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.36049e-06\tAbsError: 4.72455e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 8.26317e-03\tAbsError: 5.97645e+12\n", + " Region: \"zone_1\"\tRelError: 1.26006e-03\tAbsError: 4.95200e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.25864e-03\tAbsError: 3.70328e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42381e-06\tAbsError: 4.94829e-04\n", + " Region: \"zone_3\"\tRelError: 7.00311e-03\tAbsError: 5.97645e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.57319e-05\tAbsError: 2.91052e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.41552e-05\tAbsError: 3.06593e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 6.95180e-03\tAbsError: 3.73182e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42436e-06\tAbsError: 4.95028e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.38843e-03\tAbsError: 5.18838e+11\n", + " Region: \"zone_1\"\tRelError: 1.31867e-03\tAbsError: 9.39018e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31840e-03\tAbsError: 1.99779e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69826e-07\tAbsError: 9.37020e-05\n", + " Region: \"zone_3\"\tRelError: 3.06976e-03\tAbsError: 5.18838e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95362e-05\tAbsError: 2.68345e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.93671e-05\tAbsError: 2.50493e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.03058e-03\tAbsError: 2.07424e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69859e-07\tAbsError: 9.37138e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 3.54716e-03\tAbsError: 2.62008e+12\n", + " Region: \"zone_1\"\tRelError: 5.39788e-04\tAbsError: 8.92263e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.39531e-04\tAbsError: 1.50390e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.56301e-07\tAbsError: 8.90759e-05\n", + " Region: \"zone_3\"\tRelError: 3.00737e-03\tAbsError: 2.62008e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.14929e-05\tAbsError: 1.27607e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.07559e-05\tAbsError: 1.34402e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.98487e-03\tAbsError: 1.51609e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.56399e-07\tAbsError: 8.91117e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 9.50080e-04\tAbsError: 1.03863e+11\n", + " Region: \"zone_1\"\tRelError: 2.85910e-04\tAbsError: 3.37412e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.85814e-04\tAbsError: 4.14946e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.68675e-08\tAbsError: 3.36997e-05\n", + " Region: \"zone_3\"\tRelError: 6.64170e-04\tAbsError: 1.03863e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.88184e-06\tAbsError: 5.40187e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.85553e-06\tAbsError: 4.98443e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 6.56335e-04\tAbsError: 4.30256e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.69043e-08\tAbsError: 3.37128e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 6.95864e-04\tAbsError: 4.65649e+11\n", + " Region: \"zone_1\"\tRelError: 1.06054e-04\tAbsError: 3.37560e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.05957e-04\tAbsError: 2.82366e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.70459e-08\tAbsError: 3.37277e-05\n", + " Region: \"zone_3\"\tRelError: 5.89810e-04\tAbsError: 4.65649e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.01758e-06\tAbsError: 2.26719e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.89641e-06\tAbsError: 2.38931e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.85799e-04\tAbsError: 2.84329e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.70857e-08\tAbsError: 3.37425e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 3.25927e-04\tAbsError: 3.72019e+10\n", + " Region: \"zone_1\"\tRelError: 9.80813e-05\tAbsError: 7.68282e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 9.80593e-05\tAbsError: 1.46928e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.20415e-08\tAbsError: 7.66812e-06\n", + " Region: \"zone_3\"\tRelError: 2.27846e-04\tAbsError: 3.72019e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.36089e-06\tAbsError: 1.97599e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.34801e-06\tAbsError: 1.74420e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.25115e-04\tAbsError: 1.52180e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.20501e-08\tAbsError: 7.67121e-06\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 2.45400e-04\tAbsError: 1.68299e+11\n", + " Region: \"zone_1\"\tRelError: 3.73915e-05\tAbsError: 7.04108e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.73713e-05\tAbsError: 1.02290e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.02296e-08\tAbsError: 7.03085e-06\n", + " Region: \"zone_3\"\tRelError: 2.08008e-04\tAbsError: 1.68299e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.36950e-07\tAbsError: 8.19502e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.90014e-07\tAbsError: 8.63483e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06561e-04\tAbsError: 1.03006e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.02382e-08\tAbsError: 7.03392e-06\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 7.72661e-05\tAbsError: 8.43440e+09\n", + " Region: \"zone_1\"\tRelError: 2.32650e-05\tAbsError: 2.49052e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.32578e-05\tAbsError: 3.39814e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.14902e-09\tAbsError: 2.48712e-06\n", + " Region: \"zone_3\"\tRelError: 5.40011e-05\tAbsError: 8.43440e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.08161e-07\tAbsError: 4.47973e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.05735e-07\tAbsError: 3.95466e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 5.33800e-05\tAbsError: 3.51782e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.15190e-09\tAbsError: 2.48816e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:13\u001b[0m.\u001b[1;36m705\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.7999999999999999\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 5.39068e-05\tAbsError: 3.49491e+10\n", + " Region: \"zone_1\"\tRelError: 8.21869e-06\tAbsError: 2.31681e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.21203e-06\tAbsError: 2.20536e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.65971e-09\tAbsError: 2.31460e-06\n", + " Region: \"zone_3\"\tRelError: 4.56881e-05\tAbsError: 3.49491e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.51818e-07\tAbsError: 1.70152e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.42691e-07\tAbsError: 1.79339e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.53869e-05\tAbsError: 2.22047e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.66248e-09\tAbsError: 2.31560e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:14\u001b[0m.\u001b[1;36m265\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:14\u001b[0m.\u001b[1;36m265\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.9363636363636363\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.91796e+01\tAbsError: 8.00136e+16\n", + " Region: \"zone_1\"\tRelError: 1.61687e+01\tAbsError: 4.09548e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.61687e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75011e-09\tAbsError: 6.08861e-07\n", + " Region: \"zone_3\"\tRelError: 3.01093e+00\tAbsError: 8.00136e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.66958e-01\tAbsError: 4.00295e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.65547e-01\tAbsError: 3.99841e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.47843e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75082e-09\tAbsError: 6.09112e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 9.53347e+01\tAbsError: 5.85371e+17\n", + " Region: \"zone_1\"\tRelError: 8.27765e+01\tAbsError: 4.18732e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.27765e+01\tAbsError: 4.18727e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52118e-09\tAbsError: 5.28690e-07\n", + " Region: \"zone_3\"\tRelError: 1.25582e+01\tAbsError: 5.85371e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.44563e-01\tAbsError: 2.83553e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.31848e-01\tAbsError: 3.01819e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10818e+01\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52181e-09\tAbsError: 5.28919e-07\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.23024e+00\tAbsError: 7.24788e+16\n", + " Region: \"zone_1\"\tRelError: 2.89301e-01\tAbsError: 2.81842e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88577e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.23562e-04\tAbsError: 2.51079e-01\n", + " Region: \"zone_3\"\tRelError: 2.94094e+00\tAbsError: 7.24788e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.29061e-01\tAbsError: 3.72143e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.83761e-01\tAbsError: 3.52645e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.62740e+00\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.23562e-04\tAbsError: 2.51079e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.35816e+01\tAbsError: 4.38149e+17\n", + " Region: \"zone_1\"\tRelError: 1.38930e+01\tAbsError: 4.99074e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.38916e+01\tAbsError: 3.18458e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.34648e-03\tAbsError: 4.67228e-01\n", + " Region: \"zone_3\"\tRelError: 9.68863e+00\tAbsError: 4.38149e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.42884e-01\tAbsError: 2.18851e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.28261e-01\tAbsError: 2.19298e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 8.61613e+00\tAbsError: 3.18461e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.34768e-03\tAbsError: 4.67627e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 5.71850e+00\tAbsError: 4.10464e+16\n", + " Region: \"zone_1\"\tRelError: 1.82923e-01\tAbsError: 1.08958e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82684e-01\tAbsError: 2.58969e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.39429e-04\tAbsError: 8.30609e-02\n", + " Region: \"zone_3\"\tRelError: 5.53558e+00\tAbsError: 4.10464e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16071e-01\tAbsError: 2.08924e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.47287e-01\tAbsError: 2.01540e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 4.77198e+00\tAbsError: 2.46271e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.39429e-04\tAbsError: 8.30609e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 5.53490e+00\tAbsError: 1.10286e+17\n", + " Region: \"zone_1\"\tRelError: 2.56956e+00\tAbsError: 1.81425e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.56912e+00\tAbsError: 2.58889e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.47417e-04\tAbsError: 1.55536e-01\n", + " Region: \"zone_3\"\tRelError: 2.96534e+00\tAbsError: 1.10286e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.48327e-01\tAbsError: 5.52116e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.47448e-01\tAbsError: 5.50739e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.56912e+00\tAbsError: 2.58782e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.47594e-04\tAbsError: 1.55593e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.06773e+00\tAbsError: 1.32751e+16\n", + " Region: \"zone_1\"\tRelError: 2.27618e-01\tAbsError: 5.11022e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.27498e-01\tAbsError: 9.16524e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20880e-04\tAbsError: 4.19369e-02\n", + " Region: \"zone_3\"\tRelError: 8.40108e-01\tAbsError: 1.32751e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.49254e-01\tAbsError: 7.44002e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.85993e-02\tAbsError: 5.83511e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 6.12131e-01\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.23429e-04\tAbsError: 4.28226e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.56612e+00\tAbsError: 1.23216e+16\n", + " Region: \"zone_1\"\tRelError: 7.26552e-01\tAbsError: 2.41455e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 7.25886e-01\tAbsError: 1.05204e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.65769e-04\tAbsError: 2.30934e-01\n", + " Region: \"zone_3\"\tRelError: 8.39571e-01\tAbsError: 1.23216e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.12201e-02\tAbsError: 6.18993e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.48009e-02\tAbsError: 6.13165e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.82884e-01\tAbsError: 1.05209e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.66165e-04\tAbsError: 2.31065e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.91937e-01\tAbsError: 2.33353e+15\n", + " Region: \"zone_1\"\tRelError: 2.61363e-02\tAbsError: 3.15290e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.52274e-02\tAbsError: 2.65917e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.08859e-04\tAbsError: 3.15024e-01\n", + " Region: \"zone_3\"\tRelError: 2.65801e-01\tAbsError: 2.33353e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.40034e-02\tAbsError: 1.23195e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.91867e-03\tAbsError: 1.10158e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20969e-01\tAbsError: 2.95967e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.10098e-04\tAbsError: 3.15450e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.04421e-02\tAbsError: 1.45216e+15\n", + " Region: \"zone_1\"\tRelError: 4.34524e-02\tAbsError: 1.16728e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.31168e-02\tAbsError: 1.74721e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.35663e-04\tAbsError: 1.16710e-01\n", + " Region: \"zone_3\"\tRelError: 4.69896e-02\tAbsError: 1.45216e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.93609e-03\tAbsError: 7.70658e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.01075e-04\tAbsError: 6.81500e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.31168e-02\tAbsError: 1.76380e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.35688e-04\tAbsError: 1.16715e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.68338e-01\tAbsError: 7.28836e+14\n", + " Region: \"zone_1\"\tRelError: 4.44613e-02\tAbsError: 2.04423e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.44025e-02\tAbsError: 6.98557e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.87704e-05\tAbsError: 2.03724e-02\n", + " Region: \"zone_3\"\tRelError: 4.23877e-01\tAbsError: 7.28836e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.89975e-03\tAbsError: 3.57624e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.06394e-03\tAbsError: 3.71212e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.13854e-01\tAbsError: 7.63149e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.87832e-05\tAbsError: 2.03761e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.57790e-02\tAbsError: 5.53776e+14\n", + " Region: \"zone_1\"\tRelError: 2.72664e-02\tAbsError: 1.65342e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.72617e-02\tAbsError: 3.40332e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.65495e-06\tAbsError: 1.61938e-03\n", + " Region: \"zone_3\"\tRelError: 2.85126e-02\tAbsError: 5.53776e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.03401e-04\tAbsError: 2.75139e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.42857e-04\tAbsError: 2.78638e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.72617e-02\tAbsError: 3.43282e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.65837e-06\tAbsError: 1.62055e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.64410e-02\tAbsError: 6.34524e+13\n", + " Region: \"zone_1\"\tRelError: 6.01943e-03\tAbsError: 8.87148e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.99386e-03\tAbsError: 6.06051e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.55757e-05\tAbsError: 8.86542e-03\n", + " Region: \"zone_3\"\tRelError: 6.04216e-02\tAbsError: 6.34524e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43427e-04\tAbsError: 3.11581e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.51084e-04\tAbsError: 3.22943e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95015e-02\tAbsError: 6.26485e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.55822e-05\tAbsError: 8.86737e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.64663e-03\tAbsError: 9.54828e+12\n", + " Region: \"zone_1\"\tRelError: 7.63718e-04\tAbsError: 4.21975e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.51589e-04\tAbsError: 8.32688e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.21290e-05\tAbsError: 4.21892e-03\n", + " Region: \"zone_3\"\tRelError: 8.82908e-04\tAbsError: 9.54828e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.90874e-05\tAbsError: 4.74690e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.00972e-05\tAbsError: 4.80137e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.51589e-04\tAbsError: 8.38480e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.21339e-05\tAbsError: 4.22059e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.75673e-02\tAbsError: 3.32993e+13\n", + " Region: \"zone_1\"\tRelError: 3.52548e-03\tAbsError: 1.20689e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.52200e-03\tAbsError: 3.09455e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.47154e-06\tAbsError: 1.20380e-03\n", + " Region: \"zone_3\"\tRelError: 3.40418e-02\tAbsError: 3.32993e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47698e-04\tAbsError: 1.63796e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.38649e-04\tAbsError: 1.69197e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.35520e-02\tAbsError: 3.11273e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.47235e-06\tAbsError: 1.20402e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.87542e-03\tAbsError: 2.78952e+13\n", + " Region: \"zone_1\"\tRelError: 2.90731e-03\tAbsError: 2.23946e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.90667e-03\tAbsError: 1.27907e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.40144e-07\tAbsError: 2.22667e-04\n", + " Region: \"zone_3\"\tRelError: 2.96811e-03\tAbsError: 2.78952e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.34898e-05\tAbsError: 1.38719e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.73182e-05\tAbsError: 1.40233e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.90667e-03\tAbsError: 1.29061e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.40413e-07\tAbsError: 2.22756e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.47008e-03\tAbsError: 4.77215e+12\n", + " Region: \"zone_1\"\tRelError: 6.05494e-04\tAbsError: 5.38691e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.03946e-04\tAbsError: 4.25617e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54844e-06\tAbsError: 5.38265e-04\n", + " Region: \"zone_3\"\tRelError: 5.86458e-03\tAbsError: 4.77215e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.53153e-05\tAbsError: 2.34800e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.40122e-05\tAbsError: 2.42415e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.79371e-03\tAbsError: 4.28072e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54906e-06\tAbsError: 5.38488e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 5.69726e-04\tAbsError: 1.77554e+12\n", + " Region: \"zone_1\"\tRelError: 2.81273e-04\tAbsError: 1.90569e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.80725e-04\tAbsError: 8.09815e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.47674e-07\tAbsError: 1.90489e-04\n", + " Region: \"zone_3\"\tRelError: 2.88453e-04\tAbsError: 1.77554e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.33842e-06\tAbsError: 8.83844e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.84134e-06\tAbsError: 8.91692e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.80725e-04\tAbsError: 8.16431e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.47870e-07\tAbsError: 1.90556e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.65398e-03\tAbsError: 2.00158e+12\n", + " Region: \"zone_1\"\tRelError: 2.48909e-04\tAbsError: 1.00808e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.48620e-04\tAbsError: 1.66964e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.89512e-07\tAbsError: 1.00641e-04\n", + " Region: \"zone_3\"\tRelError: 2.40507e-03\tAbsError: 2.00158e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50347e-05\tAbsError: 9.84888e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.44145e-05\tAbsError: 1.01669e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.37533e-03\tAbsError: 1.67974e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.89623e-07\tAbsError: 1.00681e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.41439e-04\tAbsError: 1.54296e+12\n", + " Region: \"zone_1\"\tRelError: 2.19052e-04\tAbsError: 1.95890e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.18996e-04\tAbsError: 5.68742e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.63328e-08\tAbsError: 1.95322e-05\n", + " Region: \"zone_3\"\tRelError: 2.22387e-04\tAbsError: 1.54296e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.79567e-06\tAbsError: 7.67812e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.53849e-06\tAbsError: 7.75148e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.18996e-04\tAbsError: 5.74023e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.63439e-08\tAbsError: 1.95355e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 5.36228e-04\tAbsError: 3.67963e+11\n", + " Region: \"zone_1\"\tRelError: 5.03370e-05\tAbsError: 3.69568e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.02308e-05\tAbsError: 3.27141e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06219e-07\tAbsError: 3.69241e-05\n", + " Region: \"zone_3\"\tRelError: 4.85891e-04\tAbsError: 3.67963e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.74381e-06\tAbsError: 1.81082e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.63918e-06\tAbsError: 1.86881e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.80402e-04\tAbsError: 3.29054e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06263e-07\tAbsError: 3.69404e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 6.28099e-05\tAbsError: 1.73172e+11\n", + " Region: \"zone_1\"\tRelError: 3.11765e-05\tAbsError: 1.11459e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.11445e-05\tAbsError: 6.09244e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.20807e-08\tAbsError: 1.11398e-05\n", + " Region: \"zone_3\"\tRelError: 3.16334e-05\tAbsError: 1.73172e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.16960e-07\tAbsError: 8.62244e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.39894e-07\tAbsError: 8.69476e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.11445e-05\tAbsError: 6.14462e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.20831e-08\tAbsError: 1.11440e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.84514e-04\tAbsError: 1.29331e+11\n", + " Region: \"zone_1\"\tRelError: 1.73204e-05\tAbsError: 7.90813e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.72976e-05\tAbsError: 1.15361e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.27155e-08\tAbsError: 7.89660e-06\n", + " Region: \"zone_3\"\tRelError: 1.67193e-04\tAbsError: 1.29331e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.72276e-07\tAbsError: 6.36462e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.31421e-07\tAbsError: 6.56851e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65267e-04\tAbsError: 1.16052e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.27252e-08\tAbsError: 7.90006e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:25\u001b[0m.\u001b[1;36m882\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:25\u001b[0m.\u001b[1;36m882\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m1.0409090909090908\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 4.13464e-05\tAbsError: 2.75069e+10\n", + " Region: \"zone_1\"\tRelError: 3.88379e-06\tAbsError: 2.55222e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.87646e-06\tAbsError: 2.54121e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.33447e-09\tAbsError: 2.54968e-06\n", + " Region: \"zone_3\"\tRelError: 3.74626e-05\tAbsError: 2.75069e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05752e-07\tAbsError: 1.35376e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.97692e-07\tAbsError: 1.39693e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.70518e-05\tAbsError: 2.55608e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.33751e-09\tAbsError: 2.55078e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:26\u001b[0m.\u001b[1;36m709\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.8999999999999999\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.87468e+03\tAbsError: 1.57594e+18\n", + " Region: \"zone_1\"\tRelError: 6.11972e+03\tAbsError: 4.18742e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.11972e+03\tAbsError: 4.18725e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.06414e-09\tAbsError: 1.76056e-06\n", + " Region: \"zone_3\"\tRelError: 1.75496e+03\tAbsError: 1.57594e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.71865e-01\tAbsError: 7.81473e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.46168e-01\tAbsError: 7.94463e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.75364e+03\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.06608e-09\tAbsError: 1.76125e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.18618e+01\tAbsError: 3.43486e+17\n", + " Region: \"zone_1\"\tRelError: 4.68734e+01\tAbsError: 4.09548e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.68734e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70509e-09\tAbsError: 5.92742e-07\n", + " Region: \"zone_3\"\tRelError: 1.49884e+01\tAbsError: 3.43486e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.50361e-01\tAbsError: 1.67687e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.42491e-01\tAbsError: 1.75799e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.34955e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70580e-09\tAbsError: 5.92998e-07\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.30315e+03\tAbsError: 5.28037e+17\n", + " Region: \"zone_1\"\tRelError: 4.13286e+02\tAbsError: 1.28690e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 4.13283e+02\tAbsError: 3.18455e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.60513e-03\tAbsError: 1.25505e+00\n", + " Region: \"zone_3\"\tRelError: 1.88986e+03\tAbsError: 5.28037e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.88929e-01\tAbsError: 2.65094e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.76179e-01\tAbsError: 2.62943e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88910e+03\tAbsError: 3.18461e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.60541e-03\tAbsError: 1.25519e+00\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 6.59116e+00\tAbsError: 3.05940e+17\n", + " Region: \"zone_1\"\tRelError: 1.06162e+00\tAbsError: 1.92710e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06116e+00\tAbsError: 3.07630e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.67257e-04\tAbsError: 1.61947e-01\n", + " Region: \"zone_3\"\tRelError: 5.52954e+00\tAbsError: 3.05940e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.66708e-01\tAbsError: 1.53394e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.75609e-01\tAbsError: 1.52546e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 4.38676e+00\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.67257e-04\tAbsError: 1.61947e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.23949e+02\tAbsError: 7.68225e+16\n", + " Region: \"zone_1\"\tRelError: 1.01274e+02\tAbsError: 5.10475e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01273e+02\tAbsError: 2.57970e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.38904e-03\tAbsError: 4.84678e-01\n", + " Region: \"zone_3\"\tRelError: 1.22675e+02\tAbsError: 7.68225e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.85556e-02\tAbsError: 3.85589e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.64057e-02\tAbsError: 3.82636e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.22518e+02\tAbsError: 2.58939e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.38924e-03\tAbsError: 4.84741e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 3.39017e+01\tAbsError: 1.15461e+17\n", + " Region: \"zone_1\"\tRelError: 6.40052e-01\tAbsError: 2.51200e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 6.39402e-01\tAbsError: 2.58690e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.49519e-04\tAbsError: 2.25331e-01\n", + " Region: \"zone_3\"\tRelError: 3.32617e+01\tAbsError: 1.15461e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.89584e-01\tAbsError: 5.80157e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.82182e-01\tAbsError: 5.74450e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.27893e+01\tAbsError: 2.58944e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.51823e-04\tAbsError: 2.26124e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.99106e+00\tAbsError: 4.60947e+15\n", + " Region: \"zone_1\"\tRelError: 9.82178e-01\tAbsError: 9.51528e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 9.79492e-01\tAbsError: 1.05200e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.68610e-03\tAbsError: 9.41008e-01\n", + " Region: \"zone_3\"\tRelError: 1.00888e+00\tAbsError: 4.60947e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.86739e-02\tAbsError: 1.78353e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.53479e-03\tAbsError: 2.82595e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.82985e-01\tAbsError: 1.05209e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69033e-03\tAbsError: 9.42484e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.34480e+00\tAbsError: 1.48853e+16\n", + " Region: \"zone_1\"\tRelError: 1.80604e-01\tAbsError: 1.59400e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.80172e-01\tAbsError: 9.16501e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.31839e-04\tAbsError: 1.50235e-01\n", + " Region: \"zone_3\"\tRelError: 3.16419e+00\tAbsError: 1.48853e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.34401e-02\tAbsError: 7.53366e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.19569e-02\tAbsError: 7.35164e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 3.07837e+00\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.31839e-04\tAbsError: 1.50235e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.86435e+00\tAbsError: 9.79041e+15\n", + " Region: \"zone_1\"\tRelError: 1.84952e+00\tAbsError: 1.25697e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.84592e+00\tAbsError: 3.77567e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.59985e-03\tAbsError: 1.25659e+00\n", + " Region: \"zone_3\"\tRelError: 1.01483e+00\tAbsError: 9.79041e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.98548e-02\tAbsError: 4.26210e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.13855e-03\tAbsError: 5.52831e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.74232e-01\tAbsError: 3.79891e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.60540e-03\tAbsError: 1.25852e+00\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 3.42204e-01\tAbsError: 1.90329e+15\n", + " Region: \"zone_1\"\tRelError: 2.01983e-02\tAbsError: 3.47392e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.91990e-02\tAbsError: 1.15001e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.99221e-04\tAbsError: 3.47277e-01\n", + " Region: \"zone_3\"\tRelError: 3.22006e-01\tAbsError: 1.90329e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.20950e-03\tAbsError: 1.00831e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03234e-03\tAbsError: 8.94978e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.11765e-01\tAbsError: 1.16357e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.99221e-04\tAbsError: 3.47277e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.24847e+01\tAbsError: 7.06406e+15\n", + " Region: \"zone_1\"\tRelError: 6.33480e-01\tAbsError: 7.91039e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.33255e-01\tAbsError: 3.40300e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.25585e-04\tAbsError: 7.87636e-02\n", + " Region: \"zone_3\"\tRelError: 1.18512e+01\tAbsError: 7.06406e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.31041e-02\tAbsError: 3.43640e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.02226e-03\tAbsError: 3.62765e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18348e+01\tAbsError: 3.42813e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.25683e-04\tAbsError: 7.87975e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 7.26159e-01\tAbsError: 1.60368e+15\n", + " Region: \"zone_1\"\tRelError: 2.39971e-02\tAbsError: 1.68797e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.39489e-02\tAbsError: 1.07820e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.82419e-05\tAbsError: 1.67718e-02\n", + " Region: \"zone_3\"\tRelError: 7.02162e-01\tAbsError: 1.60368e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.86883e-03\tAbsError: 7.94204e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.42424e-03\tAbsError: 8.09476e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.96821e-01\tAbsError: 1.08766e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.82636e-05\tAbsError: 1.67793e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 8.20251e-01\tAbsError: 4.81045e+14\n", + " Region: \"zone_1\"\tRelError: 1.33651e-01\tAbsError: 4.63651e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33518e-01\tAbsError: 2.50993e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32739e-04\tAbsError: 4.63400e-02\n", + " Region: \"zone_3\"\tRelError: 6.86600e-01\tAbsError: 4.81045e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.60043e-03\tAbsError: 2.39564e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.09695e-04\tAbsError: 2.41481e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.83957e-01\tAbsError: 2.52723e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32791e-04\tAbsError: 4.63581e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.12346e-01\tAbsError: 1.08123e+14\n", + " Region: \"zone_1\"\tRelError: 3.56238e-03\tAbsError: 1.31451e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.52458e-03\tAbsError: 6.36043e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.77942e-05\tAbsError: 1.31387e-02\n", + " Region: \"zone_3\"\tRelError: 1.08784e-01\tAbsError: 1.08123e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.76703e-04\tAbsError: 5.36465e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.39449e-04\tAbsError: 5.44763e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08330e-01\tAbsError: 6.41381e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.78094e-05\tAbsError: 1.31440e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 6.40048e-01\tAbsError: 2.83614e+14\n", + " Region: \"zone_1\"\tRelError: 6.61348e-02\tAbsError: 5.04447e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.61204e-02\tAbsError: 1.30341e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.44504e-05\tAbsError: 5.03144e-03\n", + " Region: \"zone_3\"\tRelError: 5.73913e-01\tAbsError: 2.83614e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.31177e-04\tAbsError: 1.41341e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.34459e-04\tAbsError: 1.42273e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.73033e-01\tAbsError: 1.31277e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.44524e-05\tAbsError: 5.03188e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 8.36096e-02\tAbsError: 8.44228e+13\n", + " Region: \"zone_1\"\tRelError: 2.87350e-03\tAbsError: 1.23009e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.86998e-03\tAbsError: 4.23325e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.52636e-06\tAbsError: 1.22586e-03\n", + " Region: \"zone_3\"\tRelError: 8.07361e-02\tAbsError: 8.44228e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46087e-04\tAbsError: 4.18513e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.25646e-04\tAbsError: 4.25715e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.04608e-02\tAbsError: 4.27186e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.52783e-06\tAbsError: 1.22636e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.04807e-01\tAbsError: 3.49952e+13\n", + " Region: \"zone_1\"\tRelError: 1.19544e-02\tAbsError: 2.15893e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19482e-02\tAbsError: 1.51234e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.19688e-06\tAbsError: 2.15742e-03\n", + " Region: \"zone_3\"\tRelError: 9.28525e-02\tAbsError: 3.49952e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.54709e-05\tAbsError: 1.74282e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.63267e-05\tAbsError: 1.75670e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.26845e-02\tAbsError: 1.52290e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.19717e-06\tAbsError: 2.15761e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.36875e-02\tAbsError: 9.69294e+12\n", + " Region: \"zone_1\"\tRelError: 4.70501e-04\tAbsError: 6.20216e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.68718e-04\tAbsError: 4.28680e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.78298e-06\tAbsError: 6.19787e-04\n", + " Region: \"zone_3\"\tRelError: 1.32170e-02\tAbsError: 9.69294e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.60935e-05\tAbsError: 4.80983e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.36870e-05\tAbsError: 4.88312e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31854e-02\tAbsError: 4.32490e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.78363e-06\tAbsError: 6.20008e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.34395e-02\tAbsError: 1.50873e+13\n", + " Region: \"zone_1\"\tRelError: 4.76678e-03\tAbsError: 3.66196e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.76573e-03\tAbsError: 5.85936e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.05115e-06\tAbsError: 3.65610e-04\n", + " Region: \"zone_3\"\tRelError: 3.86727e-02\tAbsError: 1.50873e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.49064e-05\tAbsError: 7.51386e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.47458e-05\tAbsError: 7.57343e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.86220e-02\tAbsError: 5.90085e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.05126e-06\tAbsError: 3.65648e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 6.63798e-03\tAbsError: 4.90503e+12\n", + " Region: \"zone_1\"\tRelError: 2.29406e-04\tAbsError: 9.25474e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29140e-04\tAbsError: 1.97212e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.66464e-07\tAbsError: 9.23502e-05\n", + " Region: \"zone_3\"\tRelError: 6.40857e-03\tAbsError: 4.90503e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.34900e-06\tAbsError: 2.43347e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32522e-06\tAbsError: 2.47155e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 6.39263e-03\tAbsError: 1.99078e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.66498e-07\tAbsError: 9.23593e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 8.47313e-03\tAbsError: 2.45459e+12\n", + " Region: \"zone_1\"\tRelError: 9.36987e-04\tAbsError: 1.32000e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.36609e-04\tAbsError: 9.56354e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.78566e-07\tAbsError: 1.31904e-04\n", + " Region: \"zone_3\"\tRelError: 7.53614e-03\tAbsError: 2.45459e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.87205e-06\tAbsError: 1.22267e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.65680e-06\tAbsError: 1.23192e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.52524e-03\tAbsError: 9.65698e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.78706e-07\tAbsError: 1.31954e-04\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.25648e-03\tAbsError: 7.75715e+11\n", + " Region: \"zone_1\"\tRelError: 4.35799e-05\tAbsError: 3.84452e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.34694e-05\tAbsError: 2.84735e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10539e-07\tAbsError: 3.84167e-05\n", + " Region: \"zone_3\"\tRelError: 1.21290e-03\tAbsError: 7.75715e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28473e-06\tAbsError: 3.85060e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.13479e-06\tAbsError: 3.90655e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21037e-03\tAbsError: 2.87358e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10581e-07\tAbsError: 3.84313e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 2.88106e-03\tAbsError: 8.75795e+11\n", + " Region: \"zone_1\"\tRelError: 3.17767e-04\tAbsError: 2.68964e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.17689e-04\tAbsError: 3.28042e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.70983e-08\tAbsError: 2.68636e-05\n", + " Region: \"zone_3\"\tRelError: 2.56329e-03\tAbsError: 8.75795e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34563e-06\tAbsError: 4.36269e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.68576e-06\tAbsError: 4.39526e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.56018e-03\tAbsError: 3.31331e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.71271e-08\tAbsError: 2.68742e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 4.79935e-04\tAbsError: 3.06765e+11\n", + " Region: \"zone_1\"\tRelError: 1.66486e-05\tAbsError: 7.60779e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66267e-05\tAbsError: 1.06336e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18595e-08\tAbsError: 7.59715e-06\n", + " Region: \"zone_3\"\tRelError: 4.63286e-04\tAbsError: 3.06765e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.16909e-07\tAbsError: 1.52260e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.59699e-07\tAbsError: 1.54505e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.62288e-04\tAbsError: 1.07353e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18679e-08\tAbsError: 7.60017e-06\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 6.15045e-04\tAbsError: 1.68932e+11\n", + " Region: \"zone_1\"\tRelError: 6.78668e-05\tAbsError: 8.57075e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.78422e-05\tAbsError: 6.94676e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.45781e-08\tAbsError: 8.56380e-06\n", + " Region: \"zone_3\"\tRelError: 5.47178e-04\tAbsError: 1.68932e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.96513e-07\tAbsError: 8.41586e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.96621e-07\tAbsError: 8.47738e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.46460e-04\tAbsError: 7.01511e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.45874e-08\tAbsError: 8.56727e-06\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.01824e-04\tAbsError: 5.91028e+10\n", + " Region: \"zone_1\"\tRelError: 3.53926e-06\tAbsError: 2.67115e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.53158e-06\tAbsError: 2.19844e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.67947e-09\tAbsError: 2.66896e-06\n", + " Region: \"zone_3\"\tRelError: 9.82849e-05\tAbsError: 5.91028e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.78782e-08\tAbsError: 2.93440e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.77169e-08\tAbsError: 2.97588e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 9.80917e-05\tAbsError: 2.22202e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.68243e-09\tAbsError: 2.67005e-06\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 1.88221e-04\tAbsError: 5.35359e+10\n", + " Region: \"zone_1\"\tRelError: 2.07676e-05\tAbsError: 1.88845e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.07622e-05\tAbsError: 2.14079e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.41371e-09\tAbsError: 1.88631e-06\n", + " Region: \"zone_3\"\tRelError: 1.67453e-04\tAbsError: 5.35359e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.97944e-08\tAbsError: 2.66714e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.11906e-07\tAbsError: 2.68645e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.67256e-04\tAbsError: 2.16218e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.41591e-09\tAbsError: 1.88713e-06\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 3.38300e-05\tAbsError: 2.01418e+10\n", + " Region: \"zone_1\"\tRelError: 1.17571e-06\tAbsError: 5.87640e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17402e-06\tAbsError: 7.44968e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.68869e-09\tAbsError: 5.86895e-07\n", + " Region: \"zone_3\"\tRelError: 3.26543e-05\tAbsError: 2.01418e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.37367e-08\tAbsError: 9.99956e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.02428e-08\tAbsError: 1.01422e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.25886e-05\tAbsError: 7.53080e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.68939e-09\tAbsError: 5.87154e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:40\u001b[0m.\u001b[1;36m587\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.9999999999999999\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 4.27414e-05\tAbsError: 1.14823e+10\n", + " Region: \"zone_1\"\tRelError: 4.71554e-06\tAbsError: 5.55691e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 4.71394e-06\tAbsError: 4.83442e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59344e-09\tAbsError: 5.55208e-07\n", + " Region: \"zone_3\"\tRelError: 3.80259e-05\tAbsError: 1.14823e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88030e-08\tAbsError: 5.72062e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.70392e-08\tAbsError: 5.76169e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.79784e-05\tAbsError: 4.88216e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59409e-09\tAbsError: 5.55448e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:40\u001b[0m.\u001b[1;36m783\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:40\u001b[0m.\u001b[1;36m783\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m1.1454545454545455\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.07845e+03\tAbsError: 1.16809e+18\n", + " Region: \"zone_1\"\tRelError: 2.98806e+02\tAbsError: 4.09541e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.98806e+02\tAbsError: 4.09540e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.33797e-10\tAbsError: 1.85521e-07\n", + " Region: \"zone_3\"\tRelError: 7.79646e+02\tAbsError: 1.16809e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90701e-01\tAbsError: 5.74604e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.65642e-01\tAbsError: 5.93489e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 7.78290e+02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.34021e-10\tAbsError: 1.85602e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.48560e+01\tAbsError: 2.45370e+18\n", + " Region: \"zone_1\"\tRelError: 1.31353e+01\tAbsError: 4.18724e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31353e+01\tAbsError: 4.18723e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.70107e-10\tAbsError: 1.28959e-07\n", + " Region: \"zone_3\"\tRelError: 2.17207e+01\tAbsError: 2.45370e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.83005e-01\tAbsError: 1.22478e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.70802e-01\tAbsError: 1.22892e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 2.05669e+01\tAbsError: 4.18730e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.70257e-10\tAbsError: 1.29014e-07\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.95227e+03\tAbsError: 4.47180e+17\n", + " Region: \"zone_1\"\tRelError: 5.95735e+02\tAbsError: 1.32695e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95731e+02\tAbsError: 3.07627e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.72641e-03\tAbsError: 1.29619e+00\n", + " Region: \"zone_3\"\tRelError: 2.35653e+03\tAbsError: 4.47180e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.30389e-01\tAbsError: 2.23868e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.07870e-01\tAbsError: 2.23312e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 2.35569e+03\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.72703e-03\tAbsError: 1.29643e+00\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.98343e+00\tAbsError: 5.25979e+17\n", + " Region: \"zone_1\"\tRelError: 6.78890e-01\tAbsError: 2.40460e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 6.72129e-01\tAbsError: 3.18452e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.76081e-03\tAbsError: 2.37276e+00\n", + " Region: \"zone_3\"\tRelError: 1.30454e+00\tAbsError: 5.25979e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.69683e-01\tAbsError: 2.63478e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.70057e-01\tAbsError: 2.62501e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 7.58037e-01\tAbsError: 3.18462e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.76160e-03\tAbsError: 2.37299e+00\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 8.37720e+02\tAbsError: 8.62713e+16\n", + " Region: \"zone_1\"\tRelError: 6.83172e+02\tAbsError: 5.09423e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 6.83170e+02\tAbsError: 2.58987e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39194e-03\tAbsError: 4.83524e-01\n", + " Region: \"zone_3\"\tRelError: 1.54548e+02\tAbsError: 8.62713e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.27446e-01\tAbsError: 4.32970e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.20316e-02\tAbsError: 4.29743e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.54357e+02\tAbsError: 2.58982e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39675e-03\tAbsError: 4.85195e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 5.69994e-01\tAbsError: 2.17602e+16\n", + " Region: \"zone_1\"\tRelError: 2.50379e-01\tAbsError: 2.20116e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 2.44199e-01\tAbsError: 2.58997e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.17935e-03\tAbsError: 2.17526e+00\n", + " Region: \"zone_3\"\tRelError: 3.19615e-01\tAbsError: 2.17602e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.70343e-02\tAbsError: 1.09545e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.17379e-02\tAbsError: 1.08057e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.44659e-01\tAbsError: 2.58997e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.18370e-03\tAbsError: 2.17682e+00\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 6.13777e+02\tAbsError: 9.41150e+15\n", + " Region: \"zone_1\"\tRelError: 7.34943e+01\tAbsError: 1.74710e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 7.34894e+01\tAbsError: 9.16455e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.95952e-03\tAbsError: 1.73794e+00\n", + " Region: \"zone_3\"\tRelError: 5.40283e+02\tAbsError: 9.41150e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.82819e-02\tAbsError: 3.95531e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.70902e-02\tAbsError: 5.45619e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.40223e+02\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.96820e-03\tAbsError: 1.74101e+00\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.85302e-01\tAbsError: 2.54840e+16\n", + " Region: \"zone_1\"\tRelError: 1.03223e-01\tAbsError: 5.09960e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 8.89918e-02\tAbsError: 1.05193e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42311e-02\tAbsError: 5.08908e+00\n", + " Region: \"zone_3\"\tRelError: 1.82079e-01\tAbsError: 2.54840e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.18364e-02\tAbsError: 9.82764e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.96671e-03\tAbsError: 1.56563e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 8.90331e-02\tAbsError: 1.05211e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42430e-02\tAbsError: 5.09332e+00\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.16806e+01\tAbsError: 1.22386e+16\n", + " Region: \"zone_1\"\tRelError: 5.81165e+00\tAbsError: 2.01324e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.80588e+00\tAbsError: 6.99078e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.77633e-03\tAbsError: 2.01254e+00\n", + " Region: \"zone_3\"\tRelError: 5.86896e+00\tAbsError: 1.22386e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.88114e-02\tAbsError: 5.53671e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.06848e-02\tAbsError: 6.70184e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.80368e+00\tAbsError: 7.04147e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.78367e-03\tAbsError: 2.01512e+00\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.66806e-01\tAbsError: 4.46613e+16\n", + " Region: \"zone_1\"\tRelError: 2.01778e-01\tAbsError: 6.07668e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.84496e-01\tAbsError: 1.64814e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72818e-02\tAbsError: 6.07503e+00\n", + " Region: \"zone_3\"\tRelError: 4.65028e-01\tAbsError: 4.46613e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.85265e-01\tAbsError: 2.19504e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.34316e-02\tAbsError: 2.27109e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.19041e-01\tAbsError: 1.65634e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72910e-02\tAbsError: 6.07824e+00\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 8.44367e+01\tAbsError: 1.02259e+16\n", + " Region: \"zone_1\"\tRelError: 4.22055e+01\tAbsError: 1.45859e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.22051e+01\tAbsError: 5.71640e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.16833e-04\tAbsError: 1.45287e-01\n", + " Region: \"zone_3\"\tRelError: 4.22312e+01\tAbsError: 1.02259e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.97020e-02\tAbsError: 4.95775e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.96648e-03\tAbsError: 5.26817e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 4.22051e+01\tAbsError: 5.76213e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.17002e-04\tAbsError: 1.45346e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.48036e-01\tAbsError: 4.08947e+16\n", + " Region: \"zone_1\"\tRelError: 1.59671e-01\tAbsError: 3.39263e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.58711e-01\tAbsError: 1.47989e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.59972e-04\tAbsError: 3.37784e-01\n", + " Region: \"zone_3\"\tRelError: 2.88365e-01\tAbsError: 4.08947e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.87342e-02\tAbsError: 2.00424e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.55822e-02\tAbsError: 2.08523e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.83088e-01\tAbsError: 1.48837e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.60353e-04\tAbsError: 3.37917e-01\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.49604e+00\tAbsError: 9.70392e+14\n", + " Region: \"zone_1\"\tRelError: 3.74605e+00\tAbsError: 7.97463e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.74582e+00\tAbsError: 4.64021e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28718e-04\tAbsError: 7.96999e-02\n", + " Region: \"zone_3\"\tRelError: 3.74999e+00\tAbsError: 9.70392e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.58316e-03\tAbsError: 4.83793e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.36045e-03\tAbsError: 4.86599e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.74582e+00\tAbsError: 4.67428e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28813e-04\tAbsError: 7.97327e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 5.94888e-02\tAbsError: 2.09629e+15\n", + " Region: \"zone_1\"\tRelError: 2.22902e-02\tAbsError: 1.82349e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.17712e-02\tAbsError: 1.08536e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.18918e-04\tAbsError: 1.82241e-01\n", + " Region: \"zone_3\"\tRelError: 3.71987e-02\tAbsError: 2.09629e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.94884e-03\tAbsError: 1.04302e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.49555e-03\tAbsError: 1.05327e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.52353e-02\tAbsError: 1.09074e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.18942e-04\tAbsError: 1.82257e-01\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 9.26745e+00\tAbsError: 5.14481e+14\n", + " Region: \"zone_1\"\tRelError: 8.59152e+00\tAbsError: 9.35409e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 8.59150e+00\tAbsError: 2.29233e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.68516e-05\tAbsError: 9.33117e-03\n", + " Region: \"zone_3\"\tRelError: 6.75929e-01\tAbsError: 5.14481e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.99602e-04\tAbsError: 2.56366e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.52414e-04\tAbsError: 2.58114e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.74650e-01\tAbsError: 2.31041e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.68516e-05\tAbsError: 9.33117e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.83605e-02\tAbsError: 1.16657e+15\n", + " Region: \"zone_1\"\tRelError: 1.11393e-02\tAbsError: 1.87909e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10859e-02\tAbsError: 5.17315e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.34103e-05\tAbsError: 1.87392e-02\n", + " Region: \"zone_3\"\tRelError: 1.72212e-02\tAbsError: 1.16657e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.50800e-03\tAbsError: 5.80987e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.83040e-03\tAbsError: 5.85581e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28294e-02\tAbsError: 5.20147e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.34103e-05\tAbsError: 1.87392e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.48030e+01\tAbsError: 7.19505e+13\n", + " Region: \"zone_1\"\tRelError: 1.40655e+01\tAbsError: 3.86191e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40655e+01\tAbsError: 2.84880e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11050e-05\tAbsError: 3.85906e-03\n", + " Region: \"zone_3\"\tRelError: 7.37529e-01\tAbsError: 7.19505e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.38672e-04\tAbsError: 3.58470e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.21484e-04\tAbsError: 3.61036e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.37257e-01\tAbsError: 2.87067e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11068e-05\tAbsError: 3.85947e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 4.18320e-03\tAbsError: 1.27381e+14\n", + " Region: \"zone_1\"\tRelError: 1.63776e-03\tAbsError: 7.35262e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.61677e-03\tAbsError: 5.51755e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.09861e-05\tAbsError: 7.34711e-03\n", + " Region: \"zone_3\"\tRelError: 2.54544e-03\tAbsError: 1.27381e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.31618e-04\tAbsError: 6.29513e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.20105e-04\tAbsError: 6.44296e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87274e-03\tAbsError: 5.54604e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.09861e-05\tAbsError: 7.34711e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.47896e+00\tAbsError: 2.94682e+13\n", + " Region: \"zone_1\"\tRelError: 1.24509e+00\tAbsError: 6.95816e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.24509e+00\tAbsError: 1.07735e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.99937e-06\tAbsError: 6.94739e-04\n", + " Region: \"zone_3\"\tRelError: 2.33869e-01\tAbsError: 2.94682e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.81392e-05\tAbsError: 1.46808e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.76977e-05\tAbsError: 1.47873e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.33792e-01\tAbsError: 1.08579e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.99953e-06\tAbsError: 6.95001e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.50724e-03\tAbsError: 4.58277e+13\n", + " Region: \"zone_1\"\tRelError: 6.07327e-04\tAbsError: 1.12554e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.04117e-04\tAbsError: 1.90266e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.20955e-06\tAbsError: 1.12364e-03\n", + " Region: \"zone_3\"\tRelError: 8.99917e-04\tAbsError: 4.58277e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.44714e-05\tAbsError: 2.28384e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.02367e-04\tAbsError: 2.29892e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.99868e-04\tAbsError: 1.91285e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.21023e-06\tAbsError: 1.12389e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.23148e-01\tAbsError: 5.24321e+12\n", + " Region: \"zone_1\"\tRelError: 2.61296e-01\tAbsError: 2.47766e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.61295e-01\tAbsError: 1.83418e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.11380e-07\tAbsError: 2.47583e-04\n", + " Region: \"zone_3\"\tRelError: 6.18518e-02\tAbsError: 5.24321e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94642e-06\tAbsError: 2.61290e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.40186e-06\tAbsError: 2.63031e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 6.18338e-02\tAbsError: 1.85316e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.11644e-07\tAbsError: 2.47677e-04\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.58569e-04\tAbsError: 7.36064e+12\n", + " Region: \"zone_1\"\tRelError: 1.03590e-04\tAbsError: 3.69022e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02537e-04\tAbsError: 2.95343e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.05323e-06\tAbsError: 3.68726e-04\n", + " Region: \"zone_3\"\tRelError: 1.54979e-04\tAbsError: 7.36064e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.54889e-05\tAbsError: 3.65218e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.96114e-05\tAbsError: 3.70846e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18825e-04\tAbsError: 2.97648e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.05333e-06\tAbsError: 3.68764e-04\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 9.77270e-02\tAbsError: 1.82347e+12\n", + " Region: \"zone_1\"\tRelError: 7.65024e-02\tAbsError: 5.28468e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.65022e-02\tAbsError: 6.24160e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.51664e-07\tAbsError: 5.27844e-05\n", + " Region: \"zone_3\"\tRelError: 2.12246e-02\tAbsError: 1.82347e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11287e-06\tAbsError: 9.08701e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.75258e-06\tAbsError: 9.14773e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.12196e-02\tAbsError: 6.30788e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.51721e-07\tAbsError: 5.28055e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 7.93615e-05\tAbsError: 2.16297e+12\n", + " Region: \"zone_1\"\tRelError: 3.23104e-05\tAbsError: 6.76144e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.21176e-05\tAbsError: 9.25130e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.92857e-07\tAbsError: 6.75219e-05\n", + " Region: \"zone_3\"\tRelError: 4.70511e-05\tAbsError: 2.16297e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.07553e-06\tAbsError: 1.07246e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.55801e-06\tAbsError: 1.09051e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.72246e-05\tAbsError: 9.32629e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.92929e-07\tAbsError: 6.75484e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:53\u001b[0m.\u001b[1;36m173\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: 1.25\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 2.05494e-02\tAbsError: 3.74583e+11\n", + " Region: \"zone_1\"\tRelError: 1.55447e-02\tAbsError: 1.67716e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55447e-02\tAbsError: 1.38057e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.81497e-08\tAbsError: 1.67577e-05\n", + " Region: \"zone_3\"\tRelError: 5.00469e-03\tAbsError: 3.74583e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.90614e-07\tAbsError: 1.86695e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.85333e-07\tAbsError: 1.87888e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.00347e-03\tAbsError: 1.39492e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.81681e-08\tAbsError: 1.67646e-05\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 6.14058e-03\tAbsError: 1.17501e+11\n", + " Region: \"zone_1\"\tRelError: 4.56971e-03\tAbsError: 3.83354e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.56970e-03\tAbsError: 4.25999e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10026e-08\tAbsError: 3.82928e-06\n", + " Region: \"zone_3\"\tRelError: 1.57087e-03\tAbsError: 1.17501e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.29368e-07\tAbsError: 5.85629e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.92613e-07\tAbsError: 5.89376e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.57054e-03\tAbsError: 4.30497e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10071e-08\tAbsError: 3.83095e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.36008e+00\tAbsError: 2.97116e+18\n", + " Region: \"zone_1\"\tRelError: 3.47604e+00\tAbsError: 4.18915e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.47604e+00\tAbsError: 4.18718e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.64368e-08\tAbsError: 1.97593e-05\n", + " Region: \"zone_3\"\tRelError: 1.88404e+00\tAbsError: 2.97116e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.08761e-01\tAbsError: 1.48457e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.00956e-01\tAbsError: 1.48659e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 8.74325e-01\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.64587e-08\tAbsError: 1.97673e-05\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 1.39778e-03\tAbsError: 2.64036e+10\n", + " Region: \"zone_1\"\tRelError: 1.02275e-03\tAbsError: 1.13260e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02274e-03\tAbsError: 9.95943e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.25141e-09\tAbsError: 1.13160e-06\n", + " Region: \"zone_3\"\tRelError: 3.75036e-04\tAbsError: 2.64036e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.18289e-08\tAbsError: 1.31607e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.84989e-08\tAbsError: 1.32430e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.74952e-04\tAbsError: 1.00632e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.25274e-09\tAbsError: 1.13210e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 8.38000e-01\tAbsError: 4.19541e+17\n", + " Region: \"zone_1\"\tRelError: 2.02810e-01\tAbsError: 3.72206e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.92418e-01\tAbsError: 3.18445e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.03924e-02\tAbsError: 3.69022e+00\n", + " Region: \"zone_3\"\tRelError: 6.35190e-01\tAbsError: 4.19541e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.22905e-01\tAbsError: 2.10016e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.09404e-01\tAbsError: 2.09524e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.92487e-01\tAbsError: 3.18460e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.03935e-02\tAbsError: 3.69072e+00\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 3.99447e-04\tAbsError: 7.75693e+09\n", + " Region: \"zone_1\"\tRelError: 2.89402e-04\tAbsError: 2.71336e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.89401e-04\tAbsError: 2.89100e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.78779e-10\tAbsError: 2.71047e-07\n", + " Region: \"zone_3\"\tRelError: 1.10046e-04\tAbsError: 7.75693e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.37898e-09\tAbsError: 3.86636e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.32737e-08\tAbsError: 3.89057e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10023e-04\tAbsError: 2.92143e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.79099e-10\tAbsError: 2.71163e-07\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.94946e-01\tAbsError: 3.72204e+16\n", + " Region: \"zone_1\"\tRelError: 1.32375e-01\tAbsError: 2.45003e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.25563e-01\tAbsError: 2.58821e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.81251e-03\tAbsError: 2.42415e+00\n", + " Region: \"zone_3\"\tRelError: 1.62571e-01\tAbsError: 3.72204e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.94379e-02\tAbsError: 1.85679e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.04649e-02\tAbsError: 1.86524e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.25823e-01\tAbsError: 2.58467e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.84508e-03\tAbsError: 2.43578e+00\n", + "Iteration: 16\n", + " Device: \"device\"\tRelError: 9.59509e-05\tAbsError: 1.84384e+09\n", + " Region: \"zone_1\"\tRelError: 6.90141e-05\tAbsError: 7.66546e-08\n", + " Equation: \"PotentialEquation\"\tRelError: 6.90138e-05\tAbsError: 7.02485e-11\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.20044e-10\tAbsError: 7.65844e-08\n", + " Region: \"zone_3\"\tRelError: 2.69368e-05\tAbsError: 1.84384e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12306e-09\tAbsError: 9.19073e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.38040e-09\tAbsError: 9.24762e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 2.69311e-05\tAbsError: 7.09816e-11\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.20134e-10\tAbsError: 7.66170e-08\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:56\u001b[0m.\u001b[1;36m861\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 1.0999999999999999\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.61360e-01\tAbsError: 3.87872e+16\n", + " Region: \"zone_1\"\tRelError: 5.16143e-02\tAbsError: 1.56589e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 4.72241e-02\tAbsError: 1.05190e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.39019e-03\tAbsError: 1.55537e+00\n", + " Region: \"zone_3\"\tRelError: 1.09746e-01\tAbsError: 3.87872e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47430e-02\tAbsError: 1.93636e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.33427e-02\tAbsError: 1.94236e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 4.72362e-02\tAbsError: 1.05208e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.42403e-03\tAbsError: 1.56733e+00\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.29423e+03\tAbsError: 2.05927e+18\n", + " Region: \"zone_1\"\tRelError: 8.20020e+01\tAbsError: 4.09537e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.20020e+01\tAbsError: 4.09537e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.43761e-11\tAbsError: 1.89251e-08\n", + " Region: \"zone_3\"\tRelError: 2.21223e+03\tAbsError: 2.05927e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.07156e-01\tAbsError: 1.02695e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.89042e-01\tAbsError: 1.03232e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 2.21103e+03\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.43983e-11\tAbsError: 1.89331e-08\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 4.12508e-02\tAbsError: 2.36362e+16\n", + " Region: \"zone_1\"\tRelError: 1.23306e-02\tAbsError: 5.50249e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07777e-02\tAbsError: 3.00426e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.55296e-03\tAbsError: 5.49949e-01\n", + " Region: \"zone_3\"\tRelError: 2.89202e-02\tAbsError: 2.36362e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.42033e-03\tAbsError: 1.18049e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.09279e-02\tAbsError: 1.18314e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10135e-02\tAbsError: 3.00426e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.55851e-03\tAbsError: 5.51737e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 4.61689e+02\tAbsError: 5.07798e+17\n", + " Region: \"zone_1\"\tRelError: 3.64692e+01\tAbsError: 1.84178e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 3.64640e+01\tAbsError: 3.07624e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.18031e-03\tAbsError: 1.81102e+00\n", + " Region: \"zone_3\"\tRelError: 4.25219e+02\tAbsError: 5.07798e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.93091e-01\tAbsError: 2.54521e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.93600e-01\tAbsError: 2.53278e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 4.24628e+02\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.18075e-03\tAbsError: 1.81120e+00\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.30456e-02\tAbsError: 5.05269e+15\n", + " Region: \"zone_1\"\tRelError: 2.57227e-03\tAbsError: 2.38651e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.50544e-03\tAbsError: 9.30864e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.68300e-05\tAbsError: 2.37721e-02\n", + " Region: \"zone_3\"\tRelError: 1.04733e-02\tAbsError: 5.05269e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.20422e-03\tAbsError: 2.49761e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.45765e-03\tAbsError: 2.55509e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74456e-03\tAbsError: 9.35381e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.68749e-05\tAbsError: 2.37885e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.49657e+00\tAbsError: 3.51966e+16\n", + " Region: \"zone_1\"\tRelError: 4.64902e-01\tAbsError: 7.04755e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.62960e-01\tAbsError: 2.58789e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94154e-03\tAbsError: 6.78876e-01\n", + " Region: \"zone_3\"\tRelError: 2.03167e+00\tAbsError: 3.51966e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.92042e-02\tAbsError: 1.76602e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.22372e-02\tAbsError: 1.75363e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.95829e+00\tAbsError: 2.58789e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94154e-03\tAbsError: 6.78876e-01\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.34859e-04\tAbsError: 4.31967e+14\n", + " Region: \"zone_1\"\tRelError: 1.54373e-04\tAbsError: 1.04332e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.25013e-04\tAbsError: 4.01967e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.93605e-05\tAbsError: 1.04292e-02\n", + " Region: \"zone_3\"\tRelError: 4.80486e-04\tAbsError: 4.31967e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.73966e-04\tAbsError: 2.14461e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.90341e-05\tAbsError: 2.17506e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.81236e-05\tAbsError: 4.04531e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.93628e-05\tAbsError: 1.04303e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 6.69589e+00\tAbsError: 5.37696e+15\n", + " Region: \"zone_1\"\tRelError: 3.73324e+00\tAbsError: 3.88180e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.73216e+00\tAbsError: 9.16423e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08076e-03\tAbsError: 3.79016e-01\n", + " Region: \"zone_3\"\tRelError: 2.96265e+00\tAbsError: 5.37696e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.56094e-03\tAbsError: 2.69855e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.01807e-03\tAbsError: 2.67840e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.95599e+00\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08076e-03\tAbsError: 3.79016e-01\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.80331e-04\tAbsError: 1.22832e+14\n", + " Region: \"zone_1\"\tRelError: 8.29661e-05\tAbsError: 8.78226e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 8.05056e-05\tAbsError: 2.87475e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.46051e-06\tAbsError: 8.75351e-04\n", + " Region: \"zone_3\"\tRelError: 2.97365e-04\tAbsError: 1.22832e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.42838e-04\tAbsError: 6.10063e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.36160e-05\tAbsError: 6.18260e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.84489e-05\tAbsError: 2.88687e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.46143e-06\tAbsError: 8.75680e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.88315e-01\tAbsError: 2.62271e+15\n", + " Region: \"zone_1\"\tRelError: 4.71922e-01\tAbsError: 5.76588e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.70275e-01\tAbsError: 6.27557e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.64666e-03\tAbsError: 5.76525e-01\n", + " Region: \"zone_3\"\tRelError: 3.16393e-01\tAbsError: 2.62271e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.49491e-02\tAbsError: 1.29724e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.95632e-03\tAbsError: 1.32547e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.97839e-01\tAbsError: 6.29832e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.64866e-03\tAbsError: 5.77242e-01\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.18220e-05\tAbsError: 9.16581e+12\n", + " Region: \"zone_1\"\tRelError: 7.98670e-06\tAbsError: 2.39440e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.31303e-06\tAbsError: 2.34929e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.73668e-07\tAbsError: 2.39205e-04\n", + " Region: \"zone_3\"\tRelError: 2.38353e-05\tAbsError: 9.16581e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.31675e-05\tAbsError: 4.59210e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.33363e-06\tAbsError: 4.57371e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.66041e-06\tAbsError: 2.35961e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.73759e-07\tAbsError: 2.39225e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 9.58997e+01\tAbsError: 3.20526e+15\n", + " Region: \"zone_1\"\tRelError: 1.29777e+01\tAbsError: 2.18715e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29777e+01\tAbsError: 1.22913e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.20649e-05\tAbsError: 2.17486e-02\n", + " Region: \"zone_3\"\tRelError: 8.29220e+01\tAbsError: 3.20526e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.66160e-03\tAbsError: 1.56677e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.59518e-03\tAbsError: 1.63849e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.29127e+01\tAbsError: 1.23738e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.20911e-05\tAbsError: 2.17577e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.68799e+00\tAbsError: 1.24428e+14\n", + " Region: \"zone_1\"\tRelError: 2.78169e+00\tAbsError: 1.62679e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78165e+00\tAbsError: 7.17419e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.64072e-05\tAbsError: 1.62607e-02\n", + " Region: \"zone_3\"\tRelError: 9.06301e-01\tAbsError: 1.24428e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.41976e-04\tAbsError: 6.19540e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.02421e-04\tAbsError: 6.24745e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.05410e-01\tAbsError: 7.21579e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.64251e-05\tAbsError: 1.62670e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:04\u001b[0m.\u001b[1;36m521\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.74817e+00\tAbsError: 1.00690e+14\n", + " Region: \"zone_1\"\tRelError: 2.14136e+00\tAbsError: 1.40275e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.14135e+00\tAbsError: 4.52029e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.00073e-06\tAbsError: 1.39823e-03\n", + " Region: \"zone_3\"\tRelError: 1.60681e+00\tAbsError: 1.00690e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.04820e-04\tAbsError: 5.01493e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.34375e-04\tAbsError: 5.05408e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.60646e+00\tAbsError: 4.54847e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.00161e-06\tAbsError: 1.39859e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.05492e-01\tAbsError: 9.06572e+12\n", + " Region: \"zone_1\"\tRelError: 4.25847e-01\tAbsError: 6.76994e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.25845e-01\tAbsError: 4.28249e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93585e-06\tAbsError: 6.76565e-04\n", + " Region: \"zone_3\"\tRelError: 1.79645e-01\tAbsError: 9.06572e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.72999e-05\tAbsError: 4.51680e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.43151e-05\tAbsError: 4.54892e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.79592e-01\tAbsError: 4.30804e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93585e-06\tAbsError: 6.76565e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.48197e-01\tAbsError: 4.50048e+12\n", + " Region: \"zone_1\"\tRelError: 1.60046e-01\tAbsError: 9.62234e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.60046e-01\tAbsError: 1.80340e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.75240e-07\tAbsError: 9.60431e-05\n", + " Region: \"zone_3\"\tRelError: 8.81510e-02\tAbsError: 4.50048e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.56637e-06\tAbsError: 2.24288e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.56618e-06\tAbsError: 2.25761e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.81336e-02\tAbsError: 1.81436e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.75295e-07\tAbsError: 9.60627e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 4.16881e-02\tAbsError: 5.87027e+11\n", + " Region: \"zone_1\"\tRelError: 2.74007e-02\tAbsError: 3.67679e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.74006e-02\tAbsError: 2.53315e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.05297e-07\tAbsError: 3.67426e-05\n", + " Region: \"zone_3\"\tRelError: 1.42874e-02\tAbsError: 5.87027e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.44350e-06\tAbsError: 2.92634e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.68502e-06\tAbsError: 2.94393e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.42841e-02\tAbsError: 2.55528e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.05309e-07\tAbsError: 3.67468e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.48230e-02\tAbsError: 2.24518e+11\n", + " Region: \"zone_1\"\tRelError: 9.67323e-03\tAbsError: 6.58649e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 9.67321e-03\tAbsError: 9.07531e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.88326e-08\tAbsError: 6.57742e-06\n", + " Region: \"zone_3\"\tRelError: 5.14973e-03\tAbsError: 2.24518e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.12497e-07\tAbsError: 1.11948e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.18689e-07\tAbsError: 1.12571e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.14878e-03\tAbsError: 9.15701e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.88397e-08\tAbsError: 6.57999e-06\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 2.80808e-03\tAbsError: 3.70977e+10\n", + " Region: \"zone_1\"\tRelError: 1.83927e-03\tAbsError: 2.15171e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.83927e-03\tAbsError: 1.71473e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.15592e-09\tAbsError: 2.15000e-06\n", + " Region: \"zone_3\"\tRelError: 9.68805e-04\tAbsError: 3.70977e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.10516e-08\tAbsError: 1.85046e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.09611e-07\tAbsError: 1.85931e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 9.68608e-04\tAbsError: 1.72971e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.15824e-09\tAbsError: 2.15085e-06\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 8.73376e-04\tAbsError: 1.21033e+10\n", + " Region: \"zone_1\"\tRelError: 5.71066e-04\tAbsError: 4.32120e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 5.71065e-04\tAbsError: 5.34362e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.23573e-09\tAbsError: 4.31585e-07\n", + " Region: \"zone_3\"\tRelError: 3.02310e-04\tAbsError: 1.21033e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.19763e-08\tAbsError: 6.03773e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.10528e-08\tAbsError: 6.06556e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.02256e-04\tAbsError: 5.39200e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.23623e-09\tAbsError: 4.31772e-07\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 1.80868e-04\tAbsError: 2.31864e+09\n", + " Region: \"zone_1\"\tRelError: 1.18462e-04\tAbsError: 1.27109e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18462e-04\tAbsError: 1.10538e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.63622e-10\tAbsError: 1.26998e-07\n", + " Region: \"zone_3\"\tRelError: 6.24053e-05\tAbsError: 2.31864e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73488e-09\tAbsError: 1.15691e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.90572e-09\tAbsError: 1.16172e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 6.23933e-05\tAbsError: 1.11505e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.63771e-10\tAbsError: 1.27053e-07\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 5.16278e-05\tAbsError: 6.84005e+08\n", + " Region: \"zone_1\"\tRelError: 3.37813e-05\tAbsError: 2.73846e-08\n", + " Equation: \"PotentialEquation\"\tRelError: 3.37812e-05\tAbsError: 3.15860e-11\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.83172e-11\tAbsError: 2.73530e-08\n", + " Region: \"zone_3\"\tRelError: 1.78465e-05\tAbsError: 6.84005e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.24266e-09\tAbsError: 3.41303e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.85743e-09\tAbsError: 3.42702e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 1.78433e-05\tAbsError: 3.18691e-11\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.83488e-11\tAbsError: 2.73645e-08\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:11\u001b[0m.\u001b[1;36m280\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 1.2\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.69357e+00\tAbsError: 2.66495e+18\n", + " Region: \"zone_1\"\tRelError: 4.21216e+00\tAbsError: 4.09534e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.21216e+00\tAbsError: 4.09534e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.15817e-11\tAbsError: 7.53761e-09\n", + " Region: \"zone_3\"\tRelError: 2.48140e+00\tAbsError: 2.66495e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.26904e-01\tAbsError: 1.33117e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.18950e-01\tAbsError: 1.33378e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43555e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.15905e-11\tAbsError: 7.54080e-09\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 9.11083e-01\tAbsError: 4.29693e+17\n", + " Region: \"zone_1\"\tRelError: 2.33260e-01\tAbsError: 3.01190e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 2.24815e-01\tAbsError: 3.07620e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.44504e-03\tAbsError: 2.98114e+00\n", + " Region: \"zone_3\"\tRelError: 6.77823e-01\tAbsError: 4.29693e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.26134e-01\tAbsError: 2.15151e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.18205e-01\tAbsError: 2.14542e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 2.25038e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.44618e-03\tAbsError: 2.98144e+00\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 3.98015e-01\tAbsError: 3.44260e+16\n", + " Region: \"zone_1\"\tRelError: 1.67630e-01\tAbsError: 4.32385e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55559e-01\tAbsError: 2.58776e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20711e-02\tAbsError: 4.29797e+00\n", + " Region: \"zone_3\"\tRelError: 2.30385e-01\tAbsError: 3.44260e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.28242e-02\tAbsError: 1.71675e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.96798e-02\tAbsError: 1.72585e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55792e-01\tAbsError: 2.58613e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20893e-02\tAbsError: 4.30461e+00\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.88268e-01\tAbsError: 5.44887e+16\n", + " Region: \"zone_1\"\tRelError: 8.11123e-02\tAbsError: 3.74063e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 7.05212e-02\tAbsError: 9.16402e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.05911e-02\tAbsError: 3.73147e+00\n", + " Region: \"zone_3\"\tRelError: 2.07156e-01\tAbsError: 5.44887e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.14920e-02\tAbsError: 2.71499e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.19391e-02\tAbsError: 2.73388e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 7.31159e-02\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06092e-02\tAbsError: 3.73794e+00\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.46664e-01\tAbsError: 4.08487e+16\n", + " Region: \"zone_1\"\tRelError: 4.56801e-02\tAbsError: 3.69590e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.46303e-02\tAbsError: 6.80823e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.04978e-03\tAbsError: 3.68909e-01\n", + " Region: \"zone_3\"\tRelError: 1.00984e-01\tAbsError: 4.08487e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47873e-02\tAbsError: 2.03982e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.89178e-02\tAbsError: 2.04505e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 4.62262e-02\tAbsError: 6.81912e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.05310e-03\tAbsError: 3.70023e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 7.50047e-03\tAbsError: 3.65688e+15\n", + " Region: \"zone_1\"\tRelError: 1.17570e-03\tAbsError: 5.54688e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01812e-03\tAbsError: 2.86291e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.57580e-04\tAbsError: 5.54401e-02\n", + " Region: \"zone_3\"\tRelError: 6.32477e-03\tAbsError: 3.65688e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.94960e-03\tAbsError: 1.81551e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.15827e-03\tAbsError: 1.84137e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.05928e-03\tAbsError: 2.88541e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.57617e-04\tAbsError: 5.54541e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.05325e-03\tAbsError: 7.39656e+14\n", + " Region: \"zone_1\"\tRelError: 1.05635e-03\tAbsError: 4.72946e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04302e-03\tAbsError: 1.25154e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.33385e-05\tAbsError: 4.71694e-03\n", + " Region: \"zone_3\"\tRelError: 1.99689e-03\tAbsError: 7.39656e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.06585e-04\tAbsError: 3.69865e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.95891e-04\tAbsError: 3.69791e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08107e-03\tAbsError: 1.26067e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.33460e-05\tAbsError: 4.71960e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.02228e-04\tAbsError: 7.07967e+13\n", + " Region: \"zone_1\"\tRelError: 5.25423e-05\tAbsError: 1.84411e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 4.72968e-05\tAbsError: 8.14577e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.24545e-06\tAbsError: 1.84329e-03\n", + " Region: \"zone_3\"\tRelError: 1.49686e-04\tAbsError: 7.07967e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.00882e-05\tAbsError: 3.51107e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.52399e-05\tAbsError: 3.56860e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.91100e-05\tAbsError: 8.19808e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.24790e-06\tAbsError: 1.84419e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 9.93368e-05\tAbsError: 1.98300e+13\n", + " Region: \"zone_1\"\tRelError: 3.45670e-05\tAbsError: 1.74429e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.40718e-05\tAbsError: 4.08047e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.95220e-07\tAbsError: 1.74021e-04\n", + " Region: \"zone_3\"\tRelError: 6.47697e-05\tAbsError: 1.98300e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.78567e-06\tAbsError: 9.91314e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.41541e-05\tAbsError: 9.91687e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.53344e-05\tAbsError: 4.11038e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.95524e-07\tAbsError: 1.74130e-04\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:19\u001b[0m.\u001b[1;36m618\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 1.3\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.74984e+00\tAbsError: 2.99427e+18\n", + " Region: \"zone_1\"\tRelError: 1.22014e+00\tAbsError: 4.10265e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.22014e+00\tAbsError: 4.09531e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.08768e-07\tAbsError: 7.33628e-05\n", + " Region: \"zone_3\"\tRelError: 1.52970e+00\tAbsError: 2.99427e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.68781e-01\tAbsError: 1.49643e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.58888e-01\tAbsError: 1.49783e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 6.02035e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.08870e-07\tAbsError: 7.33999e-05\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 7.11354e-01\tAbsError: 3.39922e+17\n", + " Region: \"zone_1\"\tRelError: 1.62508e-01\tAbsError: 4.20847e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.50825e-01\tAbsError: 3.07616e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.16823e-02\tAbsError: 4.17771e+00\n", + " Region: \"zone_3\"\tRelError: 5.48846e-01\tAbsError: 3.39922e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.02912e-01\tAbsError: 1.70116e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.83391e-01\tAbsError: 1.69806e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.50859e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.16835e-02\tAbsError: 4.17814e+00\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.39788e-01\tAbsError: 5.48577e+16\n", + " Region: \"zone_1\"\tRelError: 1.05133e-01\tAbsError: 2.52094e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 9.81720e-02\tAbsError: 2.58708e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.96071e-03\tAbsError: 2.49507e+00\n", + " Region: \"zone_3\"\tRelError: 1.34655e-01\tAbsError: 5.48577e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.44445e-02\tAbsError: 2.73900e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.50754e-02\tAbsError: 2.74677e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 9.81720e-02\tAbsError: 2.58708e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.96305e-03\tAbsError: 2.49588e+00\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.46801e-01\tAbsError: 5.16511e+16\n", + " Region: \"zone_1\"\tRelError: 3.82516e-02\tAbsError: 1.66960e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 3.35977e-02\tAbsError: 9.16363e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.65383e-03\tAbsError: 1.66044e+00\n", + " Region: \"zone_3\"\tRelError: 1.08549e-01\tAbsError: 5.16511e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.50546e-02\tAbsError: 2.58130e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.52331e-02\tAbsError: 2.58381e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.36049e-02\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.65675e-03\tAbsError: 1.66145e+00\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 4.18420e-02\tAbsError: 3.01642e+16\n", + " Region: \"zone_1\"\tRelError: 1.00205e-02\tAbsError: 3.09336e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 9.14415e-03\tAbsError: 3.58905e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.76318e-04\tAbsError: 3.08977e-01\n", + " Region: \"zone_3\"\tRelError: 3.18216e-02\tAbsError: 3.01642e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.57299e-03\tAbsError: 1.50610e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.30870e-02\tAbsError: 1.51033e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 9.28151e-03\tAbsError: 3.59005e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.80063e-04\tAbsError: 3.10394e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.19199e-03\tAbsError: 3.33433e+15\n", + " Region: \"zone_1\"\tRelError: 7.32131e-04\tAbsError: 2.20514e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.70631e-04\tAbsError: 3.80425e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.14997e-05\tAbsError: 2.20134e-02\n", + " Region: \"zone_3\"\tRelError: 5.45986e-03\tAbsError: 3.33433e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.47884e-03\tAbsError: 1.65513e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.44744e-04\tAbsError: 1.67921e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 4.74729e-04\tAbsError: 3.80514e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.15473e-05\tAbsError: 2.20319e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.71686e-04\tAbsError: 6.22919e+14\n", + " Region: \"zone_1\"\tRelError: 7.57987e-05\tAbsError: 4.41710e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.34842e-05\tAbsError: 4.90940e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.23145e-05\tAbsError: 4.41219e-03\n", + " Region: \"zone_3\"\tRelError: 3.95887e-04\tAbsError: 6.22919e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.19030e-04\tAbsError: 3.10182e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.00016e-04\tAbsError: 3.12737e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.45237e-05\tAbsError: 4.91118e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.23180e-05\tAbsError: 4.41341e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.23949e-04\tAbsError: 6.05361e+13\n", + " Region: \"zone_1\"\tRelError: 2.06195e-05\tAbsError: 8.14059e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.83500e-05\tAbsError: 1.11800e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.26953e-06\tAbsError: 8.12941e-04\n", + " Region: \"zone_3\"\tRelError: 1.03330e-04\tAbsError: 6.05361e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.60362e-05\tAbsError: 3.03412e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.74075e-05\tAbsError: 3.01949e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.76158e-05\tAbsError: 1.12220e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.27050e-06\tAbsError: 8.13295e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.75170e-05\tAbsError: 8.97976e+12\n", + " Region: \"zone_1\"\tRelError: 2.87179e-06\tAbsError: 8.96839e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.62152e-06\tAbsError: 1.74588e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.50268e-07\tAbsError: 8.95093e-05\n", + " Region: \"zone_3\"\tRelError: 1.46452e-05\tAbsError: 8.97976e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.00137e-05\tAbsError: 4.44041e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.14437e-06\tAbsError: 4.53935e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.23658e-06\tAbsError: 1.75366e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.50560e-07\tAbsError: 8.96198e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:29\u001b[0m.\u001b[1;36m537\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:30\u001b[0m.\u001b[1;36m580\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m 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5.8727\u001b[0m \n" + ] + }, + { + "data": { + "text/plain": [ + "CompletedProcess(args=['cp', 'output/simulation_data.hdf5', 'tmp_Ba_example_cst/'], returncode=0)" + ] + }, + "execution_count": 17, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "results_cst = run_heat_sim(sim=sim_cst, log_level=\"DEBUG\")\n", + "subprocess.run([\"cp\", \"-r\", \"tmp\", \"tmp_Ba_example_cst\"]) \n", + "subprocess.run([\"cp\", \"output/simulation_data.hdf5\", \"tmp_Ba_example_cst/\"]) " + ] + }, + { + "cell_type": "code", + "execution_count": 18, + "id": "f2db1025-950c-4c15-a7c0-4980022d1ebd", + "metadata": { + "scrolled": true + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:36\u001b[0m.\u001b[1;36m815\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mSetting up heat-charge simulation.\u001b[0m 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"\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:36\u001b[0m.\u001b[1;36m960\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a single structure:\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:36\u001b[0m.\u001b[1;36m977\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a Box.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:36\u001b[0m.\u001b[1;36m996\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a single structure:\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m012\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a Box.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m028\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a single structure:\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m040\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a Box.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m051\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a single structure:\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m062\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a Box.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m070\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd adding structures to mesh.\u001b[0m \n" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "Warning : Logger already started - ignoring\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m078\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing refinement region.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m090\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd processing refinement region.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m101\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing refinement region.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m113\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd processing refinement region.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m121\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing refinement region.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m129\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd processing refinement region.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m137\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing refinement region.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m147\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd processing refinement region.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m157\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing refinement region.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m168\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd processing refinement region.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m179\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing refinement region.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m190\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd processing refinement region.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m200\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin adding monitors.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m211\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd adding monitors.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m219\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin combining added structures.\u001b[0m \n", + "Debug : BOOL (2,1) other \n", + "Debug : BOOL (3,1) replaced by 1\n", + "Debug : BOOL (3,2) other\n", + "Debug : BOOL (3,3) replaced by 1\n", + "Debug : BOOL (3,4) replaced by 1\n", + "Debug : BOOL (3,5) replaced by 1\n", + "Debug : BOOL (3,6) other\n", + "Debug : BOOL (2,38) other\n", + "Debug : BOOL (2,39) other\n", + "Debug : BOOL (2,40) other\n", + "Debug : BOOL (2,41) other\n", + "Debug : BOOL (2,42) other\n", + "Debug : BOOL (2,43) other\n", + "Debug : BOOL (2,44) other\n", + "Debug : BOOL (2,45) other\n", + "Debug : BOOL (2,46) other\n", + "Debug : BOOL (2,47) other\n", + "Debug : BOOL (2,48) other\n", + "Debug : BOOL (2,49) other\n", + "Debug : BOOL in (2,1) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", + "Debug : BOOL in (3,1) -> out (3,1)\n", + "Debug : BOOL in (3,2) -> out (3,6) (3,5) (3,3) (3,7) (3,8) (3,4) (3,9)\n", + "Debug : BOOL in (3,3) -> out (3,3)\n", + "Debug : BOOL in (3,4) -> out (3,4)\n", + "Debug : BOOL in (3,5) -> out (3,5)\n", + "Debug : BOOL in (3,6) -> out (3,9) (3,8)\n", + "Debug : BOOL in (2,38) -> out (2,13) (2,48) (2,49)\n", + "Debug : BOOL in (2,39) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", + "Debug : BOOL in (2,40) -> out (2,8) (2,51) (2,54)\n", + "Debug : BOOL in (2,41) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", + "Debug : BOOL in (2,42) -> out (2,11) (2,60) (2,37) (2,43)\n", + "Debug : BOOL in (2,43) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", + "Debug : BOOL in (2,44) -> out (2,10) (2,63) (2,44) (2,38)\n", + "Debug : BOOL in (2,45) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", + "Debug : BOOL in (2,46) -> out (2,12) (2,53) (2,36)\n", + "Debug : BOOL in (2,47) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", + "Debug : BOOL in (2,48) -> out (2,9) (2,58) (2,39)\n", + "Debug : BOOL in (2,49) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m319\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd adding structures to mesh.\u001b[0m \n", + "Debug : Syncing OCC_Internals with GModel\n", + "Debug : Sync is removing 377 model entities\n", + "Debug : Destroying 0 entities in model\n", + "Debug : OCCRTree found 3 matches at (-2.5,-2.09,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 3 matches at (-2.5,-2.09,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 3 matches at (-2.5,-2.09,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 3 matches at (-2.5,-2.09,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 3 matches at (-2.5,-2.09,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 3 matches at (-2.5,-2.09,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 3 matches at (2.5,-2.09,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 3 matches at (2.5,-2.09,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 3 matches at (2.5,-2.09,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 3 matches at (2.5,-2.09,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 3 matches at (2.5,-2.09,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 3 matches at (2.5,-2.09,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (2.4,-2.09,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (2.4,-2.09,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (2.4,-2.09,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.4,-2.09,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.4,-2.09,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.4,-2.09,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-0.09,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-0.09,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-0.09,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.29,-0.09,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.29,-0.09,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.29,-0.09,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at 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tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.4,1.1025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.4,1.1025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.4,1.1025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-0.19,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-0.19,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-0.19,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0.31,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0.31,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0.31,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0.19,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0.19,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0.19,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-2.5,-2.47,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-2.5,-2.47,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-2.5,-2.47,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-2.5,-2.28,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-2.5,-2.28,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-2.5,-2.28,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-2.5,-2.28,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-2.5,-2.28,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-2.5,-2.28,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0,-2.47,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0,-2.47,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0,-2.47,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-2.47,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-2.47,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-2.47,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0,-2.47,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0,-2.47,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0,-2.47,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-2.28,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-2.28,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-2.28,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-2.28,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-2.28,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-2.28,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-0.045,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-0.045,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,-0.045,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,0.25,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,0.25,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,0.25,0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,0.25,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,0.25,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.5,0.25,-0.55) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 7 - new wire\n", + "Debug : Curve 8 (7 --> 8) ori 1\n", + "Debug : Curve 42 (8 --> 34) ori 1\n", + "Debug : Curve 41 (33 --> 34) ori -1\n", + "Debug : Curve 40 (11 --> 33) ori -1\n", + "Debug : Curve 14 (13 --> 11) ori -1\n", + "Debug : Curve 39 (32 --> 13) ori -1\n", + "Debug : Curve 38 (31 --> 32) ori -1\n", + "Debug : Curve 37 (14 --> 31) ori -1\n", + "Debug : Curve 16 (15 --> 14) ori -1\n", + "Debug : Curve 36 (30 --> 15) ori -1\n", + "Debug : Curve 35 (29 --> 30) ori -1\n", + "Debug : Curve 34 (16 --> 29) ori -1\n", + "Debug : Curve 18 (17 --> 16) ori -1\n", + "Debug : Curve 33 (28 --> 17) ori -1\n", + "Debug : Curve 32 (27 --> 28) ori -1\n", + "Debug : Curve 31 (18 --> 27) ori -1\n", + "Debug : Curve 20 (19 --> 18) ori -1\n", + "Debug : Curve 30 (26 --> 19) ori -1\n", + "Debug : Curve 29 (25 --> 26) ori -1\n", + "Debug : Curve 28 (20 --> 25) ori -1\n", + "Debug : Curve 22 (21 --> 20) ori -1\n", + "Debug : Curve 27 (24 --> 21) ori -1\n", + "Debug : Curve 26 (23 --> 24) ori -1\n", + "Debug : Curve 25 (23 --> 7) ori 1\n", + "Debug : OCC surface 7 with 24 parameter bounds (-2.4,2.4)(-1.545,0.455)\n", + "Debug : OCCRTree found 1 matches at (0,-1.09,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,-1.09,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,-1.09,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 8 - new wire\n", + "Debug : Curve 43 (22 --> 23) ori 1\n", + "Debug : Curve 26 (23 --> 24) ori 1\n", + "Debug : Curve 27 (24 --> 21) ori 1\n", + "Debug : Curve 23 (22 --> 21) ori -1\n", + "Debug : OCC surface 8 with 4 parameter bounds (-2.4,-2.29)(0.45,0.455)\n", + "Debug : OCCRTree found 1 matches at (2.345,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (2.345,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (2.345,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 9 - new wire\n", + "Debug : Curve 21 (20 --> 19) ori -1\n", + "Debug : Curve 28 (20 --> 25) ori 1\n", + "Debug : Curve 29 (25 --> 26) ori 1\n", + "Debug : Curve 30 (26 --> 19) ori 1\n", + "Debug : OCC surface 9 with 4 parameter bounds (-1.31,-1.19)(0.45,0.455)\n", + "Debug : OCCRTree found 1 matches at (1.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (1.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (1.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 10 - new wire\n", + "Debug : Curve 19 (18 --> 17) ori -1\n", + "Debug : Curve 31 (18 --> 27) ori 1\n", + "Debug : Curve 32 (27 --> 28) ori 1\n", + "Debug : Curve 33 (28 --> 17) ori 1\n", + "Debug : OCC surface 10 with 4 parameter bounds (-0.31,-0.19)(0.45,0.455)\n", + "Debug : OCCRTree found 1 matches at (0.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 11 - new wire\n", + "Debug : Curve 36 (30 --> 15) ori 1\n", + "Debug : Curve 17 (16 --> 15) ori -1\n", + "Debug : Curve 34 (16 --> 29) ori 1\n", + "Debug : Curve 35 (29 --> 30) ori 1\n", + "Debug : OCC surface 11 with 4 parameter bounds (0.19,0.31)(0.45,0.455)\n", + "Debug : OCCRTree found 1 matches at (-0.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-0.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-0.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 12 - new wire\n", + "Debug : Curve 39 (32 --> 13) ori 1\n", + "Debug : Curve 15 (14 --> 13) ori -1\n", + "Debug : Curve 37 (14 --> 31) ori 1\n", + "Debug : Curve 38 (31 --> 32) ori 1\n", + "Debug : OCC surface 12 with 4 parameter bounds (1.19,1.31)(0.45,0.455)\n", + "Debug : OCCRTree found 1 matches at (-1.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-1.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-1.25,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 13 - new wire\n", + "Debug : Curve 41 (33 --> 34) ori 1\n", + "Debug : Curve 44 (34 --> 12) ori 1\n", + "Debug : Curve 13 (11 --> 12) ori -1\n", + "Debug : Curve 40 (11 --> 33) ori 1\n", + "Debug : OCC surface 13 with 4 parameter bounds (2.29,2.4)(0.45,0.455)\n", + "Debug : OCCRTree found 1 matches at (-2.345,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.345,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.345,-0.0925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 35 - new wire\n", + "Debug : Curve 93 (70 --> 72) ori 1\n", + "Debug : Curve 118 (72 --> 51) ori 1\n", + "Debug : Curve 62 (50 --> 51) ori -1\n", + "Debug : Curve 117 (50 --> 55) ori 1\n", + "Debug : Curve 68 (55 --> 54) ori 1\n", + "Debug : Curve 70 (56 --> 54) ori -1\n", + "Debug : Curve 74 (56 --> 60) ori 1\n", + "Debug : Curve 116 (84 --> 60) ori -1\n", + "Debug : Curve 115 (83 --> 84) ori -1\n", + "Debug : Curve 114 (59 --> 83) ori -1\n", + "Debug : Curve 72 (59 --> 57) ori 1\n", + "Debug : Curve 113 (82 --> 57) ori -1\n", + "Debug : Curve 112 (62 --> 82) ori -1\n", + "Debug : Curve 77 (62 --> 61) ori 1\n", + "Debug : Curve 80 (61 --> 63) ori 1\n", + "Debug : Curve 82 (65 --> 63) ori -1\n", + "Debug : Curve 111 (81 --> 65) ori -1\n", + "Debug : Curve 110 (69 --> 81) ori -1\n", + "Debug : Curve 86 (69 --> 68) ori 1\n", + "Debug : Curve 109 (80 --> 68) ori -1\n", + "Debug : Curve 108 (79 --> 80) ori -1\n", + "Debug : Curve 107 (66 --> 79) ori -1\n", + "Debug : Curve 84 (66 --> 67) ori 1\n", + "Debug : Curve 90 (67 --> 70) ori 1\n", + "Debug : OCC surface 35 with 24 parameter bounds (-2.4,2.4)(0.545,1.545)\n", + "Debug : OCCRTree found 1 matches at (0,0.5,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,0.5,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,0.5,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 36 - new wire\n", + "Debug : Curve 85 (68 --> 66) ori 1\n", + "Debug : Curve 107 (66 --> 79) ori 1\n", + "Debug : Curve 108 (79 --> 80) ori 1\n", + "Debug : Curve 109 (80 --> 68) ori 1\n", + "Debug : OCC surface 36 with 4 parameter bounds (1.19,1.31)(0.545,0.55)\n", + "Debug : OCCRTree found 1 matches at (-1.25,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-1.25,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-1.25,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 37 - new wire\n", + "Debug : Curve 87 (64 --> 69) ori 1\n", + "Debug : Curve 110 (69 --> 81) ori 1\n", + "Debug : Curve 111 (81 --> 65) ori 1\n", + "Debug : Curve 83 (64 --> 65) ori -1\n", + "Debug : OCC surface 37 with 4 parameter bounds (0.25,0.31)(0.545,0.55)\n", + "Debug : OCCRTree found 1 matches at (-0.28,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-0.28,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-0.28,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 38 - new wire\n", + "Debug : Curve 113 (82 --> 57) ori 1\n", + "Debug : Curve 71 (57 --> 58) ori 1\n", + "Debug : Curve 78 (58 --> 62) ori 1\n", + "Debug : Curve 112 (62 --> 82) ori 1\n", + "Debug : OCC surface 38 with 4 parameter bounds (-0.31,-0.25)(0.545,0.55)\n", + "Debug : OCCRTree found 1 matches at (0.28,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0.28,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0.28,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 39 - new wire\n", + "Debug : Curve 116 (84 --> 60) ori 1\n", + "Debug : Curve 73 (60 --> 59) ori 1\n", + "Debug : Curve 114 (59 --> 83) ori 1\n", + "Debug : Curve 115 (83 --> 84) ori 1\n", + "Debug : OCC surface 39 with 4 parameter bounds (-1.31,-1.19)(0.545,0.55)\n", + "Debug : OCCRTree found 1 matches at (1.25,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (1.25,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (1.25,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 42 - new wire\n", + "Debug : Curve 121 (86 --> 85) ori 1\n", + "Debug : Curve 126 (88 --> 85) ori -1\n", + "Debug : Curve 125 (65 --> 88) ori -1\n", + "Debug : Curve 82 (65 --> 63) ori 1\n", + "Debug : Curve 80 (61 --> 63) ori -1\n", + "Debug : Curve 77 (62 --> 61) ori -1\n", + "Debug : Curve 124 (87 --> 62) ori -1\n", + "Debug : Curve 123 (86 --> 87) ori -1\n", + "Debug : OCC surface 42 with 8 parameter bounds (-0.25,0.25)(0.545,0.765)\n", + "Debug : OCCRTree found 1 matches at (0,0.11,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,0.11,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,0.11,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 43 - new wire\n", + "Debug : Curve 120 (85 --> 64) ori 1\n", + "Debug : Curve 83 (64 --> 65) ori 1\n", + "Debug : Curve 125 (65 --> 88) ori 1\n", + "Debug : Curve 126 (88 --> 85) ori 1\n", + "Debug : OCC surface 43 with 4 parameter bounds (0.19,0.25)(0.545,0.55)\n", + "Debug : OCCRTree found 1 matches at (-0.22,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-0.22,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-0.22,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 44 - new wire\n", + "Debug : Curve 122 (58 --> 86) ori 1\n", + "Debug : Curve 123 (86 --> 87) ori 1\n", + "Debug : Curve 124 (87 --> 62) ori 1\n", + "Debug : Curve 78 (58 --> 62) ori -1\n", + "Debug : OCC surface 44 with 4 parameter bounds (-0.25,-0.19)(0.545,0.55)\n", + "Debug : OCCRTree found 1 matches at (0.22,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0.22,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0.22,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 47 - new wire\n", + "Debug : Curve 128 (89 --> 90) ori 1\n", + "Debug : Curve 130 (90 --> 8) ori 1\n", + "Debug : Curve 8 (7 --> 8) ori -1\n", + "Debug : Curve 129 (7 --> 89) ori 1\n", + "Debug : OCC surface 47 with 4 parameter bounds (-2.4,2.4)(-1.75,-1.545)\n", + "Debug : OCCRTree found 1 matches at (0,-2.1925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,-2.1925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,-2.1925,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 48 - new wire\n", + "Debug : Curve 13 (11 --> 12) ori 1\n", + "Debug : Curve 133 (12 --> 92) ori 1\n", + "Debug : Curve 132 (91 --> 92) ori -1\n", + "Debug : Curve 131 (91 --> 11) ori 1\n", + "Debug : OCC surface 48 with 4 parameter bounds (2.29,2.4)(0.455,0.545)\n", + "Debug : OCCRTree found 2 matches at (-2.345,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-2.345,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-2.345,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 49 - new wire\n", + "Debug : Curve 132 (91 --> 92) ori 1\n", + "Debug : Curve 136 (92 --> 94) ori 1\n", + "Debug : Curve 135 (94 --> 93) ori 1\n", + "Debug : Curve 134 (93 --> 91) ori 1\n", + "Debug : OCC surface 49 with 4 parameter bounds (2.29,2.4)(0.545,0.55)\n", + "Debug : OCCRTree found 1 matches at (-2.345,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.345,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.345,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 50 - new wire\n", + "Debug : Curve 14 (13 --> 11) ori 1\n", + "Debug : Curve 131 (91 --> 11) ori -1\n", + "Debug : Curve 138 (67 --> 91) ori -1\n", + "Debug : Curve 84 (66 --> 67) ori -1\n", + "Debug : Curve 137 (13 --> 66) ori -1\n", + "Debug : OCC surface 50 with 5 parameter bounds (1.31,2.29)(0.455,0.545)\n", + "Debug : OCCRTree found 1 matches at (-1.8,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-1.8,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-1.8,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 51 - new wire\n", + "Debug : Curve 139 (95 --> 22) ori 1\n", + "Debug : Curve 23 (22 --> 21) ori 1\n", + "Debug : Curve 141 (21 --> 96) ori 1\n", + "Debug : Curve 140 (95 --> 96) ori -1\n", + "Debug : OCC surface 51 with 4 parameter bounds (-2.4,-2.29)(0.455,0.545)\n", + "Debug : OCCRTree found 2 matches at (2.345,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.345,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (2.345,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 52 - new wire\n", + "Debug : Curve 135 (94 --> 93) ori -1\n", + "Debug : Curve 142 (94 --> 72) ori 1\n", + "Debug : Curve 93 (70 --> 72) ori -1\n", + "Debug : Curve 90 (67 --> 70) ori -1\n", + "Debug : Curve 138 (67 --> 91) ori 1\n", + "Debug : Curve 134 (93 --> 91) ori -1\n", + "Debug : OCC surface 52 with 6 parameter bounds (2,2.4)(0.545,1.045)\n", + "Debug : OCCRTree found 1 matches at (-2.2,0.25,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.2,0.25,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-2.2,0.25,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 53 - new wire\n", + "Debug : Curve 15 (14 --> 13) ori 1\n", + "Debug : Curve 137 (13 --> 66) ori 1\n", + "Debug : Curve 85 (68 --> 66) ori -1\n", + "Debug : Curve 143 (68 --> 14) ori 1\n", + "Debug : OCC surface 53 with 4 parameter bounds (1.19,1.31)(0.455,0.545)\n", + "Debug : OCCRTree found 2 matches at (-1.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-1.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-1.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 54 - new wire\n", + "Debug : Curve 144 (97 --> 95) ori 1\n", + "Debug : Curve 140 (95 --> 96) ori 1\n", + "Debug : Curve 146 (96 --> 98) ori 1\n", + "Debug : Curve 145 (98 --> 97) ori 1\n", + "Debug : OCC surface 54 with 4 parameter bounds (-2.4,-2.29)(0.545,0.55)\n", + "Debug : OCCRTree found 1 matches at (2.345,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (2.345,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (2.345,0.0025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 55 - new wire\n", + "Debug : Curve 141 (21 --> 96) ori -1\n", + "Debug : Curve 22 (21 --> 20) ori 1\n", + "Debug : Curve 148 (60 --> 20) ori -1\n", + "Debug : Curve 74 (56 --> 60) ori -1\n", + "Debug : Curve 147 (96 --> 56) ori -1\n", + "Debug : OCC surface 55 with 5 parameter bounds (-2.29,-1.31)(0.455,0.545)\n", + "Debug : OCCRTree found 1 matches at (1.8,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (1.8,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (1.8,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 56 - new wire\n", + "Debug : Curve 16 (15 --> 14) ori 1\n", + "Debug : Curve 143 (68 --> 14) ori -1\n", + "Debug : Curve 86 (69 --> 68) ori -1\n", + "Debug : Curve 149 (15 --> 69) ori -1\n", + "Debug : OCC surface 56 with 4 parameter bounds (0.31,1.19)(0.455,0.545)\n", + "Debug : OCCRTree found 1 matches at (-0.75,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-0.75,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (-0.75,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 57 - new wire\n", + "Debug : Curve 150 (55 --> 97) ori 1\n", + "Debug : Curve 145 (98 --> 97) ori -1\n", + "Debug : Curve 146 (96 --> 98) ori -1\n", + "Debug : Curve 147 (96 --> 56) ori 1\n", + "Debug : Curve 70 (56 --> 54) ori 1\n", + "Debug : Curve 68 (55 --> 54) ori -1\n", + "Debug : OCC surface 57 with 6 parameter bounds (-2.4,-2)(0.545,1.045)\n", + "Debug : OCCRTree found 1 matches at (2.2,0.25,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (2.2,0.25,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (2.2,0.25,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 58 - new wire\n", + "Debug : Curve 148 (60 --> 20) ori 1\n", + "Debug : Curve 21 (20 --> 19) ori 1\n", + "Debug : Curve 151 (19 --> 59) ori 1\n", + "Debug : Curve 73 (60 --> 59) ori -1\n", + "Debug : OCC surface 58 with 4 parameter bounds (-1.31,-1.19)(0.455,0.545)\n", + "Debug : OCCRTree found 2 matches at (1.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (1.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (1.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 59 - new wire\n", + "Debug : Curve 62 (50 --> 51) ori 1\n", + "Debug : Curve 154 (51 --> 100) ori 1\n", + "Debug : Curve 153 (100 --> 99) ori 1\n", + "Debug : Curve 152 (99 --> 50) ori 1\n", + "Debug : OCC surface 59 with 4 parameter bounds (-2.4,2.4)(1.545,1.75)\n", + "Debug : OCCRTree found 1 matches at (0,1.1025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,1.1025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,1.1025,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 60 - new wire\n", + "Debug : Curve 17 (16 --> 15) ori 1\n", + "Debug : Curve 149 (15 --> 69) ori 1\n", + "Debug : Curve 87 (64 --> 69) ori -1\n", + "Debug : Curve 120 (85 --> 64) ori -1\n", + "Debug : Curve 155 (85 --> 16) ori 1\n", + "Debug : OCC surface 60 with 5 parameter bounds (0.19,0.31)(0.455,0.545)\n", + "Debug : OCCRTree found 2 matches at (-0.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-0.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (-0.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 61 - new wire\n", + "Debug : Curve 151 (19 --> 59) ori -1\n", + "Debug : Curve 20 (19 --> 18) ori 1\n", + "Debug : Curve 156 (57 --> 18) ori -1\n", + "Debug : Curve 72 (59 --> 57) ori -1\n", + "Debug : OCC surface 61 with 4 parameter bounds (-1.19,-0.31)(0.455,0.545)\n", + "Debug : OCCRTree found 1 matches at (0.75,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0.75,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0.75,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 62 - new wire\n", + "Debug : Curve 18 (17 --> 16) ori 1\n", + "Debug : Curve 155 (85 --> 16) ori -1\n", + "Debug : Curve 121 (86 --> 85) ori -1\n", + "Debug : Curve 157 (17 --> 86) ori -1\n", + "Debug : OCC surface 62 with 4 parameter bounds (-0.19,0.19)(0.455,0.545)\n", + "Debug : OCCRTree found 1 matches at (0,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 1 matches at (0,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCC surface 63 - new wire\n", + "Debug : Curve 156 (57 --> 18) ori 1\n", + "Debug : Curve 19 (18 --> 17) ori 1\n", + "Debug : Curve 157 (17 --> 86) ori 1\n", + "Debug : Curve 122 (58 --> 86) ori -1\n", + "Debug : Curve 71 (57 --> 58) ori -1\n", + "Debug : OCC surface 63 with 5 parameter bounds (-0.31,-0.19)(0.455,0.545)\n", + "Debug : OCCRTree found 2 matches at (0.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : OCCRTree found 2 matches at (0.25,-0.045,0) in tree of size 654\n", + "Debug : OCCRtree 0 matches after bounding box filtering\n", + "Debug : GModel imported:\n", + "Debug : 81 points\n", + "Debug : 110 curves\n", + "Debug : 32 surfaces\n", + "Debug : 0 volumes\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m346\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin constructing surface dictionary.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m359\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd constructing surface dictionary.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m369\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin create volume zones.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m380\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd create volume zones.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m390\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin create surface zones.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m405\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mContinue create surface zones.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m417\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd create surface zones.\u001b[0m \n", + "Debug : Decoded option name 'Mesh' . 'MeshSizeExtendFromBoundary' (index 0)\n", + "Debug : Decoded option name 'Mesh' . 'MeshSizeFromPoints' (index 0)\n", + "Debug : Decoded option name 'Mesh' . 'MeshSizeFromCurvature' (index 0)\n", + "Debug : Destroying 28 entities in model\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m428\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin meshing.\u001b[0m \n", + "Debug : Decoded option name 'Mesh' . 'Algorithm' (index 0)\n", + "Debug : Decoded option name 'Mesh' . 'Algorithm3D' (index 0)\n", + "Debug : Decoded option name 'General' . 'NumThreads' (index 0)\n", + "Info : Meshing 1D...\n", + "Info : [ 0%] Meshing curve 8 (Line)\n", + "Debug : Meshing curve 8 (Line): 9 interior vertices\n", + "Info : [ 10%] Meshing curve 13 (Line)\n", + "Debug : Meshing curve 13 (Line): 26 interior vertices\n", + "Info : [ 10%] Meshing curve 14 (Line)\n", + "Debug : Meshing curve 14 (Line): 44 interior vertices\n", + "Info : [ 10%] Meshing curve 15 (Line)\n", + "Debug : Meshing curve 15 (Line): 28 interior vertices\n", + "Info : [ 10%] Meshing curve 16 (Line)\n", + "Debug : Meshing curve 16 (Line): 40 interior vertices\n", + "Info : [ 10%] Meshing curve 17 (Line)\n", + "Debug : Meshing curve 17 (Line): 28 interior vertices\n", + "Info : [ 10%] Meshing curve 18 (Line)\n", + "Debug : Meshing curve 18 (Line): 20 interior vertices\n", + "Info : [ 10%] Meshing curve 19 (Line)\n", + "Debug : Meshing curve 19 (Line): 28 interior vertices\n", + "Info : [ 10%] Meshing curve 20 (Line)\n", + "Debug : Meshing curve 20 (Line): 40 interior vertices\n", + "Info : [ 10%] Meshing curve 21 (Line)\n", + "Debug : Meshing curve 21 (Line): 28 interior vertices\n", + "Info : [ 20%] Meshing curve 22 (Line)\n", + "Debug : Meshing curve 22 (Line): 44 interior vertices\n", + "Info : [ 20%] Meshing curve 23 (Line)\n", + "Debug : Meshing curve 23 (Line): 26 interior vertices\n", + "Info : [ 20%] Meshing curve 25 (Line)\n", + "Debug : Meshing curve 25 (Line): 15 interior vertices\n", + "Info : [ 20%] Meshing curve 26 (Line)\n", + "Debug : Meshing curve 26 (Line): 26 interior vertices\n", + "Info : [ 20%] Meshing curve 27 (Line)\n", + "Debug : Meshing curve 27 (Line): 1 interior vertices\n", + "Info : [ 20%] Meshing curve 28 (Line)\n", + "Debug : Meshing curve 28 (Line): 1 interior vertices\n", + "Info : [ 20%] Meshing curve 29 (Line)\n", + "Debug : Meshing curve 29 (Line): 28 interior vertices\n", + "Info : [ 20%] Meshing curve 30 (Line)\n", + "Debug : Meshing curve 30 (Line): 1 interior vertices\n", + "Info : [ 20%] Meshing curve 31 (Line)\n", + "Debug : Meshing curve 31 (Line): 1 interior vertices\n", + "Info : [ 20%] Meshing curve 32 (Line)\n", + "Debug : Meshing curve 32 (Line): 28 interior vertices\n", + "Info : [ 30%] Meshing curve 33 (Line)\n", + "Debug : Meshing curve 33 (Line): 1 interior vertices\n", + "Info : [ 30%] Meshing curve 34 (Line)\n", + "Debug : Meshing curve 34 (Line): 1 interior vertices\n", + "Info : [ 30%] Meshing curve 35 (Line)\n", + "Debug : Meshing curve 35 (Line): 28 interior vertices\n", + "Info : [ 30%] Meshing curve 36 (Line)\n", + "Debug : Meshing curve 36 (Line): 1 interior vertices\n", + "Info : [ 30%] Meshing curve 37 (Line)\n", + "Debug : Meshing curve 37 (Line): 1 interior vertices\n", + "Info : [ 30%] Meshing curve 38 (Line)\n", + "Debug : Meshing curve 38 (Line): 28 interior vertices\n", + "Info : [ 30%] Meshing curve 39 (Line)\n", + "Debug : Meshing curve 39 (Line): 1 interior vertices\n", + "Info : [ 30%] Meshing curve 40 (Line)\n", + "Debug : Meshing curve 40 (Line): 1 interior vertices\n", + "Info : [ 30%] Meshing curve 41 (Line)\n", + "Debug : Meshing curve 41 (Line): 26 interior vertices\n", + "Info : [ 40%] Meshing curve 42 (Line)\n", + "Debug : Meshing curve 42 (Line): 15 interior vertices\n", + "Info : [ 40%] Meshing curve 43 (Line)\n", + "Debug : Meshing curve 43 (Line): 1 interior vertices\n", + "Info : [ 40%] Meshing curve 44 (Line)\n", + "Debug : Meshing curve 44 (Line): 1 interior vertices\n", + "Info : [ 40%] Meshing curve 62 (Line)\n", + "Debug : Meshing curve 62 (Line): 9 interior vertices\n", + "Info : [ 40%] Meshing curve 68 (Line)\n", + "Debug : Meshing curve 68 (Line): 0 interior vertices\n", + "Info : [ 40%] Meshing curve 70 (Line)\n", + "Debug : Meshing curve 70 (Line): 4 interior vertices\n", + "Info : [ 40%] Meshing curve 71 (Line)\n", + "Debug : Meshing curve 71 (Line): 14 interior vertices\n", + "Info : [ 40%] Meshing curve 72 (Line)\n", + "Debug : Meshing curve 72 (Line): 40 interior vertices\n", + "Info : [ 40%] Meshing curve 73 (Line)\n", + "Debug : Meshing curve 73 (Line): 28 interior vertices\n", + "Info : [ 40%] Meshing curve 74 (Line)\n", + "Debug : Meshing curve 74 (Line): 30 interior vertices\n", + "Info : [ 50%] Meshing curve 77 (Line)\n", + "Debug : Meshing curve 77 (Line): 11 interior vertices\n", + "Info : [ 50%] Meshing curve 78 (Line)\n", + "Debug : Meshing curve 78 (Line): 1 interior vertices\n", + "Info : [ 50%] Meshing curve 80 (Line)\n", + "Debug : Meshing curve 80 (Line): 19 interior vertices\n", + "Info : [ 50%] Meshing curve 82 (Line)\n", + "Debug : Meshing curve 82 (Line): 11 interior vertices\n", + "Info : [ 50%] Meshing curve 83 (Line)\n", + "Debug : Meshing curve 83 (Line): 1 interior vertices\n", + "Info : [ 50%] Meshing curve 84 (Line)\n", + "Debug : Meshing curve 84 (Line): 30 interior vertices\n", + "Info : [ 50%] Meshing curve 85 (Line)\n", + "Debug : Meshing curve 85 (Line): 28 interior vertices\n", + "Info : [ 50%] Meshing curve 86 (Line)\n", + "Debug : Meshing curve 86 (Line): 40 interior vertices\n", + "Info : [ 50%] Meshing curve 87 (Line)\n", + "Debug : Meshing curve 87 (Line): 14 interior vertices\n", + "Info : [ 60%] Meshing curve 90 (Line)\n", + "Debug : Meshing curve 90 (Line): 4 interior vertices\n", + "Info : [ 60%] Meshing curve 93 (Line)\n", + "Debug : Meshing curve 93 (Line): 0 interior vertices\n", + "Info : [ 60%] Meshing curve 107 (Line)\n", + "Debug : Meshing curve 107 (Line): 1 interior vertices\n", + "Info : [ 60%] Meshing curve 108 (Line)\n", + "Debug : Meshing curve 108 (Line): 28 interior vertices\n", + "Info : [ 60%] Meshing curve 109 (Line)\n", + "Debug : Meshing curve 109 (Line): 1 interior vertices\n", + "Info : [ 60%] Meshing curve 110 (Line)\n", + "Debug : Meshing curve 110 (Line): 1 interior vertices\n", + "Info : [ 60%] Meshing curve 111 (Line)\n", + "Debug : Meshing curve 111 (Line): 14 interior vertices\n", + "Info : [ 60%] Meshing curve 112 (Line)\n", + "Debug : Meshing curve 112 (Line): 14 interior vertices\n", + "Info : [ 60%] Meshing curve 113 (Line)\n", + "Debug : Meshing curve 113 (Line): 1 interior vertices\n", + "Info : [ 60%] Meshing curve 114 (Line)\n", + "Debug : Meshing curve 114 (Line): 1 interior vertices\n", + "Info : [ 70%] Meshing curve 115 (Line)\n", + "Debug : Meshing curve 115 (Line): 28 interior vertices\n", + "Info : [ 70%] Meshing curve 116 (Line)\n", + "Debug : Meshing curve 116 (Line): 1 interior vertices\n", + "Info : [ 70%] Meshing curve 117 (Line)\n", + "Debug : Meshing curve 117 (Line): 0 interior vertices\n", + "Info : [ 70%] Meshing curve 118 (Line)\n", + "Debug : Meshing curve 118 (Line): 0 interior vertices\n", + "Info : [ 70%] Meshing curve 120 (Line)\n", + "Debug : Meshing curve 120 (Line): 14 interior vertices\n", + "Info : [ 70%] Meshing curve 121 (Line)\n", + "Debug : Meshing curve 121 (Line): 20 interior vertices\n", + "Info : [ 70%] Meshing curve 122 (Line)\n", + "Debug : Meshing curve 122 (Line): 14 interior vertices\n", + "Info : [ 70%] Meshing curve 123 (Line)\n", + "Debug : Meshing curve 123 (Line): 1 interior vertices\n", + "Info : [ 70%] Meshing curve 124 (Line)\n", + "Debug : Meshing curve 124 (Line): 14 interior vertices\n", + "Info : [ 70%] Meshing curve 125 (Line)\n", + "Debug : Meshing curve 125 (Line): 14 interior vertices\n", + "Info : [ 80%] Meshing curve 126 (Line)\n", + "Debug : Meshing curve 126 (Line): 1 interior vertices\n", + "Info : [ 80%] Meshing curve 131 (Line)\n", + "Debug : Meshing curve 131 (Line): 21 interior vertices\n", + "Info : [ 80%] Meshing curve 132 (Line)\n", + "Debug : Meshing curve 132 (Line): 26 interior vertices\n", + "Info : [ 80%] Meshing curve 133 (Line)\n", + "Debug : Meshing curve 133 (Line): 21 interior vertices\n", + "Info : [ 80%] Meshing curve 137 (Line)\n", + "Debug : Meshing curve 137 (Line): 21 interior vertices\n", + "Info : [ 80%] Meshing curve 138 (Line)\n", + "Debug : Meshing curve 138 (Line): 14 interior vertices\n", + "Info : [ 80%] Meshing curve 139 (Line)\n", + "Debug : Meshing curve 139 (Line): 21 interior vertices\n", + "Info : [ 80%] Meshing curve 140 (Line)\n", + "Debug : Meshing curve 140 (Line): 26 interior vertices\n", + "Info : [ 80%] Meshing curve 141 (Line)\n", + "Debug : Meshing curve 141 (Line): 21 interior vertices\n", + "Info : [ 90%] Meshing curve 143 (Line)\n", + "Debug : Meshing curve 143 (Line): 21 interior vertices\n", + "Info : [ 90%] Meshing curve 147 (Line)\n", + "Debug : Meshing curve 147 (Line): 14 interior vertices\n", + "Info : [ 90%] Meshing curve 148 (Line)\n", + "Debug : Meshing curve 148 (Line): 21 interior vertices\n", + "Info : [ 90%] Meshing curve 149 (Line)\n", + "Debug : Meshing curve 149 (Line): 21 interior vertices\n", + "Info : [ 90%] Meshing curve 151 (Line)\n", + "Debug : Meshing curve 151 (Line): 21 interior vertices\n", + "Info : [ 90%] Meshing curve 155 (Line)\n", + "Debug : Meshing curve 155 (Line): 21 interior vertices\n", + "Info : [ 90%] Meshing curve 156 (Line)\n", + "Debug : Meshing curve 156 (Line): 21 interior vertices\n", + "Info : [ 90%] Meshing curve 157 (Line)\n", + "Debug : Meshing curve 157 (Line): 21 interior vertices\n", + "Info : [ 90%] Meshing curve 158 (Line)\n", + "Debug : Meshing curve 158 (Line): 2 interior vertices\n", + "Info : [ 90%] Meshing curve 159 (Line)\n", + "Debug : Meshing curve 159 (Line): 0 interior vertices\n", + "Info : [100%] Meshing curve 160 (Line)\n", + "Debug : Meshing curve 160 (Line): 0 interior vertices\n", + "Info : [100%] Meshing curve 161 (Line)\n", + "Debug : Meshing curve 161 (Line): 9 interior vertices\n", + "Info : [100%] Meshing curve 162 (Line)\n", + "Debug : Meshing curve 162 (Line): 2 interior vertices\n", + "Info : [100%] Meshing curve 163 (Line)\n", + "Debug : Meshing curve 163 (Line): 9 interior vertices\n", + "Info : [100%] Meshing curve 164 (Line)\n", + "Debug : Meshing curve 164 (Line): 0 interior vertices\n", + "Info : [100%] Meshing curve 165 (Line)\n", + "Debug : Meshing curve 165 (Line): 0 interior vertices\n", + "Info : [100%] Meshing curve 171 (Line)\n", + "Debug : Meshing curve 171 (Line): 0 interior vertices\n", + "Info : [100%] Meshing curve 178 (Line)\n", + "Debug : Meshing curve 178 (Line): 0 interior vertices\n", + "Info : [100%] Meshing curve 179 (Line)\n", + "Debug : Meshing curve 179 (Line): 0 interior vertices\n", + "Info : Done meshing 1D (Wall 0.0770174s, CPU 0.081491s)\n", + "Info : Meshing 2D...\n", + "Info : [ 0%] Meshing surface 7 (Plane, Delaunay)\n", + "Debug : Recovering 24 model edges\n", + "Debug : Recovering 425 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 7\n", + "Debug : Computing mesh size field at mesh nodes 425\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 425 points created -- Worst tri radius is 47.689\n", + "Debug : Point -2.28753 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point 2.28753 0.45375 cannot be inserted because it is too close 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4 model edges\n", + "Debug : Recovering 58 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 8\n", + "Debug : Computing mesh size field at mesh nodes 58\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 58 points created -- Worst tri radius is 0.792\n", + "Debug : Point -2.39796 0.45125 cannot be inserted because it is too close to another point)\n", + "Debug : Point -2.39796 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point -2.29204 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point -2.29204 0.45125 cannot be inserted because it is too close to another point)\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 110 triangles generated, 27 internal nodes\n", + "Info : [ 10%] Meshing surface 9 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 62 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 9\n", + "Debug : Computing mesh size field at mesh nodes 62\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 62 points created -- Worst tri radius is 0.794\n", + "Debug : Point -1.19207 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.30793 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.30793 0.45125 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.19207 0.45125 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.30718 0.4525 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.19282 0.4525 cannot be inserted because it is too close to another point)\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 114 triangles generated, 27 internal nodes\n", + "Info : [ 20%] Meshing surface 10 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 62 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 10\n", + "Debug : Computing mesh size field at mesh nodes 62\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 62 points created -- Worst tri radius is 0.794\n", + "Debug : Point -0.307931 0.45125 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.192069 0.45125 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.192069 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.307931 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.192824 0.4525 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.307176 0.4525 cannot be inserted because it is too close to another point)\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 114 triangles generated, 27 internal nodes\n", + "Info : [ 20%] Meshing surface 11 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 62 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 11\n", + "Debug : Computing mesh size field at mesh nodes 62\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 62 points created -- Worst tri radius is 0.794\n", + "Debug : Point 0.307931 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point 0.192069 0.45125 cannot be inserted because it is too close to another point)\n", + "Debug : Point 0.307931 0.45125 cannot be inserted because it is too close to another point)\n", + "Debug : Point 0.192069 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point 0.192824 0.4525 cannot be inserted because it is too close to another point)\n", + "Debug : Point 0.307176 0.4525 cannot be inserted because it is too close to another point)\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 114 triangles generated, 27 internal nodes\n", + "Info : [ 20%] Meshing surface 12 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 62 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 12\n", + "Debug : Computing mesh size field at mesh nodes 62\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 62 points created -- Worst tri radius is 0.794\n", + "Debug : Point 1.30793 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.19207 0.45375 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.19207 0.45125 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.30793 0.45125 cannot be inserted because it is too 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because it is too close to another point)\n", + "Debug : Point 2.29204 0.45125 cannot be inserted because it is too close to another point)\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 110 triangles generated, 27 internal nodes\n", + "Info : [ 30%] Meshing surface 35 (Plane, Delaunay)\n", + "Debug : Recovering 24 model edges\n", + "Debug : Recovering 312 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 35\n", + "Debug : Computing mesh size field at mesh nodes 312\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 312 points created -- Worst tri radius is 28.183\n", + "Debug : Point 0.278471 0.753119 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.278471 0.753119 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.92425 0.599632 cannot be inserted because it is too close to another point)\n", + "Debug : Point 0.92425 0.599632 cannot be inserted because it is too close to another point)\n", + "Debug : Point 0.974031 0.599626 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.974031 0.599626 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.0236 0.600088 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.0236 0.600088 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.79154 0.598819 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.74272 0.599332 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.79154 0.598819 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.74272 0.599332 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.90192 0.601289 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.90192 0.601289 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.312471 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : Point 0.312471 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.18753 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.18753 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.31243 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.31243 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.268545 0.773526 cannot be inserted because it is too close to another point)\n", + "Debug : Point 0.268545 0.773526 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.60759 0.590312 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.60759 0.590312 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.97768 0.604631 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.97768 0.604631 cannot be inserted because it is too close to another point)\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 1284 triangles generated, 487 internal nodes\n", + "Info : [ 40%] Meshing surface 36 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 62 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 36\n", + "Debug : Computing mesh size field at mesh nodes 62\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 62 points created -- Worst tri radius is 0.794\n", + "Debug : Point 1.19207 0.54875 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.19207 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.30793 0.54875 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.30793 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.19282 0.5475 cannot be inserted because it is too close to another point)\n", + "Debug : Point 1.30718 0.5475 cannot be inserted because it is too close to another point)\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 114 triangles generated, 27 internal nodes\n", + "Info : [ 40%] Meshing surface 37 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 34 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 37\n", + "Debug : Computing mesh size field at mesh nodes 34\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 34 points created -- Worst tri radius is 0.800\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 62 triangles generated, 15 internal nodes\n", + "Info : [ 40%] Meshing surface 38 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 34 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 38\n", + "Debug : Computing mesh size field at mesh nodes 34\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 34 points created -- Worst tri radius is 0.800\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 62 triangles generated, 15 internal nodes\n", + "Info : [ 50%] Meshing surface 39 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 62 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 39\n", + "Debug : Computing mesh size field at mesh nodes 62\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 62 points created -- Worst tri radius is 0.794\n", + "Debug : Point -1.30793 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.19207 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.30793 0.54875 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.19207 0.54875 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.19282 0.5475 cannot be inserted because it is too close to another point)\n", + "Debug : Point -1.30718 0.5475 cannot be inserted because it is too close to another point)\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 114 triangles generated, 27 internal nodes\n", + "Info : [ 50%] Meshing surface 42 (Plane, Delaunay)\n", + "Debug : Recovering 8 model edges\n", + "Debug : Recovering 99 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 42\n", + "Debug : Computing mesh size field at mesh nodes 99\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 99 points created -- Worst tri radius is 9.102\n", + "Debug : Point 0.187542 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : Point -0.187542 0.54625 cannot be inserted because it is too close to another point)\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 617 triangles generated, 260 internal nodes\n", + "Info : [ 60%] Meshing surface 43 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 34 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 43\n", + "Debug : Computing mesh size field at mesh nodes 34\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 34 points created -- Worst tri radius is 0.800\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 62 triangles generated, 15 internal nodes\n", + "Info : [ 60%] Meshing surface 44 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 34 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 44\n", + "Debug : Computing mesh size field at mesh nodes 34\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 34 points created -- Worst tri radius is 0.800\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 62 triangles generated, 15 internal nodes\n", + "Info : [ 60%] Meshing surface 48 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 98 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 48\n", + "Debug : Computing mesh size field at mesh nodes 98\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 98 points created -- Worst tri radius is 11.057\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 1502 triangles generated, 703 internal nodes\n", + "Info : [ 70%] Meshing surface 50 (Plane, Delaunay)\n", + "Debug : Recovering 5 model edges\n", + "Debug : Recovering 135 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 50\n", + "Debug : Computing mesh size field at mesh nodes 135\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 135 points created -- Worst tri radius is 5.960\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 539 triangles generated, 203 internal nodes\n", + "Info : [ 70%] Meshing surface 51 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 98 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 51\n", + "Debug : Computing mesh size field at mesh nodes 98\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 98 points created -- Worst tri radius is 11.057\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 1516 triangles generated, 710 internal nodes\n", + "Info : [ 70%] Meshing surface 53 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 102 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 53\n", + "Debug : Computing mesh size field at mesh nodes 102\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 102 points created -- Worst tri radius is 10.917\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 1620 triangles generated, 760 internal nodes\n", + "Info : [ 80%] Meshing surface 55 (Plane, Delaunay)\n", + "Debug : Recovering 5 model edges\n", + "Debug : Recovering 135 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 55\n", + "Debug : Computing mesh size field at mesh nodes 135\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 135 points created -- Worst tri radius is 5.960\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 539 triangles generated, 203 internal nodes\n", + "Info : [ 80%] Meshing surface 56 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 126 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 56\n", + "Debug : Computing mesh size field at mesh nodes 126\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 126 points created -- Worst tri radius is 5.990\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 486 triangles generated, 181 internal nodes\n", + "Info : [ 90%] Meshing surface 58 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 102 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 58\n", + "Debug : Computing mesh size field at mesh nodes 102\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 102 points created -- Worst tri radius is 10.917\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 1612 triangles generated, 756 internal nodes\n", + "Info : [ 90%] Meshing surface 60 (Plane, Delaunay)\n", + "Debug : Recovering 5 model edges\n", + "Debug : Recovering 103 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 60\n", + "Debug : Computing mesh size field at mesh nodes 103\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 103 points created -- Worst tri radius is 11.128\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 1627 triangles generated, 763 internal nodes\n", + "Info : [ 90%] Meshing surface 61 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 126 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 61\n", + "Debug : Computing mesh size field at mesh nodes 126\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 126 points created -- Worst tri radius is 5.990\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 494 triangles generated, 185 internal nodes\n", + "Info : [100%] Meshing surface 62 (Plane, Delaunay)\n", + "Debug : Recovering 4 model edges\n", + "Debug : Recovering 86 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 62\n", + "Debug : Computing mesh size field at mesh nodes 86\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 86 points created -- Worst tri radius is 6.043\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 326 triangles generated, 121 internal nodes\n", + "Info : [100%] Meshing surface 63 (Plane, Delaunay)\n", + "Debug : Recovering 5 model edges\n", + "Debug : Recovering 103 mesh edges (0 not recovered)\n", + "Debug : Boundary edges recovered for surface 63\n", + "Debug : Computing mesh size field at mesh nodes 103\n", + "Debug : Delaunizing the initial mesh\n", + "Debug : Starting to add internal nodes\n", + "Debug : 103 points created -- Worst tri radius is 11.128\n", + "Debug : laplacian smoothing ...\n", + "Debug : Type 16 1613 triangles generated, 756 internal nodes\n", + "Info : Done meshing 2D (Wall 0.221417s, CPU 0.233159s)\n", + "Info : 8604 nodes 18480 elements\n", + "Debug : Minimum mesh quality (ICN) = 0.348727\n", + "Debug : Renumbering for potentially partial mesh save\n", + "Info : Removing duplicate mesh elements...\n", + "Info : Done removing duplicate mesh elements\n", + "Info : Removing duplicate mesh nodes...\n", + "Info : Found 0 duplicate nodes \n", + "Info : No duplicate nodes found\n", + "Debug : Renumbering for potentially partial mesh save\n", + "Debug : Decoded option name 'Mesh' . 'MshFileVersion' (index 0)\n", + "Info : Writing './output/gmsh.msh'...\n", + "Info : Done writing './output/gmsh.msh'\n", + "Info : Writing './output/gmsh.vtk'...\n", + "Info : Done writing './output/gmsh.vtk'\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m823\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd meshing.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m832\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd meshing heat-charge simulation.\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m842\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mMesh heat-charge simulation time (s): 1.0171\u001b[0m \n", + "Resetting DEVSIM\n", + "Physical group name bc_0 has 0 Tetrahedra.\n", + "Physical group name bc_0 has 0 Triangles.\n", + "Physical group name bc_0 has 48 Lines.\n", + "Physical group name bc_0 has 51 Points.\n", + "Physical group name bc_1 has 0 Tetrahedra.\n", + "Physical group name bc_1 has 0 Triangles.\n", + "Physical group name bc_1 has 10 Lines.\n", + "Physical group name bc_1 has 11 Points.\n", + "Physical group name bc_2 has 0 Tetrahedra.\n", + "Physical group name bc_2 has 0 Triangles.\n", + "Physical group name bc_2 has 643 Lines.\n", + "Physical group name bc_2 has 645 Points.\n", + "Physical group name bc_3 has 0 Tetrahedra.\n", + "Physical group name bc_3 has 0 Triangles.\n", + "Physical group name bc_3 has 12 Lines.\n", + "Physical group name bc_3 has 14 Points.\n", + "Physical group name bc_4 has 0 Tetrahedra.\n", + "Physical group name bc_4 has 0 Triangles.\n", + "Physical group name bc_4 has 42 Lines.\n", + "Physical group name bc_4 has 43 Points.\n", + "Physical group name bc_5 has 0 Tetrahedra.\n", + "Physical group name bc_5 has 0 Triangles.\n", + "Physical group name bc_5 has 42 Lines.\n", + "Physical group name bc_5 has 43 Points.\n", + "Physical group name bc_6 has 0 Tetrahedra.\n", + "Physical group name bc_6 has 0 Triangles.\n", + "Physical group name bc_6 has 44 Lines.\n", + "Physical group name bc_6 has 46 Points.\n", + "Physical group name zone_1 has 0 Tetrahedra.\n", + "Physical group name zone_1 has 4323 Triangles.\n", + "Physical group name zone_1 has 6841 Lines.\n", + "Physical group name zone_1 has 2520 Points.\n", + "Physical group name zone_3 has 0 Tetrahedra.\n", + "Physical group name zone_3 has 12615 Triangles.\n", + "Physical group name zone_3 has 19308 Lines.\n", + "Physical group name zone_3 has 6694 Points.\n", + "Device device has 8569 coordinates with max index 8569\n", + "Region zone_1 has 2520 nodes.\n", + "Region zone_3 has 6694 nodes.\n", + "Contact zone_1_bc_0 in region zone_1 with 51 nodes\n", + "Warning, contact \"zone_1_bc_0\" shares a node with contact \"zone_1_bc_1\" (repeated 1 times)\n", + "Contact zone_1_bc_1 in region zone_1 with 11 nodes\n", + "Warning, contact \"zone_1_bc_0\" shares a node with contact \"zone_1_bc_3\" (repeated 1 times)\n", + "Contact zone_1_bc_3 in region zone_1 with 14 nodes\n", + "Warning, contact \"zone_1_bc_3\" shares a node with contact \"zone_3_bc_4\"\n", + "Contact zone_3_bc_4 in region zone_3 with 43 nodes\n", + "Warning, contact \"zone_1_bc_3\" shares a node with contact \"zone_3_bc_5\"\n", + "Contact zone_3_bc_5 in region zone_3 with 43 nodes\n", + "Warning, contact \"zone_1_bc_0\" shares a node with contact \"zone_3_bc_6\" (repeated 1 times)\n", + "Warning, contact \"zone_3_bc_4\" shares a node with contact \"zone_3_bc_6\"\n", + "Warning, contact \"zone_3_bc_5\" shares a node with contact \"zone_3_bc_6\"\n", + "Contact zone_3_bc_6 in region zone_3 with 46 nodes\n", + "Warning, contact \"zone_1_bc_3\" shares a node with interface \"zone_1_bc_2\" (repeated 1 times)\n", + "Warning, contact \"zone_3_bc_6\" shares a node with interface \"zone_1_bc_2\" (repeated 1 times)\n", + "Adding interface zone_1_bc_2 with 645, 645 nodes\n", + "Warning: Replacing equation with equation of the same name.\n", + "Region: zone_1, Equation: PotentialEquation, Variable: Potential\n", + "Replacing Node Model Holes in region zone_1 of material Si\n", + "Replacing Node Model Electrons in region zone_1 of material Si\n", + "Warning: Replacing equation with equation of the same name.\n", + "Region: zone_3, Equation: PotentialEquation, Variable: Potential\n", + "Warning: Replacing equation with equation of the same name.\n", + "Region: zone_3, Equation: TemperatureEquation, Variable: T\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:55\u001b[0m.\u001b[1;36m349\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mRamping up doping. Scaling by 0.01\u001b[0m \n", + "Replacing Node Model NetDoping in region zone_1 of material Si\n", + "Replacing Node Model n_i in region zone_1 of material Si\n", + "Replacing Edge Model n_i@n0 in region zone_1 of material Si\n", + "Replacing Edge Model n_i@n1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en2 in region zone_1 of material Si\n", + "Replacing Node Model n_i:Electrons in region zone_1 of material Si\n", + "Replacing Node Model n_i:Holes in region zone_1 of material Si\n", + "Replacing Node Model n_i:T in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en2 in region zone_1 of material Si\n", + "Replacing Node Model NetDoping in region zone_3 of material Si\n", + "Replacing Node Model n_i in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en2 in region zone_3 of material Si\n", + "Replacing Node Model n_i:Electrons in region zone_3 of material Si\n", + "Replacing Node Model n_i:Holes in region zone_3 of material Si\n", + "Replacing Node Model n_i:T in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:Electrons@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:Holes@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:T@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:Electrons@n1 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:Holes@n1 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:T@n1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en2 in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.94776e+06\tAbsError: 2.04000e+18\n", + " Region: \"zone_1\"\tRelError: 1.14286e+00\tAbsError: 5.03923e+01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00000e+00\tAbsError: 3.92273e-01\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42857e-01\tAbsError: 5.00000e+01\n", + " Region: \"zone_3\"\tRelError: 1.94776e+06\tAbsError: 2.04000e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.73890e+05\tAbsError: 1.01999e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.73871e+05\tAbsError: 1.02001e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00000e+00\tAbsError: 3.94258e-01\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42857e-01\tAbsError: 5.00000e+01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 6.67125e+02\tAbsError: 1.33461e+18\n", + " Region: \"zone_1\"\tRelError: 1.20765e+00\tAbsError: 1.73937e+02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.73060e-01\tAbsError: 1.07722e-01\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.34587e-01\tAbsError: 1.73829e+02\n", + " Region: \"zone_3\"\tRelError: 6.65917e+02\tAbsError: 1.33461e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.70455e+02\tAbsError: 4.94500e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.94360e+02\tAbsError: 8.40115e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 7.67341e-01\tAbsError: 1.12369e-01\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.34791e-01\tAbsError: 1.73988e+02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.30072e+03\tAbsError: 1.46621e+18\n", + " Region: \"zone_1\"\tRelError: 5.66736e+00\tAbsError: 6.21208e+01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.53177e+00\tAbsError: 8.68314e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.35594e-01\tAbsError: 6.20340e+01\n", + " Region: \"zone_3\"\tRelError: 1.29505e+03\tAbsError: 1.46621e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.98626e+02\tAbsError: 5.27076e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.93595e+02\tAbsError: 9.39137e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 2.69209e+00\tAbsError: 8.63083e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.35695e-01\tAbsError: 6.20936e+01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.92859e+03\tAbsError: 6.96382e+17\n", + " Region: \"zone_1\"\tRelError: 5.95263e+01\tAbsError: 7.27435e+01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.93375e+01\tAbsError: 8.37936e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.88805e-01\tAbsError: 7.26597e+01\n", + " Region: \"zone_3\"\tRelError: 3.86907e+03\tAbsError: 6.96382e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.90197e+03\tAbsError: 2.98121e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.66146e+02\tAbsError: 3.98260e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 5.00763e+02\tAbsError: 8.37910e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.88952e-01\tAbsError: 7.27229e+01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.95059e+03\tAbsError: 1.53714e+17\n", + " Region: \"zone_1\"\tRelError: 4.47601e+02\tAbsError: 1.33171e+01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.47568e+02\tAbsError: 8.18747e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.32482e-02\tAbsError: 1.32353e+01\n", + " Region: \"zone_3\"\tRelError: 2.50299e+03\tAbsError: 1.53714e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.86779e+02\tAbsError: 6.22634e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.24742e+03\tAbsError: 9.14502e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.68756e+02\tAbsError: 8.19661e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.32744e-02\tAbsError: 1.32473e+01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.89183e+03\tAbsError: 1.32069e+17\n", + " Region: \"zone_1\"\tRelError: 9.63120e+02\tAbsError: 2.36855e+01\n", + " Equation: \"PotentialEquation\"\tRelError: 9.63057e+02\tAbsError: 7.58983e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.30488e-02\tAbsError: 2.36096e+01\n", + " Region: \"zone_3\"\tRelError: 4.92871e+03\tAbsError: 1.32069e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.68041e+02\tAbsError: 4.90786e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.25338e+02\tAbsError: 8.29902e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.53527e+03\tAbsError: 7.54264e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.30998e-02\tAbsError: 2.36303e+01\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.91257e+03\tAbsError: 2.45952e+16\n", + " Region: \"zone_1\"\tRelError: 4.00274e+00\tAbsError: 2.56698e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 3.99605e+00\tAbsError: 7.69849e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.69398e-03\tAbsError: 2.48999e+00\n", + " Region: \"zone_3\"\tRelError: 1.90857e+03\tAbsError: 2.45952e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.38175e+02\tAbsError: 1.16483e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.65893e+02\tAbsError: 1.29469e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 4.49097e+00\tAbsError: 7.70600e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.69995e-03\tAbsError: 2.49238e+00\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.66274e+03\tAbsError: 8.40381e+15\n", + " Region: \"zone_1\"\tRelError: 7.75919e-01\tAbsError: 5.24262e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 7.61812e-01\tAbsError: 6.79483e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41076e-02\tAbsError: 5.17468e+00\n", + " Region: \"zone_3\"\tRelError: 1.66197e+03\tAbsError: 8.40381e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.58469e+02\tAbsError: 2.69142e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.02704e+02\tAbsError: 5.71240e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.82716e-01\tAbsError: 6.79483e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41204e-02\tAbsError: 5.17962e+00\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.24866e+03\tAbsError: 3.16272e+15\n", + " Region: \"zone_1\"\tRelError: 3.66397e-01\tAbsError: 6.01586e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 3.49892e-01\tAbsError: 6.01222e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.65050e-02\tAbsError: 5.95574e+00\n", + " Region: \"zone_3\"\tRelError: 2.24829e+03\tAbsError: 3.16272e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.11206e+02\tAbsError: 1.71777e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.13671e+03\tAbsError: 1.44495e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 3.57030e-01\tAbsError: 6.01222e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.65192e-02\tAbsError: 5.96108e+00\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 3.19658e+03\tAbsError: 4.07304e+15\n", + " Region: \"zone_1\"\tRelError: 2.22622e-01\tAbsError: 7.04686e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 2.02853e-01\tAbsError: 5.15633e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.97692e-02\tAbsError: 6.99530e+00\n", + " Region: \"zone_3\"\tRelError: 3.19636e+03\tAbsError: 4.07304e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.13171e+03\tAbsError: 2.16998e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.06442e+03\tAbsError: 1.90306e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.08591e-01\tAbsError: 5.12074e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.97872e-02\tAbsError: 7.00183e+00\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 7.28118e+03\tAbsError: 6.93925e+15\n", + " Region: \"zone_1\"\tRelError: 1.29224e-01\tAbsError: 4.66597e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15984e-01\tAbsError: 4.20159e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32406e-02\tAbsError: 4.62395e+00\n", + " Region: \"zone_3\"\tRelError: 7.28105e+03\tAbsError: 6.93925e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.16511e+03\tAbsError: 3.71724e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.11583e+03\tAbsError: 3.22201e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00397e-01\tAbsError: 4.13918e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32528e-02\tAbsError: 4.62826e+00\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 2.46907e+02\tAbsError: 1.08406e+16\n", + " Region: \"zone_1\"\tRelError: 8.02287e-02\tAbsError: 2.35784e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 7.35182e-02\tAbsError: 2.99851e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.71049e-03\tAbsError: 2.32785e+00\n", + " Region: \"zone_3\"\tRelError: 2.46826e+02\tAbsError: 1.08406e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.87789e+01\tAbsError: 5.90881e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.77975e+02\tAbsError: 4.93175e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 6.61012e-02\tAbsError: 2.58908e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.71698e-03\tAbsError: 2.33011e+00\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.34357e+04\tAbsError: 1.19559e+16\n", + " Region: \"zone_1\"\tRelError: 6.09932e-02\tAbsError: 9.36029e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.83763e-02\tAbsError: 3.05969e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.61692e-03\tAbsError: 9.05432e-01\n", + " Region: \"zone_3\"\tRelError: 1.34357e+04\tAbsError: 1.19559e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.22439e+03\tAbsError: 6.88914e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.21121e+03\tAbsError: 5.06678e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.99220e-02\tAbsError: 3.18503e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.62022e-03\tAbsError: 9.06573e-01\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 2.51914e+02\tAbsError: 3.41911e+15\n", + " Region: \"zone_1\"\tRelError: 5.37272e-02\tAbsError: 2.53023e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.30702e-02\tAbsError: 2.58390e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.57047e-04\tAbsError: 2.27184e-01\n", + " Region: \"zone_3\"\tRelError: 2.51860e+02\tAbsError: 3.41911e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.09434e+02\tAbsError: 1.76185e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.42371e+02\tAbsError: 1.65725e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.39750e-02\tAbsError: 2.58978e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.57247e-04\tAbsError: 2.27252e-01\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 9.17153e+03\tAbsError: 1.53174e+15\n", + " Region: \"zone_1\"\tRelError: 3.35927e-02\tAbsError: 6.34263e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.34496e-02\tAbsError: 1.39634e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43074e-04\tAbsError: 4.94630e-02\n", + " Region: \"zone_3\"\tRelError: 9.17149e+03\tAbsError: 1.53174e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.72842e+02\tAbsError: 6.29796e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.99862e+03\tAbsError: 9.01944e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.44281e-02\tAbsError: 1.50572e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43193e-04\tAbsError: 4.95039e-02\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 1.00752e+04\tAbsError: 3.51392e+14\n", + " Region: \"zone_1\"\tRelError: 1.25933e-02\tAbsError: 1.36724e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.25722e-02\tAbsError: 6.36915e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.11256e-05\tAbsError: 7.30329e-03\n", + " Region: \"zone_3\"\tRelError: 1.00751e+04\tAbsError: 3.51392e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98699e+03\tAbsError: 1.94249e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.81432e+01\tAbsError: 1.57143e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.36562e-02\tAbsError: 6.88316e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.11388e-05\tAbsError: 7.30782e-03\n", + "Iteration: 16\n", + " Device: \"device\"\tRelError: 1.48057e+02\tAbsError: 7.55540e+12\n", + " Region: \"zone_1\"\tRelError: 1.35837e-04\tAbsError: 9.15436e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33386e-04\tAbsError: 6.81099e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.45099e-06\tAbsError: 8.47326e-04\n", + " Region: \"zone_3\"\tRelError: 1.48057e+02\tAbsError: 7.55540e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04520e+02\tAbsError: 5.86235e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.35366e+01\tAbsError: 1.69306e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.54934e-04\tAbsError: 7.83782e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.45202e-06\tAbsError: 8.47678e-04\n", + "Iteration: 17\n", + " Device: \"device\"\tRelError: 1.61095e-01\tAbsError: 1.05062e+11\n", + " Region: \"zone_1\"\tRelError: 6.80612e-07\tAbsError: 2.10057e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.20301e-07\tAbsError: 1.55674e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.03111e-08\tAbsError: 2.08500e-05\n", + " Region: \"zone_3\"\tRelError: 1.61095e-01\tAbsError: 1.05062e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.45800e-01\tAbsError: 5.36236e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.52936e-02\tAbsError: 5.14380e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 6.43614e-07\tAbsError: 1.59316e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.03688e-08\tAbsError: 2.08699e-05\n", + "Iteration: 18\n", + " Device: \"device\"\tRelError: 2.80810e-06\tAbsError: 3.32876e+09\n", + " Region: \"zone_1\"\tRelError: 2.35479e-08\tAbsError: 8.94470e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.09842e-08\tAbsError: 4.33411e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.56372e-09\tAbsError: 8.90136e-07\n", + " Region: \"zone_3\"\tRelError: 2.78455e-06\tAbsError: 3.32876e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.51830e-06\tAbsError: 1.84896e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.24197e-06\tAbsError: 1.47980e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.17144e-08\tAbsError: 4.43296e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.56540e-09\tAbsError: 8.90719e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:11\u001b[0m.\u001b[1;36m800\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mRamping up doping. Scaling by 0.03162277660168379\u001b[0m \n", + "Replacing Node Model NetDoping in region zone_1 of material Si\n", + "Replacing Node Model n_i in region zone_1 of material Si\n", + "Replacing Edge Model n_i@n0 in region zone_1 of material Si\n", + "Replacing Edge Model n_i@n1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en2 in region zone_1 of material Si\n", + "Replacing Node Model n_i:Electrons in region zone_1 of material Si\n", + "Replacing Node Model n_i:Holes in region zone_1 of material Si\n", + "Replacing Node Model n_i:T in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en2 in region zone_1 of material Si\n", + "Replacing Node Model NetDoping in region zone_3 of material Si\n", + "Replacing Node Model n_i in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en2 in region zone_3 of material Si\n", + "Replacing Node Model n_i:Electrons in region zone_3 of material Si\n", + "Replacing Node Model n_i:Holes in region zone_3 of material Si\n", + "Replacing Node Model n_i:T in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:Electrons@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:Holes@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:T@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:Electrons@n1 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:Holes@n1 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:T@n1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en2 in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.09589e+04\tAbsError: 4.42835e+18\n", + " Region: \"zone_1\"\tRelError: 3.76402e-01\tAbsError: 3.71294e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.76398e-01\tAbsError: 3.58464e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.66599e-06\tAbsError: 1.28302e-03\n", + " Region: \"zone_3\"\tRelError: 1.09585e+04\tAbsError: 4.42835e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.08828e+03\tAbsError: 2.21419e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.86986e+03\tAbsError: 2.21416e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 3.77508e-01\tAbsError: 3.65195e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.66651e-06\tAbsError: 1.28320e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.68704e+00\tAbsError: 4.09689e+16\n", + " Region: \"zone_1\"\tRelError: 1.59987e-01\tAbsError: 3.78978e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.59912e-01\tAbsError: 1.21279e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.44743e-05\tAbsError: 2.57699e-02\n", + " Region: \"zone_3\"\tRelError: 2.52705e+00\tAbsError: 4.09689e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.20519e+00\tAbsError: 2.06847e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.16158e+00\tAbsError: 2.02842e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.60211e-01\tAbsError: 1.27503e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.44743e-05\tAbsError: 2.57699e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 7.16777e-01\tAbsError: 2.84880e+15\n", + " Region: \"zone_1\"\tRelError: 2.13091e-03\tAbsError: 1.34529e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.09298e-03\tAbsError: 2.83116e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.79289e-05\tAbsError: 1.31698e-02\n", + " Region: \"zone_3\"\tRelError: 7.14646e-01\tAbsError: 2.84880e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.40737e-01\tAbsError: 1.50317e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.71739e-01\tAbsError: 1.34563e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.13216e-03\tAbsError: 2.93924e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.79505e-05\tAbsError: 1.31770e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.53330e-03\tAbsError: 4.97209e+12\n", + " Region: \"zone_1\"\tRelError: 2.95921e-05\tAbsError: 2.95955e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.87527e-05\tAbsError: 4.52958e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.39356e-07\tAbsError: 2.91426e-04\n", + " Region: \"zone_3\"\tRelError: 2.50371e-03\tAbsError: 4.97209e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10415e-03\tAbsError: 3.14115e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.36935e-03\tAbsError: 1.83094e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.93707e-05\tAbsError: 4.65627e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.39451e-07\tAbsError: 2.91462e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 3.31368e-05\tAbsError: 1.03126e+11\n", + " Region: \"zone_1\"\tRelError: 8.82046e-07\tAbsError: 7.25910e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.73282e-07\tAbsError: 1.05369e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.08765e-07\tAbsError: 7.24857e-05\n", + " Region: \"zone_3\"\tRelError: 3.22547e-05\tAbsError: 1.03126e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.57484e-05\tAbsError: 6.95547e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.56070e-05\tAbsError: 3.35713e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 6.90339e-07\tAbsError: 1.08090e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.08891e-07\tAbsError: 7.25309e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:16\u001b[0m.\u001b[1;36m705\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mRamping up doping. Scaling by 0.1\u001b[0m \n", + "Replacing Node Model NetDoping in region zone_1 of material Si\n", + "Replacing Node Model n_i in region zone_1 of material Si\n", + "Replacing Edge Model n_i@n0 in region zone_1 of material Si\n", + "Replacing Edge Model n_i@n1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en2 in region zone_1 of material Si\n", + "Replacing Node Model n_i:Electrons in region zone_1 of material Si\n", + "Replacing Node Model n_i:Holes in region zone_1 of material Si\n", + "Replacing Node Model n_i:T in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en2 in region zone_1 of material Si\n", + "Replacing Node Model NetDoping in region zone_3 of material Si\n", + "Replacing Node Model n_i in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en2 in region zone_3 of material Si\n", + "Replacing Node Model n_i:Electrons in region zone_3 of material Si\n", + "Replacing Node Model n_i:Holes in region zone_3 of material Si\n", + "Replacing Node Model n_i:T in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:Electrons@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:Holes@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:T@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:Electrons@n1 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:Holes@n1 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:T@n1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en2 in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 4.59181e+03\tAbsError: 1.39723e+19\n", + " Region: \"zone_1\"\tRelError: 7.56617e-01\tAbsError: 3.57738e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.56605e-01\tAbsError: 3.16803e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18304e-05\tAbsError: 4.09344e-03\n", + " Region: \"zone_3\"\tRelError: 4.59105e+03\tAbsError: 1.39723e+19\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.88119e+02\tAbsError: 6.98585e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.80218e+03\tAbsError: 6.98649e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 7.56801e-01\tAbsError: 3.19349e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18304e-05\tAbsError: 4.09344e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.84985e+00\tAbsError: 5.93483e+16\n", + " Region: \"zone_1\"\tRelError: 3.91051e-01\tAbsError: 9.08795e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.90822e-01\tAbsError: 1.14871e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.29416e-04\tAbsError: 7.93923e-02\n", + " Region: \"zone_3\"\tRelError: 2.45880e+00\tAbsError: 5.93483e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.06772e+00\tAbsError: 2.86051e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.99141e-01\tAbsError: 3.07432e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.91709e-01\tAbsError: 1.14871e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.29490e-04\tAbsError: 7.94203e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 3.05684e-01\tAbsError: 2.58379e+14\n", + " Region: \"zone_1\"\tRelError: 2.55963e-03\tAbsError: 6.45560e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.54282e-03\tAbsError: 6.41085e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.68020e-05\tAbsError: 5.81451e-03\n", + " Region: \"zone_3\"\tRelError: 3.03124e-01\tAbsError: 2.58379e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.68002e-01\tAbsError: 1.37307e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.32383e-01\tAbsError: 1.21072e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.72183e-03\tAbsError: 6.81504e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.68020e-05\tAbsError: 5.81451e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.98022e-03\tAbsError: 2.85263e+12\n", + " Region: \"zone_1\"\tRelError: 2.85485e-05\tAbsError: 2.74721e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06166e-05\tAbsError: 2.24456e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.93198e-06\tAbsError: 2.74496e-03\n", + " Region: \"zone_3\"\tRelError: 2.95167e-03\tAbsError: 2.85263e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.49430e-03\tAbsError: 2.03236e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.42813e-03\tAbsError: 8.20269e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.13020e-05\tAbsError: 2.28367e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.93591e-06\tAbsError: 2.74628e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 4.32722e-04\tAbsError: 1.09424e+12\n", + " Region: \"zone_1\"\tRelError: 5.94752e-06\tAbsError: 8.07354e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.71760e-06\tAbsError: 8.94103e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.29918e-07\tAbsError: 7.98413e-05\n", + " Region: \"zone_3\"\tRelError: 4.26775e-04\tAbsError: 1.09424e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11667e-04\tAbsError: 6.50366e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.09053e-04\tAbsError: 4.43872e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.82510e-06\tAbsError: 9.33163e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.30055e-07\tAbsError: 7.98910e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.14431e-05\tAbsError: 4.11796e+10\n", + " Region: \"zone_1\"\tRelError: 3.18218e-07\tAbsError: 2.36712e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.50145e-07\tAbsError: 3.35603e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.80731e-08\tAbsError: 2.36377e-05\n", + " Region: \"zone_3\"\tRelError: 1.11249e-05\tAbsError: 4.11796e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.42049e-06\tAbsError: 2.80121e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.38209e-06\tAbsError: 1.31675e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.54185e-07\tAbsError: 3.45102e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.81052e-08\tAbsError: 2.36495e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:22\u001b[0m.\u001b[1;36m456\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mRamping up doping. Scaling by 0.31622776601683794\u001b[0m \n", + "Replacing Node Model NetDoping in region zone_1 of material Si\n", + "Replacing Node Model n_i in region zone_1 of material Si\n", + "Replacing Edge Model n_i@n0 in region zone_1 of material Si\n", + "Replacing Edge Model n_i@n1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en2 in region zone_1 of material Si\n", + "Replacing Node Model n_i:Electrons in region zone_1 of material Si\n", + "Replacing Node Model n_i:Holes in region zone_1 of material Si\n", + "Replacing Node Model n_i:T in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en2 in region zone_1 of material Si\n", + "Replacing Node Model NetDoping in region zone_3 of material Si\n", + "Replacing Node Model n_i in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en2 in region zone_3 of material Si\n", + "Replacing Node Model n_i:Electrons in region zone_3 of material Si\n", + "Replacing Node Model n_i:Holes in region zone_3 of material Si\n", + "Replacing Node Model n_i:T in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:Electrons@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:Holes@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:T@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:Electrons@n1 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:Holes@n1 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:T@n1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en2 in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.81548e+04\tAbsError: 4.41452e+19\n", + " Region: \"zone_1\"\tRelError: 4.00112e+02\tAbsError: 5.38619e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.00112e+02\tAbsError: 3.01539e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.85108e-05\tAbsError: 2.37080e-02\n", + " Region: \"zone_3\"\tRelError: 1.77547e+04\tAbsError: 4.41452e+19\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.11357e+03\tAbsError: 2.20717e+19\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.68429e+03\tAbsError: 2.20736e+19\n", + " Equation: \"PotentialEquation\"\tRelError: 8.95682e+03\tAbsError: 3.01539e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.85824e-05\tAbsError: 2.37335e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 6.37823e+03\tAbsError: 7.77266e+16\n", + " Region: \"zone_1\"\tRelError: 2.55259e+03\tAbsError: 3.32603e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.55259e+03\tAbsError: 1.21605e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.25174e-04\tAbsError: 3.20443e-01\n", + " Region: \"zone_3\"\tRelError: 3.82564e+03\tAbsError: 7.77266e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.85918e+00\tAbsError: 4.09086e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.30746e+00\tAbsError: 3.68181e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.82047e+03\tAbsError: 1.27151e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.25174e-04\tAbsError: 3.20443e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.51948e+00\tAbsError: 1.24184e+15\n", + " Region: \"zone_1\"\tRelError: 3.41095e-01\tAbsError: 5.88077e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.40927e-01\tAbsError: 8.76347e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67226e-04\tAbsError: 5.79314e-02\n", + " Region: \"zone_3\"\tRelError: 1.17838e+00\tAbsError: 1.24184e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.50766e-01\tAbsError: 8.12970e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.95876e-01\tAbsError: 4.28870e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.31571e-01\tAbsError: 9.34668e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67226e-04\tAbsError: 5.79314e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.30025e-02\tAbsError: 1.81225e+13\n", + " Region: \"zone_1\"\tRelError: 1.31169e-02\tAbsError: 1.68781e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.30682e-02\tAbsError: 1.34387e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.86794e-05\tAbsError: 1.68646e-02\n", + " Region: \"zone_3\"\tRelError: 3.98856e-02\tAbsError: 1.81225e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.03737e-02\tAbsError: 1.02962e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.70790e-03\tAbsError: 7.82629e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.27553e-02\tAbsError: 1.42458e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.86794e-05\tAbsError: 1.68646e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.41263e-02\tAbsError: 9.07776e+12\n", + " Region: \"zone_1\"\tRelError: 9.62176e-03\tAbsError: 4.08013e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.62060e-03\tAbsError: 6.26261e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.15956e-06\tAbsError: 4.01751e-04\n", + " Region: \"zone_3\"\tRelError: 4.50458e-03\tAbsError: 9.07776e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.40964e-03\tAbsError: 5.33124e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.38896e-03\tAbsError: 3.74652e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.70482e-03\tAbsError: 6.61320e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.16036e-06\tAbsError: 4.02019e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 8.48775e-04\tAbsError: 2.90368e+11\n", + " Region: \"zone_1\"\tRelError: 3.86328e-04\tAbsError: 3.03437e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.85453e-04\tAbsError: 1.50377e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.75364e-07\tAbsError: 3.03287e-04\n", + " Region: \"zone_3\"\tRelError: 4.62447e-04\tAbsError: 2.90368e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.48536e-05\tAbsError: 1.72985e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.41646e-05\tAbsError: 1.17383e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.92553e-04\tAbsError: 1.58814e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.75483e-07\tAbsError: 3.03321e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.03929e-04\tAbsError: 2.36139e+11\n", + " Region: \"zone_1\"\tRelError: 2.89879e-04\tAbsError: 1.34924e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.89875e-04\tAbsError: 1.43748e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.46954e-09\tAbsError: 1.20549e-06\n", + " Region: \"zone_3\"\tRelError: 1.14050e-04\tAbsError: 2.36139e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.76341e-05\tAbsError: 1.44548e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.73640e-05\tAbsError: 9.15910e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.90481e-05\tAbsError: 1.50265e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.47105e-09\tAbsError: 1.20601e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.89084e-05\tAbsError: 1.30416e+09\n", + " Region: \"zone_1\"\tRelError: 1.60532e-05\tAbsError: 7.73681e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.60310e-05\tAbsError: 6.68367e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.22657e-08\tAbsError: 7.73614e-06\n", + " Region: \"zone_3\"\tRelError: 1.28552e-05\tAbsError: 1.30416e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.96650e-07\tAbsError: 7.75602e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.23307e-07\tAbsError: 5.28556e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18129e-05\tAbsError: 6.69589e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.22749e-08\tAbsError: 7.73943e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:30\u001b[0m.\u001b[1;36m250\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mRamping up doping. Scaling by 1.0\u001b[0m \n", + "Replacing Node Model NetDoping in region zone_1 of material Si\n", + "Replacing Node Model n_i in region zone_1 of material Si\n", + "Replacing Edge Model n_i@n0 in region zone_1 of material Si\n", + "Replacing Edge Model n_i@n1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i@en2 in region zone_1 of material Si\n", + "Replacing Node Model n_i:Electrons in region zone_1 of material Si\n", + "Replacing Node Model n_i:Holes in region zone_1 of material Si\n", + "Replacing Node Model n_i:T in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en0 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en1 in region zone_1 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en2 in region zone_1 of material Si\n", + "Replacing Node Model NetDoping in region zone_3 of material Si\n", + "Replacing Node Model n_i in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i@en2 in region zone_3 of material Si\n", + "Replacing Node Model n_i:Electrons in region zone_3 of material Si\n", + "Replacing Node Model n_i:Holes in region zone_3 of material Si\n", + "Replacing Node Model n_i:T in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:Electrons@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:Holes@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n0:T@n0 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:Electrons@n1 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:Holes@n1 in region zone_3 of material Si\n", + "Replacing Edge Model n_i@n1:T@n1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en0 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en1 in region zone_3 of material Si\n", + "Replacing Triangle Edge Model n_i:T@en2 in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.25598e+03\tAbsError: 1.39519e+20\n", + " Region: \"zone_1\"\tRelError: 1.78965e+02\tAbsError: 1.67941e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.78964e+02\tAbsError: 4.06320e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.67619e-04\tAbsError: 1.27309e-01\n", + " Region: \"zone_3\"\tRelError: 2.07701e+03\tAbsError: 1.39519e+20\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.52607e+02\tAbsError: 6.97576e+19\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.11741e+03\tAbsError: 6.97615e+19\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06993e+02\tAbsError: 4.15365e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.67619e-04\tAbsError: 1.27309e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.17154e+04\tAbsError: 6.81771e+16\n", + " Region: \"zone_1\"\tRelError: 2.30977e+02\tAbsError: 1.32838e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 2.30973e+02\tAbsError: 2.82997e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.74009e-03\tAbsError: 1.30008e+00\n", + " Region: \"zone_3\"\tRelError: 1.14845e+04\tAbsError: 6.81771e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12728e+04\tAbsError: 3.49371e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.62860e+00\tAbsError: 3.32400e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.10015e+02\tAbsError: 2.93816e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.74009e-03\tAbsError: 1.30008e+00\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.82529e+00\tAbsError: 2.16371e+15\n", + " Region: \"zone_1\"\tRelError: 7.14038e-01\tAbsError: 9.63977e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.13819e-01\tAbsError: 2.02378e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19044e-04\tAbsError: 7.61599e-02\n", + " Region: \"zone_3\"\tRelError: 2.11126e+00\tAbsError: 2.16371e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99928e-01\tAbsError: 1.08980e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.09314e-01\tAbsError: 1.07391e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.01796e-01\tAbsError: 2.24265e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19044e-04\tAbsError: 7.61599e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.19459e+00\tAbsError: 9.46737e+13\n", + " Region: \"zone_1\"\tRelError: 2.48858e-01\tAbsError: 7.49117e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.48644e-01\tAbsError: 6.58192e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.13516e-04\tAbsError: 7.42536e-02\n", + " Region: \"zone_3\"\tRelError: 9.45729e-01\tAbsError: 9.46737e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.14875e-01\tAbsError: 4.65985e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.08043e-01\tAbsError: 4.80752e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.25967e-02\tAbsError: 7.03900e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.13612e-04\tAbsError: 7.42871e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.14246e-02\tAbsError: 6.01858e+13\n", + " Region: \"zone_1\"\tRelError: 2.16696e-02\tAbsError: 2.70554e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.16619e-02\tAbsError: 4.09885e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.65293e-06\tAbsError: 2.66456e-03\n", + " Region: \"zone_3\"\tRelError: 6.97550e-02\tAbsError: 6.01858e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.51834e-03\tAbsError: 3.45595e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.49371e-03\tAbsError: 2.56263e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.87353e-02\tAbsError: 4.18557e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.65609e-06\tAbsError: 2.66571e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 7.32865e-03\tAbsError: 2.21399e+12\n", + " Region: \"zone_1\"\tRelError: 1.82386e-03\tAbsError: 4.30666e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.81148e-03\tAbsError: 1.70549e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.23785e-05\tAbsError: 4.30496e-03\n", + " Region: \"zone_3\"\tRelError: 5.50479e-03\tAbsError: 2.21399e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.69673e-04\tAbsError: 1.46537e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.83712e-04\tAbsError: 7.48619e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.83902e-03\tAbsError: 1.76657e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.23819e-05\tAbsError: 4.30614e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.56549e-03\tAbsError: 4.01137e+12\n", + " Region: \"zone_1\"\tRelError: 1.54046e-03\tAbsError: 4.35699e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.53922e-03\tAbsError: 2.45136e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.24576e-06\tAbsError: 4.33248e-04\n", + " Region: \"zone_3\"\tRelError: 5.02503e-03\tAbsError: 4.01137e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.28020e-04\tAbsError: 2.37441e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.24782e-04\tAbsError: 1.63695e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.17098e-03\tAbsError: 2.50044e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.24583e-06\tAbsError: 4.33272e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 8.67547e-04\tAbsError: 3.95476e+11\n", + " Region: \"zone_1\"\tRelError: 2.12214e-04\tAbsError: 2.93797e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.11370e-04\tAbsError: 2.53684e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.44057e-07\tAbsError: 2.93544e-04\n", + " Region: \"zone_3\"\tRelError: 6.55333e-04\tAbsError: 3.95476e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.37464e-05\tAbsError: 2.41005e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.36537e-05\tAbsError: 1.54470e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.67089e-04\tAbsError: 2.59006e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.44176e-07\tAbsError: 2.93586e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 4.70521e-04\tAbsError: 2.77095e+11\n", + " Region: \"zone_1\"\tRelError: 1.11249e-04\tAbsError: 4.61091e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11117e-04\tAbsError: 1.66976e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32102e-07\tAbsError: 4.59421e-05\n", + " Region: \"zone_3\"\tRelError: 3.59272e-04\tAbsError: 2.77095e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.92629e-05\tAbsError: 1.66200e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.90560e-05\tAbsError: 1.10895e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.00821e-04\tAbsError: 1.70352e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32114e-07\tAbsError: 4.59465e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 8.45205e-05\tAbsError: 4.25447e+10\n", + " Region: \"zone_1\"\tRelError: 2.04303e-05\tAbsError: 2.13507e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03690e-05\tAbsError: 2.66316e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.13154e-08\tAbsError: 2.13241e-05\n", + " Region: \"zone_3\"\tRelError: 6.40902e-05\tAbsError: 4.25447e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.61885e-06\tAbsError: 2.57226e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.60021e-06\tAbsError: 1.68221e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.48098e-05\tAbsError: 2.71818e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.13223e-08\tAbsError: 2.13265e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m507\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m528\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBuilt-in potential: % (np.float64(-1.0448670768291761),)\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m528\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mnot all arguments converted during string formatting\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m637\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.55 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m637\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.5 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m639\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.65 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m640\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.6 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m640\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.7 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m659\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: 0.1\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m659\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.55 V. Current applied bias: 0.1\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m661\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: 0.1\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m667\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.6 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m676\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.5 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "number of equations 31816\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "number of equations 31816\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 8.58159e+00\tAbsError: 8.42925e+15\n", + " Region: \"zone_1\"\tRelError: 6.96489e+00\tAbsError: 4.09585e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.96489e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22081e-08\tAbsError: 4.24570e-06\n", + " Region: \"zone_3\"\tRelError: 1.61670e+00\tAbsError: 8.42925e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68720e-01\tAbsError: 4.55135e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.68261e-01\tAbsError: 3.87791e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.97210e-02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22093e-08\tAbsError: 4.24613e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 8.58159e+00\tAbsError: 8.42925e+15\n", + " Region: \"zone_1\"\tRelError: 6.96489e+00\tAbsError: 4.09585e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.96489e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22081e-08\tAbsError: 4.24570e-06\n", + " Region: \"zone_3\"\tRelError: 1.61670e+00\tAbsError: 8.42925e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68720e-01\tAbsError: 4.55135e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.68261e-01\tAbsError: 3.87791e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.97210e-02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22093e-08\tAbsError: 4.24613e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 8.58159e+00\tAbsError: 8.42925e+15\n", + " Region: \"zone_1\"\tRelError: 6.96489e+00\tAbsError: 4.09585e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.96489e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22081e-08\tAbsError: 4.24570e-06\n", + " Region: \"zone_3\"\tRelError: 1.61670e+00\tAbsError: 8.42925e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68720e-01\tAbsError: 4.55135e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.68261e-01\tAbsError: 3.87791e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.97210e-02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22093e-08\tAbsError: 4.24613e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 8.58159e+00\tAbsError: 8.42925e+15\n", + " Region: \"zone_1\"\tRelError: 6.96489e+00\tAbsError: 4.09585e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.96489e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22081e-08\tAbsError: 4.24570e-06\n", + " Region: \"zone_3\"\tRelError: 1.61670e+00\tAbsError: 8.42925e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68720e-01\tAbsError: 4.55135e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.68261e-01\tAbsError: 3.87791e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.97210e-02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22093e-08\tAbsError: 4.24613e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 8.58159e+00\tAbsError: 8.42925e+15\n", + " Region: \"zone_1\"\tRelError: 6.96489e+00\tAbsError: 4.09585e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.96489e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22081e-08\tAbsError: 4.24570e-06\n", + " Region: \"zone_3\"\tRelError: 1.61670e+00\tAbsError: 8.42925e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68720e-01\tAbsError: 4.55135e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.68261e-01\tAbsError: 3.87791e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.97210e-02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22093e-08\tAbsError: 4.24613e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.51014e+00\tAbsError: 2.99004e+14\n", + " Region: \"zone_1\"\tRelError: 8.86940e-02\tAbsError: 9.23854e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.85168e-02\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77223e-04\tAbsError: 6.16217e-02\n", + " Region: \"zone_3\"\tRelError: 1.42145e+00\tAbsError: 2.99004e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37288e-01\tAbsError: 1.29763e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.31407e-01\tAbsError: 1.69241e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.25791e-02\tAbsError: 3.07641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77223e-04\tAbsError: 6.16217e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.51014e+00\tAbsError: 2.99004e+14\n", + " Region: \"zone_1\"\tRelError: 8.86940e-02\tAbsError: 9.23854e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.85168e-02\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77223e-04\tAbsError: 6.16217e-02\n", + " Region: \"zone_3\"\tRelError: 1.42145e+00\tAbsError: 2.99004e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37288e-01\tAbsError: 1.29763e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.31407e-01\tAbsError: 1.69241e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.25791e-02\tAbsError: 3.07641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77223e-04\tAbsError: 6.16217e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.51014e+00\tAbsError: 2.99004e+14\n", + " Region: \"zone_1\"\tRelError: 8.86940e-02\tAbsError: 9.23854e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.85168e-02\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77223e-04\tAbsError: 6.16217e-02\n", + " Region: \"zone_3\"\tRelError: 1.42145e+00\tAbsError: 2.99004e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37288e-01\tAbsError: 1.29763e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.31407e-01\tAbsError: 1.69241e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.25791e-02\tAbsError: 3.07641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77223e-04\tAbsError: 6.16217e-02\n", + "Iteration: 1\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.51014e+00\tAbsError: 2.99004e+14\n", + " Region: \"zone_1\"\tRelError: 8.86940e-02\tAbsError: 9.23854e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.85168e-02\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77223e-04\tAbsError: 6.16217e-02\n", + " Region: \"zone_3\"\tRelError: 1.42145e+00\tAbsError: 2.99004e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37288e-01\tAbsError: 1.29763e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.31407e-01\tAbsError: 1.69241e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.25791e-02\tAbsError: 3.07641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77223e-04\tAbsError: 6.16217e-02\n", + " Device: \"device\"\tRelError: 1.51014e+00\tAbsError: 2.99004e+14\n", + " Region: \"zone_1\"\tRelError: 8.86940e-02\tAbsError: 9.23854e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.85168e-02\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77223e-04\tAbsError: 6.16217e-02\n", + " Region: \"zone_3\"\tRelError: 1.42145e+00\tAbsError: 2.99004e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37288e-01\tAbsError: 1.29763e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.31407e-01\tAbsError: 1.69241e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.25791e-02\tAbsError: 3.07641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77223e-04\tAbsError: 6.16217e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 9.16282e-01\tAbsError: 4.40895e+13\n", + " Region: \"zone_1\"\tRelError: 3.94410e-02\tAbsError: 2.98107e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.94296e-02\tAbsError: 2.58562e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13728e-05\tAbsError: 3.95446e-03\n", + " Region: \"zone_3\"\tRelError: 8.76841e-01\tAbsError: 4.40895e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.38974e-01\tAbsError: 3.05502e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.97980e-01\tAbsError: 1.35393e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.98753e-02\tAbsError: 2.58800e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13728e-05\tAbsError: 3.95446e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 9.16282e-01\tAbsError: 4.40895e+13\n", + " Region: \"zone_1\"\tRelError: 3.94410e-02\tAbsError: 2.98107e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.94296e-02\tAbsError: 2.58562e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13728e-05\tAbsError: 3.95446e-03\n", + " Region: \"zone_3\"\tRelError: 8.76841e-01\tAbsError: 4.40895e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.38974e-01\tAbsError: 3.05502e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.97980e-01\tAbsError: 1.35393e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.98753e-02\tAbsError: 2.58800e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13728e-05\tAbsError: 3.95446e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 9.16282e-01\tAbsError: 4.40895e+13\n", + " Region: \"zone_1\"\tRelError: 3.94410e-02\tAbsError: 2.98107e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.94296e-02\tAbsError: 2.58562e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13728e-05\tAbsError: 3.95446e-03\n", + " Region: \"zone_3\"\tRelError: 8.76841e-01\tAbsError: 4.40895e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.38974e-01\tAbsError: 3.05502e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.97980e-01\tAbsError: 1.35393e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.98753e-02\tAbsError: 2.58800e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13728e-05\tAbsError: 3.95446e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 9.16282e-01\tAbsError: 4.40895e+13\n", + " Region: \"zone_1\"\tRelError: 3.94410e-02\tAbsError: 2.98107e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.94296e-02\tAbsError: 2.58562e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13728e-05\tAbsError: 3.95446e-03\n", + " Region: \"zone_3\"\tRelError: 8.76841e-01\tAbsError: 4.40895e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.38974e-01\tAbsError: 3.05502e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.97980e-01\tAbsError: 1.35393e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.98753e-02\tAbsError: 2.58800e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13728e-05\tAbsError: 3.95446e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 9.16282e-01\tAbsError: 4.40895e+13\n", + " Region: \"zone_1\"\tRelError: 3.94410e-02\tAbsError: 2.98107e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.94296e-02\tAbsError: 2.58562e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13728e-05\tAbsError: 3.95446e-03\n", + " Region: \"zone_3\"\tRelError: 8.76841e-01\tAbsError: 4.40895e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.38974e-01\tAbsError: 3.05502e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.97980e-01\tAbsError: 1.35393e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.98753e-02\tAbsError: 2.58800e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13728e-05\tAbsError: 3.95446e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.80924e-01\tAbsError: 4.14041e+12\n", + " Region: \"zone_1\"\tRelError: 1.26761e-02\tAbsError: 1.28810e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.26654e-02\tAbsError: 9.16569e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06852e-05\tAbsError: 3.71531e-03\n", + " Region: \"zone_3\"\tRelError: 2.68247e-01\tAbsError: 4.14041e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.13343e-01\tAbsError: 1.97531e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.20174e-02\tAbsError: 2.16511e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28765e-02\tAbsError: 9.16574e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06852e-05\tAbsError: 3.71531e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.80924e-01\tAbsError: 4.14041e+12\n", + " Region: \"zone_1\"\tRelError: 1.26761e-02\tAbsError: 1.28810e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.26654e-02\tAbsError: 9.16569e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06852e-05\tAbsError: 3.71531e-03\n", + " Region: \"zone_3\"\tRelError: 2.68247e-01\tAbsError: 4.14041e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.13343e-01\tAbsError: 1.97531e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.20174e-02\tAbsError: 2.16511e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28765e-02\tAbsError: 9.16574e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06852e-05\tAbsError: 3.71531e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.80924e-01\tAbsError: 4.14041e+12\n", + " Region: \"zone_1\"\tRelError: 1.26761e-02\tAbsError: 1.28810e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.26654e-02\tAbsError: 9.16569e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06852e-05\tAbsError: 3.71531e-03\n", + " Region: \"zone_3\"\tRelError: 2.68247e-01\tAbsError: 4.14041e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.13343e-01\tAbsError: 1.97531e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.20174e-02\tAbsError: 2.16511e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28765e-02\tAbsError: 9.16574e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06852e-05\tAbsError: 3.71531e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.80924e-01\tAbsError: 4.14041e+12\n", + " Region: \"zone_1\"\tRelError: 1.26761e-02\tAbsError: 1.28810e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.26654e-02\tAbsError: 9.16569e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06852e-05\tAbsError: 3.71531e-03\n", + " Region: \"zone_3\"\tRelError: 2.68247e-01\tAbsError: 4.14041e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.13343e-01\tAbsError: 1.97531e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.20174e-02\tAbsError: 2.16511e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28765e-02\tAbsError: 9.16574e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06852e-05\tAbsError: 3.71531e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.80924e-01\tAbsError: 4.14041e+12\n", + " Region: \"zone_1\"\tRelError: 1.26761e-02\tAbsError: 1.28810e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.26654e-02\tAbsError: 9.16569e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06852e-05\tAbsError: 3.71531e-03\n", + " Region: \"zone_3\"\tRelError: 2.68247e-01\tAbsError: 4.14041e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.13343e-01\tAbsError: 1.97531e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.20174e-02\tAbsError: 2.16511e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28765e-02\tAbsError: 9.16574e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06852e-05\tAbsError: 3.71531e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.24267e-02\tAbsError: 4.44373e+12\n", + " Region: \"zone_1\"\tRelError: 1.55756e-03\tAbsError: 2.71473e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.54980e-03\tAbsError: 2.11332e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.75517e-06\tAbsError: 2.69360e-03\n", + " Region: \"zone_3\"\tRelError: 6.08692e-02\tAbsError: 4.44373e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.73099e-02\tAbsError: 2.36189e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.64950e-04\tAbsError: 2.08185e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.58656e-03\tAbsError: 2.12775e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.75517e-06\tAbsError: 2.69360e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.24267e-02\tAbsError: 4.44373e+12\n", + " Region: \"zone_1\"\tRelError: 1.55756e-03\tAbsError: 2.71473e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.54980e-03\tAbsError: 2.11332e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.75517e-06\tAbsError: 2.69360e-03\n", + " Region: \"zone_3\"\tRelError: 6.08692e-02\tAbsError: 4.44373e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.73099e-02\tAbsError: 2.36189e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.64950e-04\tAbsError: 2.08185e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.58656e-03\tAbsError: 2.12775e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.75517e-06\tAbsError: 2.69360e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.24267e-02\tAbsError: 4.44373e+12\n", + " Region: \"zone_1\"\tRelError: 1.55756e-03\tAbsError: 2.71473e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.54980e-03\tAbsError: 2.11332e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.75517e-06\tAbsError: 2.69360e-03\n", + " Region: \"zone_3\"\tRelError: 6.08692e-02\tAbsError: 4.44373e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.73099e-02\tAbsError: 2.36189e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.64950e-04\tAbsError: 2.08185e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.58656e-03\tAbsError: 2.12775e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.75517e-06\tAbsError: 2.69360e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.24267e-02\tAbsError: 4.44373e+12\n", + " Region: \"zone_1\"\tRelError: 1.55756e-03\tAbsError: 2.71473e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.54980e-03\tAbsError: 2.11332e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.75517e-06\tAbsError: 2.69360e-03\n", + " Region: \"zone_3\"\tRelError: 6.08692e-02\tAbsError: 4.44373e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.73099e-02\tAbsError: 2.36189e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.64950e-04\tAbsError: 2.08185e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.58656e-03\tAbsError: 2.12775e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.75517e-06\tAbsError: 2.69360e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.24267e-02\tAbsError: 4.44373e+12\n", + " Region: \"zone_1\"\tRelError: 1.55756e-03\tAbsError: 2.71473e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.54980e-03\tAbsError: 2.11332e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.75517e-06\tAbsError: 2.69360e-03\n", + " Region: \"zone_3\"\tRelError: 6.08692e-02\tAbsError: 4.44373e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.73099e-02\tAbsError: 2.36189e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.64950e-04\tAbsError: 2.08185e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.58656e-03\tAbsError: 2.12775e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.75517e-06\tAbsError: 2.69360e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.05482e-03\tAbsError: 1.29241e+12\n", + " Region: \"zone_1\"\tRelError: 1.90090e-04\tAbsError: 1.43838e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.89682e-04\tAbsError: 1.76981e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.08079e-07\tAbsError: 1.42068e-04\n", + " Region: \"zone_3\"\tRelError: 8.64726e-04\tAbsError: 1.29241e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98376e-04\tAbsError: 3.47698e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.77560e-04\tAbsError: 9.44709e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.88382e-04\tAbsError: 1.78415e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.08236e-07\tAbsError: 1.42125e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.05482e-03\tAbsError: 1.29241e+12\n", + " Region: \"zone_1\"\tRelError: 1.90090e-04\tAbsError: 1.43838e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.89682e-04\tAbsError: 1.76981e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.08079e-07\tAbsError: 1.42068e-04\n", + " Region: \"zone_3\"\tRelError: 8.64726e-04\tAbsError: 1.29241e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98376e-04\tAbsError: 3.47698e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.77560e-04\tAbsError: 9.44709e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.88382e-04\tAbsError: 1.78415e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.08236e-07\tAbsError: 1.42125e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.05482e-03\tAbsError: 1.29241e+12\n", + " Region: \"zone_1\"\tRelError: 1.90090e-04\tAbsError: 1.43838e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.89682e-04\tAbsError: 1.76981e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.08079e-07\tAbsError: 1.42068e-04\n", + " Region: \"zone_3\"\tRelError: 8.64726e-04\tAbsError: 1.29241e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98376e-04\tAbsError: 3.47698e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.77560e-04\tAbsError: 9.44709e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.88382e-04\tAbsError: 1.78415e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.08236e-07\tAbsError: 1.42125e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.05482e-03\tAbsError: 1.29241e+12\n", + " Region: \"zone_1\"\tRelError: 1.90090e-04\tAbsError: 1.43838e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.89682e-04\tAbsError: 1.76981e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.08079e-07\tAbsError: 1.42068e-04\n", + " Region: \"zone_3\"\tRelError: 8.64726e-04\tAbsError: 1.29241e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98376e-04\tAbsError: 3.47698e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.77560e-04\tAbsError: 9.44709e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.88382e-04\tAbsError: 1.78415e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.08236e-07\tAbsError: 1.42125e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.05482e-03\tAbsError: 1.29241e+12\n", + " Region: \"zone_1\"\tRelError: 1.90090e-04\tAbsError: 1.43838e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.89682e-04\tAbsError: 1.76981e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.08079e-07\tAbsError: 1.42068e-04\n", + " Region: \"zone_3\"\tRelError: 8.64726e-04\tAbsError: 1.29241e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98376e-04\tAbsError: 3.47698e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.77560e-04\tAbsError: 9.44709e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.88382e-04\tAbsError: 1.78415e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.08236e-07\tAbsError: 1.42125e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.83337e-04\tAbsError: 1.21087e+11\n", + " Region: \"zone_1\"\tRelError: 4.90568e-05\tAbsError: 7.60331e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.88381e-05\tAbsError: 6.98456e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18693e-07\tAbsError: 7.59633e-05\n", + " Region: \"zone_3\"\tRelError: 1.34280e-04\tAbsError: 1.21087e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.09790e-05\tAbsError: 8.50144e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.08806e-05\tAbsError: 3.60730e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12202e-04\tAbsError: 7.33777e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18747e-07\tAbsError: 7.59802e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.83337e-04\tAbsError: 1.21087e+11\n", + " Region: \"zone_1\"\tRelError: 4.90568e-05\tAbsError: 7.60331e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.88381e-05\tAbsError: 6.98456e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18693e-07\tAbsError: 7.59633e-05\n", + " Region: \"zone_3\"\tRelError: 1.34280e-04\tAbsError: 1.21087e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.09790e-05\tAbsError: 8.50144e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.08806e-05\tAbsError: 3.60730e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12202e-04\tAbsError: 7.33777e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18747e-07\tAbsError: 7.59802e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.83337e-04\tAbsError: 1.21087e+11\n", + " Region: \"zone_1\"\tRelError: 4.90568e-05\tAbsError: 7.60331e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.88381e-05\tAbsError: 6.98456e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18693e-07\tAbsError: 7.59633e-05\n", + " Region: \"zone_3\"\tRelError: 1.34280e-04\tAbsError: 1.21087e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.09790e-05\tAbsError: 8.50144e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.08806e-05\tAbsError: 3.60730e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12202e-04\tAbsError: 7.33777e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18747e-07\tAbsError: 7.59802e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.83337e-04\tAbsError: 1.21087e+11\n", + " Region: \"zone_1\"\tRelError: 4.90568e-05\tAbsError: 7.60331e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.88381e-05\tAbsError: 6.98456e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18693e-07\tAbsError: 7.59633e-05\n", + " Region: \"zone_3\"\tRelError: 1.34280e-04\tAbsError: 1.21087e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.09790e-05\tAbsError: 8.50144e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.08806e-05\tAbsError: 3.60730e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12202e-04\tAbsError: 7.33777e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18747e-07\tAbsError: 7.59802e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.83337e-04\tAbsError: 1.21087e+11\n", + " Region: \"zone_1\"\tRelError: 4.90568e-05\tAbsError: 7.60331e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.88381e-05\tAbsError: 6.98456e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18693e-07\tAbsError: 7.59633e-05\n", + " Region: \"zone_3\"\tRelError: 1.34280e-04\tAbsError: 1.21087e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.09790e-05\tAbsError: 8.50144e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.08806e-05\tAbsError: 3.60730e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12202e-04\tAbsError: 7.33777e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18747e-07\tAbsError: 7.59802e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 7.81161e-05\tAbsError: 6.93771e+10\n", + " Region: \"zone_1\"\tRelError: 1.93898e-05\tAbsError: 4.92941e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.93758e-05\tAbsError: 5.79060e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39925e-08\tAbsError: 4.87150e-06\n", + " Region: \"zone_3\"\tRelError: 5.87263e-05\tAbsError: 6.93771e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90534e-06\tAbsError: 2.77459e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.85181e-06\tAbsError: 4.16312e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.49552e-05\tAbsError: 5.84903e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39990e-08\tAbsError: 4.87388e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:52\u001b[0m.\u001b[1;36m670\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.55 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:52\u001b[0m.\u001b[1;36m670\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.21250000000000002\u001b[0m \n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 7.81161e-05\tAbsError: 6.93771e+10\n", + " Region: \"zone_1\"\tRelError: 1.93898e-05\tAbsError: 4.92941e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.93758e-05\tAbsError: 5.79060e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39925e-08\tAbsError: 4.87150e-06\n", + " Region: \"zone_3\"\tRelError: 5.87263e-05\tAbsError: 6.93771e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90534e-06\tAbsError: 2.77459e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.85181e-06\tAbsError: 4.16312e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.49552e-05\tAbsError: 5.84903e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39990e-08\tAbsError: 4.87388e-06\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Iteration: 7\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 7.81161e-05\tAbsError: 6.93771e+10\n", + " Region: \"zone_1\"\tRelError: 1.93898e-05\tAbsError: 4.92941e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.93758e-05\tAbsError: 5.79060e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39925e-08\tAbsError: 4.87150e-06\n", + " Region: \"zone_3\"\tRelError: 5.87263e-05\tAbsError: 6.93771e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90534e-06\tAbsError: 2.77459e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.85181e-06\tAbsError: 4.16312e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.49552e-05\tAbsError: 5.84903e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39990e-08\tAbsError: 4.87388e-06\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Iteration: 7\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + " Device: \"device\"\tRelError: 7.81161e-05\tAbsError: 6.93771e+10\n", + " Region: \"zone_1\"\tRelError: 1.93898e-05\tAbsError: 4.92941e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.93758e-05\tAbsError: 5.79060e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39925e-08\tAbsError: 4.87150e-06\n", + " Region: \"zone_3\"\tRelError: 5.87263e-05\tAbsError: 6.93771e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90534e-06\tAbsError: 2.77459e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.85181e-06\tAbsError: 4.16312e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.49552e-05\tAbsError: 5.84903e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39990e-08\tAbsError: 4.87388e-06\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 7.81161e-05\tAbsError: 6.93771e+10\n", + " Region: \"zone_1\"\tRelError: 1.93898e-05\tAbsError: 4.92941e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.93758e-05\tAbsError: 5.79060e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39925e-08\tAbsError: 4.87150e-06\n", + " Region: \"zone_3\"\tRelError: 5.87263e-05\tAbsError: 6.93771e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90534e-06\tAbsError: 2.77459e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.85181e-06\tAbsError: 4.16312e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.49552e-05\tAbsError: 5.84903e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39990e-08\tAbsError: 4.87388e-06\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:52\u001b[0m.\u001b[1;36m793\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:52\u001b[0m.\u001b[1;36m793\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.21000000000000002\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:52\u001b[0m.\u001b[1;36m796\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.6 V. Current applied bias: 0.225\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:52\u001b[0m.\u001b[1;36m798\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: 0.22\u001b[0m \n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:52\u001b[0m.\u001b[1;36m862\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.5 V. Current applied bias: 0.2\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "number of equations 31816\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.53879e+00\tAbsError: 9.39205e+15\n", + " Region: \"zone_1\"\tRelError: 1.86269e+00\tAbsError: 4.34098e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86269e+00\tAbsError: 4.34059e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10402e-08\tAbsError: 3.83862e-06\n", + " Region: \"zone_3\"\tRelError: 1.67610e+00\tAbsError: 9.39205e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.89767e-01\tAbsError: 5.25395e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.89699e-01\tAbsError: 4.13810e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.66371e-02\tAbsError: 4.34059e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10406e-08\tAbsError: 3.83883e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 4.28200e+00\tAbsError: 1.04356e+16\n", + " Region: \"zone_1\"\tRelError: 2.57025e+00\tAbsError: 4.56493e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.57025e+00\tAbsError: 4.56455e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10402e-08\tAbsError: 3.83862e-06\n", + " Region: \"zone_3\"\tRelError: 1.71175e+00\tAbsError: 1.04356e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.06727e-01\tAbsError: 5.83772e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.06663e-01\tAbsError: 4.59788e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.83590e-02\tAbsError: 4.56455e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10406e-08\tAbsError: 3.83883e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.56710e+00\tAbsError: 9.18334e+15\n", + " Region: \"zone_1\"\tRelError: 1.89994e+00\tAbsError: 4.29376e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.89994e+00\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10402e-08\tAbsError: 3.83862e-06\n", + " Region: \"zone_3\"\tRelError: 1.66716e+00\tAbsError: 9.18334e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86011e-01\tAbsError: 5.13720e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.85942e-01\tAbsError: 4.04614e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.52021e-02\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10406e-08\tAbsError: 3.83883e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.93684e+00\tAbsError: 1.00182e+16\n", + " Region: \"zone_1\"\tRelError: 2.23741e+00\tAbsError: 4.47766e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.23741e+00\tAbsError: 4.47728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10402e-08\tAbsError: 3.83862e-06\n", + " Region: \"zone_3\"\tRelError: 1.69943e+00\tAbsError: 1.00182e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.00282e-01\tAbsError: 5.60422e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.00217e-01\tAbsError: 4.41397e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.89279e-02\tAbsError: 4.47728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10406e-08\tAbsError: 3.83883e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.71665e+00\tAbsError: 8.34849e+15\n", + " Region: \"zone_1\"\tRelError: 2.08783e+00\tAbsError: 4.09581e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.08783e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10402e-08\tAbsError: 3.83862e-06\n", + " Region: \"zone_3\"\tRelError: 1.62882e+00\tAbsError: 8.34849e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69544e-01\tAbsError: 4.67018e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69471e-01\tAbsError: 3.67831e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.98079e-02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10406e-08\tAbsError: 3.83883e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.58790e+00\tAbsError: 3.66802e+14\n", + " Region: \"zone_1\"\tRelError: 7.55897e-02\tAbsError: 1.00192e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 7.53983e-02\tAbsError: 3.36593e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91386e-04\tAbsError: 6.65330e-02\n", + " Region: \"zone_3\"\tRelError: 1.51231e+00\tAbsError: 3.66802e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.73823e-01\tAbsError: 1.90008e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69654e-01\tAbsError: 1.76794e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.86418e-02\tAbsError: 3.36598e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91386e-04\tAbsError: 6.65330e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.57053e+00\tAbsError: 3.51165e+14\n", + " Region: \"zone_1\"\tRelError: 7.27979e-02\tAbsError: 9.81633e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.26108e-02\tAbsError: 3.31004e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.87156e-04\tAbsError: 6.50629e-02\n", + " Region: \"zone_3\"\tRelError: 1.49773e+00\tAbsError: 3.51165e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67194e-01\tAbsError: 1.81651e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.62787e-01\tAbsError: 1.69514e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.75645e-02\tAbsError: 3.31009e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.87156e-04\tAbsError: 6.50629e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.66284e+00\tAbsError: 4.50140e+14\n", + " Region: \"zone_1\"\tRelError: 8.50588e-02\tAbsError: 1.10173e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 8.48463e-02\tAbsError: 3.63158e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.12460e-04\tAbsError: 7.38576e-02\n", + " Region: \"zone_3\"\tRelError: 1.57778e+00\tAbsError: 4.50140e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.04046e-01\tAbsError: 2.35006e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.99754e-01\tAbsError: 2.15134e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.37676e-02\tAbsError: 3.63162e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.12460e-04\tAbsError: 7.38576e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.63292e+00\tAbsError: 4.15375e+14\n", + " Region: \"zone_1\"\tRelError: 7.97441e-02\tAbsError: 1.06260e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 7.95399e-02\tAbsError: 3.52797e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.04182e-04\tAbsError: 7.09806e-02\n", + " Region: \"zone_3\"\tRelError: 1.55318e+00\tAbsError: 4.15375e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.92034e-01\tAbsError: 2.15992e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.89172e-01\tAbsError: 1.99383e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.17701e-02\tAbsError: 3.52802e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.04182e-04\tAbsError: 7.09806e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.50135e+00\tAbsError: 2.91709e+14\n", + " Region: \"zone_1\"\tRelError: 6.56152e-02\tAbsError: 8.99308e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.54450e-02\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70194e-04\tAbsError: 5.91672e-02\n", + " Region: \"zone_3\"\tRelError: 1.43573e+00\tAbsError: 2.91709e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37692e-01\tAbsError: 1.49990e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32867e-01\tAbsError: 1.41719e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.50013e-02\tAbsError: 3.07641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70194e-04\tAbsError: 5.91672e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.07805e+00\tAbsError: 4.45719e+13\n", + " Region: \"zone_1\"\tRelError: 5.25512e-02\tAbsError: 3.19171e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.25338e-02\tAbsError: 2.58938e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73262e-05\tAbsError: 6.02337e-03\n", + " Region: \"zone_3\"\tRelError: 1.02550e+00\tAbsError: 4.45719e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.97356e-01\tAbsError: 3.25945e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.75305e-01\tAbsError: 1.19774e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.28239e-02\tAbsError: 2.58580e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73262e-05\tAbsError: 6.02337e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.20178e+00\tAbsError: 5.38350e+13\n", + " Region: \"zone_1\"\tRelError: 5.65078e-02\tAbsError: 3.29649e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.64872e-02\tAbsError: 2.58169e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.05615e-05\tAbsError: 7.14795e-03\n", + " Region: \"zone_3\"\tRelError: 1.14528e+00\tAbsError: 5.38350e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.46674e-01\tAbsError: 3.92893e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.41993e-01\tAbsError: 1.45456e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.65882e-02\tAbsError: 2.58050e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.05615e-05\tAbsError: 7.14795e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.05165e+00\tAbsError: 4.28489e+13\n", + " Region: \"zone_1\"\tRelError: 5.19381e-02\tAbsError: 3.16771e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.19214e-02\tAbsError: 2.58745e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.66912e-05\tAbsError: 5.80261e-03\n", + " Region: \"zone_3\"\tRelError: 9.99707e-01\tAbsError: 4.28489e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.86538e-01\tAbsError: 3.13493e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.61055e-01\tAbsError: 1.14996e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.20976e-02\tAbsError: 2.58960e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.66912e-05\tAbsError: 5.80261e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.15262e+00\tAbsError: 5.01447e+13\n", + " Region: \"zone_1\"\tRelError: 5.48144e-02\tAbsError: 3.25839e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.47949e-02\tAbsError: 2.58232e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94474e-05\tAbsError: 6.76072e-03\n", + " Region: \"zone_3\"\tRelError: 1.09780e+00\tAbsError: 5.01447e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.27983e-01\tAbsError: 3.66370e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.14663e-01\tAbsError: 1.35077e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.51367e-02\tAbsError: 2.58961e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94474e-05\tAbsError: 6.76072e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 9.34092e-01\tAbsError: 3.63172e+13\n", + " Region: \"zone_1\"\tRelError: 4.74089e-02\tAbsError: 3.08414e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.73947e-02\tAbsError: 2.58899e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42429e-05\tAbsError: 4.95155e-03\n", + " Region: \"zone_3\"\tRelError: 8.86683e-01\tAbsError: 3.63172e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40041e-01\tAbsError: 2.66176e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.98904e-01\tAbsError: 9.69965e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.77236e-02\tAbsError: 2.58388e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42429e-05\tAbsError: 4.95155e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.84829e-01\tAbsError: 3.38152e+12\n", + " Region: \"zone_1\"\tRelError: 2.22384e-02\tAbsError: 1.67900e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.22278e-02\tAbsError: 1.31069e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.05945e-05\tAbsError: 3.68307e-03\n", + " Region: \"zone_3\"\tRelError: 3.62591e-01\tAbsError: 3.38152e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.57689e-01\tAbsError: 2.18351e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.23925e-02\tAbsError: 1.19802e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.24992e-02\tAbsError: 1.31070e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.05945e-05\tAbsError: 3.68307e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.16809e-01\tAbsError: 4.52158e+12\n", + " Region: \"zone_1\"\tRelError: 3.08342e-02\tAbsError: 2.17664e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.08224e-02\tAbsError: 1.76840e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.17434e-05\tAbsError: 4.08239e-03\n", + " Region: \"zone_3\"\tRelError: 4.85974e-01\tAbsError: 4.52158e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.20160e-01\tAbsError: 2.93839e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.34635e-01\tAbsError: 1.58320e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.11676e-02\tAbsError: 1.76841e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.17434e-05\tAbsError: 4.08239e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.59925e-01\tAbsError: 3.29811e+12\n", + " Region: \"zone_1\"\tRelError: 2.06968e-02\tAbsError: 1.57226e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06868e-02\tAbsError: 1.22658e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.94379e-06\tAbsError: 3.45688e-03\n", + " Region: \"zone_3\"\tRelError: 3.39228e-01\tAbsError: 3.29811e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.44822e-01\tAbsError: 2.09106e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.34528e-02\tAbsError: 1.20705e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.09440e-02\tAbsError: 1.22658e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.94484e-06\tAbsError: 3.45731e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.63237e-01\tAbsError: 3.89858e+12\n", + " Region: \"zone_1\"\tRelError: 2.72186e-02\tAbsError: 1.97367e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.72072e-02\tAbsError: 1.57809e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13791e-05\tAbsError: 3.95578e-03\n", + " Region: \"zone_3\"\tRelError: 4.36018e-01\tAbsError: 3.89858e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.95865e-01\tAbsError: 2.60793e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.12619e-01\tAbsError: 1.29064e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.75223e-02\tAbsError: 1.57810e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13791e-05\tAbsError: 3.95578e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.84661e-01\tAbsError: 3.60663e+12\n", + " Region: \"zone_1\"\tRelError: 1.51217e-02\tAbsError: 1.24487e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51123e-02\tAbsError: 9.16566e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.44365e-06\tAbsError: 3.28306e-03\n", + " Region: \"zone_3\"\tRelError: 2.69539e-01\tAbsError: 3.60663e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12296e-01\tAbsError: 2.19846e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.19182e-02\tAbsError: 1.40817e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.53153e-02\tAbsError: 9.16570e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.44365e-06\tAbsError: 3.28306e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.84170e-02\tAbsError: 2.98589e+12\n", + " Region: \"zone_1\"\tRelError: 1.01074e-03\tAbsError: 2.47043e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00364e-03\tAbsError: 2.37290e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.10666e-06\tAbsError: 2.46806e-03\n", + " Region: \"zone_3\"\tRelError: 8.74063e-02\tAbsError: 2.98589e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.43433e-02\tAbsError: 1.88413e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.78684e-04\tAbsError: 1.10176e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.77718e-03\tAbsError: 2.58380e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.10666e-06\tAbsError: 2.46806e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.28938e-01\tAbsError: 3.34909e+12\n", + " Region: \"zone_1\"\tRelError: 8.90961e-04\tAbsError: 2.97123e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 8.82412e-04\tAbsError: 2.22756e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.54922e-06\tAbsError: 2.96901e-03\n", + " Region: \"zone_3\"\tRelError: 1.28047e-01\tAbsError: 3.34909e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.24383e-01\tAbsError: 2.03710e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.91050e-04\tAbsError: 1.31199e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.06484e-03\tAbsError: 2.23835e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.54922e-06\tAbsError: 2.96901e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.12077e-01\tAbsError: 3.22720e+12\n", + " Region: \"zone_1\"\tRelError: 9.34001e-04\tAbsError: 2.75666e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 9.26069e-04\tAbsError: 2.01820e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.93193e-06\tAbsError: 2.75464e-03\n", + " Region: \"zone_3\"\tRelError: 1.11143e-01\tAbsError: 3.22720e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07769e-01\tAbsError: 1.97456e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.93688e-04\tAbsError: 1.25263e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.97332e-03\tAbsError: 2.09794e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.93193e-06\tAbsError: 2.75464e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.15555e-02\tAbsError: 2.83273e+12\n", + " Region: \"zone_1\"\tRelError: 9.61737e-04\tAbsError: 2.53661e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 9.54438e-04\tAbsError: 1.76901e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.29893e-06\tAbsError: 2.53484e-03\n", + " Region: \"zone_3\"\tRelError: 8.05938e-02\tAbsError: 2.83273e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77894e-02\tAbsError: 1.76357e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.00697e-04\tAbsError: 1.06916e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.59639e-03\tAbsError: 1.83626e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.29893e-06\tAbsError: 2.53484e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.15193e-02\tAbsError: 3.32533e+12\n", + " Region: \"zone_1\"\tRelError: 1.39861e-03\tAbsError: 2.06499e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39271e-03\tAbsError: 1.45908e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.90395e-06\tAbsError: 2.05040e-03\n", + " Region: \"zone_3\"\tRelError: 6.01207e-02\tAbsError: 3.32533e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.70408e-02\tAbsError: 2.05872e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.81905e-04\tAbsError: 1.26661e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49208e-03\tAbsError: 1.52370e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.90395e-06\tAbsError: 2.05040e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 7.83872e-04\tAbsError: 1.20586e+12\n", + " Region: \"zone_1\"\tRelError: 1.08141e-04\tAbsError: 1.50843e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07713e-04\tAbsError: 1.73879e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.28324e-07\tAbsError: 1.49104e-04\n", + " Region: \"zone_3\"\tRelError: 6.75731e-04\tAbsError: 1.20586e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.47748e-04\tAbsError: 3.09981e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.43876e-04\tAbsError: 8.95875e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.83677e-04\tAbsError: 1.73899e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.28505e-07\tAbsError: 1.49169e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 9.24807e-04\tAbsError: 1.44810e+12\n", + " Region: \"zone_1\"\tRelError: 1.11443e-04\tAbsError: 1.61914e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10984e-04\tAbsError: 2.10195e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.59089e-07\tAbsError: 1.59812e-04\n", + " Region: \"zone_3\"\tRelError: 8.13364e-04\tAbsError: 1.44810e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.68603e-04\tAbsError: 3.67953e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.69322e-04\tAbsError: 1.08015e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.74980e-04\tAbsError: 2.10266e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.59279e-07\tAbsError: 1.59881e-04\n", + "Iteration: 5\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 8.98965e-04\tAbsError: 1.24659e+12\n", + " Region: \"zone_1\"\tRelError: 1.38362e-04\tAbsError: 1.35908e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37977e-04\tAbsError: 1.78872e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.85277e-07\tAbsError: 1.34119e-04\n", + " Region: \"zone_3\"\tRelError: 7.60603e-04\tAbsError: 1.24659e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.53741e-04\tAbsError: 3.31806e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.52332e-04\tAbsError: 9.14787e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.54145e-04\tAbsError: 1.78892e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.85437e-07\tAbsError: 1.34177e-04\n", + " Device: \"device\"\tRelError: 8.54154e-04\tAbsError: 1.34353e+12\n", + " Region: \"zone_1\"\tRelError: 1.07529e-04\tAbsError: 1.59272e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07078e-04\tAbsError: 1.94603e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.51946e-07\tAbsError: 1.57326e-04\n", + " Region: \"zone_3\"\tRelError: 7.46624e-04\tAbsError: 1.34353e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.58803e-04\tAbsError: 3.42023e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.58116e-04\tAbsError: 1.00151e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.29253e-04\tAbsError: 1.94645e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.52133e-07\tAbsError: 1.57394e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.41619e-04\tAbsError: 9.91737e+11\n", + " Region: \"zone_1\"\tRelError: 9.96328e-05\tAbsError: 1.41218e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.92313e-05\tAbsError: 1.43598e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.01548e-07\tAbsError: 1.39782e-04\n", + " Region: \"zone_3\"\tRelError: 5.41987e-04\tAbsError: 9.91737e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33851e-04\tAbsError: 2.52743e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.19510e-04\tAbsError: 7.38994e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88224e-04\tAbsError: 1.43642e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.01703e-07\tAbsError: 1.39838e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.88505e-04\tAbsError: 1.27858e+11\n", + " Region: \"zone_1\"\tRelError: 4.26064e-05\tAbsError: 6.82507e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.24101e-05\tAbsError: 7.45728e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.96297e-07\tAbsError: 6.81762e-05\n", + " Region: \"zone_3\"\tRelError: 1.45898e-04\tAbsError: 1.27858e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01716e-05\tAbsError: 8.89126e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.00818e-05\tAbsError: 3.89454e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.25448e-04\tAbsError: 7.84802e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.96297e-07\tAbsError: 6.81762e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.88637e-04\tAbsError: 1.33871e+11\n", + " Region: \"zone_1\"\tRelError: 3.67778e-05\tAbsError: 8.30989e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.65388e-05\tAbsError: 7.88474e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.39039e-07\tAbsError: 8.30200e-05\n", + " Region: \"zone_3\"\tRelError: 1.51859e-04\tAbsError: 1.33871e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03403e-05\tAbsError: 9.56490e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.02501e-05\tAbsError: 3.82221e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31030e-04\tAbsError: 8.29792e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.39042e-07\tAbsError: 8.30200e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.91512e-04\tAbsError: 1.33302e+11\n", + " Region: \"zone_1\"\tRelError: 3.95318e-05\tAbsError: 7.64793e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.93118e-05\tAbsError: 7.81883e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19981e-07\tAbsError: 7.64012e-05\n", + " Region: \"zone_3\"\tRelError: 1.51980e-04\tAbsError: 1.33302e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04356e-05\tAbsError: 9.39778e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03447e-05\tAbsError: 3.93238e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.30980e-04\tAbsError: 8.22844e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19981e-07\tAbsError: 7.64012e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.63404e-04\tAbsError: 1.13118e+11\n", + " Region: \"zone_1\"\tRelError: 3.79692e-05\tAbsError: 7.25340e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.77606e-05\tAbsError: 6.55674e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.08655e-07\tAbsError: 7.24685e-05\n", + " Region: \"zone_3\"\tRelError: 1.25435e-04\tAbsError: 1.13118e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.83920e-06\tAbsError: 8.03454e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.75701e-06\tAbsError: 3.27729e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07630e-04\tAbsError: 6.89930e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.08701e-07\tAbsError: 7.24825e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.93092e-04\tAbsError: 1.20956e+11\n", + " Region: \"zone_1\"\tRelError: 5.19796e-05\tAbsError: 5.49717e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.18215e-05\tAbsError: 7.13664e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.58071e-07\tAbsError: 5.49003e-05\n", + " Region: \"zone_3\"\tRelError: 1.41112e-04\tAbsError: 1.20956e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98278e-06\tAbsError: 8.30737e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.89193e-06\tAbsError: 3.78825e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21079e-04\tAbsError: 7.51109e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.58071e-07\tAbsError: 5.49003e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 6.02240e-05\tAbsError: 6.13809e+10\n", + " Region: \"zone_1\"\tRelError: 1.22214e-05\tAbsError: 5.85783e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.22048e-05\tAbsError: 5.52827e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.66684e-08\tAbsError: 5.80254e-06\n", + " Region: \"zone_3\"\tRelError: 4.80026e-05\tAbsError: 6.13809e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.42789e-06\tAbsError: 2.30389e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.38225e-06\tAbsError: 3.83421e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.71758e-05\tAbsError: 5.53762e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.66761e-08\tAbsError: 5.80531e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:04\u001b[0m.\u001b[1;36m201\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.55 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:04\u001b[0m.\u001b[1;36m201\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.32500000000000007\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 7.25073e-05\tAbsError: 7.50435e+10\n", + " Region: \"zone_1\"\tRelError: 1.27392e-05\tAbsError: 5.72098e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.27230e-05\tAbsError: 6.77997e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62395e-08\tAbsError: 5.65318e-06\n", + " Region: \"zone_3\"\tRelError: 5.97680e-05\tAbsError: 7.50435e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.54092e-06\tAbsError: 2.83626e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.48691e-06\tAbsError: 4.66809e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.67240e-05\tAbsError: 6.78612e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62475e-08\tAbsError: 5.65608e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 6.64634e-05\tAbsError: 6.88445e+10\n", + " Region: \"zone_1\"\tRelError: 1.23151e-05\tAbsError: 5.93606e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.22982e-05\tAbsError: 6.22343e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.68733e-08\tAbsError: 5.87382e-06\n", + " Region: \"zone_3\"\tRelError: 5.41483e-05\tAbsError: 6.88445e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.03522e-06\tAbsError: 2.58299e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.98503e-06\tAbsError: 4.30146e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.21112e-05\tAbsError: 6.23101e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.68809e-08\tAbsError: 5.87661e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 6.96553e-05\tAbsError: 6.62371e+10\n", + " Region: \"zone_1\"\tRelError: 1.48815e-05\tAbsError: 4.57528e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.48685e-05\tAbsError: 5.85248e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.29748e-08\tAbsError: 4.51675e-06\n", + " Region: \"zone_3\"\tRelError: 5.47738e-05\tAbsError: 6.62371e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.88342e-06\tAbsError: 2.60354e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.83402e-06\tAbsError: 4.02017e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.30433e-05\tAbsError: 5.86384e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.29813e-08\tAbsError: 4.51913e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:04\u001b[0m.\u001b[1;36m442\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.6 V. Current applied bias: 0.35\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:04\u001b[0m.\u001b[1;36m478\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: \u001b[0m \n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:04\u001b[0m.\u001b[1;36m478\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.33999999999999997\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:04\u001b[0m.\u001b[1;36m494\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: \u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:04\u001b[0m.\u001b[1;36m494\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.32000000000000006\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.80808e-05\tAbsError: 4.88682e+10\n", + " Region: \"zone_1\"\tRelError: 1.14733e-05\tAbsError: 6.01729e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14561e-05\tAbsError: 4.42617e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71583e-08\tAbsError: 5.97303e-06\n", + " Region: \"zone_3\"\tRelError: 3.66076e-05\tAbsError: 4.88682e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.37895e-06\tAbsError: 1.78097e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.34162e-06\tAbsError: 3.10585e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78698e-05\tAbsError: 4.43739e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71659e-08\tAbsError: 5.97583e-06\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:04\u001b[0m.\u001b[1;36m657\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.5 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:04\u001b[0m.\u001b[1;36m657\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 8.52071e+00\tAbsError: 9.31230e+15\n", + " Region: \"zone_1\"\tRelError: 6.83668e+00\tAbsError: 4.34092e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.83668e+00\tAbsError: 4.34059e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.31980e-09\tAbsError: 3.23984e-06\n", + " Region: \"zone_3\"\tRelError: 1.68403e+00\tAbsError: 9.31230e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.89855e-01\tAbsError: 5.38690e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.89836e-01\tAbsError: 3.92539e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04337e-01\tAbsError: 4.34059e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.31980e-09\tAbsError: 3.23984e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 9.02508e+00\tAbsError: 1.03436e+16\n", + " Region: \"zone_1\"\tRelError: 7.30011e+00\tAbsError: 4.56495e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.30011e+00\tAbsError: 4.56455e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.16793e-08\tAbsError: 4.06001e-06\n", + " Region: \"zone_3\"\tRelError: 1.72497e+00\tAbsError: 1.03436e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.06813e-01\tAbsError: 6.00379e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.06796e-01\tAbsError: 4.33979e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11360e-01\tAbsError: 4.56455e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.16793e-08\tAbsError: 4.06001e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.11166e+00\tAbsError: 9.93116e+15\n", + " Region: \"zone_1\"\tRelError: 4.40001e+00\tAbsError: 4.47764e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.40001e+00\tAbsError: 4.47728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.05684e-08\tAbsError: 3.67386e-06\n", + " Region: \"zone_3\"\tRelError: 1.71166e+00\tAbsError: 9.93116e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.00369e-01\tAbsError: 5.75673e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.00352e-01\tAbsError: 4.17443e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10937e-01\tAbsError: 4.47728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.05684e-08\tAbsError: 3.67386e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.13208e+01\tAbsError: 9.10596e+15\n", + " Region: \"zone_1\"\tRelError: 9.64710e+00\tAbsError: 4.29375e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.64710e+00\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.05109e-08\tAbsError: 3.65393e-06\n", + " Region: \"zone_3\"\tRelError: 1.67375e+00\tAbsError: 9.10596e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86100e-01\tAbsError: 5.26385e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.86081e-01\tAbsError: 3.84211e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01565e-01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.05112e-08\tAbsError: 3.65410e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.29649e+01\tAbsError: 8.28032e+15\n", + " Region: \"zone_1\"\tRelError: 1.13261e+01\tAbsError: 4.09567e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13261e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.18797e-09\tAbsError: 2.49640e-06\n", + " Region: \"zone_3\"\tRelError: 1.63880e+00\tAbsError: 8.28032e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69633e-01\tAbsError: 4.77284e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.50748e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.95556e-02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.18889e-09\tAbsError: 2.49675e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.62246e+00\tAbsError: 3.65433e+14\n", + " Region: \"zone_1\"\tRelError: 9.44049e-02\tAbsError: 9.44380e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.42301e-02\tAbsError: 3.36593e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.74863e-04\tAbsError: 6.07788e-02\n", + " Region: \"zone_3\"\tRelError: 1.52805e+00\tAbsError: 3.65433e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.74362e-01\tAbsError: 2.33112e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69900e-01\tAbsError: 1.32321e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.36162e-02\tAbsError: 3.36597e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.74863e-04\tAbsError: 6.07788e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.67898e+00\tAbsError: 4.16529e+14\n", + " Region: \"zone_1\"\tRelError: 1.08583e-01\tAbsError: 9.95281e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08398e-01\tAbsError: 3.52797e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84850e-04\tAbsError: 6.42484e-02\n", + " Region: \"zone_3\"\tRelError: 1.57040e+00\tAbsError: 4.16529e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.92917e-01\tAbsError: 2.71892e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.88893e-01\tAbsError: 1.44637e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.84045e-02\tAbsError: 3.52801e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84850e-04\tAbsError: 6.42484e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.76174e+00\tAbsError: 4.53186e+14\n", + " Region: \"zone_1\"\tRelError: 1.66138e-01\tAbsError: 1.02791e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65947e-01\tAbsError: 3.63157e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91260e-04\tAbsError: 6.64756e-02\n", + " Region: \"zone_3\"\tRelError: 1.59560e+00\tAbsError: 4.53186e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.04551e-01\tAbsError: 3.00667e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.00035e-01\tAbsError: 1.52519e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.08233e-02\tAbsError: 3.63162e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91260e-04\tAbsError: 6.64756e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.60555e+00\tAbsError: 3.49070e+14\n", + " Region: \"zone_1\"\tRelError: 9.22733e-02\tAbsError: 9.26848e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.21018e-02\tAbsError: 3.31004e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71426e-04\tAbsError: 5.95845e-02\n", + " Region: \"zone_3\"\tRelError: 1.51327e+00\tAbsError: 3.49070e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67916e-01\tAbsError: 2.20940e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.62728e-01\tAbsError: 1.28130e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.24571e-02\tAbsError: 3.31008e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71426e-04\tAbsError: 5.95845e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.56865e+00\tAbsError: 2.86625e+14\n", + " Region: \"zone_1\"\tRelError: 1.21045e-01\tAbsError: 8.55195e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20888e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", + " Region: \"zone_3\"\tRelError: 1.44761e+00\tAbsError: 2.86625e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38556e-01\tAbsError: 1.75436e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32332e-01\tAbsError: 1.11189e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.65613e-02\tAbsError: 3.07640e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.11363e+00\tAbsError: 5.96545e+13\n", + " Region: \"zone_1\"\tRelError: 6.75695e-02\tAbsError: 3.29339e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.75487e-02\tAbsError: 2.57042e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.07999e-05\tAbsError: 7.22975e-03\n", + " Region: \"zone_3\"\tRelError: 1.04606e+00\tAbsError: 5.96545e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.97798e-01\tAbsError: 4.25095e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.80228e-01\tAbsError: 1.71450e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.80105e-02\tAbsError: 2.58162e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.07999e-05\tAbsError: 7.22975e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.19514e+00\tAbsError: 7.59573e+13\n", + " Region: \"zone_1\"\tRelError: 7.24050e-02\tAbsError: 3.39834e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.23816e-02\tAbsError: 2.58364e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.34393e-05\tAbsError: 8.14699e-03\n", + " Region: \"zone_3\"\tRelError: 1.12273e+00\tAbsError: 7.59573e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.28455e-01\tAbsError: 5.29748e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.21700e-01\tAbsError: 2.29824e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.25511e-02\tAbsError: 2.58828e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.34393e-05\tAbsError: 8.14699e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.24543e+00\tAbsError: 8.44995e+13\n", + " Region: \"zone_1\"\tRelError: 7.48143e-02\tAbsError: 3.41274e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.47891e-02\tAbsError: 2.53557e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.52369e-05\tAbsError: 8.77172e-03\n", + " Region: \"zone_3\"\tRelError: 1.17061e+00\tAbsError: 8.44995e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.47366e-01\tAbsError: 5.66747e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.48284e-01\tAbsError: 2.78248e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.49367e-02\tAbsError: 2.57734e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.52369e-05\tAbsError: 8.77172e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.08576e+00\tAbsError: 5.42272e+13\n", + " Region: \"zone_1\"\tRelError: 6.57302e-02\tAbsError: 3.25935e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.57103e-02\tAbsError: 2.56636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.99371e-05\tAbsError: 6.92989e-03\n", + " Region: \"zone_3\"\tRelError: 1.02003e+00\tAbsError: 5.42272e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.86826e-01\tAbsError: 3.87041e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.66488e-01\tAbsError: 1.55232e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.66923e-02\tAbsError: 2.58213e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.99371e-05\tAbsError: 6.92989e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 9.63437e-01\tAbsError: 3.66677e+13\n", + " Region: \"zone_1\"\tRelError: 5.93231e-02\tAbsError: 3.16919e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.93064e-02\tAbsError: 2.58707e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", + " Region: \"zone_3\"\tRelError: 9.04114e-01\tAbsError: 3.66677e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40101e-01\tAbsError: 2.63702e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.04471e-01\tAbsError: 1.02975e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95256e-02\tAbsError: 2.58992e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.00848e-01\tAbsError: 1.07895e+13\n", + " Region: \"zone_1\"\tRelError: 2.84831e-02\tAbsError: 1.61431e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.84743e-02\tAbsError: 1.31069e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.73558e-06\tAbsError: 3.03626e-03\n", + " Region: \"zone_3\"\tRelError: 3.72365e-01\tAbsError: 1.07895e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.56914e-01\tAbsError: 5.23438e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.67239e-02\tAbsError: 5.55513e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.87187e-02\tAbsError: 1.31069e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.73893e-06\tAbsError: 3.03751e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.85588e-01\tAbsError: 1.61066e+13\n", + " Region: \"zone_1\"\tRelError: 3.56563e-02\tAbsError: 1.89664e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.56471e-02\tAbsError: 1.57809e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.16511e-06\tAbsError: 3.18549e-03\n", + " Region: \"zone_3\"\tRelError: 4.49932e-01\tAbsError: 1.61066e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.95059e-01\tAbsError: 8.36463e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.18941e-01\tAbsError: 7.74195e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.59228e-02\tAbsError: 1.57809e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.16867e-06\tAbsError: 3.18682e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.45003e-01\tAbsError: 2.12588e+13\n", + " Region: \"zone_1\"\tRelError: 4.10214e-02\tAbsError: 2.09861e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.10119e-02\tAbsError: 1.76839e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.50094e-06\tAbsError: 3.30217e-03\n", + " Region: \"zone_3\"\tRelError: 5.03981e-01\tAbsError: 2.12588e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.20049e-01\tAbsError: 1.15224e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.42587e-01\tAbsError: 9.73636e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.13362e-02\tAbsError: 1.76840e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.50472e-06\tAbsError: 3.30358e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.73642e-01\tAbsError: 9.69815e+12\n", + " Region: \"zone_1\"\tRelError: 2.63134e-02\tAbsError: 1.52684e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.63048e-02\tAbsError: 1.22657e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.63884e-06\tAbsError: 3.00266e-03\n", + " Region: \"zone_3\"\tRelError: 3.47328e-01\tAbsError: 9.69815e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.43903e-01\tAbsError: 4.70596e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.68748e-02\tAbsError: 4.99219e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.65414e-02\tAbsError: 1.22658e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.64176e-06\tAbsError: 3.00375e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.93334e-01\tAbsError: 6.56738e+12\n", + " Region: \"zone_1\"\tRelError: 1.86981e-02\tAbsError: 1.19586e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86900e-02\tAbsError: 9.16562e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03535e-06\tAbsError: 2.79297e-03\n", + " Region: \"zone_3\"\tRelError: 2.74636e-01\tAbsError: 6.56738e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11907e-01\tAbsError: 3.29549e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.38500e-02\tAbsError: 3.27189e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88710e-02\tAbsError: 9.16566e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03753e-06\tAbsError: 2.79381e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.82821e-02\tAbsError: 2.68252e+12\n", + " Region: \"zone_1\"\tRelError: 5.25129e-04\tAbsError: 1.93840e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.19570e-04\tAbsError: 8.03188e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.55898e-06\tAbsError: 1.93037e-03\n", + " Region: \"zone_3\"\tRelError: 8.77570e-02\tAbsError: 2.68252e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.43925e-02\tAbsError: 1.75308e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.55318e-04\tAbsError: 9.29440e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.50363e-03\tAbsError: 8.78638e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.55898e-06\tAbsError: 1.93037e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.11980e-01\tAbsError: 2.98837e+12\n", + " Region: \"zone_1\"\tRelError: 5.60614e-04\tAbsError: 2.14512e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.54465e-04\tAbsError: 1.00063e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.14867e-06\tAbsError: 2.13511e-03\n", + " Region: \"zone_3\"\tRelError: 1.11419e-01\tAbsError: 2.98837e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.06867e-01\tAbsError: 1.76788e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.90377e-03\tAbsError: 1.22049e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.64228e-03\tAbsError: 1.04392e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.14867e-06\tAbsError: 2.13511e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.30171e-01\tAbsError: 3.28068e+12\n", + " Region: \"zone_1\"\tRelError: 5.86889e-04\tAbsError: 2.27696e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.80377e-04\tAbsError: 1.55714e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.51238e-06\tAbsError: 2.26139e-03\n", + " Region: \"zone_3\"\tRelError: 1.29584e-01\tAbsError: 3.28068e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.23299e-01\tAbsError: 1.75938e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.53077e-03\tAbsError: 1.52130e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.74781e-03\tAbsError: 1.70018e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.51238e-06\tAbsError: 2.26139e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.13764e-02\tAbsError: 2.60011e+12\n", + " Region: \"zone_1\"\tRelError: 5.15644e-04\tAbsError: 1.86139e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.10306e-04\tAbsError: 7.73509e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.33805e-06\tAbsError: 1.85366e-03\n", + " Region: \"zone_3\"\tRelError: 8.08607e-02\tAbsError: 2.60011e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77471e-02\tAbsError: 1.74501e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.39413e-04\tAbsError: 8.55098e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.46890e-03\tAbsError: 8.53513e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.33805e-06\tAbsError: 1.85366e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.00158e-02\tAbsError: 2.47729e+12\n", + " Region: \"zone_1\"\tRelError: 6.29744e-04\tAbsError: 1.66755e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.24968e-04\tAbsError: 8.94858e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", + " Region: \"zone_3\"\tRelError: 5.93860e-02\tAbsError: 2.47729e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.68115e-02\tAbsError: 1.70064e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.91678e-04\tAbsError: 7.76647e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.27809e-03\tAbsError: 9.43816e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.07510e-04\tAbsError: 1.02613e+12\n", + " Region: \"zone_1\"\tRelError: 4.81162e-05\tAbsError: 1.44442e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.77057e-05\tAbsError: 1.54944e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.10523e-07\tAbsError: 1.42893e-04\n", + " Region: \"zone_3\"\tRelError: 4.59393e-04\tAbsError: 1.02613e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.20154e-04\tAbsError: 2.39172e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03494e-04\tAbsError: 7.86956e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.35335e-04\tAbsError: 1.55565e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.10697e-07\tAbsError: 1.42956e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.59692e-04\tAbsError: 9.32961e+11\n", + " Region: \"zone_1\"\tRelError: 4.35244e-05\tAbsError: 1.38312e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.31311e-05\tAbsError: 1.40628e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.93324e-07\tAbsError: 1.36906e-04\n", + " Region: \"zone_3\"\tRelError: 4.16167e-04\tAbsError: 9.32961e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03722e-04\tAbsError: 2.21928e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.61297e-05\tAbsError: 7.11033e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.15922e-04\tAbsError: 1.41248e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.93489e-07\tAbsError: 1.36966e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.38944e-04\tAbsError: 1.08088e+12\n", + " Region: \"zone_1\"\tRelError: 5.57220e-05\tAbsError: 1.49946e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.52959e-05\tAbsError: 1.63142e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.26101e-07\tAbsError: 1.48314e-04\n", + " Region: \"zone_3\"\tRelError: 4.83222e-04\tAbsError: 1.08088e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.36277e-04\tAbsError: 2.47335e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.07539e-04\tAbsError: 8.33548e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.38980e-04\tAbsError: 1.63690e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.26280e-07\tAbsError: 1.48379e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.48966e-04\tAbsError: 8.96566e+11\n", + " Region: \"zone_1\"\tRelError: 5.28566e-05\tAbsError: 1.37320e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.24660e-05\tAbsError: 1.35084e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.90631e-07\tAbsError: 1.35969e-04\n", + " Region: \"zone_3\"\tRelError: 3.96109e-04\tAbsError: 8.96566e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98545e-05\tAbsError: 2.13909e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.29182e-05\tAbsError: 6.82656e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.02946e-04\tAbsError: 1.35679e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.90791e-07\tAbsError: 1.36028e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.31240e-04\tAbsError: 7.97937e+11\n", + " Region: \"zone_1\"\tRelError: 7.54533e-05\tAbsError: 1.27890e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.50894e-05\tAbsError: 1.20855e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.63943e-07\tAbsError: 1.26681e-04\n", + " Region: \"zone_3\"\tRelError: 3.55787e-04\tAbsError: 7.97937e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.38045e-05\tAbsError: 1.92064e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.48742e-05\tAbsError: 6.05872e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.76744e-04\tAbsError: 1.21338e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.64089e-07\tAbsError: 1.26735e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.70737e-04\tAbsError: 1.21785e+11\n", + " Region: \"zone_1\"\tRelError: 2.65857e-05\tAbsError: 5.61935e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.64241e-05\tAbsError: 7.54825e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.61597e-07\tAbsError: 5.61181e-05\n", + " Region: \"zone_3\"\tRelError: 1.44151e-04\tAbsError: 1.21785e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.31951e-06\tAbsError: 8.52238e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.24759e-06\tAbsError: 3.65614e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.27422e-04\tAbsError: 7.88477e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.61597e-07\tAbsError: 5.61181e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.77308e-04\tAbsError: 1.25818e+11\n", + " Region: \"zone_1\"\tRelError: 2.79068e-05\tAbsError: 5.92346e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.77364e-05\tAbsError: 7.86787e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70346e-07\tAbsError: 5.91560e-05\n", + " Region: \"zone_3\"\tRelError: 1.49401e-04\tAbsError: 1.25818e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.46957e-06\tAbsError: 8.85315e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.39871e-06\tAbsError: 3.72862e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.32362e-04\tAbsError: 8.21640e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70346e-07\tAbsError: 5.91560e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.64583e-04\tAbsError: 1.17941e+11\n", + " Region: \"zone_1\"\tRelError: 2.52141e-05\tAbsError: 5.07020e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.50683e-05\tAbsError: 7.21588e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.45792e-07\tAbsError: 5.06299e-05\n", + " Region: \"zone_3\"\tRelError: 1.39369e-04\tAbsError: 1.17941e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.26647e-06\tAbsError: 8.14899e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.19254e-06\tAbsError: 3.64508e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.22764e-04\tAbsError: 7.54100e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.45792e-07\tAbsError: 5.06299e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.53826e-04\tAbsError: 1.09912e+11\n", + " Region: \"zone_1\"\tRelError: 2.29821e-05\tAbsError: 4.27473e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.28592e-05\tAbsError: 6.65170e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", + " Region: \"zone_3\"\tRelError: 1.30844e-04\tAbsError: 1.09912e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.01681e-06\tAbsError: 7.52234e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94349e-06\tAbsError: 3.46881e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14760e-04\tAbsError: 6.98367e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.64329e-04\tAbsError: 1.17757e+11\n", + " Region: \"zone_1\"\tRelError: 2.50373e-05\tAbsError: 4.84121e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.48981e-05\tAbsError: 7.17289e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39198e-07\tAbsError: 4.83403e-05\n", + " Region: \"zone_3\"\tRelError: 1.39291e-04\tAbsError: 1.17757e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.33650e-06\tAbsError: 8.08468e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.26154e-06\tAbsError: 3.69104e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.22554e-04\tAbsError: 7.49738e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39198e-07\tAbsError: 4.83403e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.90390e-05\tAbsError: 4.90602e+10\n", + " Region: \"zone_1\"\tRelError: 5.41804e-06\tAbsError: 6.22537e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.40029e-06\tAbsError: 4.72424e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77494e-08\tAbsError: 6.17812e-06\n", + " Region: \"zone_3\"\tRelError: 3.36210e-05\tAbsError: 4.90602e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.73319e-06\tAbsError: 1.65926e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.70156e-06\tAbsError: 3.24676e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.61685e-05\tAbsError: 4.73196e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77577e-08\tAbsError: 6.18118e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:15\u001b[0m.\u001b[1;36m847\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:15\u001b[0m.\u001b[1;36m847\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.45999999999999996\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.06903e-05\tAbsError: 5.15663e+10\n", + " Region: \"zone_1\"\tRelError: 5.70157e-06\tAbsError: 6.43438e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.68323e-06\tAbsError: 4.97272e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83425e-08\tAbsError: 6.38465e-06\n", + " Region: \"zone_3\"\tRelError: 3.49887e-05\tAbsError: 5.15663e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.87284e-06\tAbsError: 1.72438e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.84060e-06\tAbsError: 3.43225e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.72569e-05\tAbsError: 4.97993e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83512e-08\tAbsError: 6.38778e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.50001e-05\tAbsError: 4.42708e+10\n", + " Region: \"zone_1\"\tRelError: 4.76850e-06\tAbsError: 6.11915e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.75104e-06\tAbsError: 4.26401e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.74573e-08\tAbsError: 6.07651e-06\n", + " Region: \"zone_3\"\tRelError: 3.02316e-05\tAbsError: 4.42708e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.43399e-06\tAbsError: 1.50234e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.40416e-06\tAbsError: 2.92474e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.33760e-05\tAbsError: 4.27135e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.74650e-08\tAbsError: 6.07937e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:16\u001b[0m.\u001b[1;36m086\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.6 V. Current applied bias: 0.475\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:16\u001b[0m.\u001b[1;36m094\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.55 V. Current applied bias: 0.4375\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.84860e-05\tAbsError: 3.70987e+10\n", + " Region: \"zone_1\"\tRelError: 3.74711e-06\tAbsError: 5.87951e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.73032e-06\tAbsError: 3.58594e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67880e-08\tAbsError: 5.84365e-06\n", + " Region: \"zone_3\"\tRelError: 2.47389e-05\tAbsError: 3.70987e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.96764e-06\tAbsError: 1.24118e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.94133e-06\tAbsError: 2.46869e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88131e-05\tAbsError: 3.59119e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67950e-08\tAbsError: 5.84625e-06\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.29104e-05\tAbsError: 4.21734e+10\n", + " Region: \"zone_1\"\tRelError: 4.44495e-06\tAbsError: 6.18426e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.42730e-06\tAbsError: 4.07074e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.76498e-08\tAbsError: 6.14355e-06\n", + " Region: \"zone_3\"\tRelError: 2.84655e-05\tAbsError: 4.21734e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.29169e-06\tAbsError: 1.42178e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.26285e-06\tAbsError: 2.79556e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.18933e-05\tAbsError: 4.07772e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.76574e-08\tAbsError: 6.14636e-06\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:16\u001b[0m.\u001b[1;36m233\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.5 V. Current applied bias: 0.4\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:16\u001b[0m.\u001b[1;36m337\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:16\u001b[0m.\u001b[1;36m337\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.43000000000000005\u001b[0m \n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "number of equations 31816\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.81358e+01\tAbsError: 9.89122e+15\n", + " Region: \"zone_1\"\tRelError: 3.64061e+01\tAbsError: 4.47753e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.64061e+01\tAbsError: 4.47728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.22055e-09\tAbsError: 2.50749e-06\n", + " Region: \"zone_3\"\tRelError: 1.72979e+00\tAbsError: 9.89122e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.00390e-01\tAbsError: 5.83984e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.00363e-01\tAbsError: 4.05139e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29036e-01\tAbsError: 4.47728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.22309e-09\tAbsError: 2.50831e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.24985e+01\tAbsError: 1.02989e+16\n", + " Region: \"zone_1\"\tRelError: 1.07491e+01\tAbsError: 4.56481e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07491e+01\tAbsError: 4.56455e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.61244e-09\tAbsError: 2.64356e-06\n", + " Region: \"zone_3\"\tRelError: 1.74934e+00\tAbsError: 1.02989e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.06833e-01\tAbsError: 6.07666e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.06804e-01\tAbsError: 4.22228e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35703e-01\tAbsError: 4.56455e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.61471e-09\tAbsError: 2.64428e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.06444e+00\tAbsError: 9.27893e+15\n", + " Region: \"zone_1\"\tRelError: 4.36525e+00\tAbsError: 4.34082e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.36525e+00\tAbsError: 4.34059e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.43922e-09\tAbsError: 2.23618e-06\n", + " Region: \"zone_3\"\tRelError: 1.69919e+00\tAbsError: 9.27893e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.89877e-01\tAbsError: 5.47844e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.89852e-01\tAbsError: 3.80049e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19466e-01\tAbsError: 4.34059e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.44131e-09\tAbsError: 2.23685e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.87618e+01\tAbsError: 8.25603e+15\n", + " Region: \"zone_1\"\tRelError: 2.71120e+01\tAbsError: 4.09561e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.71120e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.29384e-09\tAbsError: 1.83846e-06\n", + " Region: \"zone_3\"\tRelError: 1.64979e+00\tAbsError: 8.25603e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69658e-01\tAbsError: 4.86497e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69634e-01\tAbsError: 3.39106e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10500e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.29480e-09\tAbsError: 1.83875e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 4.99434e+00\tAbsError: 9.07460e+15\n", + " Region: \"zone_1\"\tRelError: 3.30452e+00\tAbsError: 4.29359e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.30452e+00\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.08442e-09\tAbsError: 2.11298e-06\n", + " Region: \"zone_3\"\tRelError: 1.68981e+00\tAbsError: 9.07460e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86122e-01\tAbsError: 5.35667e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.86097e-01\tAbsError: 3.71793e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17595e-01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.08597e-09\tAbsError: 2.11346e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.76698e+00\tAbsError: 6.05674e+14\n", + " Region: \"zone_1\"\tRelError: 1.76193e-01\tAbsError: 8.82156e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.76041e-01\tAbsError: 3.52796e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52324e-04\tAbsError: 5.29360e-02\n", + " Region: \"zone_3\"\tRelError: 1.59079e+00\tAbsError: 6.05674e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.94698e-01\tAbsError: 3.52874e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.85858e-01\tAbsError: 2.52800e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10077e-01\tAbsError: 3.52799e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52324e-04\tAbsError: 5.29360e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.77155e+00\tAbsError: 7.60573e+14\n", + " Region: \"zone_1\"\tRelError: 1.51457e-01\tAbsError: 9.01901e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51302e-01\tAbsError: 3.63157e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.55027e-04\tAbsError: 5.38744e-02\n", + " Region: \"zone_3\"\tRelError: 1.62010e+00\tAbsError: 7.60573e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.06073e-01\tAbsError: 4.40912e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.96799e-01\tAbsError: 3.19661e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17069e-01\tAbsError: 3.63160e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.55027e-04\tAbsError: 5.38744e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.66739e+00\tAbsError: 5.06300e+14\n", + " Region: \"zone_1\"\tRelError: 1.22234e-01\tAbsError: 8.49170e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.22087e-01\tAbsError: 3.36592e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47492e-04\tAbsError: 5.12578e-02\n", + " Region: \"zone_3\"\tRelError: 1.54515e+00\tAbsError: 5.06300e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.75921e-01\tAbsError: 3.27200e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.67567e-01\tAbsError: 1.79101e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01517e-01\tAbsError: 3.36595e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47492e-04\tAbsError: 5.12578e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.69855e+00\tAbsError: 3.40458e+14\n", + " Region: \"zone_1\"\tRelError: 2.34470e-01\tAbsError: 7.85796e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.34332e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", + " Region: \"zone_3\"\tRelError: 1.46408e+00\tAbsError: 3.40458e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39247e-01\tAbsError: 2.37038e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.31799e-01\tAbsError: 1.03420e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.29010e-02\tAbsError: 3.07639e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.64725e+00\tAbsError: 4.74556e+14\n", + " Region: \"zone_1\"\tRelError: 1.16564e-01\tAbsError: 8.37432e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16418e-01\tAbsError: 3.31003e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.45721e-04\tAbsError: 5.06428e-02\n", + " Region: \"zone_3\"\tRelError: 1.53069e+00\tAbsError: 4.74556e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.69093e-01\tAbsError: 3.14532e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.61063e-01\tAbsError: 1.60024e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00388e-01\tAbsError: 3.31007e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.45721e-04\tAbsError: 5.06428e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.35255e+00\tAbsError: 3.63655e+14\n", + " Region: \"zone_1\"\tRelError: 1.97939e-01\tAbsError: 3.56019e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.97911e-01\tAbsError: 2.56995e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.84934e-05\tAbsError: 9.90236e-03\n", + " Region: \"zone_3\"\tRelError: 1.15461e+00\tAbsError: 3.63655e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.30370e-01\tAbsError: 2.11310e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.26259e-01\tAbsError: 1.52345e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.79559e-02\tAbsError: 2.58613e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.84934e-05\tAbsError: 9.90236e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.33921e+00\tAbsError: 4.90102e+14\n", + " Region: \"zone_1\"\tRelError: 1.39048e-01\tAbsError: 3.67457e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39017e-01\tAbsError: 2.58798e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.12666e-05\tAbsError: 1.08660e-02\n", + " Region: \"zone_3\"\tRelError: 1.20016e+00\tAbsError: 4.90102e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.49633e-01\tAbsError: 2.77160e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.48210e-01\tAbsError: 2.12942e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02286e-01\tAbsError: 2.58607e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.12666e-05\tAbsError: 1.08660e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.16831e+00\tAbsError: 2.25997e+14\n", + " Region: \"zone_1\"\tRelError: 8.94403e-02\tAbsError: 3.44130e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.94155e-02\tAbsError: 2.57920e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.48059e-05\tAbsError: 8.62100e-03\n", + " Region: \"zone_3\"\tRelError: 1.07887e+00\tAbsError: 2.25997e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.99205e-01\tAbsError: 1.34698e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.88376e-01\tAbsError: 9.12987e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.12613e-02\tAbsError: 2.58613e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.48059e-05\tAbsError: 8.62100e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.13875e+00\tAbsError: 1.91429e+14\n", + " Region: \"zone_1\"\tRelError: 8.72362e-02\tAbsError: 3.41775e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.72123e-02\tAbsError: 2.58950e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.38317e-05\tAbsError: 8.28251e-03\n", + " Region: \"zone_3\"\tRelError: 1.05151e+00\tAbsError: 1.91429e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.88183e-01\tAbsError: 1.14582e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.74391e-01\tAbsError: 7.68472e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.89114e-02\tAbsError: 2.58546e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.38317e-05\tAbsError: 8.28251e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.10009e+00\tAbsError: 9.49766e+13\n", + " Region: \"zone_1\"\tRelError: 1.69910e-01\tAbsError: 3.26443e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.69891e-01\tAbsError: 2.58991e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", + " Region: \"zone_3\"\tRelError: 9.30185e-01\tAbsError: 9.49766e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40985e-01\tAbsError: 5.67002e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.12174e-01\tAbsError: 3.82763e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.70066e-02\tAbsError: 2.58994e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.36061e-01\tAbsError: 1.72469e+14\n", + " Region: \"zone_1\"\tRelError: 4.75512e-02\tAbsError: 1.91624e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.75415e-02\tAbsError: 1.57808e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.74068e-06\tAbsError: 3.38161e-03\n", + " Region: \"zone_3\"\tRelError: 4.88510e-01\tAbsError: 1.72469e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.93580e-01\tAbsError: 7.57065e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.46679e-01\tAbsError: 9.67627e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.82412e-02\tAbsError: 1.57809e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.74424e-06\tAbsError: 3.38291e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.97909e-01\tAbsError: 2.52002e+14\n", + " Region: \"zone_1\"\tRelError: 5.51282e-02\tAbsError: 2.15770e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.51170e-02\tAbsError: 1.76838e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12142e-05\tAbsError: 3.89314e-03\n", + " Region: \"zone_3\"\tRelError: 5.42781e-01\tAbsError: 2.52002e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.19147e-01\tAbsError: 1.09256e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.67592e-01\tAbsError: 1.42746e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.60306e-02\tAbsError: 1.76839e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12182e-05\tAbsError: 3.89457e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.43699e-01\tAbsError: 9.37478e+13\n", + " Region: \"zone_1\"\tRelError: 3.74442e-02\tAbsError: 1.59997e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.74359e-02\tAbsError: 1.31068e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.33312e-06\tAbsError: 2.89293e-03\n", + " Region: \"zone_3\"\tRelError: 4.06255e-01\tAbsError: 9.37478e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.55206e-01\tAbsError: 4.13823e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.13134e-01\tAbsError: 5.23655e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.79070e-02\tAbsError: 1.31068e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.33742e-06\tAbsError: 2.89445e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.13297e-01\tAbsError: 7.52929e+13\n", + " Region: \"zone_1\"\tRelError: 3.44170e-02\tAbsError: 1.51248e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.44088e-02\tAbsError: 1.22657e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.23601e-06\tAbsError: 2.85918e-03\n", + " Region: \"zone_3\"\tRelError: 3.78880e-01\tAbsError: 7.52929e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.42275e-01\tAbsError: 3.28684e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.01785e-01\tAbsError: 4.24245e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.48113e-02\tAbsError: 1.22657e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.23601e-06\tAbsError: 2.85918e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.56252e-01\tAbsError: 3.42527e+13\n", + " Region: \"zone_1\"\tRelError: 6.41646e-02\tAbsError: 1.11813e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.41588e-02\tAbsError: 9.16555e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.79958e-06\tAbsError: 2.01571e-03\n", + " Region: \"zone_3\"\tRelError: 2.92088e-01\tAbsError: 3.42527e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07223e-01\tAbsError: 1.60452e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.07953e-02\tAbsError: 1.82076e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.40630e-02\tAbsError: 9.16559e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.80279e-06\tAbsError: 2.01683e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.27933e-01\tAbsError: 3.77067e+13\n", + " Region: \"zone_1\"\tRelError: 8.63730e-03\tAbsError: 3.44155e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 8.62803e-03\tAbsError: 2.24917e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.26403e-06\tAbsError: 3.21663e-03\n", + " Region: \"zone_3\"\tRelError: 1.19296e-01\tAbsError: 3.77067e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01004e-01\tAbsError: 1.86096e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.59887e-02\tAbsError: 1.90970e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29412e-03\tAbsError: 2.44371e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.26403e-06\tAbsError: 3.21663e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.52868e-01\tAbsError: 5.88500e+13\n", + " Region: \"zone_1\"\tRelError: 9.73630e-03\tAbsError: 4.53225e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 9.72423e-03\tAbsError: 3.38686e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20778e-05\tAbsError: 4.19356e-03\n", + " Region: \"zone_3\"\tRelError: 1.43131e-01\tAbsError: 5.88500e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.16572e-01\tAbsError: 2.83993e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.41855e-02\tAbsError: 3.04506e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.36161e-03\tAbsError: 3.65636e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20778e-05\tAbsError: 4.19356e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.29176e-02\tAbsError: 1.87255e+13\n", + " Region: \"zone_1\"\tRelError: 2.42581e-03\tAbsError: 2.43303e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.41913e-03\tAbsError: 1.13406e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.68051e-06\tAbsError: 2.31963e-03\n", + " Region: \"zone_3\"\tRelError: 9.04918e-02\tAbsError: 1.87255e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.06428e-02\tAbsError: 9.51123e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.64781e-03\tAbsError: 9.21422e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.19457e-03\tAbsError: 1.25751e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.68051e-06\tAbsError: 2.31963e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.59960e-02\tAbsError: 3.73217e+12\n", + " Region: \"zone_1\"\tRelError: 7.31305e-03\tAbsError: 2.21475e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.30674e-03\tAbsError: 2.57182e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", + " Region: \"zone_3\"\tRelError: 5.86829e-02\tAbsError: 3.73217e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.62142e-02\tAbsError: 2.07187e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.09163e-04\tAbsError: 1.66031e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65329e-03\tAbsError: 2.69578e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.55296e-02\tAbsError: 1.46785e+13\n", + " Region: \"zone_1\"\tRelError: 2.49644e-03\tAbsError: 2.18616e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49041e-03\tAbsError: 9.01307e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.03652e-06\tAbsError: 2.09603e-03\n", + " Region: \"zone_3\"\tRelError: 8.30332e-02\tAbsError: 1.46785e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.51171e-02\tAbsError: 7.64842e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.70344e-03\tAbsError: 7.03012e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20658e-03\tAbsError: 1.00679e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.03652e-06\tAbsError: 2.09603e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.46136e-03\tAbsError: 1.53101e+12\n", + " Region: \"zone_1\"\tRelError: 1.66986e-04\tAbsError: 2.22118e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66353e-04\tAbsError: 2.21820e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.32759e-07\tAbsError: 2.19900e-04\n", + " Region: \"zone_3\"\tRelError: 1.29437e-03\tAbsError: 1.53101e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.36978e-04\tAbsError: 4.54909e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.42881e-04\tAbsError: 1.07610e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.13878e-04\tAbsError: 2.48873e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.32759e-07\tAbsError: 2.19900e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.18982e-03\tAbsError: 2.05271e+12\n", + " Region: \"zone_1\"\tRelError: 2.63923e-04\tAbsError: 2.92360e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.63092e-04\tAbsError: 3.76510e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.30441e-07\tAbsError: 2.88595e-04\n", + " Region: \"zone_3\"\tRelError: 1.92590e-03\tAbsError: 2.05271e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.21596e-04\tAbsError: 6.82791e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.91395e-04\tAbsError: 1.36992e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11208e-03\tAbsError: 4.22049e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.30441e-07\tAbsError: 2.88595e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 8.17310e-04\tAbsError: 1.08380e+12\n", + " Region: \"zone_1\"\tRelError: 8.80491e-05\tAbsError: 1.60948e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 8.75900e-05\tAbsError: 1.40037e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.59060e-07\tAbsError: 1.59547e-04\n", + " Region: \"zone_3\"\tRelError: 7.29260e-04\tAbsError: 1.08380e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.40460e-04\tAbsError: 2.80505e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.02770e-04\tAbsError: 8.03299e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.85571e-04\tAbsError: 1.45875e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.59060e-07\tAbsError: 1.59547e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.58436e-04\tAbsError: 9.76197e+11\n", + " Region: \"zone_1\"\tRelError: 6.87963e-05\tAbsError: 1.52764e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.83606e-05\tAbsError: 1.30863e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.35775e-07\tAbsError: 1.51456e-04\n", + " Region: \"zone_3\"\tRelError: 5.89639e-04\tAbsError: 9.76197e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.93148e-04\tAbsError: 2.43686e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.21484e-05\tAbsError: 7.32511e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.03907e-04\tAbsError: 1.33351e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.35775e-07\tAbsError: 1.51456e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 8.14034e-04\tAbsError: 1.03618e+12\n", + " Region: \"zone_1\"\tRelError: 1.43803e-04\tAbsError: 7.79056e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43584e-04\tAbsError: 1.54074e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19396e-07\tAbsError: 7.63649e-05\n", + " Region: \"zone_3\"\tRelError: 6.70231e-04\tAbsError: 1.03618e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.21829e-04\tAbsError: 2.70793e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.05108e-04\tAbsError: 7.65387e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.43074e-04\tAbsError: 1.54210e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19498e-07\tAbsError: 7.64015e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.91105e-04\tAbsError: 1.53176e+11\n", + " Region: \"zone_1\"\tRelError: 3.27136e-05\tAbsError: 9.22669e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.24482e-05\tAbsError: 1.08446e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.65413e-07\tAbsError: 9.21585e-05\n", + " Region: \"zone_3\"\tRelError: 1.58391e-04\tAbsError: 1.53176e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.05709e-05\tAbsError: 1.03501e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.04377e-05\tAbsError: 4.96748e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37117e-04\tAbsError: 1.13469e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.65524e-07\tAbsError: 9.21983e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.17167e-04\tAbsError: 1.84585e+11\n", + " Region: \"zone_1\"\tRelError: 3.72870e-05\tAbsError: 1.24890e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.69277e-05\tAbsError: 1.34606e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.59293e-07\tAbsError: 1.24755e-04\n", + " Region: \"zone_3\"\tRelError: 1.79880e-04\tAbsError: 1.84585e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.31660e-05\tAbsError: 1.23826e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.29782e-05\tAbsError: 6.07589e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.53376e-04\tAbsError: 1.40980e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.59336e-07\tAbsError: 1.24771e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.65553e-04\tAbsError: 1.24515e+11\n", + " Region: \"zone_1\"\tRelError: 2.80671e-05\tAbsError: 6.32032e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78853e-05\tAbsError: 8.44023e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.81769e-07\tAbsError: 6.31188e-05\n", + " Region: \"zone_3\"\tRelError: 1.37486e-04\tAbsError: 1.24515e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.24823e-06\tAbsError: 8.47993e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.15629e-06\tAbsError: 3.97152e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20900e-04\tAbsError: 8.81984e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.81805e-07\tAbsError: 6.31296e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.65798e-04\tAbsError: 1.22174e+11\n", + " Region: \"zone_1\"\tRelError: 2.79805e-05\tAbsError: 5.56854e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78204e-05\tAbsError: 8.16520e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60127e-07\tAbsError: 5.56037e-05\n", + " Region: \"zone_3\"\tRelError: 1.37818e-04\tAbsError: 1.22174e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.04045e-06\tAbsError: 8.28593e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.95339e-06\tAbsError: 3.93149e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21664e-04\tAbsError: 8.53009e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60129e-07\tAbsError: 5.56037e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.61312e-05\tAbsError: 5.74046e+10\n", + " Region: \"zone_1\"\tRelError: 1.61849e-05\tAbsError: 6.45313e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.59991e-05\tAbsError: 3.79845e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.85726e-07\tAbsError: 6.44934e-05\n", + " Region: \"zone_3\"\tRelError: 5.99464e-05\tAbsError: 5.74046e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.77906e-06\tAbsError: 4.68633e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.20461e-06\tAbsError: 1.05413e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.27769e-05\tAbsError: 3.95532e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.85828e-07\tAbsError: 6.45281e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:26\u001b[0m.\u001b[1;36m614\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.5 V. Current applied bias: 0.5\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 8.71599e-05\tAbsError: 8.63311e+10\n", + " Region: \"zone_1\"\tRelError: 1.45239e-05\tAbsError: 6.32337e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.45059e-05\tAbsError: 6.52346e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.79809e-08\tAbsError: 6.25813e-06\n", + " Region: \"zone_3\"\tRelError: 7.26359e-05\tAbsError: 8.63311e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.55694e-06\tAbsError: 3.72560e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.50849e-06\tAbsError: 4.90752e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 6.15525e-05\tAbsError: 6.62280e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.79882e-08\tAbsError: 6.26082e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:27\u001b[0m.\u001b[1;36m227\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: 0.58\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.28225e-04\tAbsError: 1.19419e+11\n", + " Region: \"zone_1\"\tRelError: 2.19087e-05\tAbsError: 6.73240e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.18896e-05\tAbsError: 8.49137e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.90998e-08\tAbsError: 6.64748e-06\n", + " Region: \"zone_3\"\tRelError: 1.06317e-04\tAbsError: 1.19419e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.49812e-06\tAbsError: 5.46310e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.43237e-06\tAbsError: 6.47876e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 9.13670e-05\tAbsError: 8.65435e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91076e-08\tAbsError: 6.65030e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.21903e-05\tAbsError: 5.72389e+10\n", + " Region: \"zone_1\"\tRelError: 8.34176e-06\tAbsError: 5.86080e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.32506e-06\tAbsError: 4.71382e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67033e-08\tAbsError: 5.81366e-06\n", + " Region: \"zone_3\"\tRelError: 4.38485e-05\tAbsError: 5.72389e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.81863e-06\tAbsError: 2.24731e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.78561e-06\tAbsError: 3.47657e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.62276e-05\tAbsError: 4.76030e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67103e-08\tAbsError: 5.81619e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.29840e-05\tAbsError: 4.97114e+10\n", + " Region: \"zone_1\"\tRelError: 6.74775e-06\tAbsError: 6.07457e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.73042e-06\tAbsError: 4.22286e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73315e-08\tAbsError: 6.03234e-06\n", + " Region: \"zone_3\"\tRelError: 3.62362e-05\tAbsError: 4.97114e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.35448e-06\tAbsError: 1.86949e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.32535e-06\tAbsError: 3.10165e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.95390e-05\tAbsError: 4.25647e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73388e-08\tAbsError: 6.03496e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:27\u001b[0m.\u001b[1;36m903\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.55 V. Current applied bias: 0.55\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:27\u001b[0m.\u001b[1;36m949\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: 0.54\u001b[0m \n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.60199e+01\tAbsError: 8.22903e+15\n", + " Region: \"zone_1\"\tRelError: 3.43433e+01\tAbsError: 4.09555e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.43433e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.48443e-09\tAbsError: 1.21289e-06\n", + " Region: \"zone_3\"\tRelError: 1.67662e+00\tAbsError: 8.22903e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.78919e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.43984e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37338e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.48691e-09\tAbsError: 1.21378e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 4.61978e+01\tAbsError: 9.96785e+15\n", + " Region: \"zone_1\"\tRelError: 4.44199e+01\tAbsError: 4.47776e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.44199e+01\tAbsError: 4.47728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.38243e-08\tAbsError: 4.80419e-06\n", + " Region: \"zone_3\"\tRelError: 1.77789e+00\tAbsError: 9.96785e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.00373e-01\tAbsError: 5.53494e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.00283e-01\tAbsError: 4.43291e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77231e-01\tAbsError: 4.47728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.38259e-08\tAbsError: 4.80483e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 4.66418e-06\tAbsError: 5.37987e+09\n", + " Region: \"zone_1\"\tRelError: 8.01887e-07\tAbsError: 6.86973e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 7.82129e-07\tAbsError: 3.38380e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.97586e-08\tAbsError: 6.86635e-06\n", + " Region: \"zone_3\"\tRelError: 3.86229e-06\tAbsError: 5.37987e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.38045e-07\tAbsError: 4.16158e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.79512e-07\tAbsError: 1.21829e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.22497e-06\tAbsError: 3.52801e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.97625e-08\tAbsError: 6.86780e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:29\u001b[0m.\u001b[1;36m025\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.6 V. Current applied bias: 0.6\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.79935e+00\tAbsError: 9.07065e+15\n", + " Region: \"zone_1\"\tRelError: 6.07018e+00\tAbsError: 4.29363e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.07018e+00\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.28179e-09\tAbsError: 2.52849e-06\n", + " Region: \"zone_3\"\tRelError: 1.72916e+00\tAbsError: 9.07065e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86123e-01\tAbsError: 5.17830e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.86053e-01\tAbsError: 3.89234e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.56989e-01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.28214e-09\tAbsError: 2.52864e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.34489e+01\tAbsError: 9.28815e+15\n", + " Region: \"zone_1\"\tRelError: 1.17073e+01\tAbsError: 4.34089e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17073e+01\tAbsError: 4.34059e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.66604e-09\tAbsError: 3.01167e-06\n", + " Region: \"zone_3\"\tRelError: 1.74167e+00\tAbsError: 9.28815e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.89875e-01\tAbsError: 5.26960e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.89800e-01\tAbsError: 4.01855e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.61991e-01\tAbsError: 4.34059e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.66604e-09\tAbsError: 3.01169e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.73485e+00\tAbsError: 1.08973e+15\n", + " Region: \"zone_1\"\tRelError: 2.25350e+00\tAbsError: 6.85700e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.25339e+00\tAbsError: 3.07635e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", + " Region: \"zone_3\"\tRelError: 1.48136e+00\tAbsError: 1.08973e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41054e-01\tAbsError: 6.25022e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.24005e-01\tAbsError: 4.64711e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16189e-01\tAbsError: 3.07637e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 9.49120e+00\tAbsError: 3.87577e+15\n", + " Region: \"zone_1\"\tRelError: 7.88160e+00\tAbsError: 7.65185e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.88148e+00\tAbsError: 3.52795e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18679e-04\tAbsError: 4.12390e-02\n", + " Region: \"zone_3\"\tRelError: 1.60960e+00\tAbsError: 3.87577e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.94752e-01\tAbsError: 1.96214e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.70036e-01\tAbsError: 1.91363e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.44693e-01\tAbsError: 3.52796e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18679e-04\tAbsError: 4.12390e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.52079e+01\tAbsError: 1.04499e+16\n", + " Region: \"zone_1\"\tRelError: 2.34063e+01\tAbsError: 4.56456e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.34063e+01\tAbsError: 4.56455e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.65927e-10\tAbsError: 1.27309e-07\n", + " Region: \"zone_3\"\tRelError: 1.80158e+00\tAbsError: 1.04499e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.06801e-01\tAbsError: 5.71038e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.06701e-01\tAbsError: 4.73948e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88074e-01\tAbsError: 4.56455e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.66097e-10\tAbsError: 1.27368e-07\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.87726e+00\tAbsError: 2.07784e+15\n", + " Region: \"zone_1\"\tRelError: 3.30726e-01\tAbsError: 7.19464e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.30614e-01\tAbsError: 3.31002e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11788e-04\tAbsError: 3.88462e-02\n", + " Region: \"zone_3\"\tRelError: 1.54653e+00\tAbsError: 2.07784e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.70151e-01\tAbsError: 1.12779e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.49677e-01\tAbsError: 9.50051e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.26591e-01\tAbsError: 3.31003e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11788e-04\tAbsError: 3.88462e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.06546e+00\tAbsError: 2.42910e+15\n", + " Region: \"zone_1\"\tRelError: 5.04047e-01\tAbsError: 7.29119e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.03934e-01\tAbsError: 3.36591e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12959e-04\tAbsError: 3.92528e-02\n", + " Region: \"zone_3\"\tRelError: 1.56142e+00\tAbsError: 2.42910e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.76732e-01\tAbsError: 1.29636e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.55184e-01\tAbsError: 1.13274e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29387e-01\tAbsError: 3.36592e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12959e-04\tAbsError: 3.92528e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.38677e+00\tAbsError: 6.38966e+14\n", + " Region: \"zone_1\"\tRelError: 4.51470e-01\tAbsError: 3.37904e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.51448e-01\tAbsError: 2.58448e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", + " Region: \"zone_3\"\tRelError: 9.35299e-01\tAbsError: 6.38966e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42607e-01\tAbsError: 3.02038e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.95795e-01\tAbsError: 3.36928e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.68743e-02\tAbsError: 2.57679e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.27685e+00\tAbsError: 3.22805e+15\n", + " Region: \"zone_1\"\tRelError: 1.23665e-01\tAbsError: 3.28269e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.23644e-01\tAbsError: 2.57799e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.03021e-05\tAbsError: 7.04693e-03\n", + " Region: \"zone_3\"\tRelError: 1.15319e+00\tAbsError: 3.22805e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.31406e-01\tAbsError: 1.41952e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.92785e-01\tAbsError: 1.80854e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28975e-01\tAbsError: 2.50223e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.03132e-05\tAbsError: 7.05082e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.97416e+01\tAbsError: 5.30793e+15\n", + " Region: \"zone_1\"\tRelError: 1.81011e+01\tAbsError: 8.03359e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.81009e+01\tAbsError: 3.63155e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26686e-04\tAbsError: 4.40203e-02\n", + " Region: \"zone_3\"\tRelError: 1.64056e+00\tAbsError: 5.30793e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.05436e-01\tAbsError: 2.59655e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.79266e-01\tAbsError: 2.71137e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55737e-01\tAbsError: 3.63156e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26686e-04\tAbsError: 4.40203e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.15795e+00\tAbsError: 1.43317e+15\n", + " Region: \"zone_1\"\tRelError: 1.12652e-01\tAbsError: 3.52450e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12625e-01\tAbsError: 2.58896e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69531e-05\tAbsError: 9.35535e-03\n", + " Region: \"zone_3\"\tRelError: 1.04530e+00\tAbsError: 1.43317e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.89809e-01\tAbsError: 6.27661e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.39858e-01\tAbsError: 8.05511e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15604e-01\tAbsError: 2.58543e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69724e-05\tAbsError: 9.36224e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.19014e+00\tAbsError: 1.77232e+15\n", + " Region: \"zone_1\"\tRelError: 1.16406e-01\tAbsError: 3.58693e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16377e-01\tAbsError: 2.57454e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.91673e-05\tAbsError: 1.01239e-02\n", + " Region: \"zone_3\"\tRelError: 1.07373e+00\tAbsError: 1.77232e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.00688e-01\tAbsError: 7.71149e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.53283e-01\tAbsError: 1.00118e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19733e-01\tAbsError: 2.58503e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.91886e-05\tAbsError: 1.01314e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.41554e-01\tAbsError: 2.20715e+14\n", + " Region: \"zone_1\"\tRelError: 2.89595e-02\tAbsError: 1.67352e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.89377e-02\tAbsError: 9.16565e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18085e-05\tAbsError: 7.56954e-03\n", + " Region: \"zone_3\"\tRelError: 3.12594e-01\tAbsError: 2.20715e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.94155e-01\tAbsError: 1.01533e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.87246e-02\tAbsError: 1.19182e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.96932e-02\tAbsError: 9.16570e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18152e-05\tAbsError: 7.57200e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.03339e+00\tAbsError: 1.35100e+15\n", + " Region: \"zone_1\"\tRelError: 4.86638e-01\tAbsError: 4.06166e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.86567e-01\tAbsError: 1.57812e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.15551e-05\tAbsError: 2.48354e-02\n", + " Region: \"zone_3\"\tRelError: 5.46754e-01\tAbsError: 1.35100e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.94312e-01\tAbsError: 6.70250e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.91899e-01\tAbsError: 6.80751e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.04718e-02\tAbsError: 1.57813e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.15962e-05\tAbsError: 2.48500e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.90718e+00\tAbsError: 4.57799e+15\n", + " Region: \"zone_1\"\tRelError: 6.98987e-01\tAbsError: 3.15756e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.98970e-01\tAbsError: 2.58187e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.65873e-05\tAbsError: 5.75692e-03\n", + " Region: \"zone_3\"\tRelError: 1.20819e+00\tAbsError: 4.57799e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.50404e-01\tAbsError: 2.10275e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.16940e-01\tAbsError: 2.47524e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40833e-01\tAbsError: 2.57339e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.65919e-05\tAbsError: 5.75848e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.66101e-01\tAbsError: 5.71776e+14\n", + " Region: \"zone_1\"\tRelError: 4.21342e-02\tAbsError: 2.70003e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.20918e-02\tAbsError: 1.22659e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.24522e-05\tAbsError: 1.47344e-02\n", + " Region: \"zone_3\"\tRelError: 4.23967e-01\tAbsError: 5.71776e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.40635e-01\tAbsError: 2.83777e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.40006e-01\tAbsError: 2.87999e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.32840e-02\tAbsError: 1.22660e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.24816e-05\tAbsError: 1.47449e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.00471e-01\tAbsError: 7.18290e+14\n", + " Region: \"zone_1\"\tRelError: 4.58077e-02\tAbsError: 3.08706e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.57565e-02\tAbsError: 1.31071e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.11797e-05\tAbsError: 1.77635e-02\n", + " Region: \"zone_3\"\tRelError: 4.54664e-01\tAbsError: 7.18290e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.54015e-01\tAbsError: 3.59442e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.53250e-01\tAbsError: 3.58848e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.73475e-02\tAbsError: 1.31072e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.12103e-05\tAbsError: 1.77744e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.19808e-02\tAbsError: 3.06344e+13\n", + " Region: \"zone_1\"\tRelError: 2.04251e-02\tAbsError: 4.10278e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.04136e-02\tAbsError: 1.00349e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", + " Region: \"zone_3\"\tRelError: 6.15557e-02\tAbsError: 3.06344e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38926e-02\tAbsError: 1.71938e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.73234e-03\tAbsError: 1.34406e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.91920e-03\tAbsError: 1.01109e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.77064e-01\tAbsError: 2.74208e+14\n", + " Region: \"zone_1\"\tRelError: 1.45533e-01\tAbsError: 1.86642e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.45481e-01\tAbsError: 4.78882e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.23812e-05\tAbsError: 1.81853e-02\n", + " Region: \"zone_3\"\tRelError: 1.31531e-01\tAbsError: 2.74208e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.43134e-02\tAbsError: 1.47586e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.67438e-02\tAbsError: 1.26622e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04217e-02\tAbsError: 4.89202e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.23812e-05\tAbsError: 1.81853e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.08267e+00\tAbsError: 2.05555e+15\n", + " Region: \"zone_1\"\tRelError: 4.74733e-01\tAbsError: 5.07265e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.74638e-01\tAbsError: 1.76843e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.51006e-05\tAbsError: 3.30422e-02\n", + " Region: \"zone_3\"\tRelError: 6.07933e-01\tAbsError: 2.05555e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.19412e-01\tAbsError: 1.01229e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.17373e-01\tAbsError: 1.04326e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.10530e-02\tAbsError: 1.76844e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.51581e-05\tAbsError: 3.30598e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.84053e-02\tAbsError: 1.08690e+14\n", + " Region: \"zone_1\"\tRelError: 8.68078e-03\tAbsError: 8.41083e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 8.65731e-03\tAbsError: 2.61591e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.34713e-05\tAbsError: 8.14923e-03\n", + " Region: \"zone_3\"\tRelError: 8.97245e-02\tAbsError: 1.08690e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.02382e-02\tAbsError: 6.26697e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.25943e-02\tAbsError: 4.60204e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.86852e-03\tAbsError: 2.62736e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.34713e-05\tAbsError: 8.14923e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.53920e-03\tAbsError: 1.84314e+12\n", + " Region: \"zone_1\"\tRelError: 2.29752e-04\tAbsError: 2.41443e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29064e-04\tAbsError: 2.20702e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", + " Region: \"zone_3\"\tRelError: 1.30944e-03\tAbsError: 1.84314e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11485e-04\tAbsError: 5.81096e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.63190e-04\tAbsError: 1.26205e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 9.34079e-04\tAbsError: 2.25011e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.14444e-01\tAbsError: 1.39799e+14\n", + " Region: \"zone_1\"\tRelError: 1.51601e-02\tAbsError: 1.02733e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51314e-02\tAbsError: 3.09160e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.86990e-05\tAbsError: 9.96415e-03\n", + " Region: \"zone_3\"\tRelError: 9.92839e-02\tAbsError: 1.39799e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.56218e-02\tAbsError: 7.87755e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.55448e-02\tAbsError: 6.10233e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.08856e-03\tAbsError: 3.11493e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.86990e-05\tAbsError: 9.96415e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.30863e-02\tAbsError: 9.34886e+12\n", + " Region: \"zone_1\"\tRelError: 5.42500e-03\tAbsError: 1.09909e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.42186e-03\tAbsError: 8.38632e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.13916e-06\tAbsError: 1.09070e-03\n", + " Region: \"zone_3\"\tRelError: 7.66127e-03\tAbsError: 9.34886e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.03173e-04\tAbsError: 3.67297e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.55630e-04\tAbsError: 5.67589e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 6.09933e-03\tAbsError: 8.47585e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.13916e-06\tAbsError: 1.09070e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 3.21573e-01\tAbsError: 4.67958e+14\n", + " Region: \"zone_1\"\tRelError: 1.62369e-01\tAbsError: 2.82899e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.62289e-01\tAbsError: 6.12610e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.97267e-05\tAbsError: 2.76773e-02\n", + " Region: \"zone_3\"\tRelError: 1.59204e-01\tAbsError: 4.67958e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10876e-01\tAbsError: 2.44176e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.52599e-02\tAbsError: 2.23782e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29883e-02\tAbsError: 6.28778e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.97267e-05\tAbsError: 2.76773e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.70865e-03\tAbsError: 3.95368e+12\n", + " Region: \"zone_1\"\tRelError: 5.98822e-04\tAbsError: 5.60907e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.97219e-04\tAbsError: 3.89502e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60297e-06\tAbsError: 5.57012e-04\n", + " Region: \"zone_3\"\tRelError: 3.10982e-03\tAbsError: 3.95368e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.50396e-04\tAbsError: 1.41982e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.19860e-04\tAbsError: 2.53386e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.33796e-03\tAbsError: 3.96587e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60304e-06\tAbsError: 5.57046e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.63142e-03\tAbsError: 4.86609e+12\n", + " Region: \"zone_1\"\tRelError: 7.61282e-04\tAbsError: 6.97446e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.59288e-04\tAbsError: 4.58618e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.99396e-06\tAbsError: 6.92860e-04\n", + " Region: \"zone_3\"\tRelError: 3.87013e-03\tAbsError: 4.86609e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.40083e-04\tAbsError: 1.77391e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.84262e-04\tAbsError: 3.09218e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.94379e-03\tAbsError: 4.70350e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.99396e-06\tAbsError: 6.92860e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.51045e-04\tAbsError: 2.02519e+11\n", + " Region: \"zone_1\"\tRelError: 4.54891e-05\tAbsError: 1.12868e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.51644e-05\tAbsError: 1.25671e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.24705e-07\tAbsError: 1.12743e-04\n", + " Region: \"zone_3\"\tRelError: 2.05556e-04\tAbsError: 2.02519e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12163e-05\tAbsError: 1.36505e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10724e-05\tAbsError: 6.60139e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82943e-04\tAbsError: 1.30848e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.24777e-07\tAbsError: 1.12769e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.18680e-03\tAbsError: 7.18169e+11\n", + " Region: \"zone_1\"\tRelError: 5.59334e-04\tAbsError: 5.55817e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.57736e-04\tAbsError: 4.25373e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59852e-06\tAbsError: 5.55391e-04\n", + " Region: \"zone_3\"\tRelError: 6.27464e-04\tAbsError: 7.18169e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.03657e-05\tAbsError: 4.82924e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.86476e-05\tAbsError: 2.35246e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.46853e-04\tAbsError: 4.40551e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59852e-06\tAbsError: 5.55401e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.47140e-02\tAbsError: 1.50803e+13\n", + " Region: \"zone_1\"\tRelError: 1.27460e-02\tAbsError: 1.51578e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.27417e-02\tAbsError: 1.27789e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.32614e-06\tAbsError: 1.50300e-03\n", + " Region: \"zone_3\"\tRelError: 1.19680e-02\tAbsError: 1.50803e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28353e-03\tAbsError: 6.44204e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.49281e-04\tAbsError: 8.63829e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 9.73086e-03\tAbsError: 1.29461e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.32614e-06\tAbsError: 1.50300e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 5.03905e-04\tAbsError: 4.29222e+11\n", + " Region: \"zone_1\"\tRelError: 9.36879e-05\tAbsError: 2.36804e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.30066e-05\tAbsError: 2.54166e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.81308e-07\tAbsError: 2.36550e-04\n", + " Region: \"zone_3\"\tRelError: 4.10217e-04\tAbsError: 4.29222e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.41988e-05\tAbsError: 2.77763e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.38677e-05\tAbsError: 1.51459e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.61470e-04\tAbsError: 2.67086e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.81308e-07\tAbsError: 2.36550e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.09745e-04\tAbsError: 5.21468e+11\n", + " Region: \"zone_1\"\tRelError: 1.14300e-04\tAbsError: 2.90084e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13465e-04\tAbsError: 3.07455e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.34625e-07\tAbsError: 2.89777e-04\n", + " Region: \"zone_3\"\tRelError: 4.95445e-04\tAbsError: 5.21468e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.92372e-05\tAbsError: 3.37309e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.88204e-05\tAbsError: 1.84159e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.36553e-04\tAbsError: 3.22181e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.34625e-07\tAbsError: 2.89777e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.09882e-04\tAbsError: 1.05387e+11\n", + " Region: \"zone_1\"\tRelError: 1.91896e-05\tAbsError: 8.11152e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.91665e-05\tAbsError: 7.26801e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.30974e-08\tAbsError: 8.03884e-06\n", + " Region: \"zone_3\"\tRelError: 9.06925e-05\tAbsError: 1.05387e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41210e-06\tAbsError: 4.74044e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.36012e-06\tAbsError: 5.79823e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.78972e-05\tAbsError: 7.44246e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.31071e-08\tAbsError: 8.04242e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 9.89150e-04\tAbsError: 5.35964e+11\n", + " Region: \"zone_1\"\tRelError: 4.72333e-04\tAbsError: 1.96224e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.72277e-04\tAbsError: 2.88087e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.55580e-08\tAbsError: 1.93343e-05\n", + " Region: \"zone_3\"\tRelError: 5.16817e-04\tAbsError: 5.35964e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.78052e-05\tAbsError: 2.68732e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.76635e-05\tAbsError: 2.67232e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.61293e-04\tAbsError: 2.97401e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.55808e-08\tAbsError: 1.93427e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.80995e-03\tAbsError: 9.00716e+11\n", + " Region: \"zone_1\"\tRelError: 1.05911e-03\tAbsError: 8.52183e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.05666e-03\tAbsError: 5.36776e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.45139e-06\tAbsError: 8.51646e-04\n", + " Region: \"zone_3\"\tRelError: 7.50839e-04\tAbsError: 9.00716e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.26828e-05\tAbsError: 6.33818e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.67143e-05\tAbsError: 2.66898e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 6.48991e-04\tAbsError: 5.58586e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.45150e-06\tAbsError: 8.51699e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.52598e-04\tAbsError: 2.26713e+11\n", + " Region: \"zone_1\"\tRelError: 4.63661e-05\tAbsError: 1.62759e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.63197e-05\tAbsError: 1.37060e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.63731e-08\tAbsError: 1.61389e-05\n", + " Region: \"zone_3\"\tRelError: 2.06232e-04\tAbsError: 2.26713e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28007e-05\tAbsError: 1.09151e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.27071e-05\tAbsError: 1.17562e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.80678e-04\tAbsError: 1.41716e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.63910e-08\tAbsError: 1.61454e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 7.21635e-06\tAbsError: 6.66071e+09\n", + " Region: \"zone_1\"\tRelError: 1.30608e-06\tAbsError: 5.92265e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28905e-06\tAbsError: 4.03393e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70320e-08\tAbsError: 5.91862e-06\n", + " Region: \"zone_3\"\tRelError: 5.91027e-06\tAbsError: 6.66071e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.61854e-07\tAbsError: 4.98334e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.27195e-07\tAbsError: 1.67738e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 5.20418e-06\tAbsError: 4.19235e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70346e-08\tAbsError: 5.91965e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.14039e-04\tAbsError: 2.78819e+11\n", + " Region: \"zone_1\"\tRelError: 5.82968e-05\tAbsError: 1.95922e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.82410e-05\tAbsError: 1.63517e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.58267e-08\tAbsError: 1.94287e-05\n", + " Region: \"zone_3\"\tRelError: 2.55743e-04\tAbsError: 2.78819e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.54293e-05\tAbsError: 1.35487e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.53221e-05\tAbsError: 1.43332e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.24935e-04\tAbsError: 1.69505e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.58486e-08\tAbsError: 1.94366e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.51031e-06\tAbsError: 1.52707e+10\n", + " Region: \"zone_1\"\tRelError: 1.92750e-06\tAbsError: 3.15987e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.83658e-06\tAbsError: 7.53819e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.09197e-08\tAbsError: 3.15911e-05\n", + " Region: \"zone_3\"\tRelError: 4.58280e-06\tAbsError: 1.52707e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.43367e-07\tAbsError: 1.25040e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.52456e-07\tAbsError: 2.76660e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.79602e-06\tAbsError: 7.83943e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.09589e-08\tAbsError: 3.16048e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:40\u001b[0m.\u001b[1;36m058\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: 0.7\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.97686e-03\tAbsError: 8.26086e+11\n", + " Region: \"zone_1\"\tRelError: 1.16335e-03\tAbsError: 1.77491e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16330e-03\tAbsError: 4.17046e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.98056e-08\tAbsError: 1.73321e-05\n", + " Region: \"zone_3\"\tRelError: 8.13509e-04\tAbsError: 8.26086e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.08663e-05\tAbsError: 4.18100e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.07187e-05\tAbsError: 4.07986e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 7.31874e-04\tAbsError: 4.36618e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.98285e-08\tAbsError: 1.73405e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.37529e-05\tAbsError: 1.40904e+10\n", + " Region: \"zone_1\"\tRelError: 2.56157e-06\tAbsError: 1.29255e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.52440e-06\tAbsError: 7.69838e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.71758e-08\tAbsError: 1.29178e-05\n", + " Region: \"zone_3\"\tRelError: 1.11914e-05\tAbsError: 1.40904e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.24225e-07\tAbsError: 1.00189e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.55953e-07\tAbsError: 4.07146e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 9.77400e-06\tAbsError: 8.06496e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.71861e-08\tAbsError: 1.29217e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:40\u001b[0m.\u001b[1;36m919\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: 0.65\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 8\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 1.63083e-05\tAbsError: 1.69923e+10\n", + " Region: \"zone_1\"\tRelError: 3.06233e-06\tAbsError: 1.59116e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.01656e-06\tAbsError: 9.13982e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.57663e-08\tAbsError: 1.59025e-05\n", + " Region: \"zone_3\"\tRelError: 1.32460e-05\tAbsError: 1.69923e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.64217e-07\tAbsError: 1.20714e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.75493e-07\tAbsError: 4.92097e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15605e-05\tAbsError: 9.54770e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.57804e-08\tAbsError: 1.59078e-05\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.68423e-05\tAbsError: 1.31861e+10\n", + " Region: \"zone_1\"\tRelError: 1.57902e-05\tAbsError: 4.90444e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.56491e-05\tAbsError: 5.53975e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41146e-07\tAbsError: 4.90389e-05\n", + " Region: \"zone_3\"\tRelError: 1.10521e-05\tAbsError: 1.31861e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.00575e-06\tAbsError: 1.18844e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.38543e-07\tAbsError: 1.30166e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 9.16658e-06\tAbsError: 5.67278e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41201e-07\tAbsError: 4.90583e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.87250e+00\tAbsError: 2.38112e+16\n", + " Region: \"zone_1\"\tRelError: 4.02900e+00\tAbsError: 4.47737e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.02900e+00\tAbsError: 4.47728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.77280e-09\tAbsError: 9.62637e-07\n", + " Region: \"zone_3\"\tRelError: 1.84350e+00\tAbsError: 2.38112e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.99927e-01\tAbsError: 1.19850e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.99609e-01\tAbsError: 1.18262e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.43964e-01\tAbsError: 4.47728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.77327e-09\tAbsError: 9.62813e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:42\u001b[0m.\u001b[1;36m364\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:42\u001b[0m.\u001b[1;36m394\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.75 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:42\u001b[0m.\u001b[1;36m439\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.52664e+01\tAbsError: 1.16964e+16\n", + " Region: \"zone_1\"\tRelError: 5.34885e+01\tAbsError: 4.29340e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.34885e+01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.65399e-10\tAbsError: 1.96786e-07\n", + " Region: \"zone_3\"\tRelError: 1.77791e+00\tAbsError: 1.16964e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.85913e-01\tAbsError: 5.96599e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.85711e-01\tAbsError: 5.73044e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06286e-01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.65730e-10\tAbsError: 1.96905e-07\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.85583e+00\tAbsError: 2.82968e+16\n", + " Region: \"zone_1\"\tRelError: 2.08117e-01\tAbsError: 1.41550e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.07811e-01\tAbsError: 3.52793e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.05953e-04\tAbsError: 1.06271e-01\n", + " Region: \"zone_3\"\tRelError: 1.64772e+00\tAbsError: 2.82968e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91544e-01\tAbsError: 1.39566e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.57360e-01\tAbsError: 1.43401e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.98508e-01\tAbsError: 3.52793e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.05953e-04\tAbsError: 1.06271e-01\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.48679e+02\tAbsError: 3.39467e+16\n", + " Region: \"zone_1\"\tRelError: 7.11664e+02\tAbsError: 7.25191e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.11664e+02\tAbsError: 7.25190e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.57556e-10\tAbsError: 1.24451e-07\n", + " Region: \"zone_3\"\tRelError: 3.70144e+01\tAbsError: 3.39467e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.10279e+01\tAbsError: 1.80458e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.57729e+01\tAbsError: 1.59008e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.13521e-01\tAbsError: 7.25190e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.57765e-10\tAbsError: 1.24526e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:43\u001b[0m.\u001b[1;36m596\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:43\u001b[0m.\u001b[1;36m635\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.8 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:43\u001b[0m.\u001b[1;36m684\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 6.33878e+00\tAbsError: 1.22675e+16\n", + " Region: \"zone_1\"\tRelError: 4.76725e+00\tAbsError: 9.34106e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.76707e+00\tAbsError: 3.31000e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73592e-04\tAbsError: 6.03106e-02\n", + " Region: \"zone_3\"\tRelError: 1.57153e+00\tAbsError: 1.22675e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67129e-01\tAbsError: 5.98252e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.36794e-01\tAbsError: 6.28496e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.67430e-01\tAbsError: 3.31000e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73592e-04\tAbsError: 6.03106e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:44\u001b[0m.\u001b[1;36m280\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:44\u001b[0m.\u001b[1;36m311\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.85 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:44\u001b[0m.\u001b[1;36m345\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.34811e+00\tAbsError: 2.09220e+16\n", + " Region: \"zone_1\"\tRelError: 1.55990e-01\tAbsError: 4.10360e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55945e-01\tAbsError: 2.55116e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.47424e-05\tAbsError: 1.55244e-02\n", + " Region: \"zone_3\"\tRelError: 1.19212e+00\tAbsError: 2.09220e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.27350e-01\tAbsError: 1.05095e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.94610e-01\tAbsError: 1.04125e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.70114e-01\tAbsError: 2.41674e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.47424e-05\tAbsError: 1.55244e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 9.93000e+01\tAbsError: 4.51525e+16\n", + " Region: \"zone_1\"\tRelError: 7.25052e+01\tAbsError: 7.53942e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.25052e+01\tAbsError: 7.53940e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.15069e-10\tAbsError: 2.14071e-07\n", + " Region: \"zone_3\"\tRelError: 2.67949e+01\tAbsError: 4.51525e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.61657e+01\tAbsError: 2.54761e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03882e+01\tAbsError: 1.96764e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.41003e-01\tAbsError: 7.53940e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.15427e-10\tAbsError: 2.14199e-07\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.25381e+02\tAbsError: 7.27552e+15\n", + " Region: \"zone_1\"\tRelError: 1.16793e+01\tAbsError: 1.99937e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16789e+01\tAbsError: 6.76847e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.80427e-04\tAbsError: 1.32252e-01\n", + " Region: \"zone_3\"\tRelError: 1.13702e+02\tAbsError: 7.27552e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.96579e+01\tAbsError: 3.56588e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.38771e+01\tAbsError: 3.70964e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66530e-01\tAbsError: 6.76849e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.80427e-04\tAbsError: 1.32252e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.27823e+00\tAbsError: 8.68356e+15\n", + " Region: \"zone_1\"\tRelError: 1.88988e-01\tAbsError: 4.08652e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88944e-01\tAbsError: 2.57034e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.36930e-05\tAbsError: 1.51618e-02\n", + " Region: \"zone_3\"\tRelError: 1.08924e+00\tAbsError: 8.68356e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.90758e-01\tAbsError: 4.26881e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.47066e-01\tAbsError: 4.41475e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51374e-01\tAbsError: 2.52748e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.47625e-05\tAbsError: 1.55328e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.59636e+01\tAbsError: 9.97993e+16\n", + " Region: \"zone_1\"\tRelError: 4.40288e+01\tAbsError: 7.79837e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.40288e+01\tAbsError: 7.79815e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.54665e-09\tAbsError: 2.27445e-06\n", + " Region: \"zone_3\"\tRelError: 3.19348e+01\tAbsError: 9.97993e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.19797e+01\tAbsError: 5.24562e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.96832e+01\tAbsError: 4.73431e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.71919e-01\tAbsError: 7.79815e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.54665e-09\tAbsError: 2.27445e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 6.70108e-01\tAbsError: 8.80223e+15\n", + " Region: \"zone_1\"\tRelError: 1.18953e-01\tAbsError: 1.56966e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18546e-01\tAbsError: 1.57804e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.06994e-04\tAbsError: 1.41186e-01\n", + " Region: \"zone_3\"\tRelError: 5.51155e-01\tAbsError: 8.80223e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.83768e-01\tAbsError: 4.18531e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.85569e-01\tAbsError: 4.61691e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.14117e-02\tAbsError: 1.57805e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.07123e-04\tAbsError: 1.41232e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.04468e+02\tAbsError: 1.94565e+16\n", + " Region: \"zone_1\"\tRelError: 1.33089e+00\tAbsError: 2.90662e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33026e+00\tAbsError: 7.09270e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.31969e-04\tAbsError: 2.19735e-01\n", + " Region: \"zone_3\"\tRelError: 3.03137e+02\tAbsError: 1.94565e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.14106e+01\tAbsError: 1.05094e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.81537e+02\tAbsError: 8.94706e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88168e-01\tAbsError: 7.09271e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.31969e-04\tAbsError: 2.19735e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.21999e+02\tAbsError: 5.77042e+15\n", + " Region: \"zone_1\"\tRelError: 1.84527e+00\tAbsError: 8.08650e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.84522e+00\tAbsError: 6.21779e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.38134e-05\tAbsError: 1.86870e-02\n", + " Region: \"zone_3\"\tRelError: 1.20153e+02\tAbsError: 5.77042e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.47805e+01\tAbsError: 2.59297e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.05233e+02\tAbsError: 3.17746e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39803e-01\tAbsError: 6.21780e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.38227e-05\tAbsError: 1.86907e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.63507e+02\tAbsError: 5.30277e+16\n", + " Region: \"zone_1\"\tRelError: 8.35852e+01\tAbsError: 4.44328e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 8.35841e+01\tAbsError: 7.38247e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06526e-03\tAbsError: 3.70503e-01\n", + " Region: \"zone_3\"\tRelError: 7.99220e+01\tAbsError: 5.30277e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.88005e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.07098e+01\tAbsError: 2.42271e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.11202e-01\tAbsError: 7.38248e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06526e-03\tAbsError: 3.70503e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.24591e+00\tAbsError: 3.26346e+15\n", + " Region: \"zone_1\"\tRelError: 1.80867e+00\tAbsError: 8.31621e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.80847e+00\tAbsError: 1.22663e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.04347e-04\tAbsError: 7.08958e-02\n", + " Region: \"zone_3\"\tRelError: 4.37234e-01\tAbsError: 3.26346e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.32552e-01\tAbsError: 1.73554e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.50687e-01\tAbsError: 1.52791e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.37915e-02\tAbsError: 1.22664e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.04553e-04\tAbsError: 7.09655e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.17815e-01\tAbsError: 1.58420e+15\n", + " Region: \"zone_1\"\tRelError: 4.13293e-02\tAbsError: 1.21701e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.09798e-02\tAbsError: 4.52349e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.49513e-04\tAbsError: 1.21249e-01\n", + " Region: \"zone_3\"\tRelError: 1.76486e-01\tAbsError: 1.58420e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.63825e-02\tAbsError: 9.43320e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.46672e-02\tAbsError: 6.40881e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.50863e-02\tAbsError: 4.79056e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.49530e-04\tAbsError: 1.21252e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.16103e+03\tAbsError: 9.66146e+15\n", + " Region: \"zone_1\"\tRelError: 2.70149e+00\tAbsError: 1.33956e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.70130e+00\tAbsError: 6.58786e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.95827e-04\tAbsError: 6.80778e-02\n", + " Region: \"zone_3\"\tRelError: 1.15833e+03\tAbsError: 9.66146e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.59756e+01\tAbsError: 2.60646e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.14219e+03\tAbsError: 7.05500e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.57544e-01\tAbsError: 6.58787e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.95827e-04\tAbsError: 6.80778e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 6.06291e+02\tAbsError: 4.01421e+14\n", + " Region: \"zone_1\"\tRelError: 1.10248e-01\tAbsError: 8.97582e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10150e-01\tAbsError: 5.58213e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.76059e-05\tAbsError: 3.39369e-02\n", + " Region: \"zone_3\"\tRelError: 6.06180e+02\tAbsError: 4.01421e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.98365e+02\tAbsError: 2.62317e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.70461e+00\tAbsError: 1.39104e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10110e-01\tAbsError: 5.58214e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.76059e-05\tAbsError: 3.39369e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.50763e+03\tAbsError: 2.23340e+16\n", + " Region: \"zone_1\"\tRelError: 6.44725e+00\tAbsError: 2.49092e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 6.44673e+00\tAbsError: 6.91599e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.17604e-04\tAbsError: 1.79932e-01\n", + " Region: \"zone_3\"\tRelError: 1.50119e+03\tAbsError: 2.23340e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.29257e+03\tAbsError: 8.51965e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.08393e+02\tAbsError: 1.38143e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.26018e-01\tAbsError: 6.91599e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.17604e-04\tAbsError: 1.79932e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.09725e-01\tAbsError: 5.66844e+14\n", + " Region: \"zone_1\"\tRelError: 9.74944e-02\tAbsError: 6.02281e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.73217e-02\tAbsError: 2.69090e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72760e-04\tAbsError: 5.99590e-02\n", + " Region: \"zone_3\"\tRelError: 1.12230e-01\tAbsError: 5.66844e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.16841e-02\tAbsError: 3.36059e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.40653e-02\tAbsError: 2.30785e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.63081e-02\tAbsError: 2.86751e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72917e-04\tAbsError: 6.00120e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 8.10483e-02\tAbsError: 1.35513e+14\n", + " Region: \"zone_1\"\tRelError: 2.58322e-02\tAbsError: 2.48018e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.58252e-02\tAbsError: 3.80519e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.03965e-06\tAbsError: 2.44213e-03\n", + " Region: \"zone_3\"\tRelError: 5.52160e-02\tAbsError: 1.35513e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.20175e-03\tAbsError: 6.78200e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.94194e-03\tAbsError: 6.76932e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.90653e-02\tAbsError: 3.84912e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.05638e-06\tAbsError: 2.44787e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.46406e+03\tAbsError: 1.65999e+15\n", + " Region: \"zone_1\"\tRelError: 4.28617e-01\tAbsError: 1.04295e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.28490e-01\tAbsError: 6.01031e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27107e-04\tAbsError: 4.41918e-02\n", + " Region: \"zone_3\"\tRelError: 3.46363e+03\tAbsError: 1.65999e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.22098e+01\tAbsError: 1.04576e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.37130e+03\tAbsError: 6.14224e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.25668e-01\tAbsError: 6.01031e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27107e-04\tAbsError: 4.41918e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.20336e+03\tAbsError: 2.45508e+14\n", + " Region: \"zone_1\"\tRelError: 8.57374e-02\tAbsError: 4.98203e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.57333e-02\tAbsError: 4.83794e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14867e-06\tAbsError: 1.44089e-03\n", + " Region: \"zone_3\"\tRelError: 2.20327e+03\tAbsError: 2.45508e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.14531e+03\tAbsError: 1.73130e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.78727e+01\tAbsError: 7.23779e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.58452e-02\tAbsError: 4.83794e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14867e-06\tAbsError: 1.44089e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.25272e+02\tAbsError: 6.60472e+15\n", + " Region: \"zone_1\"\tRelError: 2.27909e+00\tAbsError: 1.12504e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.27895e+00\tAbsError: 6.38659e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.40057e-04\tAbsError: 4.86385e-02\n", + " Region: \"zone_3\"\tRelError: 4.22993e+02\tAbsError: 6.60472e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.16210e+01\tAbsError: 3.79266e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.41231e+02\tAbsError: 2.81205e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.41418e-01\tAbsError: 6.38659e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.40177e-04\tAbsError: 4.86799e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.32859e-02\tAbsError: 3.83563e+13\n", + " Region: \"zone_1\"\tRelError: 8.24035e-03\tAbsError: 7.96612e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 8.23812e-03\tAbsError: 2.18441e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.23240e-06\tAbsError: 7.74768e-04\n", + " Region: \"zone_3\"\tRelError: 2.50456e-02\tAbsError: 3.83563e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.92826e-03\tAbsError: 1.79088e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.76021e-03\tAbsError: 2.04475e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.13549e-02\tAbsError: 2.23899e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.24276e-06\tAbsError: 7.78349e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 5.48813e-04\tAbsError: 1.88570e+12\n", + " Region: \"zone_1\"\tRelError: 1.45274e-04\tAbsError: 3.39970e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35478e-04\tAbsError: 1.22010e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.79649e-06\tAbsError: 3.39848e-03\n", + " Region: \"zone_3\"\tRelError: 4.03539e-04\tAbsError: 1.88570e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.94628e-05\tAbsError: 9.77470e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.14796e-05\tAbsError: 9.08225e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.92798e-04\tAbsError: 1.23326e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.79900e-06\tAbsError: 3.39940e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 5.83067e+03\tAbsError: 5.92587e+14\n", + " Region: \"zone_1\"\tRelError: 1.88503e-01\tAbsError: 6.71506e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88463e-01\tAbsError: 5.34036e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.95381e-05\tAbsError: 1.37470e-02\n", + " Region: \"zone_3\"\tRelError: 5.83048e+03\tAbsError: 5.92587e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.74537e+03\tAbsError: 3.49738e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.50118e+01\tAbsError: 2.42848e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.98336e-02\tAbsError: 5.34037e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.95381e-05\tAbsError: 1.37470e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.77863e+01\tAbsError: 6.01969e+13\n", + " Region: \"zone_1\"\tRelError: 6.43140e-02\tAbsError: 4.43277e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.43003e-02\tAbsError: 3.95640e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37008e-05\tAbsError: 4.76374e-03\n", + " Region: \"zone_3\"\tRelError: 1.77220e+01\tAbsError: 6.01969e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.39628e+01\tAbsError: 3.74418e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.69466e+00\tAbsError: 2.27551e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.45263e-02\tAbsError: 3.95641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37008e-05\tAbsError: 4.76374e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.38541e+03\tAbsError: 6.79969e+14\n", + " Region: \"zone_1\"\tRelError: 1.13349e-01\tAbsError: 1.11530e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13194e-01\tAbsError: 5.77791e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54595e-04\tAbsError: 5.37513e-02\n", + " Region: \"zone_3\"\tRelError: 2.38530e+03\tAbsError: 6.79969e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.60459e+03\tAbsError: 2.66439e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.80597e+02\tAbsError: 4.13529e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13272e-01\tAbsError: 5.77792e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54595e-04\tAbsError: 5.37513e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.77352e-04\tAbsError: 7.13394e+11\n", + " Region: \"zone_1\"\tRelError: 2.80569e-04\tAbsError: 1.79321e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.75403e-04\tAbsError: 4.87828e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.16541e-06\tAbsError: 1.79273e-03\n", + " Region: \"zone_3\"\tRelError: 1.96783e-04\tAbsError: 7.13394e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.19881e-05\tAbsError: 4.92944e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.32443e-05\tAbsError: 2.20450e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.46385e-04\tAbsError: 4.93945e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.16541e-06\tAbsError: 1.79273e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.92853e-03\tAbsError: 5.62124e+12\n", + " Region: \"zone_1\"\tRelError: 1.96532e-03\tAbsError: 1.96576e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.96476e-03\tAbsError: 1.37574e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.61379e-07\tAbsError: 1.95200e-04\n", + " Region: \"zone_3\"\tRelError: 3.96321e-03\tAbsError: 5.62124e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.25845e-04\tAbsError: 2.83157e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.24546e-04\tAbsError: 2.78967e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.71226e-03\tAbsError: 1.47660e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.61596e-07\tAbsError: 1.95273e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.08409e+02\tAbsError: 1.91699e+14\n", + " Region: \"zone_1\"\tRelError: 7.70948e-02\tAbsError: 5.30921e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.70730e-02\tAbsError: 4.55245e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17651e-05\tAbsError: 7.56764e-03\n", + " Region: \"zone_3\"\tRelError: 2.08332e+02\tAbsError: 1.91699e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05469e+02\tAbsError: 1.32563e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.78566e+00\tAbsError: 5.91361e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.73368e-02\tAbsError: 4.55246e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17651e-05\tAbsError: 7.56764e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 9.93223e+03\tAbsError: 1.22952e+13\n", + " Region: \"zone_1\"\tRelError: 4.57686e-02\tAbsError: 3.13053e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.57624e-02\tAbsError: 2.91306e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.26141e-06\tAbsError: 2.17471e-03\n", + " Region: \"zone_3\"\tRelError: 9.93219e+03\tAbsError: 1.22952e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.93152e+03\tAbsError: 6.28414e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.21409e-01\tAbsError: 6.01109e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.63288e-02\tAbsError: 2.91306e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.26141e-06\tAbsError: 2.17471e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.25988e+04\tAbsError: 5.24078e+14\n", + " Region: \"zone_1\"\tRelError: 1.49524e-01\tAbsError: 5.33198e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49516e-01\tAbsError: 5.06822e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.59452e-06\tAbsError: 2.63763e-03\n", + " Region: \"zone_3\"\tRelError: 1.25987e+04\tAbsError: 5.24078e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.25908e+04\tAbsError: 3.27064e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.78157e+00\tAbsError: 1.97014e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.90329e-02\tAbsError: 5.06822e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.59452e-06\tAbsError: 2.63763e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.49838e-03\tAbsError: 1.76569e+12\n", + " Region: \"zone_1\"\tRelError: 6.54941e-04\tAbsError: 9.30889e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.54675e-04\tAbsError: 8.39400e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.65787e-07\tAbsError: 9.22495e-05\n", + " Region: \"zone_3\"\tRelError: 1.84344e-03\tAbsError: 1.76569e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77494e-05\tAbsError: 8.82777e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.71860e-05\tAbsError: 8.82910e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.68824e-03\tAbsError: 8.40369e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.65787e-07\tAbsError: 9.22495e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 4.72762e-04\tAbsError: 3.41820e+11\n", + " Region: \"zone_1\"\tRelError: 1.58246e-04\tAbsError: 1.92506e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.57692e-04\tAbsError: 9.65722e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.54279e-07\tAbsError: 1.92410e-04\n", + " Region: \"zone_3\"\tRelError: 3.14516e-04\tAbsError: 3.41820e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.64023e-06\tAbsError: 1.71224e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.68076e-06\tAbsError: 1.70595e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.98641e-04\tAbsError: 1.03349e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.54407e-07\tAbsError: 1.92451e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.41194e+02\tAbsError: 5.68109e+13\n", + " Region: \"zone_1\"\tRelError: 5.66163e-02\tAbsError: 3.77625e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.66117e-02\tAbsError: 3.61717e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.58018e-06\tAbsError: 1.59077e-03\n", + " Region: \"zone_3\"\tRelError: 6.41138e+02\tAbsError: 5.68109e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33427e+02\tAbsError: 3.56087e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.07654e+02\tAbsError: 2.12022e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.69268e-02\tAbsError: 3.61718e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.58018e-06\tAbsError: 1.59077e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.11877e+00\tAbsError: 2.43618e+12\n", + " Region: \"zone_1\"\tRelError: 3.45248e-02\tAbsError: 2.79337e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.45156e-02\tAbsError: 2.47258e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.23616e-06\tAbsError: 3.20792e-03\n", + " Region: \"zone_3\"\tRelError: 1.08424e+00\tAbsError: 2.43618e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99948e-01\tAbsError: 1.31112e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.93315e-02\tAbsError: 1.12506e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.49530e-02\tAbsError: 2.47259e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.23616e-06\tAbsError: 3.20792e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.32327e+02\tAbsError: 1.48132e+14\n", + " Region: \"zone_1\"\tRelError: 6.77637e-02\tAbsError: 4.36000e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.77600e-02\tAbsError: 4.22992e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.74140e-06\tAbsError: 1.30085e-03\n", + " Region: \"zone_3\"\tRelError: 6.32260e+02\tAbsError: 1.48132e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.04050e+01\tAbsError: 1.03200e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.51786e+02\tAbsError: 4.49319e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.81931e-02\tAbsError: 4.22993e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.74140e-06\tAbsError: 1.30085e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.99060e-04\tAbsError: 9.07144e+10\n", + " Region: \"zone_1\"\tRelError: 5.32122e-05\tAbsError: 1.06982e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.29043e-05\tAbsError: 5.30299e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.07864e-07\tAbsError: 1.06929e-04\n", + " Region: \"zone_3\"\tRelError: 1.45848e-04\tAbsError: 9.07144e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.37854e-06\tAbsError: 4.24042e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.42241e-06\tAbsError: 4.83102e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.36739e-04\tAbsError: 5.34823e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.07966e-07\tAbsError: 1.06964e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.00550e-04\tAbsError: 3.20626e+11\n", + " Region: \"zone_1\"\tRelError: 1.33793e-04\tAbsError: 2.12224e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33732e-04\tAbsError: 7.08063e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.09330e-08\tAbsError: 2.11516e-05\n", + " Region: \"zone_3\"\tRelError: 2.66756e-04\tAbsError: 3.20626e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.21226e-06\tAbsError: 1.61400e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.10685e-06\tAbsError: 1.59226e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.52376e-04\tAbsError: 7.71568e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.09495e-08\tAbsError: 2.11573e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.07505e+00\tAbsError: 6.25389e+12\n", + " Region: \"zone_1\"\tRelError: 4.36529e-02\tAbsError: 2.95826e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.36423e-02\tAbsError: 2.58965e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06129e-05\tAbsError: 3.68607e-03\n", + " Region: \"zone_3\"\tRelError: 2.03140e+00\tAbsError: 6.25389e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.96580e-01\tAbsError: 1.78149e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.90898e-01\tAbsError: 4.47240e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.39096e-02\tAbsError: 2.58973e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06129e-05\tAbsError: 3.68607e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 9.51554e-01\tAbsError: 1.89582e+12\n", + " Region: \"zone_1\"\tRelError: 2.30110e-04\tAbsError: 6.58813e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.11154e-04\tAbsError: 4.13879e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.89561e-05\tAbsError: 6.58399e-03\n", + " Region: \"zone_3\"\tRelError: 9.51324e-01\tAbsError: 1.89582e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.49652e-01\tAbsError: 5.86158e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.60421e-03\tAbsError: 1.30967e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.88469e-05\tAbsError: 4.50711e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.89561e-05\tAbsError: 6.58399e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.09192e+00\tAbsError: 2.46218e+13\n", + " Region: \"zone_1\"\tRelError: 4.83263e-02\tAbsError: 3.71406e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.83125e-02\tAbsError: 3.23497e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37943e-05\tAbsError: 4.79093e-03\n", + " Region: \"zone_3\"\tRelError: 2.04359e+00\tAbsError: 2.46218e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99137e-01\tAbsError: 9.59394e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.95705e-01\tAbsError: 1.50279e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.87366e-02\tAbsError: 3.23497e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37943e-05\tAbsError: 4.79093e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.73943e-04\tAbsError: 1.07365e+11\n", + " Region: \"zone_1\"\tRelError: 4.60985e-05\tAbsError: 1.16082e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.60652e-05\tAbsError: 4.61233e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.32888e-08\tAbsError: 1.15620e-05\n", + " Region: \"zone_3\"\tRelError: 1.27845e-04\tAbsError: 1.07365e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.59108e-06\tAbsError: 6.01847e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.54678e-06\tAbsError: 4.71802e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18674e-04\tAbsError: 4.74794e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.32988e-08\tAbsError: 1.15655e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 5.47711e-05\tAbsError: 3.70815e+10\n", + " Region: \"zone_1\"\tRelError: 1.83966e-05\tAbsError: 1.25973e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.83604e-05\tAbsError: 8.35155e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.61935e-08\tAbsError: 1.25889e-05\n", + " Region: \"zone_3\"\tRelError: 3.63746e-05\tAbsError: 3.70815e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.32814e-07\tAbsError: 1.85960e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.27373e-07\tAbsError: 1.84855e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.46782e-05\tAbsError: 9.16153e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.62081e-08\tAbsError: 1.25941e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 9.27661e+02\tAbsError: 3.54994e+12\n", + " Region: \"zone_1\"\tRelError: 2.38776e-02\tAbsError: 2.12602e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.38666e-02\tAbsError: 1.74104e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10841e-05\tAbsError: 3.84976e-03\n", + " Region: \"zone_3\"\tRelError: 9.27637e+02\tAbsError: 3.54994e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.27595e+02\tAbsError: 1.74289e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.72650e-02\tAbsError: 1.80705e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.42829e-02\tAbsError: 1.74106e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10841e-05\tAbsError: 3.84976e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 3.89717e-03\tAbsError: 3.47997e+12\n", + " Region: \"zone_1\"\tRelError: 8.55125e-04\tAbsError: 1.16964e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 8.54801e-04\tAbsError: 4.36303e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.23842e-07\tAbsError: 1.12601e-04\n", + " Region: \"zone_3\"\tRelError: 3.04204e-03\tAbsError: 3.47997e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.47788e-04\tAbsError: 1.09617e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.59563e-04\tAbsError: 2.38380e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03437e-03\tAbsError: 4.40268e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.23842e-07\tAbsError: 1.12601e-04\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.42423e-05\tAbsError: 1.13845e+10\n", + " Region: \"zone_1\"\tRelError: 6.77172e-06\tAbsError: 7.06656e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.75139e-06\tAbsError: 5.42330e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.03301e-08\tAbsError: 7.06113e-06\n", + " Region: \"zone_3\"\tRelError: 1.74705e-05\tAbsError: 1.13845e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.20454e-07\tAbsError: 6.31987e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.20087e-07\tAbsError: 5.06458e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.64097e-05\tAbsError: 5.58892e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.03324e-08\tAbsError: 7.06195e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 9.11104e-01\tAbsError: 6.39403e+12\n", + " Region: \"zone_1\"\tRelError: 3.95295e-02\tAbsError: 3.01416e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.95166e-02\tAbsError: 2.56794e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.28475e-05\tAbsError: 4.46215e-03\n", + " Region: \"zone_3\"\tRelError: 8.71574e-01\tAbsError: 6.39403e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.22643e-01\tAbsError: 2.54350e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.08856e-01\tAbsError: 3.85053e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.00630e-02\tAbsError: 2.57518e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.28475e-05\tAbsError: 4.46215e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.01442e-04\tAbsError: 1.00519e+11\n", + " Region: \"zone_1\"\tRelError: 8.70773e-05\tAbsError: 2.27393e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 8.64229e-05\tAbsError: 1.01434e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.54379e-07\tAbsError: 2.27291e-04\n", + " Region: \"zone_3\"\tRelError: 2.14365e-04\tAbsError: 1.00519e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.62706e-05\tAbsError: 4.47105e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.33789e-05\tAbsError: 5.58084e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.84061e-04\tAbsError: 1.02591e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.54389e-07\tAbsError: 2.27297e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 9.98130e-01\tAbsError: 2.62533e+12\n", + " Region: \"zone_1\"\tRelError: 3.82333e-04\tAbsError: 6.10703e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.64779e-04\tAbsError: 9.96994e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75541e-05\tAbsError: 6.09706e-03\n", + " Region: \"zone_3\"\tRelError: 9.97748e-01\tAbsError: 2.62533e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.96506e-01\tAbsError: 8.87847e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.16735e-03\tAbsError: 1.73748e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.72863e-05\tAbsError: 1.05441e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75541e-05\tAbsError: 6.09706e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 9.47371e-01\tAbsError: 4.28530e+12\n", + " Region: \"zone_1\"\tRelError: 1.48935e-02\tAbsError: 1.65084e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.48782e-02\tAbsError: 1.11985e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52880e-05\tAbsError: 5.30987e-03\n", + " Region: \"zone_3\"\tRelError: 9.32478e-01\tAbsError: 4.28530e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.10570e-01\tAbsError: 1.95243e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.69199e-03\tAbsError: 2.33287e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51998e-02\tAbsError: 1.11987e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52880e-05\tAbsError: 5.30987e-03\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:58\u001b[0m.\u001b[1;36m352\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:58\u001b[0m.\u001b[1;36m385\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.9 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:58\u001b[0m.\u001b[1;36m415\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 3.12421e-04\tAbsError: 2.21889e+11\n", + " Region: \"zone_1\"\tRelError: 8.22854e-05\tAbsError: 2.08676e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 8.22259e-05\tAbsError: 1.72465e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.95208e-08\tAbsError: 2.06951e-05\n", + " Region: \"zone_3\"\tRelError: 2.30136e-04\tAbsError: 2.21889e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.20007e-05\tAbsError: 1.02564e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.18521e-05\tAbsError: 1.19326e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86224e-04\tAbsError: 1.74273e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.95335e-08\tAbsError: 2.07004e-05\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.47644e-03\tAbsError: 3.24054e+12\n", + " Region: \"zone_1\"\tRelError: 7.94661e-04\tAbsError: 8.94961e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.94416e-04\tAbsError: 4.03981e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.45773e-07\tAbsError: 8.54563e-05\n", + " Region: \"zone_3\"\tRelError: 2.68177e-03\tAbsError: 3.24054e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.67270e-04\tAbsError: 1.02396e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.23056e-04\tAbsError: 2.21658e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.89120e-03\tAbsError: 4.07680e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.45773e-07\tAbsError: 8.54563e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.11908e-01\tAbsError: 5.16826e+12\n", + " Region: \"zone_1\"\tRelError: 9.92569e-04\tAbsError: 6.44275e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 9.74107e-04\tAbsError: 3.01846e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84625e-05\tAbsError: 6.41257e-03\n", + " Region: \"zone_3\"\tRelError: 2.10915e-01\tAbsError: 5.16826e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.08472e-01\tAbsError: 1.83522e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.87614e-03\tAbsError: 3.33304e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.48673e-04\tAbsError: 3.03392e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84625e-05\tAbsError: 6.41257e-03\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:59\u001b[0m.\u001b[1;36m142\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:59\u001b[0m.\u001b[1;36m180\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.95 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:59\u001b[0m.\u001b[1;36m221\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 4.51573e+01\tAbsError: 5.73632e+17\n", + " Region: \"zone_1\"\tRelError: 2.42264e+01\tAbsError: 8.24921e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.42264e+01\tAbsError: 8.24901e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.73190e-09\tAbsError: 1.99366e-06\n", + " Region: \"zone_3\"\tRelError: 2.09309e+01\tAbsError: 5.73632e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.80469e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10902e+01\tAbsError: 2.93163e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 8.40641e-01\tAbsError: 8.24901e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.73416e-09\tAbsError: 1.99448e-06\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 4.17956e-05\tAbsError: 1.97290e+10\n", + " Region: \"zone_1\"\tRelError: 1.18661e-05\tAbsError: 1.49685e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18231e-05\tAbsError: 1.48864e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.30078e-08\tAbsError: 1.49536e-05\n", + " Region: \"zone_3\"\tRelError: 2.99295e-05\tAbsError: 1.97290e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.01914e-06\tAbsError: 1.04404e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.01081e-06\tAbsError: 9.28869e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.58566e-05\tAbsError: 1.50609e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.30208e-08\tAbsError: 1.49586e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:59\u001b[0m.\u001b[1;36m721\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:59\u001b[0m.\u001b[1;36m721\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.20833333333333334\u001b[0m \n", + "Iteration: 11\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 2.60848e-04\tAbsError: 7.27867e+10\n", + " Region: \"zone_1\"\tRelError: 7.50893e-05\tAbsError: 2.09731e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.44857e-05\tAbsError: 7.59270e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.03603e-07\tAbsError: 2.09655e-04\n", + " Region: \"zone_3\"\tRelError: 1.85759e-04\tAbsError: 7.27867e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50933e-05\tAbsError: 3.42289e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.24436e-05\tAbsError: 3.85578e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.57619e-04\tAbsError: 7.67885e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.03618e-07\tAbsError: 2.09663e-04\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 3.66154e-03\tAbsError: 3.38692e+12\n", + " Region: \"zone_1\"\tRelError: 8.23270e-04\tAbsError: 5.50756e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 8.23124e-04\tAbsError: 4.23833e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.46208e-07\tAbsError: 5.08373e-05\n", + " Region: \"zone_3\"\tRelError: 2.83827e-03\tAbsError: 3.38692e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.27487e-04\tAbsError: 1.07437e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.47763e-04\tAbsError: 2.31254e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.96287e-03\tAbsError: 4.27713e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.46208e-07\tAbsError: 5.08373e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.04899e+02\tAbsError: 2.22519e+17\n", + " Region: \"zone_1\"\tRelError: 6.80302e+01\tAbsError: 8.03349e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.80302e+01\tAbsError: 8.03338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.23687e-09\tAbsError: 1.12425e-06\n", + " Region: \"zone_3\"\tRelError: 2.36869e+02\tAbsError: 2.22519e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.08226e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.27561e+02\tAbsError: 1.14293e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 3.07393e-01\tAbsError: 8.03338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.23715e-09\tAbsError: 1.12434e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.05786e+01\tAbsError: 3.90962e+17\n", + " Region: \"zone_1\"\tRelError: 7.44374e+00\tAbsError: 3.85122e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 7.44286e+00\tAbsError: 7.88298e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.81581e-04\tAbsError: 3.06292e-01\n", + " Region: \"zone_3\"\tRelError: 2.31349e+01\tAbsError: 3.90962e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.20845e+01\tAbsError: 1.91461e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.99501e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 2.04951e+00\tAbsError: 7.88298e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.81581e-04\tAbsError: 3.06292e-01\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 2.87569e-04\tAbsError: 2.04901e+11\n", + " Region: \"zone_1\"\tRelError: 7.57005e-05\tAbsError: 1.81146e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.56488e-05\tAbsError: 1.59044e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.16415e-08\tAbsError: 1.79555e-05\n", + " Region: \"zone_3\"\tRelError: 2.11869e-04\tAbsError: 2.04901e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.02801e-05\tAbsError: 9.47207e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.01434e-05\tAbsError: 1.10180e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.71394e-04\tAbsError: 1.60712e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.16551e-08\tAbsError: 1.79610e-05\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 2.22293e-04\tAbsError: 3.30869e+10\n", + " Region: \"zone_1\"\tRelError: 6.30972e-05\tAbsError: 2.17552e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.24710e-05\tAbsError: 4.60870e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.26207e-07\tAbsError: 2.17506e-04\n", + " Region: \"zone_3\"\tRelError: 1.59196e-04\tAbsError: 3.30869e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.57828e-05\tAbsError: 1.58467e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.30769e-05\tAbsError: 1.72402e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29710e-04\tAbsError: 4.66375e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.26215e-07\tAbsError: 2.17511e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.58703e+00\tAbsError: 9.04418e+15\n", + " Region: \"zone_1\"\tRelError: 1.92661e+00\tAbsError: 4.26164e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.92661e+00\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.45404e-09\tAbsError: 2.24417e-06\n", + " Region: \"zone_3\"\tRelError: 1.66042e+00\tAbsError: 9.04418e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83432e-01\tAbsError: 5.05936e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.83363e-01\tAbsError: 3.98483e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.36246e-02\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.45579e-09\tAbsError: 2.24478e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 4.03354e+01\tAbsError: 1.45334e+17\n", + " Region: \"zone_1\"\tRelError: 2.05211e+01\tAbsError: 5.44014e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.05197e+01\tAbsError: 7.64428e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.34440e-03\tAbsError: 4.67571e-01\n", + " Region: \"zone_3\"\tRelError: 1.98143e+01\tAbsError: 1.45334e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.02485e+01\tAbsError: 7.38983e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 7.14362e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 5.64509e-01\tAbsError: 7.64428e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.34619e-03\tAbsError: 4.68197e-01\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 3.69302e-05\tAbsError: 1.70378e+10\n", + " Region: \"zone_1\"\tRelError: 1.05164e-05\tAbsError: 1.37373e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04769e-05\tAbsError: 1.28711e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.94725e-08\tAbsError: 1.37244e-05\n", + " Region: \"zone_3\"\tRelError: 2.64138e-05\tAbsError: 1.70378e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.75140e-06\tAbsError: 9.08031e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.74451e-06\tAbsError: 7.95747e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.28784e-05\tAbsError: 1.30229e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.94844e-08\tAbsError: 1.37290e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:02\u001b[0m.\u001b[1;36m231\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.2\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 8.47490e+02\tAbsError: 1.27841e+17\n", + " Region: \"zone_1\"\tRelError: 1.17044e+00\tAbsError: 1.20401e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16720e+00\tAbsError: 7.47721e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.23989e-03\tAbsError: 1.12924e+00\n", + " Region: \"zone_3\"\tRelError: 8.46320e+02\tAbsError: 1.27841e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.64763e+01\tAbsError: 7.09434e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69485e+02\tAbsError: 5.68980e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.55471e-01\tAbsError: 7.47734e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.24142e-03\tAbsError: 1.12966e+00\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 2.95900e-04\tAbsError: 2.12250e+11\n", + " Region: \"zone_1\"\tRelError: 7.77472e-05\tAbsError: 1.62515e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.77010e-05\tAbsError: 1.64693e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.62658e-08\tAbsError: 1.60868e-05\n", + " Region: \"zone_3\"\tRelError: 2.18153e-04\tAbsError: 2.12250e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.10257e-05\tAbsError: 9.81512e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.08823e-05\tAbsError: 1.14099e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.76199e-04\tAbsError: 1.66424e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.62780e-08\tAbsError: 1.60913e-05\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.56197e+00\tAbsError: 3.41005e+14\n", + " Region: \"zone_1\"\tRelError: 7.42778e-02\tAbsError: 9.67927e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.40935e-02\tAbsError: 3.27224e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84300e-04\tAbsError: 6.40703e-02\n", + " Region: \"zone_3\"\tRelError: 1.48769e+00\tAbsError: 3.41005e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.62788e-01\tAbsError: 1.76260e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.57825e-01\tAbsError: 1.64745e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.68901e-02\tAbsError: 3.27228e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84300e-04\tAbsError: 6.40703e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.45968e+02\tAbsError: 5.46698e+16\n", + " Region: \"zone_1\"\tRelError: 1.20232e+00\tAbsError: 2.11631e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20192e+00\tAbsError: 7.21040e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.01760e-04\tAbsError: 1.39527e-01\n", + " Region: \"zone_3\"\tRelError: 1.44765e+02\tAbsError: 5.46698e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.07518e+01\tAbsError: 2.79405e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.37872e+01\tAbsError: 2.67293e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.25797e-01\tAbsError: 7.21040e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.02283e-04\tAbsError: 1.39707e-01\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 3.43657e-05\tAbsError: 1.51208e+10\n", + " Region: \"zone_1\"\tRelError: 9.84464e-06\tAbsError: 1.40710e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 9.80420e-06\tAbsError: 1.16041e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.04359e-08\tAbsError: 1.40594e-05\n", + " Region: \"zone_3\"\tRelError: 2.45210e-05\tAbsError: 1.51208e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.57488e-06\tAbsError: 8.06094e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.56966e-06\tAbsError: 7.05983e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.13361e-05\tAbsError: 1.17422e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.04480e-08\tAbsError: 1.40640e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 7.26513e+02\tAbsError: 2.61970e+16\n", + " Region: \"zone_1\"\tRelError: 4.28289e+00\tAbsError: 1.05157e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 4.28006e+00\tAbsError: 7.02256e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.82352e-03\tAbsError: 9.81348e-01\n", + " Region: \"zone_3\"\tRelError: 7.22231e+02\tAbsError: 2.61970e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.27009e+01\tAbsError: 1.26138e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.08947e+02\tAbsError: 1.35832e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 5.79421e-01\tAbsError: 7.02257e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.82352e-03\tAbsError: 9.81348e-01\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:03\u001b[0m.\u001b[1;36m693\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:03\u001b[0m.\u001b[1;36m693\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.20714285714285713\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.71665e+00\tAbsError: 8.34848e+15\n", + " Region: \"zone_1\"\tRelError: 2.08783e+00\tAbsError: 4.09562e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.08783e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.73741e-09\tAbsError: 1.99498e-06\n", + " Region: \"zone_3\"\tRelError: 1.62882e+00\tAbsError: 8.34848e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69544e-01\tAbsError: 4.67018e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69472e-01\tAbsError: 3.67830e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.98079e-02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.73892e-09\tAbsError: 1.99551e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.03390e+00\tAbsError: 4.16810e+13\n", + " Region: \"zone_1\"\tRelError: 5.13611e-02\tAbsError: 3.15350e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.13449e-02\tAbsError: 2.58934e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62282e-05\tAbsError: 5.64167e-03\n", + " Region: \"zone_3\"\tRelError: 9.82539e-01\tAbsError: 4.16810e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.79113e-01\tAbsError: 3.05006e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.51817e-01\tAbsError: 1.11804e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.15928e-02\tAbsError: 2.58971e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62282e-05\tAbsError: 5.64167e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.12673e+02\tAbsError: 1.53705e+16\n", + " Region: \"zone_1\"\tRelError: 5.06195e+00\tAbsError: 3.44130e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.06116e+00\tAbsError: 6.72141e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.96842e-04\tAbsError: 2.76915e-01\n", + " Region: \"zone_3\"\tRelError: 2.07611e+02\tAbsError: 1.53705e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.47712e+01\tAbsError: 8.09677e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.42682e+02\tAbsError: 7.27369e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.57154e-01\tAbsError: 6.72141e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.96842e-04\tAbsError: 2.76915e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 4.73206e+02\tAbsError: 3.66314e+15\n", + " Region: \"zone_1\"\tRelError: 2.06542e+00\tAbsError: 1.60031e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06514e+00\tAbsError: 6.50814e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.73108e-04\tAbsError: 9.49496e-02\n", + " Region: \"zone_3\"\tRelError: 4.71141e+02\tAbsError: 3.66314e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.58557e+02\tAbsError: 1.93985e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.11976e+02\tAbsError: 1.72329e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 6.06785e-01\tAbsError: 6.50815e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.73108e-04\tAbsError: 9.49496e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.60219e+00\tAbsError: 8.94480e+15\n", + " Region: \"zone_1\"\tRelError: 1.94666e+00\tAbsError: 4.23854e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.94666e+00\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.45611e-09\tAbsError: 1.89717e-06\n", + " Region: \"zone_3\"\tRelError: 1.65553e+00\tAbsError: 8.94480e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.81552e-01\tAbsError: 5.00376e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.81482e-01\tAbsError: 3.94104e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.25006e-02\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.45755e-09\tAbsError: 1.89767e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.50135e+00\tAbsError: 2.91711e+14\n", + " Region: \"zone_1\"\tRelError: 6.56152e-02\tAbsError: 8.99300e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.54450e-02\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70192e-04\tAbsError: 5.91664e-02\n", + " Region: \"zone_3\"\tRelError: 1.43573e+00\tAbsError: 2.91711e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37693e-01\tAbsError: 1.49991e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32867e-01\tAbsError: 1.41720e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.50013e-02\tAbsError: 3.07641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70192e-04\tAbsError: 5.91664e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.43498e-01\tAbsError: 3.21382e+12\n", + " Region: \"zone_1\"\tRelError: 1.97019e-02\tAbsError: 1.49690e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.96925e-02\tAbsError: 1.17194e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.34753e-06\tAbsError: 3.24960e-03\n", + " Region: \"zone_3\"\tRelError: 3.23797e-01\tAbsError: 3.21382e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.36008e-01\tAbsError: 2.01560e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.78387e-02\tAbsError: 1.19822e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.99403e-02\tAbsError: 1.17194e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.35162e-06\tAbsError: 3.25108e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.14910e+03\tAbsError: 2.04407e+15\n", + " Region: \"zone_1\"\tRelError: 5.71463e-01\tAbsError: 2.34617e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.70965e-01\tAbsError: 6.16388e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.97509e-04\tAbsError: 1.72979e-01\n", + " Region: \"zone_3\"\tRelError: 2.14852e+03\tAbsError: 2.04407e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34986e+03\tAbsError: 1.29772e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.98463e+02\tAbsError: 7.46348e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.05158e-01\tAbsError: 6.16388e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.97509e-04\tAbsError: 1.72979e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.97407e+03\tAbsError: 3.02790e+15\n", + " Region: \"zone_1\"\tRelError: 1.06529e+00\tAbsError: 8.80521e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06521e+00\tAbsError: 5.91837e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.29279e-05\tAbsError: 2.88684e-02\n", + " Region: \"zone_3\"\tRelError: 2.97300e+03\tAbsError: 3.02790e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.51309e+02\tAbsError: 1.92031e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.62158e+03\tAbsError: 1.10759e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10085e-01\tAbsError: 5.91838e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.29699e-05\tAbsError: 2.88835e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.55313e+00\tAbsError: 3.33831e+14\n", + " Region: \"zone_1\"\tRelError: 7.29219e-02\tAbsError: 9.58119e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.27397e-02\tAbsError: 3.24496e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.82263e-04\tAbsError: 6.33622e-02\n", + " Region: \"zone_3\"\tRelError: 1.48020e+00\tAbsError: 3.33831e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.59573e-01\tAbsError: 1.72457e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.54195e-01\tAbsError: 1.61374e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.62545e-02\tAbsError: 3.24501e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.82263e-04\tAbsError: 6.33622e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 9.34092e-01\tAbsError: 3.63167e+13\n", + " Region: \"zone_1\"\tRelError: 4.74090e-02\tAbsError: 3.08415e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.73947e-02\tAbsError: 2.58899e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42431e-05\tAbsError: 4.95164e-03\n", + " Region: \"zone_3\"\tRelError: 8.86683e-01\tAbsError: 3.63167e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40041e-01\tAbsError: 2.66171e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.98905e-01\tAbsError: 9.69957e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.77237e-02\tAbsError: 2.58388e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42431e-05\tAbsError: 4.95164e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.71243e-02\tAbsError: 2.70156e+12\n", + " Region: \"zone_1\"\tRelError: 9.02595e-04\tAbsError: 2.64928e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 8.94971e-04\tAbsError: 1.55568e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.62398e-06\tAbsError: 2.64773e-03\n", + " Region: \"zone_3\"\tRelError: 7.62218e-02\tAbsError: 2.70156e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.36053e-02\tAbsError: 1.65880e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.79838e-04\tAbsError: 1.04276e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.42896e-03\tAbsError: 1.62853e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.62398e-06\tAbsError: 2.64773e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.03260e+02\tAbsError: 8.32195e+14\n", + " Region: \"zone_1\"\tRelError: 2.61910e-01\tAbsError: 7.68414e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.61848e-01\tAbsError: 5.51938e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.22632e-05\tAbsError: 2.16475e-02\n", + " Region: \"zone_3\"\tRelError: 4.02998e+02\tAbsError: 8.32195e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.42678e+02\tAbsError: 5.88353e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.02190e+01\tAbsError: 2.43842e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01300e-01\tAbsError: 5.51939e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.22632e-05\tAbsError: 2.16475e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.40047e+04\tAbsError: 4.49493e+14\n", + " Region: \"zone_1\"\tRelError: 8.73537e-02\tAbsError: 9.02032e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.72448e-02\tAbsError: 5.23288e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08938e-04\tAbsError: 3.78743e-02\n", + " Region: \"zone_3\"\tRelError: 4.40046e+04\tAbsError: 4.49493e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.87099e+02\tAbsError: 2.63668e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.37175e+04\tAbsError: 1.85825e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.76009e-02\tAbsError: 5.23289e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08938e-04\tAbsError: 3.78743e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.02097e+00\tAbsError: 4.08584e+13\n", + " Region: \"zone_1\"\tRelError: 5.08907e-02\tAbsError: 3.14127e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.08748e-02\tAbsError: 2.58834e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59049e-05\tAbsError: 5.52929e-03\n", + " Region: \"zone_3\"\tRelError: 9.70077e-01\tAbsError: 4.08584e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73651e-01\tAbsError: 2.99028e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.45246e-01\tAbsError: 1.09556e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.11640e-02\tAbsError: 2.58996e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59049e-05\tAbsError: 5.52929e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.84661e-01\tAbsError: 3.60668e+12\n", + " Region: \"zone_1\"\tRelError: 1.51217e-02\tAbsError: 1.24486e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51123e-02\tAbsError: 9.16566e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.44333e-06\tAbsError: 3.28295e-03\n", + " Region: \"zone_3\"\tRelError: 2.69539e-01\tAbsError: 3.60668e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12296e-01\tAbsError: 2.19850e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.19182e-02\tAbsError: 1.40818e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.53153e-02\tAbsError: 9.16570e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.44333e-06\tAbsError: 3.28295e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.03129e-03\tAbsError: 1.30882e+12\n", + " Region: \"zone_1\"\tRelError: 1.71592e-04\tAbsError: 1.21225e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.71249e-04\tAbsError: 1.87177e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.42860e-07\tAbsError: 1.19353e-04\n", + " Region: \"zone_3\"\tRelError: 8.59698e-04\tAbsError: 1.30882e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.62718e-04\tAbsError: 3.58700e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.63159e-04\tAbsError: 9.50116e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.33478e-04\tAbsError: 1.87198e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.43020e-07\tAbsError: 1.19412e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.99477e+02\tAbsError: 1.64419e+14\n", + " Region: \"zone_1\"\tRelError: 7.79686e-02\tAbsError: 6.55201e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.79172e-02\tAbsError: 4.76397e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.14270e-05\tAbsError: 1.78804e-02\n", + " Region: \"zone_3\"\tRelError: 3.99399e+02\tAbsError: 1.64419e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.81466e+02\tAbsError: 9.03287e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.78544e+01\tAbsError: 7.40902e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.83657e-02\tAbsError: 4.76398e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.14270e-05\tAbsError: 1.78804e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.01826e+03\tAbsError: 2.61704e+14\n", + " Region: \"zone_1\"\tRelError: 7.59357e-02\tAbsError: 4.99197e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.59194e-02\tAbsError: 4.42519e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.63213e-05\tAbsError: 5.66780e-03\n", + " Region: \"zone_3\"\tRelError: 1.01818e+03\tAbsError: 2.61704e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.00513e+03\tAbsError: 1.47036e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.29856e+01\tAbsError: 1.14668e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.78898e-02\tAbsError: 4.42520e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.63433e-05\tAbsError: 5.67561e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.31742e-01\tAbsError: 3.18634e+12\n", + " Region: \"zone_1\"\tRelError: 1.90077e-02\tAbsError: 1.45577e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.89985e-02\tAbsError: 1.13363e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.26664e-06\tAbsError: 3.22149e-03\n", + " Region: \"zone_3\"\tRelError: 3.12735e-01\tAbsError: 3.18634e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.29768e-01\tAbsError: 1.97921e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.37177e-02\tAbsError: 1.20713e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.92397e-02\tAbsError: 1.13363e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.27048e-06\tAbsError: 3.22288e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.15193e-02\tAbsError: 3.32526e+12\n", + " Region: \"zone_1\"\tRelError: 1.39859e-03\tAbsError: 2.06485e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39268e-03\tAbsError: 1.45910e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.90356e-06\tAbsError: 2.05026e-03\n", + " Region: \"zone_3\"\tRelError: 6.01207e-02\tAbsError: 3.32526e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.70409e-02\tAbsError: 2.05868e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.81916e-04\tAbsError: 1.26659e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49202e-03\tAbsError: 1.52371e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.90356e-06\tAbsError: 2.05026e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.36928e-04\tAbsError: 9.81205e+10\n", + " Region: \"zone_1\"\tRelError: 3.23153e-05\tAbsError: 7.81886e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.20903e-05\tAbsError: 5.65537e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.24962e-07\tAbsError: 7.81321e-05\n", + " Region: \"zone_3\"\tRelError: 1.04613e-04\tAbsError: 9.81205e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.45720e-06\tAbsError: 7.19535e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.38300e-06\tAbsError: 2.61671e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 8.95475e-05\tAbsError: 5.94976e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.25064e-07\tAbsError: 7.81656e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.96409e+02\tAbsError: 6.68527e+13\n", + " Region: \"zone_1\"\tRelError: 5.84302e-02\tAbsError: 4.24892e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.84192e-02\tAbsError: 3.86849e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.09539e-05\tAbsError: 3.80426e-03\n", + " Region: \"zone_3\"\tRelError: 5.96351e+02\tAbsError: 6.68527e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.88544e+02\tAbsError: 3.45664e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.74762e+00\tAbsError: 3.22862e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.88590e-02\tAbsError: 3.86850e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.09539e-05\tAbsError: 3.80426e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.30616e+02\tAbsError: 5.02085e+13\n", + " Region: \"zone_1\"\tRelError: 4.91483e-02\tAbsError: 4.53133e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.91176e-02\tAbsError: 3.46616e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.06722e-05\tAbsError: 1.06517e-02\n", + " Region: \"zone_3\"\tRelError: 1.30567e+02\tAbsError: 5.02085e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28276e+02\tAbsError: 3.22912e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.24066e+00\tAbsError: 1.79173e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.95443e-02\tAbsError: 3.46617e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.06722e-05\tAbsError: 1.06517e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.42804e-02\tAbsError: 2.67868e+12\n", + " Region: \"zone_1\"\tRelError: 9.10601e-04\tAbsError: 2.59909e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 9.03121e-04\tAbsError: 1.52325e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.47953e-06\tAbsError: 2.59757e-03\n", + " Region: \"zone_3\"\tRelError: 7.33698e-02\tAbsError: 2.67868e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.07907e-02\tAbsError: 1.63747e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.61085e-04\tAbsError: 1.04121e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.41051e-03\tAbsError: 1.60476e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.47953e-06\tAbsError: 2.59757e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.41545e-04\tAbsError: 9.91625e+11\n", + " Region: \"zone_1\"\tRelError: 9.96172e-05\tAbsError: 1.41216e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.92156e-05\tAbsError: 1.43586e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.01542e-07\tAbsError: 1.39780e-04\n", + " Region: \"zone_3\"\tRelError: 5.41928e-04\tAbsError: 9.91625e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33841e-04\tAbsError: 2.52723e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.19501e-04\tAbsError: 7.38901e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88184e-04\tAbsError: 1.43630e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.01697e-07\tAbsError: 1.39836e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 8.05460e-05\tAbsError: 7.23632e+10\n", + " Region: \"zone_1\"\tRelError: 1.78531e-05\tAbsError: 3.23123e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.78440e-05\tAbsError: 6.29009e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.10118e-09\tAbsError: 3.16833e-06\n", + " Region: \"zone_3\"\tRelError: 6.26929e-05\tAbsError: 7.23632e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.44791e-06\tAbsError: 2.95386e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.39399e-06\tAbsError: 4.28245e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.98419e-05\tAbsError: 6.30346e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.10613e-09\tAbsError: 3.17013e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:11\u001b[0m.\u001b[1;36m522\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:11\u001b[0m.\u001b[1;36m522\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.31666666666666665\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 8\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 1.50343e+00\tAbsError: 1.53730e+13\n", + " Region: \"zone_1\"\tRelError: 4.33572e-02\tAbsError: 3.51156e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.33370e-02\tAbsError: 2.81028e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.01921e-05\tAbsError: 7.01280e-03\n", + " Region: \"zone_3\"\tRelError: 1.46007e+00\tAbsError: 1.53730e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.95686e-01\tAbsError: 8.29728e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.20790e-01\tAbsError: 7.07575e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.35762e-02\tAbsError: 2.81030e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.01921e-05\tAbsError: 7.01280e-03\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.36741e+00\tAbsError: 1.62270e+13\n", + " Region: \"zone_1\"\tRelError: 3.93555e-02\tAbsError: 3.93757e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.93166e-02\tAbsError: 2.58717e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.88832e-05\tAbsError: 1.35040e-02\n", + " Region: \"zone_3\"\tRelError: 1.32805e+00\tAbsError: 1.62270e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.63434e-01\tAbsError: 4.27379e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.25261e-01\tAbsError: 1.19532e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.93166e-02\tAbsError: 2.57584e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.88832e-05\tAbsError: 1.35040e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.00690e-03\tAbsError: 1.28237e+12\n", + " Region: \"zone_1\"\tRelError: 1.69753e-04\tAbsError: 1.20834e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.69412e-04\tAbsError: 1.83530e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.41841e-07\tAbsError: 1.18999e-04\n", + " Region: \"zone_3\"\tRelError: 8.37147e-04\tAbsError: 1.28237e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.59291e-04\tAbsError: 3.50666e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.59888e-04\tAbsError: 9.31705e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.17626e-04\tAbsError: 1.83551e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.41999e-07\tAbsError: 1.19057e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.93092e-04\tAbsError: 1.20954e+11\n", + " Region: \"zone_1\"\tRelError: 5.19797e-05\tAbsError: 5.49654e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.18217e-05\tAbsError: 7.13657e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.58052e-07\tAbsError: 5.48940e-05\n", + " Region: \"zone_3\"\tRelError: 1.41112e-04\tAbsError: 1.20954e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98268e-06\tAbsError: 8.30723e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.89183e-06\tAbsError: 3.78820e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21079e-04\tAbsError: 7.51102e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.58052e-07\tAbsError: 5.48940e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.41610e+04\tAbsError: 7.17639e+12\n", + " Region: \"zone_1\"\tRelError: 2.96810e-02\tAbsError: 3.09975e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.96569e-02\tAbsError: 2.26509e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.40320e-05\tAbsError: 8.34661e-03\n", + " Region: \"zone_3\"\tRelError: 2.41610e+04\tAbsError: 7.17639e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.41609e+04\tAbsError: 2.45259e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.27385e-02\tAbsError: 4.72381e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.01714e-02\tAbsError: 2.26511e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.40320e-05\tAbsError: 8.34661e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.51593e+01\tAbsError: 8.96838e+15\n", + " Region: \"zone_1\"\tRelError: 1.34866e+01\tAbsError: 4.26184e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.34866e+01\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19321e-08\tAbsError: 4.14799e-06\n", + " Region: \"zone_3\"\tRelError: 1.67273e+00\tAbsError: 8.96838e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83521e-01\tAbsError: 5.18188e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.83502e-01\tAbsError: 3.78650e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.05705e-01\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19332e-08\tAbsError: 4.14842e-06\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.12376e-01\tAbsError: 1.32407e+13\n", + " Region: \"zone_1\"\tRelError: 1.86149e-02\tAbsError: 3.04927e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.85695e-02\tAbsError: 1.47195e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.54157e-05\tAbsError: 1.57733e-02\n", + " Region: \"zone_3\"\tRelError: 2.93761e-01\tAbsError: 1.32407e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.66530e-01\tAbsError: 2.89957e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.33838e-03\tAbsError: 1.03411e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88480e-02\tAbsError: 1.47197e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.54157e-05\tAbsError: 1.57733e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.38268e-04\tAbsError: 9.80909e+10\n", + " Region: \"zone_1\"\tRelError: 3.31894e-05\tAbsError: 7.64321e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.29695e-05\tAbsError: 5.65440e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19904e-07\tAbsError: 7.63755e-05\n", + " Region: \"zone_3\"\tRelError: 1.05079e-04\tAbsError: 9.80909e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.48584e-06\tAbsError: 7.16917e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.41212e-06\tAbsError: 2.63992e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 8.99609e-05\tAbsError: 5.94850e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19998e-07\tAbsError: 7.64063e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.80740e-05\tAbsError: 4.88620e+10\n", + " Region: \"zone_1\"\tRelError: 1.14716e-05\tAbsError: 6.01747e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14544e-05\tAbsError: 4.42564e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71588e-08\tAbsError: 5.97321e-06\n", + " Region: \"zone_3\"\tRelError: 3.66024e-05\tAbsError: 4.88620e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.37844e-06\tAbsError: 1.78074e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.34110e-06\tAbsError: 3.10546e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78657e-05\tAbsError: 4.43686e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71664e-08\tAbsError: 5.97601e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:13\u001b[0m.\u001b[1;36m942\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:13\u001b[0m.\u001b[1;36m942\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.00256e+00\tAbsError: 6.29281e+12\n", + " Region: \"zone_1\"\tRelError: 7.36212e-04\tAbsError: 1.59319e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.90387e-04\tAbsError: 1.56092e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.58248e-05\tAbsError: 1.59163e-02\n", + " Region: \"zone_3\"\tRelError: 1.00182e+00\tAbsError: 6.29281e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99900e-01\tAbsError: 1.62050e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.58212e-03\tAbsError: 4.67230e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.95706e-04\tAbsError: 1.65113e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.58248e-05\tAbsError: 1.59163e-02\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 2.00504e-02\tAbsError: 1.36312e+13\n", + " Region: \"zone_1\"\tRelError: 1.67906e-03\tAbsError: 2.32575e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.61222e-03\tAbsError: 4.44749e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.68327e-05\tAbsError: 2.32131e-02\n", + " Region: \"zone_3\"\tRelError: 1.83714e-02\tAbsError: 1.36312e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46967e-02\tAbsError: 3.48400e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.86261e-03\tAbsError: 1.01472e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.45246e-04\tAbsError: 4.46143e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.68327e-05\tAbsError: 2.32131e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.61981e+00\tAbsError: 3.38008e+14\n", + " Region: \"zone_1\"\tRelError: 1.16883e-01\tAbsError: 9.15205e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16713e-01\tAbsError: 3.27224e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69163e-04\tAbsError: 5.87981e-02\n", + " Region: \"zone_3\"\tRelError: 1.50293e+00\tAbsError: 3.38008e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.63193e-01\tAbsError: 2.12677e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.58118e-01\tAbsError: 1.25331e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.14513e-02\tAbsError: 3.27228e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69163e-04\tAbsError: 5.87981e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 7.86748e-05\tAbsError: 7.06440e+10\n", + " Region: \"zone_1\"\tRelError: 1.77064e-05\tAbsError: 3.31365e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.76970e-05\tAbsError: 6.14599e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.34205e-09\tAbsError: 3.25219e-06\n", + " Region: \"zone_3\"\tRelError: 6.09684e-05\tAbsError: 7.06440e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.30255e-06\tAbsError: 2.87455e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.24987e-06\tAbsError: 4.18985e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.84067e-05\tAbsError: 6.15954e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.34693e-09\tAbsError: 3.25397e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:15\u001b[0m.\u001b[1;36m252\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:15\u001b[0m.\u001b[1;36m252\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.3142857142857143\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 9.12538e-03\tAbsError: 8.29355e+12\n", + " Region: \"zone_1\"\tRelError: 2.08099e-03\tAbsError: 2.64686e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.08026e-03\tAbsError: 1.04771e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.31107e-07\tAbsError: 2.54209e-04\n", + " Region: \"zone_3\"\tRelError: 7.04439e-03\tAbsError: 8.29355e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.92988e-04\tAbsError: 2.67109e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10434e-03\tAbsError: 5.62246e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.94633e-03\tAbsError: 1.05727e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.31107e-07\tAbsError: 2.54209e-04\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.29649e+01\tAbsError: 8.28032e+15\n", + " Region: \"zone_1\"\tRelError: 1.13261e+01\tAbsError: 4.09567e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13261e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.18696e-09\tAbsError: 2.49605e-06\n", + " Region: \"zone_3\"\tRelError: 1.63880e+00\tAbsError: 8.28032e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69633e-01\tAbsError: 4.77284e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.50748e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.95556e-02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.18788e-09\tAbsError: 2.49640e-06\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.34158e-02\tAbsError: 1.19582e+13\n", + " Region: \"zone_1\"\tRelError: 3.01432e-03\tAbsError: 2.59188e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.01362e-03\tAbsError: 1.51937e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.01730e-07\tAbsError: 2.43995e-04\n", + " Region: \"zone_3\"\tRelError: 1.04015e-02\tAbsError: 1.19582e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.61556e-03\tAbsError: 3.90956e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.61419e-03\tAbsError: 8.04867e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.17105e-03\tAbsError: 1.53319e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.01730e-07\tAbsError: 2.43995e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.06676e+00\tAbsError: 5.12834e+13\n", + " Region: \"zone_1\"\tRelError: 6.50919e-02\tAbsError: 3.26334e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.50725e-02\tAbsError: 2.58998e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93722e-05\tAbsError: 6.73357e-03\n", + " Region: \"zone_3\"\tRelError: 1.00167e+00\tAbsError: 5.12834e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.79460e-01\tAbsError: 3.67676e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.56350e-01\tAbsError: 1.45158e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.58436e-02\tAbsError: 2.58998e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93722e-05\tAbsError: 6.73357e-03\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 7.21813e-04\tAbsError: 2.25467e+11\n", + " Region: \"zone_1\"\tRelError: 2.08779e-04\tAbsError: 5.42838e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.07217e-04\tAbsError: 2.20109e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.56221e-06\tAbsError: 5.42618e-04\n", + " Region: \"zone_3\"\tRelError: 5.13033e-04\tAbsError: 2.25467e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.86463e-05\tAbsError: 1.06489e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.23441e-05\tAbsError: 1.18978e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.40481e-04\tAbsError: 2.22554e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.56221e-06\tAbsError: 5.42618e-04\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 9.02425e-04\tAbsError: 1.99437e+11\n", + " Region: \"zone_1\"\tRelError: 2.58845e-04\tAbsError: 7.78826e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.56603e-04\tAbsError: 2.13625e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.24165e-06\tAbsError: 7.78612e-04\n", + " Region: \"zone_3\"\tRelError: 6.43580e-04\tAbsError: 1.99437e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.56078e-05\tAbsError: 9.74981e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.71798e-05\tAbsError: 1.01939e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.38550e-04\tAbsError: 2.16344e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.24165e-06\tAbsError: 7.78612e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.07146e+01\tAbsError: 8.87010e+15\n", + " Region: \"zone_1\"\tRelError: 1.90470e+01\tAbsError: 4.23875e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.90470e+01\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.16096e-08\tAbsError: 4.03587e-06\n", + " Region: \"zone_3\"\tRelError: 1.66756e+00\tAbsError: 8.87010e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.81640e-01\tAbsError: 5.12336e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.81621e-01\tAbsError: 3.74674e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04297e-01\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.16105e-08\tAbsError: 4.03627e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.56865e+00\tAbsError: 2.86625e+14\n", + " Region: \"zone_1\"\tRelError: 1.21045e-01\tAbsError: 8.55195e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20888e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", + " Region: \"zone_3\"\tRelError: 1.44761e+00\tAbsError: 2.86625e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38556e-01\tAbsError: 1.75436e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32332e-01\tAbsError: 1.11189e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.65613e-02\tAbsError: 3.07640e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.56380e-01\tAbsError: 9.04740e+12\n", + " Region: \"zone_1\"\tRelError: 2.49262e-02\tAbsError: 1.46131e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49178e-02\tAbsError: 1.17194e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.32536e-06\tAbsError: 2.89371e-03\n", + " Region: \"zone_3\"\tRelError: 3.31454e-01\tAbsError: 9.04740e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.35521e-01\tAbsError: 4.40011e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.07755e-02\tAbsError: 4.64729e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.51491e-02\tAbsError: 1.17194e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.32897e-06\tAbsError: 2.89505e-03\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 7.51484e-04\tAbsError: 5.30342e+11\n", + " Region: \"zone_1\"\tRelError: 1.98140e-04\tAbsError: 4.91935e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.98000e-04\tAbsError: 4.10646e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.40303e-07\tAbsError: 4.87829e-05\n", + " Region: \"zone_3\"\tRelError: 5.53344e-04\tAbsError: 5.30342e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.26355e-05\tAbsError: 2.47265e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.22787e-05\tAbsError: 2.83078e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.48289e-04\tAbsError: 4.14967e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.40344e-07\tAbsError: 4.87992e-05\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 1.07606e-03\tAbsError: 7.60704e+11\n", + " Region: \"zone_1\"\tRelError: 2.83483e-04\tAbsError: 6.31258e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.83303e-04\tAbsError: 5.87620e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.79864e-07\tAbsError: 6.25382e-05\n", + " Region: \"zone_3\"\tRelError: 7.92573e-04\tAbsError: 7.60704e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.55839e-05\tAbsError: 3.56391e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.50650e-05\tAbsError: 4.04313e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 6.41744e-04\tAbsError: 5.93824e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.79923e-07\tAbsError: 6.25610e-05\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.65224e+00\tAbsError: 3.30458e+14\n", + " Region: \"zone_1\"\tRelError: 1.57009e-01\tAbsError: 9.06724e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.56841e-01\tAbsError: 3.24496e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67507e-04\tAbsError: 5.82228e-02\n", + " Region: \"zone_3\"\tRelError: 1.49523e+00\tAbsError: 3.30458e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.59966e-01\tAbsError: 2.07139e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.54489e-01\tAbsError: 1.23319e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.06062e-02\tAbsError: 3.24500e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67507e-04\tAbsError: 5.82228e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 9.63437e-01\tAbsError: 3.66677e+13\n", + " Region: \"zone_1\"\tRelError: 5.93231e-02\tAbsError: 3.16919e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.93064e-02\tAbsError: 2.58707e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", + " Region: \"zone_3\"\tRelError: 9.04114e-01\tAbsError: 3.66677e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40101e-01\tAbsError: 2.63702e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.04471e-01\tAbsError: 1.02975e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95256e-02\tAbsError: 2.58992e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 9.94176e-05\tAbsError: 4.63529e+10\n", + " Region: \"zone_1\"\tRelError: 2.82717e-05\tAbsError: 3.58236e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.81688e-05\tAbsError: 3.47638e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.02932e-07\tAbsError: 3.57889e-05\n", + " Region: \"zone_3\"\tRelError: 7.11459e-05\tAbsError: 4.63529e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.74636e-06\tAbsError: 2.47913e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.72724e-06\tAbsError: 2.15617e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 6.15693e-05\tAbsError: 3.51735e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.02964e-07\tAbsError: 3.58017e-05\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.71858e-02\tAbsError: 2.48975e+12\n", + " Region: \"zone_1\"\tRelError: 4.95435e-04\tAbsError: 1.88796e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 4.90019e-04\tAbsError: 7.50834e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.41520e-06\tAbsError: 1.88045e-03\n", + " Region: \"zone_3\"\tRelError: 7.66904e-02\tAbsError: 2.48975e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.37927e-02\tAbsError: 1.70657e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.15461e-04\tAbsError: 7.83185e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.37684e-03\tAbsError: 8.21515e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.41520e-06\tAbsError: 1.88045e-03\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:18\u001b[0m.\u001b[1;36m902\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.20625\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 1.31491e-04\tAbsError: 5.90327e+10\n", + " Region: \"zone_1\"\tRelError: 3.75774e-05\tAbsError: 5.09852e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.74309e-05\tAbsError: 4.46319e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.46509e-07\tAbsError: 5.09406e-05\n", + " Region: \"zone_3\"\tRelError: 9.39133e-05\tAbsError: 5.90327e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.09582e-06\tAbsError: 3.17063e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.07438e-06\tAbsError: 2.73264e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 8.15965e-05\tAbsError: 4.51622e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.46557e-07\tAbsError: 5.09593e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.05263e+00\tAbsError: 4.89278e+13\n", + " Region: \"zone_1\"\tRelError: 6.39420e-02\tAbsError: 3.23900e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.39231e-02\tAbsError: 2.57993e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.89612e-05\tAbsError: 6.59072e-03\n", + " Region: \"zone_3\"\tRelError: 9.88693e-01\tAbsError: 4.89278e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.74016e-01\tAbsError: 3.50971e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.49565e-01\tAbsError: 1.38306e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.50930e-02\tAbsError: 2.58802e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.89612e-05\tAbsError: 6.59072e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.93334e-01\tAbsError: 6.56738e+12\n", + " Region: \"zone_1\"\tRelError: 1.86981e-02\tAbsError: 1.19586e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86900e-02\tAbsError: 9.16562e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03535e-06\tAbsError: 2.79297e-03\n", + " Region: \"zone_3\"\tRelError: 2.74636e-01\tAbsError: 6.56738e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11907e-01\tAbsError: 3.29549e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.38500e-02\tAbsError: 3.27189e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88710e-02\tAbsError: 9.16566e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03753e-06\tAbsError: 2.79381e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.10907e-04\tAbsError: 9.14094e+11\n", + " Region: \"zone_1\"\tRelError: 7.15278e-05\tAbsError: 1.30119e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.11580e-05\tAbsError: 1.37277e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.69875e-07\tAbsError: 1.28746e-04\n", + " Region: \"zone_3\"\tRelError: 4.39379e-04\tAbsError: 9.14094e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03940e-04\tAbsError: 2.24049e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.64320e-05\tAbsError: 6.90046e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.38638e-04\tAbsError: 1.37888e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.70033e-07\tAbsError: 1.28803e-04\n", + "Iteration: 16\n", + " Device: \"device\"\tRelError: 8.12362e-05\tAbsError: 4.99851e+10\n", + " Region: \"zone_1\"\tRelError: 2.21078e-05\tAbsError: 7.18095e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20873e-05\tAbsError: 3.43586e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.05530e-08\tAbsError: 7.14659e-06\n", + " Region: \"zone_3\"\tRelError: 5.91283e-05\tAbsError: 4.99851e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.81529e-06\tAbsError: 2.69257e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.77928e-06\tAbsError: 2.30594e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.95132e-05\tAbsError: 3.47436e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.05582e-08\tAbsError: 7.14842e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:20\u001b[0m.\u001b[1;36m634\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.2\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Iteration: 0\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 3.61409e+00\tAbsError: 8.87025e+15\n", + " Region: \"zone_1\"\tRelError: 1.96227e+00\tAbsError: 4.22144e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.96227e+00\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.53160e-08\tAbsError: 5.32561e-06\n", + " Region: \"zone_3\"\tRelError: 1.65183e+00\tAbsError: 8.87025e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80120e-01\tAbsError: 4.96206e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.80050e-01\tAbsError: 3.90819e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.16591e-02\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.53200e-08\tAbsError: 5.32700e-06\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.43950e-01\tAbsError: 8.64627e+12\n", + " Region: \"zone_1\"\tRelError: 2.39638e-02\tAbsError: 1.42586e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.39554e-02\tAbsError: 1.13362e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.40795e-06\tAbsError: 2.92243e-03\n", + " Region: \"zone_3\"\tRelError: 3.19986e-01\tAbsError: 8.64627e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.29295e-01\tAbsError: 4.22448e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.65001e-02\tAbsError: 4.42180e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.41829e-02\tAbsError: 1.13362e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.41081e-06\tAbsError: 2.92350e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.00158e-02\tAbsError: 2.47729e+12\n", + " Region: \"zone_1\"\tRelError: 6.29744e-04\tAbsError: 1.66755e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.24968e-04\tAbsError: 8.94858e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", + " Region: \"zone_3\"\tRelError: 5.93860e-02\tAbsError: 2.47729e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.68115e-02\tAbsError: 1.70064e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.91678e-04\tAbsError: 7.76647e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.27809e-03\tAbsError: 9.43816e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.52706e-04\tAbsError: 1.10689e+11\n", + " Region: \"zone_1\"\tRelError: 2.31976e-05\tAbsError: 5.03793e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.30527e-05\tAbsError: 6.72451e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.44875e-07\tAbsError: 5.03120e-05\n", + " Region: \"zone_3\"\tRelError: 1.29508e-04\tAbsError: 1.10689e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80539e-06\tAbsError: 7.67002e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.73296e-06\tAbsError: 3.39885e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13825e-04\tAbsError: 7.02938e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.44875e-07\tAbsError: 5.03120e-05\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.54654e+00\tAbsError: 3.28495e+14\n", + " Region: \"zone_1\"\tRelError: 7.19115e-02\tAbsError: 9.50734e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.17307e-02\tAbsError: 3.22436e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.80731e-04\tAbsError: 6.28298e-02\n", + " Region: \"zone_3\"\tRelError: 1.47463e+00\tAbsError: 3.28495e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.57124e-01\tAbsError: 1.69631e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.51422e-01\tAbsError: 1.58864e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.59065e-02\tAbsError: 3.22440e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.80731e-04\tAbsError: 6.28298e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.71665e+00\tAbsError: 8.34849e+15\n", + " Region: \"zone_1\"\tRelError: 2.08783e+00\tAbsError: 4.09579e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.08783e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.04731e-08\tAbsError: 3.64165e-06\n", + " Region: \"zone_3\"\tRelError: 1.62882e+00\tAbsError: 8.34849e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69544e-01\tAbsError: 4.67018e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69471e-01\tAbsError: 3.67831e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.98079e-02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.04757e-08\tAbsError: 3.64256e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.43999e-02\tAbsError: 2.50743e+12\n", + " Region: \"zone_1\"\tRelError: 5.75118e-04\tAbsError: 1.79845e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.69963e-04\tAbsError: 8.13347e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.15562e-06\tAbsError: 1.79032e-03\n", + " Region: \"zone_3\"\tRelError: 7.38248e-02\tAbsError: 2.50743e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.09416e-02\tAbsError: 1.74296e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.77666e-04\tAbsError: 7.64461e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.40034e-03\tAbsError: 8.85193e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.15562e-06\tAbsError: 1.79032e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.31240e-04\tAbsError: 7.97937e+11\n", + " Region: \"zone_1\"\tRelError: 7.54533e-05\tAbsError: 1.27890e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.50894e-05\tAbsError: 1.20855e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.63943e-07\tAbsError: 1.26681e-04\n", + " Region: \"zone_3\"\tRelError: 3.55787e-04\tAbsError: 7.97937e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.38045e-05\tAbsError: 1.92064e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.48742e-05\tAbsError: 6.05872e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.76744e-04\tAbsError: 1.21338e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.64089e-07\tAbsError: 1.26735e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.67402e-05\tAbsError: 4.44671e+10\n", + " Region: \"zone_1\"\tRelError: 5.00968e-06\tAbsError: 5.56992e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.99380e-06\tAbsError: 4.22760e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.58803e-08\tAbsError: 5.52764e-06\n", + " Region: \"zone_3\"\tRelError: 3.17305e-05\tAbsError: 4.44671e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.48788e-06\tAbsError: 1.56747e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.45722e-06\tAbsError: 2.87924e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.47695e-05\tAbsError: 4.23466e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.58876e-08\tAbsError: 5.53032e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:23\u001b[0m.\u001b[1;36m243\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:23\u001b[0m.\u001b[1;36m243\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.42500000000000004\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.01137e+00\tAbsError: 4.02464e+13\n", + " Region: \"zone_1\"\tRelError: 5.08084e-02\tAbsError: 3.13392e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.07928e-02\tAbsError: 2.58948e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.56605e-05\tAbsError: 5.44435e-03\n", + " Region: \"zone_3\"\tRelError: 9.60566e-01\tAbsError: 4.02464e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.69512e-01\tAbsError: 2.94578e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.40217e-01\tAbsError: 1.07885e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.08220e-02\tAbsError: 2.58948e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.56605e-05\tAbsError: 5.44435e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.50135e+00\tAbsError: 2.91713e+14\n", + " Region: \"zone_1\"\tRelError: 6.56152e-02\tAbsError: 8.99315e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.54450e-02\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70196e-04\tAbsError: 5.91678e-02\n", + " Region: \"zone_3\"\tRelError: 1.43573e+00\tAbsError: 2.91713e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37692e-01\tAbsError: 1.49991e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32867e-01\tAbsError: 1.41722e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.50013e-02\tAbsError: 3.07641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70196e-04\tAbsError: 5.91678e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.87646e-04\tAbsError: 8.67749e+11\n", + " Region: \"zone_1\"\tRelError: 9.48770e-05\tAbsError: 1.33724e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.44966e-05\tAbsError: 1.30548e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.80432e-07\tAbsError: 1.32419e-04\n", + " Region: \"zone_3\"\tRelError: 3.92769e-04\tAbsError: 8.67749e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99341e-05\tAbsError: 2.09226e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.08980e-05\tAbsError: 6.58523e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.01556e-04\tAbsError: 1.31118e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.80586e-07\tAbsError: 1.32476e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.53826e-04\tAbsError: 1.09912e+11\n", + " Region: \"zone_1\"\tRelError: 2.29821e-05\tAbsError: 4.27473e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.28592e-05\tAbsError: 6.65170e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", + " Region: \"zone_3\"\tRelError: 1.30844e-04\tAbsError: 1.09912e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.01681e-06\tAbsError: 7.52234e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94349e-06\tAbsError: 3.46881e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14760e-04\tAbsError: 6.98367e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.23075e-01\tAbsError: 3.16705e+12\n", + " Region: \"zone_1\"\tRelError: 1.84960e-02\tAbsError: 1.42995e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.84867e-02\tAbsError: 1.10528e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.33912e-06\tAbsError: 3.24669e-03\n", + " Region: \"zone_3\"\tRelError: 3.04579e-01\tAbsError: 3.16705e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.25074e-01\tAbsError: 1.95756e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.07733e-02\tAbsError: 1.20949e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87230e-02\tAbsError: 1.10529e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.34182e-06\tAbsError: 3.24769e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.40360e+00\tAbsError: 8.93831e+15\n", + " Region: \"zone_1\"\tRelError: 3.72095e+00\tAbsError: 4.26165e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.72095e+00\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.53609e-09\tAbsError: 2.26975e-06\n", + " Region: \"zone_3\"\tRelError: 1.68266e+00\tAbsError: 8.93831e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83544e-01\tAbsError: 5.27519e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.83519e-01\tAbsError: 3.66312e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15595e-01\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.53754e-09\tAbsError: 2.27028e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 9.34092e-01\tAbsError: 3.63177e+13\n", + " Region: \"zone_1\"\tRelError: 4.74090e-02\tAbsError: 3.08419e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.73947e-02\tAbsError: 2.58899e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42440e-05\tAbsError: 4.95195e-03\n", + " Region: \"zone_3\"\tRelError: 8.86683e-01\tAbsError: 3.63177e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40041e-01\tAbsError: 2.66179e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.98905e-01\tAbsError: 9.69979e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.77237e-02\tAbsError: 2.58388e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42440e-05\tAbsError: 4.95195e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.59899e-04\tAbsError: 1.14890e+11\n", + " Region: \"zone_1\"\tRelError: 2.42180e-05\tAbsError: 4.68879e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.40832e-05\tAbsError: 6.97131e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.34814e-07\tAbsError: 4.68182e-05\n", + " Region: \"zone_3\"\tRelError: 1.35681e-04\tAbsError: 1.14890e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.20069e-06\tAbsError: 7.87113e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.12587e-06\tAbsError: 3.61787e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19220e-04\tAbsError: 7.29649e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.34814e-07\tAbsError: 4.68182e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.84860e-05\tAbsError: 3.70987e+10\n", + " Region: \"zone_1\"\tRelError: 3.74711e-06\tAbsError: 5.87951e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.73032e-06\tAbsError: 3.58594e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67880e-08\tAbsError: 5.84365e-06\n", + " Region: \"zone_3\"\tRelError: 2.47389e-05\tAbsError: 3.70987e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.96764e-06\tAbsError: 1.24118e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.94133e-06\tAbsError: 2.46869e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88131e-05\tAbsError: 3.59119e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67950e-08\tAbsError: 5.84625e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:25\u001b[0m.\u001b[1;36m679\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.4\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.22904e-02\tAbsError: 2.68712e+12\n", + " Region: \"zone_1\"\tRelError: 9.38094e-04\tAbsError: 2.50767e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 9.30878e-04\tAbsError: 1.54437e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.21623e-06\tAbsError: 2.50613e-03\n", + " Region: \"zone_3\"\tRelError: 7.13523e-02\tAbsError: 2.68712e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.87484e-02\tAbsError: 1.64198e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.60494e-04\tAbsError: 1.04514e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.43618e-03\tAbsError: 1.62292e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.21623e-06\tAbsError: 2.50613e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.63245e+00\tAbsError: 4.50331e+14\n", + " Region: \"zone_1\"\tRelError: 1.12831e-01\tAbsError: 8.29307e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12687e-01\tAbsError: 3.27223e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.44470e-04\tAbsError: 5.02084e-02\n", + " Region: \"zone_3\"\tRelError: 1.51962e+00\tAbsError: 4.50331e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.64568e-01\tAbsError: 3.01705e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.56309e-01\tAbsError: 1.48626e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.85960e-02\tAbsError: 3.27226e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.44470e-04\tAbsError: 5.02084e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.84661e-01\tAbsError: 3.60692e+12\n", + " Region: \"zone_1\"\tRelError: 1.51217e-02\tAbsError: 1.24488e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51123e-02\tAbsError: 9.16566e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.44377e-06\tAbsError: 3.28310e-03\n", + " Region: \"zone_3\"\tRelError: 2.69539e-01\tAbsError: 3.60692e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12296e-01\tAbsError: 2.19871e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.19182e-02\tAbsError: 1.40821e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.53153e-02\tAbsError: 9.16570e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.44377e-06\tAbsError: 3.28310e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.21525e-05\tAbsError: 4.09265e+10\n", + " Region: \"zone_1\"\tRelError: 4.32183e-06\tAbsError: 6.02671e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.30463e-06\tAbsError: 3.93885e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72009e-08\tAbsError: 5.98732e-06\n", + " Region: \"zone_3\"\tRelError: 2.78307e-05\tAbsError: 4.09265e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.21775e-06\tAbsError: 1.39104e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.18932e-06\tAbsError: 2.70161e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.14064e-05\tAbsError: 3.94543e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72083e-08\tAbsError: 5.99004e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:26\u001b[0m.\u001b[1;36m874\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:26\u001b[0m.\u001b[1;36m874\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.4214285714285714\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.87618e+01\tAbsError: 8.25603e+15\n", + " Region: \"zone_1\"\tRelError: 2.71120e+01\tAbsError: 4.09561e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.71120e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.29384e-09\tAbsError: 1.83846e-06\n", + " Region: \"zone_3\"\tRelError: 1.64979e+00\tAbsError: 8.25603e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69658e-01\tAbsError: 4.86497e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69634e-01\tAbsError: 3.39106e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10500e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.29480e-09\tAbsError: 1.83875e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 9.39950e-04\tAbsError: 1.23354e+12\n", + " Region: \"zone_1\"\tRelError: 1.57429e-04\tAbsError: 1.24528e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.57077e-04\tAbsError: 1.76859e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.52644e-07\tAbsError: 1.22759e-04\n", + " Region: \"zone_3\"\tRelError: 7.82521e-04\tAbsError: 1.23354e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52512e-04\tAbsError: 3.33639e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.52950e-04\tAbsError: 8.99898e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.76706e-04\tAbsError: 1.76879e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.52798e-07\tAbsError: 1.22816e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.11920e+00\tAbsError: 1.70835e+14\n", + " Region: \"zone_1\"\tRelError: 8.61460e-02\tAbsError: 3.38462e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.61230e-02\tAbsError: 2.58705e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.29490e-05\tAbsError: 7.97577e-03\n", + " Region: \"zone_3\"\tRelError: 1.03306e+00\tAbsError: 1.70835e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.80607e-01\tAbsError: 1.02403e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.65100e-01\tAbsError: 6.84321e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.73272e-02\tAbsError: 2.58550e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.29490e-05\tAbsError: 7.97577e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.15194e-02\tAbsError: 3.32536e+12\n", + " Region: \"zone_1\"\tRelError: 1.39864e-03\tAbsError: 2.06494e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39274e-03\tAbsError: 1.45908e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.90382e-06\tAbsError: 2.05035e-03\n", + " Region: \"zone_3\"\tRelError: 6.01208e-02\tAbsError: 3.32536e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.70408e-02\tAbsError: 2.05875e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.81903e-04\tAbsError: 1.26661e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49215e-03\tAbsError: 1.52370e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.90382e-06\tAbsError: 2.05035e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.87963e+00\tAbsError: 8.84093e+15\n", + " Region: \"zone_1\"\tRelError: 4.20217e+00\tAbsError: 4.23855e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.20217e+00\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.89716e-09\tAbsError: 2.04796e-06\n", + " Region: \"zone_3\"\tRelError: 1.67746e+00\tAbsError: 8.84093e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.81663e-01\tAbsError: 5.21686e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.81639e-01\tAbsError: 3.62407e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14160e-01\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.89891e-09\tAbsError: 2.04851e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.69855e+00\tAbsError: 3.40458e+14\n", + " Region: \"zone_1\"\tRelError: 2.34470e-01\tAbsError: 7.85796e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.34332e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", + " Region: \"zone_3\"\tRelError: 1.46408e+00\tAbsError: 3.40458e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39247e-01\tAbsError: 2.37038e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.31799e-01\tAbsError: 1.03420e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.29010e-02\tAbsError: 3.07639e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.47453e-04\tAbsError: 1.02312e+11\n", + " Region: \"zone_1\"\tRelError: 3.59361e-05\tAbsError: 7.27621e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.57268e-05\tAbsError: 5.90810e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.09330e-07\tAbsError: 7.27030e-05\n", + " Region: \"zone_3\"\tRelError: 1.11516e-04\tAbsError: 1.02312e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.91266e-06\tAbsError: 7.37581e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.83718e-06\tAbsError: 2.85535e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 9.55573e-05\tAbsError: 6.21546e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.09397e-07\tAbsError: 7.27246e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.93271e-01\tAbsError: 6.53839e+13\n", + " Region: \"zone_1\"\tRelError: 3.24859e-02\tAbsError: 1.44118e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.24781e-02\tAbsError: 1.17193e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.75605e-06\tAbsError: 2.69257e-03\n", + " Region: \"zone_3\"\tRelError: 3.60785e-01\tAbsError: 6.53839e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.33638e-01\tAbsError: 2.83523e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.43002e-02\tAbsError: 3.70316e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.28392e-02\tAbsError: 1.17193e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.76255e-06\tAbsError: 2.69487e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.41555e-04\tAbsError: 9.91702e+11\n", + " Region: \"zone_1\"\tRelError: 9.96160e-05\tAbsError: 1.41223e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.92144e-05\tAbsError: 1.43594e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.01564e-07\tAbsError: 1.39787e-04\n", + " Region: \"zone_3\"\tRelError: 5.41939e-04\tAbsError: 9.91702e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33847e-04\tAbsError: 2.52734e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.19506e-04\tAbsError: 7.38968e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88185e-04\tAbsError: 1.43639e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.01719e-07\tAbsError: 1.39844e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.62508e+00\tAbsError: 4.33655e+14\n", + " Region: \"zone_1\"\tRelError: 1.12712e-01\tAbsError: 8.23385e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12568e-01\tAbsError: 3.24496e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43550e-04\tAbsError: 4.98890e-02\n", + " Region: \"zone_3\"\tRelError: 1.51236e+00\tAbsError: 4.33655e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.61271e-01\tAbsError: 2.92644e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.52818e-01\tAbsError: 1.41011e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.81319e-02\tAbsError: 3.24499e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43550e-04\tAbsError: 4.98890e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.10009e+00\tAbsError: 9.49766e+13\n", + " Region: \"zone_1\"\tRelError: 1.69910e-01\tAbsError: 3.26443e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.69891e-01\tAbsError: 2.58991e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", + " Region: \"zone_3\"\tRelError: 9.30185e-01\tAbsError: 9.49766e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40985e-01\tAbsError: 5.67002e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.12174e-01\tAbsError: 3.82763e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.70066e-02\tAbsError: 2.58994e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 7.33267e-05\tAbsError: 6.68891e+10\n", + " Region: \"zone_1\"\tRelError: 1.66207e-05\tAbsError: 3.79072e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66100e-05\tAbsError: 5.85273e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.07209e-08\tAbsError: 3.73220e-06\n", + " Region: \"zone_3\"\tRelError: 5.67059e-05\tAbsError: 6.68891e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.97072e-06\tAbsError: 2.68259e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.92076e-06\tAbsError: 4.00632e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.48037e-05\tAbsError: 5.86589e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.07263e-08\tAbsError: 3.73415e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.06829e-02\tAbsError: 1.23607e+13\n", + " Region: \"zone_1\"\tRelError: 2.59544e-03\tAbsError: 2.08969e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.58964e-03\tAbsError: 7.73904e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.79536e-06\tAbsError: 2.01230e-03\n", + " Region: \"zone_3\"\tRelError: 7.80875e-02\tAbsError: 1.23607e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.13217e-02\tAbsError: 6.44704e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.62937e-03\tAbsError: 5.91371e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.13063e-03\tAbsError: 8.57603e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.79536e-06\tAbsError: 2.01230e-03\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:30\u001b[0m.\u001b[1;36m695\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.3125\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Iteration: 6\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 1.93102e-04\tAbsError: 1.20961e+11\n", + " Region: \"zone_1\"\tRelError: 5.19826e-05\tAbsError: 5.49689e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.18246e-05\tAbsError: 7.13695e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.58063e-07\tAbsError: 5.48975e-05\n", + " Region: \"zone_3\"\tRelError: 1.41120e-04\tAbsError: 1.20961e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98321e-06\tAbsError: 8.30767e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.89236e-06\tAbsError: 3.78842e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21086e-04\tAbsError: 7.51141e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.58063e-07\tAbsError: 5.48975e-05\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.10442e+00\tAbsError: 1.57445e+14\n", + " Region: \"zone_1\"\tRelError: 8.48445e-02\tAbsError: 3.35487e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.48221e-02\tAbsError: 2.57873e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.23322e-05\tAbsError: 7.76143e-03\n", + " Region: \"zone_3\"\tRelError: 1.01957e+00\tAbsError: 1.57445e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.75187e-01\tAbsError: 9.44436e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.58188e-01\tAbsError: 6.30009e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.61734e-02\tAbsError: 2.58679e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.23322e-05\tAbsError: 7.76143e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.56252e-01\tAbsError: 3.42527e+13\n", + " Region: \"zone_1\"\tRelError: 6.41646e-02\tAbsError: 1.11813e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.41588e-02\tAbsError: 9.16555e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.79958e-06\tAbsError: 2.01571e-03\n", + " Region: \"zone_3\"\tRelError: 2.92088e-01\tAbsError: 3.42527e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07223e-01\tAbsError: 1.60452e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.07953e-02\tAbsError: 1.82076e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.40630e-02\tAbsError: 9.16559e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.80279e-06\tAbsError: 2.01683e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.14255e-04\tAbsError: 9.40247e+11\n", + " Region: \"zone_1\"\tRelError: 6.54694e-05\tAbsError: 1.40506e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.50689e-05\tAbsError: 1.28698e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.00564e-07\tAbsError: 1.39219e-04\n", + " Region: \"zone_3\"\tRelError: 5.48785e-04\tAbsError: 9.40247e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.68628e-04\tAbsError: 2.33690e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.89618e-05\tAbsError: 7.06557e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.90795e-04\tAbsError: 1.29752e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.00564e-07\tAbsError: 1.39219e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.80758e-05\tAbsError: 4.88651e+10\n", + " Region: \"zone_1\"\tRelError: 1.14719e-05\tAbsError: 6.01780e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14548e-05\tAbsError: 4.42595e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71598e-08\tAbsError: 5.97354e-06\n", + " Region: \"zone_3\"\tRelError: 3.66039e-05\tAbsError: 4.88651e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.37869e-06\tAbsError: 1.78080e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.34136e-06\tAbsError: 3.10571e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78667e-05\tAbsError: 4.43717e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71674e-08\tAbsError: 5.97634e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:32\u001b[0m.\u001b[1;36m303\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:32\u001b[0m.\u001b[1;36m303\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.94848e+01\tAbsError: 8.79639e+15\n", + " Region: \"zone_1\"\tRelError: 2.78194e+01\tAbsError: 4.22128e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78194e+01\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08286e-08\tAbsError: 3.76437e-06\n", + " Region: \"zone_3\"\tRelError: 1.66544e+00\tAbsError: 8.79639e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80208e-01\tAbsError: 5.07949e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.80189e-01\tAbsError: 3.71690e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.05047e-01\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08292e-08\tAbsError: 3.76466e-06\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.79288e-01\tAbsError: 5.94006e+13\n", + " Region: \"zone_1\"\tRelError: 3.11470e-02\tAbsError: 1.39501e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.11395e-02\tAbsError: 1.13362e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.52960e-06\tAbsError: 2.61394e-03\n", + " Region: \"zone_3\"\tRelError: 3.48141e-01\tAbsError: 5.94006e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.27166e-01\tAbsError: 2.60599e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.94917e-02\tAbsError: 3.33408e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.14750e-02\tAbsError: 1.13362e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.53142e-06\tAbsError: 2.61458e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.59960e-02\tAbsError: 3.73217e+12\n", + " Region: \"zone_1\"\tRelError: 7.31305e-03\tAbsError: 2.21475e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.30674e-03\tAbsError: 2.57182e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", + " Region: \"zone_3\"\tRelError: 5.86829e-02\tAbsError: 3.73217e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.62142e-02\tAbsError: 2.07187e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.09163e-04\tAbsError: 1.66031e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65329e-03\tAbsError: 2.69578e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.54770e-04\tAbsError: 1.13894e+11\n", + " Region: \"zone_1\"\tRelError: 2.60304e-05\tAbsError: 5.37278e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.58759e-05\tAbsError: 7.56671e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54506e-07\tAbsError: 5.36521e-05\n", + " Region: \"zone_3\"\tRelError: 1.28740e-04\tAbsError: 1.13894e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.44140e-06\tAbsError: 7.78465e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.36038e-06\tAbsError: 3.60472e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13783e-04\tAbsError: 7.90339e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54508e-07\tAbsError: 5.36521e-05\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.70312e+00\tAbsError: 3.24971e+14\n", + " Region: \"zone_1\"\tRelError: 2.13361e-01\tAbsError: 9.00553e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.13195e-01\tAbsError: 3.22435e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.66324e-04\tAbsError: 5.78118e-02\n", + " Region: \"zone_3\"\tRelError: 1.48976e+00\tAbsError: 3.24971e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.57266e-01\tAbsError: 2.03165e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.52075e-01\tAbsError: 1.21806e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.02559e-02\tAbsError: 3.22440e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.66324e-04\tAbsError: 5.78118e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.29649e+01\tAbsError: 8.28032e+15\n", + " Region: \"zone_1\"\tRelError: 1.13261e+01\tAbsError: 4.09567e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13261e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.18741e-09\tAbsError: 2.49620e-06\n", + " Region: \"zone_3\"\tRelError: 1.63880e+00\tAbsError: 8.28032e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69633e-01\tAbsError: 4.77284e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.50748e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.95556e-02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.18833e-09\tAbsError: 2.49655e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.77930e-02\tAbsError: 1.08773e+13\n", + " Region: \"zone_1\"\tRelError: 2.79764e-03\tAbsError: 2.00488e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.79207e-03\tAbsError: 7.05910e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.57068e-06\tAbsError: 1.93429e-03\n", + " Region: \"zone_3\"\tRelError: 7.49953e-02\tAbsError: 1.08773e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.89446e-02\tAbsError: 5.71384e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.94604e-03\tAbsError: 5.16342e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.09913e-03\tAbsError: 7.75298e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.57068e-06\tAbsError: 1.93429e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 8.14034e-04\tAbsError: 1.03618e+12\n", + " Region: \"zone_1\"\tRelError: 1.43803e-04\tAbsError: 7.79056e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43584e-04\tAbsError: 1.54074e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19396e-07\tAbsError: 7.63649e-05\n", + " Region: \"zone_3\"\tRelError: 6.70231e-04\tAbsError: 1.03618e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.21829e-04\tAbsError: 2.70793e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.05108e-04\tAbsError: 7.65387e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.43074e-04\tAbsError: 1.54210e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19498e-07\tAbsError: 7.64015e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.16247e-05\tAbsError: 4.79653e+10\n", + " Region: \"zone_1\"\tRelError: 6.49903e-06\tAbsError: 5.59951e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.48306e-06\tAbsError: 4.11129e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59698e-08\tAbsError: 5.55840e-06\n", + " Region: \"zone_3\"\tRelError: 3.51257e-05\tAbsError: 4.79653e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.26178e-06\tAbsError: 1.79967e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.23354e-06\tAbsError: 2.99686e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.86144e-05\tAbsError: 4.14042e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59764e-08\tAbsError: 5.56082e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:35\u001b[0m.\u001b[1;36m044\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:35\u001b[0m.\u001b[1;36m044\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5333333333333333\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.04226e+00\tAbsError: 4.65248e+13\n", + " Region: \"zone_1\"\tRelError: 6.41149e-02\tAbsError: 3.23680e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.40962e-02\tAbsError: 2.58547e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.87385e-05\tAbsError: 6.51333e-03\n", + " Region: \"zone_3\"\tRelError: 9.78142e-01\tAbsError: 4.65248e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.70005e-01\tAbsError: 3.31907e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.43650e-01\tAbsError: 1.33341e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.44685e-02\tAbsError: 2.58526e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.87385e-05\tAbsError: 6.51333e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.56865e+00\tAbsError: 2.86625e+14\n", + " Region: \"zone_1\"\tRelError: 1.21045e-01\tAbsError: 8.55195e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20888e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", + " Region: \"zone_3\"\tRelError: 1.44761e+00\tAbsError: 2.86625e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38556e-01\tAbsError: 1.75436e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32332e-01\tAbsError: 1.11189e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.65613e-02\tAbsError: 3.07640e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.68614e-04\tAbsError: 9.03974e+11\n", + " Region: \"zone_1\"\tRelError: 6.02979e-05\tAbsError: 1.34982e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.99131e-05\tAbsError: 1.25892e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.84749e-07\tAbsError: 1.33723e-04\n", + " Region: \"zone_3\"\tRelError: 5.08317e-04\tAbsError: 9.03974e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.53674e-04\tAbsError: 2.22199e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.53101e-05\tAbsError: 6.81775e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.68948e-04\tAbsError: 1.27221e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.84749e-07\tAbsError: 1.33723e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.61312e-05\tAbsError: 5.74046e+10\n", + " Region: \"zone_1\"\tRelError: 1.61849e-05\tAbsError: 6.45313e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.59991e-05\tAbsError: 3.79845e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.85726e-07\tAbsError: 6.44934e-05\n", + " Region: \"zone_3\"\tRelError: 5.99464e-05\tAbsError: 5.74046e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.77906e-06\tAbsError: 4.68633e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.20461e-06\tAbsError: 1.05413e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.27769e-05\tAbsError: 3.95532e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.85828e-07\tAbsError: 6.45281e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:35\u001b[0m.\u001b[1;36m884\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.5\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.35039e-01\tAbsError: 8.34092e+12\n", + " Region: \"zone_1\"\tRelError: 2.32576e-02\tAbsError: 1.39026e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.32494e-02\tAbsError: 1.10528e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.19887e-06\tAbsError: 2.84976e-03\n", + " Region: \"zone_3\"\tRelError: 3.11781e-01\tAbsError: 8.34092e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.24826e-01\tAbsError: 4.08239e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.34727e-02\tAbsError: 4.25852e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.34740e-02\tAbsError: 1.10529e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.20247e-06\tAbsError: 2.85110e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.52881e+00\tAbsError: 8.92759e+15\n", + " Region: \"zone_1\"\tRelError: 5.80811e+00\tAbsError: 4.26167e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.80811e+00\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.06999e-09\tAbsError: 2.45528e-06\n", + " Region: \"zone_3\"\tRelError: 1.72070e+00\tAbsError: 8.92759e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83546e-01\tAbsError: 5.11626e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.83479e-01\tAbsError: 3.81133e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.53672e-01\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.07027e-09\tAbsError: 2.45528e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 9.63437e-01\tAbsError: 3.66677e+13\n", + " Region: \"zone_1\"\tRelError: 5.93231e-02\tAbsError: 3.16919e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.93064e-02\tAbsError: 2.58707e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", + " Region: \"zone_3\"\tRelError: 9.04114e-01\tAbsError: 3.66677e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40101e-01\tAbsError: 2.63702e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.04471e-01\tAbsError: 1.02975e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95256e-02\tAbsError: 2.58992e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.51065e-04\tAbsError: 1.10507e+11\n", + " Region: \"zone_1\"\tRelError: 2.53464e-05\tAbsError: 5.14009e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.51986e-05\tAbsError: 7.31456e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47812e-07\tAbsError: 5.13278e-05\n", + " Region: \"zone_3\"\tRelError: 1.25719e-04\tAbsError: 1.10507e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.19999e-06\tAbsError: 7.57136e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.12194e-06\tAbsError: 3.47937e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11249e-04\tAbsError: 7.63909e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47812e-07\tAbsError: 5.13278e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.60199e+01\tAbsError: 8.22903e+15\n", + " Region: \"zone_1\"\tRelError: 3.43433e+01\tAbsError: 4.09555e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.43433e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.48443e-09\tAbsError: 1.21289e-06\n", + " Region: \"zone_3\"\tRelError: 1.67662e+00\tAbsError: 8.22903e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.78919e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.43984e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37338e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.48691e-09\tAbsError: 1.21378e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.26265e-02\tAbsError: 2.44693e+12\n", + " Region: \"zone_1\"\tRelError: 7.79806e-04\tAbsError: 1.84272e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.74522e-04\tAbsError: 7.80818e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.28403e-06\tAbsError: 1.83491e-03\n", + " Region: \"zone_3\"\tRelError: 7.18467e-02\tAbsError: 2.44693e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90853e-02\tAbsError: 1.70837e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.19951e-04\tAbsError: 7.38555e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.33617e-03\tAbsError: 8.48436e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.28403e-06\tAbsError: 1.83491e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.86275e+00\tAbsError: 1.87242e+15\n", + " Region: \"zone_1\"\tRelError: 3.28371e-01\tAbsError: 7.13797e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.28260e-01\tAbsError: 3.27222e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11244e-04\tAbsError: 3.86575e-02\n", + " Region: \"zone_3\"\tRelError: 1.53438e+00\tAbsError: 1.87242e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.65737e-01\tAbsError: 1.02772e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.45622e-01\tAbsError: 8.44695e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.22910e-01\tAbsError: 3.27223e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11244e-04\tAbsError: 3.86575e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.91536e-05\tAbsError: 4.57180e+10\n", + " Region: \"zone_1\"\tRelError: 6.07239e-06\tAbsError: 5.48720e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.05674e-06\tAbsError: 3.96083e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.56514e-08\tAbsError: 5.44759e-06\n", + " Region: \"zone_3\"\tRelError: 3.30812e-05\tAbsError: 4.57180e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.12546e-06\tAbsError: 1.69379e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.09842e-06\tAbsError: 2.87802e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.68416e-05\tAbsError: 3.98463e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.56579e-08\tAbsError: 5.44996e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.93334e-01\tAbsError: 6.56738e+12\n", + " Region: \"zone_1\"\tRelError: 1.86981e-02\tAbsError: 1.19586e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86900e-02\tAbsError: 9.16562e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03535e-06\tAbsError: 2.79297e-03\n", + " Region: \"zone_3\"\tRelError: 2.74636e-01\tAbsError: 6.56738e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11907e-01\tAbsError: 3.29549e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.38500e-02\tAbsError: 3.27189e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88710e-02\tAbsError: 9.16566e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03753e-06\tAbsError: 2.79381e-03\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:38\u001b[0m.\u001b[1;36m413\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:38\u001b[0m.\u001b[1;36m413\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5285714285714286\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.73485e+00\tAbsError: 1.08973e+15\n", + " Region: \"zone_1\"\tRelError: 2.25350e+00\tAbsError: 6.85700e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.25339e+00\tAbsError: 3.07635e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", + " Region: \"zone_3\"\tRelError: 1.48136e+00\tAbsError: 1.08973e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41054e-01\tAbsError: 6.25022e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.24005e-01\tAbsError: 4.64711e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16189e-01\tAbsError: 3.07637e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.64470e-04\tAbsError: 8.92718e+11\n", + " Region: \"zone_1\"\tRelError: 1.30265e-04\tAbsError: 1.28166e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29900e-04\tAbsError: 1.33995e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.64363e-07\tAbsError: 1.26826e-04\n", + " Region: \"zone_3\"\tRelError: 4.34205e-04\tAbsError: 8.92718e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03626e-04\tAbsError: 2.20233e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.48863e-05\tAbsError: 6.72486e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.35329e-04\tAbsError: 1.34586e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.64517e-07\tAbsError: 1.26883e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.13601e+00\tAbsError: 1.24388e+15\n", + " Region: \"zone_1\"\tRelError: 1.09882e-01\tAbsError: 3.47156e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09856e-01\tAbsError: 2.56729e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.60523e-05\tAbsError: 9.04266e-03\n", + " Region: \"zone_3\"\tRelError: 1.02613e+00\tAbsError: 1.24388e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.82293e-01\tAbsError: 5.50846e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.31304e-01\tAbsError: 6.93036e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12504e-01\tAbsError: 2.57603e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.60534e-05\tAbsError: 9.04329e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.00158e-02\tAbsError: 2.47729e+12\n", + " Region: \"zone_1\"\tRelError: 6.29744e-04\tAbsError: 1.66755e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.24968e-04\tAbsError: 8.94858e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", + " Region: \"zone_3\"\tRelError: 5.93860e-02\tAbsError: 2.47729e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.68115e-02\tAbsError: 1.70064e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.91678e-04\tAbsError: 7.76647e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.27809e-03\tAbsError: 9.43816e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 9.33438e+00\tAbsError: 8.82623e+15\n", + " Region: \"zone_1\"\tRelError: 7.61981e+00\tAbsError: 4.23858e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.61981e+00\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.72531e-09\tAbsError: 2.33527e-06\n", + " Region: \"zone_3\"\tRelError: 1.71457e+00\tAbsError: 8.82623e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.81667e-01\tAbsError: 5.07130e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.81602e-01\tAbsError: 3.75493e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51306e-01\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.72588e-09\tAbsError: 2.33550e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.38677e+00\tAbsError: 6.38966e+14\n", + " Region: \"zone_1\"\tRelError: 4.51470e-01\tAbsError: 3.37904e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.51448e-01\tAbsError: 2.58448e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", + " Region: \"zone_3\"\tRelError: 9.35299e-01\tAbsError: 6.38966e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42607e-01\tAbsError: 3.02038e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.95795e-01\tAbsError: 3.36928e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.68743e-02\tAbsError: 2.57679e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.50492e-04\tAbsError: 1.09226e+11\n", + " Region: \"zone_1\"\tRelError: 2.27622e-05\tAbsError: 4.91789e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.26208e-05\tAbsError: 6.61807e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41421e-07\tAbsError: 4.91127e-05\n", + " Region: \"zone_3\"\tRelError: 1.27730e-04\tAbsError: 1.09226e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.75259e-06\tAbsError: 7.55320e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.67996e-06\tAbsError: 3.36940e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12156e-04\tAbsError: 6.92520e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41421e-07\tAbsError: 4.91127e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.43445e-01\tAbsError: 4.90706e+14\n", + " Region: \"zone_1\"\tRelError: 3.97550e-02\tAbsError: 2.48451e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.97172e-02\tAbsError: 1.17195e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.78171e-05\tAbsError: 1.31257e-02\n", + " Region: \"zone_3\"\tRelError: 4.03690e-01\tAbsError: 4.90706e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.31740e-01\tAbsError: 2.41635e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.31153e-01\tAbsError: 2.49071e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.07598e-02\tAbsError: 1.17195e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.78263e-05\tAbsError: 1.31292e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.31240e-04\tAbsError: 7.97937e+11\n", + " Region: \"zone_1\"\tRelError: 7.54533e-05\tAbsError: 1.27890e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.50894e-05\tAbsError: 1.20855e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.63943e-07\tAbsError: 1.26681e-04\n", + " Region: \"zone_3\"\tRelError: 3.55787e-04\tAbsError: 7.97937e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.38045e-05\tAbsError: 1.92064e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.48742e-05\tAbsError: 6.05872e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.76744e-04\tAbsError: 1.21338e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.64089e-07\tAbsError: 1.26735e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.89616e+00\tAbsError: 1.73726e+15\n", + " Region: \"zone_1\"\tRelError: 3.68926e-01\tAbsError: 7.09892e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.68815e-01\tAbsError: 3.24494e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10905e-04\tAbsError: 3.85398e-02\n", + " Region: \"zone_3\"\tRelError: 1.52723e+00\tAbsError: 1.73726e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.62498e-01\tAbsError: 9.60875e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.42645e-01\tAbsError: 7.76385e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21979e-01\tAbsError: 3.24495e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10905e-04\tAbsError: 3.85398e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.41554e-01\tAbsError: 2.20715e+14\n", + " Region: \"zone_1\"\tRelError: 2.89595e-02\tAbsError: 1.67352e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.89377e-02\tAbsError: 9.16565e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18085e-05\tAbsError: 7.56954e-03\n", + " Region: \"zone_3\"\tRelError: 3.12594e-01\tAbsError: 2.20715e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.94155e-01\tAbsError: 1.01533e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.87246e-02\tAbsError: 1.19182e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.96932e-02\tAbsError: 9.16570e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18152e-05\tAbsError: 7.57200e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.59511e-05\tAbsError: 4.34369e+10\n", + " Region: \"zone_1\"\tRelError: 4.88152e-06\tAbsError: 5.50573e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.86582e-06\tAbsError: 4.12400e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.56988e-08\tAbsError: 5.46449e-06\n", + " Region: \"zone_3\"\tRelError: 3.10696e-05\tAbsError: 4.34369e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.42525e-06\tAbsError: 1.53634e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.39498e-06\tAbsError: 2.80735e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.42337e-05\tAbsError: 4.13073e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.57060e-08\tAbsError: 5.46711e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:42\u001b[0m.\u001b[1;36m394\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:42\u001b[0m.\u001b[1;36m394\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.41874999999999996\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.20911e-02\tAbsError: 9.08236e+13\n", + " Region: \"zone_1\"\tRelError: 8.36257e-03\tAbsError: 7.34644e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 8.34207e-03\tAbsError: 2.31528e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.04921e-05\tAbsError: 7.11491e-03\n", + " Region: \"zone_3\"\tRelError: 8.37285e-02\tAbsError: 9.08236e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.66541e-02\tAbsError: 5.29767e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.08300e-02\tAbsError: 3.78468e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.22394e-03\tAbsError: 2.32655e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.04921e-05\tAbsError: 7.11491e-03\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.53826e-04\tAbsError: 1.09912e+11\n", + " Region: \"zone_1\"\tRelError: 2.29821e-05\tAbsError: 4.27473e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.28592e-05\tAbsError: 6.65170e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", + " Region: \"zone_3\"\tRelError: 1.30844e-04\tAbsError: 1.09912e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.01681e-06\tAbsError: 7.52234e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94349e-06\tAbsError: 3.46881e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14760e-04\tAbsError: 6.98367e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.12115e+00\tAbsError: 1.12368e+15\n", + " Region: \"zone_1\"\tRelError: 1.07753e-01\tAbsError: 3.45134e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07728e-01\tAbsError: 2.56568e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.55163e-05\tAbsError: 8.85665e-03\n", + " Region: \"zone_3\"\tRelError: 1.01340e+00\tAbsError: 1.12368e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.76839e-01\tAbsError: 5.03019e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.25192e-01\tAbsError: 6.20662e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11342e-01\tAbsError: 2.58854e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.55171e-05\tAbsError: 8.85707e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.19808e-02\tAbsError: 3.06344e+13\n", + " Region: \"zone_1\"\tRelError: 2.04251e-02\tAbsError: 4.10278e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.04136e-02\tAbsError: 1.00349e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", + " Region: \"zone_3\"\tRelError: 6.15557e-02\tAbsError: 3.06344e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38926e-02\tAbsError: 1.71938e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.73234e-03\tAbsError: 1.34406e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.91920e-03\tAbsError: 1.01109e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.16827e-03\tAbsError: 3.42905e+12\n", + " Region: \"zone_1\"\tRelError: 5.05049e-04\tAbsError: 4.91012e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.03646e-04\tAbsError: 3.47475e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.40302e-06\tAbsError: 4.87537e-04\n", + " Region: \"zone_3\"\tRelError: 2.66322e-03\tAbsError: 3.42905e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.95349e-04\tAbsError: 1.21352e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.81812e-04\tAbsError: 2.21554e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.98465e-03\tAbsError: 3.54752e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.40328e-06\tAbsError: 4.87636e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.84860e-05\tAbsError: 3.70987e+10\n", + " Region: \"zone_1\"\tRelError: 3.74711e-06\tAbsError: 5.87951e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.73032e-06\tAbsError: 3.58594e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67880e-08\tAbsError: 5.84365e-06\n", + " Region: \"zone_3\"\tRelError: 2.47389e-05\tAbsError: 3.70987e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.96764e-06\tAbsError: 1.24118e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.94133e-06\tAbsError: 2.46869e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88131e-05\tAbsError: 3.59119e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67950e-08\tAbsError: 5.84625e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:44\u001b[0m.\u001b[1;36m074\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.4\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Iteration: 0\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 6.33754e+00\tAbsError: 8.76787e+15\n", + " Region: \"zone_1\"\tRelError: 4.66402e+00\tAbsError: 4.22113e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.66402e+00\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.37385e-09\tAbsError: 2.21342e-06\n", + " Region: \"zone_3\"\tRelError: 1.67352e+00\tAbsError: 8.76787e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80231e-01\tAbsError: 5.17304e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.80207e-01\tAbsError: 3.59483e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13080e-01\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.37521e-09\tAbsError: 2.21392e-06\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.26825e-01\tAbsError: 4.37760e+14\n", + " Region: \"zone_1\"\tRelError: 3.80907e-02\tAbsError: 2.35516e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.80555e-02\tAbsError: 1.13363e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.51940e-05\tAbsError: 1.22153e-02\n", + " Region: \"zone_3\"\tRelError: 3.88734e-01\tAbsError: 4.37760e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.24657e-01\tAbsError: 2.14324e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.24964e-01\tAbsError: 2.23436e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.90785e-02\tAbsError: 1.13364e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.51963e-05\tAbsError: 1.22163e-02\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.53920e-03\tAbsError: 1.84314e+12\n", + " Region: \"zone_1\"\tRelError: 2.29752e-04\tAbsError: 2.41443e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29064e-04\tAbsError: 2.20702e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", + " Region: \"zone_3\"\tRelError: 1.30944e-03\tAbsError: 1.84314e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11485e-04\tAbsError: 5.81096e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.63190e-04\tAbsError: 1.26205e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 9.34079e-04\tAbsError: 2.25011e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.52226e-04\tAbsError: 3.81978e+11\n", + " Region: \"zone_1\"\tRelError: 8.36528e-05\tAbsError: 2.05703e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 8.30610e-05\tAbsError: 2.27394e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.91803e-07\tAbsError: 2.05476e-04\n", + " Region: \"zone_3\"\tRelError: 3.68573e-04\tAbsError: 3.81978e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.16126e-05\tAbsError: 2.47156e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.13261e-05\tAbsError: 1.34821e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.25043e-04\tAbsError: 2.38613e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.91803e-07\tAbsError: 2.05476e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.95597e-02\tAbsError: 7.71424e+13\n", + " Region: \"zone_1\"\tRelError: 8.97757e-03\tAbsError: 6.57471e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 8.95924e-03\tAbsError: 2.10468e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83299e-05\tAbsError: 6.36424e-03\n", + " Region: \"zone_3\"\tRelError: 8.05821e-02\tAbsError: 7.71424e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.51160e-02\tAbsError: 4.59722e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.55840e-03\tAbsError: 3.11702e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.88934e-03\tAbsError: 2.11417e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83299e-05\tAbsError: 6.36424e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.61701e+00\tAbsError: 4.21474e+14\n", + " Region: \"zone_1\"\tRelError: 1.10816e-01\tAbsError: 8.18878e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10673e-01\tAbsError: 3.22435e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42846e-04\tAbsError: 4.96444e-02\n", + " Region: \"zone_3\"\tRelError: 1.50619e+00\tAbsError: 4.21474e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.58762e-01\tAbsError: 2.85907e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.50146e-01\tAbsError: 1.35567e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.71388e-02\tAbsError: 3.22438e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42846e-04\tAbsError: 4.96444e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.87618e+01\tAbsError: 8.25603e+15\n", + " Region: \"zone_1\"\tRelError: 2.71120e+01\tAbsError: 4.09561e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.71120e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.29384e-09\tAbsError: 1.83846e-06\n", + " Region: \"zone_3\"\tRelError: 1.64979e+00\tAbsError: 8.25603e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69658e-01\tAbsError: 4.86497e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69634e-01\tAbsError: 3.39106e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10500e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.29480e-09\tAbsError: 1.83875e-06\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.51045e-04\tAbsError: 2.02519e+11\n", + " Region: \"zone_1\"\tRelError: 4.54891e-05\tAbsError: 1.12868e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.51644e-05\tAbsError: 1.25671e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.24705e-07\tAbsError: 1.12743e-04\n", + " Region: \"zone_3\"\tRelError: 2.05556e-04\tAbsError: 2.02519e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12163e-05\tAbsError: 1.36505e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10724e-05\tAbsError: 6.60139e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82943e-04\tAbsError: 1.30848e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.24777e-07\tAbsError: 1.12769e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.16205e-04\tAbsError: 1.96223e+11\n", + " Region: \"zone_1\"\tRelError: 3.93698e-05\tAbsError: 1.48004e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.93276e-05\tAbsError: 1.21385e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.21780e-08\tAbsError: 1.46790e-05\n", + " Region: \"zone_3\"\tRelError: 1.76835e-04\tAbsError: 1.96223e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12231e-05\tAbsError: 9.36536e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.11384e-05\tAbsError: 1.02569e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.54432e-04\tAbsError: 1.24837e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.21943e-08\tAbsError: 1.46850e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.09334e+00\tAbsError: 1.47862e+14\n", + " Region: \"zone_1\"\tRelError: 8.41951e-02\tAbsError: 3.34998e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.41732e-02\tAbsError: 2.58874e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19032e-05\tAbsError: 7.61236e-03\n", + " Region: \"zone_3\"\tRelError: 1.00915e+00\tAbsError: 1.47862e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.70939e-01\tAbsError: 8.86673e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.53155e-01\tAbsError: 5.91945e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.50295e-02\tAbsError: 2.57870e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19032e-05\tAbsError: 7.61236e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.76323e-03\tAbsError: 3.04208e+12\n", + " Region: \"zone_1\"\tRelError: 4.34764e-04\tAbsError: 4.50535e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.33477e-04\tAbsError: 3.15266e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.28745e-06\tAbsError: 4.47383e-04\n", + " Region: \"zone_3\"\tRelError: 2.32847e-03\tAbsError: 3.04208e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.58402e-04\tAbsError: 1.05932e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.52573e-04\tAbsError: 1.98276e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.71621e-03\tAbsError: 3.22876e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.28792e-06\tAbsError: 4.47554e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.69855e+00\tAbsError: 3.40458e+14\n", + " Region: \"zone_1\"\tRelError: 2.34470e-01\tAbsError: 7.85796e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.34332e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", + " Region: \"zone_3\"\tRelError: 1.46408e+00\tAbsError: 3.40458e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39247e-01\tAbsError: 2.37038e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.31799e-01\tAbsError: 1.03420e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.29010e-02\tAbsError: 3.07639e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.09882e-04\tAbsError: 1.05387e+11\n", + " Region: \"zone_1\"\tRelError: 1.91896e-05\tAbsError: 8.11152e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.91665e-05\tAbsError: 7.26801e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.30974e-08\tAbsError: 8.03884e-06\n", + " Region: \"zone_3\"\tRelError: 9.06925e-05\tAbsError: 1.05387e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41210e-06\tAbsError: 4.74044e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.36012e-06\tAbsError: 5.79823e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.78972e-05\tAbsError: 7.44246e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.31071e-08\tAbsError: 8.04242e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.29328e-05\tAbsError: 1.28315e+10\n", + " Region: \"zone_1\"\tRelError: 2.39931e-06\tAbsError: 1.11358e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.36728e-06\tAbsError: 7.12558e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.20267e-08\tAbsError: 1.11287e-05\n", + " Region: \"zone_3\"\tRelError: 1.05335e-05\tAbsError: 1.28315e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.59775e-07\tAbsError: 9.09417e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.08523e-07\tAbsError: 3.73735e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 9.23314e-06\tAbsError: 7.44346e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.20347e-08\tAbsError: 1.11318e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:48\u001b[0m.\u001b[1;36m096\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:48\u001b[0m.\u001b[1;36m096\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6416666666666667\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.68709e-01\tAbsError: 5.55679e+13\n", + " Region: \"zone_1\"\tRelError: 3.01660e-02\tAbsError: 1.36189e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.01586e-02\tAbsError: 1.10528e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.39180e-06\tAbsError: 2.56611e-03\n", + " Region: \"zone_3\"\tRelError: 3.38543e-01\tAbsError: 5.55679e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.22734e-01\tAbsError: 2.45809e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.53253e-02\tAbsError: 3.09871e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.04764e-02\tAbsError: 1.10528e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.39597e-06\tAbsError: 2.56763e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.28398e-04\tAbsError: 3.56399e+11\n", + " Region: \"zone_1\"\tRelError: 7.90313e-05\tAbsError: 1.82266e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.85070e-05\tAbsError: 2.13360e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.24338e-07\tAbsError: 1.82053e-04\n", + " Region: \"zone_3\"\tRelError: 3.49366e-04\tAbsError: 3.56399e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.01607e-05\tAbsError: 2.30451e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.98999e-05\tAbsError: 1.25949e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.08781e-04\tAbsError: 2.23060e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.24338e-07\tAbsError: 1.82053e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.10009e+00\tAbsError: 9.49766e+13\n", + " Region: \"zone_1\"\tRelError: 1.69910e-01\tAbsError: 3.26443e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.69891e-01\tAbsError: 2.58991e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", + " Region: \"zone_3\"\tRelError: 9.30185e-01\tAbsError: 9.49766e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40985e-01\tAbsError: 5.67002e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.12174e-01\tAbsError: 3.82763e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.70066e-02\tAbsError: 2.58994e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 7.21635e-06\tAbsError: 6.66070e+09\n", + " Region: \"zone_1\"\tRelError: 1.30608e-06\tAbsError: 5.92265e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28905e-06\tAbsError: 4.03393e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70320e-08\tAbsError: 5.91862e-06\n", + " Region: \"zone_3\"\tRelError: 5.91027e-06\tAbsError: 6.66070e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.61854e-07\tAbsError: 4.98332e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.27195e-07\tAbsError: 1.67738e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 5.20418e-06\tAbsError: 4.19235e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70346e-08\tAbsError: 5.91965e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:49\u001b[0m.\u001b[1;36m098\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.6\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.55074e-02\tAbsError: 9.90968e+12\n", + " Region: \"zone_1\"\tRelError: 2.96123e-03\tAbsError: 1.94388e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.95582e-03\tAbsError: 6.53231e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.41016e-06\tAbsError: 1.87856e-03\n", + " Region: \"zone_3\"\tRelError: 7.25461e-02\tAbsError: 9.90968e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.69484e-02\tAbsError: 5.15392e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.51045e-03\tAbsError: 4.75576e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.08189e-03\tAbsError: 7.13022e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.41016e-06\tAbsError: 1.87856e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.87899e-04\tAbsError: 1.73082e+11\n", + " Region: \"zone_1\"\tRelError: 3.39934e-05\tAbsError: 1.43686e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.39525e-05\tAbsError: 1.08946e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.09731e-08\tAbsError: 1.42597e-05\n", + " Region: \"zone_3\"\tRelError: 1.53906e-04\tAbsError: 1.73082e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98939e-06\tAbsError: 8.17885e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.91188e-06\tAbsError: 9.12938e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33963e-04\tAbsError: 1.11897e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.09888e-08\tAbsError: 1.42655e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.75131e+01\tAbsError: 1.04832e+16\n", + " Region: \"zone_1\"\tRelError: 2.57460e+01\tAbsError: 4.26144e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.57460e+01\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.25795e-10\tAbsError: 2.17804e-07\n", + " Region: \"zone_3\"\tRelError: 1.76714e+00\tAbsError: 1.04832e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83363e-01\tAbsError: 5.41685e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.83175e-01\tAbsError: 5.06630e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.00598e-01\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.26134e-10\tAbsError: 2.17927e-07\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.56252e-01\tAbsError: 3.42527e+13\n", + " Region: \"zone_1\"\tRelError: 6.41646e-02\tAbsError: 1.11813e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.41588e-02\tAbsError: 9.16555e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.79958e-06\tAbsError: 2.01571e-03\n", + " Region: \"zone_3\"\tRelError: 2.92088e-01\tAbsError: 3.42527e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07223e-01\tAbsError: 1.60452e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.07953e-02\tAbsError: 1.82076e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.40630e-02\tAbsError: 9.16559e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.80279e-06\tAbsError: 2.01683e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.57743e+01\tAbsError: 8.48667e+15\n", + " Region: \"zone_1\"\tRelError: 1.40602e+01\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40602e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.57556e-10\tAbsError: 1.24451e-07\n", + " Region: \"zone_3\"\tRelError: 1.71408e+00\tAbsError: 8.48667e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69582e-01\tAbsError: 4.51146e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69441e-01\tAbsError: 3.97521e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.75053e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.57765e-10\tAbsError: 1.24526e-07\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.35924e-04\tAbsError: 8.77699e+11\n", + " Region: \"zone_1\"\tRelError: 5.65341e-05\tAbsError: 1.31717e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.61586e-05\tAbsError: 1.24204e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.75403e-07\tAbsError: 1.30475e-04\n", + " Region: \"zone_3\"\tRelError: 4.79390e-04\tAbsError: 8.77699e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43239e-04\tAbsError: 2.14015e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.28226e-05\tAbsError: 6.63684e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.52952e-04\tAbsError: 1.25007e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.75403e-07\tAbsError: 1.30475e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.33017e-05\tAbsError: 1.25250e+10\n", + " Region: \"zone_1\"\tRelError: 2.46569e-06\tAbsError: 9.72458e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.43772e-06\tAbsError: 7.05981e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.79653e-08\tAbsError: 9.71752e-06\n", + " Region: \"zone_3\"\tRelError: 1.08360e-05\tAbsError: 1.25250e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37872e-07\tAbsError: 8.80212e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.06618e-07\tAbsError: 3.72290e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 9.56353e-06\tAbsError: 7.35679e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.79715e-08\tAbsError: 9.71990e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.19195e+00\tAbsError: 1.07579e+16\n", + " Region: \"zone_1\"\tRelError: 6.33495e-01\tAbsError: 8.81214e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.33336e-01\tAbsError: 3.27220e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59452e-04\tAbsError: 5.53993e-02\n", + " Region: \"zone_3\"\tRelError: 1.55845e+00\tAbsError: 1.07579e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.62844e-01\tAbsError: 5.18589e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32311e-01\tAbsError: 5.57203e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.63136e-01\tAbsError: 3.27221e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59452e-04\tAbsError: 5.53993e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:51\u001b[0m.\u001b[1;36m255\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:51\u001b[0m.\u001b[1;36m255\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6357142857142857\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.59960e-02\tAbsError: 3.73217e+12\n", + " Region: \"zone_1\"\tRelError: 7.31305e-03\tAbsError: 2.21475e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.30674e-03\tAbsError: 2.57182e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", + " Region: \"zone_3\"\tRelError: 5.86829e-02\tAbsError: 3.73217e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.62142e-02\tAbsError: 2.07187e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.09163e-04\tAbsError: 1.66031e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65329e-03\tAbsError: 2.69578e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 4.55570e+00\tAbsError: 5.16331e+15\n", + " Region: \"zone_1\"\tRelError: 3.06111e+00\tAbsError: 6.97364e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.06100e+00\tAbsError: 3.07634e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12162e-04\tAbsError: 3.89730e-02\n", + " Region: \"zone_3\"\tRelError: 1.49459e+00\tAbsError: 5.16331e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38938e-01\tAbsError: 2.46191e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.11412e-01\tAbsError: 2.70140e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.44124e-01\tAbsError: 3.07634e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12162e-04\tAbsError: 3.89730e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.49173e-04\tAbsError: 1.08665e+11\n", + " Region: \"zone_1\"\tRelError: 2.49796e-05\tAbsError: 4.96969e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.48367e-05\tAbsError: 7.16851e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42909e-07\tAbsError: 4.96252e-05\n", + " Region: \"zone_3\"\tRelError: 1.24193e-04\tAbsError: 1.08665e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.07162e-06\tAbsError: 7.44871e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.99576e-06\tAbsError: 3.41777e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09983e-04\tAbsError: 7.48608e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42909e-07\tAbsError: 4.96252e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.20212e+00\tAbsError: 7.47831e+15\n", + " Region: \"zone_1\"\tRelError: 1.32597e-01\tAbsError: 3.89759e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.32557e-01\tAbsError: 2.52828e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.94599e-05\tAbsError: 1.36931e-02\n", + " Region: \"zone_3\"\tRelError: 1.06952e+00\tAbsError: 7.47831e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.83767e-01\tAbsError: 3.66669e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.39313e-01\tAbsError: 3.81162e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.46404e-01\tAbsError: 2.54085e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.05332e-05\tAbsError: 1.40654e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 8.14034e-04\tAbsError: 1.03618e+12\n", + " Region: \"zone_1\"\tRelError: 1.43803e-04\tAbsError: 7.79056e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43584e-04\tAbsError: 1.54074e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19396e-07\tAbsError: 7.63649e-05\n", + " Region: \"zone_3\"\tRelError: 6.70231e-04\tAbsError: 1.03618e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.21829e-04\tAbsError: 2.70793e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.05108e-04\tAbsError: 7.65387e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.43074e-04\tAbsError: 1.54210e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19498e-07\tAbsError: 7.64015e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.84879e+02\tAbsError: 9.85047e+15\n", + " Region: \"zone_1\"\tRelError: 2.83120e+02\tAbsError: 4.23838e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.83120e+02\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.02987e-10\tAbsError: 2.79472e-07\n", + " Region: \"zone_3\"\tRelError: 1.75959e+00\tAbsError: 9.85047e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.81501e-01\tAbsError: 5.21342e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.81322e-01\tAbsError: 4.63704e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.96768e-01\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03413e-10\tAbsError: 2.79627e-07\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.13964e+00\tAbsError: 3.47644e+15\n", + " Region: \"zone_1\"\tRelError: 1.85284e-01\tAbsError: 3.50197e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.85258e-01\tAbsError: 2.58979e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.62526e-05\tAbsError: 9.12177e-03\n", + " Region: \"zone_3\"\tRelError: 9.54354e-01\tAbsError: 3.47644e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.46208e-01\tAbsError: 1.62778e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.89583e-01\tAbsError: 1.84866e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18536e-01\tAbsError: 2.53855e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.62526e-05\tAbsError: 9.12177e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.73047e-05\tAbsError: 4.40670e+10\n", + " Region: \"zone_1\"\tRelError: 5.75467e-06\tAbsError: 5.44475e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.73914e-06\tAbsError: 3.84897e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.55326e-08\tAbsError: 5.40626e-06\n", + " Region: \"zone_3\"\tRelError: 3.15501e-05\tAbsError: 4.40670e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.02445e-06\tAbsError: 1.61588e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.99827e-06\tAbsError: 2.79082e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.55118e-05\tAbsError: 3.86967e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.55391e-08\tAbsError: 5.40861e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:53\u001b[0m.\u001b[1;36m949\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.525\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 9.70347e-01\tAbsError: 2.72553e+15\n", + " Region: \"zone_1\"\tRelError: 5.51720e-01\tAbsError: 7.40138e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.51541e-01\tAbsError: 1.17200e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.79546e-04\tAbsError: 6.22938e-02\n", + " Region: \"zone_3\"\tRelError: 4.18627e-01\tAbsError: 2.72553e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.23799e-01\tAbsError: 1.44536e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.44218e-01\tAbsError: 1.28017e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.04299e-02\tAbsError: 1.17201e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.79839e-04\tAbsError: 6.23947e-02\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.61312e-05\tAbsError: 5.74046e+10\n", + " Region: \"zone_1\"\tRelError: 1.61849e-05\tAbsError: 6.45313e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.59991e-05\tAbsError: 3.79845e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.85726e-07\tAbsError: 6.44934e-05\n", + " Region: \"zone_3\"\tRelError: 5.99464e-05\tAbsError: 5.74046e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.77906e-06\tAbsError: 4.68633e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.20461e-06\tAbsError: 1.05413e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.27769e-05\tAbsError: 3.95532e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.85828e-07\tAbsError: 6.45281e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:54\u001b[0m.\u001b[1;36m293\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.5\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.40036e+00\tAbsError: 9.59182e+15\n", + " Region: \"zone_1\"\tRelError: 8.50865e-01\tAbsError: 8.47022e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.50714e-01\tAbsError: 3.24493e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.50393e-04\tAbsError: 5.22529e-02\n", + " Region: \"zone_3\"\tRelError: 1.54950e+00\tAbsError: 9.59182e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.59657e-01\tAbsError: 4.65942e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.29505e-01\tAbsError: 4.93240e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.60188e-01\tAbsError: 3.24493e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.50393e-04\tAbsError: 5.22529e-02\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 8.24095e-01\tAbsError: 1.04537e+15\n", + " Region: \"zone_1\"\tRelError: 4.93544e-01\tAbsError: 2.65000e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.93494e-01\tAbsError: 9.16559e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.98913e-05\tAbsError: 1.73344e-02\n", + " Region: \"zone_3\"\tRelError: 3.30551e-01\tAbsError: 1.04537e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84640e-01\tAbsError: 5.55503e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10521e-01\tAbsError: 4.89866e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.53403e-02\tAbsError: 9.16565e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.98913e-05\tAbsError: 1.73344e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.33935e-01\tAbsError: 4.64555e+14\n", + " Region: \"zone_1\"\tRelError: 2.94732e-02\tAbsError: 5.29433e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.93213e-02\tAbsError: 2.44798e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.51832e-04\tAbsError: 5.26985e-02\n", + " Region: \"zone_3\"\tRelError: 1.04462e-01\tAbsError: 4.64555e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.87627e-02\tAbsError: 2.71658e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.26664e-02\tAbsError: 1.92897e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.28808e-02\tAbsError: 2.61363e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.51991e-04\tAbsError: 5.27520e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.17170e+01\tAbsError: 8.75063e+15\n", + " Region: \"zone_1\"\tRelError: 1.00071e+01\tAbsError: 4.22113e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00071e+01\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.46569e-09\tAbsError: 2.24513e-06\n", + " Region: \"zone_3\"\tRelError: 1.70995e+00\tAbsError: 8.75063e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80236e-01\tAbsError: 5.03722e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.80173e-01\tAbsError: 3.71341e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49543e-01\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.46650e-09\tAbsError: 2.24544e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.18426e+00\tAbsError: 6.71886e+15\n", + " Region: \"zone_1\"\tRelError: 1.30280e-01\tAbsError: 3.66340e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.30249e-01\tAbsError: 2.57139e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.14700e-05\tAbsError: 1.09200e-02\n", + " Region: \"zone_3\"\tRelError: 1.05398e+00\tAbsError: 6.71886e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.78717e-01\tAbsError: 3.28141e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.32598e-01\tAbsError: 3.43745e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.42637e-01\tAbsError: 2.54415e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.23852e-05\tAbsError: 1.12379e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.60199e+01\tAbsError: 8.22903e+15\n", + " Region: \"zone_1\"\tRelError: 3.43433e+01\tAbsError: 4.09555e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.43433e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.48443e-09\tAbsError: 1.21289e-06\n", + " Region: \"zone_3\"\tRelError: 1.67662e+00\tAbsError: 8.22903e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.78919e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.43984e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37338e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.48691e-09\tAbsError: 1.21378e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.23262e-02\tAbsError: 1.95138e+14\n", + " Region: \"zone_1\"\tRelError: 2.57438e-02\tAbsError: 3.23382e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.56511e-02\tAbsError: 1.67807e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.26701e-05\tAbsError: 3.21704e-02\n", + " Region: \"zone_3\"\tRelError: 6.65824e-02\tAbsError: 1.95138e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.49682e-02\tAbsError: 6.65802e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.06072e-03\tAbsError: 1.28558e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.46071e-03\tAbsError: 1.74923e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.26947e-05\tAbsError: 3.21777e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.87196e-02\tAbsError: 3.13816e+13\n", + " Region: \"zone_1\"\tRelError: 6.85396e-03\tAbsError: 6.84082e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.85204e-03\tAbsError: 1.95230e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.91475e-06\tAbsError: 6.64559e-04\n", + " Region: \"zone_3\"\tRelError: 2.18657e-02\tAbsError: 3.13816e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.74111e-03\tAbsError: 1.46062e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.58712e-03\tAbsError: 1.67754e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.85355e-02\tAbsError: 2.02101e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.92269e-06\tAbsError: 6.67317e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.93208e+00\tAbsError: 1.64182e+15\n", + " Region: \"zone_1\"\tRelError: 4.10297e-01\tAbsError: 7.07022e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.10186e-01\tAbsError: 3.22434e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10672e-04\tAbsError: 3.84588e-02\n", + " Region: \"zone_3\"\tRelError: 1.52179e+00\tAbsError: 1.64182e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.60022e-01\tAbsError: 9.13086e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.40366e-01\tAbsError: 7.28733e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21289e-01\tAbsError: 3.22435e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10672e-04\tAbsError: 3.84588e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.81103e+00\tAbsError: 2.38656e+15\n", + " Region: \"zone_1\"\tRelError: 3.40562e+00\tAbsError: 6.61836e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.40546e+00\tAbsError: 1.13368e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.58076e-04\tAbsError: 5.48468e-02\n", + " Region: \"zone_3\"\tRelError: 4.05411e-01\tAbsError: 2.38656e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.17600e-01\tAbsError: 1.25698e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.39569e-01\tAbsError: 1.12958e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 4.80838e-02\tAbsError: 1.13370e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.58243e-04\tAbsError: 5.49035e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.73485e+00\tAbsError: 1.08973e+15\n", + " Region: \"zone_1\"\tRelError: 2.25350e+00\tAbsError: 6.85700e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.25339e+00\tAbsError: 3.07635e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", + " Region: \"zone_3\"\tRelError: 1.48136e+00\tAbsError: 1.08973e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41054e-01\tAbsError: 6.25022e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.24005e-01\tAbsError: 4.64711e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16189e-01\tAbsError: 3.07637e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.13427e-02\tAbsError: 1.62210e+13\n", + " Region: \"zone_1\"\tRelError: 1.73710e-02\tAbsError: 1.21679e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.73676e-02\tAbsError: 1.36050e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.46587e-06\tAbsError: 1.20318e-03\n", + " Region: \"zone_3\"\tRelError: 1.39717e-02\tAbsError: 1.62210e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.19687e-03\tAbsError: 6.47584e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.09668e-03\tAbsError: 9.74512e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16747e-02\tAbsError: 1.39577e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.46587e-06\tAbsError: 1.20318e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.36574e-04\tAbsError: 6.20350e+11\n", + " Region: \"zone_1\"\tRelError: 5.71508e-05\tAbsError: 1.58969e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.25718e-05\tAbsError: 4.29208e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.57892e-06\tAbsError: 1.58926e-03\n", + " Region: \"zone_3\"\tRelError: 1.79423e-04\tAbsError: 6.20350e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.81023e-05\tAbsError: 4.31262e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.16006e-05\tAbsError: 1.89089e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35142e-04\tAbsError: 4.34629e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.57892e-06\tAbsError: 1.58926e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.10894e+00\tAbsError: 1.04098e+15\n", + " Region: \"zone_1\"\tRelError: 1.06086e-01\tAbsError: 3.49118e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06060e-01\tAbsError: 2.58908e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.59896e-05\tAbsError: 9.02095e-03\n", + " Region: \"zone_3\"\tRelError: 1.00285e+00\tAbsError: 1.04098e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.72685e-01\tAbsError: 4.70486e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.20681e-01\tAbsError: 5.70489e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09459e-01\tAbsError: 2.57724e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.59942e-05\tAbsError: 9.02254e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 3.95854e-01\tAbsError: 4.01780e+14\n", + " Region: \"zone_1\"\tRelError: 2.97435e-01\tAbsError: 4.83384e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.97297e-01\tAbsError: 2.29736e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.38604e-04\tAbsError: 4.81087e-02\n", + " Region: \"zone_3\"\tRelError: 9.84191e-02\tAbsError: 4.01780e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.66330e-02\tAbsError: 2.31666e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.17536e-02\tAbsError: 1.70115e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.98938e-02\tAbsError: 2.43734e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.38761e-04\tAbsError: 4.81621e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.38677e+00\tAbsError: 6.38966e+14\n", + " Region: \"zone_1\"\tRelError: 4.51470e-01\tAbsError: 3.37904e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.51448e-01\tAbsError: 2.58448e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", + " Region: \"zone_3\"\tRelError: 9.35299e-01\tAbsError: 6.38966e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42607e-01\tAbsError: 3.02038e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.95795e-01\tAbsError: 3.36928e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.68743e-02\tAbsError: 2.57679e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.53065e-03\tAbsError: 7.24481e+11\n", + " Region: \"zone_1\"\tRelError: 1.49459e-03\tAbsError: 1.07639e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49149e-03\tAbsError: 6.55190e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.09641e-06\tAbsError: 1.07573e-03\n", + " Region: \"zone_3\"\tRelError: 1.03606e-03\tAbsError: 7.24481e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73129e-05\tAbsError: 2.45596e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.81580e-05\tAbsError: 4.78885e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 9.37490e-04\tAbsError: 6.76708e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.09642e-06\tAbsError: 1.07576e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.16659e-03\tAbsError: 1.56179e+12\n", + " Region: \"zone_1\"\tRelError: 5.49118e-04\tAbsError: 8.25361e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.48882e-04\tAbsError: 7.56127e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.35610e-07\tAbsError: 8.17800e-05\n", + " Region: \"zone_3\"\tRelError: 1.61747e-03\tAbsError: 1.56179e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.04155e-05\tAbsError: 7.80826e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.99233e-05\tAbsError: 7.80963e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.47689e-03\tAbsError: 7.63501e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.35622e-07\tAbsError: 8.17818e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.15048e-01\tAbsError: 4.01161e+14\n", + " Region: \"zone_1\"\tRelError: 3.68701e-02\tAbsError: 2.28829e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.68361e-02\tAbsError: 1.10529e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.40835e-05\tAbsError: 1.18299e-02\n", + " Region: \"zone_3\"\tRelError: 3.78178e-01\tAbsError: 4.01161e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.20081e-01\tAbsError: 1.95045e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.20222e-01\tAbsError: 2.06116e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.78403e-02\tAbsError: 1.10530e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.40894e-05\tAbsError: 1.18320e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.32002e-02\tAbsError: 2.72995e+13\n", + " Region: \"zone_1\"\tRelError: 2.32135e-02\tAbsError: 6.74833e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.32116e-02\tAbsError: 1.80346e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.89232e-06\tAbsError: 6.56799e-04\n", + " Region: \"zone_3\"\tRelError: 1.99868e-02\tAbsError: 2.72995e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.62006e-03\tAbsError: 1.26801e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.47679e-03\tAbsError: 1.46193e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.68880e-02\tAbsError: 1.87805e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.89880e-06\tAbsError: 6.59049e-04\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.41554e-01\tAbsError: 2.20715e+14\n", + " Region: \"zone_1\"\tRelError: 2.89595e-02\tAbsError: 1.67352e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.89377e-02\tAbsError: 9.16565e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18085e-05\tAbsError: 7.56954e-03\n", + " Region: \"zone_3\"\tRelError: 3.12594e-01\tAbsError: 2.20715e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.94155e-01\tAbsError: 1.01533e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.87246e-02\tAbsError: 1.19182e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.96932e-02\tAbsError: 9.16570e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18152e-05\tAbsError: 7.57200e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.69038e-03\tAbsError: 1.04370e+12\n", + " Region: \"zone_1\"\tRelError: 1.58975e-03\tAbsError: 1.04879e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.58945e-03\tAbsError: 5.38488e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.00336e-07\tAbsError: 1.04341e-04\n", + " Region: \"zone_3\"\tRelError: 1.10063e-03\tAbsError: 1.04370e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.23814e-05\tAbsError: 5.26651e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.22994e-05\tAbsError: 5.17045e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 9.95649e-04\tAbsError: 5.63224e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.00360e-07\tAbsError: 1.04351e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.73714e-04\tAbsError: 7.72899e+10\n", + " Region: \"zone_1\"\tRelError: 4.49573e-05\tAbsError: 9.55178e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.46825e-05\tAbsError: 4.77093e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.74854e-07\tAbsError: 9.54700e-05\n", + " Region: \"zone_3\"\tRelError: 1.28757e-04\tAbsError: 7.72899e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.96964e-06\tAbsError: 3.45890e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.00987e-06\tAbsError: 4.27008e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20503e-04\tAbsError: 4.78699e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.74949e-07\tAbsError: 9.55032e-05\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.89721e-02\tAbsError: 6.93237e+13\n", + " Region: \"zone_1\"\tRelError: 1.12555e-02\tAbsError: 6.08752e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12385e-02\tAbsError: 1.96047e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69682e-05\tAbsError: 5.89147e-03\n", + " Region: \"zone_3\"\tRelError: 7.77166e-02\tAbsError: 6.93237e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.31797e-02\tAbsError: 4.13510e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.75730e-03\tAbsError: 2.79727e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.76262e-03\tAbsError: 1.97204e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69682e-05\tAbsError: 5.89147e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.00874e-04\tAbsError: 5.54848e+11\n", + " Region: \"zone_1\"\tRelError: 3.62392e-04\tAbsError: 1.46665e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.58171e-04\tAbsError: 4.14226e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.22130e-06\tAbsError: 1.46624e-03\n", + " Region: \"zone_3\"\tRelError: 2.38482e-04\tAbsError: 5.54848e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.38984e-05\tAbsError: 3.56593e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.33198e-05\tAbsError: 1.98255e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.97042e-04\tAbsError: 4.18018e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.22137e-06\tAbsError: 1.46629e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.19808e-02\tAbsError: 3.06344e+13\n", + " Region: \"zone_1\"\tRelError: 2.04251e-02\tAbsError: 4.10278e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.04136e-02\tAbsError: 1.00349e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", + " Region: \"zone_3\"\tRelError: 6.15557e-02\tAbsError: 3.06344e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38926e-02\tAbsError: 1.71938e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.73234e-03\tAbsError: 1.34406e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.91920e-03\tAbsError: 1.01109e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.67954e-04\tAbsError: 1.01821e+11\n", + " Region: \"zone_1\"\tRelError: 2.21136e-04\tAbsError: 6.97280e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20936e-04\tAbsError: 5.57180e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.00534e-07\tAbsError: 6.96723e-05\n", + " Region: \"zone_3\"\tRelError: 1.46817e-04\tAbsError: 1.01821e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.39462e-06\tAbsError: 5.27392e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.41727e-06\tAbsError: 4.90816e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35805e-04\tAbsError: 5.79583e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.00607e-07\tAbsError: 6.96980e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.51642e-04\tAbsError: 9.55059e+10\n", + " Region: \"zone_1\"\tRelError: 3.88744e-05\tAbsError: 1.03918e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.88446e-05\tAbsError: 4.18646e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.97970e-08\tAbsError: 1.03499e-05\n", + " Region: \"zone_3\"\tRelError: 1.12767e-04\tAbsError: 9.55059e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.17880e-06\tAbsError: 5.35381e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.13971e-06\tAbsError: 4.19677e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04419e-04\tAbsError: 4.29182e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.98061e-08\tAbsError: 1.03531e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.48729e-03\tAbsError: 2.79154e+12\n", + " Region: \"zone_1\"\tRelError: 3.87179e-04\tAbsError: 4.35466e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.85934e-04\tAbsError: 2.95614e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.24460e-06\tAbsError: 4.32510e-04\n", + " Region: \"zone_3\"\tRelError: 2.10011e-03\tAbsError: 2.79154e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.31175e-04\tAbsError: 9.56489e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.34157e-04\tAbsError: 1.83505e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.53353e-03\tAbsError: 3.02108e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.24504e-06\tAbsError: 4.32656e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.79283e-03\tAbsError: 1.43848e+12\n", + " Region: \"zone_1\"\tRelError: 3.30611e-03\tAbsError: 7.95001e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.30588e-03\tAbsError: 7.04439e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.27004e-07\tAbsError: 7.87957e-05\n", + " Region: \"zone_3\"\tRelError: 1.48671e-03\tAbsError: 1.43848e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.59255e-05\tAbsError: 7.19874e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.55139e-05\tAbsError: 7.18608e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35505e-03\tAbsError: 7.16273e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.27048e-07\tAbsError: 7.88086e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.53920e-03\tAbsError: 1.84314e+12\n", + " Region: \"zone_1\"\tRelError: 2.29752e-04\tAbsError: 2.41443e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29064e-04\tAbsError: 2.20702e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", + " Region: \"zone_3\"\tRelError: 1.30944e-03\tAbsError: 1.84314e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11485e-04\tAbsError: 5.81096e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.63190e-04\tAbsError: 1.26205e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 9.34079e-04\tAbsError: 2.25011e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.02562e-04\tAbsError: 6.84436e+10\n", + " Region: \"zone_1\"\tRelError: 1.21040e-04\tAbsError: 1.06970e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21010e-04\tAbsError: 3.27450e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.06942e-08\tAbsError: 1.06642e-05\n", + " Region: \"zone_3\"\tRelError: 8.15214e-05\tAbsError: 6.84436e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.33271e-06\tAbsError: 3.86457e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.32148e-06\tAbsError: 2.97979e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.48365e-05\tAbsError: 3.43670e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.07019e-08\tAbsError: 1.06669e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.08772e-05\tAbsError: 1.00314e+10\n", + " Region: \"zone_1\"\tRelError: 5.40787e-06\tAbsError: 6.34084e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.38963e-06\tAbsError: 4.94059e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.82408e-08\tAbsError: 6.33590e-06\n", + " Region: \"zone_3\"\tRelError: 1.54694e-05\tAbsError: 1.00314e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.74768e-07\tAbsError: 5.64810e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.74551e-07\tAbsError: 4.38331e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.45018e-05\tAbsError: 5.07095e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.82431e-08\tAbsError: 6.33672e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:03\u001b[0m.\u001b[1;36m771\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: 0.75\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.25466e-04\tAbsError: 3.48774e+11\n", + " Region: \"zone_1\"\tRelError: 7.83109e-05\tAbsError: 1.66659e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.78315e-05\tAbsError: 2.09453e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.79396e-07\tAbsError: 1.66449e-04\n", + " Region: \"zone_3\"\tRelError: 3.47155e-04\tAbsError: 3.48774e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98014e-05\tAbsError: 2.24608e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.95539e-05\tAbsError: 1.24166e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.07320e-04\tAbsError: 2.18500e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.79412e-07\tAbsError: 1.66457e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 4.62391e-04\tAbsError: 7.31803e+10\n", + " Region: \"zone_1\"\tRelError: 3.39031e-04\tAbsError: 8.88123e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.38775e-04\tAbsError: 4.59725e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.55543e-07\tAbsError: 8.87663e-05\n", + " Region: \"zone_3\"\tRelError: 1.23361e-04\tAbsError: 7.31803e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.89040e-06\tAbsError: 3.23307e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.92637e-06\tAbsError: 4.08496e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15288e-04\tAbsError: 4.64206e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.55633e-07\tAbsError: 8.87978e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.51045e-04\tAbsError: 2.02519e+11\n", + " Region: \"zone_1\"\tRelError: 4.54891e-05\tAbsError: 1.12868e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.51644e-05\tAbsError: 1.25671e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.24705e-07\tAbsError: 1.12743e-04\n", + " Region: \"zone_3\"\tRelError: 2.05556e-04\tAbsError: 2.02519e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12163e-05\tAbsError: 1.36505e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10724e-05\tAbsError: 6.60139e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82943e-04\tAbsError: 1.30848e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.24777e-07\tAbsError: 1.12769e-04\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.67619e-05\tAbsError: 1.02422e+10\n", + " Region: \"zone_1\"\tRelError: 2.21445e-05\tAbsError: 4.91320e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.21303e-05\tAbsError: 5.33976e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41260e-08\tAbsError: 4.90786e-06\n", + " Region: \"zone_3\"\tRelError: 1.46175e-05\tAbsError: 1.02422e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.20200e-07\tAbsError: 5.93794e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.20801e-07\tAbsError: 4.30423e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35623e-05\tAbsError: 5.58038e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41284e-08\tAbsError: 4.90869e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:04\u001b[0m.\u001b[1;36m706\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.7000000000000001\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.68185e-04\tAbsError: 1.57528e+11\n", + " Region: \"zone_1\"\tRelError: 3.02594e-05\tAbsError: 1.46953e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.02175e-05\tAbsError: 1.00508e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.19359e-08\tAbsError: 1.45948e-05\n", + " Region: \"zone_3\"\tRelError: 1.37926e-04\tAbsError: 1.57528e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.15139e-06\tAbsError: 7.37040e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.07858e-06\tAbsError: 8.38241e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19654e-04\tAbsError: 1.03331e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.19521e-08\tAbsError: 1.46007e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 8.04368e+00\tAbsError: 5.76399e+16\n", + " Region: \"zone_1\"\tRelError: 6.20216e+00\tAbsError: 4.26152e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.20216e+00\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.91158e-09\tAbsError: 1.01133e-06\n", + " Region: \"zone_3\"\tRelError: 1.84152e+00\tAbsError: 5.76399e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.81952e-01\tAbsError: 2.86549e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.81071e-01\tAbsError: 2.89849e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78493e-01\tAbsError: 4.26142e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.91186e-09\tAbsError: 1.01143e-06\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 3.62519e-04\tAbsError: 8.85487e+10\n", + " Region: \"zone_1\"\tRelError: 2.58264e-04\tAbsError: 9.90724e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.58235e-04\tAbsError: 3.93706e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.84079e-08\tAbsError: 9.86787e-06\n", + " Region: \"zone_3\"\tRelError: 1.04255e-04\tAbsError: 8.85487e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.93727e-06\tAbsError: 4.96723e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.90392e-06\tAbsError: 3.88764e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 9.63857e-05\tAbsError: 4.02462e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.84165e-08\tAbsError: 9.87086e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.09882e-04\tAbsError: 1.05387e+11\n", + " Region: \"zone_1\"\tRelError: 1.91896e-05\tAbsError: 8.11152e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.91665e-05\tAbsError: 7.26801e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.30974e-08\tAbsError: 8.03884e-06\n", + " Region: \"zone_3\"\tRelError: 9.06925e-05\tAbsError: 1.05387e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41210e-06\tAbsError: 4.74044e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.36012e-06\tAbsError: 5.79823e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.78972e-05\tAbsError: 7.44246e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.31071e-08\tAbsError: 8.04242e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.11982e+00\tAbsError: 2.71568e+16\n", + " Region: \"zone_1\"\tRelError: 3.35178e+00\tAbsError: 4.09552e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.35178e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.75560e-09\tAbsError: 9.57391e-07\n", + " Region: \"zone_3\"\tRelError: 1.76804e+00\tAbsError: 2.71568e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68907e-01\tAbsError: 1.36090e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.68433e-01\tAbsError: 1.35478e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.30705e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.75592e-09\tAbsError: 9.57503e-07\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 5.47840e-05\tAbsError: 9.54711e+09\n", + " Region: \"zone_1\"\tRelError: 4.01920e-05\tAbsError: 5.92982e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.01749e-05\tAbsError: 4.76008e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70572e-08\tAbsError: 5.92506e-06\n", + " Region: \"zone_3\"\tRelError: 1.45920e-05\tAbsError: 9.54711e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.57614e-07\tAbsError: 5.39303e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.57465e-07\tAbsError: 4.15407e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.36599e-05\tAbsError: 4.87161e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70596e-08\tAbsError: 5.92588e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:06\u001b[0m.\u001b[1;36m793\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:06\u001b[0m.\u001b[1;36m793\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7428571428571428\u001b[0m \n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.44388e-05\tAbsError: 1.29327e+10\n", + " Region: \"zone_1\"\tRelError: 2.67541e-06\tAbsError: 8.73025e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.65031e-06\tAbsError: 7.36577e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.51027e-08\tAbsError: 8.72289e-06\n", + " Region: \"zone_3\"\tRelError: 1.17634e-05\tAbsError: 1.29327e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.52706e-07\tAbsError: 8.97101e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.39977e-07\tAbsError: 3.96172e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04456e-05\tAbsError: 7.66709e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.51079e-08\tAbsError: 8.72483e-06\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.86890e+00\tAbsError: 6.02920e+16\n", + " Region: \"zone_1\"\tRelError: 2.42910e-01\tAbsError: 2.38352e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.42317e-01\tAbsError: 3.27219e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.92373e-04\tAbsError: 2.05630e-01\n", + " Region: \"zone_3\"\tRelError: 1.62599e+00\tAbsError: 6.02920e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.58106e-01\tAbsError: 3.05392e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.16845e-01\tAbsError: 2.97528e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.50451e-01\tAbsError: 3.27220e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.92373e-04\tAbsError: 2.05630e-01\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:06\u001b[0m.\u001b[1;36m903\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.63125\u001b[0m \n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "number of equations 31816\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 7.21635e-06\tAbsError: 6.66070e+09\n", + " Region: \"zone_1\"\tRelError: 1.30608e-06\tAbsError: 5.92265e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28905e-06\tAbsError: 4.03393e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70320e-08\tAbsError: 5.91862e-06\n", + " Region: \"zone_3\"\tRelError: 5.91027e-06\tAbsError: 6.66070e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.61854e-07\tAbsError: 4.98332e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.27195e-07\tAbsError: 1.67738e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 5.20418e-06\tAbsError: 4.19235e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70346e-08\tAbsError: 5.91965e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:07\u001b[0m.\u001b[1;36m421\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.6\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.73275e+00\tAbsError: 2.68838e+16\n", + " Region: \"zone_1\"\tRelError: 1.92080e-01\tAbsError: 1.46306e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.91747e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.32681e-04\tAbsError: 1.15542e-01\n", + " Region: \"zone_3\"\tRelError: 1.54067e+00\tAbsError: 2.68838e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.36324e-01\tAbsError: 1.35736e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.01335e-01\tAbsError: 1.33102e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.02681e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.32681e-04\tAbsError: 1.15542e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.88825e+00\tAbsError: 3.66092e+16\n", + " Region: \"zone_1\"\tRelError: 5.83989e-01\tAbsError: 1.20812e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.83715e-01\tAbsError: 2.58680e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.73592e-04\tAbsError: 9.49436e-02\n", + " Region: \"zone_3\"\tRelError: 1.30426e+00\tAbsError: 3.66092e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.65737e-01\tAbsError: 1.87328e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.12024e-01\tAbsError: 1.78764e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 4.26225e-01\tAbsError: 2.44271e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.73592e-04\tAbsError: 9.49436e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.15149e+01\tAbsError: 5.17173e+16\n", + " Region: \"zone_1\"\tRelError: 9.68451e+00\tAbsError: 4.23844e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.68451e+00\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.76263e-09\tAbsError: 9.59637e-07\n", + " Region: \"zone_3\"\tRelError: 1.83044e+00\tAbsError: 5.17173e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80233e-01\tAbsError: 2.56822e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.79429e-01\tAbsError: 2.60351e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.70776e-01\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.76291e-09\tAbsError: 9.59736e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.41152e+01\tAbsError: 9.50503e+15\n", + " Region: \"zone_1\"\tRelError: 2.23613e+01\tAbsError: 4.22094e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.23613e+01\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.04249e-09\tAbsError: 3.62828e-07\n", + " Region: \"zone_3\"\tRelError: 1.75392e+00\tAbsError: 9.50503e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80082e-01\tAbsError: 5.07100e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.79909e-01\tAbsError: 4.43403e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.93931e-01\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.04297e-09\tAbsError: 3.63001e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.57743e+01\tAbsError: 8.48667e+15\n", + " Region: \"zone_1\"\tRelError: 1.40602e+01\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40602e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.57556e-10\tAbsError: 1.24451e-07\n", + " Region: \"zone_3\"\tRelError: 1.71408e+00\tAbsError: 8.48667e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69582e-01\tAbsError: 4.51146e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69441e-01\tAbsError: 3.97521e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.75053e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.57765e-10\tAbsError: 1.24526e-07\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.12307e+00\tAbsError: 1.60442e+16\n", + " Region: \"zone_1\"\tRelError: 1.49907e-01\tAbsError: 9.31426e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49713e-01\tAbsError: 2.58569e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93773e-04\tAbsError: 6.72856e-02\n", + " Region: \"zone_3\"\tRelError: 9.73164e-01\tAbsError: 1.60442e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39500e-01\tAbsError: 8.04160e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.83757e-01\tAbsError: 8.00261e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49713e-01\tAbsError: 2.43087e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93773e-04\tAbsError: 6.72856e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.05061e+00\tAbsError: 1.23556e+16\n", + " Region: \"zone_1\"\tRelError: 5.12291e-01\tAbsError: 5.29221e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.12172e-01\tAbsError: 1.17189e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18739e-04\tAbsError: 4.12032e-02\n", + " Region: \"zone_3\"\tRelError: 5.38316e-01\tAbsError: 1.23556e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.01621e-01\tAbsError: 6.29025e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.14930e-01\tAbsError: 6.06537e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.21646e-01\tAbsError: 1.17190e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18771e-04\tAbsError: 4.12145e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.84618e+00\tAbsError: 5.28715e+16\n", + " Region: \"zone_1\"\tRelError: 2.36818e-01\tAbsError: 2.22968e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.36269e-01\tAbsError: 3.24492e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.48791e-04\tAbsError: 1.90518e-01\n", + " Region: \"zone_3\"\tRelError: 1.60937e+00\tAbsError: 5.28715e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.54300e-01\tAbsError: 2.70880e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.18083e-01\tAbsError: 2.57835e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.36434e-01\tAbsError: 3.24492e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.48791e-04\tAbsError: 1.90518e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.85845e+00\tAbsError: 8.90679e+15\n", + " Region: \"zone_1\"\tRelError: 3.16258e-01\tAbsError: 8.25488e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.16114e-01\tAbsError: 3.22432e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.44787e-04\tAbsError: 5.03056e-02\n", + " Region: \"zone_3\"\tRelError: 1.54219e+00\tAbsError: 8.90679e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.57509e-01\tAbsError: 4.31699e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.26535e-01\tAbsError: 4.58980e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.57998e-01\tAbsError: 3.22433e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.44787e-04\tAbsError: 5.03056e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 4.55570e+00\tAbsError: 5.16331e+15\n", + " Region: \"zone_1\"\tRelError: 3.06111e+00\tAbsError: 6.97364e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.06100e+00\tAbsError: 3.07634e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12162e-04\tAbsError: 3.89730e-02\n", + " Region: \"zone_3\"\tRelError: 1.49459e+00\tAbsError: 5.16331e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38938e-01\tAbsError: 2.46191e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.11412e-01\tAbsError: 2.70140e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.44124e-01\tAbsError: 3.07634e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12162e-04\tAbsError: 3.89730e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.25010e-01\tAbsError: 4.83168e+15\n", + " Region: \"zone_1\"\tRelError: 9.35029e-02\tAbsError: 6.02167e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.33558e-02\tAbsError: 9.16529e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47066e-04\tAbsError: 5.10514e-02\n", + " Region: \"zone_3\"\tRelError: 3.31507e-01\tAbsError: 4.83168e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.74852e-01\tAbsError: 2.44485e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.96161e-02\tAbsError: 2.38683e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.68922e-02\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47066e-04\tAbsError: 5.10514e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.04879e-01\tAbsError: 2.54878e+15\n", + " Region: \"zone_1\"\tRelError: 1.27217e-02\tAbsError: 2.65399e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19572e-02\tAbsError: 3.55247e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.64526e-04\tAbsError: 2.65044e-01\n", + " Region: \"zone_3\"\tRelError: 9.21577e-02\tAbsError: 2.54878e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.96473e-02\tAbsError: 1.41994e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.63665e-02\tAbsError: 1.12884e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.53794e-02\tAbsError: 3.55247e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.64526e-04\tAbsError: 2.65044e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.52308e+00\tAbsError: 3.28495e+16\n", + " Region: \"zone_1\"\tRelError: 3.42407e-01\tAbsError: 1.19297e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.42138e-01\tAbsError: 2.58048e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69384e-04\tAbsError: 9.34920e-02\n", + " Region: \"zone_3\"\tRelError: 1.18068e+00\tAbsError: 3.28495e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.63948e-01\tAbsError: 1.69253e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.02911e-01\tAbsError: 1.59242e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.13548e-01\tAbsError: 2.45952e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69384e-04\tAbsError: 9.34920e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.17207e+00\tAbsError: 6.17482e+15\n", + " Region: \"zone_1\"\tRelError: 1.28422e-01\tAbsError: 3.49522e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28396e-01\tAbsError: 2.58694e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.61752e-05\tAbsError: 9.08277e-03\n", + " Region: \"zone_3\"\tRelError: 1.04365e+00\tAbsError: 6.17482e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.74587e-01\tAbsError: 3.00441e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.29308e-01\tAbsError: 3.17042e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39725e-01\tAbsError: 2.54349e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.70096e-05\tAbsError: 9.37260e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.13964e+00\tAbsError: 3.47644e+15\n", + " Region: \"zone_1\"\tRelError: 1.85284e-01\tAbsError: 3.50197e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.85258e-01\tAbsError: 2.58979e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.62526e-05\tAbsError: 9.12177e-03\n", + " Region: \"zone_3\"\tRelError: 9.54354e-01\tAbsError: 3.47644e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.46208e-01\tAbsError: 1.62778e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.89583e-01\tAbsError: 1.84866e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18536e-01\tAbsError: 2.53855e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.62526e-05\tAbsError: 9.12177e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.30868e-01\tAbsError: 1.08442e+15\n", + " Region: \"zone_1\"\tRelError: 2.27753e-02\tAbsError: 2.15920e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.21537e-02\tAbsError: 2.84606e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.21607e-04\tAbsError: 2.15635e-01\n", + " Region: \"zone_3\"\tRelError: 1.08092e-01\tAbsError: 1.08442e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.76472e-02\tAbsError: 4.26455e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.43864e-02\tAbsError: 6.57964e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.54371e-02\tAbsError: 2.84606e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.21607e-04\tAbsError: 2.15635e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.96665e-01\tAbsError: 5.16423e+14\n", + " Region: \"zone_1\"\tRelError: 3.51283e-01\tAbsError: 1.69820e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.51234e-01\tAbsError: 6.58454e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.87925e-05\tAbsError: 1.69161e-02\n", + " Region: \"zone_3\"\tRelError: 2.45382e-01\tAbsError: 5.16423e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.89150e-03\tAbsError: 2.57999e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.81653e-03\tAbsError: 2.58423e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.35626e-01\tAbsError: 7.03970e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.87939e-05\tAbsError: 1.69169e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 7.62225e-01\tAbsError: 1.05010e+16\n", + " Region: \"zone_1\"\tRelError: 2.83844e-01\tAbsError: 4.59930e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.83744e-01\tAbsError: 1.13358e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.98633e-05\tAbsError: 3.46572e-02\n", + " Region: \"zone_3\"\tRelError: 4.78382e-01\tAbsError: 1.05010e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.99385e-01\tAbsError: 5.29788e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.14439e-01\tAbsError: 5.20316e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.64458e-01\tAbsError: 1.13359e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.98633e-05\tAbsError: 3.46572e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 7.26645e-01\tAbsError: 2.15278e+15\n", + " Region: \"zone_1\"\tRelError: 3.31433e-01\tAbsError: 6.05991e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.31290e-01\tAbsError: 1.10534e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42795e-04\tAbsError: 4.95458e-02\n", + " Region: \"zone_3\"\tRelError: 3.95212e-01\tAbsError: 2.15278e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12816e-01\tAbsError: 1.12567e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.35891e-01\tAbsError: 1.02711e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 4.63622e-02\tAbsError: 1.10535e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42916e-04\tAbsError: 4.95873e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 8.24095e-01\tAbsError: 1.04537e+15\n", + " Region: \"zone_1\"\tRelError: 4.93544e-01\tAbsError: 2.65000e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.93494e-01\tAbsError: 9.16559e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.98913e-05\tAbsError: 1.73344e-02\n", + " Region: \"zone_3\"\tRelError: 3.30551e-01\tAbsError: 1.04537e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84640e-01\tAbsError: 5.55503e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10521e-01\tAbsError: 4.89866e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.53403e-02\tAbsError: 9.16565e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.98913e-05\tAbsError: 1.73344e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.55617e-01\tAbsError: 2.35794e+14\n", + " Region: \"zone_1\"\tRelError: 4.99367e-02\tAbsError: 1.38607e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.98970e-02\tAbsError: 6.98741e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.97528e-05\tAbsError: 1.37908e-02\n", + " Region: \"zone_3\"\tRelError: 1.05680e-01\tAbsError: 2.35794e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.27300e-03\tAbsError: 1.18548e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.21148e-03\tAbsError: 1.17246e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.51557e-02\tAbsError: 7.06637e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.97528e-05\tAbsError: 1.37908e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.15967e-01\tAbsError: 2.31425e+15\n", + " Region: \"zone_1\"\tRelError: 1.78760e-02\tAbsError: 2.59537e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.71284e-02\tAbsError: 3.48918e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.47562e-04\tAbsError: 2.59188e-01\n", + " Region: \"zone_3\"\tRelError: 9.80906e-02\tAbsError: 2.31425e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.02699e-02\tAbsError: 1.24901e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.64089e-02\tAbsError: 1.06525e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 3.06641e-02\tAbsError: 3.48918e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.47562e-04\tAbsError: 2.59188e-01\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.23535e-02\tAbsError: 4.12264e+13\n", + " Region: \"zone_1\"\tRelError: 4.26477e-02\tAbsError: 7.52812e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 4.26260e-02\tAbsError: 5.04964e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.16985e-05\tAbsError: 7.52307e-03\n", + " Region: \"zone_3\"\tRelError: 2.97057e-02\tAbsError: 4.12264e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.92264e-04\tAbsError: 2.07706e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.00613e-04\tAbsError: 2.04559e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88912e-02\tAbsError: 5.61722e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17073e-05\tAbsError: 7.52586e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.16517e-01\tAbsError: 3.59072e+14\n", + " Region: \"zone_1\"\tRelError: 2.25771e-02\tAbsError: 4.51359e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.24477e-02\tAbsError: 2.19008e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.29405e-04\tAbsError: 4.49169e-02\n", + " Region: \"zone_3\"\tRelError: 9.39396e-02\tAbsError: 3.59072e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.49211e-02\tAbsError: 2.04313e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.11023e-02\tAbsError: 1.54759e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77866e-02\tAbsError: 2.31053e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.29562e-04\tAbsError: 4.49702e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.23262e-02\tAbsError: 1.95138e+14\n", + " Region: \"zone_1\"\tRelError: 2.57438e-02\tAbsError: 3.23382e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.56511e-02\tAbsError: 1.67807e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.26701e-05\tAbsError: 3.21704e-02\n", + " Region: \"zone_3\"\tRelError: 6.65824e-02\tAbsError: 1.95138e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.49682e-02\tAbsError: 6.65802e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.06072e-03\tAbsError: 1.28558e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.46071e-03\tAbsError: 1.74923e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.26947e-05\tAbsError: 3.21777e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.12114e-02\tAbsError: 1.98754e+13\n", + " Region: \"zone_1\"\tRelError: 7.04172e-03\tAbsError: 6.58751e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.02275e-03\tAbsError: 5.51750e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.89733e-05\tAbsError: 6.58199e-03\n", + " Region: \"zone_3\"\tRelError: 1.41697e-02\tAbsError: 1.98754e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43525e-04\tAbsError: 1.00008e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.47254e-04\tAbsError: 9.87467e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.32599e-02\tAbsError: 5.78756e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.89775e-05\tAbsError: 6.58354e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.78541e-01\tAbsError: 4.65128e+14\n", + " Region: \"zone_1\"\tRelError: 1.82836e-01\tAbsError: 1.66511e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82788e-01\tAbsError: 6.74606e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.78290e-05\tAbsError: 1.65836e-02\n", + " Region: \"zone_3\"\tRelError: 1.95705e-01\tAbsError: 4.65128e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.02898e-03\tAbsError: 2.34869e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.93659e-03\tAbsError: 2.30259e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.85691e-01\tAbsError: 7.16761e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.78290e-05\tAbsError: 1.65838e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.63082e-02\tAbsError: 2.31107e+13\n", + " Region: \"zone_1\"\tRelError: 2.74677e-02\tAbsError: 9.69805e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.74649e-02\tAbsError: 2.62228e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.78862e-06\tAbsError: 9.67182e-04\n", + " Region: \"zone_3\"\tRelError: 1.88405e-02\tAbsError: 2.31107e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.28188e-04\tAbsError: 1.16873e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.22003e-04\tAbsError: 1.14235e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.83875e-02\tAbsError: 2.74324e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.78980e-06\tAbsError: 9.67608e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.42280e-02\tAbsError: 2.47518e+13\n", + " Region: \"zone_1\"\tRelError: 5.53796e-03\tAbsError: 6.73994e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.53607e-03\tAbsError: 1.69800e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.89289e-06\tAbsError: 6.57014e-04\n", + " Region: \"zone_3\"\tRelError: 1.86900e-02\tAbsError: 2.47518e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.53333e-03\tAbsError: 1.14134e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.39823e-03\tAbsError: 1.33384e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.57566e-02\tAbsError: 1.77535e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.89838e-06\tAbsError: 6.58918e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.13427e-02\tAbsError: 1.62210e+13\n", + " Region: \"zone_1\"\tRelError: 1.73710e-02\tAbsError: 1.21679e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.73676e-02\tAbsError: 1.36050e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.46587e-06\tAbsError: 1.20318e-03\n", + " Region: \"zone_3\"\tRelError: 1.39717e-02\tAbsError: 1.62210e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.19687e-03\tAbsError: 6.47584e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.09668e-03\tAbsError: 9.74512e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16747e-02\tAbsError: 1.39577e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.46587e-06\tAbsError: 1.20318e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.24258e-02\tAbsError: 1.10918e+13\n", + " Region: \"zone_1\"\tRelError: 4.12899e-03\tAbsError: 9.16825e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.12635e-03\tAbsError: 2.69238e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.63359e-06\tAbsError: 9.14133e-04\n", + " Region: \"zone_3\"\tRelError: 8.29681e-03\tAbsError: 1.10918e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.48339e-04\tAbsError: 5.58229e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.46113e-04\tAbsError: 5.50951e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.79972e-03\tAbsError: 2.89698e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.63458e-06\tAbsError: 9.14508e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.69761e-02\tAbsError: 3.74524e+13\n", + " Region: \"zone_1\"\tRelError: 2.29430e-02\tAbsError: 7.42886e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29216e-02\tAbsError: 5.18656e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.14100e-05\tAbsError: 7.42368e-03\n", + " Region: \"zone_3\"\tRelError: 2.40331e-02\tAbsError: 3.74524e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.05669e-04\tAbsError: 1.90492e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.13087e-04\tAbsError: 1.84032e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.31929e-02\tAbsError: 5.75912e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.14194e-05\tAbsError: 7.42671e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.70521e-04\tAbsError: 5.09113e+11\n", + " Region: \"zone_1\"\tRelError: 8.68892e-05\tAbsError: 1.38144e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 8.29133e-05\tAbsError: 4.07789e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.97587e-06\tAbsError: 1.38103e-03\n", + " Region: \"zone_3\"\tRelError: 2.83632e-04\tAbsError: 5.09113e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.08586e-05\tAbsError: 3.02120e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.47789e-05\tAbsError: 2.06993e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.44019e-04\tAbsError: 4.12158e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.97592e-06\tAbsError: 1.38107e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 7.66909e-03\tAbsError: 3.14704e+12\n", + " Region: \"zone_1\"\tRelError: 4.55516e-03\tAbsError: 4.55926e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.55385e-03\tAbsError: 3.50181e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.31037e-06\tAbsError: 4.55576e-04\n", + " Region: \"zone_3\"\tRelError: 3.11393e-03\tAbsError: 3.14704e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.10265e-05\tAbsError: 1.59250e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.05073e-05\tAbsError: 1.55454e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.05109e-03\tAbsError: 3.58954e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.31089e-06\tAbsError: 4.55760e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.53065e-03\tAbsError: 7.24481e+11\n", + " Region: \"zone_1\"\tRelError: 1.49459e-03\tAbsError: 1.07639e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49149e-03\tAbsError: 6.55190e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.09641e-06\tAbsError: 1.07573e-03\n", + " Region: \"zone_3\"\tRelError: 1.03606e-03\tAbsError: 7.24481e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73129e-05\tAbsError: 2.45596e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.81580e-05\tAbsError: 4.78885e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 9.37490e-04\tAbsError: 6.76708e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.09642e-06\tAbsError: 1.07576e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.18008e-03\tAbsError: 1.59787e+12\n", + " Region: \"zone_1\"\tRelError: 7.30404e-04\tAbsError: 4.14536e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.29211e-04\tAbsError: 3.64518e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19313e-06\tAbsError: 4.14171e-04\n", + " Region: \"zone_3\"\tRelError: 1.44968e-03\tAbsError: 1.59787e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.59026e-05\tAbsError: 8.02763e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.55751e-05\tAbsError: 7.95108e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37700e-03\tAbsError: 3.97752e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19336e-06\tAbsError: 4.14251e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.95048e-02\tAbsError: 2.09949e+13\n", + " Region: \"zone_1\"\tRelError: 1.44604e-02\tAbsError: 9.66419e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.44577e-02\tAbsError: 2.58958e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.77866e-06\tAbsError: 9.63829e-04\n", + " Region: \"zone_3\"\tRelError: 1.50444e-02\tAbsError: 2.09949e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.32276e-04\tAbsError: 1.06900e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.27944e-04\tAbsError: 1.03050e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.45814e-02\tAbsError: 2.79912e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.77982e-06\tAbsError: 9.64263e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.84577e-03\tAbsError: 1.35231e+12\n", + " Region: \"zone_1\"\tRelError: 4.49302e-04\tAbsError: 7.76287e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.49080e-04\tAbsError: 6.67565e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.21714e-07\tAbsError: 7.69611e-05\n", + " Region: \"zone_3\"\tRelError: 1.39647e-03\tAbsError: 1.35231e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.27210e-05\tAbsError: 6.77214e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.23713e-05\tAbsError: 6.75091e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.27115e-03\tAbsError: 6.82002e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.21783e-07\tAbsError: 7.69826e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 3.25810e-03\tAbsError: 1.38433e+12\n", + " Region: \"zone_1\"\tRelError: 1.93579e-03\tAbsError: 8.23265e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.93556e-03\tAbsError: 1.42317e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36383e-07\tAbsError: 8.21841e-05\n", + " Region: \"zone_3\"\tRelError: 1.32231e-03\tAbsError: 1.38433e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.38095e-05\tAbsError: 7.00620e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.33622e-05\tAbsError: 6.83707e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29490e-03\tAbsError: 1.51943e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36475e-07\tAbsError: 8.22170e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.69038e-03\tAbsError: 1.04370e+12\n", + " Region: \"zone_1\"\tRelError: 1.58975e-03\tAbsError: 1.04879e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.58945e-03\tAbsError: 5.38488e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.00336e-07\tAbsError: 1.04341e-04\n", + " Region: \"zone_3\"\tRelError: 1.10063e-03\tAbsError: 1.04370e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.23814e-05\tAbsError: 5.26651e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.22994e-05\tAbsError: 5.17045e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 9.95649e-04\tAbsError: 5.63224e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.00360e-07\tAbsError: 1.04351e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 9.04358e-04\tAbsError: 6.91618e+11\n", + " Region: \"zone_1\"\tRelError: 3.02587e-04\tAbsError: 7.78938e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.02363e-04\tAbsError: 1.55785e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.23501e-07\tAbsError: 7.77380e-05\n", + " Region: \"zone_3\"\tRelError: 6.01772e-04\tAbsError: 6.91618e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.55559e-05\tAbsError: 3.47877e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.53466e-05\tAbsError: 3.43741e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.70646e-04\tAbsError: 1.69595e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.23586e-07\tAbsError: 7.77681e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 6.48585e-04\tAbsError: 2.47337e+11\n", + " Region: \"zone_1\"\tRelError: 3.85704e-04\tAbsError: 3.12578e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.85614e-04\tAbsError: 2.70859e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.98278e-08\tAbsError: 3.12307e-05\n", + " Region: \"zone_3\"\tRelError: 2.62881e-04\tAbsError: 2.47337e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.45149e-06\tAbsError: 1.25219e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.39340e-06\tAbsError: 1.22119e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.57946e-04\tAbsError: 2.86540e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.98642e-08\tAbsError: 3.12442e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 4.92425e-03\tAbsError: 2.88808e+12\n", + " Region: \"zone_1\"\tRelError: 2.42079e-03\tAbsError: 4.51314e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.41950e-03\tAbsError: 3.48348e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.29703e-06\tAbsError: 4.50966e-04\n", + " Region: \"zone_3\"\tRelError: 2.50346e-03\tAbsError: 2.88808e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.20028e-05\tAbsError: 1.46758e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.15452e-05\tAbsError: 1.42050e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.43861e-03\tAbsError: 3.69507e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.29753e-06\tAbsError: 4.51145e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.59664e-04\tAbsError: 7.21850e+10\n", + " Region: \"zone_1\"\tRelError: 3.97219e-05\tAbsError: 8.40966e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.94799e-05\tAbsError: 4.48581e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.41963e-07\tAbsError: 8.40517e-05\n", + " Region: \"zone_3\"\tRelError: 1.19942e-04\tAbsError: 7.21850e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.84724e-06\tAbsError: 3.25063e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.88000e-06\tAbsError: 3.96787e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11972e-04\tAbsError: 4.54967e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.42049e-07\tAbsError: 8.40819e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.87260e-04\tAbsError: 1.29403e+11\n", + " Region: \"zone_1\"\tRelError: 6.28801e-05\tAbsError: 2.91909e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.27963e-05\tAbsError: 3.06059e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.38368e-08\tAbsError: 2.91603e-05\n", + " Region: \"zone_3\"\tRelError: 1.24379e-04\tAbsError: 1.29403e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91169e-06\tAbsError: 6.49895e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.87741e-06\tAbsError: 6.44135e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18506e-04\tAbsError: 3.32307e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.38700e-08\tAbsError: 2.91722e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.67954e-04\tAbsError: 1.01821e+11\n", + " Region: \"zone_1\"\tRelError: 2.21136e-04\tAbsError: 6.97280e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20936e-04\tAbsError: 5.57180e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.00534e-07\tAbsError: 6.96723e-05\n", + " Region: \"zone_3\"\tRelError: 1.46817e-04\tAbsError: 1.01821e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.39462e-06\tAbsError: 5.27392e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.41727e-06\tAbsError: 4.90816e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35805e-04\tAbsError: 5.79583e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.00607e-07\tAbsError: 6.96980e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 2.27080e-04\tAbsError: 8.95041e+10\n", + " Region: \"zone_1\"\tRelError: 1.35033e-04\tAbsError: 6.56420e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35014e-04\tAbsError: 9.85787e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.88520e-08\tAbsError: 6.55434e-06\n", + " Region: \"zone_3\"\tRelError: 9.20470e-05\tAbsError: 8.95041e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.93785e-07\tAbsError: 4.53123e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.63978e-07\tAbsError: 4.41918e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 9.02704e-05\tAbsError: 1.05718e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.88598e-08\tAbsError: 6.55724e-06\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.08379e-03\tAbsError: 1.26566e+12\n", + " Region: \"zone_1\"\tRelError: 1.02437e-03\tAbsError: 8.20169e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02414e-03\tAbsError: 1.43461e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.35475e-07\tAbsError: 8.18735e-05\n", + " Region: \"zone_3\"\tRelError: 1.05941e-03\tAbsError: 1.26566e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.41101e-05\tAbsError: 6.43548e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.37336e-05\tAbsError: 6.22113e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03133e-03\tAbsError: 1.56834e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.35568e-07\tAbsError: 8.19066e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.30527e-04\tAbsError: 8.36755e+10\n", + " Region: \"zone_1\"\tRelError: 3.21528e-05\tAbsError: 9.58256e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.21253e-05\tAbsError: 3.75795e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.74775e-08\tAbsError: 9.54498e-06\n", + " Region: \"zone_3\"\tRelError: 9.83741e-05\tAbsError: 8.36755e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.76469e-06\tAbsError: 4.69627e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.73544e-06\tAbsError: 3.67128e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 9.08464e-05\tAbsError: 3.83355e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.74857e-08\tAbsError: 9.54784e-06\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 6.51617e-05\tAbsError: 4.65398e+10\n", + " Region: \"zone_1\"\tRelError: 2.18609e-05\tAbsError: 6.36014e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.18427e-05\tAbsError: 1.11819e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.82534e-08\tAbsError: 6.34896e-06\n", + " Region: \"zone_3\"\tRelError: 4.33008e-05\tAbsError: 4.65398e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04809e-06\tAbsError: 2.33986e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03254e-06\tAbsError: 2.31412e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.12019e-05\tAbsError: 1.20844e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.82605e-08\tAbsError: 6.35150e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:21\u001b[0m.\u001b[1;36m511\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.8\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.02562e-04\tAbsError: 6.84436e+10\n", + " Region: \"zone_1\"\tRelError: 1.21040e-04\tAbsError: 1.06970e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21010e-04\tAbsError: 3.27450e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.06942e-08\tAbsError: 1.06642e-05\n", + " Region: \"zone_3\"\tRelError: 8.15214e-05\tAbsError: 6.84436e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.33271e-06\tAbsError: 3.86456e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.32148e-06\tAbsError: 2.97979e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.48365e-05\tAbsError: 3.43670e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.07019e-08\tAbsError: 1.06669e-05\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 5.05688e-05\tAbsError: 1.87400e+10\n", + " Region: \"zone_1\"\tRelError: 3.00855e-05\tAbsError: 2.16282e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.00793e-05\tAbsError: 2.13512e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.21457e-09\tAbsError: 2.16069e-06\n", + " Region: \"zone_3\"\tRelError: 2.04834e-05\tAbsError: 1.87400e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.86175e-07\tAbsError: 9.48899e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.81057e-07\tAbsError: 9.25103e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.01099e-05\tAbsError: 2.27669e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.21717e-09\tAbsError: 2.16162e-06\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 4.16846e-04\tAbsError: 2.27990e+11\n", + " Region: \"zone_1\"\tRelError: 2.05214e-04\tAbsError: 3.10681e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.05125e-04\tAbsError: 2.73539e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.92758e-08\tAbsError: 3.10408e-05\n", + " Region: \"zone_3\"\tRelError: 2.11632e-04\tAbsError: 2.27990e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.53498e-06\tAbsError: 1.15719e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.48133e-06\tAbsError: 1.12271e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06527e-04\tAbsError: 2.97043e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.93115e-08\tAbsError: 3.10540e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.86463e-05\tAbsError: 9.22316e+09\n", + " Region: \"zone_1\"\tRelError: 4.64280e-06\tAbsError: 5.64037e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.62657e-06\tAbsError: 4.63704e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62238e-08\tAbsError: 5.63573e-06\n", + " Region: \"zone_3\"\tRelError: 1.40035e-05\tAbsError: 9.22316e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.46099e-07\tAbsError: 5.22327e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.46153e-07\tAbsError: 3.99989e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.30950e-05\tAbsError: 4.73572e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62261e-08\tAbsError: 5.63655e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:22\u001b[0m.\u001b[1;36m518\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:22\u001b[0m.\u001b[1;36m518\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7374999999999999\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.67619e-05\tAbsError: 1.02422e+10\n", + " Region: \"zone_1\"\tRelError: 2.21445e-05\tAbsError: 4.91320e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.21303e-05\tAbsError: 5.33976e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41260e-08\tAbsError: 4.90786e-06\n", + " Region: \"zone_3\"\tRelError: 1.46175e-05\tAbsError: 1.02422e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.20200e-07\tAbsError: 5.93794e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.20801e-07\tAbsError: 4.30421e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35623e-05\tAbsError: 5.58038e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41284e-08\tAbsError: 4.90869e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:23\u001b[0m.\u001b[1;36m083\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.7000000000000001\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.97502e+01\tAbsError: 1.32808e+17\n", + " Region: \"zone_1\"\tRelError: 2.76074e+01\tAbsError: 4.09563e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.76074e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.00798e-09\tAbsError: 2.08971e-06\n", + " Region: \"zone_3\"\tRelError: 2.14284e+00\tAbsError: 1.32808e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.64512e-01\tAbsError: 6.68287e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.62033e-01\tAbsError: 6.59795e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.16298e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.01029e-09\tAbsError: 2.09057e-06\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.45746e-04\tAbsError: 8.22905e+10\n", + " Region: \"zone_1\"\tRelError: 7.17400e-05\tAbsError: 6.55605e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 7.17211e-05\tAbsError: 9.99739e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.88270e-08\tAbsError: 6.54605e-06\n", + " Region: \"zone_3\"\tRelError: 7.40064e-05\tAbsError: 8.22905e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.17218e-07\tAbsError: 4.18049e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.91845e-07\tAbsError: 4.04856e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.21785e-05\tAbsError: 1.09283e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.88347e-08\tAbsError: 6.54890e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.04546e+01\tAbsError: 4.76402e+16\n", + " Region: \"zone_1\"\tRelError: 1.86325e+01\tAbsError: 4.22100e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86325e+01\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.66022e-09\tAbsError: 9.24093e-07\n", + " Region: \"zone_3\"\tRelError: 1.82215e+00\tAbsError: 4.76402e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78912e-01\tAbsError: 2.36618e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.78161e-01\tAbsError: 2.39784e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.65074e-01\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.66050e-09\tAbsError: 9.24192e-07\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 3.25825e-05\tAbsError: 1.73376e+10\n", + " Region: \"zone_1\"\tRelError: 1.60497e-05\tAbsError: 2.15828e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.60435e-05\tAbsError: 2.16924e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.20100e-09\tAbsError: 2.15611e-06\n", + " Region: \"zone_3\"\tRelError: 1.65328e-05\tAbsError: 1.73376e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.93034e-07\tAbsError: 8.79661e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.88292e-07\tAbsError: 8.54099e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.61453e-05\tAbsError: 2.36237e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.20362e-09\tAbsError: 2.15705e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 8.61535e+00\tAbsError: 1.17905e+17\n", + " Region: \"zone_1\"\tRelError: 7.44285e-01\tAbsError: 3.38569e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 7.43397e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.87545e-04\tAbsError: 3.07806e-01\n", + " Region: \"zone_3\"\tRelError: 7.87107e+00\tAbsError: 1.17905e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17750e-01\tAbsError: 5.81639e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.67341e-01\tAbsError: 5.97408e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.58509e+00\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.87924e-04\tAbsError: 3.07944e-01\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:24\u001b[0m.\u001b[1;36m622\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:24\u001b[0m.\u001b[1;36m654\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: 0.85\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:24\u001b[0m.\u001b[1;36m656\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.0 bias\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:24\u001b[0m.\u001b[1;36m687\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.1\u001b[0m \n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 0\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 5.11982e+00\tAbsError: 2.71568e+16\n", + " Region: \"zone_1\"\tRelError: 3.35178e+00\tAbsError: 4.09552e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.35178e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.75560e-09\tAbsError: 9.57391e-07\n", + " Region: \"zone_3\"\tRelError: 1.76804e+00\tAbsError: 2.71568e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68907e-01\tAbsError: 1.36090e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.68433e-01\tAbsError: 1.35478e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.30705e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.75592e-09\tAbsError: 9.57503e-07\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.08204e+00\tAbsError: 4.87885e+16\n", + " Region: \"zone_1\"\tRelError: 4.80662e-01\tAbsError: 2.12907e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.80142e-01\tAbsError: 3.22431e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.20374e-04\tAbsError: 1.80664e-01\n", + " Region: \"zone_3\"\tRelError: 1.60138e+00\tAbsError: 4.87885e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.52649e-01\tAbsError: 2.49201e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.15413e-01\tAbsError: 2.38684e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.32794e-01\tAbsError: 3.22432e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.20374e-04\tAbsError: 1.80664e-01\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.28132e+02\tAbsError: 1.34002e+18\n", + " Region: \"zone_1\"\tRelError: 4.00745e+01\tAbsError: 8.44811e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.00745e+01\tAbsError: 8.44806e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43106e-09\tAbsError: 4.97552e-07\n", + " Region: \"zone_3\"\tRelError: 1.88058e+02\tAbsError: 1.34002e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 6.46807e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.21124e+02\tAbsError: 6.93209e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 5.79337e+01\tAbsError: 8.44807e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43165e-09\tAbsError: 4.97767e-07\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 6.05251e+00\tAbsError: 7.12298e+16\n", + " Region: \"zone_1\"\tRelError: 9.54106e-01\tAbsError: 5.37894e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.54025e-01\tAbsError: 2.58886e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.04593e-05\tAbsError: 2.79009e-02\n", + " Region: \"zone_3\"\tRelError: 5.09841e+00\tAbsError: 7.12298e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.89784e-01\tAbsError: 3.67872e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.99659e-01\tAbsError: 3.44425e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 4.40888e+00\tAbsError: 2.58912e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.04593e-05\tAbsError: 2.79009e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.73275e+00\tAbsError: 2.68838e+16\n", + " Region: \"zone_1\"\tRelError: 1.92080e-01\tAbsError: 1.46306e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.91747e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.32681e-04\tAbsError: 1.15542e-01\n", + " Region: \"zone_3\"\tRelError: 1.54067e+00\tAbsError: 2.68838e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.36324e-01\tAbsError: 1.35736e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.01335e-01\tAbsError: 1.33102e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.02681e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.32681e-04\tAbsError: 1.15542e-01\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.64105e+01\tAbsError: 2.59446e+17\n", + " Region: \"zone_1\"\tRelError: 2.00842e+01\tAbsError: 4.23839e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.00842e+01\tAbsError: 4.23834e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43343e-09\tAbsError: 4.98409e-07\n", + " Region: \"zone_3\"\tRelError: 6.32622e+00\tAbsError: 2.59446e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.70010e-01\tAbsError: 1.32083e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.64985e-01\tAbsError: 1.27363e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 4.79123e+00\tAbsError: 4.23835e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43403e-09\tAbsError: 4.98625e-07\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.37739e+00\tAbsError: 3.01043e+16\n", + " Region: \"zone_1\"\tRelError: 2.54827e-01\tAbsError: 1.16608e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.54565e-01\tAbsError: 2.57918e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.61657e-04\tAbsError: 9.08165e-02\n", + " Region: \"zone_3\"\tRelError: 1.12257e+00\tAbsError: 3.01043e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.61101e-01\tAbsError: 1.54576e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.03577e-01\tAbsError: 1.46466e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.57626e-01\tAbsError: 2.46829e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.61657e-04\tAbsError: 9.08165e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 7.68784e+01\tAbsError: 1.04367e+18\n", + " Region: \"zone_1\"\tRelError: 5.24013e+01\tAbsError: 5.04750e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.24001e+01\tAbsError: 8.10225e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22364e-03\tAbsError: 4.23727e-01\n", + " Region: \"zone_3\"\tRelError: 2.44771e+01\tAbsError: 1.04367e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 5.28959e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 5.14715e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 6.47589e+00\tAbsError: 8.10225e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22533e-03\tAbsError: 4.24299e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.96439e+00\tAbsError: 2.12374e+16\n", + " Region: \"zone_1\"\tRelError: 1.45967e+00\tAbsError: 2.87618e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.45886e+00\tAbsError: 9.16520e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03570e-04\tAbsError: 2.78453e-01\n", + " Region: \"zone_3\"\tRelError: 2.50473e+00\tAbsError: 2.12374e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.31487e-01\tAbsError: 1.07624e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.30649e-02\tAbsError: 1.04749e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.30937e+00\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03570e-04\tAbsError: 2.78453e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.12307e+00\tAbsError: 1.60442e+16\n", + " Region: \"zone_1\"\tRelError: 1.49907e-01\tAbsError: 9.31426e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49713e-01\tAbsError: 2.58569e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93773e-04\tAbsError: 6.72856e-02\n", + " Region: \"zone_3\"\tRelError: 9.73164e-01\tAbsError: 1.60442e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39500e-01\tAbsError: 8.04160e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.83757e-01\tAbsError: 8.00261e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49713e-01\tAbsError: 2.43087e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93773e-04\tAbsError: 6.72856e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.02422e+02\tAbsError: 2.63778e+17\n", + " Region: \"zone_1\"\tRelError: 1.85685e+01\tAbsError: 2.99586e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.85677e+01\tAbsError: 3.24491e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.70680e-04\tAbsError: 2.67137e-01\n", + " Region: \"zone_3\"\tRelError: 8.38537e+01\tAbsError: 2.63778e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.13259e-01\tAbsError: 1.33280e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.36876e-01\tAbsError: 1.30499e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 8.26028e+01\tAbsError: 3.24492e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.70680e-04\tAbsError: 2.67137e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 7.51142e-01\tAbsError: 9.33113e+15\n", + " Region: \"zone_1\"\tRelError: 3.05947e-01\tAbsError: 4.02202e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.05863e-01\tAbsError: 1.10524e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.40386e-05\tAbsError: 2.91677e-02\n", + " Region: \"zone_3\"\tRelError: 4.45195e-01\tAbsError: 9.33113e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.96551e-01\tAbsError: 4.72172e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.12941e-01\tAbsError: 4.60941e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35620e-01\tAbsError: 1.10525e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.40386e-05\tAbsError: 2.91677e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.75488e+03\tAbsError: 2.44334e+17\n", + " Region: \"zone_1\"\tRelError: 1.41546e+00\tAbsError: 3.55507e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40553e+00\tAbsError: 7.72108e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.93410e-03\tAbsError: 3.47786e+00\n", + " Region: \"zone_3\"\tRelError: 1.75347e+03\tAbsError: 2.44334e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.63420e+03\tAbsError: 1.25816e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.11660e+02\tAbsError: 1.18518e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 7.59442e+00\tAbsError: 7.72134e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.93410e-03\tAbsError: 3.47786e+00\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.06736e+00\tAbsError: 1.67079e+15\n", + " Region: \"zone_1\"\tRelError: 1.87002e-01\tAbsError: 2.94468e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86917e-01\tAbsError: 5.45669e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.47563e-05\tAbsError: 2.93922e-02\n", + " Region: \"zone_3\"\tRelError: 1.88036e+00\tAbsError: 1.67079e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95806e-02\tAbsError: 8.61655e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.32450e-03\tAbsError: 8.09135e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.85737e+00\tAbsError: 5.47236e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.50770e-05\tAbsError: 2.95046e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.25010e-01\tAbsError: 4.83168e+15\n", + " Region: \"zone_1\"\tRelError: 9.35029e-02\tAbsError: 6.02167e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.33558e-02\tAbsError: 9.16529e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47066e-04\tAbsError: 5.10514e-02\n", + " Region: \"zone_3\"\tRelError: 3.31507e-01\tAbsError: 4.83168e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.74852e-01\tAbsError: 2.44485e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.96161e-02\tAbsError: 2.38683e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.68922e-02\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47066e-04\tAbsError: 5.10514e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.63527e+01\tAbsError: 1.33800e+17\n", + " Region: \"zone_1\"\tRelError: 1.09015e+00\tAbsError: 1.41262e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08982e+00\tAbsError: 2.56418e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.33266e-04\tAbsError: 1.15620e-01\n", + " Region: \"zone_3\"\tRelError: 1.52625e+01\tAbsError: 1.33800e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.58876e-01\tAbsError: 6.72557e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.58560e-01\tAbsError: 6.65448e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.46448e+01\tAbsError: 2.58450e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.33331e-04\tAbsError: 1.15642e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.33797e-01\tAbsError: 2.13738e+15\n", + " Region: \"zone_1\"\tRelError: 3.22000e-02\tAbsError: 2.54939e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.14658e-02\tAbsError: 3.42748e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.34268e-04\tAbsError: 2.54597e-01\n", + " Region: \"zone_3\"\tRelError: 1.01597e-01\tAbsError: 2.13738e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.03029e-02\tAbsError: 1.12451e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.62975e-02\tAbsError: 1.01287e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 3.42622e-02\tAbsError: 3.42748e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.34268e-04\tAbsError: 2.54597e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.18948e+02\tAbsError: 4.94328e+16\n", + " Region: \"zone_1\"\tRelError: 5.73987e+00\tAbsError: 1.84809e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.73478e+00\tAbsError: 7.29586e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.09631e-03\tAbsError: 1.77513e+00\n", + " Region: \"zone_3\"\tRelError: 1.13208e+02\tAbsError: 4.94328e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.23685e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03096e+02\tAbsError: 2.70644e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10704e+00\tAbsError: 7.29586e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.09631e-03\tAbsError: 1.77513e+00\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.99757e-02\tAbsError: 6.03219e+13\n", + " Region: \"zone_1\"\tRelError: 5.28092e-03\tAbsError: 6.07421e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.26342e-03\tAbsError: 6.43272e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75062e-05\tAbsError: 6.06778e-03\n", + " Region: \"zone_3\"\tRelError: 2.46948e-02\tAbsError: 6.03219e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52421e-04\tAbsError: 2.92320e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.21852e-04\tAbsError: 3.10899e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.41030e-02\tAbsError: 6.47112e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75095e-05\tAbsError: 6.06885e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.30868e-01\tAbsError: 1.08442e+15\n", + " Region: \"zone_1\"\tRelError: 2.27753e-02\tAbsError: 2.15920e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.21537e-02\tAbsError: 2.84606e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.21607e-04\tAbsError: 2.15635e-01\n", + " Region: \"zone_3\"\tRelError: 1.08092e-01\tAbsError: 1.08442e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.76472e-02\tAbsError: 4.26455e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.43864e-02\tAbsError: 6.57964e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.54371e-02\tAbsError: 2.84606e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.21607e-04\tAbsError: 2.15635e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.85212e+00\tAbsError: 2.60146e+16\n", + " Region: \"zone_1\"\tRelError: 1.52146e-01\tAbsError: 2.92736e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51334e-01\tAbsError: 1.13356e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.12031e-04\tAbsError: 2.81400e-01\n", + " Region: \"zone_3\"\tRelError: 2.69997e+00\tAbsError: 2.60146e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.83870e-02\tAbsError: 1.30339e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.80323e-02\tAbsError: 1.29807e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.56274e+00\tAbsError: 1.13359e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.12031e-04\tAbsError: 2.81400e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.09062e-01\tAbsError: 4.29859e+14\n", + " Region: \"zone_1\"\tRelError: 1.36304e-01\tAbsError: 1.63400e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.36257e-01\tAbsError: 6.84743e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.69255e-05\tAbsError: 1.62715e-02\n", + " Region: \"zone_3\"\tRelError: 1.72757e-01\tAbsError: 4.29859e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.11437e-03\tAbsError: 2.18144e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.01341e-03\tAbsError: 2.11715e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.62583e-01\tAbsError: 7.23727e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.69255e-05\tAbsError: 1.62715e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.23517e+03\tAbsError: 7.85419e+15\n", + " Region: \"zone_1\"\tRelError: 2.90624e+00\tAbsError: 9.08322e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.90382e+00\tAbsError: 6.81818e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.41775e-03\tAbsError: 8.40141e-01\n", + " Region: \"zone_3\"\tRelError: 1.23227e+03\tAbsError: 7.85419e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.21294e+02\tAbsError: 4.15991e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.10398e+02\tAbsError: 3.69428e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.73661e-01\tAbsError: 6.81819e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.41775e-03\tAbsError: 8.40141e-01\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.10405e-01\tAbsError: 3.12560e+13\n", + " Region: \"zone_1\"\tRelError: 1.08840e-02\tAbsError: 4.61195e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08827e-02\tAbsError: 1.71511e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32204e-06\tAbsError: 4.59479e-04\n", + " Region: \"zone_3\"\tRelError: 9.95213e-02\tAbsError: 3.12560e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34947e-04\tAbsError: 1.52362e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.27748e-04\tAbsError: 1.60198e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.92573e-02\tAbsError: 1.72813e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32271e-06\tAbsError: 4.59705e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.55617e-01\tAbsError: 2.35794e+14\n", + " Region: \"zone_1\"\tRelError: 4.99367e-02\tAbsError: 1.38607e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.98970e-02\tAbsError: 6.98741e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.97528e-05\tAbsError: 1.37908e-02\n", + " Region: \"zone_3\"\tRelError: 1.05680e-01\tAbsError: 2.35794e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.27300e-03\tAbsError: 1.18548e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.21148e-03\tAbsError: 1.17246e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.51557e-02\tAbsError: 7.06637e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.97528e-05\tAbsError: 1.37908e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.37163e-01\tAbsError: 2.74535e+15\n", + " Region: \"zone_1\"\tRelError: 4.29834e-02\tAbsError: 3.88215e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.28716e-02\tAbsError: 5.15121e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11776e-04\tAbsError: 3.87699e-02\n", + " Region: \"zone_3\"\tRelError: 5.94179e-01\tAbsError: 2.74535e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.22686e-02\tAbsError: 1.41321e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.01916e-03\tAbsError: 1.33214e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.79780e-01\tAbsError: 5.22069e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11776e-04\tAbsError: 3.87699e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.88220e-02\tAbsError: 3.48889e+13\n", + " Region: \"zone_1\"\tRelError: 1.73872e-02\tAbsError: 7.35021e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.73660e-02\tAbsError: 5.27671e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.11825e-05\tAbsError: 7.34493e-03\n", + " Region: \"zone_3\"\tRelError: 2.14348e-02\tAbsError: 3.48889e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.14000e-04\tAbsError: 1.77623e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.20581e-04\tAbsError: 1.71267e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.05790e-02\tAbsError: 5.82302e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.11913e-05\tAbsError: 7.34810e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.76205e+03\tAbsError: 5.21427e+15\n", + " Region: \"zone_1\"\tRelError: 2.12718e+00\tAbsError: 1.73590e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.12686e+00\tAbsError: 6.27474e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.18881e-04\tAbsError: 1.10843e-01\n", + " Region: \"zone_3\"\tRelError: 1.75993e+03\tAbsError: 5.21427e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.86052e+01\tAbsError: 3.34252e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.73093e+03\tAbsError: 1.87175e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 3.93221e-01\tAbsError: 6.27475e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.18881e-04\tAbsError: 1.10843e-01\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.63047e-03\tAbsError: 9.09027e+11\n", + " Region: \"zone_1\"\tRelError: 4.56990e-04\tAbsError: 3.44629e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.55999e-04\tAbsError: 1.41300e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.91190e-07\tAbsError: 3.44488e-04\n", + " Region: \"zone_3\"\tRelError: 4.17348e-03\tAbsError: 9.09027e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.33335e-06\tAbsError: 4.38047e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.02288e-05\tAbsError: 4.70980e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.15793e-03\tAbsError: 1.42246e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.91601e-07\tAbsError: 3.44637e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.12114e-02\tAbsError: 1.98754e+13\n", + " Region: \"zone_1\"\tRelError: 7.04172e-03\tAbsError: 6.58751e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.02275e-03\tAbsError: 5.51750e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.89733e-05\tAbsError: 6.58199e-03\n", + " Region: \"zone_3\"\tRelError: 1.41697e-02\tAbsError: 1.98754e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43525e-04\tAbsError: 1.00008e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.47254e-04\tAbsError: 9.87467e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.32599e-02\tAbsError: 5.78756e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.89775e-05\tAbsError: 6.58354e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 8.12610e-03\tAbsError: 1.23500e+14\n", + " Region: \"zone_1\"\tRelError: 9.58048e-04\tAbsError: 4.98507e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 9.43691e-04\tAbsError: 9.96836e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43564e-05\tAbsError: 4.97510e-03\n", + " Region: \"zone_3\"\tRelError: 7.16806e-03\tAbsError: 1.23500e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.59288e-04\tAbsError: 6.07343e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.92957e-04\tAbsError: 6.27659e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.60145e-03\tAbsError: 1.00518e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43584e-05\tAbsError: 4.97565e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.41308e-02\tAbsError: 1.96068e+13\n", + " Region: \"zone_1\"\tRelError: 1.08376e-02\tAbsError: 9.63415e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08348e-02\tAbsError: 2.59318e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.76972e-06\tAbsError: 9.60822e-04\n", + " Region: \"zone_3\"\tRelError: 1.32932e-02\tAbsError: 1.96068e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.35702e-04\tAbsError: 9.96822e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.31894e-04\tAbsError: 9.63862e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28228e-02\tAbsError: 2.83052e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.77088e-06\tAbsError: 9.61249e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.14565e+04\tAbsError: 9.14413e+14\n", + " Region: \"zone_1\"\tRelError: 1.39595e-01\tAbsError: 7.87478e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39531e-01\tAbsError: 5.64826e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.40500e-05\tAbsError: 2.22652e-02\n", + " Region: \"zone_3\"\tRelError: 1.14564e+04\tAbsError: 9.14413e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33345e+02\tAbsError: 5.59104e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.13229e+04\tAbsError: 3.55309e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.59181e-02\tAbsError: 5.64827e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.40500e-05\tAbsError: 2.22652e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.49771e-03\tAbsError: 1.64940e+12\n", + " Region: \"zone_1\"\tRelError: 6.42053e-04\tAbsError: 1.77929e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.42002e-04\tAbsError: 9.99896e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.09050e-08\tAbsError: 1.76929e-05\n", + " Region: \"zone_3\"\tRelError: 5.85566e-03\tAbsError: 1.64940e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.16109e-06\tAbsError: 8.03293e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.70130e-06\tAbsError: 8.46106e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.84174e-03\tAbsError: 1.00703e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.09341e-08\tAbsError: 1.77035e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.24258e-02\tAbsError: 1.10918e+13\n", + " Region: \"zone_1\"\tRelError: 4.12899e-03\tAbsError: 9.16825e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.12635e-03\tAbsError: 2.69238e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.63359e-06\tAbsError: 9.14133e-04\n", + " Region: \"zone_3\"\tRelError: 8.29681e-03\tAbsError: 1.10918e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.48339e-04\tAbsError: 5.58229e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.46113e-04\tAbsError: 5.50951e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.79972e-03\tAbsError: 2.89698e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.63458e-06\tAbsError: 9.14508e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.19304e-02\tAbsError: 3.37625e+13\n", + " Region: \"zone_1\"\tRelError: 2.21148e-03\tAbsError: 9.26970e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20882e-03\tAbsError: 1.29677e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.66313e-06\tAbsError: 9.25674e-04\n", + " Region: \"zone_3\"\tRelError: 2.97189e-02\tAbsError: 3.37625e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.98425e-05\tAbsError: 1.66919e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.50345e-05\tAbsError: 1.70706e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.95814e-02\tAbsError: 1.31036e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.66438e-06\tAbsError: 9.26102e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 4.04917e-03\tAbsError: 2.71056e+12\n", + " Region: \"zone_1\"\tRelError: 1.82570e-03\tAbsError: 4.47863e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82441e-03\tAbsError: 3.48647e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.28704e-06\tAbsError: 4.47514e-04\n", + " Region: \"zone_3\"\tRelError: 2.22347e-03\tAbsError: 2.71056e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.27242e-05\tAbsError: 1.37539e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.22424e-05\tAbsError: 1.33517e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.15721e-03\tAbsError: 3.75577e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.28753e-06\tAbsError: 4.47690e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 6.80714e+02\tAbsError: 5.90884e+14\n", + " Region: \"zone_1\"\tRelError: 1.77888e-01\tAbsError: 6.36192e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77846e-01\tAbsError: 4.91583e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.16492e-05\tAbsError: 1.44608e-02\n", + " Region: \"zone_3\"\tRelError: 6.80536e+02\tAbsError: 5.90884e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.80589e+02\tAbsError: 3.66469e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.99871e+02\tAbsError: 2.24415e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.58870e-02\tAbsError: 4.91584e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.16492e-05\tAbsError: 1.44608e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 5.44825e-04\tAbsError: 5.87780e+10\n", + " Region: \"zone_1\"\tRelError: 5.39394e-05\tAbsError: 2.02429e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.38812e-05\tAbsError: 6.87611e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.82246e-08\tAbsError: 2.02360e-05\n", + " Region: \"zone_3\"\tRelError: 4.90886e-04\tAbsError: 5.87780e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.46411e-07\tAbsError: 2.85251e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.30809e-07\tAbsError: 3.02529e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.90250e-04\tAbsError: 6.91269e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.82487e-08\tAbsError: 2.02448e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.18008e-03\tAbsError: 1.59787e+12\n", + " Region: \"zone_1\"\tRelError: 7.30404e-04\tAbsError: 4.14536e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.29211e-04\tAbsError: 3.64518e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19313e-06\tAbsError: 4.14171e-04\n", + " Region: \"zone_3\"\tRelError: 1.44968e-03\tAbsError: 1.59787e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.59026e-05\tAbsError: 8.02763e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.55751e-05\tAbsError: 7.95108e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37700e-03\tAbsError: 3.97752e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19336e-06\tAbsError: 4.14251e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.90227e-04\tAbsError: 3.92351e+12\n", + " Region: \"zone_1\"\tRelError: 2.72528e-05\tAbsError: 2.64592e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.64923e-05\tAbsError: 2.92098e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.60517e-07\tAbsError: 2.64299e-04\n", + " Region: \"zone_3\"\tRelError: 1.62974e-04\tAbsError: 3.92351e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.77297e-06\tAbsError: 1.93410e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.01457e-05\tAbsError: 1.98941e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43295e-04\tAbsError: 2.94818e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.60830e-07\tAbsError: 2.64413e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.70902e-03\tAbsError: 1.18602e+12\n", + " Region: \"zone_1\"\tRelError: 7.70426e-04\tAbsError: 8.17764e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.70191e-04\tAbsError: 1.44392e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.34769e-07\tAbsError: 8.16320e-05\n", + " Region: \"zone_3\"\tRelError: 9.38599e-04\tAbsError: 1.18602e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43307e-05\tAbsError: 6.02246e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.40177e-05\tAbsError: 5.83770e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 9.10015e-04\tAbsError: 1.60170e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.34863e-07\tAbsError: 8.16654e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.92595e-04\tAbsError: 9.49473e+10\n", + " Region: \"zone_1\"\tRelError: 3.87978e-05\tAbsError: 2.02444e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.87920e-05\tAbsError: 5.96621e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.80757e-09\tAbsError: 2.01847e-06\n", + " Region: \"zone_3\"\tRelError: 3.53797e-04\tAbsError: 9.49473e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.10989e-07\tAbsError: 4.62324e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.83783e-07\tAbsError: 4.87150e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.52997e-04\tAbsError: 6.00786e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.81025e-09\tAbsError: 2.01943e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.62289e+03\tAbsError: 1.35295e+14\n", + " Region: \"zone_1\"\tRelError: 5.75586e-02\tAbsError: 5.58816e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.75143e-02\tAbsError: 4.04895e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.43294e-05\tAbsError: 1.53921e-02\n", + " Region: \"zone_3\"\tRelError: 6.62283e+03\tAbsError: 1.35295e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.47649e+03\tAbsError: 7.04604e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.14628e+03\tAbsError: 6.48349e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.78569e-02\tAbsError: 4.04896e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.43426e-05\tAbsError: 1.53969e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 9.04358e-04\tAbsError: 6.91618e+11\n", + " Region: \"zone_1\"\tRelError: 3.02587e-04\tAbsError: 7.78938e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.02363e-04\tAbsError: 1.55785e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.23501e-07\tAbsError: 7.77380e-05\n", + " Region: \"zone_3\"\tRelError: 6.01772e-04\tAbsError: 6.91618e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.55559e-05\tAbsError: 3.47877e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.53466e-05\tAbsError: 3.43741e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.70646e-04\tAbsError: 1.69595e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.23586e-07\tAbsError: 7.77681e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.75434e-03\tAbsError: 1.68359e+12\n", + " Region: \"zone_1\"\tRelError: 1.21747e-04\tAbsError: 2.56631e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21674e-04\tAbsError: 7.10609e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.36274e-08\tAbsError: 2.55920e-05\n", + " Region: \"zone_3\"\tRelError: 1.63259e-03\tAbsError: 1.68359e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.52476e-06\tAbsError: 8.33155e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.22622e-06\tAbsError: 8.50439e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.62577e-03\tAbsError: 7.17605e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.36655e-08\tAbsError: 2.56055e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.43139e-04\tAbsError: 2.14557e+11\n", + " Region: \"zone_1\"\tRelError: 1.54959e-04\tAbsError: 3.09318e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.54870e-04\tAbsError: 2.76396e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.88786e-08\tAbsError: 3.09042e-05\n", + " Region: \"zone_3\"\tRelError: 1.88179e-04\tAbsError: 2.14557e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.59423e-06\tAbsError: 1.08761e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.54319e-06\tAbsError: 1.05796e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82953e-04\tAbsError: 3.04381e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.89137e-08\tAbsError: 3.09172e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 5.03275e-05\tAbsError: 9.08763e+09\n", + " Region: \"zone_1\"\tRelError: 4.97773e-06\tAbsError: 1.23989e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.97416e-06\tAbsError: 6.85123e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.56554e-09\tAbsError: 1.23921e-06\n", + " Region: \"zone_3\"\tRelError: 4.53497e-05\tAbsError: 9.08763e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.78500e-08\tAbsError: 4.42118e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.59273e-08\tAbsError: 4.66645e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 4.52724e-05\tAbsError: 6.89457e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.56702e-09\tAbsError: 1.23975e-06\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.07738e+00\tAbsError: 5.24938e+13\n", + " Region: \"zone_1\"\tRelError: 4.20260e-02\tAbsError: 5.38334e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.19580e-02\tAbsError: 3.02166e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.80118e-05\tAbsError: 2.36168e-02\n", + " Region: \"zone_3\"\tRelError: 2.03535e+00\tAbsError: 5.24938e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99267e-01\tAbsError: 7.06322e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.93883e-01\tAbsError: 4.54306e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.21368e-02\tAbsError: 3.02167e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.80118e-05\tAbsError: 2.36168e-02\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.87260e-04\tAbsError: 1.29403e+11\n", + " Region: \"zone_1\"\tRelError: 6.28801e-05\tAbsError: 2.91909e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.27963e-05\tAbsError: 3.06059e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.38368e-08\tAbsError: 2.91603e-05\n", + " Region: \"zone_3\"\tRelError: 1.24379e-04\tAbsError: 1.29403e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91169e-06\tAbsError: 6.49895e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.87741e-06\tAbsError: 6.44135e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18506e-04\tAbsError: 3.32307e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.38700e-08\tAbsError: 2.91722e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.80245e-05\tAbsError: 9.30200e+10\n", + " Region: \"zone_1\"\tRelError: 3.43660e-06\tAbsError: 1.44112e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.39515e-06\tAbsError: 7.79802e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14454e-08\tAbsError: 1.44034e-05\n", + " Region: \"zone_3\"\tRelError: 4.45879e-05\tAbsError: 9.30200e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.20234e-07\tAbsError: 4.57981e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.97102e-07\tAbsError: 4.72219e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.39291e-05\tAbsError: 7.86903e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.14632e-08\tAbsError: 1.44099e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.19883e-04\tAbsError: 7.73891e+10\n", + " Region: \"zone_1\"\tRelError: 5.41255e-05\tAbsError: 6.55072e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.41067e-05\tAbsError: 1.00869e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.88105e-08\tAbsError: 6.54063e-06\n", + " Region: \"zone_3\"\tRelError: 6.57577e-05\tAbsError: 7.73891e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.36349e-07\tAbsError: 3.92657e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.13567e-07\tAbsError: 3.81234e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 6.38890e-05\tAbsError: 1.11778e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.88181e-08\tAbsError: 6.54345e-06\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.81503e+00\tAbsError: 4.93850e+13\n", + " Region: \"zone_1\"\tRelError: 3.33651e-02\tAbsError: 5.43994e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.32830e-02\tAbsError: 2.58915e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.20906e-05\tAbsError: 2.85079e-02\n", + " Region: \"zone_3\"\tRelError: 2.78166e+00\tAbsError: 4.93850e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.72297e+00\tAbsError: 8.45730e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.53292e-02\tAbsError: 4.09277e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.32830e-02\tAbsError: 2.51005e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.20906e-05\tAbsError: 2.85079e-02\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 6.51617e-05\tAbsError: 4.65398e+10\n", + " Region: \"zone_1\"\tRelError: 2.18609e-05\tAbsError: 6.36014e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.18427e-05\tAbsError: 1.11819e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.82534e-08\tAbsError: 6.34896e-06\n", + " Region: \"zone_3\"\tRelError: 4.33008e-05\tAbsError: 4.65398e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04809e-06\tAbsError: 2.33986e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03254e-06\tAbsError: 2.31412e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.12019e-05\tAbsError: 1.20844e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.82605e-08\tAbsError: 6.35150e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:39\u001b[0m.\u001b[1;36m943\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.8\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 2.68795e-05\tAbsError: 1.63620e+10\n", + " Region: \"zone_1\"\tRelError: 1.21466e-05\tAbsError: 2.15576e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21404e-05\tAbsError: 2.19556e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.19338e-09\tAbsError: 2.15356e-06\n", + " Region: \"zone_3\"\tRelError: 1.47329e-05\tAbsError: 1.63620e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98044e-07\tAbsError: 8.29145e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.93539e-07\tAbsError: 8.07050e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43351e-05\tAbsError: 2.42330e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.19602e-09\tAbsError: 2.15451e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:40\u001b[0m.\u001b[1;36m358\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.84375\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 6.22571e-01\tAbsError: 4.56857e+14\n", + " Region: \"zone_1\"\tRelError: 1.62060e-02\tAbsError: 1.05814e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.59258e-02\tAbsError: 8.53133e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.80210e-04\tAbsError: 9.72823e-02\n", + " Region: \"zone_3\"\tRelError: 6.06365e-01\tAbsError: 4.56857e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.73228e-01\tAbsError: 1.16314e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.46418e-03\tAbsError: 4.45226e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.53932e-02\tAbsError: 8.53142e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.80210e-04\tAbsError: 9.72823e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:40\u001b[0m.\u001b[1;36m916\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:40\u001b[0m.\u001b[1;36m958\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.05 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:40\u001b[0m.\u001b[1;36m999\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.97502e+01\tAbsError: 1.32808e+17\n", + " Region: \"zone_1\"\tRelError: 2.76074e+01\tAbsError: 4.09563e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.76074e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.00798e-09\tAbsError: 2.08971e-06\n", + " Region: \"zone_3\"\tRelError: 2.14284e+00\tAbsError: 1.32808e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.64512e-01\tAbsError: 6.68287e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.62033e-01\tAbsError: 6.59795e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.16298e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.01029e-09\tAbsError: 2.09057e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:41\u001b[0m.\u001b[1;36m721\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:41\u001b[0m.\u001b[1;36m771\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.1 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:41\u001b[0m.\u001b[1;36m807\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 2.43642e-01\tAbsError: 4.53193e+14\n", + " Region: \"zone_1\"\tRelError: 3.32872e-02\tAbsError: 1.60168e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.28268e-02\tAbsError: 2.34656e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.60457e-04\tAbsError: 1.59933e-01\n", + " Region: \"zone_3\"\tRelError: 2.10355e-01\tAbsError: 4.53193e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.41955e-01\tAbsError: 2.34411e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.91718e-03\tAbsError: 4.29752e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.20225e-02\tAbsError: 2.41034e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.60457e-04\tAbsError: 1.59933e-01\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.05327e+02\tAbsError: 2.40340e+17\n", + " Region: \"zone_1\"\tRelError: 8.42457e+01\tAbsError: 4.22095e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.42457e+01\tAbsError: 4.22090e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43581e-09\tAbsError: 4.99261e-07\n", + " Region: \"zone_3\"\tRelError: 2.10810e+01\tAbsError: 2.40340e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69705e-01\tAbsError: 1.22173e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.65105e-01\tAbsError: 1.18167e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.95462e+01\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43642e-09\tAbsError: 4.99480e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.41602e+03\tAbsError: 3.06873e+18\n", + " Region: \"zone_1\"\tRelError: 1.78720e+03\tAbsError: 8.63291e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.78720e+03\tAbsError: 8.63289e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.16236e-10\tAbsError: 1.79418e-07\n", + " Region: \"zone_3\"\tRelError: 6.28825e+02\tAbsError: 3.06873e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.49638e+01\tAbsError: 1.38375e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.90759e+02\tAbsError: 1.68499e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 2.23103e+02\tAbsError: 8.63291e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.16460e-10\tAbsError: 1.79501e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 9.37033e+02\tAbsError: 4.27377e+18\n", + " Region: \"zone_1\"\tRelError: 3.36757e+02\tAbsError: 8.80545e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.36757e+02\tAbsError: 8.80540e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.28124e-09\tAbsError: 4.45311e-07\n", + " Region: \"zone_3\"\tRelError: 6.00276e+02\tAbsError: 4.27377e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.41012e+02\tAbsError: 2.14036e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.34799e+02\tAbsError: 2.13341e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 2.24465e+02\tAbsError: 8.80543e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.28210e-09\tAbsError: 4.45624e-07\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 8.61535e+00\tAbsError: 1.17905e+17\n", + " Region: \"zone_1\"\tRelError: 7.44285e-01\tAbsError: 3.38569e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 7.43397e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.87545e-04\tAbsError: 3.07806e-01\n", + " Region: \"zone_3\"\tRelError: 7.87107e+00\tAbsError: 1.17905e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17750e-01\tAbsError: 5.81639e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.67341e-01\tAbsError: 5.97408e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.58509e+00\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.87924e-04\tAbsError: 3.07944e-01\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 9.86343e-02\tAbsError: 8.08179e+13\n", + " Region: \"zone_1\"\tRelError: 2.27654e-02\tAbsError: 5.27781e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.27505e-02\tAbsError: 1.02870e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.48829e-05\tAbsError: 5.17494e-03\n", + " Region: \"zone_3\"\tRelError: 7.58690e-02\tAbsError: 8.08179e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.13342e-02\tAbsError: 2.81884e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10914e-02\tAbsError: 5.26295e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.34284e-02\tAbsError: 1.03806e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.48829e-05\tAbsError: 5.17494e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.09455e+01\tAbsError: 2.40473e+17\n", + " Region: \"zone_1\"\tRelError: 4.86841e+00\tAbsError: 3.09883e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.86761e+00\tAbsError: 3.22430e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.00931e-04\tAbsError: 2.77640e-01\n", + " Region: \"zone_3\"\tRelError: 6.07711e+00\tAbsError: 2.40473e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.15444e-01\tAbsError: 1.20661e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.41229e-01\tAbsError: 1.19812e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 4.81963e+00\tAbsError: 3.22432e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.00931e-04\tAbsError: 2.77640e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.09721e+02\tAbsError: 2.60473e+18\n", + " Region: \"zone_1\"\tRelError: 7.91237e+01\tAbsError: 5.60850e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 7.91223e+01\tAbsError: 8.30497e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.38072e-03\tAbsError: 4.77800e-01\n", + " Region: \"zone_3\"\tRelError: 3.05977e+01\tAbsError: 2.60473e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.22649e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.37824e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 1.25964e+01\tAbsError: 8.30498e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.38072e-03\tAbsError: 4.77800e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.87054e+02\tAbsError: 3.69608e+18\n", + " Region: \"zone_1\"\tRelError: 2.66785e+01\tAbsError: 9.63796e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.66760e+01\tAbsError: 8.49343e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.53527e-03\tAbsError: 8.78861e-01\n", + " Region: \"zone_3\"\tRelError: 1.60376e+02\tAbsError: 3.69608e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.85943e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.43347e+01\tAbsError: 1.83665e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 9.70387e+01\tAbsError: 8.49344e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.53674e-03\tAbsError: 8.79382e-01\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 1.20075e-02\tAbsError: 5.18518e+12\n", + " Region: \"zone_1\"\tRelError: 3.52721e-03\tAbsError: 5.58056e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.51116e-03\tAbsError: 3.17947e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60410e-05\tAbsError: 5.57738e-03\n", + " Region: \"zone_3\"\tRelError: 8.48034e-03\tAbsError: 5.18518e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.41100e-04\tAbsError: 2.88203e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.22185e-04\tAbsError: 2.30315e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.60101e-03\tAbsError: 3.31547e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60410e-05\tAbsError: 5.57738e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 6.05251e+00\tAbsError: 7.12298e+16\n", + " Region: \"zone_1\"\tRelError: 9.54106e-01\tAbsError: 5.37894e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.54025e-01\tAbsError: 2.58886e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.04593e-05\tAbsError: 2.79009e-02\n", + " Region: \"zone_3\"\tRelError: 5.09841e+00\tAbsError: 7.12298e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.89784e-01\tAbsError: 3.67872e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.99659e-01\tAbsError: 3.44425e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 4.40888e+00\tAbsError: 2.58912e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.04593e-05\tAbsError: 2.79009e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 4.98539e+00\tAbsError: 1.26295e+17\n", + " Region: \"zone_1\"\tRelError: 2.24304e+00\tAbsError: 1.18280e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.24277e+00\tAbsError: 2.58625e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.66362e-04\tAbsError: 9.24173e-02\n", + " Region: \"zone_3\"\tRelError: 2.74235e+00\tAbsError: 1.26295e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.63874e-01\tAbsError: 6.36874e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.67792e-01\tAbsError: 6.26079e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.11042e+00\tAbsError: 2.58990e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.66406e-04\tAbsError: 9.24296e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 3.06185e+01\tAbsError: 4.23532e+17\n", + " Region: \"zone_1\"\tRelError: 8.20322e-01\tAbsError: 5.01433e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 8.06267e-01\tAbsError: 7.94496e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.40542e-02\tAbsError: 4.93488e+00\n", + " Region: \"zone_3\"\tRelError: 2.97982e+01\tAbsError: 4.23532e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.06356e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.17176e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17841e+01\tAbsError: 7.94512e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.40542e-02\tAbsError: 4.93488e+00\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 8.10308e-03\tAbsError: 5.43438e+12\n", + " Region: \"zone_1\"\tRelError: 2.15894e-03\tAbsError: 6.82302e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.15699e-03\tAbsError: 4.13314e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.95036e-06\tAbsError: 6.78169e-04\n", + " Region: \"zone_3\"\tRelError: 5.94415e-03\tAbsError: 5.43438e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.41785e-04\tAbsError: 2.63367e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.38178e-04\tAbsError: 2.80072e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.86223e-03\tAbsError: 4.17705e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.95089e-06\tAbsError: 6.78355e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 3.08699e+02\tAbsError: 6.01534e+17\n", + " Region: \"zone_1\"\tRelError: 8.57260e+00\tAbsError: 4.30788e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 8.56054e+00\tAbsError: 8.15209e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20604e-02\tAbsError: 4.22635e+00\n", + " Region: \"zone_3\"\tRelError: 3.00127e+02\tAbsError: 6.01534e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.88214e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.42861e+02\tAbsError: 3.13321e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 4.82531e+01\tAbsError: 8.15210e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20783e-02\tAbsError: 4.23287e+00\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.96439e+00\tAbsError: 2.12374e+16\n", + " Region: \"zone_1\"\tRelError: 1.45967e+00\tAbsError: 2.87618e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.45886e+00\tAbsError: 9.16520e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03570e-04\tAbsError: 2.78453e-01\n", + " Region: \"zone_3\"\tRelError: 2.50473e+00\tAbsError: 2.12374e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.31487e-01\tAbsError: 1.07624e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.30649e-02\tAbsError: 1.04749e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.30937e+00\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03570e-04\tAbsError: 2.78453e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 7.12900e-01\tAbsError: 2.65152e+16\n", + " Region: \"zone_1\"\tRelError: 2.51915e-01\tAbsError: 2.84686e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.51125e-01\tAbsError: 1.10522e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.89640e-04\tAbsError: 2.73634e-01\n", + " Region: \"zone_3\"\tRelError: 4.60986e-01\tAbsError: 2.65152e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.02169e-01\tAbsError: 1.32909e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.08802e-02\tAbsError: 1.32243e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.17147e-01\tAbsError: 1.10525e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.89640e-04\tAbsError: 2.73634e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.06736e+03\tAbsError: 8.87050e+16\n", + " Region: \"zone_1\"\tRelError: 1.23696e+00\tAbsError: 1.85167e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.23188e+00\tAbsError: 7.54578e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.08395e-03\tAbsError: 1.77622e+00\n", + " Region: \"zone_3\"\tRelError: 3.06612e+03\tAbsError: 8.87050e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.99485e+03\tAbsError: 5.55600e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.99885e+01\tAbsError: 3.31450e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.27295e+00\tAbsError: 7.54578e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.09190e-03\tAbsError: 1.77902e+00\n", + "Iteration: 16\n", + " Device: \"device\"\tRelError: 1.33093e-03\tAbsError: 6.47227e+11\n", + " Region: \"zone_1\"\tRelError: 3.76552e-04\tAbsError: 3.83474e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.75451e-04\tAbsError: 4.53566e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10153e-06\tAbsError: 3.83020e-04\n", + " Region: \"zone_3\"\tRelError: 9.54375e-04\tAbsError: 6.47227e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.44244e-05\tAbsError: 3.63104e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.40917e-05\tAbsError: 2.84123e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 8.24757e-04\tAbsError: 4.58961e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10198e-06\tAbsError: 3.83177e-04\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.81005e+01\tAbsError: 1.51046e+17\n", + " Region: \"zone_1\"\tRelError: 2.47539e+01\tAbsError: 8.87921e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.47516e+01\tAbsError: 7.77584e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.31701e-03\tAbsError: 8.10163e-01\n", + " Region: \"zone_3\"\tRelError: 1.33466e+01\tAbsError: 1.51046e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.06614e+00\tAbsError: 1.02024e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.23401e+00\tAbsError: 4.90221e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04413e+00\tAbsError: 7.77584e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.31701e-03\tAbsError: 8.10163e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.06736e+00\tAbsError: 1.67079e+15\n", + " Region: \"zone_1\"\tRelError: 1.87002e-01\tAbsError: 2.94468e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86917e-01\tAbsError: 5.45669e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.47563e-05\tAbsError: 2.93922e-02\n", + " Region: \"zone_3\"\tRelError: 1.88036e+00\tAbsError: 1.67079e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95806e-02\tAbsError: 8.61655e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.32450e-03\tAbsError: 8.09135e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.85737e+00\tAbsError: 5.47236e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.50770e-05\tAbsError: 2.95046e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.71203e-01\tAbsError: 2.64478e+15\n", + " Region: \"zone_1\"\tRelError: 7.37964e-02\tAbsError: 4.38243e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.36702e-02\tAbsError: 5.07687e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26208e-04\tAbsError: 4.37736e-02\n", + " Region: \"zone_3\"\tRelError: 1.97407e-01\tAbsError: 2.64478e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.32945e-02\tAbsError: 1.36876e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.09641e-03\tAbsError: 1.27602e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.81889e-01\tAbsError: 5.14090e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26670e-04\tAbsError: 4.39325e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.34773e+03\tAbsError: 2.46923e+16\n", + " Region: \"zone_1\"\tRelError: 5.61102e+00\tAbsError: 1.65414e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.60647e+00\tAbsError: 7.09984e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.55217e-03\tAbsError: 1.58314e+00\n", + " Region: \"zone_3\"\tRelError: 1.34212e+03\tAbsError: 2.46923e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.23183e+01\tAbsError: 1.45002e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.31944e+03\tAbsError: 1.01922e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.52564e-01\tAbsError: 7.09985e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.55217e-03\tAbsError: 1.58314e+00\n", + "Iteration: 17\n", + " Device: \"device\"\tRelError: 6.27078e-04\tAbsError: 3.72961e+11\n", + " Region: \"zone_1\"\tRelError: 1.71680e-04\tAbsError: 6.72679e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.71487e-04\tAbsError: 2.54116e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.92726e-07\tAbsError: 6.70138e-05\n", + " Region: \"zone_3\"\tRelError: 4.55398e-04\tAbsError: 3.72961e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.60431e-05\tAbsError: 2.04507e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.57839e-05\tAbsError: 1.68455e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.83378e-04\tAbsError: 2.56993e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.92766e-07\tAbsError: 6.70275e-05\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 4.59577e+02\tAbsError: 7.82143e+16\n", + " Region: \"zone_1\"\tRelError: 2.03812e+02\tAbsError: 2.08058e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03806e+02\tAbsError: 7.35754e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.77336e-03\tAbsError: 2.00701e+00\n", + " Region: \"zone_3\"\tRelError: 2.55765e+02\tAbsError: 7.82143e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.13137e+00\tAbsError: 4.66961e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.46425e+02\tAbsError: 3.15182e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03151e-01\tAbsError: 7.35755e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.77445e-03\tAbsError: 2.00753e+00\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.99757e-02\tAbsError: 6.03219e+13\n", + " Region: \"zone_1\"\tRelError: 5.28092e-03\tAbsError: 6.07421e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.26342e-03\tAbsError: 6.43272e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75062e-05\tAbsError: 6.06778e-03\n", + " Region: \"zone_3\"\tRelError: 2.46948e-02\tAbsError: 6.03219e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52421e-04\tAbsError: 2.92320e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.21852e-04\tAbsError: 3.10899e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.41030e-02\tAbsError: 6.47112e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75095e-05\tAbsError: 6.06885e-03\n", + "Iteration: 18\n", + " Device: \"device\"\tRelError: 1.26073e-04\tAbsError: 6.34613e+10\n", + " Region: \"zone_1\"\tRelError: 3.54567e-05\tAbsError: 2.82723e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.53755e-05\tAbsError: 4.27763e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.11860e-08\tAbsError: 2.82296e-05\n", + " Region: \"zone_3\"\tRelError: 9.06159e-05\tAbsError: 6.34613e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.26251e-06\tAbsError: 3.67455e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.22962e-06\tAbsError: 2.67158e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.80425e-05\tAbsError: 4.32836e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.12039e-08\tAbsError: 2.82359e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.02394e-03\tAbsError: 1.42075e+14\n", + " Region: \"zone_1\"\tRelError: 1.02173e-03\tAbsError: 4.60762e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00847e-03\tAbsError: 1.08220e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32649e-05\tAbsError: 4.59680e-03\n", + " Region: \"zone_3\"\tRelError: 4.00220e-03\tAbsError: 1.42075e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.14122e-04\tAbsError: 6.97525e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.15155e-04\tAbsError: 7.23226e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.35966e-03\tAbsError: 1.09108e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32665e-05\tAbsError: 4.59729e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.21180e+03\tAbsError: 2.42164e+15\n", + " Region: \"zone_1\"\tRelError: 6.49855e-01\tAbsError: 2.64728e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 6.49283e-01\tAbsError: 6.59600e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.71867e-04\tAbsError: 1.98768e-01\n", + " Region: \"zone_3\"\tRelError: 1.21115e+03\tAbsError: 2.42164e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.79812e+02\tAbsError: 1.29139e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.30741e+02\tAbsError: 1.13025e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.93252e-01\tAbsError: 6.59600e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.71867e-04\tAbsError: 1.98768e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.17213e+02\tAbsError: 1.25554e+16\n", + " Region: \"zone_1\"\tRelError: 2.19150e+00\tAbsError: 1.09716e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.19139e+00\tAbsError: 6.88787e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.17693e-04\tAbsError: 4.08372e-02\n", + " Region: \"zone_3\"\tRelError: 3.15021e+02\tAbsError: 1.25554e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 5.86596e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.05049e+02\tAbsError: 6.68940e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.71668e-01\tAbsError: 6.88788e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.17693e-04\tAbsError: 4.08372e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.10405e-01\tAbsError: 3.12560e+13\n", + " Region: \"zone_1\"\tRelError: 1.08840e-02\tAbsError: 4.61195e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08827e-02\tAbsError: 1.71511e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32204e-06\tAbsError: 4.59479e-04\n", + " Region: \"zone_3\"\tRelError: 9.95213e-02\tAbsError: 3.12560e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34947e-04\tAbsError: 1.52362e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.27748e-04\tAbsError: 1.60198e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.92573e-02\tAbsError: 1.72813e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32271e-06\tAbsError: 4.59705e-04\n", + "Iteration: 19\n", + " Device: \"device\"\tRelError: 4.83955e-05\tAbsError: 2.70607e+10\n", + " Region: \"zone_1\"\tRelError: 1.33880e-05\tAbsError: 6.01952e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33708e-05\tAbsError: 1.77378e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72607e-08\tAbsError: 6.00179e-06\n", + " Region: \"zone_3\"\tRelError: 3.50075e-05\tAbsError: 2.70607e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.61535e-06\tAbsError: 1.56370e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.59676e-06\tAbsError: 1.14238e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.97781e-05\tAbsError: 1.79440e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72632e-08\tAbsError: 6.00268e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:50\u001b[0m.\u001b[1;36m234\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.2\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.28731e-02\tAbsError: 3.02293e+13\n", + " Region: \"zone_1\"\tRelError: 3.52908e-03\tAbsError: 1.06265e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.52602e-03\tAbsError: 1.19751e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.05388e-06\tAbsError: 1.06145e-03\n", + " Region: \"zone_3\"\tRelError: 9.34401e-03\tAbsError: 3.02293e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.79799e-05\tAbsError: 1.49185e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.36191e-05\tAbsError: 1.53108e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.20936e-03\tAbsError: 1.20971e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.05536e-06\tAbsError: 1.06195e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.65504e+03\tAbsError: 6.16435e+14\n", + " Region: \"zone_1\"\tRelError: 1.90949e-01\tAbsError: 9.65343e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.90844e-01\tAbsError: 6.01966e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.04401e-04\tAbsError: 3.63377e-02\n", + " Region: \"zone_3\"\tRelError: 2.65485e+03\tAbsError: 6.16435e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.90035e+03\tAbsError: 4.15710e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.54397e+02\tAbsError: 2.00726e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04014e-01\tAbsError: 6.01966e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.04442e-04\tAbsError: 3.63528e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.04629e+04\tAbsError: 2.37437e+15\n", + " Region: \"zone_1\"\tRelError: 4.74917e-01\tAbsError: 2.24943e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.74453e-01\tAbsError: 6.35445e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.64520e-04\tAbsError: 1.61399e-01\n", + " Region: \"zone_3\"\tRelError: 1.04625e+04\tAbsError: 2.37437e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07391e+01\tAbsError: 1.41468e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.04516e+04\tAbsError: 9.59690e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.42411e-01\tAbsError: 6.35445e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.64913e-04\tAbsError: 1.61539e-01\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.63047e-03\tAbsError: 9.09027e+11\n", + " Region: \"zone_1\"\tRelError: 4.56990e-04\tAbsError: 3.44629e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.55999e-04\tAbsError: 1.41300e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.91190e-07\tAbsError: 3.44488e-04\n", + " Region: \"zone_3\"\tRelError: 4.17348e-03\tAbsError: 9.09027e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.33335e-06\tAbsError: 4.38047e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.02288e-05\tAbsError: 4.70980e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.15793e-03\tAbsError: 1.42246e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.91601e-07\tAbsError: 3.44637e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.87539e-04\tAbsError: 5.02822e+12\n", + " Region: \"zone_1\"\tRelError: 1.19584e-04\tAbsError: 2.34142e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18911e-04\tAbsError: 3.38653e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.72773e-07\tAbsError: 2.33803e-04\n", + " Region: \"zone_3\"\tRelError: 3.67955e-04\tAbsError: 5.02822e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.18819e-05\tAbsError: 2.47643e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.05162e-05\tAbsError: 2.55180e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.44883e-04\tAbsError: 3.41809e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.73051e-07\tAbsError: 2.33906e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.71665e+00\tAbsError: 8.34849e+15\n", + " Region: \"zone_1\"\tRelError: 2.08783e+00\tAbsError: 4.09564e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.08783e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.19011e-09\tAbsError: 2.15239e-06\n", + " Region: \"zone_3\"\tRelError: 1.62882e+00\tAbsError: 8.34849e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69544e-01\tAbsError: 4.67018e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69471e-01\tAbsError: 3.67831e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.98079e-02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.19102e-09\tAbsError: 2.15271e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.39969e+02\tAbsError: 2.18179e+14\n", + " Region: \"zone_1\"\tRelError: 8.33405e-02\tAbsError: 7.51246e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.32783e-02\tAbsError: 5.35128e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.22639e-05\tAbsError: 2.16117e-02\n", + " Region: \"zone_3\"\tRelError: 1.39885e+02\tAbsError: 2.18179e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.25875e+01\tAbsError: 9.31122e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.27214e+02\tAbsError: 1.25067e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.35329e-02\tAbsError: 5.35129e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.22639e-05\tAbsError: 2.16117e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.10179e+04\tAbsError: 1.16660e+15\n", + " Region: \"zone_1\"\tRelError: 3.25898e-01\tAbsError: 7.98044e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.25833e-01\tAbsError: 5.74069e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.45576e-05\tAbsError: 2.23976e-02\n", + " Region: \"zone_3\"\tRelError: 3.10176e+04\tAbsError: 1.16660e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39601e+03\tAbsError: 7.27993e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.66214e+04\tAbsError: 4.38604e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21043e-01\tAbsError: 5.74070e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.45735e-05\tAbsError: 2.24025e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.49771e-03\tAbsError: 1.64940e+12\n", + " Region: \"zone_1\"\tRelError: 6.42053e-04\tAbsError: 1.77929e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.42002e-04\tAbsError: 9.99896e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.09050e-08\tAbsError: 1.76929e-05\n", + " Region: \"zone_3\"\tRelError: 5.85566e-03\tAbsError: 1.64940e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.16109e-06\tAbsError: 8.03293e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.70130e-06\tAbsError: 8.46106e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.84174e-03\tAbsError: 1.00703e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.09341e-08\tAbsError: 1.77035e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.72996e-04\tAbsError: 1.42516e+12\n", + " Region: \"zone_1\"\tRelError: 1.84920e-04\tAbsError: 3.38943e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.84823e-04\tAbsError: 6.24884e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.73397e-08\tAbsError: 3.38318e-05\n", + " Region: \"zone_3\"\tRelError: 4.88075e-04\tAbsError: 1.42516e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.24640e-06\tAbsError: 7.04060e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.97985e-06\tAbsError: 7.21095e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.81752e-04\tAbsError: 6.30893e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.73857e-08\tAbsError: 3.38479e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 5.53468e+02\tAbsError: 1.83800e+14\n", + " Region: \"zone_1\"\tRelError: 6.52479e-02\tAbsError: 6.97119e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.51786e-02\tAbsError: 4.56537e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.93074e-05\tAbsError: 2.40582e-02\n", + " Region: \"zone_3\"\tRelError: 5.53402e+02\tAbsError: 1.83800e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.44590e+02\tAbsError: 3.99742e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.74701e+00\tAbsError: 1.43826e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.56062e-02\tAbsError: 4.56538e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.93074e-05\tAbsError: 2.40582e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.50135e+00\tAbsError: 2.91712e+14\n", + " Region: \"zone_1\"\tRelError: 6.56152e-02\tAbsError: 8.99313e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.54450e-02\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70195e-04\tAbsError: 5.91677e-02\n", + " Region: \"zone_3\"\tRelError: 1.43573e+00\tAbsError: 2.91712e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37692e-01\tAbsError: 1.49991e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32867e-01\tAbsError: 1.41722e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.50013e-02\tAbsError: 3.07641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70195e-04\tAbsError: 5.91677e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 5.52298e+03\tAbsError: 2.95926e+14\n", + " Region: \"zone_1\"\tRelError: 8.12337e-02\tAbsError: 8.96310e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.11201e-02\tAbsError: 5.02451e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13516e-04\tAbsError: 3.93859e-02\n", + " Region: \"zone_3\"\tRelError: 5.52289e+03\tAbsError: 2.95926e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.32970e+03\tAbsError: 4.16430e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.19311e+03\tAbsError: 2.54283e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.54394e-02\tAbsError: 5.02452e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13516e-04\tAbsError: 3.93859e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 5.44825e-04\tAbsError: 5.87780e+10\n", + " Region: \"zone_1\"\tRelError: 5.39394e-05\tAbsError: 2.02429e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.38812e-05\tAbsError: 6.87611e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.82246e-08\tAbsError: 2.02360e-05\n", + " Region: \"zone_3\"\tRelError: 4.90886e-04\tAbsError: 5.87780e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.46411e-07\tAbsError: 2.85251e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.30809e-07\tAbsError: 3.02529e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.90250e-04\tAbsError: 6.91269e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.82487e-08\tAbsError: 2.02448e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.68662e-05\tAbsError: 1.68112e+11\n", + " Region: \"zone_1\"\tRelError: 4.17110e-06\tAbsError: 1.20331e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.13651e-06\tAbsError: 1.05474e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.45951e-08\tAbsError: 1.20225e-05\n", + " Region: \"zone_3\"\tRelError: 1.26951e-05\tAbsError: 1.68112e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.02854e-07\tAbsError: 8.28209e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.89403e-07\tAbsError: 8.52907e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18682e-05\tAbsError: 1.06472e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.46105e-08\tAbsError: 1.20282e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:54\u001b[0m.\u001b[1;36m620\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.95\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 9.34092e-01\tAbsError: 3.63176e+13\n", + " Region: \"zone_1\"\tRelError: 4.74090e-02\tAbsError: 3.08418e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.73947e-02\tAbsError: 2.58899e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42438e-05\tAbsError: 4.95187e-03\n", + " Region: \"zone_3\"\tRelError: 8.86683e-01\tAbsError: 3.63176e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40041e-01\tAbsError: 2.66178e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.98904e-01\tAbsError: 9.69976e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.77237e-02\tAbsError: 2.58388e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42438e-05\tAbsError: 4.95187e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.06872e+01\tAbsError: 1.51429e+14\n", + " Region: \"zone_1\"\tRelError: 4.87097e-02\tAbsError: 6.88565e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.86160e-02\tAbsError: 3.63251e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.37085e-05\tAbsError: 3.25314e-02\n", + " Region: \"zone_3\"\tRelError: 4.06385e+01\tAbsError: 1.51429e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.01309e+01\tAbsError: 4.50003e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.58697e-01\tAbsError: 1.46929e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.87811e-02\tAbsError: 3.63252e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.37085e-05\tAbsError: 3.25314e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.43220e+02\tAbsError: 2.99755e+14\n", + " Region: \"zone_1\"\tRelError: 5.65647e-02\tAbsError: 8.60901e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.64370e-02\tAbsError: 4.17803e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27691e-04\tAbsError: 4.43098e-02\n", + " Region: \"zone_3\"\tRelError: 1.43164e+02\tAbsError: 2.99755e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.02854e+01\tAbsError: 6.91875e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.28172e+01\tAbsError: 2.92836e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.08944e-02\tAbsError: 4.17805e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27747e-04\tAbsError: 4.43292e-02\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.92595e-04\tAbsError: 9.49473e+10\n", + " Region: \"zone_1\"\tRelError: 3.87978e-05\tAbsError: 2.02444e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.87920e-05\tAbsError: 5.96621e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.80757e-09\tAbsError: 2.01847e-06\n", + " Region: \"zone_3\"\tRelError: 3.53797e-04\tAbsError: 9.49473e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.10989e-07\tAbsError: 4.62324e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.83783e-07\tAbsError: 4.87150e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.52997e-04\tAbsError: 6.00786e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.81025e-09\tAbsError: 2.01943e-06\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.10412e+00\tAbsError: 1.49221e+14\n", + " Region: \"zone_1\"\tRelError: 3.55745e-02\tAbsError: 6.71415e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.54542e-02\tAbsError: 2.53668e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20320e-04\tAbsError: 4.17747e-02\n", + " Region: \"zone_3\"\tRelError: 1.06855e+00\tAbsError: 1.49221e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.63379e-01\tAbsError: 1.22026e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.75653e-02\tAbsError: 1.37018e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.74841e-02\tAbsError: 2.57075e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20320e-04\tAbsError: 4.17747e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.84661e-01\tAbsError: 3.60686e+12\n", + " Region: \"zone_1\"\tRelError: 1.51217e-02\tAbsError: 1.24487e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51123e-02\tAbsError: 9.16566e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.44373e-06\tAbsError: 3.28309e-03\n", + " Region: \"zone_3\"\tRelError: 2.69539e-01\tAbsError: 3.60686e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12296e-01\tAbsError: 2.19866e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.19182e-02\tAbsError: 1.40820e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.53153e-02\tAbsError: 9.16570e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.44373e-06\tAbsError: 3.28309e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.50413e+02\tAbsError: 1.00117e+18\n", + " Region: \"zone_1\"\tRelError: 2.24824e+02\tAbsError: 4.22098e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.24824e+02\tAbsError: 4.22089e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.80922e-09\tAbsError: 9.76412e-07\n", + " Region: \"zone_3\"\tRelError: 2.55890e+01\tAbsError: 1.00117e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.19984e-01\tAbsError: 4.87971e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.98829e-01\tAbsError: 5.13196e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 2.41702e+01\tAbsError: 4.22091e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.81054e-09\tAbsError: 9.76858e-07\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.24163e+03\tAbsError: 3.12356e+14\n", + " Region: \"zone_1\"\tRelError: 4.63736e-02\tAbsError: 9.00220e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.62056e-02\tAbsError: 3.17369e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67936e-04\tAbsError: 5.82850e-02\n", + " Region: \"zone_3\"\tRelError: 3.24159e+03\tAbsError: 3.12356e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.24035e+03\tAbsError: 1.81390e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.18548e+00\tAbsError: 2.94217e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.76331e-02\tAbsError: 3.17371e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67973e-04\tAbsError: 5.82975e-02\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 5.03275e-05\tAbsError: 9.08763e+09\n", + " Region: \"zone_1\"\tRelError: 4.97773e-06\tAbsError: 1.23989e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.97416e-06\tAbsError: 6.85123e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.56554e-09\tAbsError: 1.23921e-06\n", + " Region: \"zone_3\"\tRelError: 4.53497e-05\tAbsError: 9.08763e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.78500e-08\tAbsError: 4.42118e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.59273e-08\tAbsError: 4.66645e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 4.52724e-05\tAbsError: 6.89457e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.56702e-09\tAbsError: 1.23975e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:56\u001b[0m.\u001b[1;36m819\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.9\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 5.25803e-01\tAbsError: 1.09345e+14\n", + " Region: \"zone_1\"\tRelError: 2.16781e-02\tAbsError: 6.89999e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.15304e-02\tAbsError: 1.77021e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47726e-04\tAbsError: 5.12977e-02\n", + " Region: \"zone_3\"\tRelError: 5.04125e-01\tAbsError: 1.09345e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.76084e-01\tAbsError: 8.19390e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.13922e-03\tAbsError: 1.01152e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.17546e-02\tAbsError: 1.77023e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47726e-04\tAbsError: 5.12977e-02\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.11827e+00\tAbsError: 2.77763e+14\n", + " Region: \"zone_1\"\tRelError: 3.25038e-02\tAbsError: 1.01854e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.22849e-02\tAbsError: 2.58441e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18958e-04\tAbsError: 7.60097e-02\n", + " Region: \"zone_3\"\tRelError: 1.08576e+00\tAbsError: 2.77763e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99187e-01\tAbsError: 1.92358e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.41534e-02\tAbsError: 2.58528e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.22056e-02\tAbsError: 2.42935e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18972e-04\tAbsError: 7.60143e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.15194e-02\tAbsError: 3.32535e+12\n", + " Region: \"zone_1\"\tRelError: 1.39864e-03\tAbsError: 2.06495e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39273e-03\tAbsError: 1.45908e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.90384e-06\tAbsError: 2.05036e-03\n", + " Region: \"zone_3\"\tRelError: 6.01208e-02\tAbsError: 3.32535e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.70408e-02\tAbsError: 2.05874e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.81904e-04\tAbsError: 1.26661e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49213e-03\tAbsError: 1.52370e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.90384e-06\tAbsError: 2.05036e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.17999e+04\tAbsError: 5.10978e+17\n", + " Region: \"zone_1\"\tRelError: 5.03027e+02\tAbsError: 1.04768e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.03024e+02\tAbsError: 3.22427e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.92198e-03\tAbsError: 1.01544e+00\n", + " Region: \"zone_3\"\tRelError: 1.12969e+04\tAbsError: 5.10978e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.85509e-01\tAbsError: 2.56157e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.59104e-01\tAbsError: 2.54821e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12959e+04\tAbsError: 3.22432e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.92235e-03\tAbsError: 1.01559e+00\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 6.87726e-02\tAbsError: 8.38083e+13\n", + " Region: \"zone_1\"\tRelError: 6.67215e-03\tAbsError: 8.75624e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.42056e-03\tAbsError: 1.74141e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.51596e-04\tAbsError: 8.73883e-02\n", + " Region: \"zone_3\"\tRelError: 6.21005e-02\tAbsError: 8.38083e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.18225e-02\tAbsError: 1.20575e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.74554e-03\tAbsError: 7.17508e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.80774e-04\tAbsError: 1.76570e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.51596e-04\tAbsError: 8.73883e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.75731e+01\tAbsError: 5.68784e+17\n", + " Region: \"zone_1\"\tRelError: 3.83859e+01\tAbsError: 4.09543e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.83859e+01\tAbsError: 4.09541e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.16236e-10\tAbsError: 1.79418e-07\n", + " Region: \"zone_3\"\tRelError: 1.91873e+01\tAbsError: 5.68784e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.35377e-01\tAbsError: 2.75826e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.22188e-01\tAbsError: 2.92959e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77297e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.16460e-10\tAbsError: 1.79501e-07\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 2.61096e+00\tAbsError: 5.27748e+14\n", + " Region: \"zone_1\"\tRelError: 1.33610e-02\tAbsError: 2.72747e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33123e-02\tAbsError: 1.03781e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.86757e-05\tAbsError: 1.68966e-02\n", + " Region: \"zone_3\"\tRelError: 2.59760e+00\tAbsError: 5.27748e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.56561e+00\tAbsError: 1.59867e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.17779e-03\tAbsError: 5.11762e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.67637e-02\tAbsError: 1.03782e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.86757e-05\tAbsError: 1.68966e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.41567e-04\tAbsError: 9.91707e+11\n", + " Region: \"zone_1\"\tRelError: 9.96191e-05\tAbsError: 1.41222e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.92175e-05\tAbsError: 1.43594e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.01560e-07\tAbsError: 1.39786e-04\n", + " Region: \"zone_3\"\tRelError: 5.41948e-04\tAbsError: 9.91707e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33847e-04\tAbsError: 2.52735e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.19507e-04\tAbsError: 7.38971e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88192e-04\tAbsError: 1.43639e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.01715e-07\tAbsError: 1.39842e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 4.09005e+04\tAbsError: 1.09186e+17\n", + " Region: \"zone_1\"\tRelError: 3.89562e+04\tAbsError: 4.08435e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.89562e+04\tAbsError: 2.58909e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10194e-03\tAbsError: 3.82544e-01\n", + " Region: \"zone_3\"\tRelError: 1.94429e+03\tAbsError: 1.09186e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.74831e-01\tAbsError: 5.48441e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.82033e-02\tAbsError: 5.43417e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.94402e+03\tAbsError: 2.58839e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10598e-03\tAbsError: 3.83947e-01\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 5.03731e-02\tAbsError: 4.41514e+13\n", + " Region: \"zone_1\"\tRelError: 1.13318e-02\tAbsError: 7.63919e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13298e-02\tAbsError: 5.65882e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.03424e-06\tAbsError: 7.07331e-04\n", + " Region: \"zone_3\"\tRelError: 3.90413e-02\tAbsError: 4.41514e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.03515e-03\tAbsError: 1.47172e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.05565e-03\tAbsError: 2.94343e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.69485e-02\tAbsError: 5.71003e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.03424e-06\tAbsError: 7.07331e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.10779e+01\tAbsError: 4.06443e+17\n", + " Region: \"zone_1\"\tRelError: 1.97168e+01\tAbsError: 4.69738e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.97155e+01\tAbsError: 3.07629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26517e-03\tAbsError: 4.38975e-01\n", + " Region: \"zone_3\"\tRelError: 1.13612e+01\tAbsError: 4.06443e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.26663e-01\tAbsError: 2.03016e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.10593e-01\tAbsError: 2.03427e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03227e+01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26614e-03\tAbsError: 4.39294e-01\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 4.70060e-01\tAbsError: 6.21356e+14\n", + " Region: \"zone_1\"\tRelError: 2.85732e-02\tAbsError: 2.05963e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.79813e-02\tAbsError: 3.65489e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.91933e-04\tAbsError: 2.05597e-01\n", + " Region: \"zone_3\"\tRelError: 4.41487e-01\tAbsError: 6.21356e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.81692e-01\tAbsError: 1.55850e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.38602e-02\tAbsError: 6.05771e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.53431e-02\tAbsError: 3.74070e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.91933e-04\tAbsError: 2.05597e-01\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 3.33365e-03\tAbsError: 6.06204e+11\n", + " Region: \"zone_1\"\tRelError: 9.58438e-04\tAbsError: 2.88131e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 9.50144e-04\tAbsError: 6.03756e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.29366e-06\tAbsError: 2.88071e-03\n", + " Region: \"zone_3\"\tRelError: 2.37521e-03\tAbsError: 6.06204e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05456e-04\tAbsError: 3.54398e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.77946e-04\tAbsError: 2.51806e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.98352e-03\tAbsError: 6.23154e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.29366e-06\tAbsError: 2.88071e-03\n", + "Iteration: 3\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.74454e+02\tAbsError: 8.01333e+15\n", + " Region: \"zone_1\"\tRelError: 6.80372e+01\tAbsError: 4.04598e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 6.80361e+01\tAbsError: 1.10518e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12846e-03\tAbsError: 3.93546e-01\n", + " Region: \"zone_3\"\tRelError: 7.06417e+02\tAbsError: 8.01333e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.62890e-02\tAbsError: 4.02354e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.06950e-02\tAbsError: 3.98978e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.06379e+02\tAbsError: 1.10525e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12877e-03\tAbsError: 3.93649e-01\n", + " Device: \"device\"\tRelError: 1.93100e-04\tAbsError: 1.20960e+11\n", + " Region: \"zone_1\"\tRelError: 5.19820e-05\tAbsError: 5.49694e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.18239e-05\tAbsError: 7.13688e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.58064e-07\tAbsError: 5.48980e-05\n", + " Region: \"zone_3\"\tRelError: 1.41118e-04\tAbsError: 1.20960e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98311e-06\tAbsError: 8.30760e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.89226e-06\tAbsError: 3.78838e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21085e-04\tAbsError: 7.51134e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.58064e-07\tAbsError: 5.48980e-05\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 1.22495e-01\tAbsError: 1.04521e+14\n", + " Region: \"zone_1\"\tRelError: 2.79563e-02\tAbsError: 3.74050e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.79459e-02\tAbsError: 1.32552e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.03633e-05\tAbsError: 3.60795e-03\n", + " Region: \"zone_3\"\tRelError: 9.45386e-02\tAbsError: 1.04521e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.42087e-02\tAbsError: 3.56076e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.42360e-02\tAbsError: 6.89134e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.60836e-02\tAbsError: 1.33749e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.03685e-05\tAbsError: 3.60983e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 4.48960e+02\tAbsError: 9.69691e+16\n", + " Region: \"zone_1\"\tRelError: 4.44741e+02\tAbsError: 1.46848e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.44741e+02\tAbsError: 2.58943e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.47880e-04\tAbsError: 1.20954e-01\n", + " Region: \"zone_3\"\tRelError: 4.21888e+00\tAbsError: 9.69691e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.30659e-01\tAbsError: 4.85459e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.34310e-01\tAbsError: 4.84232e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.85356e+00\tAbsError: 2.58906e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.48053e-04\tAbsError: 1.21009e-01\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 4.00677e-03\tAbsError: 2.81686e+12\n", + " Region: \"zone_1\"\tRelError: 1.05646e-03\tAbsError: 2.25120e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.05582e-03\tAbsError: 2.16769e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.41193e-07\tAbsError: 2.22952e-04\n", + " Region: \"zone_3\"\tRelError: 2.95031e-03\tAbsError: 2.81686e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.80261e-04\tAbsError: 1.33088e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.78330e-04\tAbsError: 1.48598e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.39107e-03\tAbsError: 2.19067e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.41428e-07\tAbsError: 2.23034e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.80767e-05\tAbsError: 4.88656e+10\n", + " Region: \"zone_1\"\tRelError: 1.14722e-05\tAbsError: 6.01770e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14550e-05\tAbsError: 4.42598e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71595e-08\tAbsError: 5.97344e-06\n", + " Region: \"zone_3\"\tRelError: 3.66045e-05\tAbsError: 4.88656e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.37873e-06\tAbsError: 1.78083e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.34140e-06\tAbsError: 3.10573e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78672e-05\tAbsError: 4.43720e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71671e-08\tAbsError: 5.97623e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 3.12975e+01\tAbsError: 3.16208e+15\n", + " Region: \"zone_1\"\tRelError: 2.83893e+01\tAbsError: 5.80956e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.83876e+01\tAbsError: 1.69468e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.66814e-03\tAbsError: 5.80787e-01\n", + " Region: \"zone_3\"\tRelError: 2.90821e+00\tAbsError: 3.16208e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12918e-02\tAbsError: 1.46803e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.97509e-03\tAbsError: 1.69405e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.89227e+00\tAbsError: 1.70953e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.66892e-03\tAbsError: 5.81053e-01\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 1.08908e-02\tAbsError: 3.13154e+12\n", + " Region: \"zone_1\"\tRelError: 3.20242e-03\tAbsError: 6.92103e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.18252e-03\tAbsError: 2.37467e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.98986e-05\tAbsError: 6.91866e-03\n", + " Region: \"zone_3\"\tRelError: 7.68840e-03\tAbsError: 3.13154e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.85378e-04\tAbsError: 2.02508e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.32251e-04\tAbsError: 1.10645e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 6.75087e-03\tAbsError: 2.45496e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.98986e-05\tAbsError: 6.91866e-03\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:02\u001b[0m.\u001b[1;36m208\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:02\u001b[0m.\u001b[1;36m208\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.03712e+00\tAbsError: 1.21527e+16\n", + " Region: \"zone_1\"\tRelError: 1.00977e+00\tAbsError: 5.07362e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00834e+00\tAbsError: 9.16487e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42992e-03\tAbsError: 4.98197e-01\n", + " Region: \"zone_3\"\tRelError: 4.02736e+00\tAbsError: 1.21527e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.24782e-02\tAbsError: 5.84262e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.44637e-02\tAbsError: 6.31012e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 3.96898e+00\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43302e-03\tAbsError: 4.99291e-01\n", + "Iteration: 16\n", + " Device: \"device\"\tRelError: 4.78745e-04\tAbsError: 2.09883e+11\n", + " Region: \"zone_1\"\tRelError: 1.37276e-04\tAbsError: 1.88799e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.36733e-04\tAbsError: 1.56735e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.42550e-07\tAbsError: 1.88642e-04\n", + " Region: \"zone_3\"\tRelError: 3.41469e-04\tAbsError: 2.09883e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.16342e-05\tAbsError: 1.14769e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.15603e-05\tAbsError: 9.51147e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.97732e-04\tAbsError: 1.58619e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.42742e-07\tAbsError: 1.88719e-04\n", + "Iteration: 16\n", + " Device: \"device\"\tRelError: 9.83445e-03\tAbsError: 6.77712e+12\n", + " Region: \"zone_1\"\tRelError: 2.60543e-03\tAbsError: 6.40859e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.60360e-03\tAbsError: 5.17337e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.82818e-06\tAbsError: 6.35685e-04\n", + " Region: \"zone_3\"\tRelError: 7.22901e-03\tAbsError: 6.77712e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.73598e-04\tAbsError: 3.24417e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.69049e-04\tAbsError: 3.53295e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.88454e-03\tAbsError: 5.22825e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.82857e-06\tAbsError: 6.35821e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.88061e+01\tAbsError: 2.85079e+15\n", + " Region: \"zone_1\"\tRelError: 6.73862e+00\tAbsError: 3.55831e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.73852e+00\tAbsError: 1.64420e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.01700e-04\tAbsError: 3.54187e-02\n", + " Region: \"zone_3\"\tRelError: 1.20674e+01\tAbsError: 2.85079e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.00192e-03\tAbsError: 1.41980e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.87415e-03\tAbsError: 1.43099e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20605e+01\tAbsError: 1.65854e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.01744e-04\tAbsError: 3.54336e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.29649e+01\tAbsError: 8.28032e+15\n", + " Region: \"zone_1\"\tRelError: 1.13261e+01\tAbsError: 4.09567e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13261e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.18750e-09\tAbsError: 2.49624e-06\n", + " Region: \"zone_3\"\tRelError: 1.63880e+00\tAbsError: 8.28032e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69633e-01\tAbsError: 4.77284e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.50748e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.95556e-02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.18842e-09\tAbsError: 2.49659e-06\n", + "Iteration: 17\n", + " Device: \"device\"\tRelError: 3.00999e-04\tAbsError: 1.84846e+11\n", + " Region: \"zone_1\"\tRelError: 8.19378e-05\tAbsError: 2.60922e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 8.18632e-05\tAbsError: 1.26660e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.46747e-08\tAbsError: 2.59655e-05\n", + " Region: \"zone_3\"\tRelError: 2.19061e-04\tAbsError: 1.84846e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.78055e-05\tAbsError: 9.99668e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.76719e-05\tAbsError: 8.48788e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.83509e-04\tAbsError: 1.28081e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.46923e-08\tAbsError: 2.59717e-05\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.22708e-01\tAbsError: 3.87768e+15\n", + " Region: \"zone_1\"\tRelError: 1.91968e-01\tAbsError: 6.75386e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.90026e-01\tAbsError: 2.52604e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94152e-03\tAbsError: 6.75134e-01\n", + " Region: \"zone_3\"\tRelError: 7.30741e-01\tAbsError: 3.87768e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.56619e-03\tAbsError: 1.77246e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.53274e-03\tAbsError: 2.10521e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.16698e-01\tAbsError: 2.55458e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94389e-03\tAbsError: 6.75970e-01\n", + "Iteration: 17\n", + " Device: \"device\"\tRelError: 1.33464e-03\tAbsError: 6.01865e+11\n", + " Region: \"zone_1\"\tRelError: 3.81615e-04\tAbsError: 4.62510e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.80286e-04\tAbsError: 4.26302e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32891e-06\tAbsError: 4.62083e-04\n", + " Region: \"zone_3\"\tRelError: 9.53024e-04\tAbsError: 6.01865e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.06082e-05\tAbsError: 3.41244e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.03411e-05\tAbsError: 2.60621e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 8.30746e-04\tAbsError: 4.31478e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32948e-06\tAbsError: 4.62282e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.17130e+00\tAbsError: 2.53243e+14\n", + " Region: \"zone_1\"\tRelError: 8.02048e-01\tAbsError: 2.24613e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.01984e-01\tAbsError: 1.17020e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.44660e-05\tAbsError: 2.24496e-02\n", + " Region: \"zone_3\"\tRelError: 2.36925e+00\tAbsError: 2.53243e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.56971e-04\tAbsError: 1.26152e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.59164e-04\tAbsError: 1.27091e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.36817e+00\tAbsError: 1.17921e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.44925e-05\tAbsError: 2.24588e-02\n", + "Iteration: 18\n", + " Device: \"device\"\tRelError: 5.05814e-05\tAbsError: 2.45283e+10\n", + " Region: \"zone_1\"\tRelError: 1.43034e-05\tAbsError: 1.34689e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.42647e-05\tAbsError: 1.69134e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.86869e-08\tAbsError: 1.34520e-05\n", + " Region: \"zone_3\"\tRelError: 3.62781e-05\tAbsError: 2.45283e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.44583e-06\tAbsError: 1.40482e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.43514e-06\tAbsError: 1.04801e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.13584e-05\tAbsError: 1.71147e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.86964e-08\tAbsError: 1.34553e-05\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.56865e+00\tAbsError: 2.86625e+14\n", + " Region: \"zone_1\"\tRelError: 1.21045e-01\tAbsError: 8.55195e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20888e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", + " Region: \"zone_3\"\tRelError: 1.44761e+00\tAbsError: 2.86625e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38556e-01\tAbsError: 1.75436e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32332e-01\tAbsError: 1.11189e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.65613e-02\tAbsError: 3.07640e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:05\u001b[0m.\u001b[1;36m386\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:05\u001b[0m.\u001b[1;36m386\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.20555555555555557\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 18\n", + " Device: \"device\"\tRelError: 7.45304e-04\tAbsError: 4.51516e+11\n", + " Region: \"zone_1\"\tRelError: 2.03387e-04\tAbsError: 6.97949e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03187e-04\tAbsError: 3.08050e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.99839e-07\tAbsError: 6.94869e-05\n", + " Region: \"zone_3\"\tRelError: 5.41916e-04\tAbsError: 4.51516e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.35288e-05\tAbsError: 2.46048e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.32078e-05\tAbsError: 2.05469e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.54980e-04\tAbsError: 3.11521e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.99878e-07\tAbsError: 6.95007e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.39826e+00\tAbsError: 3.43096e+15\n", + " Region: \"zone_1\"\tRelError: 2.04849e-01\tAbsError: 4.45309e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.04721e-01\tAbsError: 2.05839e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27433e-04\tAbsError: 4.43251e-02\n", + " Region: \"zone_3\"\tRelError: 2.19341e+00\tAbsError: 3.43096e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.46827e-03\tAbsError: 1.70482e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.46042e-03\tAbsError: 1.72614e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.18535e+00\tAbsError: 2.07760e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27493e-04\tAbsError: 4.43450e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 8.76689e+00\tAbsError: 1.50647e+14\n", + " Region: \"zone_1\"\tRelError: 3.16473e-01\tAbsError: 2.47908e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.16466e-01\tAbsError: 6.52205e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.12020e-06\tAbsError: 2.47256e-03\n", + " Region: \"zone_3\"\tRelError: 8.45042e+00\tAbsError: 1.50647e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.01195e-04\tAbsError: 7.50093e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10297e-04\tAbsError: 7.56382e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.45010e+00\tAbsError: 6.57560e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.12020e-06\tAbsError: 2.47256e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 9.63437e-01\tAbsError: 3.66677e+13\n", + " Region: \"zone_1\"\tRelError: 5.93231e-02\tAbsError: 3.16919e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.93064e-02\tAbsError: 2.58707e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", + " Region: \"zone_3\"\tRelError: 9.04114e-01\tAbsError: 3.66677e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40101e-01\tAbsError: 2.63702e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.04471e-01\tAbsError: 1.02975e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95256e-02\tAbsError: 2.58992e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", + "Iteration: 19\n", + " Device: \"device\"\tRelError: 1.33987e-04\tAbsError: 6.55810e+10\n", + " Region: \"zone_1\"\tRelError: 3.78368e-05\tAbsError: 3.33798e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.77409e-05\tAbsError: 4.45468e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.58696e-08\tAbsError: 3.33353e-05\n", + " Region: \"zone_3\"\tRelError: 9.61507e-05\tAbsError: 6.55810e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.50926e-06\tAbsError: 3.79987e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.47837e-06\tAbsError: 2.75823e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 8.30672e-05\tAbsError: 4.50780e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.58918e-08\tAbsError: 3.33430e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.62369e+00\tAbsError: 8.81229e+15\n", + " Region: \"zone_1\"\tRelError: 1.97477e+00\tAbsError: 4.20751e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.97477e+00\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.14730e-09\tAbsError: 2.48522e-06\n", + " Region: \"zone_3\"\tRelError: 1.64892e+00\tAbsError: 8.81229e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78993e-01\tAbsError: 4.92963e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.78922e-01\tAbsError: 3.88266e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.10055e-02\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.14845e-09\tAbsError: 2.48562e-06\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.26801e-01\tAbsError: 3.21780e+14\n", + " Region: \"zone_1\"\tRelError: 1.55999e-02\tAbsError: 2.70060e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55223e-02\tAbsError: 1.53596e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.76036e-05\tAbsError: 2.69907e-02\n", + " Region: \"zone_3\"\tRelError: 3.11201e-01\tAbsError: 3.21780e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.63679e-04\tAbsError: 1.60119e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.88527e-04\tAbsError: 1.61661e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.10171e-01\tAbsError: 1.54896e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.76380e-05\tAbsError: 2.70022e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.51438e-01\tAbsError: 2.02395e+13\n", + " Region: \"zone_1\"\tRelError: 3.57663e-02\tAbsError: 1.10130e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.57631e-02\tAbsError: 7.62074e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.16921e-06\tAbsError: 1.10054e-03\n", + " Region: \"zone_3\"\tRelError: 6.15671e-01\tAbsError: 2.02395e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.51143e-05\tAbsError: 1.00841e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.17050e-05\tAbsError: 1.01554e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.15601e-01\tAbsError: 7.68131e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.16965e-06\tAbsError: 1.10064e-03\n", + "Iteration: 20\n", + " Device: \"device\"\tRelError: 5.65881e-05\tAbsError: 3.20218e+10\n", + " Region: \"zone_1\"\tRelError: 1.56237e-05\tAbsError: 6.50398e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.56051e-05\tAbsError: 2.09852e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.86446e-08\tAbsError: 6.48299e-06\n", + " Region: \"zone_3\"\tRelError: 4.09644e-05\tAbsError: 3.20218e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.08913e-06\tAbsError: 1.84508e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.06663e-06\tAbsError: 1.35710e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.47900e-05\tAbsError: 2.12285e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.86473e-08\tAbsError: 6.48396e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:08\u001b[0m.\u001b[1;36m114\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.2\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.93334e-01\tAbsError: 6.56738e+12\n", + " Region: \"zone_1\"\tRelError: 1.86981e-02\tAbsError: 1.19586e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86900e-02\tAbsError: 9.16562e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03535e-06\tAbsError: 2.79297e-03\n", + " Region: \"zone_3\"\tRelError: 2.74636e-01\tAbsError: 6.56738e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11907e-01\tAbsError: 3.29549e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.38500e-02\tAbsError: 3.27189e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88710e-02\tAbsError: 9.16566e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03753e-06\tAbsError: 2.79381e-03\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.54137e+00\tAbsError: 3.24375e+14\n", + " Region: \"zone_1\"\tRelError: 7.11295e-02\tAbsError: 9.45006e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.09500e-02\tAbsError: 3.20824e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.79547e-04\tAbsError: 6.24182e-02\n", + " Region: \"zone_3\"\tRelError: 1.47024e+00\tAbsError: 3.24375e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.55196e-01\tAbsError: 1.67449e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.49237e-01\tAbsError: 1.56926e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.56262e-02\tAbsError: 3.20828e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.79547e-04\tAbsError: 6.24182e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.06749e-01\tAbsError: 1.86094e+14\n", + " Region: \"zone_1\"\tRelError: 8.34420e-03\tAbsError: 3.03935e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 8.33549e-03\tAbsError: 8.31449e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.71533e-06\tAbsError: 3.03103e-03\n", + " Region: \"zone_3\"\tRelError: 1.98405e-01\tAbsError: 1.86094e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.28032e-04\tAbsError: 9.25440e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.88076e-04\tAbsError: 9.35503e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.97980e-01\tAbsError: 8.38945e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.71848e-06\tAbsError: 3.03213e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 3.40943e-01\tAbsError: 8.80988e+12\n", + " Region: \"zone_1\"\tRelError: 1.44364e-02\tAbsError: 1.94211e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.44358e-02\tAbsError: 3.09686e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.57362e-07\tAbsError: 1.93901e-04\n", + " Region: \"zone_3\"\tRelError: 3.26507e-01\tAbsError: 8.80988e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.53349e-06\tAbsError: 4.38892e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.69254e-06\tAbsError: 4.42096e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.26487e-01\tAbsError: 3.12212e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.57570e-07\tAbsError: 1.93974e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.00158e-02\tAbsError: 2.47729e+12\n", + " Region: \"zone_1\"\tRelError: 6.29744e-04\tAbsError: 1.66755e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.24968e-04\tAbsError: 8.94858e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", + " Region: \"zone_3\"\tRelError: 5.93860e-02\tAbsError: 2.47729e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.68115e-02\tAbsError: 1.70064e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.91678e-04\tAbsError: 7.76647e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.27809e-03\tAbsError: 9.43816e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.71665e+00\tAbsError: 8.34849e+15\n", + " Region: \"zone_1\"\tRelError: 2.08783e+00\tAbsError: 4.09567e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.08783e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.19938e-09\tAbsError: 2.50333e-06\n", + " Region: \"zone_3\"\tRelError: 1.62882e+00\tAbsError: 8.34849e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69544e-01\tAbsError: 4.67018e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69471e-01\tAbsError: 3.67831e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.98079e-02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.20047e-09\tAbsError: 2.50372e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.00350e+00\tAbsError: 3.97769e+13\n", + " Region: \"zone_1\"\tRelError: 5.04291e-02\tAbsError: 3.12685e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.04136e-02\tAbsError: 2.58872e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54792e-05\tAbsError: 5.38132e-03\n", + " Region: \"zone_3\"\tRelError: 9.53067e-01\tAbsError: 3.97769e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.66315e-01\tAbsError: 2.91166e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.36187e-01\tAbsError: 1.06602e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.05491e-02\tAbsError: 2.58931e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54792e-05\tAbsError: 5.38132e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.88896e-02\tAbsError: 2.58485e+13\n", + " Region: \"zone_1\"\tRelError: 1.63690e-03\tAbsError: 1.31710e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.63310e-03\tAbsError: 9.88963e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.79528e-06\tAbsError: 1.31612e-03\n", + " Region: \"zone_3\"\tRelError: 3.72527e-02\tAbsError: 2.58485e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.09818e-05\tAbsError: 1.28647e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.53496e-05\tAbsError: 1.29838e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.71926e-02\tAbsError: 9.97598e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.79540e-06\tAbsError: 1.31620e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 6.52134e-02\tAbsError: 1.52515e+12\n", + " Region: \"zone_1\"\tRelError: 2.21558e-03\tAbsError: 7.17045e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.21537e-03\tAbsError: 5.18562e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.05963e-07\tAbsError: 7.16526e-05\n", + " Region: \"zone_3\"\tRelError: 6.29978e-02\tAbsError: 1.52515e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.01859e-06\tAbsError: 7.60051e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.48154e-06\tAbsError: 7.65095e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 6.29931e-02\tAbsError: 5.24017e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.06040e-07\tAbsError: 7.16803e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.31240e-04\tAbsError: 7.97937e+11\n", + " Region: \"zone_1\"\tRelError: 7.54533e-05\tAbsError: 1.27890e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.50894e-05\tAbsError: 1.20855e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.63943e-07\tAbsError: 1.26681e-04\n", + " Region: \"zone_3\"\tRelError: 3.55787e-04\tAbsError: 7.97937e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.38045e-05\tAbsError: 1.92064e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.48742e-05\tAbsError: 6.05872e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.76744e-04\tAbsError: 1.21338e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.64089e-07\tAbsError: 1.26735e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.50135e+00\tAbsError: 2.91712e+14\n", + " Region: \"zone_1\"\tRelError: 6.56152e-02\tAbsError: 8.99313e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.54450e-02\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70195e-04\tAbsError: 5.91677e-02\n", + " Region: \"zone_3\"\tRelError: 1.43573e+00\tAbsError: 2.91712e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37692e-01\tAbsError: 1.49991e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32867e-01\tAbsError: 1.41722e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.50013e-02\tAbsError: 3.07641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70195e-04\tAbsError: 5.91677e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.16475e-01\tAbsError: 3.15522e+12\n", + " Region: \"zone_1\"\tRelError: 1.81031e-02\tAbsError: 1.40659e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.80938e-02\tAbsError: 1.08348e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.29419e-06\tAbsError: 3.23108e-03\n", + " Region: \"zone_3\"\tRelError: 2.98372e-01\tAbsError: 3.15522e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.21375e-01\tAbsError: 1.95194e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.86610e-02\tAbsError: 1.20327e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.83264e-02\tAbsError: 1.08348e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.29673e-06\tAbsError: 3.23201e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.59304e-02\tAbsError: 1.10975e+13\n", + " Region: \"zone_1\"\tRelError: 6.60647e-04\tAbsError: 2.32906e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.59978e-04\tAbsError: 3.98553e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.68839e-07\tAbsError: 2.32508e-04\n", + " Region: \"zone_3\"\tRelError: 1.52698e-02\tAbsError: 1.10975e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.32236e-05\tAbsError: 5.52234e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.14382e-05\tAbsError: 5.57521e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.52444e-02\tAbsError: 4.02224e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.69094e-07\tAbsError: 2.32596e-04\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 2.27591e-02\tAbsError: 5.50028e+11\n", + " Region: \"zone_1\"\tRelError: 7.57810e-04\tAbsError: 1.50159e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.57766e-04\tAbsError: 1.82199e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.31100e-08\tAbsError: 1.49977e-05\n", + " Region: \"zone_3\"\tRelError: 2.20013e-02\tAbsError: 5.50028e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.28023e-07\tAbsError: 2.74093e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.25450e-07\tAbsError: 2.75935e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20000e-02\tAbsError: 1.84174e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.31264e-08\tAbsError: 1.50038e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.53826e-04\tAbsError: 1.09912e+11\n", + " Region: \"zone_1\"\tRelError: 2.29821e-05\tAbsError: 4.27473e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.28592e-05\tAbsError: 6.65170e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", + " Region: \"zone_3\"\tRelError: 1.30844e-04\tAbsError: 1.09912e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.01681e-06\tAbsError: 7.52234e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94349e-06\tAbsError: 3.46881e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14760e-04\tAbsError: 6.98367e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 9.34092e-01\tAbsError: 3.63176e+13\n", + " Region: \"zone_1\"\tRelError: 4.74090e-02\tAbsError: 3.08418e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.73947e-02\tAbsError: 2.58899e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42439e-05\tAbsError: 4.95189e-03\n", + " Region: \"zone_3\"\tRelError: 8.86683e-01\tAbsError: 3.63176e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40041e-01\tAbsError: 2.66178e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.98904e-01\tAbsError: 9.69977e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.77237e-02\tAbsError: 2.58388e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42439e-05\tAbsError: 4.95189e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.34486e-03\tAbsError: 1.97182e+12\n", + " Region: \"zone_1\"\tRelError: 1.39485e-04\tAbsError: 8.65138e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39236e-04\tAbsError: 6.47581e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.48683e-07\tAbsError: 8.64490e-05\n", + " Region: \"zone_3\"\tRelError: 3.20538e-03\tAbsError: 1.97182e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.27846e-06\tAbsError: 9.81632e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.12485e-06\tAbsError: 9.90188e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.20072e-03\tAbsError: 6.54815e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.48776e-07\tAbsError: 8.64826e-05\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 5.01087e-03\tAbsError: 1.11391e+11\n", + " Region: \"zone_1\"\tRelError: 1.44411e-04\tAbsError: 4.88363e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.44397e-04\tAbsError: 3.97189e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.40263e-08\tAbsError: 4.87966e-06\n", + " Region: \"zone_3\"\tRelError: 4.86646e-03\tAbsError: 1.11391e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.24940e-07\tAbsError: 5.55183e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.83217e-07\tAbsError: 5.58731e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.86614e-03\tAbsError: 4.01386e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.40317e-08\tAbsError: 4.88166e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.06954e-02\tAbsError: 2.66197e+12\n", + " Region: \"zone_1\"\tRelError: 9.55650e-04\tAbsError: 2.48145e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 9.48509e-04\tAbsError: 1.57463e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.14062e-06\tAbsError: 2.47987e-03\n", + " Region: \"zone_3\"\tRelError: 6.97397e-02\tAbsError: 2.66197e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.71718e-02\tAbsError: 1.64482e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.35073e-04\tAbsError: 1.01715e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.42575e-03\tAbsError: 1.64454e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.14062e-06\tAbsError: 2.47987e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.84860e-05\tAbsError: 3.70987e+10\n", + " Region: \"zone_1\"\tRelError: 3.74711e-06\tAbsError: 5.87951e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.73032e-06\tAbsError: 3.58594e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67880e-08\tAbsError: 5.84365e-06\n", + " Region: \"zone_3\"\tRelError: 2.47389e-05\tAbsError: 3.70987e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.96764e-06\tAbsError: 1.24118e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.94133e-06\tAbsError: 2.46869e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88131e-05\tAbsError: 3.59119e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67950e-08\tAbsError: 5.84625e-06\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.15137e-03\tAbsError: 7.06680e+11\n", + " Region: \"zone_1\"\tRelError: 4.79513e-05\tAbsError: 1.84347e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.78983e-05\tAbsError: 2.30046e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.29631e-08\tAbsError: 1.84117e-05\n", + " Region: \"zone_3\"\tRelError: 1.10342e-03\tAbsError: 7.06680e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.28767e-07\tAbsError: 3.51782e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.37241e-07\tAbsError: 3.54898e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10180e-03\tAbsError: 2.32700e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.29832e-08\tAbsError: 1.84191e-05\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 1.55548e-03\tAbsError: 3.57700e+10\n", + " Region: \"zone_1\"\tRelError: 4.47196e-05\tAbsError: 1.10628e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.47164e-05\tAbsError: 1.25298e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.17634e-09\tAbsError: 1.10503e-06\n", + " Region: \"zone_3\"\tRelError: 1.51077e-03\tAbsError: 3.57700e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.25221e-08\tAbsError: 1.78277e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.16249e-08\tAbsError: 1.79424e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51068e-03\tAbsError: 1.26647e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.17764e-09\tAbsError: 1.10551e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:13\u001b[0m.\u001b[1;36m829\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.4\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Iteration: 3\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 2.84661e-01\tAbsError: 3.60687e+12\n", + " Region: \"zone_1\"\tRelError: 1.51217e-02\tAbsError: 1.24488e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51123e-02\tAbsError: 9.16566e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.44375e-06\tAbsError: 3.28309e-03\n", + " Region: \"zone_3\"\tRelError: 2.69539e-01\tAbsError: 3.60687e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12296e-01\tAbsError: 2.19867e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.19182e-02\tAbsError: 1.40820e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.53153e-02\tAbsError: 9.16570e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.44375e-06\tAbsError: 3.28309e-03\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 9.26628e-04\tAbsError: 1.21933e+12\n", + " Region: \"zone_1\"\tRelError: 1.56167e-04\tAbsError: 1.24459e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55815e-04\tAbsError: 1.74943e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.52501e-07\tAbsError: 1.22710e-04\n", + " Region: \"zone_3\"\tRelError: 7.70461e-04\tAbsError: 1.21933e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.51322e-04\tAbsError: 3.29136e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.51151e-04\tAbsError: 8.90191e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.67636e-04\tAbsError: 1.74963e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.52654e-07\tAbsError: 1.22766e-04\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 2.60636e-04\tAbsError: 1.46372e+11\n", + " Region: \"zone_1\"\tRelError: 1.08690e-05\tAbsError: 6.03090e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08517e-05\tAbsError: 5.09600e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73339e-08\tAbsError: 6.02581e-06\n", + " Region: \"zone_3\"\tRelError: 2.49767e-04\tAbsError: 1.46372e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.68311e-07\tAbsError: 7.29196e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.63262e-07\tAbsError: 7.34528e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49418e-04\tAbsError: 5.15309e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73406e-08\tAbsError: 6.02830e-06\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 3.64915e-04\tAbsError: 7.98660e+09\n", + " Region: \"zone_1\"\tRelError: 9.72642e-06\tAbsError: 3.32542e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 9.72547e-06\tAbsError: 2.90945e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.55034e-10\tAbsError: 3.32251e-07\n", + " Region: \"zone_3\"\tRelError: 3.55189e-04\tAbsError: 7.98660e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.14142e-09\tAbsError: 3.98083e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.31282e-08\tAbsError: 4.00578e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.55167e-04\tAbsError: 2.94028e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.55427e-10\tAbsError: 3.32397e-07\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.15194e-02\tAbsError: 3.32535e+12\n", + " Region: \"zone_1\"\tRelError: 1.39864e-03\tAbsError: 2.06495e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39273e-03\tAbsError: 1.45908e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.90384e-06\tAbsError: 2.05036e-03\n", + " Region: \"zone_3\"\tRelError: 6.01208e-02\tAbsError: 3.32535e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.70408e-02\tAbsError: 2.05874e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.81904e-04\tAbsError: 1.26661e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49214e-03\tAbsError: 1.52370e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.90384e-06\tAbsError: 2.05036e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.87618e+01\tAbsError: 8.25603e+15\n", + " Region: \"zone_1\"\tRelError: 2.71120e+01\tAbsError: 4.09561e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.71120e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.29384e-09\tAbsError: 1.83846e-06\n", + " Region: \"zone_3\"\tRelError: 1.64979e+00\tAbsError: 8.25603e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69658e-01\tAbsError: 4.86497e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69634e-01\tAbsError: 3.39106e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10500e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.29480e-09\tAbsError: 1.83875e-06\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.48517e-04\tAbsError: 1.02383e+11\n", + " Region: \"zone_1\"\tRelError: 3.65622e-05\tAbsError: 7.18044e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.63556e-05\tAbsError: 5.91894e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.06572e-07\tAbsError: 7.17452e-05\n", + " Region: \"zone_3\"\tRelError: 1.11955e-04\tAbsError: 1.02383e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94379e-06\tAbsError: 7.36990e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.86830e-06\tAbsError: 2.86838e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 9.59358e-05\tAbsError: 6.22686e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.06635e-07\tAbsError: 7.17655e-05\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 1.06447e-04\tAbsError: 2.38457e+09\n", + " Region: \"zone_1\"\tRelError: 2.83901e-06\tAbsError: 7.94085e-08\n", + " Equation: \"PotentialEquation\"\tRelError: 2.83878e-06\tAbsError: 8.58058e-11\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28004e-10\tAbsError: 7.93227e-08\n", + " Region: \"zone_3\"\tRelError: 1.03608e-04\tAbsError: 2.38457e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12667e-09\tAbsError: 1.18855e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.60756e-09\tAbsError: 1.19603e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03602e-04\tAbsError: 8.67255e-11\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28098e-10\tAbsError: 7.93566e-08\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 8.12930e-05\tAbsError: 4.69072e+10\n", + " Region: \"zone_1\"\tRelError: 3.38946e-06\tAbsError: 1.38742e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.38548e-06\tAbsError: 1.62196e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.98640e-09\tAbsError: 1.38580e-06\n", + " Region: \"zone_3\"\tRelError: 7.79035e-05\tAbsError: 4.69072e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.45193e-08\tAbsError: 2.33605e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.92263e-08\tAbsError: 2.35467e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.77958e-05\tAbsError: 1.64038e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.98804e-09\tAbsError: 1.38641e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.41565e-04\tAbsError: 9.91706e+11\n", + " Region: \"zone_1\"\tRelError: 9.96184e-05\tAbsError: 1.41222e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.92169e-05\tAbsError: 1.43594e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.01561e-07\tAbsError: 1.39787e-04\n", + " Region: \"zone_3\"\tRelError: 5.41946e-04\tAbsError: 9.91706e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33847e-04\tAbsError: 2.52735e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.19507e-04\tAbsError: 7.38971e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88191e-04\tAbsError: 1.43639e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.01716e-07\tAbsError: 1.39843e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.69855e+00\tAbsError: 3.40458e+14\n", + " Region: \"zone_1\"\tRelError: 2.34470e-01\tAbsError: 7.85796e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.34332e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", + " Region: \"zone_3\"\tRelError: 1.46408e+00\tAbsError: 3.40458e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39247e-01\tAbsError: 2.37038e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.31799e-01\tAbsError: 1.03420e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.29010e-02\tAbsError: 3.07639e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 7.22553e-05\tAbsError: 6.59420e+10\n", + " Region: \"zone_1\"\tRelError: 1.65241e-05\tAbsError: 3.84626e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65132e-05\tAbsError: 5.77443e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08827e-08\tAbsError: 3.78852e-06\n", + " Region: \"zone_3\"\tRelError: 5.57311e-05\tAbsError: 6.59420e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.89013e-06\tAbsError: 2.63777e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.84086e-06\tAbsError: 3.95643e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.39893e-05\tAbsError: 5.78772e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08882e-08\tAbsError: 3.79051e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:17\u001b[0m.\u001b[1;36m160\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:17\u001b[0m.\u001b[1;36m160\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.3111111111111111\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "Iteration: 16\n", + "number of equations 31816\n", + " Device: \"device\"\tRelError: 2.60018e-05\tAbsError: 5.65889e+08\n", + " Region: \"zone_1\"\tRelError: 6.67181e-07\tAbsError: 2.27233e-08\n", + " Equation: \"PotentialEquation\"\tRelError: 6.67116e-07\tAbsError: 2.08086e-11\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.52555e-11\tAbsError: 2.27025e-08\n", + " Region: \"zone_3\"\tRelError: 2.53346e-05\tAbsError: 5.65889e+08\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.46746e-10\tAbsError: 2.82069e+08\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.26145e-10\tAbsError: 2.83820e+08\n", + " Equation: \"PotentialEquation\"\tRelError: 2.53331e-05\tAbsError: 2.10295e-11\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.52825e-11\tAbsError: 2.27122e-08\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.93101e-04\tAbsError: 1.20960e+11\n", + " Region: \"zone_1\"\tRelError: 5.19822e-05\tAbsError: 5.49693e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.18241e-05\tAbsError: 7.13690e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.58064e-07\tAbsError: 5.48979e-05\n", + " Region: \"zone_3\"\tRelError: 1.41119e-04\tAbsError: 1.20960e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98314e-06\tAbsError: 8.30762e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.89229e-06\tAbsError: 3.78839e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21085e-04\tAbsError: 7.51136e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.58064e-07\tAbsError: 5.48979e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.10009e+00\tAbsError: 9.49766e+13\n", + " Region: \"zone_1\"\tRelError: 1.69910e-01\tAbsError: 3.26443e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.69891e-01\tAbsError: 2.58991e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", + " Region: \"zone_3\"\tRelError: 9.30185e-01\tAbsError: 9.49766e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40985e-01\tAbsError: 5.67002e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.12174e-01\tAbsError: 3.82763e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.70066e-02\tAbsError: 2.58994e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 4.53796e+01\tAbsError: 8.73906e+15\n", + " Region: \"zone_1\"\tRelError: 4.37173e+01\tAbsError: 4.20763e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.37173e+01\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06476e-08\tAbsError: 3.70148e-06\n", + " Region: \"zone_3\"\tRelError: 1.66235e+00\tAbsError: 8.73906e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.79081e-01\tAbsError: 5.04538e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.79062e-01\tAbsError: 3.69368e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04209e-01\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06482e-08\tAbsError: 3.70175e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:18\u001b[0m.\u001b[1;36m772\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:18\u001b[0m.\u001b[1;36m813\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.15 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:18\u001b[0m.\u001b[1;36m859\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.80765e-05\tAbsError: 4.88655e+10\n", + " Region: \"zone_1\"\tRelError: 1.14721e-05\tAbsError: 6.01773e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14550e-05\tAbsError: 4.42598e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71595e-08\tAbsError: 5.97347e-06\n", + " Region: \"zone_3\"\tRelError: 3.66044e-05\tAbsError: 4.88655e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.37873e-06\tAbsError: 1.78083e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.34139e-06\tAbsError: 3.10572e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78671e-05\tAbsError: 4.43720e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71671e-08\tAbsError: 5.97626e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:19\u001b[0m.\u001b[1;36m525\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:19\u001b[0m.\u001b[1;36m525\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.56252e-01\tAbsError: 3.42527e+13\n", + " Region: \"zone_1\"\tRelError: 6.41646e-02\tAbsError: 1.11813e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.41588e-02\tAbsError: 9.16555e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.79958e-06\tAbsError: 2.01571e-03\n", + " Region: \"zone_3\"\tRelError: 2.92088e-01\tAbsError: 3.42527e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07223e-01\tAbsError: 1.60452e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.07953e-02\tAbsError: 1.82076e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.40630e-02\tAbsError: 9.16559e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.80279e-06\tAbsError: 2.01683e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.90027e+03\tAbsError: 5.37118e+18\n", + " Region: \"zone_1\"\tRelError: 4.52123e+02\tAbsError: 8.96717e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.52123e+02\tAbsError: 8.96713e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20641e-09\tAbsError: 4.19390e-07\n", + " Region: \"zone_3\"\tRelError: 1.44814e+03\tAbsError: 5.37118e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.05875e+03\tAbsError: 2.27129e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.72871e+01\tAbsError: 3.09989e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 3.02108e+02\tAbsError: 8.96718e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20691e-09\tAbsError: 4.19574e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:19\u001b[0m.\u001b[1;36m874\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:19\u001b[0m.\u001b[1;36m903\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.2 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:19\u001b[0m.\u001b[1;36m941\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.78353e+00\tAbsError: 3.20634e+14\n", + " Region: \"zone_1\"\tRelError: 2.98373e-01\tAbsError: 8.95563e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.98208e-01\tAbsError: 3.20823e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.65352e-04\tAbsError: 5.74740e-02\n", + " Region: \"zone_3\"\tRelError: 1.48516e+00\tAbsError: 3.20634e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.55334e-01\tAbsError: 2.00005e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.49888e-01\tAbsError: 1.20629e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.97682e-02\tAbsError: 3.20828e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.65352e-04\tAbsError: 5.74740e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.00258e+03\tAbsError: 8.62732e+18\n", + " Region: \"zone_1\"\tRelError: 2.86622e+02\tAbsError: 9.11935e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.86622e+02\tAbsError: 9.11935e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.61299e-11\tAbsError: 5.61160e-09\n", + " Region: \"zone_3\"\tRelError: 7.15961e+02\tAbsError: 8.62732e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.81333e+02\tAbsError: 3.52151e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.81580e+02\tAbsError: 5.10581e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 3.53049e+02\tAbsError: 9.11941e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.61365e-11\tAbsError: 5.61401e-09\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.29649e+01\tAbsError: 8.28032e+15\n", + " Region: \"zone_1\"\tRelError: 1.13261e+01\tAbsError: 4.09567e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13261e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.18749e-09\tAbsError: 2.49623e-06\n", + " Region: \"zone_3\"\tRelError: 1.63880e+00\tAbsError: 8.28032e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69633e-01\tAbsError: 4.77284e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.50748e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.95556e-02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.18841e-09\tAbsError: 2.49658e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.59960e-02\tAbsError: 3.73217e+12\n", + " Region: \"zone_1\"\tRelError: 7.31305e-03\tAbsError: 2.21475e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.30674e-03\tAbsError: 2.57182e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", + " Region: \"zone_3\"\tRelError: 5.86829e-02\tAbsError: 3.73217e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.62142e-02\tAbsError: 2.07187e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.09163e-04\tAbsError: 1.66031e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65329e-03\tAbsError: 2.69578e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.46925e+02\tAbsError: 4.60507e+18\n", + " Region: \"zone_1\"\tRelError: 9.01379e+01\tAbsError: 2.15512e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 9.01319e+01\tAbsError: 8.66949e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.98322e-03\tAbsError: 2.06842e+00\n", + " Region: \"zone_3\"\tRelError: 1.56787e+02\tAbsError: 4.60507e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.98090e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.08643e+01\tAbsError: 2.62417e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06917e+02\tAbsError: 8.66950e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.98604e-03\tAbsError: 2.06939e+00\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.03427e+00\tAbsError: 4.51977e+13\n", + " Region: \"zone_1\"\tRelError: 6.36974e-02\tAbsError: 3.23235e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.36789e-02\tAbsError: 2.58918e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.85036e-05\tAbsError: 6.43172e-03\n", + " Region: \"zone_3\"\tRelError: 9.70572e-01\tAbsError: 4.51977e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.66780e-01\tAbsError: 3.22363e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.39601e-01\tAbsError: 1.29614e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.41727e-02\tAbsError: 2.58956e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.85036e-05\tAbsError: 6.43172e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.48404e+03\tAbsError: 7.29201e+18\n", + " Region: \"zone_1\"\tRelError: 6.70547e+02\tAbsError: 2.86307e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 6.70539e+02\tAbsError: 8.83464e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.90934e-03\tAbsError: 2.77472e+00\n", + " Region: \"zone_3\"\tRelError: 8.13489e+02\tAbsError: 7.29201e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.04808e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.08013e+02\tAbsError: 4.24393e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 9.64677e+01\tAbsError: 8.83466e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.92313e-03\tAbsError: 2.77963e+00\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.56865e+00\tAbsError: 2.86625e+14\n", + " Region: \"zone_1\"\tRelError: 1.21045e-01\tAbsError: 8.55195e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20888e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", + " Region: \"zone_3\"\tRelError: 1.44761e+00\tAbsError: 2.86625e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38556e-01\tAbsError: 1.75436e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32332e-01\tAbsError: 1.11189e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.65613e-02\tAbsError: 3.07640e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 8.14034e-04\tAbsError: 1.03618e+12\n", + " Region: \"zone_1\"\tRelError: 1.43803e-04\tAbsError: 7.79056e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43584e-04\tAbsError: 1.54074e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19396e-07\tAbsError: 7.63649e-05\n", + " Region: \"zone_3\"\tRelError: 6.70231e-04\tAbsError: 1.03618e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.21829e-04\tAbsError: 2.70793e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.05108e-04\tAbsError: 7.65387e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.43074e-04\tAbsError: 1.54210e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19498e-07\tAbsError: 7.64015e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.62556e+02\tAbsError: 6.63850e+17\n", + " Region: \"zone_1\"\tRelError: 1.41773e+01\tAbsError: 3.02150e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.41689e+01\tAbsError: 8.34500e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.43572e-03\tAbsError: 2.93805e+00\n", + " Region: \"zone_3\"\tRelError: 1.48378e+02\tAbsError: 6.63850e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.28198e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.21851e+02\tAbsError: 3.35652e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.75188e+01\tAbsError: 8.34501e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.43572e-03\tAbsError: 2.93805e+00\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.28178e-01\tAbsError: 8.08491e+12\n", + " Region: \"zone_1\"\tRelError: 2.27182e-02\tAbsError: 1.36097e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.27102e-02\tAbsError: 1.08347e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.98363e-06\tAbsError: 2.77500e-03\n", + " Region: \"zone_3\"\tRelError: 3.05460e-01\tAbsError: 8.08491e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.21319e-01\tAbsError: 3.95150e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.12011e-02\tAbsError: 4.13341e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29316e-02\tAbsError: 1.08348e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.98817e-06\tAbsError: 2.77667e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.14776e+02\tAbsError: 1.71822e+18\n", + " Region: \"zone_1\"\tRelError: 1.56981e+01\tAbsError: 2.79470e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.56903e+01\tAbsError: 8.52528e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.78337e-03\tAbsError: 2.70944e+00\n", + " Region: \"zone_3\"\tRelError: 9.90783e+01\tAbsError: 1.71822e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.15408e+01\tAbsError: 8.21769e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 8.96453e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 7.85297e+01\tAbsError: 8.52530e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.79850e-03\tAbsError: 2.71474e+00\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 9.63437e-01\tAbsError: 3.66677e+13\n", + " Region: \"zone_1\"\tRelError: 5.93231e-02\tAbsError: 3.16919e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.93064e-02\tAbsError: 2.58707e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", + " Region: \"zone_3\"\tRelError: 9.04114e-01\tAbsError: 3.66677e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40101e-01\tAbsError: 2.63702e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.04471e-01\tAbsError: 1.02975e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95256e-02\tAbsError: 2.58992e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.61312e-05\tAbsError: 5.74046e+10\n", + " Region: \"zone_1\"\tRelError: 1.61849e-05\tAbsError: 6.45313e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.59991e-05\tAbsError: 3.79845e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.85726e-07\tAbsError: 6.44934e-05\n", + " Region: \"zone_3\"\tRelError: 5.99464e-05\tAbsError: 5.74046e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.77906e-06\tAbsError: 4.68633e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.20461e-06\tAbsError: 1.05413e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.27769e-05\tAbsError: 3.95532e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.85828e-07\tAbsError: 6.45281e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.92816e+01\tAbsError: 2.74112e+17\n", + " Region: \"zone_1\"\tRelError: 3.85174e+01\tAbsError: 8.02176e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.85153e+01\tAbsError: 7.98884e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.07534e-03\tAbsError: 7.22287e-01\n", + " Region: \"zone_3\"\tRelError: 1.07642e+01\tAbsError: 2.74112e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.66332e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.94250e-01\tAbsError: 1.07780e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 7.67905e-01\tAbsError: 7.98885e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.07726e-03\tAbsError: 7.22960e-01\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:24\u001b[0m.\u001b[1;36m137\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.5\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.10167e-02\tAbsError: 2.38578e+12\n", + " Region: \"zone_1\"\tRelError: 1.03176e-03\tAbsError: 1.89283e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02633e-03\tAbsError: 7.31748e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.42975e-06\tAbsError: 1.88552e-03\n", + " Region: \"zone_3\"\tRelError: 6.99850e-02\tAbsError: 2.38578e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.73342e-02\tAbsError: 1.66489e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.74130e-04\tAbsError: 7.20890e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.27127e-03\tAbsError: 7.80004e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.42975e-06\tAbsError: 1.88552e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.23062e+03\tAbsError: 2.01573e+18\n", + " Region: \"zone_1\"\tRelError: 5.83577e+01\tAbsError: 5.52378e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.83563e+01\tAbsError: 8.18705e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.35598e-03\tAbsError: 4.70508e-01\n", + " Region: \"zone_3\"\tRelError: 4.17227e+03\tAbsError: 2.01573e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.67371e+01\tAbsError: 1.02135e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.06151e+03\tAbsError: 9.94376e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40204e+01\tAbsError: 8.18706e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.35728e-03\tAbsError: 4.70981e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.93334e-01\tAbsError: 6.56738e+12\n", + " Region: \"zone_1\"\tRelError: 1.86981e-02\tAbsError: 1.19586e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86900e-02\tAbsError: 9.16562e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03535e-06\tAbsError: 2.79297e-03\n", + " Region: \"zone_3\"\tRelError: 2.74636e-01\tAbsError: 6.56738e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11907e-01\tAbsError: 3.29549e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.38500e-02\tAbsError: 3.27189e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88710e-02\tAbsError: 9.16566e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03753e-06\tAbsError: 2.79381e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.41920e+01\tAbsError: 8.92286e+16\n", + " Region: \"zone_1\"\tRelError: 1.34180e+01\tAbsError: 2.47057e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.34176e+01\tAbsError: 7.59482e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.93256e-04\tAbsError: 1.71108e-01\n", + " Region: \"zone_3\"\tRelError: 8.07740e+01\tAbsError: 8.92286e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.11407e+01\tAbsError: 4.48730e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.88068e+01\tAbsError: 4.43556e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 8.26014e-01\tAbsError: 7.59483e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.93256e-04\tAbsError: 1.71108e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.61567e-04\tAbsError: 9.20598e+11\n", + " Region: \"zone_1\"\tRelError: 1.84125e-04\tAbsError: 1.22381e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.83778e-04\tAbsError: 1.37878e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.47625e-07\tAbsError: 1.21002e-04\n", + " Region: \"zone_3\"\tRelError: 4.77442e-04\tAbsError: 9.20598e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07278e-04\tAbsError: 2.31855e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.91369e-05\tAbsError: 6.88743e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.70679e-04\tAbsError: 1.38492e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.47770e-07\tAbsError: 1.21055e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.60199e+01\tAbsError: 8.22903e+15\n", + " Region: \"zone_1\"\tRelError: 3.43433e+01\tAbsError: 4.09555e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.43433e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.48443e-09\tAbsError: 1.21289e-06\n", + " Region: \"zone_3\"\tRelError: 1.67662e+00\tAbsError: 8.22903e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.78919e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.43984e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37338e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.48691e-09\tAbsError: 1.21378e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.70269e+02\tAbsError: 3.15415e+17\n", + " Region: \"zone_1\"\tRelError: 3.97348e+01\tAbsError: 1.66973e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 3.97302e+01\tAbsError: 7.81451e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.56613e-03\tAbsError: 1.59158e+00\n", + " Region: \"zone_3\"\tRelError: 2.30534e+02\tAbsError: 3.15415e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.16146e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.20185e+02\tAbsError: 1.99269e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.34469e+00\tAbsError: 7.81452e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.56613e-03\tAbsError: 1.59158e+00\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.00158e-02\tAbsError: 2.47729e+12\n", + " Region: \"zone_1\"\tRelError: 6.29744e-04\tAbsError: 1.66755e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.24968e-04\tAbsError: 8.94858e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", + " Region: \"zone_3\"\tRelError: 5.93860e-02\tAbsError: 2.47729e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.68115e-02\tAbsError: 1.70064e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.91678e-04\tAbsError: 7.76647e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.27809e-03\tAbsError: 9.43816e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.61868e+04\tAbsError: 2.45821e+16\n", + " Region: \"zone_1\"\tRelError: 5.96186e+01\tAbsError: 2.86664e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.96180e+01\tAbsError: 7.15490e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.18929e-04\tAbsError: 2.15115e-01\n", + " Region: \"zone_3\"\tRelError: 3.61271e+04\tAbsError: 2.45821e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.91378e+01\tAbsError: 1.52565e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.60678e+04\tAbsError: 9.32566e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.90477e-01\tAbsError: 7.15491e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.23341e-04\tAbsError: 2.16649e-01\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.40659e-04\tAbsError: 1.03289e+11\n", + " Region: \"zone_1\"\tRelError: 2.12574e-05\tAbsError: 5.16744e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.11088e-05\tAbsError: 6.24908e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.48618e-07\tAbsError: 5.16119e-05\n", + " Region: \"zone_3\"\tRelError: 1.19402e-04\tAbsError: 1.03289e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.27254e-06\tAbsError: 7.22229e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.20253e-06\tAbsError: 3.10661e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04778e-04\tAbsError: 6.53626e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.48618e-07\tAbsError: 5.16119e-05\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.73485e+00\tAbsError: 1.08973e+15\n", + " Region: \"zone_1\"\tRelError: 2.25350e+00\tAbsError: 6.85700e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.25339e+00\tAbsError: 3.07635e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", + " Region: \"zone_3\"\tRelError: 1.48136e+00\tAbsError: 1.08973e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41054e-01\tAbsError: 6.25022e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.24005e-01\tAbsError: 4.64711e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16189e-01\tAbsError: 3.07637e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.23073e+02\tAbsError: 2.54941e+16\n", + " Region: \"zone_1\"\tRelError: 4.95529e+00\tAbsError: 3.09553e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.95461e+00\tAbsError: 7.40071e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.76242e-04\tAbsError: 2.35546e-01\n", + " Region: \"zone_3\"\tRelError: 1.18117e+02\tAbsError: 2.54941e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.04760e+01\tAbsError: 1.58057e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.70604e+01\tAbsError: 9.68846e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.80403e-01\tAbsError: 7.40073e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.78155e-04\tAbsError: 2.36212e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.31240e-04\tAbsError: 7.97937e+11\n", + " Region: \"zone_1\"\tRelError: 7.54533e-05\tAbsError: 1.27890e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.50894e-05\tAbsError: 1.20855e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.63943e-07\tAbsError: 1.26681e-04\n", + " Region: \"zone_3\"\tRelError: 3.55787e-04\tAbsError: 7.97937e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.38045e-05\tAbsError: 1.92064e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.48742e-05\tAbsError: 6.05872e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.76744e-04\tAbsError: 1.21338e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.64089e-07\tAbsError: 1.26735e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 9.92388e+02\tAbsError: 7.05220e+15\n", + " Region: \"zone_1\"\tRelError: 1.96893e+00\tAbsError: 2.66104e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.96836e+00\tAbsError: 6.65853e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.74410e-04\tAbsError: 1.99519e-01\n", + " Region: \"zone_3\"\tRelError: 9.90419e+02\tAbsError: 7.05220e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46081e+01\tAbsError: 3.87813e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.75648e+02\tAbsError: 3.17407e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.62802e-01\tAbsError: 6.65854e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.74742e-04\tAbsError: 1.99639e-01\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.99773e-05\tAbsError: 4.61446e+10\n", + " Region: \"zone_1\"\tRelError: 5.47446e-06\tAbsError: 4.95784e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 5.46034e-06\tAbsError: 4.32646e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41187e-08\tAbsError: 4.91458e-06\n", + " Region: \"zone_3\"\tRelError: 3.45029e-05\tAbsError: 4.61446e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.64729e-06\tAbsError: 1.69007e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.61509e-06\tAbsError: 2.92439e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.72264e-05\tAbsError: 4.33338e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41253e-08\tAbsError: 4.91694e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:28\u001b[0m.\u001b[1;36m636\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:28\u001b[0m.\u001b[1;36m636\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.41666666666666674\u001b[0m \n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.38677e+00\tAbsError: 6.38966e+14\n", + " Region: \"zone_1\"\tRelError: 4.51470e-01\tAbsError: 3.37904e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.51448e-01\tAbsError: 2.58448e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", + " Region: \"zone_3\"\tRelError: 9.35299e-01\tAbsError: 6.38966e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42607e-01\tAbsError: 3.02038e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.95795e-01\tAbsError: 3.36928e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.68743e-02\tAbsError: 2.57679e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.67495e+02\tAbsError: 1.22523e+16\n", + " Region: \"zone_1\"\tRelError: 7.25799e+00\tAbsError: 1.33943e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 7.25433e+00\tAbsError: 6.93658e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.65903e-03\tAbsError: 1.27006e+00\n", + " Region: \"zone_3\"\tRelError: 6.60237e+02\tAbsError: 1.22523e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.16281e+01\tAbsError: 8.36742e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.28467e+02\tAbsError: 3.88490e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37665e-01\tAbsError: 6.93660e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.66331e-03\tAbsError: 1.27164e+00\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.53826e-04\tAbsError: 1.09912e+11\n", + " Region: \"zone_1\"\tRelError: 2.29821e-05\tAbsError: 4.27473e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.28592e-05\tAbsError: 6.65170e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", + " Region: \"zone_3\"\tRelError: 1.30844e-04\tAbsError: 1.09912e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.01681e-06\tAbsError: 7.52234e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94349e-06\tAbsError: 3.46881e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14760e-04\tAbsError: 6.98367e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.07565e+03\tAbsError: 2.97831e+15\n", + " Region: \"zone_1\"\tRelError: 7.88747e-01\tAbsError: 7.97100e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.88692e-01\tAbsError: 6.09159e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.42014e-05\tAbsError: 1.87941e-02\n", + " Region: \"zone_3\"\tRelError: 2.07486e+03\tAbsError: 2.97831e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.62931e+03\tAbsError: 1.45076e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.45419e+02\tAbsError: 1.52755e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31609e-01\tAbsError: 6.09160e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.42014e-05\tAbsError: 1.87941e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.41554e-01\tAbsError: 2.20715e+14\n", + " Region: \"zone_1\"\tRelError: 2.89595e-02\tAbsError: 1.67352e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.89377e-02\tAbsError: 9.16565e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18085e-05\tAbsError: 7.56954e-03\n", + " Region: \"zone_3\"\tRelError: 3.12594e-01\tAbsError: 2.20715e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.94155e-01\tAbsError: 1.01533e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.87246e-02\tAbsError: 1.19182e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.96932e-02\tAbsError: 9.16570e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18152e-05\tAbsError: 7.57200e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.78015e+00\tAbsError: 8.71104e+15\n", + " Region: \"zone_1\"\tRelError: 5.10762e+00\tAbsError: 4.20750e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.10762e+00\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.88726e-09\tAbsError: 2.39171e-06\n", + " Region: \"zone_3\"\tRelError: 1.67253e+00\tAbsError: 8.71104e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.79105e-01\tAbsError: 5.13893e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.79081e-01\tAbsError: 3.57211e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14344e-01\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.88765e-09\tAbsError: 2.39188e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 6.07056e+03\tAbsError: 2.63900e+15\n", + " Region: \"zone_1\"\tRelError: 5.09026e-01\tAbsError: 3.20040e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.08290e-01\tAbsError: 6.41007e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.36815e-04\tAbsError: 2.55940e-01\n", + " Region: \"zone_3\"\tRelError: 6.07005e+03\tAbsError: 2.63900e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.91925e+02\tAbsError: 1.14350e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.27722e+03\tAbsError: 1.49550e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.02237e-01\tAbsError: 6.41009e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.36815e-04\tAbsError: 2.55940e-01\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.84860e-05\tAbsError: 3.70987e+10\n", + " Region: \"zone_1\"\tRelError: 3.74711e-06\tAbsError: 5.87951e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.73032e-06\tAbsError: 3.58594e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67880e-08\tAbsError: 5.84365e-06\n", + " Region: \"zone_3\"\tRelError: 2.47389e-05\tAbsError: 3.70987e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.96764e-06\tAbsError: 1.24118e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.94133e-06\tAbsError: 2.46869e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88131e-05\tAbsError: 3.59119e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67950e-08\tAbsError: 5.84625e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:30\u001b[0m.\u001b[1;36m918\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.4\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 4.49636e+02\tAbsError: 4.51750e+14\n", + " Region: \"zone_1\"\tRelError: 1.00276e-01\tAbsError: 1.10034e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00116e-01\tAbsError: 5.43521e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60564e-04\tAbsError: 5.56816e-02\n", + " Region: \"zone_3\"\tRelError: 4.49536e+02\tAbsError: 4.51750e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.26716e+01\tAbsError: 5.47094e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.06762e+02\tAbsError: 3.97041e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02347e-01\tAbsError: 5.43523e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60564e-04\tAbsError: 5.56816e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.19808e-02\tAbsError: 3.06344e+13\n", + " Region: \"zone_1\"\tRelError: 2.04251e-02\tAbsError: 4.10278e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.04136e-02\tAbsError: 1.00349e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", + " Region: \"zone_3\"\tRelError: 6.15557e-02\tAbsError: 3.06344e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38926e-02\tAbsError: 1.71938e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.73234e-03\tAbsError: 1.34406e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.91920e-03\tAbsError: 1.01109e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.61144e+00\tAbsError: 4.09484e+14\n", + " Region: \"zone_1\"\tRelError: 1.09378e-01\tAbsError: 8.14870e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09236e-01\tAbsError: 3.20823e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42156e-04\tAbsError: 4.94047e-02\n", + " Region: \"zone_3\"\tRelError: 1.50206e+00\tAbsError: 4.09484e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.56231e-01\tAbsError: 2.78101e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.48983e-01\tAbsError: 1.31383e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.67091e-02\tAbsError: 3.20827e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42156e-04\tAbsError: 4.94047e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.85182e+03\tAbsError: 1.09273e+15\n", + " Region: \"zone_1\"\tRelError: 2.54667e-01\tAbsError: 9.80021e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.54552e-01\tAbsError: 5.80508e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.14819e-04\tAbsError: 3.99513e-02\n", + " Region: \"zone_3\"\tRelError: 2.85157e+03\tAbsError: 1.09273e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.67991e+03\tAbsError: 5.50437e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.71484e+02\tAbsError: 5.42289e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74947e-01\tAbsError: 5.80510e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.14878e-04\tAbsError: 3.99728e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.37289e+02\tAbsError: 6.00976e+14\n", + " Region: \"zone_1\"\tRelError: 7.57511e-02\tAbsError: 9.88774e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.56005e-02\tAbsError: 4.66459e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.50592e-04\tAbsError: 5.22315e-02\n", + " Region: \"zone_3\"\tRelError: 4.37214e+02\tAbsError: 6.00976e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.45336e+02\tAbsError: 8.47462e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.17993e+01\tAbsError: 5.16230e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.77179e-02\tAbsError: 4.66461e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.50762e-04\tAbsError: 5.22909e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.87618e+01\tAbsError: 8.25603e+15\n", + " Region: \"zone_1\"\tRelError: 2.71120e+01\tAbsError: 4.09561e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.71120e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.29384e-09\tAbsError: 1.83846e-06\n", + " Region: \"zone_3\"\tRelError: 1.64979e+00\tAbsError: 8.25603e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69658e-01\tAbsError: 4.86497e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69634e-01\tAbsError: 3.39106e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10500e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.29480e-09\tAbsError: 1.83875e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.53920e-03\tAbsError: 1.84314e+12\n", + " Region: \"zone_1\"\tRelError: 2.29752e-04\tAbsError: 2.41443e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29064e-04\tAbsError: 2.20702e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", + " Region: \"zone_3\"\tRelError: 1.30944e-03\tAbsError: 1.84314e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11485e-04\tAbsError: 5.81096e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.63190e-04\tAbsError: 1.26205e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 9.34079e-04\tAbsError: 2.25011e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.08321e+00\tAbsError: 1.41299e+14\n", + " Region: \"zone_1\"\tRelError: 8.35316e-02\tAbsError: 3.33734e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.35101e-02\tAbsError: 2.58986e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.15071e-05\tAbsError: 7.47472e-03\n", + " Region: \"zone_3\"\tRelError: 9.99677e-01\tAbsError: 1.41299e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.67960e-01\tAbsError: 8.48978e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.47194e-01\tAbsError: 5.64012e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.45021e-02\tAbsError: 2.58966e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.15071e-05\tAbsError: 7.47472e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.62477e+02\tAbsError: 5.89812e+14\n", + " Region: \"zone_1\"\tRelError: 7.13628e-02\tAbsError: 1.06744e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 7.12020e-02\tAbsError: 5.10011e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60747e-04\tAbsError: 5.57429e-02\n", + " Region: \"zone_3\"\tRelError: 4.62405e+02\tAbsError: 5.89812e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.02675e+02\tAbsError: 1.03408e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.59659e+02\tAbsError: 4.86405e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.13133e-02\tAbsError: 5.10013e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60928e-04\tAbsError: 5.58062e-02\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 4.32712e+03\tAbsError: 5.18829e+14\n", + " Region: \"zone_1\"\tRelError: 5.29324e-02\tAbsError: 1.07188e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.27316e-02\tAbsError: 3.75038e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.00872e-04\tAbsError: 6.96844e-02\n", + " Region: \"zone_3\"\tRelError: 4.32706e+03\tAbsError: 5.18829e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.69765e+03\tAbsError: 1.02592e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.29359e+02\tAbsError: 5.08570e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.53905e-02\tAbsError: 3.75040e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.01052e-04\tAbsError: 6.97476e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.69855e+00\tAbsError: 3.40458e+14\n", + " Region: \"zone_1\"\tRelError: 2.34470e-01\tAbsError: 7.85796e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.34332e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", + " Region: \"zone_3\"\tRelError: 1.46408e+00\tAbsError: 3.40458e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39247e-01\tAbsError: 2.37038e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.31799e-01\tAbsError: 1.03420e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.29010e-02\tAbsError: 3.07639e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.51045e-04\tAbsError: 2.02519e+11\n", + " Region: \"zone_1\"\tRelError: 4.54891e-05\tAbsError: 1.12868e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.51644e-05\tAbsError: 1.25671e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.24705e-07\tAbsError: 1.12743e-04\n", + " Region: \"zone_3\"\tRelError: 2.05556e-04\tAbsError: 2.02519e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12163e-05\tAbsError: 1.36505e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10724e-05\tAbsError: 6.60139e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82943e-04\tAbsError: 1.30848e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.24777e-07\tAbsError: 1.12769e-04\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.61508e-01\tAbsError: 5.27550e+13\n", + " Region: \"zone_1\"\tRelError: 2.94145e-02\tAbsError: 1.33202e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.94073e-02\tAbsError: 1.08347e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.15182e-06\tAbsError: 2.48551e-03\n", + " Region: \"zone_3\"\tRelError: 3.32093e-01\tAbsError: 5.27550e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.19610e-01\tAbsError: 2.36056e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.27630e-02\tAbsError: 2.91494e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.97131e-02\tAbsError: 1.08347e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.15458e-06\tAbsError: 2.48651e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.09883e+00\tAbsError: 5.25102e+14\n", + " Region: \"zone_1\"\tRelError: 5.64206e-02\tAbsError: 1.09629e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.62276e-02\tAbsError: 4.26776e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93033e-04\tAbsError: 6.69518e-02\n", + " Region: \"zone_3\"\tRelError: 2.04241e+00\tAbsError: 5.25102e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99889e-01\tAbsError: 4.07884e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.86014e-01\tAbsError: 4.84314e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.63142e-02\tAbsError: 4.26779e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93295e-04\tAbsError: 6.70436e-02\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 2.08201e+00\tAbsError: 5.20386e+14\n", + " Region: \"zone_1\"\tRelError: 4.27554e-02\tAbsError: 1.19970e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.24867e-02\tAbsError: 2.67288e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.68705e-04\tAbsError: 9.32414e-02\n", + " Region: \"zone_3\"\tRelError: 2.03925e+00\tAbsError: 5.20386e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99075e-01\tAbsError: 3.26587e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.95085e-01\tAbsError: 4.87727e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.48223e-02\tAbsError: 2.67290e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.68907e-04\tAbsError: 9.33127e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.10009e+00\tAbsError: 9.49766e+13\n", + " Region: \"zone_1\"\tRelError: 1.69910e-01\tAbsError: 3.26443e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.69891e-01\tAbsError: 2.58991e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", + " Region: \"zone_3\"\tRelError: 9.30185e-01\tAbsError: 9.49766e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40985e-01\tAbsError: 5.67002e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.12174e-01\tAbsError: 3.82763e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.70066e-02\tAbsError: 2.58994e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.09882e-04\tAbsError: 1.05387e+11\n", + " Region: \"zone_1\"\tRelError: 1.91896e-05\tAbsError: 8.11152e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.91665e-05\tAbsError: 7.26801e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.30974e-08\tAbsError: 8.03884e-06\n", + " Region: \"zone_3\"\tRelError: 9.06925e-05\tAbsError: 1.05387e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41210e-06\tAbsError: 4.74044e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.36012e-06\tAbsError: 5.79823e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.78972e-05\tAbsError: 7.44246e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.31071e-08\tAbsError: 8.04242e-06\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 2.05544e+04\tAbsError: 5.11096e+14\n", + " Region: \"zone_1\"\tRelError: 4.16734e-02\tAbsError: 1.22443e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.14150e-02\tAbsError: 3.27969e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.58397e-04\tAbsError: 8.96461e-02\n", + " Region: \"zone_3\"\tRelError: 2.05544e+04\tAbsError: 5.11096e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05540e+04\tAbsError: 2.67910e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.81524e-01\tAbsError: 4.84305e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.14810e-02\tAbsError: 3.27973e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.58690e-04\tAbsError: 8.97486e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.43219e-02\tAbsError: 8.92461e+12\n", + " Region: \"zone_1\"\tRelError: 3.17549e-03\tAbsError: 1.97067e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.16999e-03\tAbsError: 6.21400e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.49648e-06\tAbsError: 1.90853e-03\n", + " Region: \"zone_3\"\tRelError: 7.11465e-02\tAbsError: 8.92461e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.59529e-02\tAbsError: 4.79040e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.16358e-03\tAbsError: 4.13421e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.02452e-03\tAbsError: 6.75565e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.49648e-06\tAbsError: 1.90853e-03\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.41006e+03\tAbsError: 3.66092e+14\n", + " Region: \"zone_1\"\tRelError: 2.46352e-02\tAbsError: 1.36306e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.43003e-02\tAbsError: 2.00640e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.34877e-04\tAbsError: 1.16242e-01\n", + " Region: \"zone_3\"\tRelError: 1.41003e+03\tAbsError: 3.66092e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.40999e+03\tAbsError: 1.95915e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.08043e-02\tAbsError: 3.46501e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.43534e-02\tAbsError: 2.00645e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.35242e-04\tAbsError: 1.16370e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.56252e-01\tAbsError: 3.42527e+13\n", + " Region: \"zone_1\"\tRelError: 6.41646e-02\tAbsError: 1.11813e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.41588e-02\tAbsError: 9.16555e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.79958e-06\tAbsError: 2.01571e-03\n", + " Region: \"zone_3\"\tRelError: 2.92088e-01\tAbsError: 3.42527e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07223e-01\tAbsError: 1.60452e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.07953e-02\tAbsError: 1.82076e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.40630e-02\tAbsError: 9.16559e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.80279e-06\tAbsError: 2.01683e-03\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.07439e+00\tAbsError: 4.50827e+14\n", + " Region: \"zone_1\"\tRelError: 3.23408e-02\tAbsError: 1.43038e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.20031e-02\tAbsError: 2.58285e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.37733e-04\tAbsError: 1.17210e-01\n", + " Region: \"zone_3\"\tRelError: 1.04205e+00\tAbsError: 4.50827e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99839e-01\tAbsError: 2.39300e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03729e-02\tAbsError: 4.26898e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.14983e-02\tAbsError: 2.48472e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.38088e-04\tAbsError: 1.17334e-01\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 7.21635e-06\tAbsError: 6.66070e+09\n", + " Region: \"zone_1\"\tRelError: 1.30608e-06\tAbsError: 5.92265e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28905e-06\tAbsError: 4.03393e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70320e-08\tAbsError: 5.91862e-06\n", + " Region: \"zone_3\"\tRelError: 5.91027e-06\tAbsError: 6.66070e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.61854e-07\tAbsError: 4.98332e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.27195e-07\tAbsError: 1.67738e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 5.20418e-06\tAbsError: 4.19235e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70346e-08\tAbsError: 5.91965e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:37\u001b[0m.\u001b[1;36m149\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.6\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 1.04005e+00\tAbsError: 3.08997e+14\n", + " Region: \"zone_1\"\tRelError: 1.65306e-02\tAbsError: 2.11910e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.59217e-02\tAbsError: 4.23946e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.08889e-04\tAbsError: 2.11486e-01\n", + " Region: \"zone_3\"\tRelError: 1.02352e+00\tAbsError: 3.08997e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.97860e-01\tAbsError: 2.83986e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.30303e-02\tAbsError: 2.80599e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.02464e-03\tAbsError: 4.31042e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.09325e-04\tAbsError: 2.11636e-01\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.70071e-04\tAbsError: 8.96392e+11\n", + " Region: \"zone_1\"\tRelError: 6.25886e-05\tAbsError: 1.24071e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.22353e-05\tAbsError: 1.27887e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.53296e-07\tAbsError: 1.22792e-04\n", + " Region: \"zone_3\"\tRelError: 5.07482e-04\tAbsError: 8.96392e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.41319e-04\tAbsError: 2.22546e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.52685e-05\tAbsError: 6.73846e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.80541e-04\tAbsError: 1.28523e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.53296e-07\tAbsError: 1.22792e-04\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 5.68541e-01\tAbsError: 7.02334e+14\n", + " Region: \"zone_1\"\tRelError: 1.54198e-02\tAbsError: 2.11319e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.53930e-02\tAbsError: 1.18259e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.68150e-05\tAbsError: 9.30596e-03\n", + " Region: \"zone_3\"\tRelError: 5.53122e-01\tAbsError: 7.02334e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.05728e-01\tAbsError: 1.92390e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.12305e-03\tAbsError: 6.83095e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.82429e-02\tAbsError: 1.18264e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.73828e-05\tAbsError: 9.50321e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.59960e-02\tAbsError: 3.73217e+12\n", + " Region: \"zone_1\"\tRelError: 7.31305e-03\tAbsError: 2.21475e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.30674e-03\tAbsError: 2.57182e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", + " Region: \"zone_3\"\tRelError: 5.86829e-02\tAbsError: 3.73217e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.62142e-02\tAbsError: 2.07187e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.09163e-04\tAbsError: 1.66031e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65329e-03\tAbsError: 2.69578e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 1.21559e-01\tAbsError: 1.10756e+14\n", + " Region: \"zone_1\"\tRelError: 2.72340e-02\tAbsError: 1.44568e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.72302e-02\tAbsError: 1.38679e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.75405e-06\tAbsError: 1.30700e-03\n", + " Region: \"zone_3\"\tRelError: 9.43255e-02\tAbsError: 1.10756e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46517e-02\tAbsError: 3.54716e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.47228e-02\tAbsError: 7.52840e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.49472e-02\tAbsError: 1.39930e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.75631e-06\tAbsError: 1.30781e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.39312e-04\tAbsError: 1.02416e+11\n", + " Region: \"zone_1\"\tRelError: 2.32943e-05\tAbsError: 5.15110e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.31462e-05\tAbsError: 6.75166e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.48145e-07\tAbsError: 5.14435e-05\n", + " Region: \"zone_3\"\tRelError: 1.16018e-04\tAbsError: 1.02416e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.61621e-06\tAbsError: 7.10207e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.54305e-06\tAbsError: 3.13952e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02711e-04\tAbsError: 7.04991e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.48150e-07\tAbsError: 5.14440e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.57743e+01\tAbsError: 8.48667e+15\n", + " Region: \"zone_1\"\tRelError: 1.40602e+01\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40602e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.57556e-10\tAbsError: 1.24451e-07\n", + " Region: \"zone_3\"\tRelError: 1.71408e+00\tAbsError: 8.48667e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69582e-01\tAbsError: 4.51146e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69441e-01\tAbsError: 3.97521e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.75053e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.57765e-10\tAbsError: 1.24526e-07\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 2.35931e-01\tAbsError: 5.99701e+14\n", + " Region: \"zone_1\"\tRelError: 3.40560e-02\tAbsError: 2.88091e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.32274e-02\tAbsError: 2.88427e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.28612e-04\tAbsError: 2.87802e-01\n", + " Region: \"zone_3\"\tRelError: 2.01875e-01\tAbsError: 5.99701e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.30353e-01\tAbsError: 1.08748e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.09805e-02\tAbsError: 5.88826e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.97122e-02\tAbsError: 2.98244e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.28690e-04\tAbsError: 2.87826e-01\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 7.61787e-03\tAbsError: 9.86476e+11\n", + " Region: \"zone_1\"\tRelError: 2.17871e-03\tAbsError: 7.09517e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.15829e-03\tAbsError: 1.18681e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.04238e-05\tAbsError: 7.09399e-03\n", + " Region: \"zone_3\"\tRelError: 5.43916e-03\tAbsError: 9.86476e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.18505e-04\tAbsError: 6.62872e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.39063e-04\tAbsError: 3.23604e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.46117e-03\tAbsError: 1.21591e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.04238e-05\tAbsError: 7.09399e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 8.14034e-04\tAbsError: 1.03618e+12\n", + " Region: \"zone_1\"\tRelError: 1.43803e-04\tAbsError: 7.79056e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43584e-04\tAbsError: 1.54074e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19396e-07\tAbsError: 7.63649e-05\n", + " Region: \"zone_3\"\tRelError: 6.70231e-04\tAbsError: 1.03618e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.21829e-04\tAbsError: 2.70793e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.05108e-04\tAbsError: 7.65387e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.43074e-04\tAbsError: 1.54210e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19498e-07\tAbsError: 7.64015e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.04978e-05\tAbsError: 4.60868e+10\n", + " Region: \"zone_1\"\tRelError: 6.27408e-06\tAbsError: 4.91709e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.26006e-06\tAbsError: 3.99684e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.40124e-08\tAbsError: 4.87713e-06\n", + " Region: \"zone_3\"\tRelError: 3.42237e-05\tAbsError: 4.60868e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.17357e-06\tAbsError: 1.73419e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.14611e-06\tAbsError: 2.87449e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78900e-05\tAbsError: 4.01687e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.40185e-08\tAbsError: 4.87937e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 4.55570e+00\tAbsError: 5.16331e+15\n", + " Region: \"zone_1\"\tRelError: 3.06111e+00\tAbsError: 6.97364e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.06100e+00\tAbsError: 3.07634e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12162e-04\tAbsError: 3.89730e-02\n", + " Region: \"zone_3\"\tRelError: 1.49459e+00\tAbsError: 5.16331e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38938e-01\tAbsError: 2.46191e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.11412e-01\tAbsError: 2.70140e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.44124e-01\tAbsError: 3.07634e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12162e-04\tAbsError: 3.89730e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:40\u001b[0m.\u001b[1;36m216\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:40\u001b[0m.\u001b[1;36m216\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5222222222222223\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 1.70543e-01\tAbsError: 1.53613e+14\n", + " Region: \"zone_1\"\tRelError: 3.87769e-02\tAbsError: 4.70916e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.87639e-02\tAbsError: 1.90017e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.29805e-05\tAbsError: 4.51914e-03\n", + " Region: \"zone_3\"\tRelError: 1.31767e-01\tAbsError: 1.53613e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.99046e-02\tAbsError: 4.95216e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.98996e-02\tAbsError: 1.04092e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.19493e-02\tAbsError: 1.91751e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.29871e-05\tAbsError: 4.52153e-03\n", + "Iteration: 16\n", + " Device: \"device\"\tRelError: 9.70203e-03\tAbsError: 6.93690e+12\n", + " Region: \"zone_1\"\tRelError: 2.55139e-03\tAbsError: 5.07427e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.54994e-03\tAbsError: 5.36335e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.44390e-06\tAbsError: 5.02063e-04\n", + " Region: \"zone_3\"\tRelError: 7.15064e-03\tAbsError: 6.93690e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.86533e-04\tAbsError: 3.22511e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.81873e-04\tAbsError: 3.71179e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.78079e-03\tAbsError: 5.41986e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.44435e-06\tAbsError: 5.02223e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.61312e-05\tAbsError: 5.74046e+10\n", + " Region: \"zone_1\"\tRelError: 1.61849e-05\tAbsError: 6.45313e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.59991e-05\tAbsError: 3.79845e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.85726e-07\tAbsError: 6.44934e-05\n", + " Region: \"zone_3\"\tRelError: 5.99464e-05\tAbsError: 5.74046e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.77906e-06\tAbsError: 4.68633e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.20461e-06\tAbsError: 1.05413e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.27769e-05\tAbsError: 3.95532e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.85828e-07\tAbsError: 6.45281e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:41\u001b[0m.\u001b[1;36m131\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.5\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.13964e+00\tAbsError: 3.47644e+15\n", + " Region: \"zone_1\"\tRelError: 1.85284e-01\tAbsError: 3.50197e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.85258e-01\tAbsError: 2.58979e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.62526e-05\tAbsError: 9.12177e-03\n", + " Region: \"zone_3\"\tRelError: 9.54354e-01\tAbsError: 3.47644e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.46208e-01\tAbsError: 1.62778e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.89583e-01\tAbsError: 1.84866e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18536e-01\tAbsError: 2.53855e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.62526e-05\tAbsError: 9.12177e-03\n", + "Iteration: 16\n", + " Device: \"device\"\tRelError: 1.46078e-02\tAbsError: 3.77706e+12\n", + " Region: \"zone_1\"\tRelError: 4.27318e-03\tAbsError: 9.90979e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 4.24466e-03\tAbsError: 3.01565e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.85219e-05\tAbsError: 9.90677e-03\n", + " Region: \"zone_3\"\tRelError: 1.03346e-02\tAbsError: 3.77706e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.16204e-04\tAbsError: 2.52925e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.13632e-04\tAbsError: 1.24782e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.97622e-03\tAbsError: 3.10988e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.85219e-05\tAbsError: 9.90677e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.50028e+01\tAbsError: 8.69204e+15\n", + " Region: \"zone_1\"\tRelError: 1.32965e+01\tAbsError: 4.20750e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.32965e+01\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.88775e-09\tAbsError: 2.39373e-06\n", + " Region: \"zone_3\"\tRelError: 1.70633e+00\tAbsError: 8.69204e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.79110e-01\tAbsError: 5.01048e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.79048e-01\tAbsError: 3.68156e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.48173e-01\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.88775e-09\tAbsError: 2.39373e-06\n", + "Iteration: 17\n", + " Device: \"device\"\tRelError: 1.10960e-03\tAbsError: 4.73055e+11\n", + " Region: \"zone_1\"\tRelError: 3.19443e-04\tAbsError: 4.59195e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.18123e-04\tAbsError: 3.53097e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.31966e-06\tAbsError: 4.58842e-04\n", + " Region: \"zone_3\"\tRelError: 7.90154e-04\tAbsError: 4.73055e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.87591e-05\tAbsError: 2.60324e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.85853e-05\tAbsError: 2.12731e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 6.91489e-04\tAbsError: 3.57389e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32008e-06\tAbsError: 4.59002e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.60199e+01\tAbsError: 8.22903e+15\n", + " Region: \"zone_1\"\tRelError: 3.43433e+01\tAbsError: 4.09555e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.43433e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.48443e-09\tAbsError: 1.21289e-06\n", + " Region: \"zone_3\"\tRelError: 1.67662e+00\tAbsError: 8.22903e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.78919e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.43984e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37338e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.48691e-09\tAbsError: 1.21378e-06\n", + "Iteration: 17\n", + " Device: \"device\"\tRelError: 1.38450e-02\tAbsError: 9.74863e+12\n", + " Region: \"zone_1\"\tRelError: 3.65570e-03\tAbsError: 8.68864e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.65323e-03\tAbsError: 7.50160e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.47721e-06\tAbsError: 8.61362e-04\n", + " Region: \"zone_3\"\tRelError: 1.01893e-02\tAbsError: 9.74863e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.63103e-04\tAbsError: 4.56281e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.56704e-04\tAbsError: 5.18582e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.26705e-03\tAbsError: 7.58052e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.47776e-06\tAbsError: 8.61555e-04\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 8.24095e-01\tAbsError: 1.04537e+15\n", + " Region: \"zone_1\"\tRelError: 4.93544e-01\tAbsError: 2.65000e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.93494e-01\tAbsError: 9.16559e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.98913e-05\tAbsError: 1.73344e-02\n", + " Region: \"zone_3\"\tRelError: 3.30551e-01\tAbsError: 1.04537e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84640e-01\tAbsError: 5.55503e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10521e-01\tAbsError: 4.89866e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.53403e-02\tAbsError: 9.16565e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.98913e-05\tAbsError: 1.73344e-02\n", + "Iteration: 18\n", + " Device: \"device\"\tRelError: 7.28348e-04\tAbsError: 4.51092e+11\n", + " Region: \"zone_1\"\tRelError: 1.97998e-04\tAbsError: 6.10956e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.97823e-04\tAbsError: 3.10291e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.74814e-07\tAbsError: 6.07853e-05\n", + " Region: \"zone_3\"\tRelError: 5.30351e-04\tAbsError: 4.51092e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.34024e-05\tAbsError: 2.42281e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.30773e-05\tAbsError: 2.08811e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.43696e-04\tAbsError: 3.13762e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.74855e-07\tAbsError: 6.07996e-05\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.05847e+00\tAbsError: 1.57080e+15\n", + " Region: \"zone_1\"\tRelError: 5.40974e-01\tAbsError: 7.04816e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.40864e-01\tAbsError: 3.20822e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10500e-04\tAbsError: 3.83994e-02\n", + " Region: \"zone_3\"\tRelError: 1.51749e+00\tAbsError: 1.57080e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.58067e-01\tAbsError: 8.77233e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.38564e-01\tAbsError: 6.93563e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20752e-01\tAbsError: 3.20823e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10500e-04\tAbsError: 3.83994e-02\n", + "Iteration: 18\n", + " Device: \"device\"\tRelError: 1.82717e-03\tAbsError: 8.17722e+11\n", + " Region: \"zone_1\"\tRelError: 5.23067e-04\tAbsError: 6.56535e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.21181e-04\tAbsError: 5.84430e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.88656e-06\tAbsError: 6.55950e-04\n", + " Region: \"zone_3\"\tRelError: 1.30410e-03\tAbsError: 8.17722e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.24609e-05\tAbsError: 4.60486e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.20813e-05\tAbsError: 3.57236e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13767e-03\tAbsError: 5.91533e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.88721e-06\tAbsError: 6.56204e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.73485e+00\tAbsError: 1.08973e+15\n", + " Region: \"zone_1\"\tRelError: 2.25350e+00\tAbsError: 6.85700e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.25339e+00\tAbsError: 3.07635e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", + " Region: \"zone_3\"\tRelError: 1.48136e+00\tAbsError: 1.08973e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41054e-01\tAbsError: 6.25022e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.24005e-01\tAbsError: 4.64711e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16189e-01\tAbsError: 3.07637e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", + "Iteration: 19\n", + " Device: \"device\"\tRelError: 1.19276e-04\tAbsError: 5.73966e+10\n", + " Region: \"zone_1\"\tRelError: 3.37665e-05\tAbsError: 3.26250e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.36728e-05\tAbsError: 3.96778e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.37128e-08\tAbsError: 3.25853e-05\n", + " Region: \"zone_3\"\tRelError: 8.55093e-05\tAbsError: 5.73966e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.73159e-06\tAbsError: 3.28659e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.70707e-06\tAbsError: 2.45307e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.39769e-05\tAbsError: 4.01507e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.37366e-08\tAbsError: 3.25937e-05\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.23262e-02\tAbsError: 1.95138e+14\n", + " Region: \"zone_1\"\tRelError: 2.57438e-02\tAbsError: 3.23382e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.56511e-02\tAbsError: 1.67807e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.26701e-05\tAbsError: 3.21704e-02\n", + " Region: \"zone_3\"\tRelError: 6.65824e-02\tAbsError: 1.95138e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.49682e-02\tAbsError: 6.65802e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.06072e-03\tAbsError: 1.28558e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.46071e-03\tAbsError: 1.74923e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.26947e-05\tAbsError: 3.21777e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.13949e+00\tAbsError: 9.80441e+14\n", + " Region: \"zone_1\"\tRelError: 1.44938e-01\tAbsError: 3.48926e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.44912e-01\tAbsError: 2.57892e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.62274e-05\tAbsError: 9.10345e-03\n", + " Region: \"zone_3\"\tRelError: 9.94556e-01\tAbsError: 9.80441e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.69397e-01\tAbsError: 4.46559e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.17171e-01\tAbsError: 5.33882e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07961e-01\tAbsError: 2.56709e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.62374e-05\tAbsError: 9.10715e-03\n", + "Iteration: 19\n", + " Device: \"device\"\tRelError: 1.05186e-03\tAbsError: 6.43794e+11\n", + " Region: \"zone_1\"\tRelError: 2.86577e-04\tAbsError: 9.66109e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.86301e-04\tAbsError: 4.41981e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.76574e-07\tAbsError: 9.61689e-05\n", + " Region: \"zone_3\"\tRelError: 7.65285e-04\tAbsError: 6.43794e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.19983e-05\tAbsError: 3.47387e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.15429e-05\tAbsError: 2.96408e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 6.41467e-04\tAbsError: 4.46942e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.76632e-07\tAbsError: 9.61892e-05\n", + "Iteration: 20\n", + " Device: \"device\"\tRelError: 5.47743e-05\tAbsError: 3.14060e+10\n", + " Region: \"zone_1\"\tRelError: 1.50907e-05\tAbsError: 5.90998e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.50738e-05\tAbsError: 2.06583e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69372e-08\tAbsError: 5.88932e-06\n", + " Region: \"zone_3\"\tRelError: 3.96836e-05\tAbsError: 3.14060e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.02542e-06\tAbsError: 1.79710e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.00299e-06\tAbsError: 1.34350e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.36383e-05\tAbsError: 2.08968e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69400e-08\tAbsError: 5.89028e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.38677e+00\tAbsError: 6.38966e+14\n", + " Region: \"zone_1\"\tRelError: 4.51470e-01\tAbsError: 3.37904e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.51448e-01\tAbsError: 2.58448e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", + " Region: \"zone_3\"\tRelError: 9.35299e-01\tAbsError: 6.38966e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42607e-01\tAbsError: 3.02038e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.95795e-01\tAbsError: 3.36928e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.68743e-02\tAbsError: 2.57679e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:45\u001b[0m.\u001b[1;36m645\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: 0.205\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.13427e-02\tAbsError: 1.62210e+13\n", + " Region: \"zone_1\"\tRelError: 1.73710e-02\tAbsError: 1.21679e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.73676e-02\tAbsError: 1.36050e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.46587e-06\tAbsError: 1.20318e-03\n", + " Region: \"zone_3\"\tRelError: 1.39717e-02\tAbsError: 1.62210e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.19687e-03\tAbsError: 6.47584e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.09668e-03\tAbsError: 9.74512e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16747e-02\tAbsError: 1.39577e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.46587e-06\tAbsError: 1.20318e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.05949e-01\tAbsError: 3.74511e+14\n", + " Region: \"zone_1\"\tRelError: 3.59347e-02\tAbsError: 2.23497e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.59015e-02\tAbsError: 1.08348e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.31757e-05\tAbsError: 1.15148e-02\n", + " Region: \"zone_3\"\tRelError: 3.70014e-01\tAbsError: 3.74511e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.16593e-01\tAbsError: 1.81213e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.16499e-01\tAbsError: 1.93297e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.68890e-02\tAbsError: 1.08349e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.31840e-05\tAbsError: 1.15180e-02\n", + "Iteration: 20\n", + " Device: \"device\"\tRelError: 1.85934e-04\tAbsError: 9.08573e+10\n", + " Region: \"zone_1\"\tRelError: 5.25212e-05\tAbsError: 4.72565e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.23854e-05\tAbsError: 6.20121e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.35728e-07\tAbsError: 4.71945e-05\n", + " Region: \"zone_3\"\tRelError: 1.33413e-04\tAbsError: 9.08573e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.02696e-06\tAbsError: 5.24312e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.98446e-06\tAbsError: 3.84261e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15266e-04\tAbsError: 6.27511e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.35761e-07\tAbsError: 4.72061e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.41554e-01\tAbsError: 2.20715e+14\n", + " Region: \"zone_1\"\tRelError: 2.89595e-02\tAbsError: 1.67352e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.89377e-02\tAbsError: 9.16565e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18085e-05\tAbsError: 7.56954e-03\n", + " Region: \"zone_3\"\tRelError: 3.12594e-01\tAbsError: 2.20715e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.94155e-01\tAbsError: 1.01533e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.87246e-02\tAbsError: 1.19182e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.96932e-02\tAbsError: 9.16570e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18152e-05\tAbsError: 7.57200e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.53065e-03\tAbsError: 7.24481e+11\n", + " Region: \"zone_1\"\tRelError: 1.49459e-03\tAbsError: 1.07639e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49149e-03\tAbsError: 6.55190e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.09641e-06\tAbsError: 1.07573e-03\n", + " Region: \"zone_3\"\tRelError: 1.03606e-03\tAbsError: 7.24481e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73129e-05\tAbsError: 2.45596e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.81580e-05\tAbsError: 4.78885e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 9.37490e-04\tAbsError: 6.76708e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.09642e-06\tAbsError: 1.07576e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.63329e+00\tAbsError: 8.76591e+15\n", + " Region: \"zone_1\"\tRelError: 1.98501e+00\tAbsError: 4.19653e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.98501e+00\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.95648e-09\tAbsError: 2.41887e-06\n", + " Region: \"zone_3\"\tRelError: 1.64829e+00\tAbsError: 8.76591e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78082e-01\tAbsError: 4.90369e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.78012e-01\tAbsError: 3.86222e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.21916e-02\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.95760e-09\tAbsError: 2.41927e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.20098e-02\tAbsError: 6.36915e+13\n", + " Region: \"zone_1\"\tRelError: 1.64825e-02\tAbsError: 5.73455e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.64665e-02\tAbsError: 1.85410e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59822e-05\tAbsError: 5.54914e-03\n", + " Region: \"zone_3\"\tRelError: 7.55273e-02\tAbsError: 6.36915e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.16855e-02\tAbsError: 3.79951e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.17477e-03\tAbsError: 2.56964e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.65102e-03\tAbsError: 1.86769e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59822e-05\tAbsError: 5.54914e-03\n", + "Iteration: 21\n", + " Device: \"device\"\tRelError: 7.98541e-05\tAbsError: 4.54186e+10\n", + " Region: \"zone_1\"\tRelError: 2.20300e-05\tAbsError: 9.07155e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20040e-05\tAbsError: 2.98550e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.60032e-08\tAbsError: 9.04169e-06\n", + " Region: \"zone_3\"\tRelError: 5.78241e-05\tAbsError: 4.54186e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.37976e-06\tAbsError: 2.60573e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.34782e-06\tAbsError: 1.93613e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.90705e-05\tAbsError: 3.02004e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.60072e-08\tAbsError: 9.04309e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:47\u001b[0m.\u001b[1;36m660\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.21\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.19808e-02\tAbsError: 3.06344e+13\n", + " Region: \"zone_1\"\tRelError: 2.04251e-02\tAbsError: 4.10278e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.04136e-02\tAbsError: 1.00349e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", + " Region: \"zone_3\"\tRelError: 6.15557e-02\tAbsError: 3.06344e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38926e-02\tAbsError: 1.71938e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.73234e-03\tAbsError: 1.34406e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.91920e-03\tAbsError: 1.01109e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.69038e-03\tAbsError: 1.04370e+12\n", + " Region: \"zone_1\"\tRelError: 1.58975e-03\tAbsError: 1.04879e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.58945e-03\tAbsError: 5.38488e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.00336e-07\tAbsError: 1.04341e-04\n", + " Region: \"zone_3\"\tRelError: 1.10063e-03\tAbsError: 1.04370e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.23814e-05\tAbsError: 5.26651e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.22994e-05\tAbsError: 5.17045e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 9.95649e-04\tAbsError: 5.63224e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.00360e-07\tAbsError: 1.04351e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.53740e+00\tAbsError: 3.20837e+14\n", + " Region: \"zone_1\"\tRelError: 7.05045e-02\tAbsError: 9.40579e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.03259e-02\tAbsError: 3.19529e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.78646e-04\tAbsError: 6.21050e-02\n", + " Region: \"zone_3\"\tRelError: 1.46689e+00\tAbsError: 3.20837e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.53121e-01\tAbsError: 1.65481e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.48279e-01\tAbsError: 1.55355e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.53121e-02\tAbsError: 3.19533e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.78646e-04\tAbsError: 6.21050e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.29067e-03\tAbsError: 2.61140e+12\n", + " Region: \"zone_1\"\tRelError: 3.53522e-04\tAbsError: 4.23373e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.52311e-04\tAbsError: 2.81142e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.21022e-06\tAbsError: 4.20562e-04\n", + " Region: \"zone_3\"\tRelError: 1.93715e-03\tAbsError: 2.61140e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.11236e-04\tAbsError: 8.82953e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.20779e-04\tAbsError: 1.72845e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40392e-03\tAbsError: 2.86772e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.21055e-06\tAbsError: 4.20672e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.56709e+00\tAbsError: 9.18334e+15\n", + " Region: \"zone_1\"\tRelError: 1.89994e+00\tAbsError: 4.29373e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.89994e+00\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.01691e-08\tAbsError: 3.53594e-06\n", + " Region: \"zone_3\"\tRelError: 1.66716e+00\tAbsError: 9.18334e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86011e-01\tAbsError: 5.13720e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.85942e-01\tAbsError: 4.04614e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.52021e-02\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.01707e-08\tAbsError: 3.53650e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.53920e-03\tAbsError: 1.84314e+12\n", + " Region: \"zone_1\"\tRelError: 2.29752e-04\tAbsError: 2.41443e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29064e-04\tAbsError: 2.20702e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", + " Region: \"zone_3\"\tRelError: 1.30944e-03\tAbsError: 1.84314e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11485e-04\tAbsError: 5.81096e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.63190e-04\tAbsError: 1.26205e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 9.34079e-04\tAbsError: 2.25011e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.67954e-04\tAbsError: 1.01821e+11\n", + " Region: \"zone_1\"\tRelError: 2.21136e-04\tAbsError: 6.97280e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20936e-04\tAbsError: 5.57180e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.00534e-07\tAbsError: 6.96723e-05\n", + " Region: \"zone_3\"\tRelError: 1.46817e-04\tAbsError: 1.01821e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.39462e-06\tAbsError: 5.27392e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.41727e-06\tAbsError: 4.90816e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35805e-04\tAbsError: 5.79583e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.00607e-07\tAbsError: 6.96980e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 9.95713e-01\tAbsError: 3.95001e+13\n", + " Region: \"zone_1\"\tRelError: 5.02856e-02\tAbsError: 3.12537e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.02701e-02\tAbsError: 2.58959e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54113e-05\tAbsError: 5.35772e-03\n", + " Region: \"zone_3\"\tRelError: 9.45427e-01\tAbsError: 3.95001e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.63975e-01\tAbsError: 2.89237e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.31137e-01\tAbsError: 1.05765e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.02993e-02\tAbsError: 2.58992e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54113e-05\tAbsError: 5.35772e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.21506e-04\tAbsError: 3.42031e+11\n", + " Region: \"zone_1\"\tRelError: 7.74355e-05\tAbsError: 1.55466e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.69883e-05\tAbsError: 2.05924e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.47168e-07\tAbsError: 1.55260e-04\n", + " Region: \"zone_3\"\tRelError: 3.44070e-04\tAbsError: 3.42031e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.94758e-05\tAbsError: 2.19652e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.92382e-05\tAbsError: 1.22379e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.04909e-04\tAbsError: 2.14465e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.47202e-07\tAbsError: 1.55274e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.57053e+00\tAbsError: 3.51169e+14\n", + " Region: \"zone_1\"\tRelError: 7.27979e-02\tAbsError: 9.81640e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.26108e-02\tAbsError: 3.31004e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.87158e-04\tAbsError: 6.50636e-02\n", + " Region: \"zone_3\"\tRelError: 1.49773e+00\tAbsError: 3.51169e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67194e-01\tAbsError: 1.81651e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.62787e-01\tAbsError: 1.69517e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.75645e-02\tAbsError: 3.31009e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.87158e-04\tAbsError: 6.50636e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.51045e-04\tAbsError: 2.02519e+11\n", + " Region: \"zone_1\"\tRelError: 4.54891e-05\tAbsError: 1.12868e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.51644e-05\tAbsError: 1.25671e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.24705e-07\tAbsError: 1.12743e-04\n", + " Region: \"zone_3\"\tRelError: 2.05556e-04\tAbsError: 2.02519e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12163e-05\tAbsError: 1.36505e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10724e-05\tAbsError: 6.60139e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82943e-04\tAbsError: 1.30848e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.24777e-07\tAbsError: 1.12769e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.02562e-04\tAbsError: 6.84436e+10\n", + " Region: \"zone_1\"\tRelError: 1.21040e-04\tAbsError: 1.06970e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21010e-04\tAbsError: 3.27450e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.06942e-08\tAbsError: 1.06642e-05\n", + " Region: \"zone_3\"\tRelError: 8.15214e-05\tAbsError: 6.84436e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.33271e-06\tAbsError: 3.86456e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.32148e-06\tAbsError: 2.97979e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.48365e-05\tAbsError: 3.43670e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.07019e-08\tAbsError: 1.06669e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.11842e-01\tAbsError: 3.16076e+12\n", + " Region: \"zone_1\"\tRelError: 1.77920e-02\tAbsError: 1.38281e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77828e-02\tAbsError: 1.06618e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.10787e-06\tAbsError: 3.16630e-03\n", + " Region: \"zone_3\"\tRelError: 2.94050e-01\tAbsError: 3.16076e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.19046e-01\tAbsError: 1.95134e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.69828e-02\tAbsError: 1.20942e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.80124e-02\tAbsError: 1.06619e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.11145e-06\tAbsError: 3.16760e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.54214e-04\tAbsError: 1.46404e+11\n", + " Region: \"zone_1\"\tRelError: 2.76236e-05\tAbsError: 1.48453e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.75812e-05\tAbsError: 9.43789e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.23843e-08\tAbsError: 1.47509e-05\n", + " Region: \"zone_3\"\tRelError: 1.26590e-04\tAbsError: 1.46404e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.54821e-06\tAbsError: 6.79464e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.47893e-06\tAbsError: 7.84580e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09521e-04\tAbsError: 9.70963e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.24007e-08\tAbsError: 1.47569e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.05165e+00\tAbsError: 4.28494e+13\n", + " Region: \"zone_1\"\tRelError: 5.19381e-02\tAbsError: 3.16775e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.19214e-02\tAbsError: 2.58745e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.66923e-05\tAbsError: 5.80302e-03\n", + " Region: \"zone_3\"\tRelError: 9.99707e-01\tAbsError: 4.28494e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.86538e-01\tAbsError: 3.13497e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.61055e-01\tAbsError: 1.14997e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.20976e-02\tAbsError: 2.58960e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.66923e-05\tAbsError: 5.80302e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.09882e-04\tAbsError: 1.05387e+11\n", + " Region: \"zone_1\"\tRelError: 1.91896e-05\tAbsError: 8.11152e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.91665e-05\tAbsError: 7.26801e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.30974e-08\tAbsError: 8.03884e-06\n", + " Region: \"zone_3\"\tRelError: 9.06925e-05\tAbsError: 1.05387e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41210e-06\tAbsError: 4.74044e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.36012e-06\tAbsError: 5.79823e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.78972e-05\tAbsError: 7.44246e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.31071e-08\tAbsError: 8.04242e-06\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.67619e-05\tAbsError: 1.02422e+10\n", + " Region: \"zone_1\"\tRelError: 2.21445e-05\tAbsError: 4.91320e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.21303e-05\tAbsError: 5.33976e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41260e-08\tAbsError: 4.90786e-06\n", + " Region: \"zone_3\"\tRelError: 1.46175e-05\tAbsError: 1.02422e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.20200e-07\tAbsError: 5.93794e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.20801e-07\tAbsError: 4.30423e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35623e-05\tAbsError: 5.58038e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41284e-08\tAbsError: 4.90869e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:52\u001b[0m.\u001b[1;36m686\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.7000000000000001\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.96216e-02\tAbsError: 2.61141e+12\n", + " Region: \"zone_1\"\tRelError: 9.45920e-04\tAbsError: 2.53689e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 9.38620e-04\tAbsError: 1.55354e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.30033e-06\tAbsError: 2.53534e-03\n", + " Region: \"zone_3\"\tRelError: 6.86757e-02\tAbsError: 2.61141e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.61725e-02\tAbsError: 1.62602e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.25124e-04\tAbsError: 9.85396e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.37081e-03\tAbsError: 1.62129e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.30033e-06\tAbsError: 2.53534e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.51422e-05\tAbsError: 1.31444e+10\n", + " Region: \"zone_1\"\tRelError: 2.80105e-06\tAbsError: 8.02449e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.77798e-06\tAbsError: 7.54204e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.30711e-08\tAbsError: 8.01695e-06\n", + " Region: \"zone_3\"\tRelError: 1.23412e-05\tAbsError: 1.31444e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.72219e-07\tAbsError: 9.04197e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.59854e-07\tAbsError: 4.10243e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09860e-05\tAbsError: 7.84254e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.30755e-08\tAbsError: 8.01862e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:53\u001b[0m.\u001b[1;36m150\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:53\u001b[0m.\u001b[1;36m150\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6277777777777779\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.59925e-01\tAbsError: 3.29836e+12\n", + " Region: \"zone_1\"\tRelError: 2.06968e-02\tAbsError: 1.57227e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06868e-02\tAbsError: 1.22658e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.94394e-06\tAbsError: 3.45693e-03\n", + " Region: \"zone_3\"\tRelError: 3.39228e-01\tAbsError: 3.29836e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.44822e-01\tAbsError: 2.09132e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.34529e-02\tAbsError: 1.20705e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.09440e-02\tAbsError: 1.22658e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.94500e-06\tAbsError: 3.45736e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 7.21635e-06\tAbsError: 6.66072e+09\n", + " Region: \"zone_1\"\tRelError: 1.30608e-06\tAbsError: 5.92265e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28905e-06\tAbsError: 4.03393e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70320e-08\tAbsError: 5.91862e-06\n", + " Region: \"zone_3\"\tRelError: 5.91027e-06\tAbsError: 6.66072e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.61854e-07\tAbsError: 4.98334e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.27195e-07\tAbsError: 1.67738e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 5.20418e-06\tAbsError: 4.19235e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70346e-08\tAbsError: 5.91965e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:53\u001b[0m.\u001b[1;36m909\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.6\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 9.79272e-04\tAbsError: 1.24789e+12\n", + " Region: \"zone_1\"\tRelError: 1.69378e-04\tAbsError: 1.19504e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.69039e-04\tAbsError: 1.78974e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.38150e-07\tAbsError: 1.17714e-04\n", + " Region: \"zone_3\"\tRelError: 8.09894e-04\tAbsError: 1.24789e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.56091e-04\tAbsError: 3.40106e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.55755e-04\tAbsError: 9.07785e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.97709e-04\tAbsError: 1.78994e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.38303e-07\tAbsError: 1.17770e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.11982e+00\tAbsError: 2.71568e+16\n", + " Region: \"zone_1\"\tRelError: 3.35178e+00\tAbsError: 4.09552e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.35178e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.75560e-09\tAbsError: 9.57391e-07\n", + " Region: \"zone_3\"\tRelError: 1.76804e+00\tAbsError: 2.71568e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68907e-01\tAbsError: 1.36090e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.68433e-01\tAbsError: 1.35478e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.30705e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.75592e-09\tAbsError: 9.57503e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.47130e+01\tAbsError: 9.34749e+15\n", + " Region: \"zone_1\"\tRelError: 1.29635e+01\tAbsError: 4.20730e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29635e+01\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19790e-09\tAbsError: 4.16910e-07\n", + " Region: \"zone_3\"\tRelError: 1.74948e+00\tAbsError: 9.34749e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78965e-01\tAbsError: 4.96596e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.78797e-01\tAbsError: 4.38153e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.91722e-01\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19845e-09\tAbsError: 4.17112e-07\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.15556e-02\tAbsError: 2.83277e+12\n", + " Region: \"zone_1\"\tRelError: 9.61766e-04\tAbsError: 2.53657e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 9.54467e-04\tAbsError: 1.76904e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.29883e-06\tAbsError: 2.53480e-03\n", + " Region: \"zone_3\"\tRelError: 8.05939e-02\tAbsError: 2.83277e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77894e-02\tAbsError: 1.76360e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.00698e-04\tAbsError: 1.06917e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.59647e-03\tAbsError: 1.83630e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.29883e-06\tAbsError: 2.53480e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.57743e+01\tAbsError: 8.48667e+15\n", + " Region: \"zone_1\"\tRelError: 1.40602e+01\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40602e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.57556e-10\tAbsError: 1.24451e-07\n", + " Region: \"zone_3\"\tRelError: 1.71408e+00\tAbsError: 8.48667e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69582e-01\tAbsError: 4.51146e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69441e-01\tAbsError: 3.97521e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.75053e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.57765e-10\tAbsError: 1.24526e-07\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.39118e-04\tAbsError: 9.70617e+10\n", + " Region: \"zone_1\"\tRelError: 3.44334e-05\tAbsError: 7.42120e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.42198e-05\tAbsError: 5.61163e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.13513e-07\tAbsError: 7.41559e-05\n", + " Region: \"zone_3\"\tRelError: 1.04685e-04\tAbsError: 9.70617e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.45419e-06\tAbsError: 7.08787e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.38136e-06\tAbsError: 2.61830e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 8.96357e-05\tAbsError: 5.90320e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.13597e-07\tAbsError: 7.41831e-05\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.73275e+00\tAbsError: 2.68838e+16\n", + " Region: \"zone_1\"\tRelError: 1.92080e-01\tAbsError: 1.46306e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.91747e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.32681e-04\tAbsError: 1.15542e-01\n", + " Region: \"zone_3\"\tRelError: 1.54067e+00\tAbsError: 2.68838e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.36324e-01\tAbsError: 1.35736e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.01335e-01\tAbsError: 1.33102e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.02681e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.32681e-04\tAbsError: 1.15542e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.79022e+00\tAbsError: 8.31075e+15\n", + " Region: \"zone_1\"\tRelError: 2.52292e-01\tAbsError: 8.08004e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.52152e-01\tAbsError: 3.20821e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.40217e-04\tAbsError: 4.87183e-02\n", + " Region: \"zone_3\"\tRelError: 1.53793e+00\tAbsError: 8.31075e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.54947e-01\tAbsError: 4.05111e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.26465e-01\tAbsError: 4.25964e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.56377e-01\tAbsError: 3.20821e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.40217e-04\tAbsError: 4.87183e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 8.98909e-04\tAbsError: 1.24657e+12\n", + " Region: \"zone_1\"\tRelError: 1.38349e-04\tAbsError: 1.35913e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37964e-04\tAbsError: 1.78869e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.85293e-07\tAbsError: 1.34125e-04\n", + " Region: \"zone_3\"\tRelError: 7.60560e-04\tAbsError: 1.24657e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.53737e-04\tAbsError: 3.31798e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.52329e-04\tAbsError: 9.14768e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.54109e-04\tAbsError: 1.78889e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.85453e-07\tAbsError: 1.34183e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 4.55570e+00\tAbsError: 5.16331e+15\n", + " Region: \"zone_1\"\tRelError: 3.06111e+00\tAbsError: 6.97364e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.06100e+00\tAbsError: 3.07634e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12162e-04\tAbsError: 3.89730e-02\n", + " Region: \"zone_3\"\tRelError: 1.49459e+00\tAbsError: 5.16331e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38938e-01\tAbsError: 2.46191e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.11412e-01\tAbsError: 2.70140e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.44124e-01\tAbsError: 3.07634e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12162e-04\tAbsError: 3.89730e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 7.65717e-05\tAbsError: 6.84700e+10\n", + " Region: \"zone_1\"\tRelError: 1.77384e-05\tAbsError: 3.36342e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77290e-05\tAbsError: 5.96230e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.49029e-09\tAbsError: 3.30380e-06\n", + " Region: \"zone_3\"\tRelError: 5.88333e-05\tAbsError: 6.84700e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.12243e-06\tAbsError: 2.77477e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.07134e-06\tAbsError: 4.07222e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.66300e-05\tAbsError: 5.97642e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.49511e-09\tAbsError: 3.30555e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:57\u001b[0m.\u001b[1;36m242\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:57\u001b[0m.\u001b[1;36m242\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30999999999999994\u001b[0m \n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.12307e+00\tAbsError: 1.60442e+16\n", + " Region: \"zone_1\"\tRelError: 1.49907e-01\tAbsError: 9.31426e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49713e-01\tAbsError: 2.58569e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93773e-04\tAbsError: 6.72856e-02\n", + " Region: \"zone_3\"\tRelError: 9.73164e-01\tAbsError: 1.60442e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39500e-01\tAbsError: 8.04160e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.83757e-01\tAbsError: 8.00261e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49713e-01\tAbsError: 2.43087e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93773e-04\tAbsError: 6.72856e-02\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.15814e+00\tAbsError: 5.80361e+15\n", + " Region: \"zone_1\"\tRelError: 1.26863e-01\tAbsError: 3.43366e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.26839e-01\tAbsError: 2.58230e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.45030e-05\tAbsError: 8.51362e-03\n", + " Region: \"zone_3\"\tRelError: 1.03128e+00\tAbsError: 5.80361e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.72077e-01\tAbsError: 2.80851e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.21781e-01\tAbsError: 2.99509e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37397e-01\tAbsError: 2.54077e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.45030e-05\tAbsError: 8.51362e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.63415e-04\tAbsError: 1.13123e+11\n", + " Region: \"zone_1\"\tRelError: 3.79718e-05\tAbsError: 7.25317e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.77632e-05\tAbsError: 6.55707e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.08649e-07\tAbsError: 7.24662e-05\n", + " Region: \"zone_3\"\tRelError: 1.25443e-04\tAbsError: 1.13123e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.83965e-06\tAbsError: 8.03487e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.75746e-06\tAbsError: 3.27748e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07637e-04\tAbsError: 6.89964e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.08694e-07\tAbsError: 7.24802e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.13964e+00\tAbsError: 3.47644e+15\n", + " Region: \"zone_1\"\tRelError: 1.85284e-01\tAbsError: 3.50197e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.85258e-01\tAbsError: 2.58979e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.62526e-05\tAbsError: 9.12177e-03\n", + " Region: \"zone_3\"\tRelError: 9.54354e-01\tAbsError: 3.47644e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.46208e-01\tAbsError: 1.62778e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.89583e-01\tAbsError: 1.84866e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18536e-01\tAbsError: 2.53855e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.62526e-05\tAbsError: 9.12177e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.25010e-01\tAbsError: 4.83168e+15\n", + " Region: \"zone_1\"\tRelError: 9.35029e-02\tAbsError: 6.02167e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.33558e-02\tAbsError: 9.16529e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47066e-04\tAbsError: 5.10514e-02\n", + " Region: \"zone_3\"\tRelError: 3.31507e-01\tAbsError: 4.83168e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.74852e-01\tAbsError: 2.44485e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.96161e-02\tAbsError: 2.38683e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.68922e-02\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47066e-04\tAbsError: 5.10514e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 8.30180e+01\tAbsError: 8.69319e+15\n", + " Region: \"zone_1\"\tRelError: 8.13582e+01\tAbsError: 4.19668e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.13582e+01\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12128e-08\tAbsError: 3.89796e-06\n", + " Region: \"zone_3\"\tRelError: 1.65986e+00\tAbsError: 8.69319e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78172e-01\tAbsError: 5.01810e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.78152e-01\tAbsError: 3.67509e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03541e-01\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12137e-08\tAbsError: 3.89832e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.77709e-01\tAbsError: 1.99046e+15\n", + " Region: \"zone_1\"\tRelError: 1.89574e-01\tAbsError: 5.36432e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.89451e-01\tAbsError: 1.08352e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.23374e-04\tAbsError: 4.28080e-02\n", + " Region: \"zone_3\"\tRelError: 3.88135e-01\tAbsError: 1.99046e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.09762e-01\tAbsError: 1.04397e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.33212e-01\tAbsError: 9.46486e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.50372e-02\tAbsError: 1.08353e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.23409e-04\tAbsError: 4.28198e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 6.96510e-05\tAbsError: 6.62345e+10\n", + " Region: \"zone_1\"\tRelError: 1.48805e-05\tAbsError: 4.57579e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.48675e-05\tAbsError: 5.85229e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.29763e-08\tAbsError: 4.51726e-06\n", + " Region: \"zone_3\"\tRelError: 5.47705e-05\tAbsError: 6.62345e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.88319e-06\tAbsError: 2.60340e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.83380e-06\tAbsError: 4.02005e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.30405e-05\tAbsError: 5.86366e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.29828e-08\tAbsError: 4.51964e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:59\u001b[0m.\u001b[1;36m373\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:59\u001b[0m.\u001b[1;36m373\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.31999999999999995\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 8.24095e-01\tAbsError: 1.04537e+15\n", + " Region: \"zone_1\"\tRelError: 4.93544e-01\tAbsError: 2.65000e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.93494e-01\tAbsError: 9.16559e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.98913e-05\tAbsError: 1.73344e-02\n", + " Region: \"zone_3\"\tRelError: 3.30551e-01\tAbsError: 1.04537e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84640e-01\tAbsError: 5.55503e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10521e-01\tAbsError: 4.89866e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.53403e-02\tAbsError: 9.16565e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.98913e-05\tAbsError: 1.73344e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.30868e-01\tAbsError: 1.08442e+15\n", + " Region: \"zone_1\"\tRelError: 2.27753e-02\tAbsError: 2.15920e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.21537e-02\tAbsError: 2.84606e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.21607e-04\tAbsError: 2.15635e-01\n", + " Region: \"zone_3\"\tRelError: 1.08092e-01\tAbsError: 1.08442e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.76472e-02\tAbsError: 4.26455e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.43864e-02\tAbsError: 6.57964e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.54371e-02\tAbsError: 2.84606e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.21607e-04\tAbsError: 2.15635e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.92283e+00\tAbsError: 3.17185e+14\n", + " Region: \"zone_1\"\tRelError: 4.41326e-01\tAbsError: 8.91561e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.41161e-01\tAbsError: 3.19528e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.64573e-04\tAbsError: 5.72033e-02\n", + " Region: \"zone_3\"\tRelError: 1.48150e+00\tAbsError: 3.17185e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.53774e-01\tAbsError: 1.97498e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.48120e-01\tAbsError: 1.19687e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.94425e-02\tAbsError: 3.19533e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.64573e-04\tAbsError: 5.72033e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.01956e-01\tAbsError: 3.30280e+14\n", + " Region: \"zone_1\"\tRelError: 1.23511e-02\tAbsError: 4.29826e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.22278e-02\tAbsError: 2.11230e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.23221e-04\tAbsError: 4.27714e-02\n", + " Region: \"zone_3\"\tRelError: 8.96046e-02\tAbsError: 3.30280e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38647e-02\tAbsError: 1.85641e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.06846e-02\tAbsError: 1.44639e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49319e-02\tAbsError: 2.22573e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.23378e-04\tAbsError: 4.28245e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.23262e-02\tAbsError: 1.95138e+14\n", + " Region: \"zone_1\"\tRelError: 2.57438e-02\tAbsError: 3.23382e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.56511e-02\tAbsError: 1.67807e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.26701e-05\tAbsError: 3.21704e-02\n", + " Region: \"zone_3\"\tRelError: 6.65824e-02\tAbsError: 1.95138e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.49682e-02\tAbsError: 6.65802e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.06072e-03\tAbsError: 1.28558e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.46071e-03\tAbsError: 1.74923e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.26947e-05\tAbsError: 3.21777e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.13208e+01\tAbsError: 9.10596e+15\n", + " Region: \"zone_1\"\tRelError: 9.64710e+00\tAbsError: 4.29375e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.64710e+00\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.05103e-08\tAbsError: 3.65373e-06\n", + " Region: \"zone_3\"\tRelError: 1.67375e+00\tAbsError: 9.10596e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86100e-01\tAbsError: 5.26385e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.86081e-01\tAbsError: 3.84211e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01565e-01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.05107e-08\tAbsError: 3.65390e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.55617e-01\tAbsError: 2.35794e+14\n", + " Region: \"zone_1\"\tRelError: 4.99367e-02\tAbsError: 1.38607e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.98970e-02\tAbsError: 6.98741e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.97528e-05\tAbsError: 1.37908e-02\n", + " Region: \"zone_3\"\tRelError: 1.05680e-01\tAbsError: 2.35794e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.27300e-03\tAbsError: 1.18548e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.21148e-03\tAbsError: 1.17246e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.51557e-02\tAbsError: 7.06637e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.97528e-05\tAbsError: 1.37908e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.02753e+00\tAbsError: 4.41602e+13\n", + " Region: \"zone_1\"\tRelError: 6.32910e-02\tAbsError: 3.22538e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.32727e-02\tAbsError: 2.58901e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83078e-05\tAbsError: 6.36365e-03\n", + " Region: \"zone_3\"\tRelError: 9.64244e-01\tAbsError: 4.41602e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.64145e-01\tAbsError: 3.14880e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.36393e-01\tAbsError: 1.26721e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.36877e-02\tAbsError: 2.58901e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83078e-05\tAbsError: 6.36365e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.32647e-02\tAbsError: 2.33464e+13\n", + " Region: \"zone_1\"\tRelError: 5.25069e-03\tAbsError: 7.72764e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.24852e-03\tAbsError: 1.62921e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17940e-06\tAbsError: 7.56472e-04\n", + " Region: \"zone_3\"\tRelError: 1.80140e-02\tAbsError: 2.33464e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.47882e-03\tAbsError: 1.05981e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.34887e-03\tAbsError: 1.27483e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51841e-02\tAbsError: 1.70811e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18436e-06\tAbsError: 7.58194e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.13427e-02\tAbsError: 1.62210e+13\n", + " Region: \"zone_1\"\tRelError: 1.73710e-02\tAbsError: 1.21679e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.73676e-02\tAbsError: 1.36050e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.46587e-06\tAbsError: 1.20318e-03\n", + " Region: \"zone_3\"\tRelError: 1.39717e-02\tAbsError: 1.62210e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.19687e-03\tAbsError: 6.47584e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.09668e-03\tAbsError: 9.74512e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16747e-02\tAbsError: 1.39577e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.46587e-06\tAbsError: 1.20318e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.60555e+00\tAbsError: 3.49070e+14\n", + " Region: \"zone_1\"\tRelError: 9.22733e-02\tAbsError: 9.26848e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.21018e-02\tAbsError: 3.31004e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71426e-04\tAbsError: 5.95845e-02\n", + " Region: \"zone_3\"\tRelError: 1.51327e+00\tAbsError: 3.49070e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67916e-01\tAbsError: 2.20940e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.62728e-01\tAbsError: 1.28130e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 8.24571e-02\tAbsError: 3.31008e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71426e-04\tAbsError: 5.95845e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.12114e-02\tAbsError: 1.98754e+13\n", + " Region: \"zone_1\"\tRelError: 7.04172e-03\tAbsError: 6.58751e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.02275e-03\tAbsError: 5.51750e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.89733e-05\tAbsError: 6.58199e-03\n", + " Region: \"zone_3\"\tRelError: 1.41697e-02\tAbsError: 1.98754e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43525e-04\tAbsError: 1.00008e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.47254e-04\tAbsError: 9.87467e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.32599e-02\tAbsError: 5.78756e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.89775e-05\tAbsError: 6.58354e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.22606e-01\tAbsError: 7.84939e+12\n", + " Region: \"zone_1\"\tRelError: 2.22941e-02\tAbsError: 1.32945e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.22866e-02\tAbsError: 1.06618e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.57416e-06\tAbsError: 2.63278e-03\n", + " Region: \"zone_3\"\tRelError: 3.00312e-01\tAbsError: 7.84939e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.18420e-01\tAbsError: 3.81260e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.93810e-02\tAbsError: 4.03679e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.25037e-02\tAbsError: 1.06618e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.57783e-06\tAbsError: 2.63407e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 5.71129e-04\tAbsError: 4.64479e+11\n", + " Region: \"zone_1\"\tRelError: 1.36872e-04\tAbsError: 1.33677e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33025e-04\tAbsError: 4.45593e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.84708e-06\tAbsError: 1.33633e-03\n", + " Region: \"zone_3\"\tRelError: 4.34257e-04\tAbsError: 4.64479e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.87135e-05\tAbsError: 2.05740e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.04630e-05\tAbsError: 2.58739e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.91233e-04\tAbsError: 4.55558e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.84714e-06\tAbsError: 1.33637e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.53065e-03\tAbsError: 7.24481e+11\n", + " Region: \"zone_1\"\tRelError: 1.49459e-03\tAbsError: 1.07639e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49149e-03\tAbsError: 6.55190e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.09641e-06\tAbsError: 1.07573e-03\n", + " Region: \"zone_3\"\tRelError: 1.03606e-03\tAbsError: 7.24481e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73129e-05\tAbsError: 2.45596e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.81580e-05\tAbsError: 4.78885e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 9.37490e-04\tAbsError: 6.76708e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.09642e-06\tAbsError: 1.07576e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.08576e+00\tAbsError: 5.42272e+13\n", + " Region: \"zone_1\"\tRelError: 6.57302e-02\tAbsError: 3.25935e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.57103e-02\tAbsError: 2.56636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.99371e-05\tAbsError: 6.92989e-03\n", + " Region: \"zone_3\"\tRelError: 1.02003e+00\tAbsError: 5.42272e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.86826e-01\tAbsError: 3.87041e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.66488e-01\tAbsError: 1.55232e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.66923e-02\tAbsError: 2.58213e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.99371e-05\tAbsError: 6.92989e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.24258e-02\tAbsError: 1.10918e+13\n", + " Region: \"zone_1\"\tRelError: 4.12899e-03\tAbsError: 9.16825e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.12635e-03\tAbsError: 2.69238e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.63359e-06\tAbsError: 9.14133e-04\n", + " Region: \"zone_3\"\tRelError: 8.29681e-03\tAbsError: 1.10918e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.48339e-04\tAbsError: 5.58229e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.46113e-04\tAbsError: 5.50951e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.79972e-03\tAbsError: 2.89698e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.63458e-06\tAbsError: 9.14508e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.78415e-03\tAbsError: 1.30628e+12\n", + " Region: \"zone_1\"\tRelError: 4.28818e-04\tAbsError: 8.25926e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.28582e-04\tAbsError: 6.47778e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36078e-07\tAbsError: 8.19448e-05\n", + " Region: \"zone_3\"\tRelError: 1.35533e-03\tAbsError: 1.30628e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.11544e-05\tAbsError: 6.56040e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.08446e-05\tAbsError: 6.50242e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.23310e-03\tAbsError: 6.64003e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36136e-07\tAbsError: 8.19661e-05\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.99142e-02\tAbsError: 2.26296e+12\n", + " Region: \"zone_1\"\tRelError: 1.29118e-03\tAbsError: 2.02776e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28536e-03\tAbsError: 6.01525e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.82204e-06\tAbsError: 2.02174e-03\n", + " Region: \"zone_3\"\tRelError: 6.86230e-02\tAbsError: 2.26296e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.61419e-02\tAbsError: 1.56909e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.27666e-04\tAbsError: 6.93869e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.14763e-03\tAbsError: 6.34080e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.82204e-06\tAbsError: 2.02174e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.69038e-03\tAbsError: 1.04370e+12\n", + " Region: \"zone_1\"\tRelError: 1.58975e-03\tAbsError: 1.04879e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.58945e-03\tAbsError: 5.38488e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.00336e-07\tAbsError: 1.04341e-04\n", + " Region: \"zone_3\"\tRelError: 1.10063e-03\tAbsError: 1.04370e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.23814e-05\tAbsError: 5.26651e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.22994e-05\tAbsError: 5.17045e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 9.95649e-04\tAbsError: 5.63224e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.00360e-07\tAbsError: 1.04351e-04\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.73642e-01\tAbsError: 9.69815e+12\n", + " Region: \"zone_1\"\tRelError: 2.63134e-02\tAbsError: 1.52684e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.63048e-02\tAbsError: 1.22657e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.63884e-06\tAbsError: 3.00266e-03\n", + " Region: \"zone_3\"\tRelError: 3.47328e-01\tAbsError: 9.69815e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.43903e-01\tAbsError: 4.70596e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.68748e-02\tAbsError: 4.99219e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.65414e-02\tAbsError: 1.22658e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.64176e-06\tAbsError: 3.00375e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.18008e-03\tAbsError: 1.59787e+12\n", + " Region: \"zone_1\"\tRelError: 7.30404e-04\tAbsError: 4.14536e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.29211e-04\tAbsError: 3.64518e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19313e-06\tAbsError: 4.14171e-04\n", + " Region: \"zone_3\"\tRelError: 1.44968e-03\tAbsError: 1.59787e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.59026e-05\tAbsError: 8.02763e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.55751e-05\tAbsError: 7.95108e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37700e-03\tAbsError: 3.97752e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19336e-06\tAbsError: 4.14251e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 8.55127e-04\tAbsError: 9.93238e+11\n", + " Region: \"zone_1\"\tRelError: 2.79859e-04\tAbsError: 1.10574e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.79545e-04\tAbsError: 1.48236e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.13406e-07\tAbsError: 1.09091e-04\n", + " Region: \"zone_3\"\tRelError: 5.75269e-04\tAbsError: 9.93238e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.15795e-04\tAbsError: 2.59345e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.09339e-04\tAbsError: 7.33893e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.49821e-04\tAbsError: 1.48909e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.13540e-07\tAbsError: 1.09141e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.67945e-04\tAbsError: 7.85934e+10\n", + " Region: \"zone_1\"\tRelError: 4.12351e-05\tAbsError: 8.21508e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.09987e-05\tAbsError: 4.70612e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36350e-07\tAbsError: 8.21038e-05\n", + " Region: \"zone_3\"\tRelError: 1.26710e-04\tAbsError: 7.85934e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.14413e-06\tAbsError: 3.68644e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.17345e-06\tAbsError: 4.17290e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18156e-04\tAbsError: 4.78948e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36434e-07\tAbsError: 8.21331e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.67954e-04\tAbsError: 1.01821e+11\n", + " Region: \"zone_1\"\tRelError: 2.21136e-04\tAbsError: 6.97280e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20936e-04\tAbsError: 5.57180e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.00534e-07\tAbsError: 6.96723e-05\n", + " Region: \"zone_3\"\tRelError: 1.46817e-04\tAbsError: 1.01821e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.39462e-06\tAbsError: 5.27392e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.41727e-06\tAbsError: 4.90816e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35805e-04\tAbsError: 5.79583e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.00607e-07\tAbsError: 6.96980e-05\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.13764e-02\tAbsError: 2.60011e+12\n", + " Region: \"zone_1\"\tRelError: 5.15644e-04\tAbsError: 1.86139e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.10306e-04\tAbsError: 7.73509e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.33805e-06\tAbsError: 1.85366e-03\n", + " Region: \"zone_3\"\tRelError: 8.08607e-02\tAbsError: 2.60011e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77471e-02\tAbsError: 1.74501e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.39413e-04\tAbsError: 8.55098e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.46890e-03\tAbsError: 8.53513e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.33805e-06\tAbsError: 1.85366e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 9.04358e-04\tAbsError: 6.91618e+11\n", + " Region: \"zone_1\"\tRelError: 3.02587e-04\tAbsError: 7.78938e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.02363e-04\tAbsError: 1.55785e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.23501e-07\tAbsError: 7.77380e-05\n", + " Region: \"zone_3\"\tRelError: 6.01772e-04\tAbsError: 6.91618e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.55559e-05\tAbsError: 3.47877e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.53466e-05\tAbsError: 3.43741e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.70646e-04\tAbsError: 1.69595e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.23586e-07\tAbsError: 7.77681e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.20053e-04\tAbsError: 9.08394e+10\n", + " Region: \"zone_1\"\tRelError: 1.81544e-05\tAbsError: 5.77969e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.79881e-05\tAbsError: 5.48804e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.66269e-07\tAbsError: 5.77420e-05\n", + " Region: \"zone_3\"\tRelError: 1.01899e-04\tAbsError: 9.08394e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.23512e-06\tAbsError: 6.54956e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.17106e-06\tAbsError: 2.53438e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 8.93263e-05\tAbsError: 5.73246e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.66303e-07\tAbsError: 5.77524e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.27074e-04\tAbsError: 8.15536e+10\n", + " Region: \"zone_1\"\tRelError: 3.09063e-05\tAbsError: 9.88116e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.08780e-05\tAbsError: 3.69812e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.83382e-08\tAbsError: 9.84418e-06\n", + " Region: \"zone_3\"\tRelError: 9.61679e-05\tAbsError: 8.15536e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.70448e-06\tAbsError: 4.58581e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.67779e-06\tAbsError: 3.56955e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 8.87573e-05\tAbsError: 3.76646e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.83462e-08\tAbsError: 9.84698e-06\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.02562e-04\tAbsError: 6.84436e+10\n", + " Region: \"zone_1\"\tRelError: 1.21040e-04\tAbsError: 1.06970e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21010e-04\tAbsError: 3.27450e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.06942e-08\tAbsError: 1.06642e-05\n", + " Region: \"zone_3\"\tRelError: 8.15214e-05\tAbsError: 6.84436e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.33271e-06\tAbsError: 3.86457e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.32148e-06\tAbsError: 2.97979e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.48365e-05\tAbsError: 3.43670e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.07019e-08\tAbsError: 1.06669e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.48966e-04\tAbsError: 8.96566e+11\n", + " Region: \"zone_1\"\tRelError: 5.28566e-05\tAbsError: 1.37320e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.24660e-05\tAbsError: 1.35084e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.90631e-07\tAbsError: 1.35969e-04\n", + " Region: \"zone_3\"\tRelError: 3.96109e-04\tAbsError: 8.96566e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98545e-05\tAbsError: 2.13909e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.29182e-05\tAbsError: 6.82656e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.02946e-04\tAbsError: 1.35679e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.90791e-07\tAbsError: 1.36028e-04\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.87260e-04\tAbsError: 1.29403e+11\n", + " Region: \"zone_1\"\tRelError: 6.28801e-05\tAbsError: 2.91909e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.27963e-05\tAbsError: 3.06059e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.38368e-08\tAbsError: 2.91603e-05\n", + " Region: \"zone_3\"\tRelError: 1.24379e-04\tAbsError: 1.29403e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91169e-06\tAbsError: 6.49895e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.87741e-06\tAbsError: 6.44135e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18506e-04\tAbsError: 3.32307e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.38700e-08\tAbsError: 2.91722e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.89211e-05\tAbsError: 9.50180e+09\n", + " Region: \"zone_1\"\tRelError: 4.65037e-06\tAbsError: 5.55191e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.63440e-06\tAbsError: 4.80136e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59683e-08\tAbsError: 5.54711e-06\n", + " Region: \"zone_3\"\tRelError: 1.42707e-05\tAbsError: 9.50180e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.61313e-07\tAbsError: 5.41394e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.61345e-07\tAbsError: 4.08786e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33321e-05\tAbsError: 4.89497e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59706e-08\tAbsError: 5.54792e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:08\u001b[0m.\u001b[1;36m665\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:08\u001b[0m.\u001b[1;36m665\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7333333333333334\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.92305e-05\tAbsError: 5.26360e+10\n", + " Region: \"zone_1\"\tRelError: 6.83936e-06\tAbsError: 3.78015e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.82864e-06\tAbsError: 4.82672e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.07211e-08\tAbsError: 3.73188e-06\n", + " Region: \"zone_3\"\tRelError: 4.23911e-05\tAbsError: 5.26360e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.17044e-06\tAbsError: 2.04349e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.13380e-06\tAbsError: 3.22010e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.40762e-05\tAbsError: 4.83420e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.07265e-08\tAbsError: 3.73386e-06\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:08\u001b[0m.\u001b[1;36m840\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:08\u001b[0m.\u001b[1;36m840\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.4149999999999999\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.67619e-05\tAbsError: 1.02422e+10\n", + " Region: \"zone_1\"\tRelError: 2.21445e-05\tAbsError: 4.91320e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.21303e-05\tAbsError: 5.33976e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41260e-08\tAbsError: 4.90786e-06\n", + " Region: \"zone_3\"\tRelError: 1.46175e-05\tAbsError: 1.02422e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.20200e-07\tAbsError: 5.93796e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.20801e-07\tAbsError: 4.30421e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35623e-05\tAbsError: 5.58038e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41284e-08\tAbsError: 4.90869e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:09\u001b[0m.\u001b[1;36m165\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.7000000000000001\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 6.51617e-05\tAbsError: 4.65398e+10\n", + " Region: \"zone_1\"\tRelError: 2.18609e-05\tAbsError: 6.36014e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.18427e-05\tAbsError: 1.11819e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.82534e-08\tAbsError: 6.34896e-06\n", + " Region: \"zone_3\"\tRelError: 4.33008e-05\tAbsError: 4.65398e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04809e-06\tAbsError: 2.33986e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03254e-06\tAbsError: 2.31412e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.12019e-05\tAbsError: 1.20844e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.82605e-08\tAbsError: 6.35150e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:09\u001b[0m.\u001b[1;36m620\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.8\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Iteration: 6\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 1.64329e-04\tAbsError: 1.17757e+11\n", + " Region: \"zone_1\"\tRelError: 2.50373e-05\tAbsError: 4.84121e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.48981e-05\tAbsError: 7.17289e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39198e-07\tAbsError: 4.83403e-05\n", + " Region: \"zone_3\"\tRelError: 1.39291e-04\tAbsError: 1.17757e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.33650e-06\tAbsError: 8.08468e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.26154e-06\tAbsError: 3.69104e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.22554e-04\tAbsError: 7.49738e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.39198e-07\tAbsError: 4.83403e-05\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.05900e+01\tAbsError: 4.46557e+16\n", + " Region: \"zone_1\"\tRelError: 6.87743e+01\tAbsError: 4.20735e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.87743e+01\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.70008e-09\tAbsError: 9.37962e-07\n", + " Region: \"zone_3\"\tRelError: 1.81571e+00\tAbsError: 4.46557e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77865e-01\tAbsError: 2.21789e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.77152e-01\tAbsError: 2.24768e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.60688e-01\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.70036e-09\tAbsError: 9.38061e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.20408e+00\tAbsError: 8.66556e+15\n", + " Region: \"zone_1\"\tRelError: 5.53406e+00\tAbsError: 4.19658e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.53406e+00\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.30170e-09\tAbsError: 2.88550e-06\n", + " Region: \"zone_3\"\tRelError: 1.67003e+00\tAbsError: 8.66556e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78195e-01\tAbsError: 5.11161e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.78171e-01\tAbsError: 3.55395e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13660e-01\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.30183e-09\tAbsError: 2.88560e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.11982e+00\tAbsError: 2.71568e+16\n", + " Region: \"zone_1\"\tRelError: 3.35178e+00\tAbsError: 4.09552e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.35178e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.75560e-09\tAbsError: 9.57391e-07\n", + " Region: \"zone_3\"\tRelError: 1.76804e+00\tAbsError: 2.71568e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68907e-01\tAbsError: 1.36090e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.68433e-01\tAbsError: 1.35478e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.30705e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.75592e-09\tAbsError: 9.57503e-07\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.29104e-05\tAbsError: 4.21734e+10\n", + " Region: \"zone_1\"\tRelError: 4.44495e-06\tAbsError: 6.18426e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.42730e-06\tAbsError: 4.07074e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.76498e-08\tAbsError: 6.14355e-06\n", + " Region: \"zone_3\"\tRelError: 2.84655e-05\tAbsError: 4.21734e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.29169e-06\tAbsError: 1.42178e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.26285e-06\tAbsError: 2.79556e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.18933e-05\tAbsError: 4.07772e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.76574e-08\tAbsError: 6.14636e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:11\u001b[0m.\u001b[1;36m152\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:11\u001b[0m.\u001b[1;36m152\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.42999999999999994\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.97502e+01\tAbsError: 1.32808e+17\n", + " Region: \"zone_1\"\tRelError: 2.76074e+01\tAbsError: 4.09563e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.76074e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.00798e-09\tAbsError: 2.08971e-06\n", + " Region: \"zone_3\"\tRelError: 2.14284e+00\tAbsError: 1.32808e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.64512e-01\tAbsError: 6.68287e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.62033e-01\tAbsError: 6.59795e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.16298e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.01029e-09\tAbsError: 2.09057e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 7.17594e+00\tAbsError: 4.58261e+16\n", + " Region: \"zone_1\"\tRelError: 5.57923e+00\tAbsError: 2.03711e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.57873e+00\tAbsError: 3.20819e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.94325e-04\tAbsError: 1.71629e-01\n", + " Region: \"zone_3\"\tRelError: 1.59671e+00\tAbsError: 4.58261e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.50864e-01\tAbsError: 2.32601e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.14248e-01\tAbsError: 2.25660e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.31103e-01\tAbsError: 3.20820e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.94325e-04\tAbsError: 1.71629e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.60672e+00\tAbsError: 4.02263e+14\n", + " Region: \"zone_1\"\tRelError: 1.08205e-01\tAbsError: 8.12031e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08064e-01\tAbsError: 3.19528e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41712e-04\tAbsError: 4.92503e-02\n", + " Region: \"zone_3\"\tRelError: 1.49852e+00\tAbsError: 4.02263e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.54640e-01\tAbsError: 2.74026e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.47272e-01\tAbsError: 1.28237e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.64644e-02\tAbsError: 3.19531e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41712e-04\tAbsError: 4.92503e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.73275e+00\tAbsError: 2.68838e+16\n", + " Region: \"zone_1\"\tRelError: 1.92080e-01\tAbsError: 1.46306e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.91747e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.32681e-04\tAbsError: 1.15542e-01\n", + " Region: \"zone_3\"\tRelError: 1.54067e+00\tAbsError: 2.68838e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.36324e-01\tAbsError: 1.35736e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.01335e-01\tAbsError: 1.33102e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.02681e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.32681e-04\tAbsError: 1.15542e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 8.61535e+00\tAbsError: 1.17905e+17\n", + " Region: \"zone_1\"\tRelError: 7.44285e-01\tAbsError: 3.38569e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 7.43397e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.87545e-04\tAbsError: 3.07806e-01\n", + " Region: \"zone_3\"\tRelError: 7.87107e+00\tAbsError: 1.17905e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17750e-01\tAbsError: 5.81639e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.67341e-01\tAbsError: 5.97408e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.58509e+00\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.87924e-04\tAbsError: 3.07944e-01\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 4.99434e+00\tAbsError: 9.07460e+15\n", + " Region: \"zone_1\"\tRelError: 3.30452e+00\tAbsError: 4.29359e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.30452e+00\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.08442e-09\tAbsError: 2.11298e-06\n", + " Region: \"zone_3\"\tRelError: 1.68981e+00\tAbsError: 9.07460e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86122e-01\tAbsError: 5.35667e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.86097e-01\tAbsError: 3.71793e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17595e-01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.08597e-09\tAbsError: 2.11346e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 3.35530e+00\tAbsError: 2.87948e+16\n", + " Region: \"zone_1\"\tRelError: 2.27290e+00\tAbsError: 1.15223e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.27265e+00\tAbsError: 2.57661e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.57720e-04\tAbsError: 8.94567e-02\n", + " Region: \"zone_3\"\tRelError: 1.08240e+00\tAbsError: 2.87948e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.59123e-01\tAbsError: 1.44061e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.01637e-01\tAbsError: 1.43888e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.21384e-01\tAbsError: 2.47220e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.57720e-04\tAbsError: 8.94567e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.07637e+00\tAbsError: 1.35812e+14\n", + " Region: \"zone_1\"\tRelError: 8.30797e-02\tAbsError: 3.32939e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.30584e-02\tAbsError: 2.58851e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.13173e-05\tAbsError: 7.40875e-03\n", + " Region: \"zone_3\"\tRelError: 9.93286e-01\tAbsError: 1.35812e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.65266e-01\tAbsError: 8.15592e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.44014e-01\tAbsError: 5.42533e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.39844e-02\tAbsError: 2.58851e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.13173e-05\tAbsError: 7.40875e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.12307e+00\tAbsError: 1.60442e+16\n", + " Region: \"zone_1\"\tRelError: 1.49907e-01\tAbsError: 9.31426e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49713e-01\tAbsError: 2.58569e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93773e-04\tAbsError: 6.72856e-02\n", + " Region: \"zone_3\"\tRelError: 9.73164e-01\tAbsError: 1.60442e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39500e-01\tAbsError: 8.04160e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.83757e-01\tAbsError: 8.00261e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49713e-01\tAbsError: 2.43087e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93773e-04\tAbsError: 6.72856e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 6.05251e+00\tAbsError: 7.12298e+16\n", + " Region: \"zone_1\"\tRelError: 9.54106e-01\tAbsError: 5.37894e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.54025e-01\tAbsError: 2.58886e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.04593e-05\tAbsError: 2.79009e-02\n", + " Region: \"zone_3\"\tRelError: 5.09841e+00\tAbsError: 7.12298e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.89784e-01\tAbsError: 3.67872e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.99659e-01\tAbsError: 3.44425e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 4.40888e+00\tAbsError: 2.58912e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.04593e-05\tAbsError: 2.79009e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.64725e+00\tAbsError: 4.74556e+14\n", + " Region: \"zone_1\"\tRelError: 1.16564e-01\tAbsError: 8.37432e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16418e-01\tAbsError: 3.31003e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.45721e-04\tAbsError: 5.06428e-02\n", + " Region: \"zone_3\"\tRelError: 1.53069e+00\tAbsError: 4.74556e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.69093e-01\tAbsError: 3.14532e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.61063e-01\tAbsError: 1.60024e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00388e-01\tAbsError: 3.31007e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.45721e-04\tAbsError: 5.06428e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.48868e+00\tAbsError: 8.66364e+15\n", + " Region: \"zone_1\"\tRelError: 1.06272e+00\tAbsError: 3.63205e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06265e+00\tAbsError: 1.08343e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.34266e-05\tAbsError: 2.54862e-02\n", + " Region: \"zone_3\"\tRelError: 4.25956e-01\tAbsError: 8.66364e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.94615e-01\tAbsError: 4.46596e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.11861e-01\tAbsError: 4.19767e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19407e-01\tAbsError: 1.08344e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.34266e-05\tAbsError: 2.54862e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.54994e-01\tAbsError: 5.06788e+13\n", + " Region: \"zone_1\"\tRelError: 2.88221e-02\tAbsError: 1.30680e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88152e-02\tAbsError: 1.06617e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.92395e-06\tAbsError: 2.40632e-03\n", + " Region: \"zone_3\"\tRelError: 3.26172e-01\tAbsError: 5.06788e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.16815e-01\tAbsError: 2.27548e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.02389e-02\tAbsError: 2.79240e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.91117e-02\tAbsError: 1.06618e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.92713e-06\tAbsError: 2.40746e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.25010e-01\tAbsError: 4.83168e+15\n", + " Region: \"zone_1\"\tRelError: 9.35029e-02\tAbsError: 6.02167e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.33558e-02\tAbsError: 9.16529e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47066e-04\tAbsError: 5.10514e-02\n", + " Region: \"zone_3\"\tRelError: 3.31507e-01\tAbsError: 4.83168e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.74852e-01\tAbsError: 2.44485e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.96161e-02\tAbsError: 2.38683e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.68922e-02\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47066e-04\tAbsError: 5.10514e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.96439e+00\tAbsError: 2.12374e+16\n", + " Region: \"zone_1\"\tRelError: 1.45967e+00\tAbsError: 2.87618e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.45886e+00\tAbsError: 9.16520e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03570e-04\tAbsError: 2.78453e-01\n", + " Region: \"zone_3\"\tRelError: 2.50473e+00\tAbsError: 2.12374e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.31487e-01\tAbsError: 1.07624e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.30649e-02\tAbsError: 1.04749e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.30937e+00\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03570e-04\tAbsError: 2.78453e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.13875e+00\tAbsError: 1.91429e+14\n", + " Region: \"zone_1\"\tRelError: 8.72362e-02\tAbsError: 3.41775e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.72123e-02\tAbsError: 2.58950e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.38317e-05\tAbsError: 8.28251e-03\n", + " Region: \"zone_3\"\tRelError: 1.05151e+00\tAbsError: 1.91429e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.88183e-01\tAbsError: 1.14582e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.74391e-01\tAbsError: 7.68472e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.89114e-02\tAbsError: 2.58546e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.38317e-05\tAbsError: 8.28251e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.05269e-01\tAbsError: 2.00168e+15\n", + " Region: \"zone_1\"\tRelError: 1.01873e-01\tAbsError: 2.51091e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01150e-01\tAbsError: 3.37405e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.23145e-04\tAbsError: 2.50754e-01\n", + " Region: \"zone_3\"\tRelError: 1.03396e-01\tAbsError: 2.00168e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.03281e-02\tAbsError: 1.03044e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.61663e-02\tAbsError: 9.71243e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.61783e-02\tAbsError: 3.37405e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.23145e-04\tAbsError: 2.50754e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.30726e-02\tAbsError: 8.23927e+12\n", + " Region: \"zone_1\"\tRelError: 3.37848e-03\tAbsError: 2.02621e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.37281e-03\tAbsError: 5.95073e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.66400e-06\tAbsError: 1.96670e-03\n", + " Region: \"zone_3\"\tRelError: 6.96941e-02\tAbsError: 8.23927e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.48256e-02\tAbsError: 4.47787e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.90463e-03\tAbsError: 3.76140e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.95818e-03\tAbsError: 6.43767e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.66400e-06\tAbsError: 1.96670e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.30868e-01\tAbsError: 1.08442e+15\n", + " Region: \"zone_1\"\tRelError: 2.27753e-02\tAbsError: 2.15920e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.21537e-02\tAbsError: 2.84606e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.21607e-04\tAbsError: 2.15635e-01\n", + " Region: \"zone_3\"\tRelError: 1.08092e-01\tAbsError: 1.08442e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.76472e-02\tAbsError: 4.26455e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.43864e-02\tAbsError: 6.57964e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.54371e-02\tAbsError: 2.84606e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.21607e-04\tAbsError: 2.15635e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.06736e+00\tAbsError: 1.67079e+15\n", + " Region: \"zone_1\"\tRelError: 1.87002e-01\tAbsError: 2.94468e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86917e-01\tAbsError: 5.45669e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.47563e-05\tAbsError: 2.93922e-02\n", + " Region: \"zone_3\"\tRelError: 1.88036e+00\tAbsError: 1.67079e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95806e-02\tAbsError: 8.61655e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.32450e-03\tAbsError: 8.09135e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.85737e+00\tAbsError: 5.47236e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.50770e-05\tAbsError: 2.95046e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.13297e-01\tAbsError: 7.52929e+13\n", + " Region: \"zone_1\"\tRelError: 3.44170e-02\tAbsError: 1.51248e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.44088e-02\tAbsError: 1.22657e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.23601e-06\tAbsError: 2.85918e-03\n", + " Region: \"zone_3\"\tRelError: 3.78880e-01\tAbsError: 7.52929e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.42275e-01\tAbsError: 3.28684e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.01785e-01\tAbsError: 4.24245e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.48113e-02\tAbsError: 1.22657e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.23601e-06\tAbsError: 2.85918e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.73594e-01\tAbsError: 4.04568e+14\n", + " Region: \"zone_1\"\tRelError: 1.14252e-01\tAbsError: 1.60779e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14206e-01\tAbsError: 6.91107e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.61654e-05\tAbsError: 1.60088e-02\n", + " Region: \"zone_3\"\tRelError: 1.59342e-01\tAbsError: 4.04568e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.16744e-03\tAbsError: 2.05385e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.06128e-03\tAbsError: 1.99183e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49067e-01\tAbsError: 7.27188e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.61654e-05\tAbsError: 1.60088e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.22575e-04\tAbsError: 9.29075e+11\n", + " Region: \"zone_1\"\tRelError: 7.12288e-05\tAbsError: 1.15614e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.09000e-05\tAbsError: 1.32871e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.28820e-07\tAbsError: 1.14285e-04\n", + " Region: \"zone_3\"\tRelError: 5.51346e-04\tAbsError: 9.29075e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.42058e-04\tAbsError: 2.36026e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.92710e-05\tAbsError: 6.93050e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.19689e-04\tAbsError: 1.33393e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.28820e-07\tAbsError: 1.14285e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.55617e-01\tAbsError: 2.35794e+14\n", + " Region: \"zone_1\"\tRelError: 4.99367e-02\tAbsError: 1.38607e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.98970e-02\tAbsError: 6.98741e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.97528e-05\tAbsError: 1.37908e-02\n", + " Region: \"zone_3\"\tRelError: 1.05680e-01\tAbsError: 2.35794e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.27300e-03\tAbsError: 1.18548e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.21148e-03\tAbsError: 1.17246e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.51557e-02\tAbsError: 7.06637e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.97528e-05\tAbsError: 1.37908e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.99757e-02\tAbsError: 6.03219e+13\n", + " Region: \"zone_1\"\tRelError: 5.28092e-03\tAbsError: 6.07421e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.26342e-03\tAbsError: 6.43272e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75062e-05\tAbsError: 6.06778e-03\n", + " Region: \"zone_3\"\tRelError: 2.46948e-02\tAbsError: 6.03219e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52421e-04\tAbsError: 2.92320e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.21852e-04\tAbsError: 3.10899e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.41030e-02\tAbsError: 6.47112e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75095e-05\tAbsError: 6.06885e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.55296e-02\tAbsError: 1.46785e+13\n", + " Region: \"zone_1\"\tRelError: 2.49644e-03\tAbsError: 2.18616e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49041e-03\tAbsError: 9.01307e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.03652e-06\tAbsError: 2.09603e-03\n", + " Region: \"zone_3\"\tRelError: 8.30332e-02\tAbsError: 1.46785e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.51171e-02\tAbsError: 7.64842e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.70344e-03\tAbsError: 7.03012e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20658e-03\tAbsError: 1.00679e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.03652e-06\tAbsError: 2.09603e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.46364e-02\tAbsError: 3.29563e+13\n", + " Region: \"zone_1\"\tRelError: 1.47274e-02\tAbsError: 7.28157e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.47064e-02\tAbsError: 5.33486e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.09833e-05\tAbsError: 7.27623e-03\n", + " Region: \"zone_3\"\tRelError: 1.99090e-02\tAbsError: 3.29563e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.19292e-04\tAbsError: 1.67682e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.25236e-04\tAbsError: 1.61881e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.90434e-02\tAbsError: 5.85649e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.09915e-05\tAbsError: 7.27922e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.27650e-04\tAbsError: 9.52408e+10\n", + " Region: \"zone_1\"\tRelError: 2.13213e-05\tAbsError: 5.43725e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.11649e-05\tAbsError: 6.28014e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.56399e-07\tAbsError: 5.43097e-05\n", + " Region: \"zone_3\"\tRelError: 1.06329e-04\tAbsError: 9.52408e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.09144e-06\tAbsError: 6.70989e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.02116e-06\tAbsError: 2.81420e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 9.40598e-05\tAbsError: 6.55661e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.56426e-07\tAbsError: 5.43178e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.12114e-02\tAbsError: 1.98754e+13\n", + " Region: \"zone_1\"\tRelError: 7.04172e-03\tAbsError: 6.58751e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.02275e-03\tAbsError: 5.51750e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.89733e-05\tAbsError: 6.58199e-03\n", + " Region: \"zone_3\"\tRelError: 1.41697e-02\tAbsError: 1.98754e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43525e-04\tAbsError: 1.00008e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.47254e-04\tAbsError: 9.87467e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.32599e-02\tAbsError: 5.78756e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.89775e-05\tAbsError: 6.58354e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.10405e-01\tAbsError: 3.12560e+13\n", + " Region: \"zone_1\"\tRelError: 1.08840e-02\tAbsError: 4.61195e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08827e-02\tAbsError: 1.71511e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32204e-06\tAbsError: 4.59479e-04\n", + " Region: \"zone_3\"\tRelError: 9.95213e-02\tAbsError: 3.12560e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34947e-04\tAbsError: 1.52362e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.27748e-04\tAbsError: 1.60198e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.92573e-02\tAbsError: 1.72813e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32271e-06\tAbsError: 4.59705e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.58436e-04\tAbsError: 9.76197e+11\n", + " Region: \"zone_1\"\tRelError: 6.87963e-05\tAbsError: 1.52764e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.83606e-05\tAbsError: 1.30863e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.35775e-07\tAbsError: 1.51456e-04\n", + " Region: \"zone_3\"\tRelError: 5.89639e-04\tAbsError: 9.76197e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.93148e-04\tAbsError: 2.43686e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.21484e-05\tAbsError: 7.32511e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.03907e-04\tAbsError: 1.33351e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.35775e-07\tAbsError: 1.51456e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.13924e-02\tAbsError: 1.85414e+13\n", + " Region: \"zone_1\"\tRelError: 9.11864e-03\tAbsError: 9.59661e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.11588e-03\tAbsError: 2.59243e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.75871e-06\tAbsError: 9.57068e-04\n", + " Region: \"zone_3\"\tRelError: 1.22737e-02\tAbsError: 1.85414e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.38572e-04\tAbsError: 9.41604e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.34475e-04\tAbsError: 9.12538e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17979e-02\tAbsError: 2.84729e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.75985e-06\tAbsError: 9.57492e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.50840e-05\tAbsError: 4.91699e+10\n", + " Region: \"zone_1\"\tRelError: 7.02249e-06\tAbsError: 4.27319e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 7.01033e-06\tAbsError: 4.22210e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.21557e-08\tAbsError: 4.23096e-06\n", + " Region: \"zone_3\"\tRelError: 3.80615e-05\tAbsError: 4.91699e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.39542e-06\tAbsError: 1.90691e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.36606e-06\tAbsError: 3.01008e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.12878e-05\tAbsError: 4.24207e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.21614e-08\tAbsError: 4.23302e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:20\u001b[0m.\u001b[1;36m551\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:20\u001b[0m.\u001b[1;36m551\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5199999999999999\u001b[0m \n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.24258e-02\tAbsError: 1.10918e+13\n", + " Region: \"zone_1\"\tRelError: 4.12899e-03\tAbsError: 9.16825e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.12635e-03\tAbsError: 2.69238e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.63359e-06\tAbsError: 9.14133e-04\n", + " Region: \"zone_3\"\tRelError: 8.29681e-03\tAbsError: 1.10918e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.48339e-04\tAbsError: 5.58229e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.46113e-04\tAbsError: 5.50951e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.79972e-03\tAbsError: 2.89698e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.63458e-06\tAbsError: 9.14508e-04\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.63047e-03\tAbsError: 9.09027e+11\n", + " Region: \"zone_1\"\tRelError: 4.56990e-04\tAbsError: 3.44629e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.55999e-04\tAbsError: 1.41300e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.91190e-07\tAbsError: 3.44488e-04\n", + " Region: \"zone_3\"\tRelError: 4.17348e-03\tAbsError: 9.09027e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.33335e-06\tAbsError: 4.38047e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.02288e-05\tAbsError: 4.70980e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.15793e-03\tAbsError: 1.42246e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.91601e-07\tAbsError: 3.44637e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.65798e-04\tAbsError: 1.22174e+11\n", + " Region: \"zone_1\"\tRelError: 2.79805e-05\tAbsError: 5.56854e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78204e-05\tAbsError: 8.16520e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60127e-07\tAbsError: 5.56037e-05\n", + " Region: \"zone_3\"\tRelError: 1.37818e-04\tAbsError: 1.22174e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.04045e-06\tAbsError: 8.28593e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.95339e-06\tAbsError: 3.93150e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21664e-04\tAbsError: 8.53009e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60129e-07\tAbsError: 5.56037e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.60352e-03\tAbsError: 2.57243e+12\n", + " Region: \"zone_1\"\tRelError: 1.54297e-03\tAbsError: 4.44694e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.54169e-03\tAbsError: 3.49758e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27787e-06\tAbsError: 4.44344e-04\n", + " Region: \"zone_3\"\tRelError: 2.06056e-03\tAbsError: 2.57243e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.32361e-05\tAbsError: 1.30390e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.27108e-05\tAbsError: 1.26853e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.99333e-03\tAbsError: 3.79227e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27835e-06\tAbsError: 4.44517e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.18008e-03\tAbsError: 1.59787e+12\n", + " Region: \"zone_1\"\tRelError: 7.30404e-04\tAbsError: 4.14536e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.29211e-04\tAbsError: 3.64518e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19313e-06\tAbsError: 4.14171e-04\n", + " Region: \"zone_3\"\tRelError: 1.44968e-03\tAbsError: 1.59787e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.59026e-05\tAbsError: 8.02763e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.55751e-05\tAbsError: 7.95108e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37700e-03\tAbsError: 3.97752e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19336e-06\tAbsError: 4.14251e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.98221e+01\tAbsError: 8.64531e+15\n", + " Region: \"zone_1\"\tRelError: 1.81187e+01\tAbsError: 4.19656e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.81187e+01\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.58846e-09\tAbsError: 2.63725e-06\n", + " Region: \"zone_3\"\tRelError: 1.70342e+00\tAbsError: 8.64531e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78201e-01\tAbsError: 4.98895e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.78139e-01\tAbsError: 3.65636e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.47079e-01\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.58846e-09\tAbsError: 2.63727e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.49771e-03\tAbsError: 1.64940e+12\n", + " Region: \"zone_1\"\tRelError: 6.42053e-04\tAbsError: 1.77929e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.42002e-04\tAbsError: 9.99896e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.09050e-08\tAbsError: 1.76929e-05\n", + " Region: \"zone_3\"\tRelError: 5.85566e-03\tAbsError: 1.64940e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.16109e-06\tAbsError: 8.03293e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.70130e-06\tAbsError: 8.46106e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.84174e-03\tAbsError: 1.00703e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.09341e-08\tAbsError: 1.77035e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.29840e-05\tAbsError: 4.97114e+10\n", + " Region: \"zone_1\"\tRelError: 6.74775e-06\tAbsError: 6.07457e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.73042e-06\tAbsError: 4.22286e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73315e-08\tAbsError: 6.03234e-06\n", + " Region: \"zone_3\"\tRelError: 3.62362e-05\tAbsError: 4.97114e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.35448e-06\tAbsError: 1.86949e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.32535e-06\tAbsError: 3.10165e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.95390e-05\tAbsError: 4.25647e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73388e-08\tAbsError: 6.03496e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:22\u001b[0m.\u001b[1;36m766\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.5399999999999999\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.51864e-03\tAbsError: 1.12473e+12\n", + " Region: \"zone_1\"\tRelError: 6.50046e-04\tAbsError: 8.14798e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.49813e-04\tAbsError: 1.44801e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.33906e-07\tAbsError: 8.13350e-05\n", + " Region: \"zone_3\"\tRelError: 8.68591e-04\tAbsError: 1.12473e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.45444e-05\tAbsError: 5.70557e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.42123e-05\tAbsError: 5.54169e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 8.39600e-04\tAbsError: 1.62373e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.34000e-07\tAbsError: 8.13686e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 9.04358e-04\tAbsError: 6.91618e+11\n", + " Region: \"zone_1\"\tRelError: 3.02587e-04\tAbsError: 7.78938e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.02363e-04\tAbsError: 1.55785e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.23501e-07\tAbsError: 7.77380e-05\n", + " Region: \"zone_3\"\tRelError: 6.01772e-04\tAbsError: 6.91618e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.55559e-05\tAbsError: 3.47877e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.53466e-05\tAbsError: 3.43741e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.70646e-04\tAbsError: 1.69595e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.23586e-07\tAbsError: 7.77681e-05\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.39508e+00\tAbsError: 1.51600e+15\n", + " Region: \"zone_1\"\tRelError: 8.81064e-01\tAbsError: 7.03064e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.80954e-01\tAbsError: 3.19527e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10369e-04\tAbsError: 3.83537e-02\n", + " Region: \"zone_3\"\tRelError: 1.51402e+00\tAbsError: 1.51600e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.56486e-01\tAbsError: 8.49352e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.37103e-01\tAbsError: 6.66645e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20319e-01\tAbsError: 3.19528e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10369e-04\tAbsError: 3.83537e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 5.44825e-04\tAbsError: 5.87780e+10\n", + " Region: \"zone_1\"\tRelError: 5.39394e-05\tAbsError: 2.02429e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.38812e-05\tAbsError: 6.87611e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.82246e-08\tAbsError: 2.02360e-05\n", + " Region: \"zone_3\"\tRelError: 4.90886e-04\tAbsError: 5.87780e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.46411e-07\tAbsError: 2.85251e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.30809e-07\tAbsError: 3.02529e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.90250e-04\tAbsError: 6.91269e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.82487e-08\tAbsError: 2.02448e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.05747e-04\tAbsError: 2.04109e+11\n", + " Region: \"zone_1\"\tRelError: 1.31137e-04\tAbsError: 3.07956e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31048e-04\tAbsError: 2.77993e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.84829e-08\tAbsError: 3.07678e-05\n", + " Region: \"zone_3\"\tRelError: 1.74610e-04\tAbsError: 2.04109e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.64104e-06\tAbsError: 1.03365e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.58639e-06\tAbsError: 1.00744e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.69295e-04\tAbsError: 3.09340e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.85176e-08\tAbsError: 3.07806e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.79935e+00\tAbsError: 9.07065e+15\n", + " Region: \"zone_1\"\tRelError: 6.07018e+00\tAbsError: 4.29363e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.07018e+00\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.28179e-09\tAbsError: 2.52849e-06\n", + " Region: \"zone_3\"\tRelError: 1.72916e+00\tAbsError: 9.07065e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86123e-01\tAbsError: 5.17830e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.86053e-01\tAbsError: 3.89234e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.56989e-01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.28214e-09\tAbsError: 2.52864e-06\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.87260e-04\tAbsError: 1.29403e+11\n", + " Region: \"zone_1\"\tRelError: 6.28801e-05\tAbsError: 2.91909e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.27963e-05\tAbsError: 3.06059e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.38368e-08\tAbsError: 2.91603e-05\n", + " Region: \"zone_3\"\tRelError: 1.24379e-04\tAbsError: 1.29403e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91169e-06\tAbsError: 6.49895e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.87741e-06\tAbsError: 6.44135e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18506e-04\tAbsError: 3.32307e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.38700e-08\tAbsError: 2.91722e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.26009e+00\tAbsError: 9.34620e+14\n", + " Region: \"zone_1\"\tRelError: 2.72242e-01\tAbsError: 3.47960e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.72216e-01\tAbsError: 2.58901e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.56581e-05\tAbsError: 8.90586e-03\n", + " Region: \"zone_3\"\tRelError: 9.87851e-01\tAbsError: 9.34620e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.66784e-01\tAbsError: 4.28739e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.14300e-01\tAbsError: 5.05881e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06741e-01\tAbsError: 2.58901e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.56594e-05\tAbsError: 8.90651e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.92595e-04\tAbsError: 9.49473e+10\n", + " Region: \"zone_1\"\tRelError: 3.87978e-05\tAbsError: 2.02444e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.87920e-05\tAbsError: 5.96621e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.80757e-09\tAbsError: 2.01847e-06\n", + " Region: \"zone_3\"\tRelError: 3.53797e-04\tAbsError: 9.49473e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.10989e-07\tAbsError: 4.62324e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.83783e-07\tAbsError: 4.87150e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.52997e-04\tAbsError: 6.00786e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.81025e-09\tAbsError: 2.01943e-06\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.06787e-04\tAbsError: 7.36056e+10\n", + " Region: \"zone_1\"\tRelError: 4.57872e-05\tAbsError: 6.53937e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.57685e-05\tAbsError: 1.01369e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.87770e-08\tAbsError: 6.52923e-06\n", + " Region: \"zone_3\"\tRelError: 6.10000e-05\tAbsError: 7.36056e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.53086e-07\tAbsError: 3.73114e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.28982e-07\tAbsError: 3.62943e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.90992e-05\tAbsError: 1.13481e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.87845e-08\tAbsError: 6.53202e-06\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 6.51617e-05\tAbsError: 4.65398e+10\n", + " Region: \"zone_1\"\tRelError: 2.18609e-05\tAbsError: 6.36014e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.18427e-05\tAbsError: 1.11819e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.82534e-08\tAbsError: 6.34896e-06\n", + " Region: \"zone_3\"\tRelError: 4.33008e-05\tAbsError: 4.65398e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04809e-06\tAbsError: 2.33986e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03254e-06\tAbsError: 2.31412e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.12019e-05\tAbsError: 1.20844e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.82605e-08\tAbsError: 6.35150e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:25\u001b[0m.\u001b[1;36m809\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.8\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.87726e+00\tAbsError: 2.07784e+15\n", + " Region: \"zone_1\"\tRelError: 3.30726e-01\tAbsError: 7.19464e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.30614e-01\tAbsError: 3.31002e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11788e-04\tAbsError: 3.88462e-02\n", + " Region: \"zone_3\"\tRelError: 1.54653e+00\tAbsError: 2.07784e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.70151e-01\tAbsError: 1.12779e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.49677e-01\tAbsError: 9.50051e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.26591e-01\tAbsError: 3.31003e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11788e-04\tAbsError: 3.88462e-02\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 5.03275e-05\tAbsError: 9.08763e+09\n", + " Region: \"zone_1\"\tRelError: 4.97773e-06\tAbsError: 1.23989e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.97416e-06\tAbsError: 6.85123e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.56554e-09\tAbsError: 1.23921e-06\n", + " Region: \"zone_3\"\tRelError: 4.53497e-05\tAbsError: 9.08763e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.78500e-08\tAbsError: 4.42118e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.59273e-08\tAbsError: 4.66645e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 4.52724e-05\tAbsError: 6.89457e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.56702e-09\tAbsError: 1.23975e-06\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 2.39966e-05\tAbsError: 1.56028e+10\n", + " Region: \"zone_1\"\tRelError: 1.02996e-05\tAbsError: 2.15196e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02934e-05\tAbsError: 2.21173e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.18226e-09\tAbsError: 2.14975e-06\n", + " Region: \"zone_3\"\tRelError: 1.36971e-05\tAbsError: 1.56028e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.02027e-07\tAbsError: 7.89960e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.97311e-07\tAbsError: 7.70324e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.32915e-05\tAbsError: 2.46563e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.18487e-09\tAbsError: 2.15070e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:26\u001b[0m.\u001b[1;36m431\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.9\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:26\u001b[0m.\u001b[1;36m492\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:26\u001b[0m.\u001b[1;36m492\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.8388888888888889\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Iteration: 3\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 4.15200e-01\tAbsError: 3.54843e+14\n", + " Region: \"zone_1\"\tRelError: 5.18783e-02\tAbsError: 2.16460e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.18467e-02\tAbsError: 1.06619e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.16468e-05\tAbsError: 1.09842e-02\n", + " Region: \"zone_3\"\tRelError: 3.63322e-01\tAbsError: 3.54843e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.13274e-01\tAbsError: 1.70567e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.13884e-01\tAbsError: 1.84276e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.61323e-02\tAbsError: 1.06619e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.16468e-05\tAbsError: 1.09846e-02\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.15795e+00\tAbsError: 1.43317e+15\n", + " Region: \"zone_1\"\tRelError: 1.12652e-01\tAbsError: 3.52450e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12625e-01\tAbsError: 2.58896e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69531e-05\tAbsError: 9.35535e-03\n", + " Region: \"zone_3\"\tRelError: 1.04530e+00\tAbsError: 1.43317e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.89809e-01\tAbsError: 6.27661e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.39858e-01\tAbsError: 8.05511e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15604e-01\tAbsError: 2.58543e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69724e-05\tAbsError: 9.36224e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.97502e+01\tAbsError: 1.32808e+17\n", + " Region: \"zone_1\"\tRelError: 2.76074e+01\tAbsError: 4.09563e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.76074e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.00798e-09\tAbsError: 2.08971e-06\n", + " Region: \"zone_3\"\tRelError: 2.14284e+00\tAbsError: 1.32808e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.64512e-01\tAbsError: 6.68287e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.62033e-01\tAbsError: 6.59795e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.16298e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.01029e-09\tAbsError: 2.09057e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.01228e-01\tAbsError: 6.23996e+13\n", + " Region: \"zone_1\"\tRelError: 2.72826e-02\tAbsError: 5.51066e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.72672e-02\tAbsError: 1.71694e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.53768e-05\tAbsError: 5.33897e-03\n", + " Region: \"zone_3\"\tRelError: 7.39455e-02\tAbsError: 6.23996e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.10935e-02\tAbsError: 3.59735e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.41458e-03\tAbsError: 2.64261e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.42212e-03\tAbsError: 1.72806e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.53768e-05\tAbsError: 5.33897e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.75731e+01\tAbsError: 5.68784e+17\n", + " Region: \"zone_1\"\tRelError: 3.83859e+01\tAbsError: 4.09543e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.83859e+01\tAbsError: 4.09541e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.16236e-10\tAbsError: 1.79418e-07\n", + " Region: \"zone_3\"\tRelError: 1.91873e+01\tAbsError: 5.68784e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.35377e-01\tAbsError: 2.75826e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.22188e-01\tAbsError: 2.92959e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77297e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.16460e-10\tAbsError: 1.79501e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.99733e+01\tAbsError: 2.26128e+17\n", + " Region: \"zone_1\"\tRelError: 2.03845e+01\tAbsError: 4.20731e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03845e+01\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43640e-09\tAbsError: 4.99480e-07\n", + " Region: \"zone_3\"\tRelError: 9.58886e+00\tAbsError: 2.26128e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69382e-01\tAbsError: 1.14820e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.65088e-01\tAbsError: 1.11307e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 8.05439e+00\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43701e-09\tAbsError: 4.99700e-07\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.66101e-01\tAbsError: 5.71776e+14\n", + " Region: \"zone_1\"\tRelError: 4.21342e-02\tAbsError: 2.70003e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.20918e-02\tAbsError: 1.22659e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.24522e-05\tAbsError: 1.47344e-02\n", + " Region: \"zone_3\"\tRelError: 4.23967e-01\tAbsError: 5.71776e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.40635e-01\tAbsError: 2.83777e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.40006e-01\tAbsError: 2.87999e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.32840e-02\tAbsError: 1.22660e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.24816e-05\tAbsError: 1.47449e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 8.61535e+00\tAbsError: 1.17905e+17\n", + " Region: \"zone_1\"\tRelError: 7.44285e-01\tAbsError: 3.38569e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 7.43397e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.87545e-04\tAbsError: 3.07806e-01\n", + " Region: \"zone_3\"\tRelError: 7.87107e+00\tAbsError: 1.17905e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17750e-01\tAbsError: 5.81639e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.67341e-01\tAbsError: 5.97408e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.58509e+00\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.87924e-04\tAbsError: 3.07944e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.18909e-03\tAbsError: 2.50797e+12\n", + " Region: \"zone_1\"\tRelError: 3.37136e-04\tAbsError: 3.99230e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.35995e-04\tAbsError: 2.73321e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.14096e-06\tAbsError: 3.96496e-04\n", + " Region: \"zone_3\"\tRelError: 1.85195e-03\tAbsError: 2.50797e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.95361e-04\tAbsError: 8.43932e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.13660e-04\tAbsError: 1.66404e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.34179e-03\tAbsError: 2.78356e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.14125e-06\tAbsError: 3.96599e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.10779e+01\tAbsError: 4.06443e+17\n", + " Region: \"zone_1\"\tRelError: 1.97168e+01\tAbsError: 4.69738e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.97155e+01\tAbsError: 3.07629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26517e-03\tAbsError: 4.38975e-01\n", + " Region: \"zone_3\"\tRelError: 1.13612e+01\tAbsError: 4.06443e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.26663e-01\tAbsError: 2.03016e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.10593e-01\tAbsError: 2.03427e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03227e+01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26614e-03\tAbsError: 4.39294e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 6.24242e+01\tAbsError: 2.24081e+17\n", + " Region: \"zone_1\"\tRelError: 2.85577e+00\tAbsError: 3.14825e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.85496e+00\tAbsError: 3.20819e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.15607e-04\tAbsError: 2.82743e-01\n", + " Region: \"zone_3\"\tRelError: 5.95684e+01\tAbsError: 2.24081e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.16910e-01\tAbsError: 1.12507e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.44277e-01\tAbsError: 1.11574e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 5.83064e+01\tAbsError: 3.20820e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.15607e-04\tAbsError: 2.82743e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.84053e-02\tAbsError: 1.08690e+14\n", + " Region: \"zone_1\"\tRelError: 8.68078e-03\tAbsError: 8.41083e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 8.65731e-03\tAbsError: 2.61591e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.34713e-05\tAbsError: 8.14923e-03\n", + " Region: \"zone_3\"\tRelError: 8.97245e-02\tAbsError: 1.08690e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.02382e-02\tAbsError: 6.26697e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.25943e-02\tAbsError: 4.60204e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.86852e-03\tAbsError: 2.62736e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.34713e-05\tAbsError: 8.14923e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 6.05251e+00\tAbsError: 7.12298e+16\n", + " Region: \"zone_1\"\tRelError: 9.54106e-01\tAbsError: 5.37894e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.54025e-01\tAbsError: 2.58886e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.04593e-05\tAbsError: 2.79009e-02\n", + " Region: \"zone_3\"\tRelError: 5.09841e+00\tAbsError: 7.12298e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.89784e-01\tAbsError: 3.67872e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.99659e-01\tAbsError: 3.44425e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 4.40888e+00\tAbsError: 2.58912e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.04593e-05\tAbsError: 2.79009e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.99123e-04\tAbsError: 3.24565e+11\n", + " Region: \"zone_1\"\tRelError: 7.31805e-05\tAbsError: 1.49703e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.27499e-05\tAbsError: 1.95433e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.30598e-07\tAbsError: 1.49507e-04\n", + " Region: \"zone_3\"\tRelError: 3.25943e-04\tAbsError: 3.24565e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84790e-05\tAbsError: 2.08597e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.82567e-05\tAbsError: 1.15968e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88776e-04\tAbsError: 2.03345e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.30635e-07\tAbsError: 1.49522e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 4.48960e+02\tAbsError: 9.69691e+16\n", + " Region: \"zone_1\"\tRelError: 4.44741e+02\tAbsError: 1.46848e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.44741e+02\tAbsError: 2.58943e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.47880e-04\tAbsError: 1.20954e-01\n", + " Region: \"zone_3\"\tRelError: 4.21888e+00\tAbsError: 9.69691e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.30659e-01\tAbsError: 4.85459e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.34310e-01\tAbsError: 4.84232e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.85356e+00\tAbsError: 2.58906e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.48053e-04\tAbsError: 1.21009e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.41397e+01\tAbsError: 1.19776e+17\n", + " Region: \"zone_1\"\tRelError: 1.71543e+01\tAbsError: 1.01229e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.71541e+01\tAbsError: 2.58798e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17159e-04\tAbsError: 7.53489e-02\n", + " Region: \"zone_3\"\tRelError: 6.98541e+00\tAbsError: 1.19776e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.67463e-01\tAbsError: 6.05237e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.74800e-01\tAbsError: 5.92520e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.34293e+00\tAbsError: 2.58798e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.17199e-04\tAbsError: 7.53648e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.70865e-03\tAbsError: 3.95368e+12\n", + " Region: \"zone_1\"\tRelError: 5.98822e-04\tAbsError: 5.60907e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.97219e-04\tAbsError: 3.89502e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60297e-06\tAbsError: 5.57012e-04\n", + " Region: \"zone_3\"\tRelError: 3.10982e-03\tAbsError: 3.95368e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.50396e-04\tAbsError: 1.41982e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.19860e-04\tAbsError: 2.53386e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.33796e-03\tAbsError: 3.96587e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60304e-06\tAbsError: 5.57046e-04\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.96439e+00\tAbsError: 2.12374e+16\n", + " Region: \"zone_1\"\tRelError: 1.45967e+00\tAbsError: 2.87618e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.45886e+00\tAbsError: 9.16520e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03570e-04\tAbsError: 2.78453e-01\n", + " Region: \"zone_3\"\tRelError: 2.50473e+00\tAbsError: 2.12374e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.31487e-01\tAbsError: 1.07624e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.30649e-02\tAbsError: 1.04749e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.30937e+00\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03570e-04\tAbsError: 2.78453e-01\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.48281e-04\tAbsError: 1.40879e+11\n", + " Region: \"zone_1\"\tRelError: 2.64953e-05\tAbsError: 1.39788e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.64554e-05\tAbsError: 9.13637e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.99031e-08\tAbsError: 1.38874e-05\n", + " Region: \"zone_3\"\tRelError: 1.21785e-04\tAbsError: 1.40879e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.26051e-06\tAbsError: 6.52185e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.19355e-06\tAbsError: 7.56605e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.05291e-04\tAbsError: 9.40395e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.99185e-08\tAbsError: 1.38930e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.03712e+00\tAbsError: 1.21527e+16\n", + " Region: \"zone_1\"\tRelError: 1.00977e+00\tAbsError: 5.07362e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00834e+00\tAbsError: 9.16487e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42992e-03\tAbsError: 4.98197e-01\n", + " Region: \"zone_3\"\tRelError: 4.02736e+00\tAbsError: 1.21527e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.24782e-02\tAbsError: 5.84262e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.44637e-02\tAbsError: 6.31012e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 3.96898e+00\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43302e-03\tAbsError: 4.99291e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.35007e+00\tAbsError: 2.67006e+16\n", + " Region: \"zone_1\"\tRelError: 7.34338e-01\tAbsError: 2.86457e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 7.33542e-01\tAbsError: 1.08342e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.95408e-04\tAbsError: 2.75623e-01\n", + " Region: \"zone_3\"\tRelError: 6.15729e-01\tAbsError: 2.67006e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04981e-01\tAbsError: 1.33915e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.31768e-02\tAbsError: 1.33091e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 4.66775e-01\tAbsError: 1.08344e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.95408e-04\tAbsError: 2.75623e-01\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 5.03905e-04\tAbsError: 4.29222e+11\n", + " Region: \"zone_1\"\tRelError: 9.36879e-05\tAbsError: 2.36804e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.30066e-05\tAbsError: 2.54166e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.81308e-07\tAbsError: 2.36550e-04\n", + " Region: \"zone_3\"\tRelError: 4.10217e-04\tAbsError: 4.29222e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.41988e-05\tAbsError: 2.77763e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.38677e-05\tAbsError: 1.51459e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.61470e-04\tAbsError: 2.67086e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.81308e-07\tAbsError: 2.36550e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.06736e+00\tAbsError: 1.67079e+15\n", + " Region: \"zone_1\"\tRelError: 1.87002e-01\tAbsError: 2.94468e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86917e-01\tAbsError: 5.45669e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.47563e-05\tAbsError: 2.93922e-02\n", + " Region: \"zone_3\"\tRelError: 1.88036e+00\tAbsError: 1.67079e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95806e-02\tAbsError: 8.61655e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.32450e-03\tAbsError: 8.09135e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.85737e+00\tAbsError: 5.47236e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.50770e-05\tAbsError: 2.95046e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.41293e-05\tAbsError: 1.23437e+10\n", + " Region: \"zone_1\"\tRelError: 2.60795e-06\tAbsError: 7.73969e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.58570e-06\tAbsError: 7.10643e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.22527e-08\tAbsError: 7.73258e-06\n", + " Region: \"zone_3\"\tRelError: 1.15214e-05\tAbsError: 1.23437e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.31680e-07\tAbsError: 8.51809e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.19940e-07\tAbsError: 3.82564e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02475e-05\tAbsError: 7.37729e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.22569e-08\tAbsError: 7.73418e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:33\u001b[0m.\u001b[1;36m460\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:33\u001b[0m.\u001b[1;36m460\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6249999999999999\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 3.86687e-01\tAbsError: 2.60316e+15\n", + " Region: \"zone_1\"\tRelError: 1.88189e-01\tAbsError: 3.83312e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88079e-01\tAbsError: 5.27222e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10379e-04\tAbsError: 3.82785e-02\n", + " Region: \"zone_3\"\tRelError: 1.98497e-01\tAbsError: 2.60316e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.41703e-02\tAbsError: 1.34666e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.26131e-03\tAbsError: 1.25651e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.81955e-01\tAbsError: 5.32997e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10741e-04\tAbsError: 3.84054e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.22708e-01\tAbsError: 3.87768e+15\n", + " Region: \"zone_1\"\tRelError: 1.91968e-01\tAbsError: 6.75386e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.90026e-01\tAbsError: 2.52604e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94152e-03\tAbsError: 6.75134e-01\n", + " Region: \"zone_3\"\tRelError: 7.30741e-01\tAbsError: 3.87768e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.56619e-03\tAbsError: 1.77246e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.53274e-03\tAbsError: 2.10521e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.16698e-01\tAbsError: 2.55458e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94389e-03\tAbsError: 6.75970e-01\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.52598e-04\tAbsError: 2.26713e+11\n", + " Region: \"zone_1\"\tRelError: 4.63661e-05\tAbsError: 1.62759e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.63197e-05\tAbsError: 1.37060e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.63731e-08\tAbsError: 1.61389e-05\n", + " Region: \"zone_3\"\tRelError: 2.06232e-04\tAbsError: 2.26713e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28007e-05\tAbsError: 1.09151e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.27071e-05\tAbsError: 1.17562e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.80678e-04\tAbsError: 1.41716e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.63910e-08\tAbsError: 1.61454e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.99757e-02\tAbsError: 6.03219e+13\n", + " Region: \"zone_1\"\tRelError: 5.28092e-03\tAbsError: 6.07421e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.26342e-03\tAbsError: 6.43272e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75062e-05\tAbsError: 6.06778e-03\n", + " Region: \"zone_3\"\tRelError: 2.46948e-02\tAbsError: 6.03219e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52421e-04\tAbsError: 2.92320e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.21852e-04\tAbsError: 3.10899e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.41030e-02\tAbsError: 6.47112e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75095e-05\tAbsError: 6.06885e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.14246e+01\tAbsError: 9.22518e+15\n", + " Region: \"zone_1\"\tRelError: 9.67873e+00\tAbsError: 4.19633e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.67873e+00\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.09432e-09\tAbsError: 3.80869e-07\n", + " Region: \"zone_3\"\tRelError: 1.74591e+00\tAbsError: 9.22518e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78063e-01\tAbsError: 4.88541e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.77898e-01\tAbsError: 4.33977e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.89954e-01\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.09484e-09\tAbsError: 3.81056e-07\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.68613e-03\tAbsError: 1.19599e+14\n", + " Region: \"zone_1\"\tRelError: 1.18191e-03\tAbsError: 4.76234e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16819e-03\tAbsError: 9.37959e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37156e-05\tAbsError: 4.75296e-03\n", + " Region: \"zone_3\"\tRelError: 2.50423e-03\tAbsError: 1.19599e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.83643e-04\tAbsError: 5.86149e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.96793e-04\tAbsError: 6.09836e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.91007e-03\tAbsError: 9.45545e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37174e-05\tAbsError: 4.75351e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.39826e+00\tAbsError: 3.43096e+15\n", + " Region: \"zone_1\"\tRelError: 2.04849e-01\tAbsError: 4.45309e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.04721e-01\tAbsError: 2.05839e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27433e-04\tAbsError: 4.43251e-02\n", + " Region: \"zone_3\"\tRelError: 2.19341e+00\tAbsError: 3.43096e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.46827e-03\tAbsError: 1.70482e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.46042e-03\tAbsError: 1.72614e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.18535e+00\tAbsError: 2.07760e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27493e-04\tAbsError: 4.43450e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.37529e-05\tAbsError: 1.40904e+10\n", + " Region: \"zone_1\"\tRelError: 2.56157e-06\tAbsError: 1.29255e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.52440e-06\tAbsError: 7.69838e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.71758e-08\tAbsError: 1.29178e-05\n", + " Region: \"zone_3\"\tRelError: 1.11914e-05\tAbsError: 1.40904e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.24225e-07\tAbsError: 1.00189e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.55953e-07\tAbsError: 4.07148e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 9.77400e-06\tAbsError: 8.06496e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.71861e-08\tAbsError: 1.29217e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:35\u001b[0m.\u001b[1;36m723\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.6499999999999999\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.10405e-01\tAbsError: 3.12560e+13\n", + " Region: \"zone_1\"\tRelError: 1.08840e-02\tAbsError: 4.61195e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08827e-02\tAbsError: 1.71511e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32204e-06\tAbsError: 4.59479e-04\n", + " Region: \"zone_3\"\tRelError: 9.95213e-02\tAbsError: 3.12560e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34947e-04\tAbsError: 1.52362e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.27748e-04\tAbsError: 1.60198e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.92573e-02\tAbsError: 1.72813e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32271e-06\tAbsError: 4.59705e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.76420e+00\tAbsError: 7.94231e+15\n", + " Region: \"zone_1\"\tRelError: 2.30780e-01\tAbsError: 7.95917e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.30643e-01\tAbsError: 3.19526e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37110e-04\tAbsError: 4.76392e-02\n", + " Region: \"zone_3\"\tRelError: 1.53342e+00\tAbsError: 7.94231e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.53576e-01\tAbsError: 3.86093e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.24579e-01\tAbsError: 4.08137e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55124e-01\tAbsError: 3.19526e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37110e-04\tAbsError: 4.76392e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.86896e-02\tAbsError: 3.12437e+13\n", + " Region: \"zone_1\"\tRelError: 9.26093e-03\tAbsError: 8.84290e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.25839e-03\tAbsError: 1.24238e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.54067e-06\tAbsError: 8.83047e-04\n", + " Region: \"zone_3\"\tRelError: 9.42871e-03\tAbsError: 3.12437e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.49244e-05\tAbsError: 1.53952e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.98149e-05\tAbsError: 1.58486e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.28143e-03\tAbsError: 1.25479e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.54187e-06\tAbsError: 8.83452e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.26801e-01\tAbsError: 3.21780e+14\n", + " Region: \"zone_1\"\tRelError: 1.55999e-02\tAbsError: 2.70060e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55223e-02\tAbsError: 1.53596e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.76036e-05\tAbsError: 2.69907e-02\n", + " Region: \"zone_3\"\tRelError: 3.11201e-01\tAbsError: 3.21780e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.63679e-04\tAbsError: 1.60119e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.88527e-04\tAbsError: 1.61661e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.10171e-01\tAbsError: 1.54896e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.76380e-05\tAbsError: 2.70022e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.63047e-03\tAbsError: 9.09027e+11\n", + " Region: \"zone_1\"\tRelError: 4.56990e-04\tAbsError: 3.44629e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.55999e-04\tAbsError: 1.41300e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.91190e-07\tAbsError: 3.44488e-04\n", + " Region: \"zone_3\"\tRelError: 4.17348e-03\tAbsError: 9.09027e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.33335e-06\tAbsError: 4.38047e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.02288e-05\tAbsError: 4.70980e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.15793e-03\tAbsError: 1.42246e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.91601e-07\tAbsError: 3.44637e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.52664e+01\tAbsError: 1.16964e+16\n", + " Region: \"zone_1\"\tRelError: 5.34885e+01\tAbsError: 4.29340e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.34885e+01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.65399e-10\tAbsError: 1.96786e-07\n", + " Region: \"zone_3\"\tRelError: 1.77791e+00\tAbsError: 1.16964e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.85913e-01\tAbsError: 5.96599e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.85711e-01\tAbsError: 5.73044e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06286e-01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.65730e-10\tAbsError: 1.96905e-07\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.15026e+00\tAbsError: 5.50806e+15\n", + " Region: \"zone_1\"\tRelError: 1.25602e-01\tAbsError: 3.46873e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.25576e-01\tAbsError: 2.58319e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.54865e-05\tAbsError: 8.85540e-03\n", + " Region: \"zone_3\"\tRelError: 1.02466e+00\tAbsError: 5.50806e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.69453e-01\tAbsError: 2.66067e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.19655e-01\tAbsError: 2.84739e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35522e-01\tAbsError: 2.53767e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.54865e-05\tAbsError: 8.85540e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.70169e-04\tAbsError: 3.89103e+12\n", + " Region: \"zone_1\"\tRelError: 1.11728e-04\tAbsError: 2.48812e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11013e-04\tAbsError: 2.80731e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.15158e-07\tAbsError: 2.48531e-04\n", + " Region: \"zone_3\"\tRelError: 1.58440e-04\tAbsError: 3.89103e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.86956e-06\tAbsError: 1.91259e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.01000e-05\tAbsError: 1.97844e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37755e-04\tAbsError: 2.83260e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.15453e-07\tAbsError: 2.48639e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.06749e-01\tAbsError: 1.86094e+14\n", + " Region: \"zone_1\"\tRelError: 8.34420e-03\tAbsError: 3.03935e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 8.33549e-03\tAbsError: 8.31449e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.71533e-06\tAbsError: 3.03103e-03\n", + " Region: \"zone_3\"\tRelError: 1.98405e-01\tAbsError: 1.86094e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.28032e-04\tAbsError: 9.25440e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.88076e-04\tAbsError: 9.35503e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.97980e-01\tAbsError: 8.38945e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.71848e-06\tAbsError: 3.03213e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.49771e-03\tAbsError: 1.64940e+12\n", + " Region: \"zone_1\"\tRelError: 6.42053e-04\tAbsError: 1.77929e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.42002e-04\tAbsError: 9.99896e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.09050e-08\tAbsError: 1.76929e-05\n", + " Region: \"zone_3\"\tRelError: 5.85566e-03\tAbsError: 1.64940e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.16109e-06\tAbsError: 8.03293e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.70130e-06\tAbsError: 8.46106e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.84174e-03\tAbsError: 1.00703e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.09341e-08\tAbsError: 1.77035e-05\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 6.33878e+00\tAbsError: 1.22675e+16\n", + " Region: \"zone_1\"\tRelError: 4.76725e+00\tAbsError: 9.34106e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.76707e+00\tAbsError: 3.31000e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73592e-04\tAbsError: 6.03106e-02\n", + " Region: \"zone_3\"\tRelError: 1.57153e+00\tAbsError: 1.22675e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67129e-01\tAbsError: 5.98252e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.36794e-01\tAbsError: 6.28496e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.67430e-01\tAbsError: 3.31000e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73592e-04\tAbsError: 6.03106e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.20405e-01\tAbsError: 1.87055e+15\n", + " Region: \"zone_1\"\tRelError: 1.38535e-01\tAbsError: 5.00612e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.38421e-01\tAbsError: 1.06622e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13548e-04\tAbsError: 3.93990e-02\n", + " Region: \"zone_3\"\tRelError: 3.81870e-01\tAbsError: 1.87055e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.06828e-01\tAbsError: 9.86809e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.30929e-01\tAbsError: 8.83740e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.39995e-02\tAbsError: 1.06623e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13572e-04\tAbsError: 3.94072e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.01858e-03\tAbsError: 1.52771e+12\n", + " Region: \"zone_1\"\tRelError: 5.05888e-04\tAbsError: 2.54426e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.05815e-04\tAbsError: 6.73730e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.30089e-08\tAbsError: 2.53753e-05\n", + " Region: \"zone_3\"\tRelError: 5.12693e-04\tAbsError: 1.52771e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.70016e-06\tAbsError: 7.53515e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.39004e-06\tAbsError: 7.74190e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.05530e-04\tAbsError: 6.80114e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.30427e-08\tAbsError: 2.53868e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.88896e-02\tAbsError: 2.58485e+13\n", + " Region: \"zone_1\"\tRelError: 1.63690e-03\tAbsError: 1.31710e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.63310e-03\tAbsError: 9.88963e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.79528e-06\tAbsError: 1.31612e-03\n", + " Region: \"zone_3\"\tRelError: 3.72527e-02\tAbsError: 2.58485e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.09818e-05\tAbsError: 1.28647e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.53496e-05\tAbsError: 1.29838e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.71926e-02\tAbsError: 9.97598e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.79540e-06\tAbsError: 1.31620e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 5.44825e-04\tAbsError: 5.87780e+10\n", + " Region: \"zone_1\"\tRelError: 5.39394e-05\tAbsError: 2.02429e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.38812e-05\tAbsError: 6.87611e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.82246e-08\tAbsError: 2.02360e-05\n", + " Region: \"zone_3\"\tRelError: 4.90886e-04\tAbsError: 5.87780e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.46411e-07\tAbsError: 2.85251e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.30809e-07\tAbsError: 3.02529e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.90250e-04\tAbsError: 6.91269e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.82487e-08\tAbsError: 2.02448e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.27823e+00\tAbsError: 8.68356e+15\n", + " Region: \"zone_1\"\tRelError: 1.88988e-01\tAbsError: 4.08652e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88944e-01\tAbsError: 2.57034e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.36930e-05\tAbsError: 1.51618e-02\n", + " Region: \"zone_3\"\tRelError: 1.08924e+00\tAbsError: 8.68356e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.90758e-01\tAbsError: 4.26881e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.47066e-01\tAbsError: 4.41475e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51374e-01\tAbsError: 2.52748e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.47625e-05\tAbsError: 1.55328e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.56859e-02\tAbsError: 3.07403e+14\n", + " Region: \"zone_1\"\tRelError: 8.91573e-03\tAbsError: 4.12176e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.79758e-03\tAbsError: 2.04906e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18153e-04\tAbsError: 4.10127e-02\n", + " Region: \"zone_3\"\tRelError: 8.67701e-02\tAbsError: 3.07403e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.27638e-02\tAbsError: 1.70944e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03232e-02\tAbsError: 1.36458e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35648e-02\tAbsError: 2.15801e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.18309e-04\tAbsError: 4.10657e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.11187e-05\tAbsError: 1.04011e+11\n", + " Region: \"zone_1\"\tRelError: 5.62860e-06\tAbsError: 1.33801e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.59012e-06\tAbsError: 7.79374e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.84793e-08\tAbsError: 1.33723e-05\n", + " Region: \"zone_3\"\tRelError: 5.49015e-06\tAbsError: 1.04011e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.73835e-07\tAbsError: 5.10986e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.84056e-07\tAbsError: 5.29122e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.79376e-06\tAbsError: 7.86425e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.84956e-08\tAbsError: 1.33784e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.59304e-02\tAbsError: 1.10975e+13\n", + " Region: \"zone_1\"\tRelError: 6.60647e-04\tAbsError: 2.32906e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.59978e-04\tAbsError: 3.98553e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.68839e-07\tAbsError: 2.32508e-04\n", + " Region: \"zone_3\"\tRelError: 1.52698e-02\tAbsError: 1.10975e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.32236e-05\tAbsError: 5.52234e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.14382e-05\tAbsError: 5.57521e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.52444e-02\tAbsError: 4.02224e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.69094e-07\tAbsError: 2.32596e-04\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:40\u001b[0m.\u001b[1;36m977\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:40\u001b[0m.\u001b[1;36m977\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.9444444444444445\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.92595e-04\tAbsError: 9.49473e+10\n", + " Region: \"zone_1\"\tRelError: 3.87978e-05\tAbsError: 2.02444e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.87920e-05\tAbsError: 5.96621e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.80757e-09\tAbsError: 2.01847e-06\n", + " Region: \"zone_3\"\tRelError: 3.53797e-04\tAbsError: 9.49473e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.10989e-07\tAbsError: 4.62324e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.83783e-07\tAbsError: 4.87150e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.52997e-04\tAbsError: 6.00786e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.81025e-09\tAbsError: 2.01943e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.24591e+00\tAbsError: 3.26346e+15\n", + " Region: \"zone_1\"\tRelError: 1.80867e+00\tAbsError: 8.31621e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.80847e+00\tAbsError: 1.22663e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.04347e-04\tAbsError: 7.08958e-02\n", + " Region: \"zone_3\"\tRelError: 4.37234e-01\tAbsError: 3.26346e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.32552e-01\tAbsError: 1.73554e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.50687e-01\tAbsError: 1.52791e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.37915e-02\tAbsError: 1.22664e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.04553e-04\tAbsError: 7.09655e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.23155e-02\tAbsError: 2.21938e+13\n", + " Region: \"zone_1\"\tRelError: 4.98263e-03\tAbsError: 7.88142e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.98041e-03\tAbsError: 1.57019e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.22537e-06\tAbsError: 7.72440e-04\n", + " Region: \"zone_3\"\tRelError: 1.73329e-02\tAbsError: 2.21938e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.42994e-03\tAbsError: 9.94824e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.30496e-03\tAbsError: 1.22456e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.45957e-02\tAbsError: 1.65306e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.22982e-06\tAbsError: 7.73986e-04\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.34486e-03\tAbsError: 1.97182e+12\n", + " Region: \"zone_1\"\tRelError: 1.39485e-04\tAbsError: 8.65138e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39236e-04\tAbsError: 6.47581e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.48683e-07\tAbsError: 8.64490e-05\n", + " Region: \"zone_3\"\tRelError: 3.20538e-03\tAbsError: 1.97182e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.27846e-06\tAbsError: 9.81632e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.12485e-06\tAbsError: 9.90188e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.20072e-03\tAbsError: 6.54815e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.48776e-07\tAbsError: 8.64826e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 5.03275e-05\tAbsError: 9.08763e+09\n", + " Region: \"zone_1\"\tRelError: 4.97773e-06\tAbsError: 1.23989e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.97416e-06\tAbsError: 6.85123e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.56554e-09\tAbsError: 1.23921e-06\n", + " Region: \"zone_3\"\tRelError: 4.53498e-05\tAbsError: 9.08763e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.78500e-08\tAbsError: 4.42118e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.59273e-08\tAbsError: 4.66645e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 4.52724e-05\tAbsError: 6.89457e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.56702e-09\tAbsError: 1.23975e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:42\u001b[0m.\u001b[1;36m573\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.9\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.22369e+02\tAbsError: 9.43638e+17\n", + " Region: \"zone_1\"\tRelError: 2.81696e+02\tAbsError: 4.20729e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.81696e+02\tAbsError: 4.20724e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.48401e-09\tAbsError: 5.15814e-07\n", + " Region: \"zone_3\"\tRelError: 4.06736e+01\tAbsError: 9.43638e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.21983e-01\tAbsError: 4.58740e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.01626e-01\tAbsError: 4.84898e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 3.92499e+01\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.48495e-09\tAbsError: 5.16134e-07\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.09725e-01\tAbsError: 5.66844e+14\n", + " Region: \"zone_1\"\tRelError: 9.74944e-02\tAbsError: 6.02281e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.73217e-02\tAbsError: 2.69090e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72760e-04\tAbsError: 5.99590e-02\n", + " Region: \"zone_3\"\tRelError: 1.12230e-01\tAbsError: 5.66844e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.16841e-02\tAbsError: 3.36059e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.40653e-02\tAbsError: 2.30785e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.63081e-02\tAbsError: 2.86751e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72917e-04\tAbsError: 6.00120e-02\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.15137e-03\tAbsError: 7.06680e+11\n", + " Region: \"zone_1\"\tRelError: 4.79513e-05\tAbsError: 1.84347e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.78983e-05\tAbsError: 2.30046e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.29631e-08\tAbsError: 1.84117e-05\n", + " Region: \"zone_3\"\tRelError: 1.10342e-03\tAbsError: 7.06680e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.28767e-07\tAbsError: 3.51782e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.37241e-07\tAbsError: 3.54898e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10180e-03\tAbsError: 2.32700e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.29832e-08\tAbsError: 1.84191e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.30610e-04\tAbsError: 4.37226e+11\n", + " Region: \"zone_1\"\tRelError: 1.49974e-04\tAbsError: 1.29107e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.46259e-04\tAbsError: 4.50181e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.71544e-06\tAbsError: 1.29062e-03\n", + " Region: \"zone_3\"\tRelError: 4.80636e-04\tAbsError: 4.37226e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05631e-05\tAbsError: 1.66427e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.21073e-05\tAbsError: 2.70799e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.34250e-04\tAbsError: 4.61483e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.71550e-06\tAbsError: 1.29067e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.46572e+02\tAbsError: 5.04463e+17\n", + " Region: \"zone_1\"\tRelError: 1.07438e+02\tAbsError: 9.56605e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07435e+02\tAbsError: 3.20815e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.66107e-03\tAbsError: 9.24524e-01\n", + " Region: \"zone_3\"\tRelError: 2.39134e+02\tAbsError: 5.04463e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.90578e-01\tAbsError: 2.52980e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.63428e-01\tAbsError: 2.51483e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 2.38177e+02\tAbsError: 3.20820e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.66135e-03\tAbsError: 9.24642e-01\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.75731e+01\tAbsError: 5.68784e+17\n", + " Region: \"zone_1\"\tRelError: 3.83859e+01\tAbsError: 4.09543e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.83859e+01\tAbsError: 4.09541e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.16236e-10\tAbsError: 1.79418e-07\n", + " Region: \"zone_3\"\tRelError: 1.91873e+01\tAbsError: 5.68784e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.35377e-01\tAbsError: 2.75826e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.22188e-01\tAbsError: 2.92959e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77297e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.16460e-10\tAbsError: 1.79501e-07\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.32859e-02\tAbsError: 3.83563e+13\n", + " Region: \"zone_1\"\tRelError: 8.24035e-03\tAbsError: 7.96612e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 8.23812e-03\tAbsError: 2.18441e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.23240e-06\tAbsError: 7.74768e-04\n", + " Region: \"zone_3\"\tRelError: 2.50456e-02\tAbsError: 3.83563e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.92826e-03\tAbsError: 1.79088e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.76021e-03\tAbsError: 2.04475e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.13549e-02\tAbsError: 2.23899e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.24276e-06\tAbsError: 7.78349e-04\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 2.60636e-04\tAbsError: 1.46372e+11\n", + " Region: \"zone_1\"\tRelError: 1.08690e-05\tAbsError: 6.03090e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08517e-05\tAbsError: 5.09600e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73339e-08\tAbsError: 6.02581e-06\n", + " Region: \"zone_3\"\tRelError: 2.49767e-04\tAbsError: 1.46372e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.68311e-07\tAbsError: 7.29196e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.63262e-07\tAbsError: 7.34528e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49418e-04\tAbsError: 5.15309e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73406e-08\tAbsError: 6.02830e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.71714e-03\tAbsError: 1.26020e+12\n", + " Region: \"zone_1\"\tRelError: 4.08492e-04\tAbsError: 8.25373e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.08256e-04\tAbsError: 6.27594e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.35973e-07\tAbsError: 8.19097e-05\n", + " Region: \"zone_3\"\tRelError: 1.30864e-03\tAbsError: 1.26020e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.94254e-05\tAbsError: 6.33437e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.91447e-05\tAbsError: 6.26764e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18984e-03\tAbsError: 6.44970e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36012e-07\tAbsError: 8.19244e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 3.60262e+03\tAbsError: 1.07930e+17\n", + " Region: \"zone_1\"\tRelError: 1.36612e+02\tAbsError: 3.37833e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.36611e+02\tAbsError: 2.58874e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.98630e-04\tAbsError: 3.11946e-01\n", + " Region: \"zone_3\"\tRelError: 3.46601e+03\tAbsError: 1.07930e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.81165e-01\tAbsError: 5.42175e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.02149e-01\tAbsError: 5.37124e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.46573e+03\tAbsError: 2.58951e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.02058e-04\tAbsError: 3.13136e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.10779e+01\tAbsError: 4.06443e+17\n", + " Region: \"zone_1\"\tRelError: 1.97168e+01\tAbsError: 4.69738e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.97155e+01\tAbsError: 3.07629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26517e-03\tAbsError: 4.38975e-01\n", + " Region: \"zone_3\"\tRelError: 1.13612e+01\tAbsError: 4.06443e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.26663e-01\tAbsError: 2.03016e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.10593e-01\tAbsError: 2.03427e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03227e+01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26614e-03\tAbsError: 4.39294e-01\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 8.12930e-05\tAbsError: 4.69072e+10\n", + " Region: \"zone_1\"\tRelError: 3.38946e-06\tAbsError: 1.38742e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.38548e-06\tAbsError: 1.62196e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.98640e-09\tAbsError: 1.38580e-06\n", + " Region: \"zone_3\"\tRelError: 7.79035e-05\tAbsError: 4.69072e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.45193e-08\tAbsError: 2.33605e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.92263e-08\tAbsError: 2.35467e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.77958e-05\tAbsError: 1.64038e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.98804e-09\tAbsError: 1.38641e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:45\u001b[0m.\u001b[1;36m754\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 1.0\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.77352e-04\tAbsError: 7.13394e+11\n", + " Region: \"zone_1\"\tRelError: 2.80569e-04\tAbsError: 1.79321e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.75403e-04\tAbsError: 4.87828e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.16541e-06\tAbsError: 1.79273e-03\n", + " Region: \"zone_3\"\tRelError: 1.96783e-04\tAbsError: 7.13394e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.19881e-05\tAbsError: 4.92944e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.32443e-05\tAbsError: 2.20450e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.46385e-04\tAbsError: 4.93945e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.16541e-06\tAbsError: 1.79273e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.66725e-04\tAbsError: 7.91368e+10\n", + " Region: \"zone_1\"\tRelError: 4.05183e-05\tAbsError: 7.96892e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.02890e-05\tAbsError: 4.69103e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.29260e-07\tAbsError: 7.96423e-05\n", + " Region: \"zone_3\"\tRelError: 1.26207e-04\tAbsError: 7.91368e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.17347e-06\tAbsError: 3.76121e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.20199e-06\tAbsError: 4.15247e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17602e-04\tAbsError: 4.78638e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.29342e-07\tAbsError: 7.96708e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 4.48960e+02\tAbsError: 9.69691e+16\n", + " Region: \"zone_1\"\tRelError: 4.44741e+02\tAbsError: 1.46848e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.44741e+02\tAbsError: 2.58943e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.47880e-04\tAbsError: 1.20954e-01\n", + " Region: \"zone_3\"\tRelError: 4.21888e+00\tAbsError: 9.69691e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.30659e-01\tAbsError: 4.85459e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.34310e-01\tAbsError: 4.84232e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.85356e+00\tAbsError: 2.58906e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.48053e-04\tAbsError: 1.21009e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.81757e+03\tAbsError: 8.17376e+15\n", + " Region: \"zone_1\"\tRelError: 7.13883e+01\tAbsError: 4.06377e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 7.13872e+01\tAbsError: 1.08337e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13430e-03\tAbsError: 3.95543e-01\n", + " Region: \"zone_3\"\tRelError: 1.74618e+03\tAbsError: 8.17376e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.73025e-02\tAbsError: 4.10350e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.12778e-02\tAbsError: 4.07026e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74614e+03\tAbsError: 1.08344e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13497e-03\tAbsError: 3.95788e-01\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.49838e-03\tAbsError: 1.76569e+12\n", + " Region: \"zone_1\"\tRelError: 6.54941e-04\tAbsError: 9.30889e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.54675e-04\tAbsError: 8.39400e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.65787e-07\tAbsError: 9.22495e-05\n", + " Region: \"zone_3\"\tRelError: 1.84344e-03\tAbsError: 1.76569e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77494e-05\tAbsError: 8.82777e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.71860e-05\tAbsError: 8.82910e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.68824e-03\tAbsError: 8.40369e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.65787e-07\tAbsError: 9.22495e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.58363e+04\tAbsError: 1.47473e+18\n", + " Region: \"zone_1\"\tRelError: 6.98536e+03\tAbsError: 4.09543e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.98536e+03\tAbsError: 4.09539e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20641e-09\tAbsError: 4.19390e-07\n", + " Region: \"zone_3\"\tRelError: 2.88509e+04\tAbsError: 1.47473e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.64637e-01\tAbsError: 7.31003e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.38568e-01\tAbsError: 7.43726e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88496e+04\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20691e-09\tAbsError: 4.19574e-07\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.22730e-04\tAbsError: 7.90058e+10\n", + " Region: \"zone_1\"\tRelError: 2.95470e-05\tAbsError: 9.77951e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.95189e-05\tAbsError: 3.60460e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.80478e-08\tAbsError: 9.74347e-06\n", + " Region: \"zone_3\"\tRelError: 9.31834e-05\tAbsError: 7.90058e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.61463e-06\tAbsError: 4.44513e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.59003e-06\tAbsError: 3.45545e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 8.59506e-05\tAbsError: 3.66667e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.80556e-08\tAbsError: 9.74620e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.03712e+00\tAbsError: 1.21527e+16\n", + " Region: \"zone_1\"\tRelError: 1.00977e+00\tAbsError: 5.07362e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00834e+00\tAbsError: 9.16487e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42992e-03\tAbsError: 4.98197e-01\n", + " Region: \"zone_3\"\tRelError: 4.02736e+00\tAbsError: 1.21527e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.24782e-02\tAbsError: 5.84262e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.44637e-02\tAbsError: 6.31012e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 3.96898e+00\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43302e-03\tAbsError: 4.99291e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.54793e+00\tAbsError: 3.30288e+15\n", + " Region: \"zone_1\"\tRelError: 4.07651e-01\tAbsError: 6.07886e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.05905e-01\tAbsError: 1.75242e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.74578e-03\tAbsError: 6.07711e-01\n", + " Region: \"zone_3\"\tRelError: 1.14027e+00\tAbsError: 3.30288e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.14712e-02\tAbsError: 1.50798e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.76038e-03\tAbsError: 1.79491e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12430e+00\tAbsError: 1.77365e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.74637e-03\tAbsError: 6.07935e-01\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.85627e-05\tAbsError: 9.39763e+09\n", + " Region: \"zone_1\"\tRelError: 4.51595e-06\tAbsError: 5.40487e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.50041e-06\tAbsError: 4.76968e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.55448e-08\tAbsError: 5.40010e-06\n", + " Region: \"zone_3\"\tRelError: 1.40468e-05\tAbsError: 9.39763e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.58508e-07\tAbsError: 5.36588e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.58619e-07\tAbsError: 4.03174e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31141e-05\tAbsError: 4.85651e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.55471e-08\tAbsError: 5.40090e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.99060e-04\tAbsError: 9.07144e+10\n", + " Region: \"zone_1\"\tRelError: 5.32122e-05\tAbsError: 1.06982e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.29043e-05\tAbsError: 5.30299e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.07864e-07\tAbsError: 1.06929e-04\n", + " Region: \"zone_3\"\tRelError: 1.45848e-04\tAbsError: 9.07144e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.37854e-06\tAbsError: 4.24042e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.42241e-06\tAbsError: 4.83102e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.36739e-04\tAbsError: 5.34823e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.07966e-07\tAbsError: 1.06964e-04\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:48\u001b[0m.\u001b[1;36m797\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:48\u001b[0m.\u001b[1;36m797\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7299999999999999\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 8.73385e+02\tAbsError: 4.80817e+17\n", + " Region: \"zone_1\"\tRelError: 4.36320e+02\tAbsError: 1.19061e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 4.36317e+02\tAbsError: 3.07626e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.33293e-03\tAbsError: 1.15985e+00\n", + " Region: \"zone_3\"\tRelError: 4.37065e+02\tAbsError: 4.80817e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.79759e-01\tAbsError: 2.41402e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.64874e-01\tAbsError: 2.39414e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 4.36317e+02\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.33331e-03\tAbsError: 1.15994e+00\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.22708e-01\tAbsError: 3.87768e+15\n", + " Region: \"zone_1\"\tRelError: 1.91968e-01\tAbsError: 6.75386e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.90026e-01\tAbsError: 2.52604e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94152e-03\tAbsError: 6.75134e-01\n", + " Region: \"zone_3\"\tRelError: 7.30741e-01\tAbsError: 3.87768e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.56619e-03\tAbsError: 1.77246e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.53274e-03\tAbsError: 2.10521e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.16698e-01\tAbsError: 2.55458e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94389e-03\tAbsError: 6.75970e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.59463e+01\tAbsError: 2.98114e+15\n", + " Region: \"zone_1\"\tRelError: 2.97245e-01\tAbsError: 3.65177e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.97140e-01\tAbsError: 1.73243e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.04375e-04\tAbsError: 3.63445e-02\n", + " Region: \"zone_3\"\tRelError: 4.56490e+01\tAbsError: 2.98114e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.10791e-03\tAbsError: 1.48408e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.01404e-03\tAbsError: 1.49706e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 4.56418e+01\tAbsError: 1.74736e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.04419e-04\tAbsError: 3.63588e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.73943e-04\tAbsError: 1.07365e+11\n", + " Region: \"zone_1\"\tRelError: 4.60985e-05\tAbsError: 1.16082e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.60652e-05\tAbsError: 4.61233e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.32888e-08\tAbsError: 1.15620e-05\n", + " Region: \"zone_3\"\tRelError: 1.27845e-04\tAbsError: 1.07365e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.59108e-06\tAbsError: 6.01847e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.54678e-06\tAbsError: 4.71802e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18674e-04\tAbsError: 4.74794e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.32988e-08\tAbsError: 1.15655e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.66204e+03\tAbsError: 6.93474e+16\n", + " Region: \"zone_1\"\tRelError: 8.76338e+02\tAbsError: 4.68048e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 8.76336e+02\tAbsError: 2.58614e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26825e-03\tAbsError: 4.42186e-01\n", + " Region: \"zone_3\"\tRelError: 7.85702e+02\tAbsError: 6.93474e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.33245e-02\tAbsError: 3.47970e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.15582e-02\tAbsError: 3.45503e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 7.85556e+02\tAbsError: 2.58778e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26845e-03\tAbsError: 4.42250e-01\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.02177e+01\tAbsError: 4.24857e+16\n", + " Region: \"zone_1\"\tRelError: 5.84071e+01\tAbsError: 4.19638e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.84071e+01\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.65927e-09\tAbsError: 9.23800e-07\n", + " Region: \"zone_3\"\tRelError: 1.81056e+00\tAbsError: 4.24857e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77015e-01\tAbsError: 2.10830e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.76332e-01\tAbsError: 2.14027e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.57212e-01\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.65955e-09\tAbsError: 9.23899e-07\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.30314e+00\tAbsError: 2.60062e+14\n", + " Region: \"zone_1\"\tRelError: 5.30757e-02\tAbsError: 2.35199e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.30082e-02\tAbsError: 1.21066e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.75164e-05\tAbsError: 2.35078e-02\n", + " Region: \"zone_3\"\tRelError: 6.25006e+00\tAbsError: 2.60062e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.72969e-04\tAbsError: 1.29545e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.51490e-04\tAbsError: 1.30517e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.24897e+00\tAbsError: 1.22004e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.75445e-05\tAbsError: 2.35175e-02\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.39826e+00\tAbsError: 3.43096e+15\n", + " Region: \"zone_1\"\tRelError: 2.04849e-01\tAbsError: 4.45309e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.04721e-01\tAbsError: 2.05839e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27433e-04\tAbsError: 4.43251e-02\n", + " Region: \"zone_3\"\tRelError: 2.19341e+00\tAbsError: 3.43096e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.46827e-03\tAbsError: 1.70482e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.46042e-03\tAbsError: 1.72614e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.18535e+00\tAbsError: 2.07760e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27493e-04\tAbsError: 4.43450e-02\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.42423e-05\tAbsError: 1.13845e+10\n", + " Region: \"zone_1\"\tRelError: 6.77172e-06\tAbsError: 7.06656e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.75139e-06\tAbsError: 5.42330e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.03301e-08\tAbsError: 7.06113e-06\n", + " Region: \"zone_3\"\tRelError: 1.74705e-05\tAbsError: 1.13845e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.20454e-07\tAbsError: 6.31989e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.20087e-07\tAbsError: 5.06458e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.64097e-05\tAbsError: 5.58892e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.03324e-08\tAbsError: 7.06195e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:51\u001b[0m.\u001b[1;36m386\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.7599999999999999\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.46324e+03\tAbsError: 5.14576e+15\n", + " Region: \"zone_1\"\tRelError: 6.87978e+02\tAbsError: 7.78255e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 6.87976e+02\tAbsError: 9.16449e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19704e-03\tAbsError: 7.69091e-01\n", + " Region: \"zone_3\"\tRelError: 7.75259e+02\tAbsError: 5.14576e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52317e-02\tAbsError: 2.57522e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.85097e-03\tAbsError: 2.57054e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.75237e+02\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19704e-03\tAbsError: 7.69091e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.09627e+00\tAbsError: 4.36555e+16\n", + " Region: \"zone_1\"\tRelError: 5.02975e-01\tAbsError: 1.96470e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.02501e-01\tAbsError: 3.19524e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73827e-04\tAbsError: 1.64518e-01\n", + " Region: \"zone_3\"\tRelError: 1.59330e+00\tAbsError: 4.36555e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.49345e-01\tAbsError: 2.19735e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.13383e-01\tAbsError: 2.16820e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.30094e-01\tAbsError: 3.19525e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.73827e-04\tAbsError: 1.64518e-01\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.26801e-01\tAbsError: 3.21780e+14\n", + " Region: \"zone_1\"\tRelError: 1.55999e-02\tAbsError: 2.70060e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55223e-02\tAbsError: 1.53596e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.76036e-05\tAbsError: 2.69907e-02\n", + " Region: \"zone_3\"\tRelError: 3.11201e-01\tAbsError: 3.21780e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.63679e-04\tAbsError: 1.60119e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.88527e-04\tAbsError: 1.61661e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.10171e-01\tAbsError: 1.54896e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.76380e-05\tAbsError: 2.70022e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.68467e+00\tAbsError: 1.58417e+14\n", + " Region: \"zone_1\"\tRelError: 2.74530e-02\tAbsError: 2.54276e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.74457e-02\tAbsError: 6.86415e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.30395e-06\tAbsError: 2.53589e-03\n", + " Region: \"zone_3\"\tRelError: 3.65721e+00\tAbsError: 1.58417e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.03404e-04\tAbsError: 7.88728e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.05406e-04\tAbsError: 7.95438e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.65690e+00\tAbsError: 6.92132e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.30395e-06\tAbsError: 2.53589e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.96023e+00\tAbsError: 5.32372e+15\n", + " Region: \"zone_1\"\tRelError: 4.54639e+00\tAbsError: 1.02863e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 4.54344e+00\tAbsError: 2.66559e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.94644e-03\tAbsError: 1.02837e+00\n", + " Region: \"zone_3\"\tRelError: 2.41384e+00\tAbsError: 5.32372e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.51219e-02\tAbsError: 2.60450e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.65403e-03\tAbsError: 2.71922e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.38011e+00\tAbsError: 2.68000e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.95139e-03\tAbsError: 1.03011e+00\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.66197e+01\tAbsError: 6.69458e+16\n", + " Region: \"zone_1\"\tRelError: 1.47623e+01\tAbsError: 4.29349e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.47623e+01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.23687e-09\tAbsError: 1.12425e-06\n", + " Region: \"zone_3\"\tRelError: 1.85742e+00\tAbsError: 6.69458e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.84273e-01\tAbsError: 3.33953e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.83269e-01\tAbsError: 3.35506e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.89878e-01\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.23715e-09\tAbsError: 1.12434e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.23598e+00\tAbsError: 2.71916e+16\n", + " Region: \"zone_1\"\tRelError: 1.81508e-01\tAbsError: 1.13965e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.81254e-01\tAbsError: 2.57850e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.54037e-04\tAbsError: 8.81803e-02\n", + " Region: \"zone_3\"\tRelError: 1.05447e+00\tAbsError: 2.71916e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.57503e-01\tAbsError: 1.35855e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.99712e-01\tAbsError: 1.36061e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.97001e-01\tAbsError: 2.47369e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.54037e-04\tAbsError: 8.81803e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.06749e-01\tAbsError: 1.86094e+14\n", + " Region: \"zone_1\"\tRelError: 8.34420e-03\tAbsError: 3.03935e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 8.33549e-03\tAbsError: 8.31449e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.71533e-06\tAbsError: 3.03103e-03\n", + " Region: \"zone_3\"\tRelError: 1.98405e-01\tAbsError: 1.86094e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.28032e-04\tAbsError: 9.25440e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.88076e-04\tAbsError: 9.35503e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.97980e-01\tAbsError: 8.38945e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.71848e-06\tAbsError: 3.03213e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.06513e-01\tAbsError: 2.09865e+13\n", + " Region: \"zone_1\"\tRelError: 5.18521e-03\tAbsError: 1.14757e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.18190e-03\tAbsError: 7.90884e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.30299e-06\tAbsError: 1.14677e-03\n", + " Region: \"zone_3\"\tRelError: 3.01328e-01\tAbsError: 2.09865e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.56136e-05\tAbsError: 1.04559e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.15612e-05\tAbsError: 1.05307e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.01257e-01\tAbsError: 7.97233e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.30324e-06\tAbsError: 1.14681e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.90017e+00\tAbsError: 6.90569e+16\n", + " Region: \"zone_1\"\tRelError: 2.57152e-01\tAbsError: 2.59228e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.56500e-01\tAbsError: 3.31000e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.51506e-04\tAbsError: 2.26128e-01\n", + " Region: \"zone_3\"\tRelError: 1.64302e+00\tAbsError: 6.90569e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.60822e-01\tAbsError: 3.53198e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.20888e-01\tAbsError: 3.37371e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.60656e-01\tAbsError: 3.31000e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.51506e-04\tAbsError: 2.26128e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.07732e+01\tAbsError: 5.66142e+15\n", + " Region: \"zone_1\"\tRelError: 6.09549e-01\tAbsError: 6.00187e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.09378e-01\tAbsError: 2.72034e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71203e-04\tAbsError: 5.97467e-02\n", + " Region: \"zone_3\"\tRelError: 6.01636e+01\tAbsError: 5.66142e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.13691e-02\tAbsError: 2.75447e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.48872e-03\tAbsError: 2.90695e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 6.01496e+01\tAbsError: 2.74039e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71270e-04\tAbsError: 5.97699e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.40788e+00\tAbsError: 8.15212e+15\n", + " Region: \"zone_1\"\tRelError: 9.95059e-01\tAbsError: 3.32770e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.94994e-01\tAbsError: 1.06614e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.51530e-05\tAbsError: 2.26155e-02\n", + " Region: \"zone_3\"\tRelError: 4.12819e-01\tAbsError: 8.15212e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.93063e-01\tAbsError: 4.25836e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10930e-01\tAbsError: 3.89376e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08761e-01\tAbsError: 1.06615e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.51530e-05\tAbsError: 2.26155e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.88896e-02\tAbsError: 2.58485e+13\n", + " Region: \"zone_1\"\tRelError: 1.63690e-03\tAbsError: 1.31710e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.63310e-03\tAbsError: 9.88963e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.79528e-06\tAbsError: 1.31612e-03\n", + " Region: \"zone_3\"\tRelError: 3.72527e-02\tAbsError: 2.58485e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.09818e-05\tAbsError: 1.28647e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.53496e-05\tAbsError: 1.29838e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.71926e-02\tAbsError: 9.97598e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.79540e-06\tAbsError: 1.31620e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.41465e-01\tAbsError: 9.26962e+12\n", + " Region: \"zone_1\"\tRelError: 2.09965e-03\tAbsError: 1.99365e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.09908e-03\tAbsError: 3.25300e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.72195e-07\tAbsError: 1.99040e-04\n", + " Region: \"zone_3\"\tRelError: 1.39366e-01\tAbsError: 9.26962e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.52741e-06\tAbsError: 4.61773e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.59504e-06\tAbsError: 4.65189e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39346e-01\tAbsError: 3.27986e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.72409e-07\tAbsError: 1.99115e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 3.51587e+00\tAbsError: 4.22581e+16\n", + " Region: \"zone_1\"\tRelError: 1.92551e+00\tAbsError: 1.21029e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.92524e+00\tAbsError: 2.58362e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.74346e-04\tAbsError: 9.51931e-02\n", + " Region: \"zone_3\"\tRelError: 1.59036e+00\tAbsError: 4.22581e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.69859e-01\tAbsError: 2.15299e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.09624e-01\tAbsError: 2.07282e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 7.10598e-01\tAbsError: 2.40553e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.74346e-04\tAbsError: 9.51931e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.18137e+00\tAbsError: 3.71256e+14\n", + " Region: \"zone_1\"\tRelError: 8.31734e-02\tAbsError: 3.74686e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.30661e-02\tAbsError: 1.92544e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.07324e-04\tAbsError: 3.74493e-02\n", + " Region: \"zone_3\"\tRelError: 1.09819e+00\tAbsError: 3.71256e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.23962e-03\tAbsError: 1.84907e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.91184e-04\tAbsError: 1.86349e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09615e+00\tAbsError: 1.93888e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.07368e-04\tAbsError: 3.74645e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.21400e-01\tAbsError: 1.89468e+15\n", + " Region: \"zone_1\"\tRelError: 1.16917e-01\tAbsError: 2.47871e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16203e-01\tAbsError: 3.32836e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.13838e-04\tAbsError: 2.47538e-01\n", + " Region: \"zone_3\"\tRelError: 1.04483e-01\tAbsError: 1.89468e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.02995e-02\tAbsError: 9.56907e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.60325e-02\tAbsError: 9.37771e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.74370e-02\tAbsError: 3.32836e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.13838e-04\tAbsError: 2.47538e-01\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.23651e-02\tAbsError: 1.59153e+12\n", + " Region: \"zone_1\"\tRelError: 4.30371e-04\tAbsError: 7.45029e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.30157e-04\tAbsError: 5.34684e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.14025e-07\tAbsError: 7.44495e-05\n", + " Region: \"zone_3\"\tRelError: 2.19347e-02\tAbsError: 1.59153e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.02759e-06\tAbsError: 7.93109e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.49227e-06\tAbsError: 7.98425e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.19300e-02\tAbsError: 5.40337e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.14105e-07\tAbsError: 7.44781e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.59304e-02\tAbsError: 1.10975e+13\n", + " Region: \"zone_1\"\tRelError: 6.60647e-04\tAbsError: 2.32906e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.59978e-04\tAbsError: 3.98553e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.68839e-07\tAbsError: 2.32508e-04\n", + " Region: \"zone_3\"\tRelError: 1.52698e-02\tAbsError: 1.10975e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.32236e-05\tAbsError: 5.52234e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.14382e-05\tAbsError: 5.57521e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.52444e-02\tAbsError: 4.02224e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.69094e-07\tAbsError: 2.32596e-04\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.78234e+01\tAbsError: 1.53845e+16\n", + " Region: \"zone_1\"\tRelError: 2.71002e+01\tAbsError: 6.40599e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.71001e+01\tAbsError: 1.22653e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.49294e-04\tAbsError: 5.17946e-02\n", + " Region: \"zone_3\"\tRelError: 7.23191e-01\tAbsError: 1.53845e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05690e-01\tAbsError: 7.89233e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.16443e-01\tAbsError: 7.49218e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 4.00908e-01\tAbsError: 1.22654e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.49294e-04\tAbsError: 5.17946e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.46007e+00\tAbsError: 2.29640e+14\n", + " Region: \"zone_1\"\tRelError: 4.03111e-02\tAbsError: 3.94907e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 4.02998e-02\tAbsError: 1.05545e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13173e-05\tAbsError: 3.93851e-03\n", + " Region: \"zone_3\"\tRelError: 1.41976e+00\tAbsError: 2.29640e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16328e-04\tAbsError: 1.14327e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.52600e-04\tAbsError: 1.15314e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.41908e+00\tAbsError: 1.06317e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13180e-05\tAbsError: 3.93853e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.51782e-01\tAbsError: 3.85189e+14\n", + " Region: \"zone_1\"\tRelError: 1.01301e-01\tAbsError: 1.58596e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01255e-01\tAbsError: 6.95270e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.55327e-05\tAbsError: 1.57901e-02\n", + " Region: \"zone_3\"\tRelError: 1.50482e-01\tAbsError: 3.85189e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.20144e-03\tAbsError: 1.95375e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.09233e-03\tAbsError: 1.89813e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40142e-01\tAbsError: 7.28790e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.55327e-05\tAbsError: 1.57901e-02\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 7.73891e-03\tAbsError: 5.79413e+11\n", + " Region: \"zone_1\"\tRelError: 1.48362e-04\tAbsError: 1.55214e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.48317e-04\tAbsError: 1.89932e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.45655e-08\tAbsError: 1.55024e-05\n", + " Region: \"zone_3\"\tRelError: 7.59054e-03\tAbsError: 5.79413e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.23531e-07\tAbsError: 2.88725e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.27579e-07\tAbsError: 2.90688e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 7.58925e-03\tAbsError: 1.92003e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.45824e-08\tAbsError: 1.55087e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.34486e-03\tAbsError: 1.97182e+12\n", + " Region: \"zone_1\"\tRelError: 1.39485e-04\tAbsError: 8.65138e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39236e-04\tAbsError: 6.47581e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.48683e-07\tAbsError: 8.64490e-05\n", + " Region: \"zone_3\"\tRelError: 3.20538e-03\tAbsError: 1.97182e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.27846e-06\tAbsError: 9.81632e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.12485e-06\tAbsError: 9.90188e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.20072e-03\tAbsError: 6.54815e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.48776e-07\tAbsError: 8.64826e-05\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 5.78429e-01\tAbsError: 3.07251e+15\n", + " Region: \"zone_1\"\tRelError: 5.04734e-01\tAbsError: 2.71742e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.03951e-01\tAbsError: 3.65281e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.82895e-04\tAbsError: 2.71377e-01\n", + " Region: \"zone_3\"\tRelError: 7.36955e-02\tAbsError: 3.07251e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.87825e-02\tAbsError: 1.69644e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.61675e-02\tAbsError: 1.37607e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.96264e-03\tAbsError: 3.65281e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.82895e-04\tAbsError: 2.71377e-01\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.11111e-01\tAbsError: 2.79827e+13\n", + " Region: \"zone_1\"\tRelError: 7.25122e-03\tAbsError: 1.74217e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.24621e-03\tAbsError: 1.19347e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.00326e-06\tAbsError: 1.74098e-03\n", + " Region: \"zone_3\"\tRelError: 2.03859e-01\tAbsError: 2.79827e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67617e-05\tAbsError: 1.39372e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.89481e-05\tAbsError: 1.40455e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03729e-01\tAbsError: 1.20196e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.00391e-06\tAbsError: 1.74126e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.20699e-02\tAbsError: 3.14591e+13\n", + " Region: \"zone_1\"\tRelError: 1.31625e-02\tAbsError: 7.22224e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31417e-02\tAbsError: 5.37434e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.08111e-05\tAbsError: 7.21687e-03\n", + " Region: \"zone_3\"\tRelError: 1.89074e-02\tAbsError: 3.14591e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.22927e-04\tAbsError: 1.59868e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.28367e-04\tAbsError: 1.54723e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.80353e-02\tAbsError: 5.87419e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.08190e-05\tAbsError: 7.21971e-03\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.51790e-03\tAbsError: 1.16805e+11\n", + " Region: \"zone_1\"\tRelError: 3.28893e-05\tAbsError: 5.08720e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.28747e-05\tAbsError: 4.12395e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.46125e-08\tAbsError: 5.08307e-06\n", + " Region: \"zone_3\"\tRelError: 1.48501e-03\tAbsError: 1.16805e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.24655e-07\tAbsError: 5.82147e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.85069e-07\tAbsError: 5.85901e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.48469e-03\tAbsError: 4.16773e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.46182e-08\tAbsError: 5.08516e-06\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.15137e-03\tAbsError: 7.06680e+11\n", + " Region: \"zone_1\"\tRelError: 4.79513e-05\tAbsError: 1.84347e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.78983e-05\tAbsError: 2.30046e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.29631e-08\tAbsError: 1.84117e-05\n", + " Region: \"zone_3\"\tRelError: 1.10342e-03\tAbsError: 7.06680e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.28767e-07\tAbsError: 3.51782e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.37241e-07\tAbsError: 3.54898e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10180e-03\tAbsError: 2.32700e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.29832e-08\tAbsError: 1.84191e-05\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 4.72898e-04\tAbsError: 3.77480e+10\n", + " Region: \"zone_1\"\tRelError: 1.02547e-05\tAbsError: 1.14933e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02514e-05\tAbsError: 1.31017e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.30027e-09\tAbsError: 1.14802e-06\n", + " Region: \"zone_3\"\tRelError: 4.62644e-04\tAbsError: 3.77480e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.21419e-08\tAbsError: 1.88129e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.21462e-08\tAbsError: 1.89351e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.62556e-04\tAbsError: 1.32435e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.30162e-09\tAbsError: 1.14852e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.28286e+00\tAbsError: 5.88773e+14\n", + " Region: \"zone_1\"\tRelError: 8.55347e-01\tAbsError: 1.74049e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.55297e-01\tAbsError: 6.30266e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.00269e-05\tAbsError: 1.73418e-02\n", + " Region: \"zone_3\"\tRelError: 4.27508e-01\tAbsError: 5.88773e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.63052e-03\tAbsError: 2.89838e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.58578e-03\tAbsError: 2.98935e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.18242e-01\tAbsError: 6.77930e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.00342e-05\tAbsError: 1.73447e-02\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 2.60636e-04\tAbsError: 1.46372e+11\n", + " Region: \"zone_1\"\tRelError: 1.08690e-05\tAbsError: 6.03090e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08517e-05\tAbsError: 5.09600e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73339e-08\tAbsError: 6.02581e-06\n", + " Region: \"zone_3\"\tRelError: 2.49767e-04\tAbsError: 1.46372e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.68311e-07\tAbsError: 7.29196e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.63262e-07\tAbsError: 7.34528e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49418e-04\tAbsError: 5.15309e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73406e-08\tAbsError: 6.02830e-06\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 9.24879e-02\tAbsError: 1.23871e+13\n", + " Region: \"zone_1\"\tRelError: 2.93353e-03\tAbsError: 2.91323e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.93269e-03\tAbsError: 4.76030e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.36559e-07\tAbsError: 2.90847e-04\n", + " Region: \"zone_3\"\tRelError: 8.95543e-02\tAbsError: 1.23871e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95573e-05\tAbsError: 6.16953e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.91930e-05\tAbsError: 6.21758e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.95147e-02\tAbsError: 4.79468e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.36647e-07\tAbsError: 2.90878e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.97135e-02\tAbsError: 1.77017e+13\n", + " Region: \"zone_1\"\tRelError: 8.10974e-03\tAbsError: 9.56061e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 8.10699e-03\tAbsError: 2.58822e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.74820e-06\tAbsError: 9.53472e-04\n", + " Region: \"zone_3\"\tRelError: 1.16038e-02\tAbsError: 1.77017e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.40550e-04\tAbsError: 8.98186e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.36238e-04\tAbsError: 8.71985e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11242e-02\tAbsError: 2.86154e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.74933e-06\tAbsError: 9.53894e-04\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 1.04494e-04\tAbsError: 8.40909e+09\n", + " Region: \"zone_1\"\tRelError: 2.40898e-06\tAbsError: 3.47308e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.40799e-06\tAbsError: 3.03615e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.97547e-10\tAbsError: 3.47005e-07\n", + " Region: \"zone_3\"\tRelError: 1.02085e-04\tAbsError: 8.40909e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09555e-09\tAbsError: 4.19130e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.33180e-08\tAbsError: 4.21779e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02063e-04\tAbsError: 3.06848e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.97958e-10\tAbsError: 3.47157e-07\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 8.12930e-05\tAbsError: 4.69072e+10\n", + " Region: \"zone_1\"\tRelError: 3.38946e-06\tAbsError: 1.38742e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.38548e-06\tAbsError: 1.62196e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.98640e-09\tAbsError: 1.38580e-06\n", + " Region: \"zone_3\"\tRelError: 7.79035e-05\tAbsError: 4.69072e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.45193e-08\tAbsError: 2.33605e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.92263e-08\tAbsError: 2.35467e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.77958e-05\tAbsError: 1.64038e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.98804e-09\tAbsError: 1.38641e-06\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.79957e-02\tAbsError: 2.00241e+12\n", + " Region: \"zone_1\"\tRelError: 5.80226e-04\tAbsError: 1.06766e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.79919e-04\tAbsError: 7.62075e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.06294e-07\tAbsError: 1.06690e-04\n", + " Region: \"zone_3\"\tRelError: 1.74155e-02\tAbsError: 2.00241e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.83435e-06\tAbsError: 9.97535e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.43171e-06\tAbsError: 1.00487e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74069e-02\tAbsError: 7.69605e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.06408e-07\tAbsError: 1.06730e-04\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:01\u001b[0m.\u001b[1;36m462\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 1.0\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.69760e-01\tAbsError: 4.68334e+13\n", + " Region: \"zone_1\"\tRelError: 1.19569e-01\tAbsError: 7.61832e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19547e-01\tAbsError: 4.95901e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19618e-05\tAbsError: 7.61337e-03\n", + " Region: \"zone_3\"\tRelError: 5.01907e-02\tAbsError: 4.68334e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.70213e-04\tAbsError: 2.32020e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.79865e-04\tAbsError: 2.36314e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.94186e-02\tAbsError: 5.44228e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19693e-05\tAbsError: 7.61572e-03\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.33124e-03\tAbsError: 2.46309e+12\n", + " Region: \"zone_1\"\tRelError: 1.37719e-03\tAbsError: 4.41878e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37593e-03\tAbsError: 3.50170e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26973e-06\tAbsError: 4.41528e-04\n", + " Region: \"zone_3\"\tRelError: 1.95405e-03\tAbsError: 2.46309e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.36051e-05\tAbsError: 1.24745e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.30473e-05\tAbsError: 1.21564e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88613e-03\tAbsError: 3.81559e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27021e-06\tAbsError: 4.41698e-04\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 3.06417e-05\tAbsError: 2.52206e+09\n", + " Region: \"zone_1\"\tRelError: 7.05538e-07\tAbsError: 8.28433e-08\n", + " Equation: \"PotentialEquation\"\tRelError: 7.05300e-07\tAbsError: 8.99798e-11\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.37890e-10\tAbsError: 8.27533e-08\n", + " Region: \"zone_3\"\tRelError: 2.99361e-05\tAbsError: 2.52206e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.10205e-09\tAbsError: 1.25704e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.66190e-09\tAbsError: 1.26502e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 2.99301e-05\tAbsError: 9.09499e-11\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.37988e-10\tAbsError: 8.27887e-08\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 6.16882e-03\tAbsError: 7.25783e+11\n", + " Region: \"zone_1\"\tRelError: 1.98056e-04\tAbsError: 2.16951e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.97994e-04\tAbsError: 2.65471e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.22079e-08\tAbsError: 2.16685e-05\n", + " Region: \"zone_3\"\tRelError: 5.97077e-03\tAbsError: 7.25783e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.06142e-06\tAbsError: 3.61574e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.32785e-06\tAbsError: 3.64210e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.96832e-03\tAbsError: 2.68167e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.22311e-08\tAbsError: 2.16771e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:02\u001b[0m.\u001b[1;36m607\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: 1.05\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.03310e-01\tAbsError: 2.63271e+13\n", + " Region: \"zone_1\"\tRelError: 7.05840e-02\tAbsError: 9.69314e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.05812e-02\tAbsError: 2.64907e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.78758e-06\tAbsError: 9.66665e-04\n", + " Region: \"zone_3\"\tRelError: 3.27258e-02\tAbsError: 2.63271e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.20183e-04\tAbsError: 1.30792e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.13005e-04\tAbsError: 1.32480e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.22898e-02\tAbsError: 2.66390e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.78870e-06\tAbsError: 9.67064e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.58363e+04\tAbsError: 1.47473e+18\n", + " Region: \"zone_1\"\tRelError: 6.98536e+03\tAbsError: 4.09543e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.98536e+03\tAbsError: 4.09539e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20641e-09\tAbsError: 4.19390e-07\n", + " Region: \"zone_3\"\tRelError: 2.88509e+04\tAbsError: 1.47473e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.64637e-01\tAbsError: 7.31003e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.38568e-01\tAbsError: 7.43726e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88496e+04\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20691e-09\tAbsError: 4.19574e-07\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.40229e-03\tAbsError: 1.07633e+12\n", + " Region: \"zone_1\"\tRelError: 5.79486e-04\tAbsError: 8.11928e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.79253e-04\tAbsError: 1.44943e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.33074e-07\tAbsError: 8.10479e-05\n", + " Region: \"zone_3\"\tRelError: 8.22800e-04\tAbsError: 1.07633e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46984e-05\tAbsError: 5.45591e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.43521e-05\tAbsError: 5.30742e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 7.93516e-04\tAbsError: 1.63890e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.33168e-07\tAbsError: 8.10816e-05\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.32512e-03\tAbsError: 1.39840e+11\n", + " Region: \"zone_1\"\tRelError: 4.25623e-05\tAbsError: 6.99519e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.25422e-05\tAbsError: 5.61701e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.00663e-08\tAbsError: 6.98958e-06\n", + " Region: \"zone_3\"\tRelError: 1.28256e-03\tAbsError: 1.39840e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.35090e-07\tAbsError: 6.96726e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.14577e-07\tAbsError: 7.01672e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28199e-03\tAbsError: 5.67287e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.00739e-08\tAbsError: 6.99239e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.21198e+03\tAbsError: 1.97975e+18\n", + " Region: \"zone_1\"\tRelError: 5.40129e+03\tAbsError: 4.20722e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.40129e+03\tAbsError: 4.20722e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.83456e-11\tAbsError: 2.37750e-08\n", + " Region: \"zone_3\"\tRelError: 8.10687e+02\tAbsError: 1.97975e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39347e-01\tAbsError: 9.86517e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.18133e-01\tAbsError: 9.93237e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 8.09430e+02\tAbsError: 4.20726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.83739e-11\tAbsError: 2.37852e-08\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.82959e-04\tAbsError: 1.95824e+11\n", + " Region: \"zone_1\"\tRelError: 1.17187e-04\tAbsError: 3.06697e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17099e-04\tAbsError: 2.78943e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.81182e-08\tAbsError: 3.06418e-05\n", + " Region: \"zone_3\"\tRelError: 1.65772e-04\tAbsError: 1.95824e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.67567e-06\tAbsError: 9.90968e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.61832e-06\tAbsError: 9.67276e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.60389e-04\tAbsError: 3.12886e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.81525e-08\tAbsError: 3.06545e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.71612e-02\tAbsError: 3.55945e+12\n", + " Region: \"zone_1\"\tRelError: 1.18000e-02\tAbsError: 4.59042e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17987e-02\tAbsError: 3.51306e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.31945e-06\tAbsError: 4.58691e-04\n", + " Region: \"zone_3\"\tRelError: 5.36119e-03\tAbsError: 3.55945e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.95552e-05\tAbsError: 1.76936e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.88055e-05\tAbsError: 1.79009e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.30151e-03\tAbsError: 3.53210e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.31997e-06\tAbsError: 4.58880e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 8.73385e+02\tAbsError: 4.80817e+17\n", + " Region: \"zone_1\"\tRelError: 4.36320e+02\tAbsError: 1.19061e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 4.36317e+02\tAbsError: 3.07626e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.33293e-03\tAbsError: 1.15985e+00\n", + " Region: \"zone_3\"\tRelError: 4.37065e+02\tAbsError: 4.80817e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.79759e-01\tAbsError: 2.41402e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.64874e-01\tAbsError: 2.39414e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 4.36317e+02\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.33331e-03\tAbsError: 1.15994e+00\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 4.07310e-04\tAbsError: 4.47841e+10\n", + " Region: \"zone_1\"\tRelError: 1.30926e-05\tAbsError: 1.54205e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.30881e-05\tAbsError: 1.75011e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.42203e-09\tAbsError: 1.54030e-06\n", + " Region: \"zone_3\"\tRelError: 3.94218e-04\tAbsError: 4.47841e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.33915e-08\tAbsError: 2.23135e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.92263e-08\tAbsError: 2.24706e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.94061e-04\tAbsError: 1.76782e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.42382e-09\tAbsError: 1.54097e-06\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 9.88095e-05\tAbsError: 7.06114e+10\n", + " Region: \"zone_1\"\tRelError: 4.09067e-05\tAbsError: 6.52689e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.08879e-05\tAbsError: 1.01656e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.87404e-08\tAbsError: 6.51672e-06\n", + " Region: \"zone_3\"\tRelError: 5.79028e-05\tAbsError: 7.06114e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.65522e-07\tAbsError: 3.57680e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.40427e-07\tAbsError: 3.48434e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.59781e-05\tAbsError: 1.14697e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.87479e-08\tAbsError: 6.51948e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:05\u001b[0m.\u001b[1;36m605\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:05\u001b[0m.\u001b[1;36m605\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.8349999999999999\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Iteration: 1\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + " Device: \"device\"\tRelError: 1.42901e+02\tAbsError: 5.66273e+17\n", + " Region: \"zone_1\"\tRelError: 1.35535e+01\tAbsError: 1.67685e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35488e+01\tAbsError: 3.20812e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.71225e-03\tAbsError: 1.64477e+00\n", + " Region: \"zone_3\"\tRelError: 1.29347e+02\tAbsError: 5.66273e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.34240e-01\tAbsError: 2.83703e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.33762e-01\tAbsError: 2.82571e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28675e+02\tAbsError: 3.20820e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.71256e-03\tAbsError: 1.64494e+00\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 7.29149e-03\tAbsError: 1.57099e+12\n", + " Region: \"zone_1\"\tRelError: 5.00283e-03\tAbsError: 8.22643e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.00259e-03\tAbsError: 1.42637e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36225e-07\tAbsError: 8.21216e-05\n", + " Region: \"zone_3\"\tRelError: 2.28866e-03\tAbsError: 1.57099e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.32701e-05\tAbsError: 7.81015e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.27720e-05\tAbsError: 7.89977e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.26238e-03\tAbsError: 1.43454e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.36315e-07\tAbsError: 8.21544e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.66204e+03\tAbsError: 6.93474e+16\n", + " Region: \"zone_1\"\tRelError: 8.76338e+02\tAbsError: 4.68048e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 8.76336e+02\tAbsError: 2.58614e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26825e-03\tAbsError: 4.42186e-01\n", + " Region: \"zone_3\"\tRelError: 7.85702e+02\tAbsError: 6.93474e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.33245e-02\tAbsError: 3.47970e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.15582e-02\tAbsError: 3.45503e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 7.85556e+02\tAbsError: 2.58778e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26845e-03\tAbsError: 4.42250e-01\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 9.30929e-05\tAbsError: 9.62198e+09\n", + " Region: \"zone_1\"\tRelError: 2.99044e-06\tAbsError: 4.57774e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.98913e-06\tAbsError: 3.95789e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.31308e-09\tAbsError: 4.57379e-07\n", + " Region: \"zone_3\"\tRelError: 9.01025e-05\tAbsError: 9.62198e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50292e-08\tAbsError: 4.79430e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.16874e-08\tAbsError: 4.82769e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 9.00644e-05\tAbsError: 3.99741e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.31362e-09\tAbsError: 4.57578e-07\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.44483e-03\tAbsError: 2.78794e+11\n", + " Region: \"zone_1\"\tRelError: 9.92254e-04\tAbsError: 3.13341e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 9.92164e-04\tAbsError: 2.69105e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.00557e-08\tAbsError: 3.13071e-05\n", + " Region: \"zone_3\"\tRelError: 4.52576e-04\tAbsError: 2.78794e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.33571e-06\tAbsError: 1.38640e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.25733e-06\tAbsError: 1.40155e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.47893e-04\tAbsError: 2.70655e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.00927e-08\tAbsError: 3.13209e-05\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 8.75970e+00\tAbsError: 5.63764e+16\n", + " Region: \"zone_1\"\tRelError: 6.92610e+00\tAbsError: 3.03076e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 6.91755e+00\tAbsError: 2.58876e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.55205e-03\tAbsError: 3.00487e+00\n", + " Region: \"zone_3\"\tRelError: 1.83361e+00\tAbsError: 5.63764e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.50579e-02\tAbsError: 2.82845e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.12026e-02\tAbsError: 2.80919e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.68878e+00\tAbsError: 2.58755e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.56303e-03\tAbsError: 3.00881e+00\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 9.05392e+01\tAbsError: 2.15165e+17\n", + " Region: \"zone_1\"\tRelError: 8.45050e+01\tAbsError: 4.19650e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.45050e+01\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.17054e-09\tAbsError: 2.14572e-06\n", + " Region: \"zone_3\"\tRelError: 6.03424e+00\tAbsError: 2.15165e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69072e-01\tAbsError: 1.09160e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.65008e-01\tAbsError: 1.06006e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 4.50016e+00\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.17312e-09\tAbsError: 2.14667e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.46324e+03\tAbsError: 5.14576e+15\n", + " Region: \"zone_1\"\tRelError: 6.87978e+02\tAbsError: 7.78255e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 6.87976e+02\tAbsError: 9.16449e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19704e-03\tAbsError: 7.69091e-01\n", + " Region: \"zone_3\"\tRelError: 7.75259e+02\tAbsError: 5.14576e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52317e-02\tAbsError: 2.57522e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.85097e-03\tAbsError: 2.57054e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.75237e+02\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19704e-03\tAbsError: 7.69091e-01\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 5.06646e-04\tAbsError: 1.01086e+11\n", + " Region: \"zone_1\"\tRelError: 3.47894e-04\tAbsError: 6.54239e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.47875e-04\tAbsError: 9.81295e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.87909e-08\tAbsError: 6.53257e-06\n", + " Region: \"zone_3\"\tRelError: 1.58752e-04\tAbsError: 1.01086e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.54559e-07\tAbsError: 5.02676e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.21808e-07\tAbsError: 5.08185e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.57057e-04\tAbsError: 9.96756e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.87988e-08\tAbsError: 6.53547e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.51142e+01\tAbsError: 2.01718e+16\n", + " Region: \"zone_1\"\tRelError: 3.62794e+00\tAbsError: 1.96542e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 3.62235e+00\tAbsError: 1.08333e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.59401e-03\tAbsError: 1.95458e+00\n", + " Region: \"zone_3\"\tRelError: 2.14863e+01\tAbsError: 2.01718e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.53811e-02\tAbsError: 1.01125e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.94421e-02\tAbsError: 1.00593e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.14358e+01\tAbsError: 1.08344e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.60311e-03\tAbsError: 1.95781e+00\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:08\u001b[0m.\u001b[1;36m726\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 6.86875e+01\tAbsError: 2.11173e+17\n", + " Region: \"zone_1\"\tRelError: 6.09541e+01\tAbsError: 3.17091e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 6.09532e+01\tAbsError: 3.19523e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.22478e-04\tAbsError: 2.85139e-01\n", + " Region: \"zone_3\"\tRelError: 7.73346e+00\tAbsError: 2.11173e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17930e-01\tAbsError: 1.06081e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.46503e-01\tAbsError: 1.05092e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 6.46820e+00\tAbsError: 3.19525e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.22478e-04\tAbsError: 2.85139e-01\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:08\u001b[0m.\u001b[1;36m754\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.25 bias\u001b[0m \n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.96023e+00\tAbsError: 5.32372e+15\n", + " Region: \"zone_1\"\tRelError: 4.54639e+00\tAbsError: 1.02863e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 4.54344e+00\tAbsError: 2.66559e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.94644e-03\tAbsError: 1.02837e+00\n", + " Region: \"zone_3\"\tRelError: 2.41384e+00\tAbsError: 5.32372e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.51219e-02\tAbsError: 2.60450e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.65403e-03\tAbsError: 2.71922e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.38011e+00\tAbsError: 2.68000e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.95139e-03\tAbsError: 1.03011e+00\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:08\u001b[0m.\u001b[1;36m778\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.12327e-04\tAbsError: 2.10463e+10\n", + " Region: \"zone_1\"\tRelError: 7.71522e-05\tAbsError: 2.15853e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 7.71460e-05\tAbsError: 2.11540e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.20283e-09\tAbsError: 2.15642e-06\n", + " Region: \"zone_3\"\tRelError: 3.51752e-05\tAbsError: 2.10463e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.76939e-07\tAbsError: 1.04674e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.70744e-07\tAbsError: 1.05789e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.48213e-05\tAbsError: 2.13769e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.20541e-09\tAbsError: 2.15735e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.45067e+01\tAbsError: 1.87553e+16\n", + " Region: \"zone_1\"\tRelError: 2.46370e+00\tAbsError: 1.47436e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 2.45948e+00\tAbsError: 1.97736e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.21275e-03\tAbsError: 1.47416e+00\n", + " Region: \"zone_3\"\tRelError: 1.20431e+01\tAbsError: 1.87553e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.15213e-02\tAbsError: 9.01113e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.31331e-03\tAbsError: 9.74413e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20100e+01\tAbsError: 1.98904e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.21492e-03\tAbsError: 1.47492e+00\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.19880e+03\tAbsError: 1.25545e+19\n", + " Region: \"zone_1\"\tRelError: 5.00629e+02\tAbsError: 9.26313e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.00629e+02\tAbsError: 9.26312e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.05730e-10\tAbsError: 1.06495e-07\n", + " Region: \"zone_3\"\tRelError: 6.98175e+02\tAbsError: 1.25545e+19\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.32269e+02\tAbsError: 5.15576e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.45517e+02\tAbsError: 7.39872e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20389e+02\tAbsError: 9.26320e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.05855e-10\tAbsError: 1.06540e-07\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.07732e+01\tAbsError: 5.66142e+15\n", + " Region: \"zone_1\"\tRelError: 6.09549e-01\tAbsError: 6.00187e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.09378e-01\tAbsError: 2.72034e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71203e-04\tAbsError: 5.97467e-02\n", + " Region: \"zone_3\"\tRelError: 6.01636e+01\tAbsError: 5.66142e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.13691e-02\tAbsError: 2.75447e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.48872e-03\tAbsError: 2.90695e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 6.01496e+01\tAbsError: 2.74039e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71270e-04\tAbsError: 5.97699e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.23338e+01\tAbsError: 1.14319e+17\n", + " Region: \"zone_1\"\tRelError: 9.07204e+00\tAbsError: 8.83948e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.07186e+00\tAbsError: 2.58559e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.80215e-04\tAbsError: 6.25389e-02\n", + " Region: \"zone_3\"\tRelError: 1.32617e+01\tAbsError: 1.14319e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.70133e-01\tAbsError: 5.77957e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.80255e-01\tAbsError: 5.65233e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.26112e+01\tAbsError: 2.58311e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.80264e-04\tAbsError: 6.25548e-02\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 3.52975e-05\tAbsError: 6.76967e+09\n", + " Region: \"zone_1\"\tRelError: 2.42437e-05\tAbsError: 4.94954e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.42423e-05\tAbsError: 6.80309e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42175e-09\tAbsError: 4.94273e-07\n", + " Region: \"zone_3\"\tRelError: 1.10538e-05\tAbsError: 6.76967e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.72210e-08\tAbsError: 3.36682e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.50231e-08\tAbsError: 3.40285e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09401e-05\tAbsError: 6.93709e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42234e-09\tAbsError: 4.94487e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:10\u001b[0m.\u001b[1;36m530\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.8699999999999999\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.24072e+00\tAbsError: 9.43976e+15\n", + " Region: \"zone_1\"\tRelError: 5.40200e+00\tAbsError: 5.25342e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.40185e+00\tAbsError: 3.80157e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.49014e-04\tAbsError: 5.21540e-02\n", + " Region: \"zone_3\"\tRelError: 8.38724e-01\tAbsError: 9.43976e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52880e-02\tAbsError: 4.61247e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.01775e-03\tAbsError: 4.82729e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.20269e-01\tAbsError: 3.82769e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.49095e-04\tAbsError: 5.21821e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.64735e+02\tAbsError: 1.04135e+19\n", + " Region: \"zone_1\"\tRelError: 5.00518e+01\tAbsError: 4.83021e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.00380e+01\tAbsError: 8.99016e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37870e-02\tAbsError: 4.74031e+00\n", + " Region: \"zone_3\"\tRelError: 3.14684e+02\tAbsError: 1.04135e+19\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 4.33275e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.73820e+02\tAbsError: 6.08074e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 1.31850e+02\tAbsError: 8.99018e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37888e-02\tAbsError: 4.74083e+00\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.18137e+00\tAbsError: 3.71256e+14\n", + " Region: \"zone_1\"\tRelError: 8.31734e-02\tAbsError: 3.74686e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.30661e-02\tAbsError: 1.92544e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.07324e-04\tAbsError: 3.74493e-02\n", + " Region: \"zone_3\"\tRelError: 1.09819e+00\tAbsError: 3.71256e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.23962e-03\tAbsError: 1.84907e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.91184e-04\tAbsError: 1.86349e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09615e+00\tAbsError: 1.93888e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.07368e-04\tAbsError: 3.74645e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.56211e+00\tAbsError: 2.66918e+16\n", + " Region: \"zone_1\"\tRelError: 1.69107e+00\tAbsError: 2.89241e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.69026e+00\tAbsError: 1.06612e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03961e-04\tAbsError: 2.78580e-01\n", + " Region: \"zone_3\"\tRelError: 3.87104e+00\tAbsError: 2.66918e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07163e-01\tAbsError: 1.33931e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.50486e-02\tAbsError: 1.32988e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.71803e+00\tAbsError: 1.06615e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03961e-04\tAbsError: 2.78580e-01\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.78693e+01\tAbsError: 3.39789e+17\n", + " Region: \"zone_1\"\tRelError: 6.85783e+01\tAbsError: 4.29339e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.85783e+01\tAbsError: 4.29337e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.31349e-10\tAbsError: 1.49959e-07\n", + " Region: \"zone_3\"\tRelError: 9.29095e+00\tAbsError: 3.39789e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.70074e-01\tAbsError: 1.69409e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.63422e-01\tAbsError: 1.70379e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 7.75745e+00\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.31527e-10\tAbsError: 1.50023e-07\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.06185e-01\tAbsError: 3.08037e+14\n", + " Region: \"zone_1\"\tRelError: 1.71268e-01\tAbsError: 4.84174e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.71130e-01\tAbsError: 1.73950e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.38313e-04\tAbsError: 4.84000e-02\n", + " Region: \"zone_3\"\tRelError: 3.49170e-02\tAbsError: 3.08037e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.42050e-03\tAbsError: 1.49668e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.55604e-04\tAbsError: 1.58369e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.29026e-02\tAbsError: 1.74981e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.38368e-04\tAbsError: 4.84192e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 9.29490e+02\tAbsError: 3.51023e+18\n", + " Region: \"zone_1\"\tRelError: 1.98238e+01\tAbsError: 4.32385e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.98116e+01\tAbsError: 8.69446e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.21421e-02\tAbsError: 4.23691e+00\n", + " Region: \"zone_3\"\tRelError: 9.09666e+02\tAbsError: 3.51023e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.82099e+01\tAbsError: 1.78518e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.52423e+02\tAbsError: 1.72505e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 2.89021e+02\tAbsError: 8.69449e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.21450e-02\tAbsError: 4.23806e+00\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.46007e+00\tAbsError: 2.29640e+14\n", + " Region: \"zone_1\"\tRelError: 4.03111e-02\tAbsError: 3.94907e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 4.02998e-02\tAbsError: 1.05545e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13173e-05\tAbsError: 3.93851e-03\n", + " Region: \"zone_3\"\tRelError: 1.41976e+00\tAbsError: 2.29640e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16328e-04\tAbsError: 1.14327e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.52600e-04\tAbsError: 1.15314e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.41908e+00\tAbsError: 1.06317e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13180e-05\tAbsError: 3.93853e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.83788e+00\tAbsError: 2.55334e+15\n", + " Region: \"zone_1\"\tRelError: 1.17954e+00\tAbsError: 3.25510e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17945e+00\tAbsError: 5.46819e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.37076e-05\tAbsError: 3.24963e-02\n", + " Region: \"zone_3\"\tRelError: 6.58336e-01\tAbsError: 2.55334e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.48841e-02\tAbsError: 1.31730e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.42693e-03\tAbsError: 1.23604e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 6.40932e-01\tAbsError: 5.52119e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.38423e-05\tAbsError: 3.25425e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.56499e+01\tAbsError: 3.39345e+17\n", + " Region: \"zone_1\"\tRelError: 1.75628e+00\tAbsError: 2.28368e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.75572e+00\tAbsError: 3.30998e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.63387e-04\tAbsError: 1.95268e-01\n", + " Region: \"zone_3\"\tRelError: 2.38936e+01\tAbsError: 3.39345e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.04191e-01\tAbsError: 1.72005e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.19865e-01\tAbsError: 1.67340e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 2.26690e+01\tAbsError: 3.31000e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.63387e-04\tAbsError: 1.95268e-01\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 7.52589e-01\tAbsError: 2.90021e+14\n", + " Region: \"zone_1\"\tRelError: 6.78925e-01\tAbsError: 3.33813e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.78915e-01\tAbsError: 1.33213e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.50121e-06\tAbsError: 3.32481e-03\n", + " Region: \"zone_3\"\tRelError: 7.36636e-02\tAbsError: 2.90021e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.74372e-04\tAbsError: 1.44443e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.19813e-04\tAbsError: 1.45579e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.27599e-02\tAbsError: 1.34085e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.50505e-06\tAbsError: 3.32614e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.72759e+02\tAbsError: 3.80692e+18\n", + " Region: \"zone_1\"\tRelError: 4.22886e+01\tAbsError: 1.58295e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 4.22843e+01\tAbsError: 8.37231e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.31494e-03\tAbsError: 1.49922e+00\n", + " Region: \"zone_3\"\tRelError: 1.30470e+02\tAbsError: 3.80692e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.29125e+01\tAbsError: 1.92102e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.31882e+01\tAbsError: 1.88590e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 6.43655e+01\tAbsError: 8.37233e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.31623e-03\tAbsError: 1.49970e+00\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.11111e-01\tAbsError: 2.79827e+13\n", + " Region: \"zone_1\"\tRelError: 7.25122e-03\tAbsError: 1.74217e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.24621e-03\tAbsError: 1.19347e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.00326e-06\tAbsError: 1.74098e-03\n", + " Region: \"zone_3\"\tRelError: 2.03859e-01\tAbsError: 2.79827e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67617e-05\tAbsError: 1.39372e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.89481e-05\tAbsError: 1.40455e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03729e-01\tAbsError: 1.20196e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.00391e-06\tAbsError: 1.74126e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.44853e-03\tAbsError: 9.65526e+13\n", + " Region: \"zone_1\"\tRelError: 5.54449e-03\tAbsError: 4.95915e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.53020e-03\tAbsError: 7.89077e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42878e-05\tAbsError: 4.95125e-03\n", + " Region: \"zone_3\"\tRelError: 9.04033e-04\tAbsError: 9.65526e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.44309e-04\tAbsError: 4.72399e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.72867e-04\tAbsError: 4.93127e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.72567e-04\tAbsError: 7.95387e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42898e-05\tAbsError: 4.95186e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.42340e+01\tAbsError: 1.51712e+17\n", + " Region: \"zone_1\"\tRelError: 8.67693e+00\tAbsError: 2.15109e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 8.67638e+00\tAbsError: 2.58904e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.45520e-04\tAbsError: 1.89218e-01\n", + " Region: \"zone_3\"\tRelError: 5.55710e+00\tAbsError: 1.51712e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.40518e-01\tAbsError: 7.62921e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.28757e-01\tAbsError: 7.54196e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 4.98728e+00\tAbsError: 2.58830e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.45609e-04\tAbsError: 1.89245e-01\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.95001e-02\tAbsError: 1.96145e+13\n", + " Region: \"zone_1\"\tRelError: 6.19508e-02\tAbsError: 1.94459e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.19452e-02\tAbsError: 1.07047e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.56869e-06\tAbsError: 1.94352e-03\n", + " Region: \"zone_3\"\tRelError: 7.54931e-03\tAbsError: 1.96145e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.16796e-05\tAbsError: 9.76745e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.02449e-05\tAbsError: 9.84707e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.42181e-03\tAbsError: 1.07732e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.56990e-06\tAbsError: 1.94402e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 9.24879e-02\tAbsError: 1.23871e+13\n", + " Region: \"zone_1\"\tRelError: 2.93353e-03\tAbsError: 2.91323e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.93269e-03\tAbsError: 4.76030e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.36559e-07\tAbsError: 2.90847e-04\n", + " Region: \"zone_3\"\tRelError: 8.95543e-02\tAbsError: 1.23871e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95573e-05\tAbsError: 6.16953e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.91930e-05\tAbsError: 6.21758e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.95147e-02\tAbsError: 4.79468e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.36647e-07\tAbsError: 2.90878e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.70615e+03\tAbsError: 4.52231e+17\n", + " Region: \"zone_1\"\tRelError: 4.09008e+01\tAbsError: 7.77968e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.08988e+01\tAbsError: 8.01892e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.01232e-03\tAbsError: 6.97779e-01\n", + " Region: \"zone_3\"\tRelError: 1.66525e+03\tAbsError: 4.52231e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.99679e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.65067e+03\tAbsError: 2.52552e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 5.57927e+00\tAbsError: 8.01894e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.01232e-03\tAbsError: 6.97779e-01\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 9.75163e-02\tAbsError: 3.25390e+13\n", + " Region: \"zone_1\"\tRelError: 6.42969e-02\tAbsError: 6.98099e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.42949e-02\tAbsError: 1.30012e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.00484e-06\tAbsError: 6.96799e-04\n", + " Region: \"zone_3\"\tRelError: 3.32194e-02\tAbsError: 3.25390e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.22317e-05\tAbsError: 1.60110e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.63713e-05\tAbsError: 1.65281e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.30588e-02\tAbsError: 1.31290e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.00578e-06\tAbsError: 6.97121e-04\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.13410e+02\tAbsError: 2.22863e+16\n", + " Region: \"zone_1\"\tRelError: 1.13012e+02\tAbsError: 2.95028e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13011e+02\tAbsError: 1.22650e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.15806e-04\tAbsError: 2.82763e-01\n", + " Region: \"zone_3\"\tRelError: 3.97767e-01\tAbsError: 2.22863e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.56928e-02\tAbsError: 1.11657e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.97555e-02\tAbsError: 1.11206e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.81503e-01\tAbsError: 1.22654e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.15806e-04\tAbsError: 2.82763e-01\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.70469e-02\tAbsError: 1.30475e+13\n", + " Region: \"zone_1\"\tRelError: 4.22512e-02\tAbsError: 2.14289e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.22506e-02\tAbsError: 5.27007e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.13323e-07\tAbsError: 2.13762e-04\n", + " Region: \"zone_3\"\tRelError: 4.79561e-03\tAbsError: 1.30475e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.37860e-05\tAbsError: 6.50229e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.14826e-05\tAbsError: 6.54518e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.74973e-03\tAbsError: 5.30379e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.13323e-07\tAbsError: 2.13762e-04\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.79957e-02\tAbsError: 2.00241e+12\n", + " Region: \"zone_1\"\tRelError: 5.80226e-04\tAbsError: 1.06766e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.79919e-04\tAbsError: 7.62075e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.06294e-07\tAbsError: 1.06690e-04\n", + " Region: \"zone_3\"\tRelError: 1.74155e-02\tAbsError: 2.00241e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.83435e-06\tAbsError: 9.97535e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.43171e-06\tAbsError: 1.00487e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74069e-02\tAbsError: 7.69605e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.06408e-07\tAbsError: 1.06730e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.37479e+02\tAbsError: 4.65758e+16\n", + " Region: \"zone_1\"\tRelError: 6.64495e+00\tAbsError: 3.31762e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 6.64421e+00\tAbsError: 7.62823e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.36217e-04\tAbsError: 2.55480e-01\n", + " Region: \"zone_3\"\tRelError: 2.30834e+02\tAbsError: 4.65758e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.28075e+02\tAbsError: 3.44923e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.30645e+00\tAbsError: 1.20835e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 4.52764e-01\tAbsError: 7.62825e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.36217e-04\tAbsError: 2.55480e-01\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.13157e-03\tAbsError: 2.71555e+12\n", + " Region: \"zone_1\"\tRelError: 7.85615e-04\tAbsError: 2.66866e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.84848e-04\tAbsError: 2.19182e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.67288e-07\tAbsError: 2.66647e-04\n", + " Region: \"zone_3\"\tRelError: 3.45960e-04\tAbsError: 2.71555e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.38252e-06\tAbsError: 1.33180e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.48145e-06\tAbsError: 1.38375e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.28328e-04\tAbsError: 2.21071e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.67607e-07\tAbsError: 2.66762e-04\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 6.50941e-03\tAbsError: 1.40933e+12\n", + " Region: \"zone_1\"\tRelError: 5.82453e-03\tAbsError: 1.02397e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.82424e-03\tAbsError: 6.23406e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.93614e-07\tAbsError: 1.02335e-04\n", + " Region: \"zone_3\"\tRelError: 6.84879e-04\tAbsError: 1.40933e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.79459e-06\tAbsError: 7.02415e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.91114e-06\tAbsError: 7.06915e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 6.76879e-04\tAbsError: 6.27266e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.93670e-07\tAbsError: 1.02355e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.61604e+00\tAbsError: 2.71406e+15\n", + " Region: \"zone_1\"\tRelError: 1.44549e+00\tAbsError: 4.95422e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.44535e+00\tAbsError: 4.48303e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42647e-04\tAbsError: 4.94973e-02\n", + " Region: \"zone_3\"\tRelError: 1.70549e-01\tAbsError: 2.71406e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.01740e-03\tAbsError: 1.39529e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.58382e-03\tAbsError: 1.31876e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.59805e-01\tAbsError: 4.55618e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42858e-04\tAbsError: 4.95718e-02\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 6.16882e-03\tAbsError: 7.25783e+11\n", + " Region: \"zone_1\"\tRelError: 1.98056e-04\tAbsError: 2.16951e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.97994e-04\tAbsError: 2.65471e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.22079e-08\tAbsError: 2.16685e-05\n", + " Region: \"zone_3\"\tRelError: 5.97077e-03\tAbsError: 7.25783e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.06142e-06\tAbsError: 3.61574e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.32785e-06\tAbsError: 3.64210e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.96832e-03\tAbsError: 2.68167e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.22311e-08\tAbsError: 2.16771e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.74025e+02\tAbsError: 3.37469e+16\n", + " Region: \"zone_1\"\tRelError: 1.68589e+01\tAbsError: 1.25546e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.68588e+01\tAbsError: 7.19237e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54526e-04\tAbsError: 5.36225e-02\n", + " Region: \"zone_3\"\tRelError: 7.57166e+02\tAbsError: 3.37469e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.78798e+02\tAbsError: 1.89188e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.78203e+02\tAbsError: 1.48281e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65070e-01\tAbsError: 7.19239e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.54982e-04\tAbsError: 5.37834e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 5.55248e-03\tAbsError: 1.64976e+12\n", + " Region: \"zone_1\"\tRelError: 3.67085e-03\tAbsError: 1.64025e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.67080e-03\tAbsError: 7.32464e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.69818e-08\tAbsError: 1.63293e-05\n", + " Region: \"zone_3\"\tRelError: 1.88163e-03\tAbsError: 1.64976e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.20100e-06\tAbsError: 8.12537e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.84601e-06\tAbsError: 8.37224e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87354e-03\tAbsError: 7.39315e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.70059e-08\tAbsError: 1.63376e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 2.83782e-03\tAbsError: 6.55135e+11\n", + " Region: \"zone_1\"\tRelError: 2.54483e-03\tAbsError: 1.58738e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.54479e-03\tAbsError: 2.47047e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.54187e-08\tAbsError: 1.58491e-05\n", + " Region: \"zone_3\"\tRelError: 2.92993e-04\tAbsError: 6.55135e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.14183e-06\tAbsError: 3.26636e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.34656e-06\tAbsError: 3.28499e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.90460e-04\tAbsError: 2.49353e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.54356e-08\tAbsError: 1.58552e-05\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.32512e-03\tAbsError: 1.39840e+11\n", + " Region: \"zone_1\"\tRelError: 4.25623e-05\tAbsError: 6.99519e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.25422e-05\tAbsError: 5.61701e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.00663e-08\tAbsError: 6.98958e-06\n", + " Region: \"zone_3\"\tRelError: 1.28256e-03\tAbsError: 1.39840e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.35090e-07\tAbsError: 6.96726e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.14577e-07\tAbsError: 7.01672e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28199e-03\tAbsError: 5.67287e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.00739e-08\tAbsError: 6.99239e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.39978e-01\tAbsError: 1.73686e+14\n", + " Region: \"zone_1\"\tRelError: 4.36730e-01\tAbsError: 5.01253e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 4.36716e-01\tAbsError: 1.35366e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43838e-05\tAbsError: 4.99899e-03\n", + " Region: \"zone_3\"\tRelError: 3.24796e-03\tAbsError: 1.73686e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.93699e-04\tAbsError: 8.57881e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.16982e-04\tAbsError: 8.78978e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.62289e-03\tAbsError: 1.36588e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43893e-05\tAbsError: 5.00091e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.10144e+04\tAbsError: 6.94366e+15\n", + " Region: \"zone_1\"\tRelError: 2.97996e-01\tAbsError: 3.02085e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.97319e-01\tAbsError: 6.70102e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.76859e-04\tAbsError: 2.35075e-01\n", + " Region: \"zone_3\"\tRelError: 1.10141e+04\tAbsError: 6.94366e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.37954e+02\tAbsError: 2.52596e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.04760e+04\tAbsError: 4.41770e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29582e-01\tAbsError: 6.70105e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.76859e-04\tAbsError: 2.35075e-01\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.41098e-04\tAbsError: 3.70638e+10\n", + " Region: \"zone_1\"\tRelError: 1.60736e-04\tAbsError: 1.49732e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.60693e-04\tAbsError: 4.79644e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.30721e-08\tAbsError: 1.49684e-05\n", + " Region: \"zone_3\"\tRelError: 8.03619e-05\tAbsError: 3.70638e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.16860e-07\tAbsError: 1.81925e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.69346e-07\tAbsError: 1.88712e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.98326e-05\tAbsError: 4.83644e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.30899e-08\tAbsError: 1.49749e-05\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 4.86432e-04\tAbsError: 9.58669e+10\n", + " Region: \"zone_1\"\tRelError: 4.35367e-04\tAbsError: 6.01843e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.35349e-04\tAbsError: 4.20846e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72349e-08\tAbsError: 6.01422e-06\n", + " Region: \"zone_3\"\tRelError: 5.10657e-05\tAbsError: 9.58669e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.16308e-07\tAbsError: 4.78066e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.72686e-07\tAbsError: 4.80603e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.05595e-05\tAbsError: 4.24652e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.72414e-08\tAbsError: 6.01658e-06\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 4.07310e-04\tAbsError: 4.47841e+10\n", + " Region: \"zone_1\"\tRelError: 1.30926e-05\tAbsError: 1.54205e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.30881e-05\tAbsError: 1.75011e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.42203e-09\tAbsError: 1.54030e-06\n", + " Region: \"zone_3\"\tRelError: 3.94218e-04\tAbsError: 4.47841e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.33915e-08\tAbsError: 2.23135e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.92263e-08\tAbsError: 2.24706e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.94061e-04\tAbsError: 1.76782e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.42382e-09\tAbsError: 1.54097e-06\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 5.52811e-02\tAbsError: 3.34954e+13\n", + " Region: \"zone_1\"\tRelError: 4.72342e-02\tAbsError: 1.34444e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 4.72304e-02\tAbsError: 1.28454e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.86347e-06\tAbsError: 1.34316e-03\n", + " Region: \"zone_3\"\tRelError: 8.04684e-03\tAbsError: 3.34954e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.41615e-05\tAbsError: 1.66223e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.16688e-05\tAbsError: 1.68731e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.93715e-03\tAbsError: 1.29905e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.86527e-06\tAbsError: 1.34377e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.20598e-04\tAbsError: 9.09573e+10\n", + " Region: \"zone_1\"\tRelError: 2.12041e-04\tAbsError: 7.95285e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.12039e-04\tAbsError: 4.17842e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.27632e-09\tAbsError: 7.91107e-07\n", + " Region: \"zone_3\"\tRelError: 1.08557e-04\tAbsError: 9.09573e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.30667e-07\tAbsError: 4.48081e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.10381e-07\tAbsError: 4.61492e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08113e-04\tAbsError: 4.21673e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.27757e-09\tAbsError: 7.91562e-07\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 1.70591e-04\tAbsError: 3.56847e+10\n", + " Region: \"zone_1\"\tRelError: 1.52882e-04\tAbsError: 1.12241e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.52879e-04\tAbsError: 1.48688e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.21221e-09\tAbsError: 1.12092e-06\n", + " Region: \"zone_3\"\tRelError: 1.77094e-05\tAbsError: 3.56847e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.12857e-08\tAbsError: 1.77986e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.30410e-08\tAbsError: 1.78861e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.75618e-05\tAbsError: 1.50077e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.21347e-09\tAbsError: 1.12138e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.75750e+03\tAbsError: 1.37117e+15\n", + " Region: \"zone_1\"\tRelError: 2.98702e-01\tAbsError: 1.04404e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.98578e-01\tAbsError: 6.14041e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.24025e-04\tAbsError: 4.29995e-02\n", + " Region: \"zone_3\"\tRelError: 1.75720e+03\tAbsError: 1.37117e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.49632e+01\tAbsError: 7.96171e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.71211e+03\tAbsError: 5.74998e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.27908e-01\tAbsError: 6.14044e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.24152e-04\tAbsError: 4.30433e-02\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 9.30929e-05\tAbsError: 9.62198e+09\n", + " Region: \"zone_1\"\tRelError: 2.99044e-06\tAbsError: 4.57774e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.98912e-06\tAbsError: 3.95789e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.31308e-09\tAbsError: 4.57379e-07\n", + " Region: \"zone_3\"\tRelError: 9.01024e-05\tAbsError: 9.62198e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50292e-08\tAbsError: 4.79430e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.16874e-08\tAbsError: 4.82769e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 9.00644e-05\tAbsError: 3.99740e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.31362e-09\tAbsError: 4.57578e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:21\u001b[0m.\u001b[1;36m631\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 1.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.15711e-02\tAbsError: 6.36169e+12\n", + " Region: \"zone_1\"\tRelError: 1.14125e-02\tAbsError: 2.54396e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14118e-02\tAbsError: 4.20700e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.30748e-07\tAbsError: 2.53975e-04\n", + " Region: \"zone_3\"\tRelError: 1.58593e-04\tAbsError: 6.36169e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12626e-05\tAbsError: 3.14963e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.04677e-05\tAbsError: 3.21206e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.36131e-04\tAbsError: 4.24482e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.31084e-07\tAbsError: 2.54099e-04\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 2.75135e-05\tAbsError: 3.73693e+09\n", + " Region: \"zone_1\"\tRelError: 1.82469e-05\tAbsError: 8.76012e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82444e-05\tAbsError: 2.95833e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.51991e-09\tAbsError: 8.75716e-07\n", + " Region: \"zone_3\"\tRelError: 9.26653e-06\tAbsError: 3.73693e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.40675e-09\tAbsError: 1.84743e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.59836e-08\tAbsError: 1.88950e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 9.23962e-06\tAbsError: 2.97952e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.52095e-09\tAbsError: 8.76100e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:22\u001b[0m.\u001b[1;36m518\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:22\u001b[0m.\u001b[1;36m518\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.9399999999999998\u001b[0m \n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 3.34213e-05\tAbsError: 6.34810e+09\n", + " Region: \"zone_1\"\tRelError: 2.99161e-05\tAbsError: 3.62915e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.99150e-05\tAbsError: 2.90104e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.03917e-09\tAbsError: 3.62625e-07\n", + " Region: \"zone_3\"\tRelError: 3.50522e-06\tAbsError: 6.34810e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.29546e-08\tAbsError: 3.16684e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.80776e-08\tAbsError: 3.18126e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.47315e-06\tAbsError: 2.92745e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.03959e-09\tAbsError: 3.62778e-07\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.36485e+03\tAbsError: 5.29564e+14\n", + " Region: \"zone_1\"\tRelError: 7.97414e-02\tAbsError: 1.00536e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 7.96098e-02\tAbsError: 5.49210e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.31553e-04\tAbsError: 4.56155e-02\n", + " Region: \"zone_3\"\tRelError: 1.36477e+03\tAbsError: 5.29564e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.77527e+01\tAbsError: 1.11987e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.34694e+03\tAbsError: 4.17577e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.97382e-02\tAbsError: 5.49213e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.31589e-04\tAbsError: 4.56279e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.20731e+02\tAbsError: 2.29552e+18\n", + " Region: \"zone_1\"\tRelError: 1.41155e+02\tAbsError: 4.09537e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.41155e+02\tAbsError: 4.09536e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.05730e-10\tAbsError: 1.06495e-07\n", + " Region: \"zone_3\"\tRelError: 7.95757e+01\tAbsError: 2.29552e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.78600e-01\tAbsError: 1.14566e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.65499e-01\tAbsError: 1.14986e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 7.84316e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.05855e-10\tAbsError: 1.06540e-07\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.83911e-03\tAbsError: 1.58905e+12\n", + " Region: \"zone_1\"\tRelError: 2.42692e-03\tAbsError: 4.33674e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.42679e-03\tAbsError: 6.60095e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.24553e-07\tAbsError: 4.33014e-05\n", + " Region: \"zone_3\"\tRelError: 4.12192e-04\tAbsError: 1.58905e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.62381e-06\tAbsError: 7.89358e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.44568e-06\tAbsError: 7.99689e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.06997e-04\tAbsError: 6.67114e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.24610e-07\tAbsError: 4.33209e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.69832e+03\tAbsError: 4.26164e+14\n", + " Region: \"zone_1\"\tRelError: 6.43653e-02\tAbsError: 1.10643e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 6.41827e-02\tAbsError: 4.73176e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.82596e-04\tAbsError: 6.33253e-02\n", + " Region: \"zone_3\"\tRelError: 1.69826e+03\tAbsError: 4.26164e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.64637e+03\tAbsError: 3.14969e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.18213e+01\tAbsError: 3.94667e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.42828e-02\tAbsError: 4.73180e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.82818e-04\tAbsError: 6.34031e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.30223e+01\tAbsError: 9.02224e+17\n", + " Region: \"zone_1\"\tRelError: 1.21751e+01\tAbsError: 4.19628e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21751e+01\tAbsError: 4.19627e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.54552e-10\tAbsError: 8.84641e-08\n", + " Region: \"zone_3\"\tRelError: 4.08472e+01\tAbsError: 9.02224e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.23540e-01\tAbsError: 4.39797e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.03855e-01\tAbsError: 4.62427e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 3.94198e+01\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.54670e-10\tAbsError: 8.85062e-08\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.75350e+01\tAbsError: 4.89721e+17\n", + " Region: \"zone_1\"\tRelError: 1.04844e+01\tAbsError: 2.18917e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04782e+01\tAbsError: 3.07622e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.15763e-03\tAbsError: 2.15840e+00\n", + " Region: \"zone_3\"\tRelError: 2.70506e+01\tAbsError: 4.89721e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.63139e-01\tAbsError: 2.45322e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.63561e-01\tAbsError: 2.44399e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 2.65177e+01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.15822e-03\tAbsError: 2.15862e+00\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 3.37999e-04\tAbsError: 2.19561e+11\n", + " Region: \"zone_1\"\tRelError: 3.30295e-04\tAbsError: 1.28810e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.30258e-04\tAbsError: 1.32795e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.70226e-08\tAbsError: 1.28677e-05\n", + " Region: \"zone_3\"\tRelError: 7.70331e-06\tAbsError: 2.19561e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.91687e-07\tAbsError: 1.08742e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.84773e-07\tAbsError: 1.10819e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 6.88981e-06\tAbsError: 1.34007e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.70399e-08\tAbsError: 1.28739e-05\n", + "Iteration: 11\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:25\u001b[0m.\u001b[1;36m205\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + " Device: \"device\"\tRelError: 5.20273e+00\tAbsError: 4.35026e+14\n", + " Region: \"zone_1\"\tRelError: 4.96120e-02\tAbsError: 1.17626e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.93834e-02\tAbsError: 3.83021e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28674e-04\tAbsError: 7.93235e-02\n", + " Region: \"zone_3\"\tRelError: 5.15312e+00\tAbsError: 4.35026e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.11960e+00\tAbsError: 2.44354e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.83833e-01\tAbsError: 4.10591e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.94610e-02\tAbsError: 3.83026e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28965e-04\tAbsError: 7.94253e-02\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:25\u001b[0m.\u001b[1;36m240\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.3 bias\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:25\u001b[0m.\u001b[1;36m273\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.1\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 6.87971e+02\tAbsError: 4.98361e+17\n", + " Region: \"zone_1\"\tRelError: 5.59464e+01\tAbsError: 8.86546e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.59439e+01\tAbsError: 3.19520e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.46028e-03\tAbsError: 8.54594e-01\n", + " Region: \"zone_3\"\tRelError: 6.32024e+02\tAbsError: 4.98361e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.94559e-01\tAbsError: 2.49995e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.67050e-01\tAbsError: 2.48366e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 6.31060e+02\tAbsError: 3.19525e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.46050e-03\tAbsError: 8.54692e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 8.28645e+00\tAbsError: 2.11022e+16\n", + " Region: \"zone_1\"\tRelError: 5.89404e-01\tAbsError: 1.45838e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.85324e-01\tAbsError: 2.58807e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.07995e-03\tAbsError: 1.43250e+00\n", + " Region: \"zone_3\"\tRelError: 7.69704e+00\tAbsError: 2.11022e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.08442e-02\tAbsError: 1.06070e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.62030e-02\tAbsError: 1.04952e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 7.63591e+00\tAbsError: 2.58945e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.08866e-03\tAbsError: 1.43560e+00\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.45915e-04\tAbsError: 8.08391e+10\n", + " Region: \"zone_1\"\tRelError: 1.24746e-04\tAbsError: 1.31713e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.24742e-04\tAbsError: 3.37234e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.77890e-09\tAbsError: 1.31375e-06\n", + " Region: \"zone_3\"\tRelError: 2.11692e-05\tAbsError: 8.08391e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33248e-07\tAbsError: 4.01619e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.22615e-07\tAbsError: 4.06772e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.09096e-05\tAbsError: 3.40780e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.78064e-09\tAbsError: 1.31434e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.16272e+04\tAbsError: 1.65651e+19\n", + " Region: \"zone_1\"\tRelError: 5.47132e+03\tAbsError: 9.39932e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.47132e+03\tAbsError: 9.39932e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.14944e-10\tAbsError: 7.50065e-08\n", + " Region: \"zone_3\"\tRelError: 6.15585e+03\tAbsError: 1.65651e+19\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.46920e+02\tAbsError: 6.83449e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.37613e+02\tAbsError: 9.73060e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 5.47132e+03\tAbsError: 9.39941e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.15031e-10\tAbsError: 7.50384e-08\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.29573e+02\tAbsError: 4.13765e+14\n", + " Region: \"zone_1\"\tRelError: 3.52781e-02\tAbsError: 1.30848e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.49807e-02\tAbsError: 2.76565e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.97391e-04\tAbsError: 1.03191e-01\n", + " Region: \"zone_3\"\tRelError: 1.29538e+02\tAbsError: 4.13765e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.29495e+02\tAbsError: 2.36393e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.96741e-03\tAbsError: 3.90126e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.44822e-02\tAbsError: 2.76571e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.97727e-04\tAbsError: 1.03308e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 6.68715e+03\tAbsError: 1.06709e+17\n", + " Region: \"zone_1\"\tRelError: 9.31135e+02\tAbsError: 3.18177e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 9.31134e+02\tAbsError: 2.58394e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.42262e-04\tAbsError: 2.92337e-01\n", + " Region: \"zone_3\"\tRelError: 5.75601e+03\tAbsError: 1.06709e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.85918e-01\tAbsError: 5.35954e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.04848e-01\tAbsError: 5.31133e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 5.75572e+03\tAbsError: 2.58980e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.45507e-04\tAbsError: 2.93463e-01\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.20617e-05\tAbsError: 6.32499e+09\n", + " Region: \"zone_1\"\tRelError: 1.19314e-05\tAbsError: 6.73382e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19294e-05\tAbsError: 3.90152e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93636e-09\tAbsError: 6.72992e-07\n", + " Region: \"zone_3\"\tRelError: 1.30317e-07\tAbsError: 6.32499e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.16766e-08\tAbsError: 3.13129e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.61351e-08\tAbsError: 3.19370e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00568e-07\tAbsError: 3.93788e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93725e-09\tAbsError: 6.73321e-07\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.26646e+01\tAbsError: 1.05374e+16\n", + " Region: \"zone_1\"\tRelError: 1.63183e+01\tAbsError: 9.50748e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.63156e+01\tAbsError: 9.16413e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.68897e-03\tAbsError: 9.41583e-01\n", + " Region: \"zone_3\"\tRelError: 1.63463e+01\tAbsError: 1.05374e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.31069e-02\tAbsError: 5.23674e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.49207e-02\tAbsError: 5.30063e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.63156e+01\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69706e-03\tAbsError: 9.44437e-01\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:27\u001b[0m.\u001b[1;36m531\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.9799999999999999\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 1.05780e+00\tAbsError: 3.05662e+14\n", + " Region: \"zone_1\"\tRelError: 2.67418e-02\tAbsError: 1.45754e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.63846e-02\tAbsError: 2.17874e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.57135e-04\tAbsError: 1.23966e-01\n", + " Region: \"zone_3\"\tRelError: 1.03105e+00\tAbsError: 3.05662e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.94911e-01\tAbsError: 1.68377e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.34032e-03\tAbsError: 2.88825e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.64454e-02\tAbsError: 2.17884e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.57674e-04\tAbsError: 1.24155e-01\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.41894e+03\tAbsError: 1.35937e+19\n", + " Region: \"zone_1\"\tRelError: 1.85742e+02\tAbsError: 6.38901e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.85724e+02\tAbsError: 9.13709e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83513e-02\tAbsError: 6.29764e+00\n", + " Region: \"zone_3\"\tRelError: 1.23320e+03\tAbsError: 1.35937e+19\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.01893e+01\tAbsError: 5.66687e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.02727e+03\tAbsError: 7.92686e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 1.85724e+02\tAbsError: 9.13711e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83531e-02\tAbsError: 6.29836e+00\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.21987e+03\tAbsError: 8.24482e+15\n", + " Region: \"zone_1\"\tRelError: 3.00138e+01\tAbsError: 4.30823e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.00126e+01\tAbsError: 1.06608e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20499e-03\tAbsError: 4.20162e-01\n", + " Region: \"zone_3\"\tRelError: 1.18986e+03\tAbsError: 8.24482e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.87149e-02\tAbsError: 4.14039e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.24213e-02\tAbsError: 4.10443e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18981e+03\tAbsError: 1.06615e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20811e-03\tAbsError: 4.21255e-01\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 6.32323e-01\tAbsError: 2.46877e+14\n", + " Region: \"zone_1\"\tRelError: 1.44271e-02\tAbsError: 2.19080e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37974e-02\tAbsError: 3.60850e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.29714e-04\tAbsError: 2.18720e-01\n", + " Region: \"zone_3\"\tRelError: 6.17896e-01\tAbsError: 2.46877e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.96130e-01\tAbsError: 2.65737e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.01118e-02\tAbsError: 2.20303e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02356e-03\tAbsError: 3.67196e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.30442e-04\tAbsError: 2.18971e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.58482e+00\tAbsError: 6.34667e+15\n", + " Region: \"zone_1\"\tRelError: 2.32125e+00\tAbsError: 4.26139e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.32004e+00\tAbsError: 1.24165e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.21533e-03\tAbsError: 4.26014e-01\n", + " Region: \"zone_3\"\tRelError: 7.26357e+00\tAbsError: 6.34667e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.94984e-03\tAbsError: 3.16660e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.69319e-03\tAbsError: 3.18007e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.25171e+00\tAbsError: 1.24217e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.21533e-03\tAbsError: 4.26014e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 6.42571e+03\tAbsError: 3.63018e+18\n", + " Region: \"zone_1\"\tRelError: 1.34190e+02\tAbsError: 5.02469e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.34176e+02\tAbsError: 8.85378e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41527e-02\tAbsError: 4.93615e+00\n", + " Region: \"zone_3\"\tRelError: 6.29152e+03\tAbsError: 3.63018e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.08475e+01\tAbsError: 1.83022e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.01410e+03\tAbsError: 1.79996e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 2.26563e+02\tAbsError: 8.85383e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41605e-02\tAbsError: 4.93901e+00\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.93301e+02\tAbsError: 1.31505e+18\n", + " Region: \"zone_1\"\tRelError: 1.95954e+02\tAbsError: 4.29335e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.95954e+02\tAbsError: 4.29335e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.68896e-11\tAbsError: 3.02084e-08\n", + " Region: \"zone_3\"\tRelError: 1.97347e+02\tAbsError: 1.31505e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.08391e-01\tAbsError: 6.47452e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.84050e-01\tAbsError: 6.67602e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.95954e+02\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.69341e-11\tAbsError: 3.02237e-08\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.32324e+01\tAbsError: 3.47658e+15\n", + " Region: \"zone_1\"\tRelError: 1.40157e+00\tAbsError: 6.21297e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39978e+00\tAbsError: 1.87854e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.78446e-03\tAbsError: 6.21109e-01\n", + " Region: \"zone_3\"\tRelError: 1.18308e+01\tAbsError: 3.47658e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.16646e-02\tAbsError: 1.57709e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.67921e-03\tAbsError: 1.89949e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18147e+01\tAbsError: 1.89642e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.78707e-03\tAbsError: 6.22021e-01\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 1.29115e-01\tAbsError: 1.32053e+14\n", + " Region: \"zone_1\"\tRelError: 2.82697e-02\tAbsError: 1.98958e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.82644e-02\tAbsError: 1.53505e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.28053e-06\tAbsError: 1.83608e-03\n", + " Region: \"zone_3\"\tRelError: 1.00845e-01\tAbsError: 1.32053e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.75059e-02\tAbsError: 3.65219e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.55584e-02\tAbsError: 9.55313e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.77759e-02\tAbsError: 1.54907e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.28053e-06\tAbsError: 1.83608e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 8.10109e-01\tAbsError: 2.49944e+15\n", + " Region: \"zone_1\"\tRelError: 2.73036e-01\tAbsError: 9.44224e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.73009e-01\tAbsError: 7.54274e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.67762e-05\tAbsError: 9.36682e-03\n", + " Region: \"zone_3\"\tRelError: 5.37074e-01\tAbsError: 2.49944e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.44605e-03\tAbsError: 1.22669e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.58618e-04\tAbsError: 1.27274e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.30942e-01\tAbsError: 7.59068e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.67897e-05\tAbsError: 9.37175e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.56234e+02\tAbsError: 3.86174e+18\n", + " Region: \"zone_1\"\tRelError: 9.84721e+01\tAbsError: 1.34442e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 9.84684e+01\tAbsError: 8.54615e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.62295e-03\tAbsError: 1.25896e+00\n", + " Region: \"zone_3\"\tRelError: 1.57762e+02\tAbsError: 3.86174e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.90968e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.54700e+01\tAbsError: 1.95206e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33289e+02\tAbsError: 8.54619e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.62534e-03\tAbsError: 1.25982e+00\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.56288e+04\tAbsError: 5.38567e+17\n", + " Region: \"zone_1\"\tRelError: 1.76987e+04\tAbsError: 1.13670e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.76987e+04\tAbsError: 3.30995e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.17394e-03\tAbsError: 1.10360e+00\n", + " Region: \"zone_3\"\tRelError: 7.93012e+03\tAbsError: 5.38567e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.56981e-01\tAbsError: 2.69605e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.34515e-01\tAbsError: 2.68963e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 7.92923e+03\tAbsError: 3.31000e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.17480e-03\tAbsError: 1.10385e+00\n", + "Iteration: 16\n", + " Device: \"device\"\tRelError: 8.88619e-03\tAbsError: 1.78189e+12\n", + " Region: \"zone_1\"\tRelError: 2.52826e-03\tAbsError: 8.16927e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.50475e-03\tAbsError: 1.59088e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.35150e-05\tAbsError: 8.16768e-03\n", + " Region: \"zone_3\"\tRelError: 6.35793e-03\tAbsError: 1.78189e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.21800e-04\tAbsError: 9.23827e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.70720e-04\tAbsError: 8.58065e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.24188e-03\tAbsError: 1.64521e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.35243e-05\tAbsError: 8.17101e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.69926e+01\tAbsError: 3.06470e+15\n", + " Region: \"zone_1\"\tRelError: 3.61874e+00\tAbsError: 3.80545e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.61863e+00\tAbsError: 1.78178e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08789e-04\tAbsError: 3.78763e-02\n", + " Region: \"zone_3\"\tRelError: 1.33739e+01\tAbsError: 3.06470e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.13423e-03\tAbsError: 1.52459e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.10898e-03\tAbsError: 1.54011e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33665e+01\tAbsError: 1.79720e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08834e-04\tAbsError: 3.78912e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.50361e-02\tAbsError: 6.78895e+13\n", + " Region: \"zone_1\"\tRelError: 2.37122e-02\tAbsError: 9.45855e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.36853e-02\tAbsError: 1.50946e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69242e-05\tAbsError: 9.45704e-03\n", + " Region: \"zone_3\"\tRelError: 5.13239e-02\tAbsError: 6.78895e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.92168e-04\tAbsError: 3.35710e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.54573e-05\tAbsError: 3.43185e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.10793e-02\tAbsError: 1.52419e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69352e-05\tAbsError: 9.46083e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 5.50347e+01\tAbsError: 5.37694e+17\n", + " Region: \"zone_1\"\tRelError: 3.46780e+01\tAbsError: 2.34127e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 3.46715e+01\tAbsError: 8.20994e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.49885e-03\tAbsError: 2.25917e+00\n", + " Region: \"zone_3\"\tRelError: 2.03567e+01\tAbsError: 5.37694e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.66469e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.48157e+00\tAbsError: 2.71225e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86864e+00\tAbsError: 8.20997e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.49885e-03\tAbsError: 2.25917e+00\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.05630e+03\tAbsError: 1.09979e+17\n", + " Region: \"zone_1\"\tRelError: 6.84710e+01\tAbsError: 1.43360e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 6.84670e+01\tAbsError: 2.58653e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.03563e-03\tAbsError: 1.40773e+00\n", + " Region: \"zone_3\"\tRelError: 9.87830e+02\tAbsError: 1.09979e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.53181e-01\tAbsError: 5.51560e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.23559e-02\tAbsError: 5.48228e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 9.87580e+02\tAbsError: 2.58990e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.03726e-03\tAbsError: 1.40831e+00\n", + "Iteration: 17\n", + " Device: \"device\"\tRelError: 1.06506e-02\tAbsError: 7.97564e+12\n", + " Region: \"zone_1\"\tRelError: 2.78167e-03\tAbsError: 6.19119e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.77991e-03\tAbsError: 6.29442e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.76249e-06\tAbsError: 6.12825e-04\n", + " Region: \"zone_3\"\tRelError: 7.86894e-03\tAbsError: 7.97564e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77812e-04\tAbsError: 3.49434e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.72807e-04\tAbsError: 4.48130e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 6.31656e-03\tAbsError: 6.35969e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.76291e-06\tAbsError: 6.12981e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.03191e-01\tAbsError: 2.72789e+14\n", + " Region: \"zone_1\"\tRelError: 2.06386e-01\tAbsError: 2.41437e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06317e-01\tAbsError: 1.26354e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.93158e-05\tAbsError: 2.41310e-02\n", + " Region: \"zone_3\"\tRelError: 4.96805e-01\tAbsError: 2.72789e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.84659e-04\tAbsError: 1.35879e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.50454e-04\tAbsError: 1.36910e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.95700e-01\tAbsError: 1.27340e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.93447e-05\tAbsError: 2.41410e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.59505e-02\tAbsError: 5.66225e+13\n", + " Region: \"zone_1\"\tRelError: 1.83279e-02\tAbsError: 3.54044e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.83269e-02\tAbsError: 2.54887e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00068e-06\tAbsError: 3.51495e-04\n", + " Region: \"zone_3\"\tRelError: 3.76225e-02\tAbsError: 5.66225e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.14084e-04\tAbsError: 2.81906e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.55711e-05\tAbsError: 2.84319e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.74519e-02\tAbsError: 2.56399e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00120e-06\tAbsError: 3.51676e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.54457e+01\tAbsError: 6.07481e+17\n", + " Region: \"zone_1\"\tRelError: 1.68554e+01\tAbsError: 9.24586e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.68529e+01\tAbsError: 7.90690e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.42851e-03\tAbsError: 8.45517e-01\n", + " Region: \"zone_3\"\tRelError: 1.85903e+01\tAbsError: 6.07481e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.48424e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.59058e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 5.87875e-01\tAbsError: 7.97171e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.42851e-03\tAbsError: 8.45517e-01\n", + "Iteration: 18\n", + " Device: \"device\"\tRelError: 1.29712e-03\tAbsError: 5.87386e+11\n", + " Region: \"zone_1\"\tRelError: 3.70662e-04\tAbsError: 5.19442e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.69169e-04\tAbsError: 4.49040e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.49266e-06\tAbsError: 5.18993e-04\n", + " Region: \"zone_3\"\tRelError: 9.26462e-04\tAbsError: 5.87386e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.02618e-05\tAbsError: 3.09222e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.99825e-05\tAbsError: 2.78164e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 8.04725e-04\tAbsError: 4.54374e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.49297e-06\tAbsError: 5.19109e-04\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.81032e+02\tAbsError: 1.06939e+16\n", + " Region: \"zone_1\"\tRelError: 3.59115e+01\tAbsError: 1.10074e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 3.59084e+01\tAbsError: 1.22645e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.13015e-03\tAbsError: 1.08847e+00\n", + " Region: \"zone_3\"\tRelError: 2.45121e+02\tAbsError: 1.06939e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.93839e-03\tAbsError: 5.35877e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.63056e-03\tAbsError: 5.33515e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.45104e+02\tAbsError: 1.22654e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.13222e-03\tAbsError: 1.08919e+00\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.03284e-01\tAbsError: 1.63576e+14\n", + " Region: \"zone_1\"\tRelError: 1.28869e-01\tAbsError: 2.63492e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28862e-01\tAbsError: 7.07903e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.56988e-06\tAbsError: 2.62784e-03\n", + " Region: \"zone_3\"\tRelError: 3.74414e-01\tAbsError: 1.63576e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.03440e-04\tAbsError: 8.14376e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.09112e-04\tAbsError: 8.21383e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.74094e-01\tAbsError: 7.13869e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.56988e-06\tAbsError: 2.62784e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 7.88395e-04\tAbsError: 2.50647e+12\n", + " Region: \"zone_1\"\tRelError: 2.67678e-04\tAbsError: 3.14356e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.66781e-04\tAbsError: 1.15072e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.96866e-07\tAbsError: 3.14241e-04\n", + " Region: \"zone_3\"\tRelError: 5.20717e-04\tAbsError: 2.50647e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.42005e-06\tAbsError: 1.25767e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.70094e-06\tAbsError: 1.24880e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.06699e-04\tAbsError: 1.15714e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.97159e-07\tAbsError: 3.14358e-04\n", + "Iteration: 19\n", + " Device: \"device\"\tRelError: 8.17397e-04\tAbsError: 5.15616e+11\n", + " Region: \"zone_1\"\tRelError: 2.21585e-04\tAbsError: 7.19865e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.21379e-04\tAbsError: 3.60966e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.05989e-07\tAbsError: 7.16255e-05\n", + " Region: \"zone_3\"\tRelError: 5.95812e-04\tAbsError: 5.15616e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.95401e-05\tAbsError: 2.69910e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.91786e-05\tAbsError: 2.45706e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.96887e-04\tAbsError: 3.64971e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.06048e-07\tAbsError: 7.16460e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.84121e+02\tAbsError: 1.44265e+17\n", + " Region: \"zone_1\"\tRelError: 5.71048e+00\tAbsError: 1.11506e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.70750e+00\tAbsError: 7.53891e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.97769e-03\tAbsError: 1.03967e+00\n", + " Region: \"zone_3\"\tRelError: 1.78411e+02\tAbsError: 1.44265e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.76628e+02\tAbsError: 8.85546e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.29644e+00\tAbsError: 5.57103e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 4.83668e-01\tAbsError: 7.54990e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.98423e-03\tAbsError: 1.04201e+00\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.53710e+00\tAbsError: 2.54910e+15\n", + " Region: \"zone_1\"\tRelError: 5.24107e+00\tAbsError: 6.37323e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.23924e+00\tAbsError: 8.89899e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.82814e-03\tAbsError: 6.37234e-01\n", + " Region: \"zone_3\"\tRelError: 1.29603e+00\tAbsError: 2.54910e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.24987e-03\tAbsError: 1.26463e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.60265e-03\tAbsError: 1.28447e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28435e+00\tAbsError: 8.97922e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.82881e-03\tAbsError: 6.37461e-01\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 5.72516e-02\tAbsError: 2.19421e+13\n", + " Region: \"zone_1\"\tRelError: 1.48305e-02\tAbsError: 1.17957e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.48271e-02\tAbsError: 8.22812e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.39557e-06\tAbsError: 1.17875e-03\n", + " Region: \"zone_3\"\tRelError: 4.24210e-02\tAbsError: 2.19421e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.59385e-05\tAbsError: 1.09315e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.17160e-05\tAbsError: 1.10106e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.23500e-02\tAbsError: 8.29477e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.39575e-06\tAbsError: 1.17875e-03\n", + "Iteration: 20\n", + " Device: \"device\"\tRelError: 1.38505e-04\tAbsError: 6.81064e+10\n", + " Region: \"zone_1\"\tRelError: 3.90974e-05\tAbsError: 3.71466e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.89907e-05\tAbsError: 4.75526e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06694e-07\tAbsError: 3.70991e-05\n", + " Region: \"zone_3\"\tRelError: 9.94077e-05\tAbsError: 6.81064e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.78802e-06\tAbsError: 3.83732e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.75686e-06\tAbsError: 2.97332e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 8.57561e-05\tAbsError: 4.81148e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.06725e-07\tAbsError: 3.71098e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 3.01493e-03\tAbsError: 2.03887e+12\n", + " Region: \"zone_1\"\tRelError: 9.68351e-04\tAbsError: 1.94584e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 9.68295e-04\tAbsError: 8.45891e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.51588e-08\tAbsError: 1.93738e-05\n", + " Region: \"zone_3\"\tRelError: 2.04658e-03\tAbsError: 2.03887e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.90840e-06\tAbsError: 1.01569e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.17272e-06\tAbsError: 1.02318e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03944e-03\tAbsError: 8.50612e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.51787e-08\tAbsError: 1.93808e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 6.75152e+01\tAbsError: 2.34147e+16\n", + " Region: \"zone_1\"\tRelError: 6.77463e+00\tAbsError: 1.30865e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 6.77107e+00\tAbsError: 7.09390e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.55708e-03\tAbsError: 1.23771e+00\n", + " Region: \"zone_3\"\tRelError: 6.07405e+01\tAbsError: 2.34147e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50402e+01\tAbsError: 1.47845e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.51639e+01\tAbsError: 8.63024e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.32943e-01\tAbsError: 7.10042e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.55708e-03\tAbsError: 1.23771e+00\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.35415e+01\tAbsError: 3.06408e+15\n", + " Region: \"zone_1\"\tRelError: 6.18020e-01\tAbsError: 1.25350e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.17985e-01\tAbsError: 1.70751e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.54599e-05\tAbsError: 1.23642e-02\n", + " Region: \"zone_3\"\tRelError: 1.29235e+01\tAbsError: 3.06408e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.52438e-03\tAbsError: 1.48406e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.62072e-03\tAbsError: 1.58001e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29163e+01\tAbsError: 1.72074e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.54833e-05\tAbsError: 1.23722e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.35289e-02\tAbsError: 9.60642e+12\n", + " Region: \"zone_1\"\tRelError: 6.04878e-03\tAbsError: 2.06342e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.04819e-03\tAbsError: 3.36274e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.92268e-07\tAbsError: 2.06006e-04\n", + " Region: \"zone_3\"\tRelError: 1.74801e-02\tAbsError: 9.60642e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.46802e-06\tAbsError: 4.78532e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.53648e-06\tAbsError: 4.82110e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74605e-02\tAbsError: 3.39077e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.92490e-07\tAbsError: 2.06084e-04\n", + "Iteration: 21\n", + " Device: \"device\"\tRelError: 6.21763e-05\tAbsError: 3.59047e+10\n", + " Region: \"zone_1\"\tRelError: 1.71124e-05\tAbsError: 6.88377e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.70927e-05\tAbsError: 2.38408e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.97286e-08\tAbsError: 6.85993e-06\n", + " Region: \"zone_3\"\tRelError: 4.50639e-05\tAbsError: 3.59047e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.45923e-06\tAbsError: 2.03147e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.43392e-06\tAbsError: 1.55900e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.81510e-05\tAbsError: 2.41148e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.97322e-08\tAbsError: 6.86120e-06\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.13878e-04\tAbsError: 1.24488e+11\n", + " Region: \"zone_1\"\tRelError: 6.77267e-05\tAbsError: 1.32659e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.76887e-05\tAbsError: 6.49775e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.79174e-08\tAbsError: 1.32594e-05\n", + " Region: \"zone_3\"\tRelError: 1.46151e-04\tAbsError: 1.24488e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.41336e-07\tAbsError: 6.10291e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.66825e-07\tAbsError: 6.34588e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.45305e-04\tAbsError: 6.53401e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.79209e-08\tAbsError: 1.32605e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:37\u001b[0m.\u001b[1;36m142\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:37\u001b[0m.\u001b[1;36m142\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.20454545454545453\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.21566e-01\tAbsError: 5.27559e+13\n", + " Region: \"zone_1\"\tRelError: 4.28919e-02\tAbsError: 2.15949e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.28300e-02\tAbsError: 5.21547e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.19265e-05\tAbsError: 2.15897e-02\n", + " Region: \"zone_3\"\tRelError: 3.78674e-01\tAbsError: 5.27559e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.23521e-04\tAbsError: 2.51687e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.13347e-04\tAbsError: 2.75872e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.77975e-01\tAbsError: 5.24851e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.19510e-05\tAbsError: 2.15981e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.97994e+03\tAbsError: 8.66817e+15\n", + " Region: \"zone_1\"\tRelError: 2.91022e+01\tAbsError: 2.56799e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.91016e+01\tAbsError: 6.59200e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.48255e-04\tAbsError: 1.90879e-01\n", + " Region: \"zone_3\"\tRelError: 1.95083e+03\tAbsError: 8.66817e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.96768e+01\tAbsError: 6.38297e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.91041e+03\tAbsError: 2.28521e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.45092e-01\tAbsError: 6.60324e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.48255e-04\tAbsError: 1.90879e-01\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.77929e-03\tAbsError: 1.66332e+12\n", + " Region: \"zone_1\"\tRelError: 9.67169e-04\tAbsError: 7.67803e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 9.66948e-04\tAbsError: 5.54707e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.20584e-07\tAbsError: 7.67248e-05\n", + " Region: \"zone_3\"\tRelError: 2.81212e-03\tAbsError: 1.66332e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.03133e-06\tAbsError: 8.28853e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.51523e-06\tAbsError: 8.34464e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.80736e-03\tAbsError: 5.60597e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.20667e-07\tAbsError: 7.67544e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.56196e-04\tAbsError: 8.22099e+10\n", + " Region: \"zone_1\"\tRelError: 4.96683e-05\tAbsError: 1.29947e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.96646e-05\tAbsError: 3.20602e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.70688e-09\tAbsError: 1.29627e-06\n", + " Region: \"zone_3\"\tRelError: 1.06527e-04\tAbsError: 8.22099e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.53254e-07\tAbsError: 4.09765e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.71613e-07\tAbsError: 4.12334e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06199e-04\tAbsError: 3.22381e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.70726e-09\tAbsError: 1.29639e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.63989e+00\tAbsError: 8.72797e+15\n", + " Region: \"zone_1\"\tRelError: 1.99354e+00\tAbsError: 4.18756e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.99354e+00\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.95179e-09\tAbsError: 2.76495e-06\n", + " Region: \"zone_3\"\tRelError: 1.64635e+00\tAbsError: 8.72797e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77333e-01\tAbsError: 4.88246e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.77262e-01\tAbsError: 3.84551e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.17559e-02\tAbsError: 4.18729e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.95320e-09\tAbsError: 2.76545e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.73598e-01\tAbsError: 1.28371e+14\n", + " Region: \"zone_1\"\tRelError: 4.88547e-02\tAbsError: 1.14618e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 4.88514e-02\tAbsError: 6.07608e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.27013e-06\tAbsError: 1.14010e-03\n", + " Region: \"zone_3\"\tRelError: 4.24743e-01\tAbsError: 1.28371e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05203e-04\tAbsError: 6.39050e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.33691e-05\tAbsError: 6.44661e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.24451e-01\tAbsError: 6.12305e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.27164e-06\tAbsError: 1.14062e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.40040e+02\tAbsError: 5.95948e+15\n", + " Region: \"zone_1\"\tRelError: 2.06907e+00\tAbsError: 2.31345e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.06858e+00\tAbsError: 6.01974e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.91826e-04\tAbsError: 1.71148e-01\n", + " Region: \"zone_3\"\tRelError: 4.37971e+02\tAbsError: 5.95948e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.55213e+01\tAbsError: 3.45726e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.72283e+02\tAbsError: 2.50222e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66656e-01\tAbsError: 6.02962e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.91826e-04\tAbsError: 1.71148e-01\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.29708e-03\tAbsError: 6.02455e+11\n", + " Region: \"zone_1\"\tRelError: 3.31625e-04\tAbsError: 1.60822e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.31578e-04\tAbsError: 1.96446e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.61796e-08\tAbsError: 1.60626e-05\n", + " Region: \"zone_3\"\tRelError: 9.65457e-04\tAbsError: 6.02455e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.18009e-07\tAbsError: 3.00196e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.30394e-07\tAbsError: 3.02259e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 9.64162e-04\tAbsError: 1.98596e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.61970e-08\tAbsError: 1.60691e-05\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.81376e-05\tAbsError: 8.11356e+09\n", + " Region: \"zone_1\"\tRelError: 5.70565e-06\tAbsError: 6.56313e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 5.70378e-06\tAbsError: 3.58334e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.87514e-09\tAbsError: 6.55955e-07\n", + " Region: \"zone_3\"\tRelError: 1.24320e-05\tAbsError: 8.11356e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.21600e-08\tAbsError: 4.01059e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.61223e-08\tAbsError: 4.10296e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.23818e-05\tAbsError: 3.60254e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.87583e-09\tAbsError: 6.56203e-07\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.53407e+00\tAbsError: 3.18169e+14\n", + " Region: \"zone_1\"\tRelError: 6.99964e-02\tAbsError: 9.36813e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.98185e-02\tAbsError: 3.18465e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77869e-04\tAbsError: 6.18348e-02\n", + " Region: \"zone_3\"\tRelError: 1.46407e+00\tAbsError: 3.18169e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.51841e-01\tAbsError: 1.64071e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.46818e-01\tAbsError: 1.54098e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.52372e-02\tAbsError: 3.18470e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.77869e-04\tAbsError: 6.18348e-02\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.63959e+02\tAbsError: 1.06048e+15\n", + " Region: \"zone_1\"\tRelError: 9.17504e-02\tAbsError: 8.49421e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.16600e-02\tAbsError: 5.35062e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.03724e-05\tAbsError: 3.14360e-02\n", + " Region: \"zone_3\"\tRelError: 1.63867e+02\tAbsError: 1.06048e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.53923e+01\tAbsError: 1.86773e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.83587e+01\tAbsError: 8.73706e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16150e-01\tAbsError: 5.36223e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.03724e-05\tAbsError: 3.14360e-02\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 2.54373e-04\tAbsError: 1.22168e+11\n", + " Region: \"zone_1\"\tRelError: 6.48326e-05\tAbsError: 5.25902e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 6.48175e-05\tAbsError: 4.28577e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.51072e-08\tAbsError: 5.25473e-06\n", + " Region: \"zone_3\"\tRelError: 1.89541e-04\tAbsError: 1.22168e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.24254e-07\tAbsError: 6.08856e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.87334e-07\tAbsError: 6.12822e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.89214e-04\tAbsError: 4.33147e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.51130e-08\tAbsError: 5.25689e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.70154e-02\tAbsError: 6.56308e+12\n", + " Region: \"zone_1\"\tRelError: 3.74108e-03\tAbsError: 9.10726e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.73847e-03\tAbsError: 3.93340e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.61130e-06\tAbsError: 9.10333e-04\n", + " Region: \"zone_3\"\tRelError: 3.32743e-02\tAbsError: 6.56308e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.73442e-05\tAbsError: 3.26782e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.61080e-05\tAbsError: 3.29526e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.32282e-02\tAbsError: 3.96200e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.61223e-06\tAbsError: 9.10648e-04\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.35968e+03\tAbsError: 8.04495e+14\n", + " Region: \"zone_1\"\tRelError: 1.05973e-01\tAbsError: 1.37456e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.05709e-01\tAbsError: 4.55960e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.64157e-04\tAbsError: 9.18597e-02\n", + " Region: \"zone_3\"\tRelError: 1.35957e+03\tAbsError: 8.04495e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12114e+03\tAbsError: 1.80902e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.38360e+02\tAbsError: 6.23593e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.02014e-02\tAbsError: 4.57362e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.64791e-04\tAbsError: 9.20824e-02\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 7.91529e-05\tAbsError: 3.93684e+10\n", + " Region: \"zone_1\"\tRelError: 2.01610e-05\tAbsError: 1.19278e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.01576e-05\tAbsError: 1.35948e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.42530e-09\tAbsError: 1.19142e-06\n", + " Region: \"zone_3\"\tRelError: 5.89918e-05\tAbsError: 3.93684e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.17561e-08\tAbsError: 1.96198e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.26426e-08\tAbsError: 1.97486e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.89040e-05\tAbsError: 1.37428e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.42670e-09\tAbsError: 1.19194e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:41\u001b[0m.\u001b[1;36m745\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: 1.045\u001b[0m \n", + "Iteration: 2\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + " Device: \"device\"\tRelError: 9.90613e-01\tAbsError: 3.91910e+13\n", + " Region: \"zone_1\"\tRelError: 5.00658e-02\tAbsError: 3.12049e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.00505e-02\tAbsError: 2.58893e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52900e-05\tAbsError: 5.31555e-03\n", + " Region: \"zone_3\"\tRelError: 9.40548e-01\tAbsError: 3.91910e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.61768e-01\tAbsError: 2.86987e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.28623e-01\tAbsError: 1.04923e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.01413e-02\tAbsError: 2.58992e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.52900e-05\tAbsError: 5.31555e-03\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.15775e-02\tAbsError: 6.52841e+12\n", + " Region: \"zone_1\"\tRelError: 3.74768e-03\tAbsError: 8.41878e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.74744e-03\tAbsError: 2.54753e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.41414e-07\tAbsError: 8.39331e-05\n", + " Region: \"zone_3\"\tRelError: 1.78298e-02\tAbsError: 6.52841e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.81966e-06\tAbsError: 3.25375e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.17497e-06\tAbsError: 3.27466e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.78136e-02\tAbsError: 2.56699e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.41425e-07\tAbsError: 8.39331e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:42\u001b[0m.\u001b[1;36m083\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 2.34511e+00\tAbsError: 5.09621e+14\n", + " Region: \"zone_1\"\tRelError: 5.20380e-02\tAbsError: 1.31206e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.17648e-02\tAbsError: 3.62022e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.73274e-04\tAbsError: 9.50040e-02\n", + " Region: \"zone_3\"\tRelError: 2.29307e+00\tAbsError: 5.09621e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98977e-01\tAbsError: 4.50759e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.24154e+00\tAbsError: 4.64545e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.22861e-02\tAbsError: 3.63670e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.74013e-04\tAbsError: 9.52636e-02\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.60801e-03\tAbsError: 6.28400e+11\n", + " Region: \"zone_1\"\tRelError: 4.80017e-04\tAbsError: 4.99622e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.79873e-04\tAbsError: 2.63411e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43739e-07\tAbsError: 4.99359e-05\n", + " Region: \"zone_3\"\tRelError: 2.12799e-03\tAbsError: 6.28400e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.51440e-06\tAbsError: 3.13250e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.43803e-06\tAbsError: 3.15151e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.12490e-03\tAbsError: 2.65357e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43764e-07\tAbsError: 4.99433e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.07403e-01\tAbsError: 3.15404e+12\n", + " Region: \"zone_1\"\tRelError: 1.75397e-02\tAbsError: 1.36790e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.75306e-02\tAbsError: 1.05213e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.08309e-06\tAbsError: 3.15769e-03\n", + " Region: \"zone_3\"\tRelError: 2.89863e-01\tAbsError: 3.15404e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.16679e-01\tAbsError: 1.94159e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.54178e-02\tAbsError: 1.21245e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77577e-02\tAbsError: 1.05213e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.08653e-06\tAbsError: 3.15894e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 8.34610e+03\tAbsError: 1.92933e+18\n", + " Region: \"zone_1\"\tRelError: 4.26264e+03\tAbsError: 4.19628e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.26264e+03\tAbsError: 4.19625e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.03425e-09\tAbsError: 3.59742e-07\n", + " Region: \"zone_3\"\tRelError: 4.08345e+03\tAbsError: 1.92933e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41966e-01\tAbsError: 9.61208e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.20078e-01\tAbsError: 9.68119e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 4.08219e+03\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.03467e-09\tAbsError: 3.59900e-07\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 3.52788e+03\tAbsError: 4.32630e+14\n", + " Region: \"zone_1\"\tRelError: 4.01861e-02\tAbsError: 1.26360e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.98969e-02\tAbsError: 2.58372e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.89232e-04\tAbsError: 1.00523e-01\n", + " Region: \"zone_3\"\tRelError: 3.52784e+03\tAbsError: 4.32630e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.52743e+03\tAbsError: 2.30095e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.69800e-01\tAbsError: 4.09620e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.98969e-02\tAbsError: 2.58297e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.89995e-04\tAbsError: 1.00791e-01\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.13819e-03\tAbsError: 3.64637e+11\n", + " Region: \"zone_1\"\tRelError: 2.54157e-04\tAbsError: 7.12832e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.54137e-04\tAbsError: 1.24280e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.04405e-08\tAbsError: 7.11590e-06\n", + " Region: \"zone_3\"\tRelError: 8.84029e-04\tAbsError: 3.64637e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.46080e-07\tAbsError: 1.81784e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.16766e-07\tAbsError: 1.82853e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 8.83046e-04\tAbsError: 1.25227e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.04481e-08\tAbsError: 7.11864e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.87045e-02\tAbsError: 2.59902e+12\n", + " Region: \"zone_1\"\tRelError: 9.55560e-04\tAbsError: 2.51710e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 9.48317e-04\tAbsError: 1.56340e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.24331e-06\tAbsError: 2.51554e-03\n", + " Region: \"zone_3\"\tRelError: 6.77490e-02\tAbsError: 2.59902e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.52595e-02\tAbsError: 1.62510e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.16575e-04\tAbsError: 9.73920e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.36568e-03\tAbsError: 1.63021e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.24331e-06\tAbsError: 2.51554e-03\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 1.05564e+00\tAbsError: 3.23529e+14\n", + " Region: \"zone_1\"\tRelError: 2.30958e-02\tAbsError: 1.15810e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.28120e-02\tAbsError: 1.72033e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.83799e-04\tAbsError: 9.86067e-02\n", + " Region: \"zone_3\"\tRelError: 1.03254e+00\tAbsError: 3.23529e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99080e-01\tAbsError: 2.28336e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.47263e-03\tAbsError: 3.00696e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.37034e-02\tAbsError: 1.75137e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.84528e-04\tAbsError: 9.88623e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.65476e+02\tAbsError: 5.59439e+17\n", + " Region: \"zone_1\"\tRelError: 2.09387e+02\tAbsError: 1.61986e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 2.09383e+02\tAbsError: 3.19517e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.55078e-03\tAbsError: 1.58791e+00\n", + " Region: \"zone_3\"\tRelError: 5.60883e+01\tAbsError: 5.59439e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.38234e-01\tAbsError: 2.80542e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.36773e-01\tAbsError: 2.78897e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 5.54088e+01\tAbsError: 3.19525e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.55115e-03\tAbsError: 1.58798e+00\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.81704e-04\tAbsError: 5.07534e+10\n", + " Region: \"zone_1\"\tRelError: 4.22123e-05\tAbsError: 3.15701e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.22032e-05\tAbsError: 1.92390e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.06297e-09\tAbsError: 3.15509e-06\n", + " Region: \"zone_3\"\tRelError: 1.39492e-04\tAbsError: 5.07534e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.09178e-08\tAbsError: 2.53054e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.11487e-07\tAbsError: 2.54481e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39280e-04\tAbsError: 1.94322e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.06645e-09\tAbsError: 3.15634e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 9.67688e-04\tAbsError: 1.23705e+12\n", + " Region: \"zone_1\"\tRelError: 1.68013e-04\tAbsError: 1.19594e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.67674e-04\tAbsError: 1.77521e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.38451e-07\tAbsError: 1.17819e-04\n", + " Region: \"zone_3\"\tRelError: 7.99675e-04\tAbsError: 1.23705e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.54849e-04\tAbsError: 3.36529e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.54324e-04\tAbsError: 9.00523e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.90164e-04\tAbsError: 1.77541e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.38603e-07\tAbsError: 1.17875e-04\n", + "Iteration: 15\n", + " Device: \"device\"\tRelError: 3.12813e-01\tAbsError: 1.66549e+14\n", + " Region: \"zone_1\"\tRelError: 4.25373e-03\tAbsError: 1.24404e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 3.89579e-03\tAbsError: 8.19650e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.57939e-04\tAbsError: 1.24322e-01\n", + " Region: \"zone_3\"\tRelError: 3.08559e-01\tAbsError: 1.66549e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.97543e-01\tAbsError: 2.07326e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.99228e-03\tAbsError: 1.45816e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.66473e-03\tAbsError: 8.31001e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.58829e-04\tAbsError: 1.24634e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.87295e+01\tAbsError: 5.78845e+16\n", + " Region: \"zone_1\"\tRelError: 1.56484e+00\tAbsError: 2.87198e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55673e+00\tAbsError: 2.57917e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.10568e-03\tAbsError: 2.84619e+00\n", + " Region: \"zone_3\"\tRelError: 1.71646e+01\tAbsError: 5.78845e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.63325e-02\tAbsError: 2.90346e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.16626e-02\tAbsError: 2.88498e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.70185e+01\tAbsError: 2.58445e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.13005e-03\tAbsError: 2.85483e+00\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 6.62313e-05\tAbsError: 2.17613e+10\n", + " Region: \"zone_1\"\tRelError: 1.67469e-05\tAbsError: 5.67281e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.67453e-05\tAbsError: 7.83574e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62726e-09\tAbsError: 5.66497e-07\n", + " Region: \"zone_3\"\tRelError: 4.94844e-05\tAbsError: 2.17613e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.55855e-08\tAbsError: 1.08504e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.54124e-08\tAbsError: 1.09109e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.94217e-05\tAbsError: 7.91795e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.62789e-09\tAbsError: 5.66732e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:46\u001b[0m.\u001b[1;36m247\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 1.0899999999999999\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 16\n", + " Device: \"device\"\tRelError: 7.10114e-02\tAbsError: 5.29987e+13\n", + " Region: \"zone_1\"\tRelError: 1.65212e-02\tAbsError: 3.86093e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65102e-02\tAbsError: 6.43187e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.09308e-05\tAbsError: 3.79661e-03\n", + " Region: \"zone_3\"\tRelError: 5.44903e-02\tAbsError: 5.29987e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.03260e-03\tAbsError: 2.14256e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.99838e-03\tAbsError: 3.15731e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.84483e-02\tAbsError: 6.48297e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.09464e-05\tAbsError: 3.80212e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.40125e-04\tAbsError: 9.72535e+10\n", + " Region: \"zone_1\"\tRelError: 3.49219e-05\tAbsError: 7.34639e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.47105e-05\tAbsError: 5.62705e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.11358e-07\tAbsError: 7.34076e-05\n", + " Region: \"zone_3\"\tRelError: 1.05203e-04\tAbsError: 9.72535e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.48707e-06\tAbsError: 7.09164e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.41428e-06\tAbsError: 2.63371e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 9.00902e-05\tAbsError: 5.91937e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.11437e-07\tAbsError: 7.34332e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.00400e+01\tAbsError: 1.94504e+16\n", + " Region: \"zone_1\"\tRelError: 5.83181e+00\tAbsError: 1.79058e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.82672e+00\tAbsError: 1.06604e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.09493e-03\tAbsError: 1.77992e+00\n", + " Region: \"zone_3\"\tRelError: 4.20814e+00\tAbsError: 1.94504e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.31217e-02\tAbsError: 9.68151e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.63990e-02\tAbsError: 9.76891e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 4.16350e+00\tAbsError: 1.06615e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.12059e-03\tAbsError: 1.78891e+00\n", + "Iteration: 17\n", + " Device: \"device\"\tRelError: 5.34056e-03\tAbsError: 2.07454e+12\n", + " Region: \"zone_1\"\tRelError: 1.49812e-03\tAbsError: 3.37903e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.48841e-03\tAbsError: 2.66958e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.71068e-06\tAbsError: 3.37636e-03\n", + " Region: \"zone_3\"\tRelError: 3.84243e-03\tAbsError: 2.07454e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.06191e-04\tAbsError: 8.27083e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.14714e-04\tAbsError: 1.24746e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.21181e-03\tAbsError: 2.69702e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.71398e-06\tAbsError: 3.37760e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.15381e+03\tAbsError: 2.37220e+18\n", + " Region: \"zone_1\"\tRelError: 6.51804e+02\tAbsError: 4.29334e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.51804e+02\tAbsError: 4.29332e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.86751e-10\tAbsError: 2.04266e-07\n", + " Region: \"zone_3\"\tRelError: 5.02007e+02\tAbsError: 2.37220e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.18418e-01\tAbsError: 1.18342e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.02784e-01\tAbsError: 1.18878e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 5.00786e+02\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.86983e-10\tAbsError: 2.04352e-07\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 7.56709e-05\tAbsError: 6.77210e+10\n", + " Region: \"zone_1\"\tRelError: 1.76311e-05\tAbsError: 3.41657e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.76214e-05\tAbsError: 5.90161e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.64471e-09\tAbsError: 3.35756e-06\n", + " Region: \"zone_3\"\tRelError: 5.80398e-05\tAbsError: 6.77210e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.05802e-06\tAbsError: 2.73831e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.00749e-06\tAbsError: 4.03378e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.59647e-05\tAbsError: 5.91576e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.64956e-09\tAbsError: 3.35932e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:48\u001b[0m.\u001b[1;36m289\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:48\u001b[0m.\u001b[1;36m289\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.3090909090909091\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 5.29647e+00\tAbsError: 1.75873e+16\n", + " Region: \"zone_1\"\tRelError: 2.79182e+00\tAbsError: 1.48863e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78757e+00\tAbsError: 1.73604e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.25501e-03\tAbsError: 1.48846e+00\n", + " Region: \"zone_3\"\tRelError: 2.50465e+00\tAbsError: 1.75873e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.28043e-02\tAbsError: 8.38773e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.83546e-03\tAbsError: 9.19953e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.47175e+00\tAbsError: 1.74563e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.25799e-03\tAbsError: 1.48951e+00\n", + "Iteration: 18\n", + " Device: \"device\"\tRelError: 5.03612e-03\tAbsError: 2.83265e+12\n", + " Region: \"zone_1\"\tRelError: 1.36798e-03\tAbsError: 3.45924e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.36699e-03\tAbsError: 1.97871e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.89159e-07\tAbsError: 3.43945e-04\n", + " Region: \"zone_3\"\tRelError: 3.66814e-03\tAbsError: 2.83265e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.03983e-04\tAbsError: 1.71027e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.01328e-04\tAbsError: 1.12238e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.06184e-03\tAbsError: 2.00125e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.89570e-07\tAbsError: 3.44089e-04\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.27235e+02\tAbsError: 6.01131e+17\n", + " Region: \"zone_1\"\tRelError: 6.37236e+01\tAbsError: 2.15555e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 6.37175e+01\tAbsError: 3.30990e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.06216e-03\tAbsError: 2.12245e+00\n", + " Region: \"zone_3\"\tRelError: 6.35112e+01\tAbsError: 6.01131e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.07135e-01\tAbsError: 3.01236e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.10530e-01\tAbsError: 2.99895e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 6.28874e+01\tAbsError: 3.31000e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.06277e-03\tAbsError: 2.12266e+00\n", + "Iteration: 19\n", + " Device: \"device\"\tRelError: 6.84071e-04\tAbsError: 3.16352e+11\n", + " Region: \"zone_1\"\tRelError: 1.94288e-04\tAbsError: 2.17034e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.93664e-04\tAbsError: 2.29632e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.23513e-07\tAbsError: 2.16805e-04\n", + " Region: \"zone_3\"\tRelError: 4.89784e-04\tAbsError: 3.16352e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.26466e-05\tAbsError: 1.76971e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.25924e-05\tAbsError: 1.39381e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.23921e-04\tAbsError: 2.32333e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.23623e-07\tAbsError: 2.16843e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.83500e+02\tAbsError: 8.65566e+15\n", + " Region: \"zone_1\"\tRelError: 2.81843e+02\tAbsError: 4.18767e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.81843e+02\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10669e-08\tAbsError: 3.84725e-06\n", + " Region: \"zone_3\"\tRelError: 1.65782e+00\tAbsError: 8.65566e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77422e-01\tAbsError: 4.99578e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.77402e-01\tAbsError: 3.65988e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02995e-01\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10677e-08\tAbsError: 3.84759e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.16935e+01\tAbsError: 9.40991e+15\n", + " Region: \"zone_1\"\tRelError: 5.40803e-01\tAbsError: 5.56761e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.40645e-01\tAbsError: 3.86146e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.58024e-04\tAbsError: 5.52900e-02\n", + " Region: \"zone_3\"\tRelError: 1.11527e+01\tAbsError: 9.40991e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.54329e-02\tAbsError: 4.59548e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.04663e-03\tAbsError: 4.81443e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11341e+01\tAbsError: 3.88837e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.58109e-04\tAbsError: 5.53189e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 4.46534e+01\tAbsError: 4.26935e+16\n", + " Region: \"zone_1\"\tRelError: 4.31929e+01\tAbsError: 3.34889e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 4.31834e+01\tAbsError: 2.58895e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.42928e-03\tAbsError: 3.32300e+00\n", + " Region: \"zone_3\"\tRelError: 1.46059e+00\tAbsError: 4.26935e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.12272e-02\tAbsError: 2.14191e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.32369e-02\tAbsError: 2.12744e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33669e+00\tAbsError: 2.58962e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.43739e-03\tAbsError: 3.32593e+00\n", + "Iteration: 20\n", + " Device: \"device\"\tRelError: 3.63414e-04\tAbsError: 2.02249e+11\n", + " Region: \"zone_1\"\tRelError: 1.00386e-04\tAbsError: 3.49527e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00286e-04\tAbsError: 1.28886e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00150e-07\tAbsError: 3.48238e-05\n", + " Region: \"zone_3\"\tRelError: 2.63028e-04\tAbsError: 2.02249e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.97081e-05\tAbsError: 1.21339e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.95483e-05\tAbsError: 8.09100e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.23671e-04\tAbsError: 1.30395e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00167e-07\tAbsError: 3.48297e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.48557e+00\tAbsError: 3.20270e+14\n", + " Region: \"zone_1\"\tRelError: 3.05154e-02\tAbsError: 4.95864e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.03737e-02\tAbsError: 1.84386e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41696e-04\tAbsError: 4.95679e-02\n", + " Region: \"zone_3\"\tRelError: 1.45505e+00\tAbsError: 3.20270e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.47383e-03\tAbsError: 1.55510e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.13814e-04\tAbsError: 1.64760e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.45293e+00\tAbsError: 1.85478e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41753e-04\tAbsError: 4.95877e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.21069e+00\tAbsError: 3.14375e+14\n", + " Region: \"zone_1\"\tRelError: 7.32124e-01\tAbsError: 8.88279e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.31960e-01\tAbsError: 3.18465e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.63935e-04\tAbsError: 5.69815e-02\n", + " Region: \"zone_3\"\tRelError: 1.47857e+00\tAbsError: 3.14375e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.52488e-01\tAbsError: 1.95459e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.46660e-01\tAbsError: 1.18916e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.92560e-02\tAbsError: 3.18469e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.63935e-04\tAbsError: 5.69815e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 6.06957e+01\tAbsError: 2.39287e+16\n", + " Region: \"zone_1\"\tRelError: 2.18674e+01\tAbsError: 2.38118e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 2.18606e+01\tAbsError: 1.22639e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.76748e-03\tAbsError: 2.36892e+00\n", + " Region: \"zone_3\"\tRelError: 3.88283e+01\tAbsError: 2.39287e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.22362e-02\tAbsError: 1.20542e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.10394e-02\tAbsError: 1.18745e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.87582e+01\tAbsError: 1.22654e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.77515e-03\tAbsError: 2.37164e+00\n", + "Iteration: 21\n", + " Device: \"device\"\tRelError: 6.67627e-05\tAbsError: 3.26147e+10\n", + " Region: \"zone_1\"\tRelError: 1.88501e-05\tAbsError: 1.56670e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88051e-05\tAbsError: 2.18141e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.49944e-08\tAbsError: 1.56452e-05\n", + " Region: \"zone_3\"\tRelError: 4.79126e-05\tAbsError: 3.26147e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.23517e-06\tAbsError: 1.91761e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.22128e-06\tAbsError: 1.34386e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.14111e-05\tAbsError: 2.20748e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.49994e-08\tAbsError: 1.56470e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:52\u001b[0m.\u001b[1;36m013\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.2\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.02209e+00\tAbsError: 4.33246e+13\n", + " Region: \"zone_1\"\tRelError: 6.28792e-02\tAbsError: 3.21867e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.28610e-02\tAbsError: 2.58707e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.81707e-05\tAbsError: 6.31601e-03\n", + " Region: \"zone_3\"\tRelError: 9.59212e-01\tAbsError: 4.33246e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.62006e-01\tAbsError: 3.08852e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.33712e-01\tAbsError: 1.24394e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 6.34763e-02\tAbsError: 2.58963e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.81707e-05\tAbsError: 6.31601e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 7.70029e-01\tAbsError: 2.97081e+14\n", + " Region: \"zone_1\"\tRelError: 4.96016e-02\tAbsError: 3.55497e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 4.95915e-02\tAbsError: 1.36673e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.01232e-05\tAbsError: 3.54131e-03\n", + " Region: \"zone_3\"\tRelError: 7.20428e-01\tAbsError: 2.97081e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.85363e-04\tAbsError: 1.47966e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.28655e-04\tAbsError: 1.49115e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.19504e-01\tAbsError: 1.37577e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.01271e-05\tAbsError: 3.54267e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.78067e+01\tAbsError: 2.47144e+16\n", + " Region: \"zone_1\"\tRelError: 1.44384e+01\tAbsError: 1.28516e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.44348e+01\tAbsError: 2.79036e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.66119e-03\tAbsError: 1.28488e+00\n", + " Region: \"zone_3\"\tRelError: 3.36829e+00\tAbsError: 2.47144e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.53457e-02\tAbsError: 1.23209e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.28668e-02\tAbsError: 1.23934e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.33641e+00\tAbsError: 2.81211e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.66490e-03\tAbsError: 1.28619e+00\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.71665e+00\tAbsError: 8.34849e+15\n", + " Region: \"zone_1\"\tRelError: 2.08783e+00\tAbsError: 4.09574e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.08783e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.12481e-09\tAbsError: 3.17283e-06\n", + " Region: \"zone_3\"\tRelError: 1.62882e+00\tAbsError: 8.34849e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69544e-01\tAbsError: 4.67018e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69471e-01\tAbsError: 3.67831e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.98080e-02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.12585e-09\tAbsError: 3.17320e-06\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.18153e-01\tAbsError: 7.69318e+12\n", + " Region: \"zone_1\"\tRelError: 2.19507e-02\tAbsError: 1.30281e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.19435e-02\tAbsError: 1.05212e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.21201e-06\tAbsError: 2.50690e-03\n", + " Region: \"zone_3\"\tRelError: 2.96202e-01\tAbsError: 7.69318e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.16081e-01\tAbsError: 3.71910e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.79572e-02\tAbsError: 3.97407e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.21572e-02\tAbsError: 1.05213e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.21469e-06\tAbsError: 2.50784e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 9.06918e-02\tAbsError: 2.13818e+13\n", + " Region: \"zone_1\"\tRelError: 5.41321e-03\tAbsError: 2.02187e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.40742e-03\tAbsError: 1.13615e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.79189e-06\tAbsError: 2.02073e-03\n", + " Region: \"zone_3\"\tRelError: 8.52786e-02\tAbsError: 2.13818e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.50647e-05\tAbsError: 1.06492e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.41669e-05\tAbsError: 1.07325e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.51436e-02\tAbsError: 1.14349e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.79312e-06\tAbsError: 2.02124e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.32287e+00\tAbsError: 9.07118e+15\n", + " Region: \"zone_1\"\tRelError: 1.41239e+00\tAbsError: 4.08445e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.41227e+00\tAbsError: 3.17019e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.15460e-04\tAbsError: 4.05275e-02\n", + " Region: \"zone_3\"\tRelError: 4.91049e+00\tAbsError: 9.07118e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.35706e-02\tAbsError: 4.44589e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.94902e-03\tAbsError: 4.62529e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 4.89385e+00\tAbsError: 3.18982e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.15534e-04\tAbsError: 4.05531e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.50135e+00\tAbsError: 2.91713e+14\n", + " Region: \"zone_1\"\tRelError: 6.56152e-02\tAbsError: 8.99319e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.54450e-02\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70197e-04\tAbsError: 5.91682e-02\n", + " Region: \"zone_3\"\tRelError: 1.43573e+00\tAbsError: 2.91713e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37692e-01\tAbsError: 1.49991e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32867e-01\tAbsError: 1.41722e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.50013e-02\tAbsError: 3.07641e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70197e-04\tAbsError: 5.91682e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.93773e-02\tAbsError: 2.16739e+12\n", + " Region: \"zone_1\"\tRelError: 1.94704e-03\tAbsError: 2.16033e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.94083e-03\tAbsError: 5.39856e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.20559e-06\tAbsError: 2.15493e-03\n", + " Region: \"zone_3\"\tRelError: 6.74303e-02\tAbsError: 2.16739e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.50959e-02\tAbsError: 1.50592e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.92088e-04\tAbsError: 6.61468e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03608e-03\tAbsError: 5.64194e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.20559e-06\tAbsError: 2.15493e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 5.23204e-02\tAbsError: 1.36111e+13\n", + " Region: \"zone_1\"\tRelError: 3.25743e-03\tAbsError: 2.33620e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.25676e-03\tAbsError: 5.48360e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.68920e-07\tAbsError: 2.33072e-04\n", + " Region: \"zone_3\"\tRelError: 4.90630e-02\tAbsError: 1.36111e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.46005e-05\tAbsError: 6.78353e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.23853e-05\tAbsError: 6.82756e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.90154e-02\tAbsError: 5.51914e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.68941e-07\tAbsError: 2.33078e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.37835e-02\tAbsError: 3.06207e+14\n", + " Region: \"zone_1\"\tRelError: 1.75914e-02\tAbsError: 3.79806e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74832e-02\tAbsError: 1.26171e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08186e-04\tAbsError: 3.79680e-02\n", + " Region: \"zone_3\"\tRelError: 4.61921e-02\tAbsError: 3.06207e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.09564e-03\tAbsError: 1.49901e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.92419e-04\tAbsError: 1.56306e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.47958e-02\tAbsError: 1.26817e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08228e-04\tAbsError: 3.79829e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 9.34092e-01\tAbsError: 3.63180e+13\n", + " Region: \"zone_1\"\tRelError: 4.74089e-02\tAbsError: 3.08418e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.73947e-02\tAbsError: 2.58899e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42440e-05\tAbsError: 4.95193e-03\n", + " Region: \"zone_3\"\tRelError: 8.86683e-01\tAbsError: 3.63180e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40041e-01\tAbsError: 2.66182e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.98904e-01\tAbsError: 9.69984e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 4.77236e-02\tAbsError: 2.58388e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42440e-05\tAbsError: 4.95193e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 7.80215e-03\tAbsError: 1.53595e+12\n", + " Region: \"zone_1\"\tRelError: 4.80636e-04\tAbsError: 1.08236e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.80325e-04\tAbsError: 6.67270e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.10441e-07\tAbsError: 1.08169e-04\n", + " Region: \"zone_3\"\tRelError: 7.32151e-03\tAbsError: 1.53595e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.01724e-06\tAbsError: 7.65591e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.19179e-06\tAbsError: 7.70356e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 7.31299e-03\tAbsError: 6.71457e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.10496e-07\tAbsError: 1.08189e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.14583e-03\tAbsError: 1.06368e+12\n", + " Region: \"zone_1\"\tRelError: 4.77108e-04\tAbsError: 9.99144e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.76825e-04\tAbsError: 1.58343e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.82488e-07\tAbsError: 9.83309e-05\n", + " Region: \"zone_3\"\tRelError: 6.68723e-04\tAbsError: 1.06368e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.24784e-04\tAbsError: 2.85656e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.19154e-04\tAbsError: 7.78029e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.24501e-04\tAbsError: 1.59076e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.82620e-07\tAbsError: 9.83784e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 6.91540e-01\tAbsError: 2.30901e+14\n", + " Region: \"zone_1\"\tRelError: 9.68543e-02\tAbsError: 2.30691e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 9.68477e-02\tAbsError: 1.04073e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.54344e-06\tAbsError: 2.29650e-03\n", + " Region: \"zone_3\"\tRelError: 5.94685e-01\tAbsError: 2.30901e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73544e-04\tAbsError: 1.14971e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.60432e-04\tAbsError: 1.15930e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 5.93945e-01\tAbsError: 1.04696e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.54610e-06\tAbsError: 2.29743e-03\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 3.24839e-03\tAbsError: 6.94914e+11\n", + " Region: \"zone_1\"\tRelError: 2.00839e-04\tAbsError: 1.73175e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.00789e-04\tAbsError: 2.61827e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.95620e-08\tAbsError: 1.72913e-05\n", + " Region: \"zone_3\"\tRelError: 3.04755e-03\tAbsError: 6.94914e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.19854e-06\tAbsError: 3.46484e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.41935e-06\tAbsError: 3.48429e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.04488e-03\tAbsError: 2.64294e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.95807e-08\tAbsError: 1.72981e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.84661e-01\tAbsError: 3.60691e+12\n", + " Region: \"zone_1\"\tRelError: 1.51217e-02\tAbsError: 1.24488e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51123e-02\tAbsError: 9.16566e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.44392e-06\tAbsError: 3.28315e-03\n", + " Region: \"zone_3\"\tRelError: 2.69539e-01\tAbsError: 3.60691e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12296e-01\tAbsError: 2.19870e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.19182e-02\tAbsError: 1.40820e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.53153e-02\tAbsError: 9.16570e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.44392e-06\tAbsError: 3.28315e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.01321e-04\tAbsError: 7.94947e+10\n", + " Region: \"zone_1\"\tRelError: 1.53281e-05\tAbsError: 6.36624e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.51449e-05\tAbsError: 4.80125e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83179e-07\tAbsError: 6.36144e-05\n", + " Region: \"zone_3\"\tRelError: 8.59926e-05\tAbsError: 7.94947e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.36957e-06\tAbsError: 5.94263e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.23031e-06\tAbsError: 2.00684e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.52095e-05\tAbsError: 5.01215e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83260e-07\tAbsError: 6.36408e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 4.26812e-02\tAbsError: 1.20947e+13\n", + " Region: \"zone_1\"\tRelError: 6.40537e-03\tAbsError: 1.38235e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.40142e-03\tAbsError: 7.35377e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.94662e-06\tAbsError: 1.38161e-03\n", + " Region: \"zone_3\"\tRelError: 3.62758e-02\tAbsError: 1.20947e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.08131e-05\tAbsError: 6.01724e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.02534e-05\tAbsError: 6.07742e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.61908e-02\tAbsError: 7.39578e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.94693e-06\tAbsError: 1.38178e-03\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 5.79766e-04\tAbsError: 1.04851e+11\n", + " Region: \"zone_1\"\tRelError: 3.57298e-05\tAbsError: 6.44419e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.57113e-05\tAbsError: 4.57262e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84578e-08\tAbsError: 6.43961e-06\n", + " Region: \"zone_3\"\tRelError: 5.44036e-04\tAbsError: 1.04851e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.31216e-07\tAbsError: 5.22891e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.92773e-07\tAbsError: 5.25616e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.43493e-04\tAbsError: 4.61453e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84647e-08\tAbsError: 6.44213e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.15194e-02\tAbsError: 3.32539e+12\n", + " Region: \"zone_1\"\tRelError: 1.39866e-03\tAbsError: 2.06500e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39275e-03\tAbsError: 1.45908e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.90398e-06\tAbsError: 2.05041e-03\n", + " Region: \"zone_3\"\tRelError: 6.01208e-02\tAbsError: 3.32539e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.70408e-02\tAbsError: 2.05877e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.81898e-04\tAbsError: 1.26662e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49218e-03\tAbsError: 1.52369e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.90398e-06\tAbsError: 2.05041e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.79799e-05\tAbsError: 5.88284e+10\n", + " Region: \"zone_1\"\tRelError: 8.12709e-06\tAbsError: 2.69739e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 8.11950e-06\tAbsError: 5.30618e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.59657e-09\tAbsError: 2.64433e-06\n", + " Region: \"zone_3\"\tRelError: 4.98528e-05\tAbsError: 5.88284e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.66980e-06\tAbsError: 2.37822e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.62891e-06\tAbsError: 3.50462e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.05465e-05\tAbsError: 5.31420e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.60077e-09\tAbsError: 2.64586e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:58\u001b[0m.\u001b[1;36m982\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:58\u001b[0m.\u001b[1;36m982\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.4136363636363636\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 3.80030e-02\tAbsError: 9.01767e+12\n", + " Region: \"zone_1\"\tRelError: 5.48386e-03\tAbsError: 1.27682e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.48349e-03\tAbsError: 3.71300e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.63667e-07\tAbsError: 1.27311e-04\n", + " Region: \"zone_3\"\tRelError: 3.25191e-02\tAbsError: 9.01767e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.75047e-05\tAbsError: 4.49288e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.54817e-05\tAbsError: 4.52478e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.24858e-02\tAbsError: 3.73422e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.63688e-07\tAbsError: 1.27324e-04\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 1.98524e-04\tAbsError: 3.83891e+10\n", + " Region: \"zone_1\"\tRelError: 1.22506e-05\tAbsError: 1.22488e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.22471e-05\tAbsError: 1.59287e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.50629e-09\tAbsError: 1.22328e-06\n", + " Region: \"zone_3\"\tRelError: 1.86273e-04\tAbsError: 3.83891e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.51745e-08\tAbsError: 1.91479e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.84174e-08\tAbsError: 1.92412e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86116e-04\tAbsError: 1.60789e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.50766e-09\tAbsError: 1.22379e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.41584e-04\tAbsError: 9.91747e+11\n", + " Region: \"zone_1\"\tRelError: 9.96217e-05\tAbsError: 1.41225e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.92201e-05\tAbsError: 1.43599e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.01567e-07\tAbsError: 1.39789e-04\n", + " Region: \"zone_3\"\tRelError: 5.41962e-04\tAbsError: 9.91747e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33850e-04\tAbsError: 2.52742e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.19510e-04\tAbsError: 7.39006e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88200e-04\tAbsError: 1.43643e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.01722e-07\tAbsError: 1.39845e-04\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 4.19075e-03\tAbsError: 7.89543e+11\n", + " Region: \"zone_1\"\tRelError: 6.21903e-04\tAbsError: 6.47135e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.21718e-04\tAbsError: 3.87952e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.85083e-07\tAbsError: 6.46747e-05\n", + " Region: \"zone_3\"\tRelError: 3.56885e-03\tAbsError: 7.89543e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.42620e-06\tAbsError: 3.93310e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.36465e-06\tAbsError: 3.96233e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.56387e-03\tAbsError: 3.90104e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.85135e-07\tAbsError: 6.46926e-05\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 3.99229e-05\tAbsError: 6.97672e+09\n", + " Region: \"zone_1\"\tRelError: 2.45928e-06\tAbsError: 3.92297e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.45815e-06\tAbsError: 3.16056e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12353e-09\tAbsError: 3.91981e-07\n", + " Region: \"zone_3\"\tRelError: 3.74636e-05\tAbsError: 6.97672e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.39643e-08\tAbsError: 3.48049e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.94984e-08\tAbsError: 3.49623e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 3.74291e-05\tAbsError: 3.18973e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12398e-09\tAbsError: 3.92148e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:00\u001b[0m.\u001b[1;36m481\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: 1.15\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.61224e+00\tAbsError: 8.62836e+15\n", + " Region: \"zone_1\"\tRelError: 5.94427e+00\tAbsError: 4.18762e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.94427e+00\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.66010e-09\tAbsError: 3.35766e-06\n", + " Region: \"zone_3\"\tRelError: 1.66797e+00\tAbsError: 8.62836e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77445e-01\tAbsError: 5.08925e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.77421e-01\tAbsError: 3.53911e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13100e-01\tAbsError: 4.18729e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.66084e-09\tAbsError: 3.35797e-06\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 2.04888e-03\tAbsError: 3.95899e+11\n", + " Region: \"zone_1\"\tRelError: 3.00068e-04\tAbsError: 8.61802e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.00043e-04\tAbsError: 1.55122e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.46182e-08\tAbsError: 8.60250e-06\n", + " Region: \"zone_3\"\tRelError: 1.74881e-03\tAbsError: 3.95899e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.45561e-07\tAbsError: 1.97350e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.77697e-07\tAbsError: 1.98549e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74716e-03\tAbsError: 1.56449e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.46222e-08\tAbsError: 8.60394e-06\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.93103e-04\tAbsError: 1.20962e+11\n", + " Region: \"zone_1\"\tRelError: 5.19828e-05\tAbsError: 5.49714e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.18247e-05\tAbsError: 7.13700e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.58070e-07\tAbsError: 5.49001e-05\n", + " Region: \"zone_3\"\tRelError: 1.41120e-04\tAbsError: 1.20962e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98328e-06\tAbsError: 8.30775e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.89243e-06\tAbsError: 3.78845e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21087e-04\tAbsError: 7.51147e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.58070e-07\tAbsError: 5.49001e-05\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.60249e+00\tAbsError: 3.96429e+14\n", + " Region: \"zone_1\"\tRelError: 1.07248e-01\tAbsError: 8.09693e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07107e-01\tAbsError: 3.18464e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41344e-04\tAbsError: 4.91228e-02\n", + " Region: \"zone_3\"\tRelError: 1.49524e+00\tAbsError: 3.96429e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.53329e-01\tAbsError: 2.70708e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.45859e-01\tAbsError: 1.25720e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.59117e-02\tAbsError: 3.18468e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41344e-04\tAbsError: 4.91228e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.83148e+01\tAbsError: 2.68702e+18\n", + " Region: \"zone_1\"\tRelError: 2.03151e+01\tAbsError: 4.19622e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03151e+01\tAbsError: 4.19622e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.35537e-10\tAbsError: 8.21757e-08\n", + " Region: \"zone_3\"\tRelError: 3.79998e+01\tAbsError: 2.68702e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.54751e-01\tAbsError: 1.34192e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.46027e-01\tAbsError: 1.34511e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 3.68990e+01\tAbsError: 4.19629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.35633e-10\tAbsError: 8.22106e-08\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 3.03214e-04\tAbsError: 4.92871e+10\n", + " Region: \"zone_1\"\tRelError: 4.51218e-05\tAbsError: 3.43658e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.51120e-05\tAbsError: 2.30653e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.82274e-09\tAbsError: 3.43427e-06\n", + " Region: \"zone_3\"\tRelError: 2.58092e-04\tAbsError: 4.92871e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.25663e-07\tAbsError: 2.45763e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.58064e-07\tAbsError: 2.47109e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.57799e-04\tAbsError: 2.32525e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.82653e-09\tAbsError: 3.43564e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.80784e-05\tAbsError: 4.88675e+10\n", + " Region: \"zone_1\"\tRelError: 1.14726e-05\tAbsError: 6.01777e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14554e-05\tAbsError: 4.42616e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71596e-08\tAbsError: 5.97350e-06\n", + " Region: \"zone_3\"\tRelError: 3.66059e-05\tAbsError: 4.88675e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.37889e-06\tAbsError: 1.78089e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.34156e-06\tAbsError: 3.10586e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.78682e-05\tAbsError: 4.43738e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71672e-08\tAbsError: 5.97630e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:02\u001b[0m.\u001b[1;36m635\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.3\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 1.11857e-04\tAbsError: 1.91944e+10\n", + " Region: \"zone_1\"\tRelError: 1.64982e-05\tAbsError: 5.77398e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.64966e-05\tAbsError: 8.51680e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.64906e-09\tAbsError: 5.76547e-07\n", + " Region: \"zone_3\"\tRelError: 9.53587e-05\tAbsError: 1.91944e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.58573e-08\tAbsError: 9.57503e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.95353e-08\tAbsError: 9.61942e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 9.52717e-05\tAbsError: 8.59043e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.64968e-09\tAbsError: 5.76776e-07\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.07043e+00\tAbsError: 1.31538e+14\n", + " Region: \"zone_1\"\tRelError: 8.24569e-02\tAbsError: 3.32321e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.24358e-02\tAbsError: 2.58877e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.11320e-05\tAbsError: 7.34439e-03\n", + " Region: \"zone_3\"\tRelError: 9.87970e-01\tAbsError: 1.31538e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.63108e-01\tAbsError: 7.89650e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.41314e-01\tAbsError: 5.25731e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 8.35277e-02\tAbsError: 2.58940e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.11320e-05\tAbsError: 7.34439e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.02099e+00\tAbsError: 4.94342e+17\n", + " Region: \"zone_1\"\tRelError: 7.12206e-01\tAbsError: 2.83587e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 7.04244e-01\tAbsError: 3.19512e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.96131e-03\tAbsError: 2.80392e+00\n", + " Region: \"zone_3\"\tRelError: 1.30878e+00\tAbsError: 4.94342e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47535e-01\tAbsError: 2.47513e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.43748e-01\tAbsError: 2.46828e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 8.09539e-01\tAbsError: 3.19525e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.96220e-03\tAbsError: 2.80430e+00\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 1.97623e-05\tAbsError: 3.02692e+09\n", + " Region: \"zone_1\"\tRelError: 2.94371e-06\tAbsError: 1.91382e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.94316e-06\tAbsError: 1.50936e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.46965e-10\tAbsError: 1.91231e-07\n", + " Region: \"zone_3\"\tRelError: 1.68186e-05\tAbsError: 3.02692e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91444e-09\tAbsError: 1.51040e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.89961e-09\tAbsError: 1.51652e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.68012e-05\tAbsError: 1.52167e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.47183e-10\tAbsError: 1.91311e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.29649e+01\tAbsError: 8.28032e+15\n", + " Region: \"zone_1\"\tRelError: 1.13261e+01\tAbsError: 4.09567e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13261e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.18781e-09\tAbsError: 2.49634e-06\n", + " Region: \"zone_3\"\tRelError: 1.63880e+00\tAbsError: 8.28032e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69633e-01\tAbsError: 4.77284e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.50748e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.95556e-02\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.18873e-09\tAbsError: 2.49669e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:04\u001b[0m.\u001b[1;36m321\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 1.2\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.49932e-01\tAbsError: 4.88492e+13\n", + " Region: \"zone_1\"\tRelError: 2.83428e-02\tAbsError: 1.27049e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.83365e-02\tAbsError: 1.05212e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.28298e-06\tAbsError: 2.18369e-03\n", + " Region: \"zone_3\"\tRelError: 3.21589e-01\tAbsError: 4.88492e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.14470e-01\tAbsError: 2.20257e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.84871e-02\tAbsError: 2.68235e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.86258e-02\tAbsError: 1.05212e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.28763e-06\tAbsError: 2.18531e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 4.51056e-01\tAbsError: 2.05364e+16\n", + " Region: \"zone_1\"\tRelError: 2.00144e-01\tAbsError: 2.42988e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.93339e-01\tAbsError: 2.58995e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.80518e-03\tAbsError: 2.40398e+00\n", + " Region: \"zone_3\"\tRelError: 2.50912e-01\tAbsError: 2.05364e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.66526e-02\tAbsError: 1.02176e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.39299e-02\tAbsError: 1.03188e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.93523e-01\tAbsError: 2.58382e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.80635e-03\tAbsError: 2.40440e+00\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.56865e+00\tAbsError: 2.86625e+14\n", + " Region: \"zone_1\"\tRelError: 1.21045e-01\tAbsError: 8.55195e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20888e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", + " Region: \"zone_3\"\tRelError: 1.44761e+00\tAbsError: 2.86625e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38556e-01\tAbsError: 1.75436e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.32332e-01\tAbsError: 1.11189e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 7.65613e-02\tAbsError: 3.07640e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 7.18685e-02\tAbsError: 7.74299e+12\n", + " Region: \"zone_1\"\tRelError: 3.51475e-03\tAbsError: 2.24246e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 3.50846e-03\tAbsError: 5.73988e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.29286e-06\tAbsError: 2.18506e-03\n", + " Region: \"zone_3\"\tRelError: 6.83538e-02\tAbsError: 7.74299e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38946e-02\tAbsError: 4.23379e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.68308e-03\tAbsError: 3.50920e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.76980e-03\tAbsError: 6.12737e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.29286e-06\tAbsError: 2.18506e-03\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.21968e+01\tAbsError: 3.03714e+18\n", + " Region: \"zone_1\"\tRelError: 9.28674e+00\tAbsError: 4.29329e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.28674e+00\tAbsError: 4.29329e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.04601e-10\tAbsError: 3.65708e-08\n", + " Region: \"zone_3\"\tRelError: 2.91002e+00\tAbsError: 3.03714e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.35154e-01\tAbsError: 1.51734e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.27699e-01\tAbsError: 1.51980e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 1.84717e+00\tAbsError: 4.29338e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.04643e-10\tAbsError: 3.65865e-08\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.67468e-01\tAbsError: 2.46843e+16\n", + " Region: \"zone_1\"\tRelError: 2.30517e-01\tAbsError: 1.62585e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 2.25924e-01\tAbsError: 1.06599e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.59329e-03\tAbsError: 1.61519e+00\n", + " Region: \"zone_3\"\tRelError: 3.36951e-01\tAbsError: 2.46843e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.21049e-02\tAbsError: 1.22878e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.07419e-02\tAbsError: 1.23965e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.79509e-01\tAbsError: 1.06615e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.59568e-03\tAbsError: 1.61602e+00\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 9.63437e-01\tAbsError: 3.66677e+13\n", + " Region: \"zone_1\"\tRelError: 5.93231e-02\tAbsError: 3.16919e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.93064e-02\tAbsError: 2.58707e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", + " Region: \"zone_3\"\tRelError: 9.04114e-01\tAbsError: 3.66677e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40101e-01\tAbsError: 2.63702e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.04471e-01\tAbsError: 1.02975e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.95256e-02\tAbsError: 2.58992e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 7.99896e-04\tAbsError: 1.04663e+12\n", + " Region: \"zone_1\"\tRelError: 9.91619e-05\tAbsError: 9.43866e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 9.88950e-05\tAbsError: 1.48652e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.66917e-07\tAbsError: 9.29001e-05\n", + " Region: \"zone_3\"\tRelError: 7.00734e-04\tAbsError: 1.04663e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52150e-04\tAbsError: 2.81168e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.02994e-04\tAbsError: 7.65464e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.45323e-04\tAbsError: 1.48982e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.67024e-07\tAbsError: 9.29392e-05\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.02943e+00\tAbsError: 4.87297e+17\n", + " Region: \"zone_1\"\tRelError: 2.94499e-01\tAbsError: 3.54798e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 2.84574e-01\tAbsError: 3.30986e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.92456e-03\tAbsError: 3.51488e+00\n", + " Region: \"zone_3\"\tRelError: 7.34931e-01\tAbsError: 4.87297e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.40933e-01\tAbsError: 2.43918e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.31212e-01\tAbsError: 2.43379e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 2.52860e-01\tAbsError: 3.31000e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.92599e-03\tAbsError: 3.51524e+00\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.37043e-01\tAbsError: 1.75835e+16\n", + " Region: \"zone_1\"\tRelError: 9.99402e-02\tAbsError: 6.83854e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 9.80013e-02\tAbsError: 2.45416e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93890e-03\tAbsError: 6.83608e-01\n", + " Region: \"zone_3\"\tRelError: 1.37102e-01\tAbsError: 1.75835e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.69191e-03\tAbsError: 8.79303e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.90089e-03\tAbsError: 8.79044e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18571e-01\tAbsError: 2.45694e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93890e-03\tAbsError: 6.83676e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.93334e-01\tAbsError: 6.56738e+12\n", + " Region: \"zone_1\"\tRelError: 1.86981e-02\tAbsError: 1.19586e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86900e-02\tAbsError: 9.16562e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03535e-06\tAbsError: 2.79297e-03\n", + " Region: \"zone_3\"\tRelError: 2.74636e-01\tAbsError: 6.56738e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11907e-01\tAbsError: 3.29549e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.38500e-02\tAbsError: 3.27189e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88710e-02\tAbsError: 9.16566e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03753e-06\tAbsError: 2.79381e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 9.49822e-05\tAbsError: 7.54263e+10\n", + " Region: \"zone_1\"\tRelError: 1.58303e-05\tAbsError: 6.41477e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.56457e-05\tAbsError: 5.00952e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84592e-07\tAbsError: 6.40976e-05\n", + " Region: \"zone_3\"\tRelError: 7.91520e-05\tAbsError: 7.54263e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.86789e-06\tAbsError: 5.64456e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.57072e-06\tAbsError: 1.89807e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 6.95287e-05\tAbsError: 5.22726e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84689e-07\tAbsError: 6.41318e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:08\u001b[0m.\u001b[1;36m373\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:08\u001b[0m.\u001b[1;36m373\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5181818181818182\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 3.06598e-01\tAbsError: 2.94721e+16\n", + " Region: \"zone_1\"\tRelError: 1.45043e-01\tAbsError: 1.82604e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39960e-01\tAbsError: 2.58619e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.08227e-03\tAbsError: 1.80018e+00\n", + " Region: \"zone_3\"\tRelError: 1.61555e-01\tAbsError: 2.94721e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.33714e-02\tAbsError: 1.46903e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.75328e-03\tAbsError: 1.47818e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.24339e-01\tAbsError: 2.58957e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.09128e-03\tAbsError: 1.80342e+00\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.89351e-02\tAbsError: 5.69657e+15\n", + " Region: \"zone_1\"\tRelError: 1.78144e-02\tAbsError: 2.12673e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77545e-02\tAbsError: 1.45761e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.98502e-05\tAbsError: 2.11215e-02\n", + " Region: \"zone_3\"\tRelError: 3.11207e-02\tAbsError: 5.69657e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.04402e-03\tAbsError: 2.80640e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.66054e-03\tAbsError: 2.89016e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.13562e-02\tAbsError: 1.46554e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.98901e-05\tAbsError: 2.11355e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.00158e-02\tAbsError: 2.47729e+12\n", + " Region: \"zone_1\"\tRelError: 6.29744e-04\tAbsError: 1.66755e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.24968e-04\tAbsError: 8.94858e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", + " Region: \"zone_3\"\tRelError: 5.93860e-02\tAbsError: 2.47729e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.68115e-02\tAbsError: 1.70064e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.91678e-04\tAbsError: 7.76647e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.27809e-03\tAbsError: 9.43816e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.63007e-01\tAbsError: 3.52970e+16\n", + " Region: \"zone_1\"\tRelError: 6.71069e-02\tAbsError: 1.93853e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 6.17159e-02\tAbsError: 1.22632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.39099e-03\tAbsError: 1.92627e+00\n", + " Region: \"zone_3\"\tRelError: 9.59006e-02\tAbsError: 3.52970e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.68566e-02\tAbsError: 1.57552e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.19087e-02\tAbsError: 1.95418e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.17335e-02\tAbsError: 1.22654e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.40172e-03\tAbsError: 1.93013e+00\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.81665e-03\tAbsError: 2.73535e+14\n", + " Region: \"zone_1\"\tRelError: 5.85407e-04\tAbsError: 1.66466e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.38239e-04\tAbsError: 5.18612e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.71682e-05\tAbsError: 1.66414e-02\n", + " Region: \"zone_3\"\tRelError: 1.23124e-03\tAbsError: 2.73535e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.87007e-04\tAbsError: 1.35327e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.35619e-05\tAbsError: 1.38209e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.53493e-04\tAbsError: 5.21633e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.71777e-05\tAbsError: 1.66444e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.75723e+01\tAbsError: 8.60719e+15\n", + " Region: \"zone_1\"\tRelError: 2.58712e+01\tAbsError: 4.18752e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.58712e+01\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.78795e-09\tAbsError: 2.36269e-06\n", + " Region: \"zone_3\"\tRelError: 1.70103e+00\tAbsError: 8.60719e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77451e-01\tAbsError: 4.97125e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.77390e-01\tAbsError: 3.63594e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.46185e-01\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.79151e-09\tAbsError: 2.36399e-06\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 4.31240e-04\tAbsError: 7.97937e+11\n", + " Region: \"zone_1\"\tRelError: 7.54533e-05\tAbsError: 1.27890e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.50894e-05\tAbsError: 1.20855e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.63943e-07\tAbsError: 1.26681e-04\n", + " Region: \"zone_3\"\tRelError: 3.55787e-04\tAbsError: 7.97937e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.38045e-05\tAbsError: 1.92064e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.48742e-05\tAbsError: 6.05872e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.76744e-04\tAbsError: 1.21338e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.64089e-07\tAbsError: 1.26735e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.47662e-01\tAbsError: 3.16243e+16\n", + " Region: \"zone_1\"\tRelError: 3.98076e-02\tAbsError: 2.53120e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 3.26748e-02\tAbsError: 5.98930e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.13283e-03\tAbsError: 2.53060e+00\n", + " Region: \"zone_3\"\tRelError: 1.07855e-01\tAbsError: 3.16243e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.60729e-02\tAbsError: 1.56428e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.59129e-02\tAbsError: 1.59815e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.87247e-02\tAbsError: 6.01846e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.14424e-03\tAbsError: 2.53465e+00\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.81145e-03\tAbsError: 1.18428e+14\n", + " Region: \"zone_1\"\tRelError: 1.12103e-03\tAbsError: 1.02830e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.11813e-03\tAbsError: 4.60822e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.90087e-06\tAbsError: 1.02370e-03\n", + " Region: \"zone_3\"\tRelError: 1.69042e-03\tAbsError: 1.18428e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.20860e-04\tAbsError: 5.74187e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.20476e-04\tAbsError: 6.10095e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.34619e-03\tAbsError: 4.63235e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.90208e-06\tAbsError: 1.02411e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.41217e+00\tAbsError: 1.46955e+15\n", + " Region: \"zone_1\"\tRelError: 1.90056e+00\tAbsError: 7.00012e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.90045e+00\tAbsError: 3.18463e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.09797e-04\tAbsError: 3.81549e-02\n", + " Region: \"zone_3\"\tRelError: 1.51161e+00\tAbsError: 1.46955e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.54837e-01\tAbsError: 8.24639e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.36560e-01\tAbsError: 6.44909e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20103e-01\tAbsError: 3.18464e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.09797e-04\tAbsError: 3.81549e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.53826e-04\tAbsError: 1.09912e+11\n", + " Region: \"zone_1\"\tRelError: 2.29821e-05\tAbsError: 4.27473e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.28592e-05\tAbsError: 6.65170e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", + " Region: \"zone_3\"\tRelError: 1.30844e-04\tAbsError: 1.09912e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.01681e-06\tAbsError: 7.52234e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.94349e-06\tAbsError: 3.46881e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14760e-04\tAbsError: 6.98367e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 9.29504e-02\tAbsError: 2.02898e+16\n", + " Region: \"zone_1\"\tRelError: 2.42374e-02\tAbsError: 1.35837e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.38563e-02\tAbsError: 5.99628e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.81112e-04\tAbsError: 1.35237e-01\n", + " Region: \"zone_3\"\tRelError: 6.87131e-02\tAbsError: 2.02898e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.13966e-02\tAbsError: 9.99359e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.26787e-02\tAbsError: 1.02962e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.42566e-02\tAbsError: 6.02384e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.81172e-04\tAbsError: 1.35256e-01\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.53154e-04\tAbsError: 8.06031e+12\n", + " Region: \"zone_1\"\tRelError: 5.59360e-05\tAbsError: 5.13628e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.44781e-05\tAbsError: 3.07943e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.45792e-06\tAbsError: 5.13320e-04\n", + " Region: \"zone_3\"\tRelError: 9.72179e-05\tAbsError: 8.06031e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.01846e-05\tAbsError: 4.02722e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.01144e-05\tAbsError: 4.03309e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 6.54610e-05\tAbsError: 3.09481e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.45792e-06\tAbsError: 5.13320e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.91173e+00\tAbsError: 9.44487e+14\n", + " Region: \"zone_1\"\tRelError: 9.30696e-01\tAbsError: 3.44982e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.30671e-01\tAbsError: 2.57987e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.50635e-05\tAbsError: 8.69950e-03\n", + " Region: \"zone_3\"\tRelError: 9.81030e-01\tAbsError: 9.44487e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.64864e-01\tAbsError: 4.17722e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.10409e-01\tAbsError: 5.26765e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.05732e-01\tAbsError: 2.57987e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.50635e-05\tAbsError: 8.69950e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.84860e-05\tAbsError: 3.70987e+10\n", + " Region: \"zone_1\"\tRelError: 3.74711e-06\tAbsError: 5.87951e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.73032e-06\tAbsError: 3.58594e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67880e-08\tAbsError: 5.84365e-06\n", + " Region: \"zone_3\"\tRelError: 2.47389e-05\tAbsError: 3.70987e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.96764e-06\tAbsError: 1.24118e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.94133e-06\tAbsError: 2.46869e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88131e-05\tAbsError: 3.59119e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67950e-08\tAbsError: 5.84625e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:13\u001b[0m.\u001b[1;36m144\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.4\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 9.94238e-03\tAbsError: 1.75530e+15\n", + " Region: \"zone_1\"\tRelError: 2.72108e-03\tAbsError: 6.51934e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.53712e-03\tAbsError: 4.37532e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.83960e-04\tAbsError: 6.51496e-02\n", + " Region: \"zone_3\"\tRelError: 7.22130e-03\tAbsError: 1.75530e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.68752e-03\tAbsError: 8.73995e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.71657e-03\tAbsError: 8.81305e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.63317e-03\tAbsError: 4.39323e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.84040e-04\tAbsError: 6.51817e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.22471e-04\tAbsError: 4.45531e+12\n", + " Region: \"zone_1\"\tRelError: 4.99766e-05\tAbsError: 4.36982e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.98529e-05\tAbsError: 1.36252e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.23724e-07\tAbsError: 4.35619e-05\n", + " Region: \"zone_3\"\tRelError: 7.24948e-05\tAbsError: 4.45531e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.55059e-06\tAbsError: 2.20957e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.76525e-06\tAbsError: 2.24574e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 6.00552e-05\tAbsError: 1.36901e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.23756e-07\tAbsError: 4.35755e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.03756e-01\tAbsError: 3.40533e+14\n", + " Region: \"zone_1\"\tRelError: 1.45274e-01\tAbsError: 2.12309e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.45243e-01\tAbsError: 1.05213e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.08557e-05\tAbsError: 1.07096e-02\n", + " Region: \"zone_3\"\tRelError: 3.58482e-01\tAbsError: 3.40533e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11349e-01\tAbsError: 1.63183e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.11582e-01\tAbsError: 1.77350e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.55205e-02\tAbsError: 1.05214e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.08557e-05\tAbsError: 1.07096e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.87618e+01\tAbsError: 8.25603e+15\n", + " Region: \"zone_1\"\tRelError: 2.71120e+01\tAbsError: 4.09561e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.71120e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.29384e-09\tAbsError: 1.83846e-06\n", + " Region: \"zone_3\"\tRelError: 1.64979e+00\tAbsError: 8.25603e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69658e-01\tAbsError: 4.86497e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69634e-01\tAbsError: 3.39106e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10500e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.29480e-09\tAbsError: 1.83875e-06\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.92011e-03\tAbsError: 8.10197e+14\n", + " Region: \"zone_1\"\tRelError: 1.17391e-03\tAbsError: 5.91365e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.15725e-03\tAbsError: 1.80237e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.66570e-05\tAbsError: 5.89563e-03\n", + " Region: \"zone_3\"\tRelError: 2.74620e-03\tAbsError: 8.10197e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.58915e-04\tAbsError: 4.03140e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.69237e-04\tAbsError: 4.07057e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.20139e-03\tAbsError: 1.80976e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.66578e-05\tAbsError: 5.89585e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.18840e-05\tAbsError: 4.54852e+11\n", + " Region: \"zone_1\"\tRelError: 4.72208e-06\tAbsError: 1.92624e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.66726e-06\tAbsError: 1.32255e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.48147e-08\tAbsError: 1.92492e-05\n", + " Region: \"zone_3\"\tRelError: 7.16189e-06\tAbsError: 4.54852e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.67326e-07\tAbsError: 2.25761e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.20704e-07\tAbsError: 2.29091e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.61904e-06\tAbsError: 1.32868e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.48217e-08\tAbsError: 1.92513e-05\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.48050e-01\tAbsError: 5.89756e+13\n", + " Region: \"zone_1\"\tRelError: 7.54406e-02\tAbsError: 5.31011e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.54258e-02\tAbsError: 1.65561e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.48169e-05\tAbsError: 5.14455e-03\n", + " Region: \"zone_3\"\tRelError: 7.26095e-02\tAbsError: 5.89756e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.02125e-02\tAbsError: 3.40063e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.08011e-03\tAbsError: 2.49693e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.30209e-03\tAbsError: 1.66795e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.48169e-05\tAbsError: 5.14455e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.69855e+00\tAbsError: 3.40458e+14\n", + " Region: \"zone_1\"\tRelError: 2.34470e-01\tAbsError: 7.85796e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.34332e-01\tAbsError: 3.07636e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", + " Region: \"zone_3\"\tRelError: 1.46408e+00\tAbsError: 3.40458e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39247e-01\tAbsError: 2.37038e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.31799e-01\tAbsError: 1.03420e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.29010e-02\tAbsError: 3.07639e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 4.70389e-04\tAbsError: 9.42013e+13\n", + " Region: \"zone_1\"\tRelError: 1.42301e-04\tAbsError: 1.88289e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.36972e-04\tAbsError: 1.70810e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.32876e-06\tAbsError: 1.88118e-03\n", + " Region: \"zone_3\"\tRelError: 3.28088e-04\tAbsError: 9.42013e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.75156e-05\tAbsError: 4.70617e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.29791e-05\tAbsError: 4.71396e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.42264e-04\tAbsError: 1.71441e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.32907e-06\tAbsError: 1.88126e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.65005e-03\tAbsError: 2.41163e+12\n", + " Region: \"zone_1\"\tRelError: 8.79965e-04\tAbsError: 3.88210e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 8.78855e-04\tAbsError: 2.64921e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10949e-06\tAbsError: 3.85561e-04\n", + " Region: \"zone_3\"\tRelError: 1.77009e-03\tAbsError: 2.41163e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.84226e-04\tAbsError: 8.06651e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.06220e-04\tAbsError: 1.60498e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.27853e-03\tAbsError: 2.69927e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.10977e-06\tAbsError: 3.85658e-04\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.10009e+00\tAbsError: 9.49766e+13\n", + " Region: \"zone_1\"\tRelError: 1.69910e-01\tAbsError: 3.26443e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.69891e-01\tAbsError: 2.58991e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", + " Region: \"zone_3\"\tRelError: 9.30185e-01\tAbsError: 9.49766e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40985e-01\tAbsError: 5.67002e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.12174e-01\tAbsError: 3.82763e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 7.70066e-02\tAbsError: 2.58994e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.34845e-04\tAbsError: 2.94286e+13\n", + " Region: \"zone_1\"\tRelError: 4.32006e-05\tAbsError: 2.52107e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.24876e-05\tAbsError: 4.63339e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.12954e-07\tAbsError: 2.51644e-04\n", + " Region: \"zone_3\"\tRelError: 9.16446e-05\tAbsError: 2.94286e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05158e-05\tAbsError: 1.46773e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.62690e-05\tAbsError: 1.47513e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.41466e-05\tAbsError: 4.64656e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.13167e-07\tAbsError: 2.51723e-04\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:17\u001b[0m.\u001b[1;36m277\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.13540e-04\tAbsError: 3.16813e+11\n", + " Region: \"zone_1\"\tRelError: 9.41932e-05\tAbsError: 1.43816e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.37795e-05\tAbsError: 1.91137e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.13656e-07\tAbsError: 1.43625e-04\n", + " Region: \"zone_3\"\tRelError: 3.19347e-04\tAbsError: 3.16813e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.80678e-05\tAbsError: 2.03480e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.78522e-05\tAbsError: 1.13333e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.83013e-04\tAbsError: 1.98913e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.13699e-07\tAbsError: 1.43642e-04\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.94716e-05\tAbsError: 4.16395e+12\n", + " Region: \"zone_1\"\tRelError: 6.26797e-06\tAbsError: 6.64104e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.07999e-06\tAbsError: 6.50466e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.87972e-07\tAbsError: 6.63453e-05\n", + " Region: \"zone_3\"\tRelError: 1.32037e-05\tAbsError: 4.16395e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.51497e-06\tAbsError: 2.07998e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.18689e-06\tAbsError: 2.08397e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 6.31380e-06\tAbsError: 6.54431e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.87998e-07\tAbsError: 6.63553e-05\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.56252e-01\tAbsError: 3.42527e+13\n", + " Region: \"zone_1\"\tRelError: 6.41646e-02\tAbsError: 1.11813e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.41588e-02\tAbsError: 9.16555e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.79958e-06\tAbsError: 2.01571e-03\n", + " Region: \"zone_3\"\tRelError: 2.92088e-01\tAbsError: 3.42527e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07223e-01\tAbsError: 1.60452e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.07953e-02\tAbsError: 1.82076e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.40630e-02\tAbsError: 9.16559e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.80279e-06\tAbsError: 2.01683e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.41492e-04\tAbsError: 1.35155e+11\n", + " Region: \"zone_1\"\tRelError: 2.52187e-05\tAbsError: 1.37752e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.51794e-05\tAbsError: 8.81239e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.93274e-08\tAbsError: 1.36871e-05\n", + " Region: \"zone_3\"\tRelError: 1.16273e-04\tAbsError: 1.35155e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.95011e-06\tAbsError: 6.23423e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.88512e-06\tAbsError: 7.28125e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00399e-04\tAbsError: 9.07384e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.93425e-08\tAbsError: 1.36926e-05\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.59960e-02\tAbsError: 3.73217e+12\n", + " Region: \"zone_1\"\tRelError: 7.31305e-03\tAbsError: 2.21475e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.30674e-03\tAbsError: 2.57182e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", + " Region: \"zone_3\"\tRelError: 5.86829e-02\tAbsError: 3.73217e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.62142e-02\tAbsError: 2.07187e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.09163e-04\tAbsError: 1.66031e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65329e-03\tAbsError: 2.69578e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.51133e-05\tAbsError: 1.21830e+10\n", + " Region: \"zone_1\"\tRelError: 3.62597e-06\tAbsError: 7.39674e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.60471e-06\tAbsError: 7.04171e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.12658e-08\tAbsError: 7.38970e-06\n", + " Region: \"zone_3\"\tRelError: 1.14873e-05\tAbsError: 1.21830e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.26936e-07\tAbsError: 8.38779e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.15498e-07\tAbsError: 3.79516e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.02236e-05\tAbsError: 7.31166e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.12697e-08\tAbsError: 7.39118e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:19\u001b[0m.\u001b[1;36m974\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:19\u001b[0m.\u001b[1;36m974\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6227272727272727\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:20\u001b[0m.\u001b[1;36m349\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 8.14034e-04\tAbsError: 1.03618e+12\n", + " Region: \"zone_1\"\tRelError: 1.43803e-04\tAbsError: 7.79056e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43584e-04\tAbsError: 1.54074e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19396e-07\tAbsError: 7.63649e-05\n", + " Region: \"zone_3\"\tRelError: 6.70231e-04\tAbsError: 1.03618e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.21829e-04\tAbsError: 2.70793e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.05108e-04\tAbsError: 7.65387e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.43074e-04\tAbsError: 1.54210e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19498e-07\tAbsError: 7.64015e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 9.74930e+00\tAbsError: 9.12751e+15\n", + " Region: \"zone_1\"\tRelError: 8.00632e+00\tAbsError: 4.18732e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.00632e+00\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12025e-09\tAbsError: 3.89888e-07\n", + " Region: \"zone_3\"\tRelError: 1.74298e+00\tAbsError: 9.12751e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77319e-01\tAbsError: 4.82174e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.77156e-01\tAbsError: 4.30577e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88507e-01\tAbsError: 4.18729e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12077e-09\tAbsError: 3.90077e-07\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.61312e-05\tAbsError: 5.74046e+10\n", + " Region: \"zone_1\"\tRelError: 1.61849e-05\tAbsError: 6.45313e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.59991e-05\tAbsError: 3.79845e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.85726e-07\tAbsError: 6.44934e-05\n", + " Region: \"zone_3\"\tRelError: 5.99464e-05\tAbsError: 5.74046e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.77906e-06\tAbsError: 4.68633e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.20461e-06\tAbsError: 1.05413e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.27769e-05\tAbsError: 3.95532e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.85828e-07\tAbsError: 6.45281e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:21\u001b[0m.\u001b[1;36m713\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.5\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.76014e+00\tAbsError: 7.64952e+15\n", + " Region: \"zone_1\"\tRelError: 2.30453e-01\tAbsError: 7.86318e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.30319e-01\tAbsError: 3.18462e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.34653e-04\tAbsError: 4.67856e-02\n", + " Region: \"zone_3\"\tRelError: 1.52969e+00\tAbsError: 7.64952e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.52442e-01\tAbsError: 3.70961e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.23039e-01\tAbsError: 3.93991e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.54074e-01\tAbsError: 3.18463e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.34653e-04\tAbsError: 4.67856e-02\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.60199e+01\tAbsError: 8.22903e+15\n", + " Region: \"zone_1\"\tRelError: 3.43433e+01\tAbsError: 4.09555e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.43433e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.48443e-09\tAbsError: 1.21289e-06\n", + " Region: \"zone_3\"\tRelError: 1.67662e+00\tAbsError: 8.22903e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.78919e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.43984e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37338e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.48691e-09\tAbsError: 1.21378e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.14370e+00\tAbsError: 5.28119e+15\n", + " Region: \"zone_1\"\tRelError: 1.24540e-01\tAbsError: 3.42249e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.24516e-01\tAbsError: 2.58826e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.40097e-05\tAbsError: 8.34232e-03\n", + " Region: \"zone_3\"\tRelError: 1.01916e+00\tAbsError: 5.28119e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.67272e-01\tAbsError: 2.54892e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.17893e-01\tAbsError: 2.73227e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.33973e-01\tAbsError: 2.53440e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.40097e-05\tAbsError: 8.34232e-03\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.73485e+00\tAbsError: 1.08973e+15\n", + " Region: \"zone_1\"\tRelError: 2.25350e+00\tAbsError: 6.85700e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.25339e+00\tAbsError: 3.07635e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", + " Region: \"zone_3\"\tRelError: 1.48136e+00\tAbsError: 1.08973e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41054e-01\tAbsError: 6.25022e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.24005e-01\tAbsError: 4.64711e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16189e-01\tAbsError: 3.07637e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.95220e-01\tAbsError: 1.79561e+15\n", + " Region: \"zone_1\"\tRelError: 1.18421e-01\tAbsError: 4.83315e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18312e-01\tAbsError: 1.05217e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08967e-04\tAbsError: 3.78098e-02\n", + " Region: \"zone_3\"\tRelError: 3.76798e-01\tAbsError: 1.79561e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.04475e-01\tAbsError: 9.41675e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.29051e-01\tAbsError: 8.53937e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.31629e-02\tAbsError: 1.05218e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.08989e-04\tAbsError: 3.78175e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.38677e+00\tAbsError: 6.38966e+14\n", + " Region: \"zone_1\"\tRelError: 4.51470e-01\tAbsError: 3.37904e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.51448e-01\tAbsError: 2.58448e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", + " Region: \"zone_3\"\tRelError: 9.35299e-01\tAbsError: 6.38966e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42607e-01\tAbsError: 3.02038e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.95795e-01\tAbsError: 3.36928e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.68743e-02\tAbsError: 2.57679e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.33633e-02\tAbsError: 2.89598e+14\n", + " Region: \"zone_1\"\tRelError: 8.40256e-03\tAbsError: 3.97616e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.28859e-03\tAbsError: 1.99593e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13973e-04\tAbsError: 3.95620e-02\n", + " Region: \"zone_3\"\tRelError: 8.49608e-02\tAbsError: 2.89598e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.18487e-02\tAbsError: 1.59566e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.99528e-03\tAbsError: 1.30032e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.30026e-02\tAbsError: 2.10101e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.14128e-04\tAbsError: 3.96148e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.41554e-01\tAbsError: 2.20715e+14\n", + " Region: \"zone_1\"\tRelError: 2.89595e-02\tAbsError: 1.67352e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.89377e-02\tAbsError: 9.16565e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18085e-05\tAbsError: 7.56954e-03\n", + " Region: \"zone_3\"\tRelError: 3.12594e-01\tAbsError: 2.20715e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.94155e-01\tAbsError: 1.01533e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.87246e-02\tAbsError: 1.19182e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.96932e-02\tAbsError: 9.16570e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.18152e-05\tAbsError: 7.57200e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.14441e-02\tAbsError: 2.12438e+13\n", + " Region: \"zone_1\"\tRelError: 4.74421e-03\tAbsError: 7.64054e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.74205e-03\tAbsError: 1.52893e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.15714e-06\tAbsError: 7.48765e-04\n", + " Region: \"zone_3\"\tRelError: 1.66999e-02\tAbsError: 2.12438e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.38752e-03\tAbsError: 9.42368e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.26682e-03\tAbsError: 1.18201e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40434e-02\tAbsError: 1.60606e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.16115e-06\tAbsError: 7.50158e-04\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.19808e-02\tAbsError: 3.06344e+13\n", + " Region: \"zone_1\"\tRelError: 2.04251e-02\tAbsError: 4.10278e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.04136e-02\tAbsError: 1.00349e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", + " Region: \"zone_3\"\tRelError: 6.15557e-02\tAbsError: 3.06344e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38926e-02\tAbsError: 1.71938e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.73234e-03\tAbsError: 1.34406e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.91920e-03\tAbsError: 1.01109e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 6.16301e-04\tAbsError: 4.20516e+11\n", + " Region: \"zone_1\"\tRelError: 1.45428e-04\tAbsError: 1.24820e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.41835e-04\tAbsError: 4.38423e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.59201e-06\tAbsError: 1.24776e-03\n", + " Region: \"zone_3\"\tRelError: 4.70873e-04\tAbsError: 4.20516e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.02345e-05\tAbsError: 1.56877e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.16841e-05\tAbsError: 2.63639e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.25363e-04\tAbsError: 4.49118e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.59205e-06\tAbsError: 1.24780e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.53920e-03\tAbsError: 1.84314e+12\n", + " Region: \"zone_1\"\tRelError: 2.29752e-04\tAbsError: 2.41443e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.29064e-04\tAbsError: 2.20702e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", + " Region: \"zone_3\"\tRelError: 1.30944e-03\tAbsError: 1.84314e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11485e-04\tAbsError: 5.81096e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.63190e-04\tAbsError: 1.26205e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 9.34079e-04\tAbsError: 2.25011e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.65259e-03\tAbsError: 1.21744e+12\n", + " Region: \"zone_1\"\tRelError: 3.89816e-04\tAbsError: 8.01243e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.89587e-04\tAbsError: 6.08661e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.29074e-07\tAbsError: 7.95156e-05\n", + " Region: \"zone_3\"\tRelError: 1.26277e-03\tAbsError: 1.21744e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.77440e-05\tAbsError: 6.11805e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.74827e-05\tAbsError: 6.05636e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.14732e-03\tAbsError: 6.26783e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.29108e-07\tAbsError: 7.95286e-05\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.51045e-04\tAbsError: 2.02519e+11\n", + " Region: \"zone_1\"\tRelError: 4.54891e-05\tAbsError: 1.12868e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.51644e-05\tAbsError: 1.25671e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.24705e-07\tAbsError: 1.12743e-04\n", + " Region: \"zone_3\"\tRelError: 2.05556e-04\tAbsError: 2.02519e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12163e-05\tAbsError: 1.36505e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10724e-05\tAbsError: 6.60139e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82943e-04\tAbsError: 1.30848e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.24777e-07\tAbsError: 1.12769e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.61183e-04\tAbsError: 7.68860e+10\n", + " Region: \"zone_1\"\tRelError: 3.88511e-05\tAbsError: 7.71614e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.86291e-05\tAbsError: 4.56521e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.21984e-07\tAbsError: 7.71157e-05\n", + " Region: \"zone_3\"\tRelError: 1.22332e-04\tAbsError: 7.68860e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.07272e-06\tAbsError: 3.66037e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.10133e-06\tAbsError: 4.02822e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13936e-04\tAbsError: 4.66713e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.22064e-07\tAbsError: 7.71436e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.09882e-04\tAbsError: 1.05387e+11\n", + " Region: \"zone_1\"\tRelError: 1.91896e-05\tAbsError: 8.11152e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.91665e-05\tAbsError: 7.26801e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.30974e-08\tAbsError: 8.03884e-06\n", + " Region: \"zone_3\"\tRelError: 9.06925e-05\tAbsError: 1.05387e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41210e-06\tAbsError: 4.74044e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.36012e-06\tAbsError: 5.79823e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.78972e-05\tAbsError: 7.44246e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.31071e-08\tAbsError: 8.04242e-06\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.18292e-04\tAbsError: 7.64415e+10\n", + " Region: \"zone_1\"\tRelError: 2.82416e-05\tAbsError: 9.49574e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.82143e-05\tAbsError: 3.50165e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.72335e-08\tAbsError: 9.46073e-06\n", + " Region: \"zone_3\"\tRelError: 9.00505e-05\tAbsError: 7.64415e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.51691e-06\tAbsError: 4.30037e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.49401e-06\tAbsError: 3.34378e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 8.30124e-05\tAbsError: 3.56592e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.72411e-08\tAbsError: 9.46340e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 7.21635e-06\tAbsError: 6.66072e+09\n", + " Region: \"zone_1\"\tRelError: 1.30608e-06\tAbsError: 5.92265e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28905e-06\tAbsError: 4.03393e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70320e-08\tAbsError: 5.91862e-06\n", + " Region: \"zone_3\"\tRelError: 5.91027e-06\tAbsError: 6.66072e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.61854e-07\tAbsError: 4.98334e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.27195e-07\tAbsError: 1.67738e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 5.20418e-06\tAbsError: 4.19235e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.70346e-08\tAbsError: 5.91965e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:31\u001b[0m.\u001b[1;36m388\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.6\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.79359e-05\tAbsError: 9.12029e+09\n", + " Region: \"zone_1\"\tRelError: 4.32768e-06\tAbsError: 5.24059e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.31261e-06\tAbsError: 4.64642e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.50721e-08\tAbsError: 5.23594e-06\n", + " Region: \"zone_3\"\tRelError: 1.36082e-05\tAbsError: 9.12029e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.47236e-07\tAbsError: 5.20850e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.47461e-07\tAbsError: 3.91180e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.26984e-05\tAbsError: 4.72645e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.50744e-08\tAbsError: 5.23674e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:31\u001b[0m.\u001b[1;36m732\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:31\u001b[0m.\u001b[1;36m732\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7272727272727272\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.57743e+01\tAbsError: 8.48667e+15\n", + " Region: \"zone_1\"\tRelError: 1.40602e+01\tAbsError: 4.09544e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.40602e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.57556e-10\tAbsError: 1.24451e-07\n", + " Region: \"zone_3\"\tRelError: 1.71408e+00\tAbsError: 8.48667e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69582e-01\tAbsError: 4.51146e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.69441e-01\tAbsError: 3.97521e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.75053e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.57765e-10\tAbsError: 1.24526e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.49189e+01\tAbsError: 4.08174e+16\n", + " Region: \"zone_1\"\tRelError: 2.31126e+01\tAbsError: 4.18737e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.31126e+01\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.58304e-09\tAbsError: 8.97333e-07\n", + " Region: \"zone_3\"\tRelError: 1.80635e+00\tAbsError: 4.08174e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.76313e-01\tAbsError: 2.02615e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.75653e-01\tAbsError: 2.05560e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.54388e-01\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.58332e-09\tAbsError: 8.97431e-07\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 4.55570e+00\tAbsError: 5.16331e+15\n", + " Region: \"zone_1\"\tRelError: 3.06111e+00\tAbsError: 6.97364e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.06100e+00\tAbsError: 3.07634e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12162e-04\tAbsError: 3.89730e-02\n", + " Region: \"zone_3\"\tRelError: 1.49459e+00\tAbsError: 5.16331e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38938e-01\tAbsError: 2.46191e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.11412e-01\tAbsError: 2.70140e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.44124e-01\tAbsError: 3.07634e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.12162e-04\tAbsError: 3.89730e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.86954e+00\tAbsError: 4.19041e+16\n", + " Region: \"zone_1\"\tRelError: 2.86521e-01\tAbsError: 1.91688e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.86060e-01\tAbsError: 3.18461e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.60347e-04\tAbsError: 1.59842e-01\n", + " Region: \"zone_3\"\tRelError: 1.58302e+00\tAbsError: 4.19041e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.48427e-01\tAbsError: 2.09916e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.11904e-01\tAbsError: 2.09125e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.22232e-01\tAbsError: 3.18461e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.60347e-04\tAbsError: 1.59842e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.13964e+00\tAbsError: 3.47644e+15\n", + " Region: \"zone_1\"\tRelError: 1.85284e-01\tAbsError: 3.50197e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.85258e-01\tAbsError: 2.58979e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.62526e-05\tAbsError: 9.12177e-03\n", + " Region: \"zone_3\"\tRelError: 9.54354e-01\tAbsError: 3.47644e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.46208e-01\tAbsError: 1.62778e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.89583e-01\tAbsError: 1.84866e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18536e-01\tAbsError: 2.53855e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.62526e-05\tAbsError: 9.12177e-03\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.21420e+00\tAbsError: 2.59228e+16\n", + " Region: \"zone_1\"\tRelError: 1.78553e-01\tAbsError: 1.14359e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.78297e-01\tAbsError: 2.55828e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.55742e-04\tAbsError: 8.87761e-02\n", + " Region: \"zone_3\"\tRelError: 1.03565e+00\tAbsError: 2.59228e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.56028e-01\tAbsError: 1.29282e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.99653e-01\tAbsError: 1.29946e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.79713e-01\tAbsError: 2.47400e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.55742e-04\tAbsError: 8.87761e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 8.24095e-01\tAbsError: 1.04537e+15\n", + " Region: \"zone_1\"\tRelError: 4.93544e-01\tAbsError: 2.65000e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.93494e-01\tAbsError: 9.16559e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.98913e-05\tAbsError: 1.73344e-02\n", + " Region: \"zone_3\"\tRelError: 3.30551e-01\tAbsError: 1.04537e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84640e-01\tAbsError: 5.55503e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10521e-01\tAbsError: 4.89866e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.53403e-02\tAbsError: 9.16565e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.98913e-05\tAbsError: 1.73344e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 7.80503e-01\tAbsError: 7.70857e+15\n", + " Region: \"zone_1\"\tRelError: 3.75236e-01\tAbsError: 3.59699e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.75163e-01\tAbsError: 1.05209e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.33305e-05\tAbsError: 2.54491e-02\n", + " Region: \"zone_3\"\tRelError: 4.05267e-01\tAbsError: 7.70857e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.91232e-01\tAbsError: 4.05990e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.09957e-01\tAbsError: 3.64868e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04004e-01\tAbsError: 1.05209e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.33305e-05\tAbsError: 2.54491e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.23262e-02\tAbsError: 1.95138e+14\n", + " Region: \"zone_1\"\tRelError: 2.57438e-02\tAbsError: 3.23382e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.56511e-02\tAbsError: 1.67807e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.26701e-05\tAbsError: 3.21704e-02\n", + " Region: \"zone_3\"\tRelError: 6.65824e-02\tAbsError: 1.95138e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.49682e-02\tAbsError: 6.65802e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.06072e-03\tAbsError: 1.28558e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.46071e-03\tAbsError: 1.74923e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.26947e-05\tAbsError: 3.21777e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.49304e-01\tAbsError: 1.80910e+15\n", + " Region: \"zone_1\"\tRelError: 4.17844e-02\tAbsError: 2.45403e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.10777e-02\tAbsError: 3.29923e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.06706e-04\tAbsError: 2.45073e-01\n", + " Region: \"zone_3\"\tRelError: 1.07520e-01\tAbsError: 1.80910e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.01149e-02\tAbsError: 8.96543e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.60138e-02\tAbsError: 9.12557e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.06845e-02\tAbsError: 3.29923e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.06706e-04\tAbsError: 2.45073e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 3.13427e-02\tAbsError: 1.62210e+13\n", + " Region: \"zone_1\"\tRelError: 1.73710e-02\tAbsError: 1.21679e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.73676e-02\tAbsError: 1.36050e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.46587e-06\tAbsError: 1.20318e-03\n", + " Region: \"zone_3\"\tRelError: 1.39717e-02\tAbsError: 1.62210e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.19687e-03\tAbsError: 6.47584e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.09668e-03\tAbsError: 9.74512e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16747e-02\tAbsError: 1.39577e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.46587e-06\tAbsError: 1.20318e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.37718e-01\tAbsError: 3.70307e+14\n", + " Region: \"zone_1\"\tRelError: 9.30668e-02\tAbsError: 1.58018e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.30214e-02\tAbsError: 6.99005e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.53632e-05\tAbsError: 1.57319e-02\n", + " Region: \"zone_3\"\tRelError: 1.44651e-01\tAbsError: 3.70307e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.23209e-03\tAbsError: 1.87637e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.12058e-03\tAbsError: 1.82670e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.34253e-01\tAbsError: 7.30395e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.53632e-05\tAbsError: 1.57319e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.53065e-03\tAbsError: 7.24481e+11\n", + " Region: \"zone_1\"\tRelError: 1.49459e-03\tAbsError: 1.07639e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49149e-03\tAbsError: 6.55190e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.09641e-06\tAbsError: 1.07573e-03\n", + " Region: \"zone_3\"\tRelError: 1.03606e-03\tAbsError: 7.24481e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73129e-05\tAbsError: 2.45596e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.81580e-05\tAbsError: 4.78885e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 9.37490e-04\tAbsError: 6.76708e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.09642e-06\tAbsError: 1.07576e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.06829e-02\tAbsError: 3.05635e+13\n", + " Region: \"zone_1\"\tRelError: 1.22718e-02\tAbsError: 7.18985e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.22511e-02\tAbsError: 5.44565e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.07168e-05\tAbsError: 7.18441e-03\n", + " Region: \"zone_3\"\tRelError: 1.84111e-02\tAbsError: 3.05635e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.29967e-04\tAbsError: 1.55164e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.34908e-04\tAbsError: 1.50471e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.75255e-02\tAbsError: 5.93302e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.07242e-05\tAbsError: 7.18712e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.69038e-03\tAbsError: 1.04370e+12\n", + " Region: \"zone_1\"\tRelError: 1.58975e-03\tAbsError: 1.04879e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.58945e-03\tAbsError: 5.38488e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.00336e-07\tAbsError: 1.04341e-04\n", + " Region: \"zone_3\"\tRelError: 1.10063e-03\tAbsError: 1.04370e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.23814e-05\tAbsError: 5.26651e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.22994e-05\tAbsError: 5.17045e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 9.95649e-04\tAbsError: 5.63224e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.00360e-07\tAbsError: 1.04351e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.86421e-02\tAbsError: 1.70748e+13\n", + " Region: \"zone_1\"\tRelError: 7.47202e-03\tAbsError: 9.61059e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.46926e-03\tAbsError: 2.58943e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.76244e-06\tAbsError: 9.58470e-04\n", + " Region: \"zone_3\"\tRelError: 1.11701e-02\tAbsError: 1.70748e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.42677e-04\tAbsError: 8.65778e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.38187e-04\tAbsError: 8.41703e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06865e-02\tAbsError: 2.88374e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.76358e-06\tAbsError: 9.58882e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.67954e-04\tAbsError: 1.01821e+11\n", + " Region: \"zone_1\"\tRelError: 2.21136e-04\tAbsError: 6.97280e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 2.20936e-04\tAbsError: 5.57180e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.00534e-07\tAbsError: 6.96723e-05\n", + " Region: \"zone_3\"\tRelError: 1.46817e-04\tAbsError: 1.01821e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.39462e-06\tAbsError: 5.27392e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.41727e-06\tAbsError: 4.90816e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35805e-04\tAbsError: 5.79583e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.00607e-07\tAbsError: 6.96980e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.17252e-03\tAbsError: 2.39421e+12\n", + " Region: \"zone_1\"\tRelError: 1.27830e-03\tAbsError: 4.41120e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.27703e-03\tAbsError: 3.52817e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26752e-06\tAbsError: 4.40767e-04\n", + " Region: \"zone_3\"\tRelError: 1.89422e-03\tAbsError: 2.39421e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.41609e-05\tAbsError: 1.21178e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.35709e-05\tAbsError: 1.18243e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.82522e-03\tAbsError: 3.85960e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26800e-06\tAbsError: 4.40936e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.02562e-04\tAbsError: 6.84436e+10\n", + " Region: \"zone_1\"\tRelError: 1.21040e-04\tAbsError: 1.06970e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.21010e-04\tAbsError: 3.27450e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.06942e-08\tAbsError: 1.06642e-05\n", + " Region: \"zone_3\"\tRelError: 8.15214e-05\tAbsError: 6.84436e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.33271e-06\tAbsError: 3.86456e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.32148e-06\tAbsError: 2.97979e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.48365e-05\tAbsError: 3.43670e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.07019e-08\tAbsError: 1.06669e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.32904e-03\tAbsError: 1.04115e+12\n", + " Region: \"zone_1\"\tRelError: 5.35241e-04\tAbsError: 8.15222e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.35007e-04\tAbsError: 1.45533e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.34015e-07\tAbsError: 8.13766e-05\n", + " Region: \"zone_3\"\tRelError: 7.93795e-04\tAbsError: 1.04115e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.48691e-05\tAbsError: 5.27432e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.45106e-05\tAbsError: 5.13716e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 7.64181e-04\tAbsError: 1.65639e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.34109e-07\tAbsError: 8.14107e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.67619e-05\tAbsError: 1.02422e+10\n", + " Region: \"zone_1\"\tRelError: 2.21445e-05\tAbsError: 4.91320e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.21303e-05\tAbsError: 5.33976e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41260e-08\tAbsError: 4.90786e-06\n", + " Region: \"zone_3\"\tRelError: 1.46175e-05\tAbsError: 1.02422e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.20200e-07\tAbsError: 5.93794e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.20801e-07\tAbsError: 4.30423e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35623e-05\tAbsError: 5.58038e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.41284e-08\tAbsError: 4.90869e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:42\u001b[0m.\u001b[1;36m989\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.7\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.69383e-04\tAbsError: 1.90424e+11\n", + " Region: \"zone_1\"\tRelError: 1.08741e-04\tAbsError: 3.06906e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08652e-04\tAbsError: 2.81501e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.81753e-08\tAbsError: 3.06624e-05\n", + " Region: \"zone_3\"\tRelError: 1.60642e-04\tAbsError: 1.90424e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.72095e-06\tAbsError: 9.63082e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.66101e-06\tAbsError: 9.41161e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55172e-04\tAbsError: 3.17766e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.82093e-08\tAbsError: 3.06751e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 9.38488e-05\tAbsError: 6.84833e+10\n", + " Region: \"zone_1\"\tRelError: 3.78678e-05\tAbsError: 6.55657e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.78490e-05\tAbsError: 1.02277e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.88252e-08\tAbsError: 6.54634e-06\n", + " Region: \"zone_3\"\tRelError: 5.59810e-05\tAbsError: 6.84833e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.79292e-07\tAbsError: 3.46701e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.53325e-07\tAbsError: 3.38132e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 5.40295e-05\tAbsError: 1.16112e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.88326e-08\tAbsError: 6.54910e-06\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.11982e+00\tAbsError: 2.71568e+16\n", + " Region: \"zone_1\"\tRelError: 3.35178e+00\tAbsError: 4.09552e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.35178e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.75560e-09\tAbsError: 9.57391e-07\n", + " Region: \"zone_3\"\tRelError: 1.76804e+00\tAbsError: 2.71568e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68907e-01\tAbsError: 1.36090e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.68433e-01\tAbsError: 1.35478e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.30705e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.75592e-09\tAbsError: 9.57503e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:44\u001b[0m.\u001b[1;36m274\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:44\u001b[0m.\u001b[1;36m274\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.8318181818181818\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.73275e+00\tAbsError: 2.68838e+16\n", + " Region: \"zone_1\"\tRelError: 1.92080e-01\tAbsError: 1.46306e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.91747e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.32681e-04\tAbsError: 1.15542e-01\n", + " Region: \"zone_3\"\tRelError: 1.54067e+00\tAbsError: 2.68838e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.36324e-01\tAbsError: 1.35736e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.01335e-01\tAbsError: 1.33102e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.02681e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.32681e-04\tAbsError: 1.15542e-01\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 6.26409e+01\tAbsError: 2.06464e+17\n", + " Region: \"zone_1\"\tRelError: 5.29122e+01\tAbsError: 4.18750e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.29122e+01\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.18828e-09\tAbsError: 2.15194e-06\n", + " Region: \"zone_3\"\tRelError: 9.72871e+00\tAbsError: 2.06464e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68786e-01\tAbsError: 1.04673e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.64901e-01\tAbsError: 1.01791e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 8.19502e+00\tAbsError: 4.18729e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.19085e-09\tAbsError: 2.15289e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.12307e+00\tAbsError: 1.60442e+16\n", + " Region: \"zone_1\"\tRelError: 1.49907e-01\tAbsError: 9.31426e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49713e-01\tAbsError: 2.58569e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93773e-04\tAbsError: 6.72856e-02\n", + " Region: \"zone_3\"\tRelError: 9.73164e-01\tAbsError: 1.60442e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39500e-01\tAbsError: 8.04160e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.83757e-01\tAbsError: 8.00261e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49713e-01\tAbsError: 2.43087e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.93773e-04\tAbsError: 6.72856e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 1.35511e+01\tAbsError: 2.00721e+17\n", + " Region: \"zone_1\"\tRelError: 9.05776e+00\tAbsError: 3.17953e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 9.05694e+00\tAbsError: 3.18460e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.25235e-04\tAbsError: 2.86107e-01\n", + " Region: \"zone_3\"\tRelError: 4.49330e+00\tAbsError: 2.00721e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.18665e-01\tAbsError: 1.00830e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.48184e-01\tAbsError: 9.98909e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.22562e+00\tAbsError: 3.18461e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.25235e-04\tAbsError: 2.86107e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.25010e-01\tAbsError: 4.83168e+15\n", + " Region: \"zone_1\"\tRelError: 9.35029e-02\tAbsError: 6.02167e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.33558e-02\tAbsError: 9.16529e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47066e-04\tAbsError: 5.10514e-02\n", + " Region: \"zone_3\"\tRelError: 3.31507e-01\tAbsError: 4.83168e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.74852e-01\tAbsError: 2.44485e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.96161e-02\tAbsError: 2.38683e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.68922e-02\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.47066e-04\tAbsError: 5.10514e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.64600e+01\tAbsError: 1.09755e+17\n", + " Region: \"zone_1\"\tRelError: 8.60535e+00\tAbsError: 7.85504e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.60519e+00\tAbsError: 2.58355e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.51895e-04\tAbsError: 5.27150e-02\n", + " Region: \"zone_3\"\tRelError: 7.85464e+00\tAbsError: 1.09755e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.72183e-01\tAbsError: 5.54608e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.84598e-01\tAbsError: 5.42941e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 7.19770e+00\tAbsError: 2.58833e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.51931e-04\tAbsError: 5.27291e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.30868e-01\tAbsError: 1.08442e+15\n", + " Region: \"zone_1\"\tRelError: 2.27753e-02\tAbsError: 2.15920e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.21537e-02\tAbsError: 2.84606e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.21607e-04\tAbsError: 2.15635e-01\n", + " Region: \"zone_3\"\tRelError: 1.08092e-01\tAbsError: 1.08442e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.76472e-02\tAbsError: 4.26455e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.43864e-02\tAbsError: 6.57964e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 4.54371e-02\tAbsError: 2.84606e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.21607e-04\tAbsError: 2.15635e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.39576e+01\tAbsError: 2.65299e+16\n", + " Region: \"zone_1\"\tRelError: 4.26722e+00\tAbsError: 2.88514e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.26642e+00\tAbsError: 1.05207e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.02275e-04\tAbsError: 2.77993e-01\n", + " Region: \"zone_3\"\tRelError: 9.69036e+00\tAbsError: 2.65299e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.08928e-01\tAbsError: 1.33171e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.65693e-02\tAbsError: 1.32128e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 9.53406e+00\tAbsError: 1.05209e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.02275e-04\tAbsError: 2.77993e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.55617e-01\tAbsError: 2.35794e+14\n", + " Region: \"zone_1\"\tRelError: 4.99367e-02\tAbsError: 1.38607e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 4.98970e-02\tAbsError: 6.98741e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.97528e-05\tAbsError: 1.37908e-02\n", + " Region: \"zone_3\"\tRelError: 1.05680e-01\tAbsError: 2.35794e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.27300e-03\tAbsError: 1.18548e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.21148e-03\tAbsError: 1.17246e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.51557e-02\tAbsError: 7.06637e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.97528e-05\tAbsError: 1.37908e-02\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.42859e+00\tAbsError: 2.49911e+15\n", + " Region: \"zone_1\"\tRelError: 5.91891e-01\tAbsError: 3.18861e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.91799e-01\tAbsError: 5.49238e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.17909e-05\tAbsError: 3.18312e-02\n", + " Region: \"zone_3\"\tRelError: 8.36703e-01\tAbsError: 2.49911e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.54401e-02\tAbsError: 1.28918e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.49463e-03\tAbsError: 1.20992e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 8.18676e-01\tAbsError: 5.54292e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.19256e-05\tAbsError: 3.18774e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.12114e-02\tAbsError: 1.98754e+13\n", + " Region: \"zone_1\"\tRelError: 7.04172e-03\tAbsError: 6.58751e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.02275e-03\tAbsError: 5.51750e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.89733e-05\tAbsError: 6.58199e-03\n", + " Region: \"zone_3\"\tRelError: 1.41697e-02\tAbsError: 1.98754e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43525e-04\tAbsError: 1.00008e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.47254e-04\tAbsError: 9.87467e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.32599e-02\tAbsError: 5.78756e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.89775e-05\tAbsError: 6.58354e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.80948e-02\tAbsError: 9.31122e+13\n", + " Region: \"zone_1\"\tRelError: 2.56313e-02\tAbsError: 4.95623e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.56170e-02\tAbsError: 7.64802e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42800e-05\tAbsError: 4.94858e-03\n", + " Region: \"zone_3\"\tRelError: 2.46352e-03\tAbsError: 9.31122e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.46073e-04\tAbsError: 4.55140e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.72001e-04\tAbsError: 4.75982e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.93116e-03\tAbsError: 7.70864e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42820e-05\tAbsError: 4.94922e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.24258e-02\tAbsError: 1.10918e+13\n", + " Region: \"zone_1\"\tRelError: 4.12899e-03\tAbsError: 9.16825e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.12635e-03\tAbsError: 2.69238e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.63359e-06\tAbsError: 9.14133e-04\n", + " Region: \"zone_3\"\tRelError: 8.29681e-03\tAbsError: 1.10918e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.48339e-04\tAbsError: 5.58229e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.46113e-04\tAbsError: 5.50951e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.79972e-03\tAbsError: 2.89698e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.63458e-06\tAbsError: 9.14508e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.25345e-02\tAbsError: 3.21244e+13\n", + " Region: \"zone_1\"\tRelError: 3.04273e-02\tAbsError: 6.71597e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.04254e-02\tAbsError: 1.30196e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.92861e-06\tAbsError: 6.70295e-04\n", + " Region: \"zone_3\"\tRelError: 4.21072e-02\tAbsError: 3.21244e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.48791e-05\tAbsError: 1.57862e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.89246e-05\tAbsError: 1.63382e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.19414e-02\tAbsError: 1.31464e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.92951e-06\tAbsError: 6.70605e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.18008e-03\tAbsError: 1.59787e+12\n", + " Region: \"zone_1\"\tRelError: 7.30404e-04\tAbsError: 4.14536e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.29211e-04\tAbsError: 3.64518e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19313e-06\tAbsError: 4.14171e-04\n", + " Region: \"zone_3\"\tRelError: 1.44968e-03\tAbsError: 1.59787e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.59026e-05\tAbsError: 8.02763e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.55751e-05\tAbsError: 7.95108e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37700e-03\tAbsError: 3.97752e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.19336e-06\tAbsError: 4.14251e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.17447e-03\tAbsError: 2.58043e+12\n", + " Region: \"zone_1\"\tRelError: 7.71621e-04\tAbsError: 2.66830e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 7.70854e-04\tAbsError: 2.10775e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.67206e-07\tAbsError: 2.66619e-04\n", + " Region: \"zone_3\"\tRelError: 4.02848e-04\tAbsError: 2.58043e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.32310e-06\tAbsError: 1.26387e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.42751e-06\tAbsError: 1.31656e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 3.85330e-04\tAbsError: 2.12566e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.67527e-07\tAbsError: 2.66734e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 9.04358e-04\tAbsError: 6.91618e+11\n", + " Region: \"zone_1\"\tRelError: 3.02587e-04\tAbsError: 7.78938e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 3.02363e-04\tAbsError: 1.55785e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.23501e-07\tAbsError: 7.77380e-05\n", + " Region: \"zone_3\"\tRelError: 6.01772e-04\tAbsError: 6.91618e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.55559e-05\tAbsError: 3.47877e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.53466e-05\tAbsError: 3.43741e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.70646e-04\tAbsError: 1.69595e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.23586e-07\tAbsError: 7.77681e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 4.12184e-03\tAbsError: 1.62887e+12\n", + " Region: \"zone_1\"\tRelError: 1.73087e-03\tAbsError: 1.53873e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.73082e-03\tAbsError: 7.35260e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.40606e-08\tAbsError: 1.53138e-05\n", + " Region: \"zone_3\"\tRelError: 2.39098e-03\tAbsError: 1.62887e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.33503e-06\tAbsError: 8.01201e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.97355e-06\tAbsError: 8.27667e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 2.38262e-03\tAbsError: 7.42067e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.40835e-08\tAbsError: 1.53217e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.87260e-04\tAbsError: 1.29403e+11\n", + " Region: \"zone_1\"\tRelError: 6.28801e-05\tAbsError: 2.91909e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.27963e-05\tAbsError: 3.06059e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.38368e-08\tAbsError: 2.91603e-05\n", + " Region: \"zone_3\"\tRelError: 1.24379e-04\tAbsError: 1.29403e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91169e-06\tAbsError: 6.49895e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.87741e-06\tAbsError: 6.44135e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.18506e-04\tAbsError: 3.32307e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.38700e-08\tAbsError: 2.91722e-05\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.79168e-04\tAbsError: 3.20906e+10\n", + " Region: \"zone_1\"\tRelError: 7.55189e-05\tAbsError: 1.50080e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 7.54758e-05\tAbsError: 4.46211e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.31734e-08\tAbsError: 1.50036e-05\n", + " Region: \"zone_3\"\tRelError: 1.03649e-04\tAbsError: 3.20906e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07218e-07\tAbsError: 1.57169e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.64373e-07\tAbsError: 1.63737e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03134e-04\tAbsError: 4.49804e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.31912e-08\tAbsError: 1.50100e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 6.51617e-05\tAbsError: 4.65398e+10\n", + " Region: \"zone_1\"\tRelError: 2.18609e-05\tAbsError: 6.36014e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 2.18427e-05\tAbsError: 1.11819e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.82534e-08\tAbsError: 6.34896e-06\n", + " Region: \"zone_3\"\tRelError: 4.33008e-05\tAbsError: 4.65398e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04809e-06\tAbsError: 2.33986e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.03254e-06\tAbsError: 2.31412e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.12019e-05\tAbsError: 1.20844e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.82605e-08\tAbsError: 6.35150e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:55\u001b[0m.\u001b[1;36m272\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.7999999999999999\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.38551e-04\tAbsError: 8.98512e+10\n", + " Region: \"zone_1\"\tRelError: 1.00201e-04\tAbsError: 8.19631e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00199e-04\tAbsError: 4.20573e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.34630e-09\tAbsError: 8.15425e-07\n", + " Region: \"zone_3\"\tRelError: 1.38350e-04\tAbsError: 8.98512e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.38157e-07\tAbsError: 4.42059e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.17525e-07\tAbsError: 4.56453e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37892e-04\tAbsError: 4.24388e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.34751e-09\tAbsError: 8.15869e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.97502e+01\tAbsError: 1.32808e+17\n", + " Region: \"zone_1\"\tRelError: 2.76074e+01\tAbsError: 4.09563e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.76074e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.00798e-09\tAbsError: 2.08971e-06\n", + " Region: \"zone_3\"\tRelError: 2.14284e+00\tAbsError: 1.32808e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.64512e-01\tAbsError: 6.68287e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.62033e-01\tAbsError: 6.59795e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.16298e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.01029e-09\tAbsError: 2.09057e-06\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 2.07212e-05\tAbsError: 3.92078e+09\n", + " Region: \"zone_1\"\tRelError: 8.71999e-06\tAbsError: 8.80168e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 8.71745e-06\tAbsError: 3.03329e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.53184e-09\tAbsError: 8.79864e-07\n", + " Region: \"zone_3\"\tRelError: 1.20013e-05\tAbsError: 3.92078e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.24810e-09\tAbsError: 1.93525e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.55241e-08\tAbsError: 1.98553e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19739e-05\tAbsError: 3.05503e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.53289e-09\tAbsError: 8.80250e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:56\u001b[0m.\u001b[1;36m825\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:56\u001b[0m.\u001b[1;36m825\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.9363636363636363\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 8.61535e+00\tAbsError: 1.17905e+17\n", + " Region: \"zone_1\"\tRelError: 7.44285e-01\tAbsError: 3.38569e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 7.43397e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.87545e-04\tAbsError: 3.07806e-01\n", + " Region: \"zone_3\"\tRelError: 7.87107e+00\tAbsError: 1.17905e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17750e-01\tAbsError: 5.81639e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.67341e-01\tAbsError: 5.97408e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.58509e+00\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.87924e-04\tAbsError: 3.07944e-01\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.48867e+01\tAbsError: 8.69121e+17\n", + " Region: \"zone_1\"\tRelError: 1.65971e+01\tAbsError: 4.18727e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65971e+01\tAbsError: 4.18726e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.60155e-10\tAbsError: 9.04112e-08\n", + " Region: \"zone_3\"\tRelError: 1.82897e+01\tAbsError: 8.69121e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.24787e-01\tAbsError: 4.24939e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.05667e-01\tAbsError: 4.44182e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.68592e+01\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.60276e-10\tAbsError: 9.04544e-08\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 6.05251e+00\tAbsError: 7.12298e+16\n", + " Region: \"zone_1\"\tRelError: 9.54106e-01\tAbsError: 5.37894e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 9.54025e-01\tAbsError: 2.58886e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.04593e-05\tAbsError: 2.79009e-02\n", + " Region: \"zone_3\"\tRelError: 5.09841e+00\tAbsError: 7.12298e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.89784e-01\tAbsError: 3.67872e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.99659e-01\tAbsError: 3.44425e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 4.40888e+00\tAbsError: 2.58912e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.04593e-05\tAbsError: 2.79009e-02\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.50101e+01\tAbsError: 4.92774e+17\n", + " Region: \"zone_1\"\tRelError: 2.38889e+01\tAbsError: 8.39239e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.38866e+01\tAbsError: 3.18457e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.32486e-03\tAbsError: 8.07393e-01\n", + " Region: \"zone_3\"\tRelError: 1.11212e+01\tAbsError: 4.92774e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.97767e-01\tAbsError: 2.47241e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.70128e-01\tAbsError: 2.45533e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.01510e+01\tAbsError: 3.18461e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.32553e-03\tAbsError: 8.07646e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.96439e+00\tAbsError: 2.12374e+16\n", + " Region: \"zone_1\"\tRelError: 1.45967e+00\tAbsError: 2.87618e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.45886e+00\tAbsError: 9.16520e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03570e-04\tAbsError: 2.78453e-01\n", + " Region: \"zone_3\"\tRelError: 2.50473e+00\tAbsError: 2.12374e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.31487e-01\tAbsError: 1.07624e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.30649e-02\tAbsError: 1.04749e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 2.30937e+00\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.03570e-04\tAbsError: 2.78453e-01\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.35926e+03\tAbsError: 1.05438e+17\n", + " Region: \"zone_1\"\tRelError: 2.03313e+03\tAbsError: 2.96967e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03313e+03\tAbsError: 2.58401e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.81226e-04\tAbsError: 2.71127e-01\n", + " Region: \"zone_3\"\tRelError: 3.26125e+02\tAbsError: 1.05438e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.89823e-01\tAbsError: 5.29897e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.07843e-01\tAbsError: 5.24486e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.25827e+02\tAbsError: 2.58968e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.84277e-04\tAbsError: 2.72186e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.06736e+00\tAbsError: 1.67079e+15\n", + " Region: \"zone_1\"\tRelError: 1.87002e-01\tAbsError: 2.94468e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.86917e-01\tAbsError: 5.45669e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.47563e-05\tAbsError: 2.93922e-02\n", + " Region: \"zone_3\"\tRelError: 1.88036e+00\tAbsError: 1.67079e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95806e-02\tAbsError: 8.61655e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.32450e-03\tAbsError: 8.09135e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.85737e+00\tAbsError: 5.47236e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.50770e-05\tAbsError: 2.95046e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 2.39810e+03\tAbsError: 8.38928e+15\n", + " Region: \"zone_1\"\tRelError: 1.19903e+03\tAbsError: 3.97682e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19903e+03\tAbsError: 1.05203e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11056e-03\tAbsError: 3.87162e-01\n", + " Region: \"zone_3\"\tRelError: 1.19907e+03\tAbsError: 8.38928e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91275e-02\tAbsError: 4.21388e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.23084e-02\tAbsError: 4.17540e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19903e+03\tAbsError: 1.05209e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.11347e-03\tAbsError: 3.88174e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.99757e-02\tAbsError: 6.03219e+13\n", + " Region: \"zone_1\"\tRelError: 5.28092e-03\tAbsError: 6.07421e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 5.26342e-03\tAbsError: 6.43272e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75062e-05\tAbsError: 6.06778e-03\n", + " Region: \"zone_3\"\tRelError: 2.46948e-02\tAbsError: 6.03219e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52421e-04\tAbsError: 2.92320e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.21852e-04\tAbsError: 3.10899e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.41030e-02\tAbsError: 6.47112e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.75095e-05\tAbsError: 6.06885e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 5.74169e+00\tAbsError: 3.25633e+15\n", + " Region: \"zone_1\"\tRelError: 4.07651e+00\tAbsError: 5.82288e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.07484e+00\tAbsError: 1.78290e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67256e-03\tAbsError: 5.82110e-01\n", + " Region: \"zone_3\"\tRelError: 1.66518e+00\tAbsError: 3.25633e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.05814e-02\tAbsError: 1.48807e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.36399e-03\tAbsError: 1.76827e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.65055e+00\tAbsError: 1.80419e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.67601e-03\tAbsError: 5.83306e-01\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.10405e-01\tAbsError: 3.12560e+13\n", + " Region: \"zone_1\"\tRelError: 1.08840e-02\tAbsError: 4.61195e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08827e-02\tAbsError: 1.71511e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32204e-06\tAbsError: 4.59479e-04\n", + " Region: \"zone_3\"\tRelError: 9.95213e-02\tAbsError: 3.12560e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34947e-04\tAbsError: 1.52362e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.27748e-04\tAbsError: 1.60198e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 9.92573e-02\tAbsError: 1.72813e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.32271e-06\tAbsError: 4.59705e-04\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.39772e+01\tAbsError: 2.88783e+15\n", + " Region: \"zone_1\"\tRelError: 1.07664e+01\tAbsError: 3.55558e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07663e+01\tAbsError: 1.67865e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.01653e-04\tAbsError: 3.53879e-02\n", + " Region: \"zone_3\"\tRelError: 3.21075e+00\tAbsError: 2.88783e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.72695e-03\tAbsError: 1.43653e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.01817e-03\tAbsError: 1.45130e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 3.20390e+00\tAbsError: 1.69327e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.01695e-04\tAbsError: 3.54018e-02\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 4.63047e-03\tAbsError: 9.09027e+11\n", + " Region: \"zone_1\"\tRelError: 4.56990e-04\tAbsError: 3.44629e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.55999e-04\tAbsError: 1.41300e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.91190e-07\tAbsError: 3.44488e-04\n", + " Region: \"zone_3\"\tRelError: 4.17348e-03\tAbsError: 9.09027e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.33335e-06\tAbsError: 4.38047e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.02288e-05\tAbsError: 4.70980e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 4.15793e-03\tAbsError: 1.42246e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.91601e-07\tAbsError: 3.44637e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.54985e+00\tAbsError: 2.55969e+14\n", + " Region: \"zone_1\"\tRelError: 3.36029e+00\tAbsError: 2.26869e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.36022e+00\tAbsError: 1.18562e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.51403e-05\tAbsError: 2.26750e-02\n", + " Region: \"zone_3\"\tRelError: 1.89556e-01\tAbsError: 2.55969e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.34677e-04\tAbsError: 1.27496e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.19133e-04\tAbsError: 1.28473e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.88537e-01\tAbsError: 1.19493e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.51674e-05\tAbsError: 2.26844e-02\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 6.49771e-03\tAbsError: 1.64940e+12\n", + " Region: \"zone_1\"\tRelError: 6.42053e-04\tAbsError: 1.77929e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.42002e-04\tAbsError: 9.99896e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.09050e-08\tAbsError: 1.76929e-05\n", + " Region: \"zone_3\"\tRelError: 5.85566e-03\tAbsError: 1.64940e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.16109e-06\tAbsError: 8.03293e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.70130e-06\tAbsError: 8.46106e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.84174e-03\tAbsError: 1.00703e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.09341e-08\tAbsError: 1.77035e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 7.69184e-01\tAbsError: 1.54336e+14\n", + " Region: \"zone_1\"\tRelError: 6.51898e-01\tAbsError: 2.46820e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.51891e-01\tAbsError: 6.67604e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.08303e-06\tAbsError: 2.46152e-03\n", + " Region: \"zone_3\"\tRelError: 1.17286e-01\tAbsError: 1.54336e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.86365e-04\tAbsError: 7.68336e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.04654e-04\tAbsError: 7.75022e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.16988e-01\tAbsError: 6.73289e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.08303e-06\tAbsError: 2.46238e-03\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 5.44825e-04\tAbsError: 5.87780e+10\n", + " Region: \"zone_1\"\tRelError: 5.39394e-05\tAbsError: 2.02429e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.38812e-05\tAbsError: 6.87611e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.82246e-08\tAbsError: 2.02360e-05\n", + " Region: \"zone_3\"\tRelError: 4.90886e-04\tAbsError: 5.87780e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.46411e-07\tAbsError: 2.85251e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.30809e-07\tAbsError: 3.02529e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 4.90250e-04\tAbsError: 6.91269e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.82487e-08\tAbsError: 2.02448e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.01432e-01\tAbsError: 2.06717e+13\n", + " Region: \"zone_1\"\tRelError: 8.22439e-02\tAbsError: 1.10802e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 8.22407e-02\tAbsError: 7.73664e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.18996e-06\tAbsError: 1.10725e-03\n", + " Region: \"zone_3\"\tRelError: 1.91883e-02\tAbsError: 2.06717e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.30941e-05\tAbsError: 1.02983e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.90681e-05\tAbsError: 1.03734e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.91229e-02\tAbsError: 7.79971e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.19006e-06\tAbsError: 1.10725e-03\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.92595e-04\tAbsError: 9.49473e+10\n", + " Region: \"zone_1\"\tRelError: 3.87978e-05\tAbsError: 2.02444e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.87920e-05\tAbsError: 5.96621e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.80757e-09\tAbsError: 2.01847e-06\n", + " Region: \"zone_3\"\tRelError: 3.53797e-04\tAbsError: 9.49473e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.10989e-07\tAbsError: 4.62323e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.83783e-07\tAbsError: 4.87150e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.52997e-04\tAbsError: 6.00786e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.81025e-09\tAbsError: 2.01944e-06\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 4.02759e-02\tAbsError: 9.07693e+12\n", + " Region: \"zone_1\"\tRelError: 3.24485e-02\tAbsError: 1.93405e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 3.24480e-02\tAbsError: 3.17337e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.55164e-07\tAbsError: 1.93088e-04\n", + " Region: \"zone_3\"\tRelError: 7.82740e-03\tAbsError: 9.07693e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.61255e-06\tAbsError: 4.52137e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.67188e-06\tAbsError: 4.55556e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 7.80956e-03\tAbsError: 3.20002e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.55372e-07\tAbsError: 1.93161e-04\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 5.03275e-05\tAbsError: 9.08763e+09\n", + " Region: \"zone_1\"\tRelError: 4.97773e-06\tAbsError: 1.23989e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.97416e-06\tAbsError: 6.85123e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.56554e-09\tAbsError: 1.23921e-06\n", + " Region: \"zone_3\"\tRelError: 4.53497e-05\tAbsError: 9.08763e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.78500e-08\tAbsError: 4.42118e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.59273e-08\tAbsError: 4.66645e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 4.52724e-05\tAbsError: 6.89457e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.56702e-09\tAbsError: 1.23975e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:42:07\u001b[0m.\u001b[1;36m715\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.8999999999999999\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 6.82510e-03\tAbsError: 1.57093e+12\n", + " Region: \"zone_1\"\tRelError: 5.21350e-03\tAbsError: 7.21717e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.21329e-03\tAbsError: 5.21383e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.07357e-07\tAbsError: 7.21195e-05\n", + " Region: \"zone_3\"\tRelError: 1.61160e-03\tAbsError: 1.57093e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.85877e-06\tAbsError: 7.82787e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.31443e-06\tAbsError: 7.88140e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.60722e-03\tAbsError: 5.26937e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.07435e-07\tAbsError: 7.21474e-05\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 5.75731e+01\tAbsError: 5.68784e+17\n", + " Region: \"zone_1\"\tRelError: 3.83859e+01\tAbsError: 4.09543e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.83859e+01\tAbsError: 4.09541e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.16236e-10\tAbsError: 1.79418e-07\n", + " Region: \"zone_3\"\tRelError: 1.91873e+01\tAbsError: 5.68784e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.35377e-01\tAbsError: 2.75826e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.22188e-01\tAbsError: 2.92959e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.77297e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.16460e-10\tAbsError: 1.79501e-07\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 2.34680e-03\tAbsError: 5.70100e+11\n", + " Region: \"zone_1\"\tRelError: 1.79139e-03\tAbsError: 1.51124e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.79135e-03\tAbsError: 1.85167e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.33973e-08\tAbsError: 1.50939e-05\n", + " Region: \"zone_3\"\tRelError: 5.55408e-04\tAbsError: 5.70100e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.68877e-07\tAbsError: 2.84063e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.69915e-07\tAbsError: 2.86037e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.54226e-04\tAbsError: 1.87202e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.34137e-08\tAbsError: 1.51000e-05\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 4.73793e-04\tAbsError: 1.15623e+11\n", + " Region: \"zone_1\"\tRelError: 3.50083e-04\tAbsError: 4.95174e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.50068e-04\tAbsError: 4.03930e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42254e-08\tAbsError: 4.94770e-06\n", + " Region: \"zone_3\"\tRelError: 1.23711e-04\tAbsError: 1.15623e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.13155e-07\tAbsError: 5.76217e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.72856e-07\tAbsError: 5.80008e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.23410e-04\tAbsError: 4.08249e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42309e-08\tAbsError: 4.94974e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.10779e+01\tAbsError: 4.06443e+17\n", + " Region: \"zone_1\"\tRelError: 1.97168e+01\tAbsError: 4.69738e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.97155e+01\tAbsError: 3.07629e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26517e-03\tAbsError: 4.38975e-01\n", + " Region: \"zone_3\"\tRelError: 1.13612e+01\tAbsError: 4.06443e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.26663e-01\tAbsError: 2.03016e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.10593e-01\tAbsError: 2.03427e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03227e+01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26614e-03\tAbsError: 4.39294e-01\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 1.47757e-04\tAbsError: 3.73129e+10\n", + " Region: \"zone_1\"\tRelError: 1.09182e-04\tAbsError: 1.12329e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09178e-04\tAbsError: 1.28385e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.22595e-09\tAbsError: 1.12201e-06\n", + " Region: \"zone_3\"\tRelError: 3.85756e-05\tAbsError: 3.73129e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.96287e-08\tAbsError: 1.85947e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.85050e-08\tAbsError: 1.87182e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.84943e-05\tAbsError: 1.29789e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.22727e-09\tAbsError: 1.12250e-06\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 4.48960e+02\tAbsError: 9.69691e+16\n", + " Region: \"zone_1\"\tRelError: 4.44741e+02\tAbsError: 1.46848e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 4.44741e+02\tAbsError: 2.58943e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.47880e-04\tAbsError: 1.20954e-01\n", + " Region: \"zone_3\"\tRelError: 4.21888e+00\tAbsError: 9.69691e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.30659e-01\tAbsError: 4.85459e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.34310e-01\tAbsError: 4.84232e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.85356e+00\tAbsError: 2.58906e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.48053e-04\tAbsError: 1.21009e-01\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 3.31804e-05\tAbsError: 8.35153e+09\n", + " Region: \"zone_1\"\tRelError: 2.40833e-05\tAbsError: 3.39599e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.40823e-05\tAbsError: 2.98627e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.75541e-10\tAbsError: 3.39301e-07\n", + " Region: \"zone_3\"\tRelError: 9.09711e-06\tAbsError: 8.35153e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.30953e-09\tAbsError: 4.16234e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.24972e-08\tAbsError: 4.18919e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 9.07633e-06\tAbsError: 3.01836e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.75943e-10\tAbsError: 3.39450e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:42:11\u001b[0m.\u001b[1;36m695\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:42:11\u001b[0m.\u001b[1;36m695\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m1.0409090909090908\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 5.03712e+00\tAbsError: 1.21527e+16\n", + " Region: \"zone_1\"\tRelError: 1.00977e+00\tAbsError: 5.07362e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00834e+00\tAbsError: 9.16487e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42992e-03\tAbsError: 4.98197e-01\n", + " Region: \"zone_3\"\tRelError: 4.02736e+00\tAbsError: 1.21527e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.24782e-02\tAbsError: 5.84262e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.44637e-02\tAbsError: 6.31012e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 3.96898e+00\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.43302e-03\tAbsError: 4.99291e-01\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.16228e+03\tAbsError: 1.88827e+18\n", + " Region: \"zone_1\"\tRelError: 1.58051e+03\tAbsError: 4.18725e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.58051e+03\tAbsError: 4.18724e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.33433e-10\tAbsError: 8.11914e-08\n", + " Region: \"zone_3\"\tRelError: 1.58177e+03\tAbsError: 1.88827e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.44099e-01\tAbsError: 9.40408e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.21680e-01\tAbsError: 9.47859e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.58051e+03\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.33530e-10\tAbsError: 8.12262e-08\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.22708e-01\tAbsError: 3.87768e+15\n", + " Region: \"zone_1\"\tRelError: 1.91968e-01\tAbsError: 6.75386e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.90026e-01\tAbsError: 2.52604e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94152e-03\tAbsError: 6.75134e-01\n", + " Region: \"zone_3\"\tRelError: 7.30741e-01\tAbsError: 3.87768e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.56619e-03\tAbsError: 1.77246e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.53274e-03\tAbsError: 2.10521e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.16698e-01\tAbsError: 2.55458e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.94389e-03\tAbsError: 6.75970e-01\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.55529e+01\tAbsError: 5.53890e+17\n", + " Region: \"zone_1\"\tRelError: 5.41760e+00\tAbsError: 1.57448e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.41318e+00\tAbsError: 3.18453e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.42211e-03\tAbsError: 1.54263e+00\n", + " Region: \"zone_3\"\tRelError: 2.01353e+01\tAbsError: 5.53890e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.41602e-01\tAbsError: 2.77810e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.39263e-01\tAbsError: 2.76080e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.94500e+01\tAbsError: 3.18461e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.42270e-03\tAbsError: 1.54278e+00\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 2.39826e+00\tAbsError: 3.43096e+15\n", + " Region: \"zone_1\"\tRelError: 2.04849e-01\tAbsError: 4.45309e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.04721e-01\tAbsError: 2.05839e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27433e-04\tAbsError: 4.43251e-02\n", + " Region: \"zone_3\"\tRelError: 2.19341e+00\tAbsError: 3.43096e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.46827e-03\tAbsError: 1.70482e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.46042e-03\tAbsError: 1.72614e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.18535e+00\tAbsError: 2.07760e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.27493e-04\tAbsError: 4.43450e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 7.83305e+00\tAbsError: 5.91291e+16\n", + " Region: \"zone_1\"\tRelError: 1.19920e+00\tAbsError: 2.77579e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19136e+00\tAbsError: 2.58851e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.83491e-03\tAbsError: 2.74991e+00\n", + " Region: \"zone_3\"\tRelError: 6.63386e+00\tAbsError: 5.91291e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.76383e-02\tAbsError: 2.96632e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.22448e-02\tAbsError: 2.94659e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 6.48613e+00\tAbsError: 2.58913e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.84346e-03\tAbsError: 2.75299e+00\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 3.26801e-01\tAbsError: 3.21780e+14\n", + " Region: \"zone_1\"\tRelError: 1.55999e-02\tAbsError: 2.70060e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55223e-02\tAbsError: 1.53596e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.76036e-05\tAbsError: 2.69907e-02\n", + " Region: \"zone_3\"\tRelError: 3.11201e-01\tAbsError: 3.21780e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.63679e-04\tAbsError: 1.60119e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.88527e-04\tAbsError: 1.61661e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 3.10171e-01\tAbsError: 1.54896e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.76380e-05\tAbsError: 2.70022e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.82267e+01\tAbsError: 1.87951e+16\n", + " Region: \"zone_1\"\tRelError: 7.24256e-01\tAbsError: 1.62549e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 7.19633e-01\tAbsError: 1.05198e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.62256e-03\tAbsError: 1.61497e+00\n", + " Region: \"zone_3\"\tRelError: 1.75024e+01\tAbsError: 1.87951e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04520e-02\tAbsError: 9.32017e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.38432e-02\tAbsError: 9.47491e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74635e+01\tAbsError: 1.05209e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.62918e-03\tAbsError: 1.61732e+00\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 2.06749e-01\tAbsError: 1.86094e+14\n", + " Region: \"zone_1\"\tRelError: 8.34420e-03\tAbsError: 3.03935e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 8.33549e-03\tAbsError: 8.31449e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.71533e-06\tAbsError: 3.03103e-03\n", + " Region: \"zone_3\"\tRelError: 1.98405e-01\tAbsError: 1.86094e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.28032e-04\tAbsError: 9.25440e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.88076e-04\tAbsError: 9.35503e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.97980e-01\tAbsError: 8.38945e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.71848e-06\tAbsError: 3.03213e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.42936e+00\tAbsError: 1.70570e+16\n", + " Region: \"zone_1\"\tRelError: 2.60997e-01\tAbsError: 1.59580e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 2.56434e-01\tAbsError: 1.61896e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.56257e-03\tAbsError: 1.59564e+00\n", + " Region: \"zone_3\"\tRelError: 1.16837e+00\tAbsError: 1.70570e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.62388e-02\tAbsError: 8.19423e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.33442e-03\tAbsError: 8.86273e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13323e+00\tAbsError: 1.64968e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.56346e-03\tAbsError: 1.59594e+00\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.88896e-02\tAbsError: 2.58485e+13\n", + " Region: \"zone_1\"\tRelError: 1.63690e-03\tAbsError: 1.31710e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.63310e-03\tAbsError: 9.88963e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.79528e-06\tAbsError: 1.31612e-03\n", + " Region: \"zone_3\"\tRelError: 3.72527e-02\tAbsError: 2.58485e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.09818e-05\tAbsError: 1.28647e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.53496e-05\tAbsError: 1.29838e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.71926e-02\tAbsError: 9.97598e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.79540e-06\tAbsError: 1.31620e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.15862e+00\tAbsError: 9.93947e+15\n", + " Region: \"zone_1\"\tRelError: 1.49341e-01\tAbsError: 6.40088e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49159e-01\tAbsError: 4.15530e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.81803e-04\tAbsError: 6.35932e-02\n", + " Region: \"zone_3\"\tRelError: 1.00928e+00\tAbsError: 9.93947e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.65718e-02\tAbsError: 4.85353e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.35033e-03\tAbsError: 5.08594e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 9.89178e-01\tAbsError: 4.18389e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.81889e-04\tAbsError: 6.36236e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.59304e-02\tAbsError: 1.10975e+13\n", + " Region: \"zone_1\"\tRelError: 6.60647e-04\tAbsError: 2.32906e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.59978e-04\tAbsError: 3.98553e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.68839e-07\tAbsError: 2.32508e-04\n", + " Region: \"zone_3\"\tRelError: 1.52698e-02\tAbsError: 1.10975e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.32236e-05\tAbsError: 5.52234e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.14382e-05\tAbsError: 5.57521e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.52444e-02\tAbsError: 4.02224e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.69094e-07\tAbsError: 2.32596e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.98332e-02\tAbsError: 3.63196e+14\n", + " Region: \"zone_1\"\tRelError: 1.09015e-02\tAbsError: 5.38113e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.07477e-02\tAbsError: 2.10916e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.53806e-04\tAbsError: 5.37902e-02\n", + " Region: \"zone_3\"\tRelError: 6.89316e-02\tAbsError: 3.63196e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.63442e-03\tAbsError: 1.76292e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.28654e-04\tAbsError: 1.86904e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 6.65147e-02\tAbsError: 2.12170e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.53867e-04\tAbsError: 5.38113e-02\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 3.34486e-03\tAbsError: 1.97182e+12\n", + " Region: \"zone_1\"\tRelError: 1.39485e-04\tAbsError: 8.65138e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.39236e-04\tAbsError: 6.47581e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.48683e-07\tAbsError: 8.64490e-05\n", + " Region: \"zone_3\"\tRelError: 3.20538e-03\tAbsError: 1.97182e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.27846e-06\tAbsError: 9.81632e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.12485e-06\tAbsError: 9.90188e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.20072e-03\tAbsError: 6.54815e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.48776e-07\tAbsError: 8.64826e-05\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.15137e-03\tAbsError: 7.06680e+11\n", + " Region: \"zone_1\"\tRelError: 4.79513e-05\tAbsError: 1.84347e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.78983e-05\tAbsError: 2.30046e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.29631e-08\tAbsError: 1.84117e-05\n", + " Region: \"zone_3\"\tRelError: 1.10342e-03\tAbsError: 7.06680e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.28767e-07\tAbsError: 3.51782e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.37241e-07\tAbsError: 3.54898e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10180e-03\tAbsError: 2.32700e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.29832e-08\tAbsError: 1.84191e-05\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.10734e-01\tAbsError: 3.23140e+14\n", + " Region: \"zone_1\"\tRelError: 1.41532e-02\tAbsError: 4.07427e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.41415e-02\tAbsError: 1.48652e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.16074e-05\tAbsError: 4.05941e-03\n", + " Region: \"zone_3\"\tRelError: 9.65805e-02\tAbsError: 3.23140e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.34482e-04\tAbsError: 1.60954e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.62448e-04\tAbsError: 1.62186e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 9.55720e-02\tAbsError: 1.49643e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.16120e-05\tAbsError: 4.06102e-03\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 2.60636e-04\tAbsError: 1.46372e+11\n", + " Region: \"zone_1\"\tRelError: 1.08690e-05\tAbsError: 6.03090e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08517e-05\tAbsError: 5.09600e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73339e-08\tAbsError: 6.02581e-06\n", + " Region: \"zone_3\"\tRelError: 2.49767e-04\tAbsError: 1.46372e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.68311e-07\tAbsError: 7.29196e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.63262e-07\tAbsError: 7.34528e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 2.49418e-04\tAbsError: 5.15309e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.73406e-08\tAbsError: 6.02830e-06\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.30760e-02\tAbsError: 2.51950e+13\n", + " Region: \"zone_1\"\tRelError: 1.67509e-03\tAbsError: 2.23250e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66869e-03\tAbsError: 1.29509e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.39687e-06\tAbsError: 2.23120e-03\n", + " Region: \"zone_3\"\tRelError: 1.14009e-02\tAbsError: 2.51950e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.40076e-05\tAbsError: 1.25506e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.29176e-05\tAbsError: 1.26444e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12476e-02\tAbsError: 1.30350e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.39807e-06\tAbsError: 2.23171e-03\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 8.12930e-05\tAbsError: 4.69072e+10\n", + " Region: \"zone_1\"\tRelError: 3.38946e-06\tAbsError: 1.38742e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 3.38548e-06\tAbsError: 1.62196e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.98640e-09\tAbsError: 1.38580e-06\n", + " Region: \"zone_3\"\tRelError: 7.79035e-05\tAbsError: 4.69072e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.45193e-08\tAbsError: 2.33605e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.92263e-08\tAbsError: 2.35467e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.77958e-05\tAbsError: 1.64038e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.98804e-09\tAbsError: 1.38641e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:42:21\u001b[0m.\u001b[1;36m924\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.9999999999999999\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 7.34066e-03\tAbsError: 1.50746e+13\n", + " Region: \"zone_1\"\tRelError: 9.38378e-04\tAbsError: 2.73944e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 9.37593e-04\tAbsError: 6.05377e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.84664e-07\tAbsError: 2.73339e-04\n", + " Region: \"zone_3\"\tRelError: 6.40228e-03\tAbsError: 1.50746e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.70757e-05\tAbsError: 7.51334e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.49476e-05\tAbsError: 7.56129e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 6.34947e-03\tAbsError: 6.09341e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.84733e-07\tAbsError: 2.73360e-04\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.58363e+04\tAbsError: 1.47473e+18\n", + " Region: \"zone_1\"\tRelError: 6.98536e+03\tAbsError: 4.09543e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.98536e+03\tAbsError: 4.09539e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20641e-09\tAbsError: 4.19390e-07\n", + " Region: \"zone_3\"\tRelError: 2.88509e+04\tAbsError: 1.47473e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.64637e-01\tAbsError: 7.31003e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.38568e-01\tAbsError: 7.43726e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 2.88496e+04\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.20691e-09\tAbsError: 4.19574e-07\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.13955e-03\tAbsError: 1.79629e+12\n", + " Region: \"zone_1\"\tRelError: 1.45110e-04\tAbsError: 1.21666e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.44761e-04\tAbsError: 7.64701e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.49037e-07\tAbsError: 1.21590e-04\n", + " Region: \"zone_3\"\tRelError: 9.94436e-04\tAbsError: 1.79629e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.54025e-06\tAbsError: 8.95445e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.81841e-06\tAbsError: 9.00849e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 9.84728e-04\tAbsError: 7.69552e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.49092e-07\tAbsError: 1.21609e-04\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 4.58110e-04\tAbsError: 7.82252e+11\n", + " Region: \"zone_1\"\tRelError: 5.84708e-05\tAbsError: 2.02313e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 5.84129e-05\tAbsError: 2.95470e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.79137e-08\tAbsError: 2.02017e-05\n", + " Region: \"zone_3\"\tRelError: 3.99639e-04\tAbsError: 7.82252e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33892e-06\tAbsError: 3.90049e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.59692e-06\tAbsError: 3.92202e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 3.96645e-04\tAbsError: 2.98275e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.79359e-08\tAbsError: 2.02098e-05\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 8.73385e+02\tAbsError: 4.80817e+17\n", + " Region: \"zone_1\"\tRelError: 4.36320e+02\tAbsError: 1.19061e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 4.36317e+02\tAbsError: 3.07626e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.33293e-03\tAbsError: 1.15985e+00\n", + " Region: \"zone_3\"\tRelError: 4.37065e+02\tAbsError: 4.80817e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.79759e-01\tAbsError: 2.41402e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.64874e-01\tAbsError: 2.39414e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 4.36317e+02\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.33331e-03\tAbsError: 1.15994e+00\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 8.41870e-05\tAbsError: 1.22496e+11\n", + " Region: \"zone_1\"\tRelError: 1.07138e-05\tAbsError: 7.33542e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06928e-05\tAbsError: 5.31771e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.10137e-08\tAbsError: 7.33011e-06\n", + " Region: \"zone_3\"\tRelError: 7.34732e-05\tAbsError: 1.22496e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.63500e-07\tAbsError: 6.10925e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.36093e-07\tAbsError: 6.14040e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 7.28525e-05\tAbsError: 5.36696e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.10216e-08\tAbsError: 7.33297e-06\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:42:25\u001b[0m.\u001b[1;36m053\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:42:25\u001b[0m.\u001b[1;36m053\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m1.1454545454545455\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 1.66204e+03\tAbsError: 6.93474e+16\n", + " Region: \"zone_1\"\tRelError: 8.76338e+02\tAbsError: 4.68048e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 8.76336e+02\tAbsError: 2.58614e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26825e-03\tAbsError: 4.42186e-01\n", + " Region: \"zone_3\"\tRelError: 7.85702e+02\tAbsError: 6.93474e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.33245e-02\tAbsError: 3.47970e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.15582e-02\tAbsError: 3.45503e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 7.85556e+02\tAbsError: 2.58778e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.26845e-03\tAbsError: 4.42250e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.46324e+03\tAbsError: 5.14576e+15\n", + " Region: \"zone_1\"\tRelError: 6.87978e+02\tAbsError: 7.78255e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 6.87976e+02\tAbsError: 9.16449e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19704e-03\tAbsError: 7.69091e-01\n", + " Region: \"zone_3\"\tRelError: 7.75259e+02\tAbsError: 5.14576e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52317e-02\tAbsError: 2.57522e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.85097e-03\tAbsError: 2.57054e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.75237e+02\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.19704e-03\tAbsError: 7.69091e-01\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 3.59974e+03\tAbsError: 2.65317e+18\n", + " Region: \"zone_1\"\tRelError: 7.29760e+02\tAbsError: 4.18736e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.29760e+02\tAbsError: 4.18722e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.08424e-09\tAbsError: 1.42468e-06\n", + " Region: \"zone_3\"\tRelError: 2.86998e+03\tAbsError: 2.65317e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.56743e-01\tAbsError: 1.32495e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.47769e-01\tAbsError: 1.32822e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 2.86888e+03\tAbsError: 4.18730e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.08585e-09\tAbsError: 1.42528e-06\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 6.96023e+00\tAbsError: 5.32372e+15\n", + " Region: \"zone_1\"\tRelError: 4.54639e+00\tAbsError: 1.02863e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 4.54344e+00\tAbsError: 2.66559e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.94644e-03\tAbsError: 1.02837e+00\n", + " Region: \"zone_3\"\tRelError: 2.41384e+00\tAbsError: 5.32372e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.51219e-02\tAbsError: 2.60450e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.65403e-03\tAbsError: 2.71922e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.38011e+00\tAbsError: 2.68000e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.95139e-03\tAbsError: 1.03011e+00\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 2.84055e+00\tAbsError: 4.94765e+17\n", + " Region: \"zone_1\"\tRelError: 1.04493e+00\tAbsError: 2.77078e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.03715e+00\tAbsError: 3.18450e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.78051e-03\tAbsError: 2.73893e+00\n", + " Region: \"zone_3\"\tRelError: 1.79562e+00\tAbsError: 4.94765e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.48499e-01\tAbsError: 2.47705e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.45175e-01\tAbsError: 2.47060e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.29416e+00\tAbsError: 3.18462e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.78137e-03\tAbsError: 2.73932e+00\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 6.07732e+01\tAbsError: 5.66142e+15\n", + " Region: \"zone_1\"\tRelError: 6.09549e-01\tAbsError: 6.00187e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.09378e-01\tAbsError: 2.72034e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71203e-04\tAbsError: 5.97467e-02\n", + " Region: \"zone_3\"\tRelError: 6.01636e+01\tAbsError: 5.66142e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.13691e-02\tAbsError: 2.75447e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.48872e-03\tAbsError: 2.90695e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 6.01496e+01\tAbsError: 2.74039e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.71270e-04\tAbsError: 5.97699e-02\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 4.62423e-01\tAbsError: 1.95408e+16\n", + " Region: \"zone_1\"\tRelError: 2.05320e-01\tAbsError: 2.35938e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.98710e-01\tAbsError: 2.58598e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.60950e-03\tAbsError: 2.33352e+00\n", + " Region: \"zone_3\"\tRelError: 2.57103e-01\tAbsError: 1.95408e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.71902e-02\tAbsError: 9.71912e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.43718e-02\tAbsError: 9.82163e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.98929e-01\tAbsError: 2.58489e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.61200e-03\tAbsError: 2.33442e+00\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.18137e+00\tAbsError: 3.71256e+14\n", + " Region: \"zone_1\"\tRelError: 8.31734e-02\tAbsError: 3.74686e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 8.30661e-02\tAbsError: 1.92544e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.07324e-04\tAbsError: 3.74493e-02\n", + " Region: \"zone_3\"\tRelError: 1.09819e+00\tAbsError: 3.71256e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.23962e-03\tAbsError: 1.84907e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.91184e-04\tAbsError: 1.86349e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.09615e+00\tAbsError: 1.93888e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.07368e-04\tAbsError: 3.74645e-02\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 9.39209e-01\tAbsError: 2.29973e+16\n", + " Region: \"zone_1\"\tRelError: 3.62257e-01\tAbsError: 1.50539e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 3.58005e-01\tAbsError: 1.05196e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.25210e-03\tAbsError: 1.49487e+00\n", + " Region: \"zone_3\"\tRelError: 5.76952e-01\tAbsError: 2.29973e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88256e-02\tAbsError: 1.14448e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.88555e-02\tAbsError: 1.15525e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 5.25018e-01\tAbsError: 1.05211e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.25239e-03\tAbsError: 1.49497e+00\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.46007e+00\tAbsError: 2.29640e+14\n", + " Region: \"zone_1\"\tRelError: 4.03111e-02\tAbsError: 3.94907e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 4.02998e-02\tAbsError: 1.05545e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13173e-05\tAbsError: 3.93851e-03\n", + " Region: \"zone_3\"\tRelError: 1.41976e+00\tAbsError: 2.29640e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16328e-04\tAbsError: 1.14327e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.52600e-04\tAbsError: 1.15314e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.41908e+00\tAbsError: 1.06317e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13180e-05\tAbsError: 3.93853e-03\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 3.51822e-01\tAbsError: 1.66219e+16\n", + " Region: \"zone_1\"\tRelError: 1.40128e-01\tAbsError: 7.95313e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37872e-01\tAbsError: 2.26078e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.25603e-03\tAbsError: 7.95087e-01\n", + " Region: \"zone_3\"\tRelError: 2.11694e-01\tAbsError: 1.66219e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10115e-02\tAbsError: 8.31252e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.28653e-03\tAbsError: 8.30938e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.90131e-01\tAbsError: 2.26461e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.26521e-03\tAbsError: 7.98211e-01\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 2.11111e-01\tAbsError: 2.79827e+13\n", + " Region: \"zone_1\"\tRelError: 7.25122e-03\tAbsError: 1.74217e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 7.24621e-03\tAbsError: 1.19347e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.00326e-06\tAbsError: 1.74098e-03\n", + " Region: \"zone_3\"\tRelError: 2.03859e-01\tAbsError: 2.79827e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67617e-05\tAbsError: 1.39372e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.89481e-05\tAbsError: 1.40455e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03729e-01\tAbsError: 1.20196e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.00391e-06\tAbsError: 1.74126e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 9.40066e-02\tAbsError: 6.30541e+15\n", + " Region: \"zone_1\"\tRelError: 3.48618e-02\tAbsError: 2.65888e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 3.47869e-02\tAbsError: 1.70704e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.48919e-05\tAbsError: 2.64181e-02\n", + " Region: \"zone_3\"\tRelError: 5.91448e-02\tAbsError: 6.30541e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.61160e-03\tAbsError: 3.10397e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.18077e-03\tAbsError: 3.20144e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 4.72775e-02\tAbsError: 1.71665e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.49375e-05\tAbsError: 2.64342e-02\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 9.24879e-02\tAbsError: 1.23871e+13\n", + " Region: \"zone_1\"\tRelError: 2.93353e-03\tAbsError: 2.91323e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.93269e-03\tAbsError: 4.76030e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.36559e-07\tAbsError: 2.90847e-04\n", + " Region: \"zone_3\"\tRelError: 8.95543e-02\tAbsError: 1.23871e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95573e-05\tAbsError: 6.16953e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.91930e-05\tAbsError: 6.21758e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 8.95147e-02\tAbsError: 4.79468e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.36647e-07\tAbsError: 2.90878e-04\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 1.30073e-03\tAbsError: 2.64584e+14\n", + " Region: \"zone_1\"\tRelError: 2.52092e-04\tAbsError: 1.96953e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.96256e-04\tAbsError: 7.14084e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.58368e-05\tAbsError: 1.96882e-02\n", + " Region: \"zone_3\"\tRelError: 1.04864e-03\tAbsError: 2.64584e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.14833e-04\tAbsError: 1.30426e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.17855e-04\tAbsError: 1.34158e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 2.60109e-04\tAbsError: 7.17928e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.58455e-05\tAbsError: 1.96915e-02\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 1.79957e-02\tAbsError: 2.00241e+12\n", + " Region: \"zone_1\"\tRelError: 5.80226e-04\tAbsError: 1.06766e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 5.79919e-04\tAbsError: 7.62075e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.06294e-07\tAbsError: 1.06690e-04\n", + " Region: \"zone_3\"\tRelError: 1.74155e-02\tAbsError: 2.00241e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.83435e-06\tAbsError: 9.97535e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.43171e-06\tAbsError: 1.00487e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.74069e-02\tAbsError: 7.69605e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.06408e-07\tAbsError: 1.06730e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.57360e-03\tAbsError: 1.38202e+14\n", + " Region: \"zone_1\"\tRelError: 2.18644e-03\tAbsError: 1.28048e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.18283e-03\tAbsError: 5.49178e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.61467e-06\tAbsError: 1.27499e-03\n", + " Region: \"zone_3\"\tRelError: 3.38715e-03\tAbsError: 1.38202e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.63180e-04\tAbsError: 6.70794e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.54114e-04\tAbsError: 7.11228e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 2.96624e-03\tAbsError: 5.52045e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.61609e-06\tAbsError: 1.27549e-03\n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 6.16882e-03\tAbsError: 7.25783e+11\n", + " Region: \"zone_1\"\tRelError: 1.98056e-04\tAbsError: 2.16951e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.97994e-04\tAbsError: 2.65471e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.22079e-08\tAbsError: 2.16685e-05\n", + " Region: \"zone_3\"\tRelError: 5.97077e-03\tAbsError: 7.25783e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.06142e-06\tAbsError: 3.61574e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.32785e-06\tAbsError: 3.64210e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 5.96832e-03\tAbsError: 2.68167e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.22311e-08\tAbsError: 2.16771e-05\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.97838e-04\tAbsError: 1.04334e+13\n", + " Region: \"zone_1\"\tRelError: 1.51323e-04\tAbsError: 6.35179e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49519e-04\tAbsError: 4.00189e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.80376e-06\tAbsError: 6.34779e-04\n", + " Region: \"zone_3\"\tRelError: 2.46515e-04\tAbsError: 1.04334e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.56648e-05\tAbsError: 5.11483e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.60654e-05\tAbsError: 5.31857e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.02981e-04\tAbsError: 4.02172e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.80376e-06\tAbsError: 6.34779e-04\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.32512e-03\tAbsError: 1.39840e+11\n", + " Region: \"zone_1\"\tRelError: 4.25623e-05\tAbsError: 6.99519e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.25422e-05\tAbsError: 5.61701e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.00663e-08\tAbsError: 6.98958e-06\n", + " Region: \"zone_3\"\tRelError: 1.28256e-03\tAbsError: 1.39840e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.35090e-07\tAbsError: 6.96726e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.14577e-07\tAbsError: 7.01672e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.28199e-03\tAbsError: 5.67287e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.00739e-08\tAbsError: 6.99239e-06\n", + "Iteration: 13\n", + " Device: \"device\"\tRelError: 4.07310e-04\tAbsError: 4.47841e+10\n", + " Region: \"zone_1\"\tRelError: 1.30926e-05\tAbsError: 1.54205e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 1.30881e-05\tAbsError: 1.75011e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.42203e-09\tAbsError: 1.54030e-06\n", + " Region: \"zone_3\"\tRelError: 3.94218e-04\tAbsError: 4.47841e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.33915e-08\tAbsError: 2.23135e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.92263e-08\tAbsError: 2.24706e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 3.94061e-04\tAbsError: 1.76782e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.42382e-09\tAbsError: 1.54097e-06\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 2.53876e-04\tAbsError: 5.38820e+12\n", + " Region: \"zone_1\"\tRelError: 1.00966e-04\tAbsError: 5.99465e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.00796e-04\tAbsError: 1.68312e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69863e-07\tAbsError: 5.97782e-05\n", + " Region: \"zone_3\"\tRelError: 1.52910e-04\tAbsError: 5.38820e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.12473e-06\tAbsError: 2.67156e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.57726e-06\tAbsError: 2.71664e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 1.37038e-04\tAbsError: 1.69127e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.69863e-07\tAbsError: 5.97782e-05\n", + "Iteration: 14\n", + " Device: \"device\"\tRelError: 9.30929e-05\tAbsError: 9.62198e+09\n", + " Region: \"zone_1\"\tRelError: 2.99044e-06\tAbsError: 4.57774e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 2.98912e-06\tAbsError: 3.95789e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.31308e-09\tAbsError: 4.57379e-07\n", + " Region: \"zone_3\"\tRelError: 9.01024e-05\tAbsError: 9.62198e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50292e-08\tAbsError: 4.79430e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.16874e-08\tAbsError: 4.82769e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 9.00644e-05\tAbsError: 3.99740e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.31362e-09\tAbsError: 4.57578e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:42:36\u001b[0m.\u001b[1;36m668\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 1.0999999999999999\u001b[0m\n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.83984e-05\tAbsError: 6.20494e+11\n", + " Region: \"zone_1\"\tRelError: 1.11685e-05\tAbsError: 2.54379e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 1.10961e-05\tAbsError: 1.76630e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.24189e-08\tAbsError: 2.54203e-05\n", + " Region: \"zone_3\"\tRelError: 1.72299e-05\tAbsError: 6.20494e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01596e-06\tAbsError: 3.08474e+11\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.06157e-06\tAbsError: 3.12020e+11\n", + " Equation: \"PotentialEquation\"\tRelError: 1.50799e-05\tAbsError: 1.77456e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.24363e-08\tAbsError: 2.54264e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:42:36\u001b[0m.\u001b[1;36m888\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: 1.25\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.20731e+02\tAbsError: 2.29552e+18\n", + " Region: \"zone_1\"\tRelError: 1.41155e+02\tAbsError: 4.09537e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.41155e+02\tAbsError: 4.09536e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.05730e-10\tAbsError: 1.06495e-07\n", + " Region: \"zone_3\"\tRelError: 7.95757e+01\tAbsError: 2.29552e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.78600e-01\tAbsError: 1.14566e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.65499e-01\tAbsError: 1.14986e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 7.84316e+01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.05855e-10\tAbsError: 1.06540e-07\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 7.72551e+00\tAbsError: 3.07479e+18\n", + " Region: \"zone_1\"\tRelError: 5.80587e+00\tAbsError: 4.18750e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 5.80587e+00\tAbsError: 4.18717e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.52425e-09\tAbsError: 3.34314e-06\n", + " Region: \"zone_3\"\tRelError: 1.91964e+00\tAbsError: 3.07479e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.90381e-01\tAbsError: 1.53657e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.81658e-01\tAbsError: 1.53822e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 9.47601e-01\tAbsError: 4.18728e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.52641e-09\tAbsError: 3.34393e-06\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 3.75350e+01\tAbsError: 4.89721e+17\n", + " Region: \"zone_1\"\tRelError: 1.04844e+01\tAbsError: 2.18917e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04782e+01\tAbsError: 3.07622e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.15763e-03\tAbsError: 2.15840e+00\n", + " Region: \"zone_3\"\tRelError: 2.70506e+01\tAbsError: 4.89721e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.63139e-01\tAbsError: 2.45322e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.63561e-01\tAbsError: 2.44399e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 2.65177e+01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.15822e-03\tAbsError: 2.15862e+00\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 8.02267e-01\tAbsError: 3.87882e+17\n", + " Region: \"zone_1\"\tRelError: 1.96669e-01\tAbsError: 4.07465e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.85330e-01\tAbsError: 3.18444e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13395e-02\tAbsError: 4.04281e+00\n", + " Region: \"zone_3\"\tRelError: 6.05597e-01\tAbsError: 3.87882e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.15311e-01\tAbsError: 1.94168e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.98435e-01\tAbsError: 1.93714e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.80510e-01\tAbsError: 3.18460e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.13406e-02\tAbsError: 4.04330e+00\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 8.28645e+00\tAbsError: 2.11022e+16\n", + " Region: \"zone_1\"\tRelError: 5.89404e-01\tAbsError: 1.45838e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 5.85324e-01\tAbsError: 2.58807e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.07995e-03\tAbsError: 1.43250e+00\n", + " Region: \"zone_3\"\tRelError: 7.69704e+00\tAbsError: 2.11022e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.08442e-02\tAbsError: 1.06070e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.62030e-02\tAbsError: 1.04952e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 7.63591e+00\tAbsError: 2.58945e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.08866e-03\tAbsError: 1.43560e+00\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 3.26028e-01\tAbsError: 5.52255e+16\n", + " Region: \"zone_1\"\tRelError: 1.30298e-01\tAbsError: 6.51520e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12331e-01\tAbsError: 2.58932e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.79670e-02\tAbsError: 6.48931e+00\n", + " Region: \"zone_3\"\tRelError: 1.95730e-01\tAbsError: 5.52255e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.17944e-02\tAbsError: 2.75730e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.36243e-02\tAbsError: 2.76524e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.12331e-01\tAbsError: 2.58932e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.79798e-02\tAbsError: 6.49411e+00\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 3.26646e+01\tAbsError: 1.05374e+16\n", + " Region: \"zone_1\"\tRelError: 1.63183e+01\tAbsError: 9.50748e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.63156e+01\tAbsError: 9.16413e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.68897e-03\tAbsError: 9.41583e-01\n", + " Region: \"zone_3\"\tRelError: 1.63463e+01\tAbsError: 1.05374e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.31069e-02\tAbsError: 5.23674e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.49207e-02\tAbsError: 5.30063e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 1.63156e+01\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69706e-03\tAbsError: 9.44437e-01\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.01824e-01\tAbsError: 1.39289e+17\n", + " Region: \"zone_1\"\tRelError: 1.05892e-01\tAbsError: 5.70881e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 8.98624e-02\tAbsError: 1.05192e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60298e-02\tAbsError: 5.69829e+00\n", + " Region: \"zone_3\"\tRelError: 2.95932e-01\tAbsError: 1.39289e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.91152e-02\tAbsError: 6.95329e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.10025e-01\tAbsError: 6.97560e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 8.07486e-02\tAbsError: 1.05208e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.60433e-02\tAbsError: 5.70315e+00\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 9.58482e+00\tAbsError: 6.34667e+15\n", + " Region: \"zone_1\"\tRelError: 2.32125e+00\tAbsError: 4.26139e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 2.32004e+00\tAbsError: 1.24165e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.21533e-03\tAbsError: 4.26014e-01\n", + " Region: \"zone_3\"\tRelError: 7.26357e+00\tAbsError: 6.34667e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.94984e-03\tAbsError: 3.16660e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.69319e-03\tAbsError: 3.18007e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.25171e+00\tAbsError: 1.24217e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.21533e-03\tAbsError: 4.26014e-01\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 1.91415e-01\tAbsError: 1.00021e+17\n", + " Region: \"zone_1\"\tRelError: 5.15868e-02\tAbsError: 4.56806e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 5.03019e-02\tAbsError: 1.18963e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.28487e-03\tAbsError: 4.55616e-01\n", + " Region: \"zone_3\"\tRelError: 1.39828e-01\tAbsError: 1.00021e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.62230e-02\tAbsError: 4.99301e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.09910e-02\tAbsError: 5.00912e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 5.13235e-02\tAbsError: 1.18981e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.29038e-03\tAbsError: 4.57437e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 8.10109e-01\tAbsError: 2.49944e+15\n", + " Region: \"zone_1\"\tRelError: 2.73036e-01\tAbsError: 9.44224e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.73009e-01\tAbsError: 7.54274e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.67762e-05\tAbsError: 9.36682e-03\n", + " Region: \"zone_3\"\tRelError: 5.37074e-01\tAbsError: 2.49944e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.44605e-03\tAbsError: 1.22669e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 6.58618e-04\tAbsError: 1.27274e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 5.30942e-01\tAbsError: 7.59068e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.67897e-05\tAbsError: 9.37175e-03\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.04251e-02\tAbsError: 8.30667e+15\n", + " Region: \"zone_1\"\tRelError: 2.75203e-03\tAbsError: 6.42693e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.57122e-03\tAbsError: 6.56089e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.80808e-04\tAbsError: 6.42037e-02\n", + " Region: \"zone_3\"\tRelError: 7.67309e-03\tAbsError: 8.30667e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.62570e-03\tAbsError: 4.13378e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.11159e-03\tAbsError: 4.17290e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 7.54923e-04\tAbsError: 6.56149e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.80878e-04\tAbsError: 6.42290e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.50361e-02\tAbsError: 6.78895e+13\n", + " Region: \"zone_1\"\tRelError: 2.37122e-02\tAbsError: 9.45855e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.36853e-02\tAbsError: 1.50946e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69242e-05\tAbsError: 9.45704e-03\n", + " Region: \"zone_3\"\tRelError: 5.13239e-02\tAbsError: 6.78895e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.92168e-04\tAbsError: 3.35710e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.54573e-05\tAbsError: 3.43185e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 5.10793e-02\tAbsError: 1.52419e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.69352e-05\tAbsError: 9.46083e-03\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 2.43138e-03\tAbsError: 2.10283e+15\n", + " Region: \"zone_1\"\tRelError: 6.81118e-04\tAbsError: 9.31262e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 6.55096e-04\tAbsError: 1.84496e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.60224e-05\tAbsError: 9.29417e-03\n", + " Region: \"zone_3\"\tRelError: 1.75026e-03\tAbsError: 2.10283e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.38215e-04\tAbsError: 1.04835e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 7.17284e-04\tAbsError: 1.05448e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 6.68722e-04\tAbsError: 1.84544e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.60358e-05\tAbsError: 9.29887e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 5.59505e-02\tAbsError: 5.66225e+13\n", + " Region: \"zone_1\"\tRelError: 1.83279e-02\tAbsError: 3.54044e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 1.83269e-02\tAbsError: 2.54887e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00068e-06\tAbsError: 3.51495e-04\n", + " Region: \"zone_3\"\tRelError: 3.76225e-02\tAbsError: 5.66225e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.14084e-04\tAbsError: 2.81906e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.55711e-05\tAbsError: 2.84319e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.74519e-02\tAbsError: 2.56399e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.00120e-06\tAbsError: 3.51676e-04\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.03928e-04\tAbsError: 1.40333e+14\n", + " Region: \"zone_1\"\tRelError: 1.24164e-04\tAbsError: 2.26244e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17835e-04\tAbsError: 2.06645e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.32904e-06\tAbsError: 2.26038e-03\n", + " Region: \"zone_3\"\tRelError: 1.79764e-04\tAbsError: 1.40333e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.30254e-04\tAbsError: 6.96368e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.63288e-05\tAbsError: 7.06959e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.68486e-05\tAbsError: 2.06703e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.33247e-06\tAbsError: 2.26161e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 7.88395e-04\tAbsError: 2.50647e+12\n", + " Region: \"zone_1\"\tRelError: 2.67678e-04\tAbsError: 3.14356e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.66781e-04\tAbsError: 1.15072e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.96866e-07\tAbsError: 3.14241e-04\n", + " Region: \"zone_3\"\tRelError: 5.20717e-04\tAbsError: 2.50647e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 9.42005e-06\tAbsError: 1.25767e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.70094e-06\tAbsError: 1.24880e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.06699e-04\tAbsError: 1.15714e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.97159e-07\tAbsError: 3.14358e-04\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 5.99632e-05\tAbsError: 4.11052e+13\n", + " Region: \"zone_1\"\tRelError: 2.28310e-05\tAbsError: 2.19806e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 2.22169e-05\tAbsError: 4.64136e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.14063e-07\tAbsError: 2.19342e-04\n", + " Region: \"zone_3\"\tRelError: 3.71322e-05\tAbsError: 4.11052e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.38645e-05\tAbsError: 2.04271e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.71535e-06\tAbsError: 2.06782e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 3.93797e-06\tAbsError: 4.64170e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 6.14301e-07\tAbsError: 2.19426e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 3.01493e-03\tAbsError: 2.03887e+12\n", + " Region: \"zone_1\"\tRelError: 9.68351e-04\tAbsError: 1.94584e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 9.68295e-04\tAbsError: 8.45891e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.51588e-08\tAbsError: 1.93738e-05\n", + " Region: \"zone_3\"\tRelError: 2.04658e-03\tAbsError: 2.03887e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.90840e-06\tAbsError: 1.01569e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.17272e-06\tAbsError: 1.02318e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 2.03944e-03\tAbsError: 8.50612e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.51787e-08\tAbsError: 1.93808e-05\n", + "Iteration: 10\n", + " Device: \"device\"\tRelError: 2.13878e-04\tAbsError: 1.24488e+11\n", + " Region: \"zone_1\"\tRelError: 6.77267e-05\tAbsError: 1.32659e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 6.76887e-05\tAbsError: 6.49775e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.79174e-08\tAbsError: 1.32594e-05\n", + " Region: \"zone_3\"\tRelError: 1.46151e-04\tAbsError: 1.24488e+11\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.41336e-07\tAbsError: 6.10291e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.66825e-07\tAbsError: 6.34588e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.45305e-04\tAbsError: 6.53401e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.79209e-08\tAbsError: 1.32605e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:42:48\u001b[0m.\u001b[1;36m551\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "Iteration: 11\n", + " Device: \"device\"\tRelError: 1.56196e-04\tAbsError: 8.22099e+10\n", + " Region: \"zone_1\"\tRelError: 4.96683e-05\tAbsError: 1.29947e-06\n", + " Equation: \"PotentialEquation\"\tRelError: 4.96646e-05\tAbsError: 3.20602e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.70688e-09\tAbsError: 1.29627e-06\n", + " Region: \"zone_3\"\tRelError: 1.06527e-04\tAbsError: 8.22099e+10\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.53254e-07\tAbsError: 4.09765e+10\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.71613e-07\tAbsError: 4.12334e+10\n", + " Equation: \"PotentialEquation\"\tRelError: 1.06199e-04\tAbsError: 3.22381e-09\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.70726e-09\tAbsError: 1.29639e-06\n", + "Iteration: 12\n", + " Device: \"device\"\tRelError: 1.81376e-05\tAbsError: 8.11356e+09\n", + " Region: \"zone_1\"\tRelError: 5.70565e-06\tAbsError: 6.56313e-07\n", + " Equation: \"PotentialEquation\"\tRelError: 5.70378e-06\tAbsError: 3.58334e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.87514e-09\tAbsError: 6.55955e-07\n", + " Region: \"zone_3\"\tRelError: 1.24320e-05\tAbsError: 8.11356e+09\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.21600e-08\tAbsError: 4.01059e+09\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.61223e-08\tAbsError: 4.10296e+09\n", + " Equation: \"PotentialEquation\"\tRelError: 1.23818e-05\tAbsError: 3.60254e-10\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.87583e-09\tAbsError: 6.56203e-07\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:42:49\u001b[0m.\u001b[1;36m618\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 1.2\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 1.06075e+01\tAbsError: 2.79862e+18\n", + " Region: \"zone_1\"\tRelError: 7.94145e+00\tAbsError: 4.09534e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 7.94145e+00\tAbsError: 4.09533e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.59504e-10\tAbsError: 9.07782e-08\n", + " Region: \"zone_3\"\tRelError: 2.66604e+00\tAbsError: 2.79862e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.05077e-01\tAbsError: 1.39826e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.97560e-01\tAbsError: 1.40036e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 1.66340e+00\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.59605e-10\tAbsError: 9.08149e-08\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 8.81850e-01\tAbsError: 3.97971e+17\n", + " Region: \"zone_1\"\tRelError: 2.47010e-01\tAbsError: 3.38007e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 2.37556e-01\tAbsError: 3.07618e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.45414e-03\tAbsError: 3.34931e+00\n", + " Region: \"zone_3\"\tRelError: 6.34840e-01\tAbsError: 3.97971e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.14857e-01\tAbsError: 1.99270e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.03011e-01\tAbsError: 1.98701e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 2.07516e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 9.45541e-03\tAbsError: 3.34965e+00\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 3.67895e-01\tAbsError: 4.72516e+16\n", + " Region: \"zone_1\"\tRelError: 1.50726e-01\tAbsError: 5.59199e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35198e-01\tAbsError: 2.58844e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.55275e-02\tAbsError: 5.56611e+00\n", + " Region: \"zone_3\"\tRelError: 2.17169e-01\tAbsError: 4.72516e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.45897e-02\tAbsError: 2.35836e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.18017e-02\tAbsError: 2.36679e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.35232e-01\tAbsError: 2.58775e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.55454e-02\tAbsError: 5.57271e+00\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 4.33086e-01\tAbsError: 8.94267e+16\n", + " Region: \"zone_1\"\tRelError: 1.27506e-01\tAbsError: 5.03041e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.13299e-01\tAbsError: 9.16402e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42065e-02\tAbsError: 5.02125e+00\n", + " Region: \"zone_3\"\tRelError: 3.05581e-01\tAbsError: 8.94267e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 8.77157e-02\tAbsError: 4.46015e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.56957e-02\tAbsError: 4.48253e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17945e-01\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.42247e-02\tAbsError: 5.02775e+00\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 2.30726e-01\tAbsError: 6.72803e+16\n", + " Region: \"zone_1\"\tRelError: 7.35635e-02\tAbsError: 3.08358e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 7.26895e-02\tAbsError: 9.81454e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.74003e-04\tAbsError: 3.07376e-01\n", + " Region: \"zone_3\"\tRelError: 1.57162e-01\tAbsError: 6.72803e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.94071e-02\tAbsError: 3.35566e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.14449e-02\tAbsError: 3.37237e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 7.54322e-02\tAbsError: 9.82805e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 8.78127e-04\tAbsError: 3.08879e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 1.07982e-02\tAbsError: 4.75532e+15\n", + " Region: \"zone_1\"\tRelError: 2.87315e-03\tAbsError: 7.10545e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 2.67193e-03\tAbsError: 3.42983e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.01215e-04\tAbsError: 7.10202e-02\n", + " Region: \"zone_3\"\tRelError: 7.92501e-03\tAbsError: 4.75532e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.99321e-03\tAbsError: 2.36925e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.95393e-03\tAbsError: 2.38607e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.77664e-03\tAbsError: 3.43025e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.01229e-04\tAbsError: 7.10259e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 4.25637e-03\tAbsError: 1.33088e+15\n", + " Region: \"zone_1\"\tRelError: 1.51076e-03\tAbsError: 5.63944e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.49479e-03\tAbsError: 1.60161e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59642e-05\tAbsError: 5.62343e-03\n", + " Region: \"zone_3\"\tRelError: 2.74561e-03\tAbsError: 1.33088e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.72024e-04\tAbsError: 6.65349e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.04225e-04\tAbsError: 6.65530e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.55339e-03\tAbsError: 1.61219e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.59735e-05\tAbsError: 5.62680e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 3.40119e-04\tAbsError: 1.07870e+14\n", + " Region: \"zone_1\"\tRelError: 1.10130e-04\tAbsError: 1.99295e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.04476e-04\tAbsError: 1.10955e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.65450e-06\tAbsError: 1.99184e-03\n", + " Region: \"zone_3\"\tRelError: 2.29988e-04\tAbsError: 1.07870e+14\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.77399e-05\tAbsError: 5.36836e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 8.81953e-05\tAbsError: 5.41868e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.08396e-04\tAbsError: 1.11836e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 5.65725e-06\tAbsError: 1.99285e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 1.15955e-04\tAbsError: 3.29274e+13\n", + " Region: \"zone_1\"\tRelError: 4.09483e-05\tAbsError: 2.57424e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 4.02187e-05\tAbsError: 4.28366e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.29581e-07\tAbsError: 2.56996e-04\n", + " Region: \"zone_3\"\tRelError: 7.50067e-05\tAbsError: 3.29274e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.50866e-06\tAbsError: 1.64259e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.70008e-05\tAbsError: 1.65016e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 4.17673e-05\tAbsError: 4.31616e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.29977e-07\tAbsError: 2.57139e-04\n", + "Iteration: 9\n", + " Device: \"device\"\tRelError: 1.48312e-05\tAbsError: 3.74352e+12\n", + " Region: \"zone_1\"\tRelError: 5.08968e-06\tAbsError: 7.35732e-05\n", + " Equation: \"PotentialEquation\"\tRelError: 4.88096e-06\tAbsError: 5.18501e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.08719e-07\tAbsError: 7.35214e-05\n", + " Region: \"zone_3\"\tRelError: 9.74149e-06\tAbsError: 3.74352e+12\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 6.01215e-07\tAbsError: 1.86497e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.86664e-06\tAbsError: 1.87855e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.06480e-06\tAbsError: 5.22650e-08\n", + " Equation: \"TemperatureEquation\"\tRelError: 2.08829e-07\tAbsError: 7.35626e-05\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:42:59\u001b[0m.\u001b[1;36m266\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 1.3\u001b[0m \n", + "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", + "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_4, Equation: PotentialEquation\n", + "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", + "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", + "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", + "Contact: zone_3_bc_5, Equation: PotentialEquation\n", + "number of equations 31816\n", + "Iteration: 0\n", + " Device: \"device\"\tRelError: 2.95808e+00\tAbsError: 3.06192e+18\n", + " Region: \"zone_1\"\tRelError: 1.42698e+00\tAbsError: 4.09645e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 1.42698e+00\tAbsError: 4.09530e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.26923e-08\tAbsError: 1.15159e-05\n", + " Region: \"zone_3\"\tRelError: 1.53110e+00\tAbsError: 3.06192e+18\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 4.53961e-01\tAbsError: 1.53038e+18\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 4.42414e-01\tAbsError: 1.53154e+18\n", + " Equation: \"PotentialEquation\"\tRelError: 6.34728e-01\tAbsError: 4.09542e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.27089e-08\tAbsError: 1.15220e-05\n", + "Iteration: 1\n", + " Device: \"device\"\tRelError: 6.86333e-01\tAbsError: 3.15984e+17\n", + " Region: \"zone_1\"\tRelError: 1.55509e-01\tAbsError: 4.51190e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43034e-01\tAbsError: 3.07615e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.24749e-02\tAbsError: 4.48114e+00\n", + " Region: \"zone_3\"\tRelError: 5.30824e-01\tAbsError: 3.15984e+17\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98537e-01\tAbsError: 1.58139e+17\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.76751e-01\tAbsError: 1.57845e+17\n", + " Equation: \"PotentialEquation\"\tRelError: 1.43059e-01\tAbsError: 3.07632e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.24763e-02\tAbsError: 4.48157e+00\n", + "Iteration: 2\n", + " Device: \"device\"\tRelError: 2.29936e-01\tAbsError: 6.93044e+16\n", + " Region: \"zone_1\"\tRelError: 9.97344e-02\tAbsError: 3.68280e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 8.96071e-02\tAbsError: 2.58695e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.01274e-02\tAbsError: 3.65693e+00\n", + " Region: \"zone_3\"\tRelError: 1.30201e-01\tAbsError: 6.93044e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50308e-02\tAbsError: 3.46144e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.54055e-02\tAbsError: 3.46900e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 8.96375e-02\tAbsError: 2.58853e-02\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.01274e-02\tAbsError: 3.65693e+00\n", + "Iteration: 3\n", + " Device: \"device\"\tRelError: 1.89249e-01\tAbsError: 9.05371e+16\n", + " Region: \"zone_1\"\tRelError: 3.84471e-02\tAbsError: 2.79280e+00\n", + " Equation: \"PotentialEquation\"\tRelError: 3.06783e-02\tAbsError: 9.16366e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.76879e-03\tAbsError: 2.78363e+00\n", + " Region: \"zone_3\"\tRelError: 1.50802e-01\tAbsError: 9.05371e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 5.62900e-02\tAbsError: 4.52528e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.56716e-02\tAbsError: 4.52844e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 3.10713e-02\tAbsError: 9.16533e-03\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.76879e-03\tAbsError: 2.78363e+00\n", + "Iteration: 4\n", + " Device: \"device\"\tRelError: 8.05096e-02\tAbsError: 5.73831e+16\n", + " Region: \"zone_1\"\tRelError: 1.80246e-02\tAbsError: 2.55628e-01\n", + " Equation: \"PotentialEquation\"\tRelError: 1.73024e-02\tAbsError: 6.33722e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.22135e-04\tAbsError: 2.54994e-01\n", + " Region: \"zone_3\"\tRelError: 6.24850e-02\tAbsError: 5.73831e+16\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05558e-02\tAbsError: 2.86776e+16\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 2.36736e-02\tAbsError: 2.87055e+16\n", + " Equation: \"PotentialEquation\"\tRelError: 1.75308e-02\tAbsError: 6.33885e-04\n", + " Equation: \"TemperatureEquation\"\tRelError: 7.24828e-04\tAbsError: 2.55896e-01\n", + "Iteration: 5\n", + " Device: \"device\"\tRelError: 5.27575e-03\tAbsError: 4.47182e+15\n", + " Region: \"zone_1\"\tRelError: 7.50950e-04\tAbsError: 4.10991e-02\n", + " Equation: \"PotentialEquation\"\tRelError: 6.36726e-04\tAbsError: 4.45500e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.14224e-04\tAbsError: 4.10545e-02\n", + " Region: \"zone_3\"\tRelError: 4.52480e-03\tAbsError: 4.47182e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.81462e-03\tAbsError: 2.22587e+15\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 3.36991e-04\tAbsError: 2.24595e+15\n", + " Equation: \"PotentialEquation\"\tRelError: 2.58880e-04\tAbsError: 4.45567e-05\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.14315e-04\tAbsError: 4.10905e-02\n", + "Iteration: 6\n", + " Device: \"device\"\tRelError: 7.81415e-04\tAbsError: 1.27438e+15\n", + " Region: \"zone_1\"\tRelError: 1.31156e-04\tAbsError: 4.99777e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 1.17293e-04\tAbsError: 9.92832e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.38636e-05\tAbsError: 4.98785e-03\n", + " Region: \"zone_3\"\tRelError: 6.50259e-04\tAbsError: 1.27438e+15\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 3.49678e-04\tAbsError: 6.34942e+14\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 1.67569e-04\tAbsError: 6.39442e+14\n", + " Equation: \"PotentialEquation\"\tRelError: 1.19142e-04\tAbsError: 9.93066e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 1.38699e-05\tAbsError: 4.99010e-03\n", + "Iteration: 7\n", + " Device: \"device\"\tRelError: 1.35366e-04\tAbsError: 7.12812e+13\n", + " Region: \"zone_1\"\tRelError: 2.99971e-05\tAbsError: 1.51242e-03\n", + " Equation: \"PotentialEquation\"\tRelError: 2.57968e-05\tAbsError: 1.28730e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.20023e-06\tAbsError: 1.51114e-03\n", + " Region: \"zone_3\"\tRelError: 1.05369e-04\tAbsError: 7.12812e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 7.89869e-05\tAbsError: 3.53434e+13\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 9.86099e-06\tAbsError: 3.59377e+13\n", + " Equation: \"PotentialEquation\"\tRelError: 1.23191e-05\tAbsError: 1.28770e-06\n", + " Equation: \"TemperatureEquation\"\tRelError: 4.20200e-06\tAbsError: 1.51177e-03\n", + "Iteration: 8\n", + " Device: \"device\"\tRelError: 3.58972e-05\tAbsError: 1.82475e+13\n", + " Region: \"zone_1\"\tRelError: 6.53529e-06\tAbsError: 1.30003e-04\n", + " Equation: \"PotentialEquation\"\tRelError: 6.17481e-06\tAbsError: 3.11367e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.60483e-07\tAbsError: 1.29691e-04\n", + " Region: \"zone_3\"\tRelError: 2.93619e-05\tAbsError: 1.82475e+13\n", + " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88247e-05\tAbsError: 9.03485e+12\n", + " Equation: \"HoleContinuityEquation\"\tRelError: 5.04072e-06\tAbsError: 9.21267e+12\n", + " Equation: \"PotentialEquation\"\tRelError: 5.13603e-06\tAbsError: 3.12811e-07\n", + " Equation: \"TemperatureEquation\"\tRelError: 3.60523e-07\tAbsError: 1.29709e-04\n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:43:09\u001b[0m.\u001b[1;36m742\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:43:11\u001b[0m.\u001b[1;36m095\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", + "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m 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6.3579\u001b[0m \n" + ] + }, + { + "data": { + "text/plain": [ + "CompletedProcess(args=['cp', 'output/simulation_data.hdf5', 'tmp_B_example/'], returncode=0)" + ] + }, + "execution_count": 18, + "metadata": {}, + "output_type": "execute_result" + } + ], + "source": [ + "results = run_heat_sim(sim=sim, log_level=\"DEBUG\")\n", + "subprocess.run([\"cp\", \"-r\", \"tmp\", \"tmp_Ba_example\"]) \n", + "subprocess.run([\"cp\", \"output/simulation_data.hdf5\", \"tmp_Ba_example/\"]) " + ] + }, + { + "cell_type": "markdown", + "id": "cc76b0ee-ae0a-4e43-b81c-03fbcfac3aa6", + "metadata": {}, + "source": [ + "## Post-processing and Plotting\n", + "After the simulation is complete, this section processes the results and generates plots. The code reads the simulation data from the output files and plots:\n", + "- **Potential**: How the potential is distributed in the simulation region.\n", + "- **Temperature**: Same for temperature.\n", + "- **I-V Curve**: The current-voltage characteristic of the device." + ] + }, + { + "cell_type": "markdown", + "id": "1a6ea784-047c-4021-8a34-73795cca4b3f", + "metadata": {}, + "source": [ + "### Potential distribution" + ] + }, + { + "cell_type": "code", + "execution_count": 19, + "id": "2eba199a-2240-4ca3-80e9-a417a19e94f4", + "metadata": {}, + "outputs": [], + "source": [ + "pot_05V = results[\"potential_global_mnt\"].potential.sel(voltage=0.5, z=0)\n", + "pot_12V = results[\"potential_global_mnt\"].potential.sel(voltage=1.2, z=0)\n", + "pot_05V_cst = results_cst[\"potential_global_mnt\"].potential.sel(voltage=0.5, z=0)\n", + "pot_12V_cst = results_cst[\"potential_global_mnt\"].potential.sel(voltage=1.2, z=0)\n", + "pot_05V_iso = results_iso[\"potential_global_mnt\"].potential.sel(voltage=0.5, z=0)\n", + "pot_12V_iso = results_iso[\"potential_global_mnt\"].potential.sel(voltage=1.2, z=0)" + ] + }, + { + "cell_type": "code", + "execution_count": 20, + "id": "5f0030ac-e615-4220-bbdd-6b94d3b37395", + "metadata": { + "scrolled": true + }, + "outputs": [ + { + "data": { + "image/png": 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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "showGrid = False\n", + "\n", + "fig, (ax) = plt.subplots(1, 2, figsize=(14, 4))\n", + "\n", + "cont1 = pot_05V.plot(grid=showGrid, ax=ax[0], cmap=\"turbo\")\n", + "cont2 = pot_12V.plot(grid=showGrid, ax=ax[1], cmap=\"turbo\")\n", + "\n", + "_ = ax[0].set_title(f\"Bias = {0.5:.1f} V - Potential distribution - Eff. DOS\")\n", + "_ = ax[1].set_title(f\"Bias = {1.2:.1f} V - Potential distribution - Eff. DOS\")\n", + "\n", + "plt.tight_layout()" + ] + }, + { + "cell_type": "code", + "execution_count": 21, + "id": "1c952c0a-6827-4c06-b3be-58da75f38b24", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "showGrid = False\n", + "\n", + "fig, (ax) = plt.subplots(1, 2, figsize=(14, 4))\n", + "\n", + "#pot = 0.0\n", + "p1 = (pot_05V - pot_05V_cst).plot(grid=showGrid, ax=ax[0], cmap=\"turbo\")\n", + "p2 = (pot_12V - pot_12V_cst).plot(grid=showGrid, ax=ax[1], cmap=\"turbo\")\n", + "\n", + "_ = ax[0].set_title(f\"Bias = {0.5:.1f} V - Pot. Difference Tidy3D - Eff. DOS - CST\")\n", + "_ = ax[1].set_title(f\"Bias = {1.2:.1f} V - Pot. Difference Tidy3D - Eff. DOS - CST\")\n", + "\n", + "plt.tight_layout()" + ] + }, + { + "cell_type": "code", + "execution_count": 22, + "id": "304d7b5e-cea4-40dc-ac32-ce1e21b0548e", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "showGrid = False\n", + "\n", + "fig, (ax) = plt.subplots(1, 2, figsize=(14, 4))\n", + "\n", + "#pot = 0.0\n", + "p1 = (pot_05V - pot_05V_iso).plot(grid=showGrid, ax=ax[0], cmap=\"turbo\")\n", + "p2 = (pot_12V - pot_12V_iso).plot(grid=showGrid, ax=ax[1], cmap=\"turbo\")\n", + "\n", + "_ = ax[0].set_title(f\"Bias = {0.5:.1f} V - Pot. Difference Tidy3D - Eff. DOS - Isothermal\")\n", + "_ = ax[1].set_title(f\"Bias = {1.2:.1f} V - Pot. Difference Tidy3D - Eff. DOS - Isothermal\")\n", + "\n", + "plt.tight_layout()" + ] + }, + { + "cell_type": "code", + "execution_count": 23, + "id": "f25ecedd-296f-44ff-9e2c-3d61296f132b", + "metadata": {}, + "outputs": [], + "source": [ + "# Utility function to plot the function on the distribution with the same grid\n", + "def getInterpolatedData(x_vector, y_vector, t_vector):\n", + " # Get the min/max bounds from scattered data\n", + " xmin, xmax = x_vector.min(), x_vector.max()\n", + " ymin, ymax = y_vector.min(), y_vector.max()\n", + " \n", + " # Define the resolution of the regular grid for interpolation\n", + " num_grid_points_x = 200\n", + " num_grid_points_y = 200\n", + " \n", + " # Create 1D arrays for the new grid coordinates\n", + " xi = np.linspace(xmin, xmax, num_grid_points_x)\n", + " yi = np.linspace(ymin, ymax, num_grid_points_y)\n", + " \n", + " # Create the 2D meshgrid for the interpolation output\n", + " XI, YI = np.meshgrid(xi, yi)\n", + " \n", + " # The points argument to griddata should be an array of (x, y) pairs\n", + " points = np.column_stack((x_vector, y_vector))\n", + " \n", + " # Interpolate the values onto the new grid\n", + " TI = sp.interpolate.griddata(points, t_vector, (XI, YI), method='linear')\n", + " return XI, YI, TI" + ] + }, + { + "cell_type": "code", + "execution_count": 24, + "id": "90ea03d1-d4b5-4e5f-9b9f-86531fac8be7", + "metadata": {}, + "outputs": [], + "source": [ + "# Interpolating Tidy3d potential Eff. DOS\n", + "x_vector1 = results[\"potential_global_mnt\"].potential.points[:, 0].values\n", + "y_vector1 = results[\"potential_global_mnt\"].potential.points[:, 1].values\n", + "v_vector_effdos_0V = results[\"potential_global_mnt\"].potential.sel(voltage=0).values.values[:,0]\n", + "v_vector_effdos_12V = results[\"potential_global_mnt\"].potential.sel(voltage=1.2).values.values[:,0]\n", + "XI1, YI1, VI_effdos_0V = getInterpolatedData(x_vector1, y_vector1, v_vector_effdos_0V)\n", + "XI1, YI1, VI_effdos_12V = getInterpolatedData(x_vector1, y_vector1, v_vector_effdos_12V)\n", + "\n", + "v_vector1_cst_0V = results_cst[\"potential_global_mnt\"].potential.sel(voltage=0).values.values[:,0]\n", + "v_vector1_cst_12V = results_cst[\"potential_global_mnt\"].potential.sel(voltage=1.2).values.values[:,0]\n", + "XI1, YI1, VI_cst_0V = getInterpolatedData(x_vector1, y_vector1, v_vector1_cst_0V)\n", + "XI1, YI1, VI_cst_12V = getInterpolatedData(x_vector1, y_vector1, v_vector1_cst_12V)\n", + "\n", + "v_vector1_iso_0V = results_iso[\"potential_global_mnt\"].potential.sel(voltage=0).values.values[:,0]\n", + "v_vector1_iso_12V = results_iso[\"potential_global_mnt\"].potential.sel(voltage=1.2).values.values[:,0]\n", + "XI1, YI1, VI_iso_0V = getInterpolatedData(x_vector1, y_vector1, v_vector1_iso_0V)\n", + "XI1, YI1, VI_iso_12V = getInterpolatedData(x_vector1, y_vector1, v_vector1_iso_12V)" + ] + }, + { + "cell_type": "code", + "execution_count": 35, + "id": "ba2f97a2-1249-4f25-aa67-c0e3e99cfd4d", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "showGrid = False\n", + "\n", + "fig, (ax) = plt.subplots(3, 1, figsize=(14, 8))\n", + "\n", + "contour0 = ax[0].contourf(XI1, YI1, VI_effdos_12V - VI_effdos_12V.min(), levels=250, cmap='turbo') # Set the maximum value for the color scale\n", + "ax[0].set_xlabel('x (um)')\n", + "ax[0].set_ylabel('y (um)')\n", + "ax[0].set_title('Interpolated Potential Distribution from Tidy3D - 1.2 V - Eff. DOS')\n", + "fig.colorbar(contour0, label='Potential', ax=ax[0])\n", + "\n", + "\n", + "contour1 = ax[1].contourf(XI1, YI1, VI_cst_12V- VI_cst_12V.min(), levels=250, cmap='turbo') # Set the maximum value for the color scale\n", + "ax[1].set_xlabel('x (um)')\n", + "ax[1].set_ylabel('y (um)')\n", + "ax[1].set_title('Interpolated Potential Distribution from Tidy3D - 1.2 V - Constant DOS')\n", + "fig.colorbar(contour1, label='Potential', ax=ax[1])\n", + "\n", + "\n", + "contour2 = ax[2].contourf(XI1, YI1, VI_iso_12V - VI_iso_12V.min(), levels=250, cmap='turbo') # Set the maximum value for the color scale\n", + "ax[2].set_xlabel('x (um)')\n", + "ax[2].set_ylabel('y (um)')\n", + "ax[2].set_title('Interpolated Potential Distribution from Tidy3D - 1.2 V - Isothermal')\n", + "fig.colorbar(contour2, label='Potential', ax=ax[2])\n", + "\n", + "plt.tight_layout()" + ] + }, + { + "cell_type": "markdown", + "id": "8c6c36ad-4718-456e-a44e-37992c406863", + "metadata": {}, + "source": [ + "### Temperature distribution" + ] + }, + { + "cell_type": "code", + "execution_count": 26, + "id": "dd923284-ccad-48bb-abeb-fd5d3ff560b7", + "metadata": {}, + "outputs": [], + "source": [ + "# Interpolating Tidy3d results - Eff. DOS\n", + "x_vector1 = results[\"temp_mnt\"].temperature.points[:, 0].values\n", + "y_vector1 = results[\"temp_mnt\"].temperature.points[:, 1].values\n", + "t_vector1 = results[\"temp_mnt\"].temperature.sel(voltage=1.2).values.values[:,0]\n", + "XI1, YI1, TI1 = getInterpolatedData(x_vector1, y_vector1, t_vector1)\n", + "\n", + "# Interpolating Tidy3d results - cst\n", + "t_vector_cst = results_cst[\"temp_mnt\"].temperature.sel(voltage=1.2).values.values[:,0]\n", + "XI1, YI1, TI_cst = getInterpolatedData(x_vector1, y_vector1, t_vector_cst)" + ] + }, + { + "cell_type": "code", + "execution_count": 27, + "id": "a0f30126-b7ee-4571-a546-f3e76ce29eb3", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "showGrid = False\n", + "\n", + "fig, (ax) = plt.subplots(2, 1, figsize=(14, 8))\n", + "\n", + "contour0 = ax[0].contourf(XI1, YI1, TI_cst, levels=250, cmap='turbo')\n", + "ax[0].set_xlabel('x (um)')\n", + "ax[0].set_ylabel('y (um)')\n", + "ax[0].set_title('Interpolated Temperature Distribution from Tidy3D - Const. DOS')\n", + "fig.colorbar(contour0, label='Temperature (K)', ax=ax[0])\n", + "\n", + "\n", + "contour1 = ax[1].contourf(XI1, YI1, TI1, levels=250, cmap='turbo')\n", + "ax[1].set_xlabel('x (um)')\n", + "ax[1].set_ylabel('y (um)')\n", + "ax[1].set_title('Interpolated Temperature Distribution from Tidy3D - Eff. DOS')\n", + "fig.colorbar(contour1, label='Temperature (K)', ax=ax[1])\n", + "\n", + "\n", + "plt.tight_layout()" + ] + }, + { + "cell_type": "code", + "execution_count": 28, + "id": "02e34772-5e3e-49bf-bd30-fbeba326df49", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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X22bKlClccskl/OlPf+LEE09k6NChdHR08Mc//pFzzz2XQYMG1TWGE044gUsvvZQPP/yQDTbYwK//xz/+wfvvv++7dj/yyCOcdNJJHHDAAb4K+7XXXuOf//wnX/ziF6v27738O+WUU1KN59FHH+WQQw5hs80249JLL2XlypVce+217LXXXsyYMaMigdHkyZMZOXIk06dPZ8aMGdx8880MHTrUH+Mrr7zC4Ycfzg477MDll19OW1sbb731lv/yYOutt+byyy/n4osv5owzzmCfffYBYM899wTgnnvuYcWKFXzhC19g8ODBPPPMM1x77bW899573HPPPaGxdHeelCFDhgwZ1mGYDBkyZOhBuPXWWw1gnn32Wb/u1FNPNYC5/PLLQ7Y77bSTGTt2rL88b948A5hLLrmkot8DDjjAbL/99qazs9Ov01qbPffc02y++eYV2997772N4zihPi655BIDmCOPPDJUf9ZZZxnAvPDCCw3ts4ezzz7bBC/LTz75pAHM3XffHbJ78MEHK+qHDx9uAPOvf/3Lr3vooYcMYDo6OsycOXP8+p///OcGMI8//rhf5/3G5557rl+ntTaHHXaYyefzZt68eQ2P6cEHH6zY1xUrVlTUTZw40Wy22Wahum233daMHz++wtY7FlF4x2/27Nk1x/Gd73zH9O7d2/z3v/8N1X/96183lmWZd999t6L/IMaPH2+23Xbbqut/97vfGcBcc801obGceuqp/vKOO+5oDjvssMTtRM8LD7NnzzaA6devn/n4449j1916661+Xdpj/Pjjj1ecH9X6rDY2Y0zFf3HSpEkmn8+bWbNm+XXvv/++6du3r9l33339Ou8YTpgwwWit/fovfelLxrIss2jRotjteRgzZozZcMMNQ3YPP/ywAczw4cMTx+jt+z333BOyi7suaa3N5ptvbiZOnBga54oVK8zIkSPNgQce6Nd55+tJJ50U6vedd94xlmWZ733ve6H6l156ydi2HaofP368Acwdd9zh13V1dZkNNtjAHHvssX7dLbfcYgBz5ZVXVvw23jjr+R/XwmGHHVbxuwbHHPz/Xn311QYwv/nNb/y65cuXm9GjR1ecc3vssYcZN25cqL/77rsv9tw0xpi2tjYDGMAMHjzY/OQnPwmt987fH/3oR1X35aijjjKAWbx4cfUdrhPe9SfuM336dN8u7hwzpnzueP/PelCr7cKFCw1gjj76aGOMMb///e8NYK666qrEfvv162d23nlnf/niiy82gOndu7c55JBDzPe+9z3z3HPPpRrjG2+8YQBz7bXXhurPOuss06dPH/9e8cUvftH069ev4r5cC0cffbQBzMKFC1PZjxkzxgwdOtQsWLDAr3vhhReMlNJMmTLFr/N+289+9rMV2xs8eLC/fNVVV9U8fs8++2zFtdVD3L1y+vTpRggRuq83Y56UIUOGDBnWXWSuxBkyZFhj8PnPfz60vM8++/D222/XbPfJJ5/w17/+lcmTJ7N06VLmz5/P/PnzWbBgARMnTuTNN99k7ty5oTann356hRuVB0/R5uHcc88F3EQMzcQ999xD//79OfDAA/0xz58/n7Fjx9KnTx8ef/zxkP0222zDHnvs4S97CqxPfepTbLrpphX1cb9dUJ0jhOCcc86hUCjw6KOPNjSmkSNHMnHixIrtBOP7LV68mPnz5zN+/HjefvvtkOttsxA3jnvuuYd99tmHgQMHhvZlwoQJKKX4+9//3q1t9unTB4ClS5dWtRkwYACvvPIKb775ZsPbOfbYY333sDSodYxbAaUUDz/8MJMmTWKzzTbz6zfccENOPvlk/vGPf7BkyZJQmzPOOCPkmrzPPvuglGLOnDlVt/PBBx8wc+ZMTj31VPr37+/XH3jggWyzzTZN3COYOXMmb775JieffDILFizwz5/ly5dzwAEH8Pe//71CuRm9ht13331orZk8eXLoHNxggw3YfPPNK/5Pffr0CcWqy+fz7LbbbqH/8m9/+1uGDBniX5eC8H7Pev/HzcJf/vIXNtxww5B7aK9evTjjjDMqbKdMmcLTTz8dcn++++672WSTTXyX7yAeeOAB/vKXv/DjH/+YTTfdtELpnQZp/rONYNy4cTzyyCMVn5NOOqmp26kX0f31vvv27ZvYrm/fvqH/62WXXcYvf/lLdtppJx566CG++c1vMnbsWHbeeecKF9wotthiC8aMGRNSAiuluPfeezniiCP8e8WAAQNYvnx53YpOb5y19gnK14+pU6eGlI877LADBx54YOw9Pm5esmDBAn+7nuL3/vvvbyhERfBeuXz5cubPn8+ee+6JMaYiJEi18aSZJ2XIkCFDhnUbmStxhgwZ1gi0t7dXkB8DBw5MFQ/rrbfewhjDt7/9bb797W/H2nz88ccMGzbMXx45cmTV/jbffPPQ8qhRo5BShuLaNQNvvvkmixcvrhqjKRrUPUj+AT4xEs046dVHfzspZYi0AfehDfD3rd4xVfsd//nPf3LJJZfw1FNPVcRjWrx4cYjUaQbixvHmm2/y4osvViXVuhs0f9myZUDyA+nll1/OUUcdxRZbbMF2223HwQcfzCmnnFKXa1fSuRpFmmPcCsybN48VK1aEMpl62HrrrdFa87///Y9tt93Wr4+ezwMHDgQqz9sgPNIw+h8F1x14xowZDY0/Dh6Z68WGi8PixYv9cUPlsXrzzTcxxsSOF6hw5914440rYmsOHDiQF1980V+eNWsWW265ZWJG6Hr/x83CnDlzGD16dMU+xJ0XJ5xwAueffz533303F198MYsXL+ZPf/oTX/rSl2Lji3px6g455BCOOuootttuO/r06RMiwmshzX923rx5fsw2cMk1j2CrhiFDhvTIbNbR/fW+axGjS5curTh3TjrpJE466SSWLFnC008/zW233cYvf/lLjjjiCF5++eXEZEQnnHAC3/jGN5g7dy7Dhg3jiSee4OOPP+aEE07wbc466yx+85vfcMghhzBs2DAOOuggJk+eXDPjsecSvXTp0poJXLzrR7Xr1EMPPVSRNCjpOtWvXz9OOOEEbr75Zk477TS+/vWvc8ABB3DMMcdw3HHHpcpQ/+6773LxxRfzhz/8oeLaF32J1p15UoYMGTJkWLeREYMZMmRYI1BNvZcG3lv6Cy+8MFa9BjB69OjQcj0Za+MeUpsBrTVDhw7l7rvvjl0ffQCo9htVqzeRpCKtGFPc7zhr1iwOOOAAttpqK6688ko22WQT8vk8f/nLX7jqqqtSqSqq/ebBB/Za49Bac+CBB/LVr341to1HmDWKl19+Gag8t4LYd999mTVrFvfffz8PP/wwN998M1dddRU/+9nPOO2001Jtp9lZnuv9bVuFZp63rYB3nv7oRz9izJgxsTZRwih6rLTWCCF44IEHYvc32r5Zv0m9/+PVgYEDB3L44Yf7xOC9995LV1dXquzHo0aNYqedduLuu++uixh8+eWXGTp0aNX4euAmBwmqVi+55JI1NnlD9Bq19dZbA4SI5ijmzJnDkiVLqipw+/Xrx4EHHsiBBx5ILpfj9ttv5+mnn45VeXo44YQTuOiii7jnnns4//zz+c1vfkP//v1DpN/QoUOZOXMmDz30EA888AAPPPAAt956K1OmTOH222+v2vdWW20FwEsvveTH72smav0nOzo6+Pvf/87jjz/On//8Zx588EF+/etf86lPfYqHH344cW6jlOLAAw/kk08+4Wtf+xpbbbUVvXv3Zu7cuUydOrXiXtmdeVKGDBkyZFi3kRGDGTJkWGtQjdDwFFK5XK4pqo0333wzpPx566230FpXBCXvLkaNGsWjjz7KXnvt1XTyJw5aa95+++0QIfbf//4XKGf5bMaY/vjHP9LV1cUf/vCHkNoizn2x2jH1VBmLFi0KqUCS3EyjGDVqFMuWLWuJkkcpxS9/+Ut69eoVyj4bh0GDBjFt2jSmTZvGsmXL2Hfffbn00kt9YrCZxHOaYxz8bYOI+23Tjm299dajV69evPHGGxXrXn/9daSUFcrWRjB8+HCAWNfsuG13B14Sj379+jV8Do0aNQpjDCNHjuw2ER3s8+mnn6ZYLFZNILKqry0ehg8fzssvv4wxJnTuVDs2U6ZM4aijjuLZZ5/l7rvvZqeddgqpSpOwcuXKimzHSXjqqaeYNWtWTeLx7rvvDmWEjSpw1yR4SYO8F2ZbbLEFW2yxBb///e+55pprYpWTXpKtww8/vGb/u+yyC7fffjsffPBBot3IkSPZbbfd/GQz9913H5MmTaKtrS1kl8/nOeKIIzjiiCPQWnPWWWfx85//nG9/+9tVX8AcccQRTJ8+nbvuuqsmMehdP6pdp4YMGRJSC6aFlJIDDjiAAw44gCuvvJLvf//7fPOb3+Txxx9nwoQJVa+jL730Ev/973+5/fbbmTJlil/fnQQ5rXqRmSFDhgwZ1mxkMQYzZMiw1qBXr15AJaExdOhQ9ttvP37+85/HPqDMmzevru1cf/31oeVrr70WwM8KCq77z+uvv15Xv1FMnjwZpRTf+c53KtY5jlOxn83Adddd55eNMVx33XXkcjk/u2czxuSpGoIqp8WLF3PrrbdW2Pbu3Tu2T4+UCcYBXL58eaJyJIrJkyfz1FNP8dBDD1WsW7RoEY7jpO4rCKUU5513Hq+99hrnnXdeovpowYIFoeU+ffowevToEKHhPYg263jXOsbDhw/HsqyKGIs33HBDRV9px2ZZFgcddBD3339/yGX5o48+4pe//CV777134u+UFhtuuCFjxozh9ttvD7nZPfLII7z66qvd7j+IsWPHMmrUKK644grfJTOINNeVY445BsuyuOyyyypUf8aYivMjDY499ljmz58fOs7BPmH1XFsADj30UN5//33uvfdev27FihXceOONsfaHHHIIQ4YM4Qc/+AF/+9vfKkg7x3Fi3SSfeeYZXnrpJXbZZZdU45ozZw5Tp04ln8/zla98JdF2r732YsKECf5ndRCDs2bNCsVebAS//OUvufnmm9ljjz1C2ZsvvvhiFi5cyOc///kKlfBzzz3HD37wA7bbbjuOPfZYwD1+Tz31VOw2HnjgASDeNTeKE044gX//+9/ccsstzJ8/P+RGDJXXSimlH3IhiQDeY489OPjgg7n55pv5/e9/X7G+UChw4YUXAuHrR/A/8PLLL/Pwww9z6KGH1tyPKD755JOKOk9h7I272nU07l5pjOGaa66pexweqs2TMmTIkCHDuo1MMZghQ4a1Bh0dHWyzzTb8+te/ZosttmDQoEFst912bLfddlx//fXsvffebL/99px++ulsttlmfPTRRzz11FO89957vPDCC6m3M3v2bI488kgOPvhgnnrqKe666y5OPvlkdtxxR99mypQp/O1vf+uW2+P48eM588wzmT59OjNnzuSggw4il8vx5ptvcs8993DNNdeEgvh3F+3t7Tz44IOceuqpjBs3jgceeIA///nPfOMb3/BdC5sxpoMOOshXfpx55pksW7aMm266iaFDh1YQt2PHjuWnP/0p3/3udxk9ejRDhw7lU5/6FAcddBCbbropn/vc5/jKV76CZVnccsstrLfeerz77rup9vcrX/kKf/jDHzj88MOZOnUqY8eOZfny5bz00kvce++9vPPOOwwZMiSxj8WLF3PXXXcB7gPyW2+9xX333cesWbM48cQTY4mXILbZZhv2228/xo4dy6BBg/jPf/7DvffeG3J/HDt2LADnnXceEydOxLIsTjzxxFT7GEWaY9y/f3+OP/54rr32WoQQjBo1ij/96U+xcefqGdt3v/tdHnnkEfbee2/OOussbNvm5z//OV1dXfzwhz9saH/iMH36dA477DD23ntvPvvZz/LJJ59w7bXXsu2228YSeI1CSsnNN9/MIYccwrbbbsu0adMYNmwYc+fO5fHHH6dfv3788Y9/TOxj1KhRfPe73+Wiiy7inXfeYdKkSfTt25fZs2fzu9/9jjPOOMMnLdJiypQp3HHHHVxwwQU888wz7LPPPixfvpxHH32Us846i6OOOmqVX1s8nH766Vx33XVMmTKF5557jg033JA777zTJyuiyOVynHjiiVx33XVYllWRrGPZsmVssskmnHDCCWy77bb07t2bl156iVtvvZX+/fvHxpSdMWMGd911F1prFi1axLPPPstvf/tbhBDceeeddcX3TIu5c+f614kg+vTpw6RJk+ruzyPy0sYFvffee+nTpw+FQoG5c+fy0EMP8c9//pMdd9yRe+65J2T76U9/mmeffZZrrrmGV199lU9/+tMMHDiQGTNmcMsttzB48GDuvfdeX426YsUK9txzT3bffXcOPvhgNtlkExYtWsTvf/97nnzySSZNmsROO+1Uc4yTJ0/mwgsv5MILL2TQoEEVKtzTTjuNTz75hE996lNsvPHGzJkzh2uvvZYxY8b4LtDVcMcdd3DQQQdxzDHHcMQRR3DAAQfQu3dv3nzzTX71q1/xwQcfcMUVVwBuaIBDDjmEPfbYg8997nOsXLmSa6+9lv79+zfkMn755Zfz97//ncMOO4zhw4fz8ccfc8MNN7Dxxhv7avJRo0YxYMAAfvazn9G3b1969+7NuHHj2GqrrRg1ahQXXnghc+fOpV+/fvz2t7/tVszApHlShgwZMmRYh7Gq0yBnyJAhQxJuvfVWA5hnn33Wrzv11FNN7969K2wvueQSE72M/etf/zJjx441+XzeAOaSSy7x182aNctMmTLFbLDBBiaXy5lhw4aZww8/3Nx7772J249u79VXXzXHHXec6du3rxk4cKA555xzzMqVK0O248ePrxhbLZx99tmxbW688UYzduxY09HRYfr27Wu2335789WvftW8//77vs3w4cPNYYcdVtEWMGeffXaobvbs2QYwP/rRj/w67zeeNWuWOeigg0yvXr3M+uuvby655BKjlGrqmIwx5g9/+IPZYYcdTHt7uxkxYoT5wQ9+YG655RYDmNmzZ/t2H374oTnssMNM3759DWDGjx/vr3vuuefMuHHjTD6fN5tuuqm58sor/eMX7CNpHEuXLjUXXXSRGT16tMnn82bIkCFmzz33NFdccYUpFAqxbTx4x9j79OnTx2y++ebmM5/5jHn44Ydj2wwfPtyceuqp/vJ3v/tds9tuu5kBAwaYjo4Os9VWW5nvfe97oW07jmPOPfdcs9566xkhhH+OxB1HD966W2+91a+r5xjPmzfPHHvssaZXr15m4MCB5swzzzQvv/xyRZ/VxmaMqfj/GWPMjBkzzMSJE02fPn1Mr169zP7772/+9a9/hWyq/Qcff/xxA5jHH3889rcN4re//a3ZeuutTVtbm9lmm23MfffdZ0499VQzfPjwkF10jN427rnnnlRjMsaY559/3hxzzDFm8ODBpq2tzQwfPtxMnjzZPPbYY76Nd+2YN29e1fHuvffepnfv3qZ3795mq622MmeffbZ54403fJvx48ebbbfdtqJt3H6tWLHCfPOb3zQjR440uVzObLDBBua4444zs2bNCtml+R/XwmGHHVax/eCYg/9ZY4yZM2eOOfLII02vXr3MkCFDzBe/+EXz4IMPVj22zzzzjAHMQQcdVLGuq6vLfPGLXzQ77LCD6devn8nlcmb48OHmc5/7XOgaYEz5P+F9bNs2gwYNMuPGjTMXXXSRmTNnTup9rgfDhw8PbTf4Cf5u1c6xuHNn+PDhVX/zuLbep7293Wy88cbm8MMPN7fccovp7Oys2vb3v/+9OfDAA83AgQNNW1ubGT16tPnyl79ccQ4Xi0Vz0003mUmTJpnhw4ebtrY206tXL7PTTjuZH/3oR6arqyvdD2WM2WuvvQxgTjvttIp19957rznooIPM0KFD/Wv+mWeeaT744INUfa9YscJcccUVZtdddzV9+vQx+XzebL755ubcc881b731Vsj20UcfNXvttZfp6Ogw/fr1M0cccYR59dVXQzbV/tPRe9Bjjz1mjjrqKLPRRhuZfD5vNtpoI3PSSSeZ//73v6F2999/v9lmm22Mbduh6+yrr75qJkyYYPr06WOGDBliTj/9dPPCCy9Uvb5HUe88KUOGDBkyrJsQxvSQKN4ZMmTI0MNx6aWXctlllzFv3ryaSrI1DVOnTuXee+9tqqIqQ4YMGbqLF154gTFjxnDHHXdwyimnrO7hZMiQIUOGDBkyrHXIYgxmyJAhQ4YMGTJk6JG46aab6NOnD8ccc8zqHkqGDBkyZMiQIcNaiSzGYIYMGTJkyJAhQ4YehT/+8Y+8+uqr3HjjjZxzzjkNZYPNkCFDhgwZMmTIUBsZMZghQ4YMGTJkyJChR+Hcc8/lo48+4tBDD+Wyyy5b3cPJkCFDhgwZMmRYa7FGxRj8+9//zo9+9COee+45PvjgA373u9/VzOb2xBNPcMEFF/DKK6+wySab8K1vfYupU6eukvFmyJAhQ4YMGTJkyJAhQ4YMGTJkyNBTsUbFGFy+fDk77rgj119/fSr72bNnc9hhh7H//vszc+ZMzj//fE477TQeeuihFo80Q4YMGTJkyJAhQ4YMGTJkyJAhQ4aejTVKMRiEEKKmYvBrX/saf/7zn3n55Zf9uhNPPJFFixbx4IMProJRZsiQIUOGDBkyZMiQIUOGDBkyZMjQM7FWxxh86qmnmDBhQqhu4sSJnH/++VXbdHV10dXV5S9rrWlra6MtnwchWjXUDBkyZMiQIUOGDBkyZMiQIcPaCGMwGISQSLlGOW42FcYYGtWmCSEQGSfTEqzVxOCHH37I+uuvH6pbf/31WbJkCStXrqSjo6OizfTp00NBrjfYYANefulFVixv+XAzZMiQIUOGDBkyZMiQIUOGDGspBgwcyBoW0a1pMMbw7quv0CfC0aSFEJKBgwZl5GALsFYTg43goosu4oILLvCXtdYop8gXznmS5csVluXWK3JYEjCgDNgWIGyUFti2QWvQWmDnJVqBNoKcbXAUIPN+2RhBrt1GOW7ZzhmcImDZpbJ70ts5g6NyCGGwJDhKIITBzlk4SiIwWJbBURJpWQhpUEoihUHYlluWBiHceisnSvsnkVK7ZZErl7XEkhojLbdsaYwGbSRWDoyRaCOwpEKTwyCwpUJpiUGQy4FSbtm2FI6SYFmlsvsjduSLHLnjK9w3cwcMAkdZCMDKgaMtBAYpNYocQmikMChtIWzKZaERQqCwkBaAcfdDKMhZaGMhbY0BtLCwhEJLiUZiSYXyypZCG4GyJDmhKAhRHjsSJSGPQ0FapX0tUMDGWAbbKlLEQktDDkWXLB0P6VAQNkI42Gg6LYk0GikVBWGBdLAwFCyBEA4SQ8EGaTRCahwhEaKIAIoSbKNRtoMjBLZwMAKKliGnNcYyFKUmrzWOpVFCkMe11dLQpg1FS6GFoE0rihK0pWlXhoKtMULQrhUFS2GADgxdEqTQ5BUU8xphIK8VBRssNDkFjq2QQB5FQULOaHIoihbkjUIa0LbC0mChUJYhZxRtooiyDG3aPd+wHaQSWMIpjdc9ZtJW2I5EyCJaGvLKYKRBWkUsx0LKIkYa2hRI6WCkIe+Ash1sFJZjI2xXAdzmiFK9RigLYRfACPJKou0ittFIZbn2RpDTAmEVwEhyymAshWUALbGsAmgLS7tjtx0A4dYrC2kMWApLWVA6F1A2wmhsqTBODikchNSIYg6kwhbBeoMs5kEWsTBoJ48tiwhhwMkjZAGpweg8lixgaTAqj20VMUYgijmkXUAqgSr24n+vf4bhW9+OZTTSKiKUhdEWtiyitURoC0sWwbEBgY2DNhYgyGuF1u5/1kahtI00IIVbtoxBCIXWOYRRSKExTg4h3LIq7ZMUBq3ySFHEMgZH57FEEemXCwgNijy26ipdZ/PkTAFjBA458qaANgKjbWzhlrW2sEURbSRGS7/s13vXIRyUlu5xwkErd0JmaYWidJyUwsG99lha4WAjlUbilR0kGoc8UhfdctFGGre+qPPYpoDAUDA5bFMApXFkG7buwihwZJ6c7sIogyPz2MVONBItc9jFLjQCLW0spwstpHvdKhbQwkILia2LKG2BAEs7KGGDAFksumXAMg5K5hDGIJyCX5bGwZF5pFEIxys7SKNxrDakLiKUwpFtSFN062U7lu5y98Nux3K6AIOy27GcTowyKLsN2+nEIPyy0gJt5bC9/ZA5bNXl3iOkhaXcffLKCgsjpFsvbQwC6RTQpX2SxkHLHBgDThFt5RFGI7RTKiuEo1B2DqEU0miUnUeqIjgax27DUgWEMTi5NiyndGxybVjFgrtPuTasYhdagcq1YRc7MaK0T8VO97yyc1jFLoyQaMvGcgpoaVHIdfDGURez1e8uQSqntH82RgosVQTLBiGQykFbpX3yysYgdWnsWpfKeYRWsWWpHITRqFwb0im65Tb32Lj7145VLB2nXDtWsRMQsftkRJV9EhbGsvz9E7nyvrrHqVgqC6zIPinLds83rVBWDmGC++QgtXtshHLPPZ1vQ6qiO/aY4+SXI8fJ3ac8drGrtE+BspXHdtyyyedL+yRL+1RESwmWjVQFjLQxQmJTdM834V4jlCz9n7SDtvPunEQ7KCuPlIGy0EijUJZ7nCxp/P+TJU3o/6RyHViqC4FB5duxVGmfrDZsiu4+WaVroCVxrDw51YW2LLS0sXUBjcTkbGxdLO1Tzi9r4V73lLAAiWWKaNu9rlvGQdn58jVC2AgLLKNwRA4hDRZuWRrtjl3kkEYhLYMj8v61zmlrL1/3RBu2KCIwFEUeWyrA4JDHpuDuBzlyFDBS4mCTo+he66yc+7uXrns2DsqSaCxs6aCRKGn7++SYNv5lPsOe9l1Y0sESDo6wMRIsoXCEjcAgbI0yNkiDFKX9QyFKc0ojFMLSODqHsByEcMcrRREs954krQJCGArGvc86tmdTQEuD1nlErnR/Mjksq4ASYHTOr1fGwuSKGC1RwkJaRZQRGGNh7CLGWCgEUjrufcgIjO3glO65JqcwykZJg5DuPRdh0JZ7n9VWaZ9UHlUqa5UH6aAswMmjpAPSoJ02sIsoIaCYx8kplBAIJ4/jTmLQTt7dPhZC2ShbgREolcfYRZSx0TpPwdLuWLVNUYIwEqVtChYILV07S6FVHoVEWwbt2DhYpbHncYxbj8pjMBSkgGIOLQ1FaSGKNloaCsJCF9pwpHF/w2IORxocYZF3BJ1SorBoU7BSSJQplaWFMZKcgi7LQhiwi7I0FwfLEXRKG2kMOSXpFO7czVYWBWFhaYOlLQpSYCuB0IKilOQciTSSopTYDght4UhJvigwwp2L5TQYwJgceWVQCIzO0eaVjUW7Aw4SjEXeOGhtY4xN3jgobSO0RY5SWUnyOBRVDqnd+X1R5xDgzumVe97njaZo3HmLLQxFY2Hp0vOTI5EYpNA4xnLngxgcLCQaqQ3KSNpkgWM2/gf3zNkXg3Cfn4yFrR2/bDldGKT7TCgcjKL0XOWgtcRosIWDMhKDJEcBpb3nJ6f8bGupQFm7z4FKYZWeFQW4/3EVeCYsEn4m1O7cWBkLaYoIAUpLpNCgVfg51zHh51yKGIP/nKuL2n22tTTGcZ8LbUujtMAo5ZaV+3xoUUTp0rO7ZXCKqvy8XhSgHOwcblkXsG0oFgUdHYKfXrE9sO6SWsYY+qy/PjfuvDOFpUvrapvv25czZszAGJMRgy3AWh1jcN9992XnnXfm6quv9utuvfVWzj//fBYvXpxqO1prFn6ygFOmPEJnIYbZt3KVY4upQ1ZysHF2FXVWDHcb21eMXYq2wmM6a7aLs4upi7Gr2EZpWWAY2m8ZHy/pg0ndf+AYWG7ZeHWlZd8mV5pYWaULhxShZVMyq1wGLY1fhuCyiV+2dKheS+1OeADj3YR8G29ZhdfH1GsZtlF2sbRdr16V9s1db0RMvV8ufQsdWhaltl69KPXh3TyFcMnM0LqSreXbqvCyUH7ZEgpLOKH1bdIlfmwRbmfjhOr99RX1LvEXqqO8LrQc/fb79Oq1vz5aZ3nrjAot+9+ly2cusl6W6i2Mb+PXla645fpqy+63d3j8ZW+9DpfddSLcpjRp6Vo2jI7e75e3oYXf1rOVunyD9eoAbEdU1IkYWxFYH7atXhcsh+qUSV6vA7etUjnYhri+Am3CtqVysC6urHRlG4CCrmhjgralehPqUwdsK7dv4tbHja2aTdw4Utmnr29a37o+e92kfqrZx/Vv4ncVHejDCMnyoZvR++O3EdUaxEDK1k5sRYsFCdJq3fhFk38bETPW6DaC+xO1j9qKJFtLJqxL6kdWt62jXZItdW0jod98ZJ2svg0SthFajszTostaCBbJYfQX7/vTTePZeHO4wNyuoq70rROWy2UTWufY4WUdWO/dEnWkjRbusopsRwtTriu1rVgW4TZKBNeJiK0It/GXBQoRriuplIrCCrct1SskjreuVOf46ywcLL9OYeEYbzm4zsIxdqBcrgdwjO3XKcplx1g4Jc2KCtR16Ta/Thk7UHZtdLBcIlWVsdClA2yM5dcbI9G6XO8W3BeLbgdW4MSw3E/pQIhSWZiYOmVhOe4znNAS6dWX+pXKQpbKQktkSSQhtUSqYL3w691vUV6vhD9XC5fxbb2y21/pO2ZO5S9H7nlCK4a2L+bjzv7lE8pDUYWXdaSzyLxABNdH5wwVbWv1XV5vKmxVVdv49U5CX05VW9c+sj5oX2FbJIr2nOL2n41l4KDB66wrscet/GyL0RSWLaurbb5PHz7/37fW6d+vlVirFYN77LEHf/nLX0J1jzzyCHvssUdD/QX/4D6BF/zTl+pi7bwLR4CY8+yCZGBFXfAi4xF2wYtQqT/vQhUiCL22wbrIOIIXRJ/Ai92md9cJkHVe2yCBF2PnbaPcf4m8Aj5a0rfUzmMPAn/y2P512CYIpd3JqGdTdFWDQpnyJDMlpHaVdkK55KC3XFcfSqAtg9ASIzVSSZ8cTD8OCy2V30dD0JZLAnrfRlbODGp1oS2kVBhjueowI31ycFUhSAo2rc8AKdgsBEnBZiNKBKaBEIZefebGEoCx24ghBUP9VSEQ4+riTpE4UjC0PmEC69bFkHpBVCEYY+vi2lcjCOPaFCoHGEcKhvtPIP0q+mqMFGwlIdjU/usg81YHIejax1aHSEEAYTR9Pnor3jgB0X48NIswrDb+ZhGG1X63ZhCG1Y4VNEYaeudEkAgz2oT60sr4Y4/aR22NMuV1gbK7rH1SraKfCttgPzpExoVslQmRaNF27jZkTVt/rpRqG+HxhNYXdJgc1KZMDka2EWrnnTNx2yz14c/bIstSGAaZ91wyUBMmI2MgdHnKE/xOgtQuGSe0cD0UdJmcq9rGuCSdN1dM08bSLhnotfWW02zHMgYlhL+cuB1clZo0xicHa8E2CkdYWGifHGwWPMIQXFIw2bY8/1eBci0EbU2tdsETQqffRvAAC5XcTgbWi1onRrBd4OCKKElXA1FSMJEQDL7kQvLx8gFh4yRCMIkMjFmfSAjWIAvrIgQTyMD4vqoTgolkYGzfxerLuYzM8iBF5XuiNG0ytA5r1Nm5bNkyZs6cycyZMwGYPXs2M2fO5N133wVcN+ApU6b49p///Od5++23+epXv8rrr7/ODTfcwG9+8xu+9KUvdXssRhUr3wSoYpgojLPTTvmT0Fd8/07FxaeyL8f/1NPObasqL5TRtlqVP76NKn+idgn95yzF5/Z6mhyFQDtd/gT7T0DFTagaIsqiRngt4b/JE6HleiADbw/rhf82UnlvIuvvw4f39rSOSUoUcRM1KZpHskFZLdgMRNWCzYRFAydUDUTVgo3AOG28MePLKJUv95uivyAp2F0CMK59TYKwxvqqCsC4ulgCsQYBWEXh5yNICtZL8CVsqxrplrbfnkQKGmXi67WJJX2q2fd0UhBA5Tp47nM3o3KVsYsbgdam6qcZMDr+0yxoZWI/zYJ3DkU/qdpGzrNo2+g4o7ZV11W003XYVr8GhNXGJnK9SNhmwjai17TkbUQf1hNejujq26i4TlZ7CRNVgQf6LKo8D6ovUzTl+5n3sihOXV4NUaV7mveuUfV8rZdsUFbxW3VsJ+o1kAZWxCMh0bY0V/E9HVI4jtmB+U30RaodmfN5qsCkchzqIQGD63UdhKEJkIA1CcPg/LqOeXKQ+KtFAsoqtrJGu7hnjzTno9vWhP9bkblU3hQ4bYuHyKkulxD0SMHo85nSof+40LpSIRjytAi2jTw3xj33RRSCptozZkVf0WfU8HNsZV+B52HPtmRf8TwdfXau6Dv87B77LJ/Bhy0a+2RoHdYoxeB//vMf9t9/f3/ZiwV46qmnctttt/HBBx/4JCHAyJEj+fOf/8yXvvQlrrnmGjbeeGNuvvlmJk6cWPe2jS4Sx6PGqf58cjBJCQgx6r1KpWG8SrG2EtBtG1ERplYfRhR+VbeZQkUYvDiX7Lz+HST3PbeNG3+QSDsIqwOVinctbgK8N9H+G+WSSrAeeGrARpSFvqJQS7R049x57sSpoSVIjTCWGztHW2V34rQovU73VYGBuByrElE34qb02QoiMOJG3Aw08kBQ0YdHJvoi3CIjtr4dKYsVE8d6HnAgrBYs11X2F7eNqG1cXSzBF2pfiwCs7L8WgRhCrfU1iIfuqgXrcSHuLim4JqgEoT5ScHUQgh6k08k2912C6VyJijxoW02eybZSZbgmKwwhfKxrqQorlHsBRWBQORi1raUcBFIpABtWDkJIZZekVqypHIRyWJbEbXRDORjYRnQ8FUrCaspB3Ou3LYvsJW8npwruE0xwWxFE53Zp4NmmUfx58GzTqPf8NkaghUmnEiz1bxnXszPNdjx1oKcs9FSDSfDUgUkqQQsvJm912Ki6SMBa8NyIAd+NuBq0DhKG6S9aoRfkNdoJE1T/pd+PINlXjzBA1jhBGp4qx4VhAZwuwW/fGufHuczchSP2KdyFY8lAr4/uCDrWMlgi/TUz2CZD67BGEYP77bdfYmrr2267LbbN888/35TtG11WtgmZD69LIgihws04iSCsZre2uRlrpflkSRugw27GLSIA60XUnbi+th7JF3YnrgdlwrAb7sTam+FG3InrgDESIbTvTlwPrBQzlmh8wWYgGlewGYjGF2wGovEFu9dXlYcjYehom+8uVLHx+6hB7KWta4ULcQg1CLqaBGCr1YIJip6KuiapqOKIu57kOrwmxBJ07WOrq5JxyvHqDfl579WwiUeziMPVQRhCc0jDVhCG3rFPIgi7Qw4G+26U5KvVDsruwS0hByHk9tstchDKBGGUsAu6FtdJDgbLUmv6ivnue3pFmTTUBiOTScCoO3Ea8i/qTmw7wo81WA1Rd2KPBExsY8LuxKlchCPuxN5y8nZKhGGJ/MsZ5ccajCKNO3GUKExDCkYRJAmdOh5LVR0KwxBhWI+XjE5PAnoePYAfXzANgsSfrOGFlPYlbhQVsQbjSMGiF+ZJsLCrb4m0K63P3IXrcxdO6ieDj4wY7HlYo1yJexKMLoSIQr++JBuu5WYca7c2uxmH+ndtcpbirAOfI2dF+k66gdSL0o2u2s2wHnfiqPtwIzdobwKw2t2Jg4GVibwtrWcs3VD1tUIR2Mz4g9HEI81EM4hAv6+YcziYjESpPK/M+IbvSpyUdMRDrdiC5brksdXisWu1b7lasBZBVy3hSEybmsRcHLlWpX29asHukoJVXX6Vrtp3va7DaccCrSUFq7m0VnOlrea+qxwTIvxUroMZ5/6yIVdir6/op1lopUsylH+7VrglN8MluZarccX/KaVbcdS2UffgCtfmhP930rWhpltx0guL1Nuo4R5cSLhmJimqq12LddjtsUieP5lvUAyExvDndcHrfZQISUDUnbgeV2Tv/pnmnW3Unbjay7xQm8j9OpWrsNemjnmG74qc8OLTjqyLLse3qT5/WtfjC9ZyF+5OfMG6EYghmKPAWTs8SE46mbtwbN8p3YVjn6WLJQ/EDBl6JtYoxeDqhCksB9oq60vkYFRBCDVUhOuam3HwAl1qWywabn9iG4rKe1Ot4rMkV0M0uHU30IjLSbmtwFhmrXQnbgW8jMTdQTTDcDMQzUjcTEQzEncHZdIvZjsxQ7cpsMV212KTPBnpyWrBdSnhSDOwproOr3kqwTJksZPtbjkHWeyM76wBVCMH1wSFIVT/XZutMKxHVVjN1biWcjC4nSTb7rgH15PMJEk5CNVdmZNUhvUoB91tVFEABl2Lm6EcpDxHsykwQf8EWxZAgyCcpASIncfVk3zEQzOSkKRBPSrB6HbSqASj7sRpkpB4KkFPNZgGjagFPayL8QWrtatFGJbtap8saYhxHyXSrojF7S/uTbEY+P9l7sJEkegunMY2A5YwNdXUcW0ytA4ZMVgHXHIQRL535boUbsYQJPBWo5txEkEYbNtKN+NSm4JjuTayyadiUvbiFIhmI17X3YmBmm7EtdSD3VEXemimItDvsyWJSDwisHk3sLhnjKAysNK+XCetMBmbdAp1Ry2YJRwpo9GEI91VC7aKFOxJsQQb2W4rScFST1iFldCCbORpx7CuEobdIQnTkoPedppBDkJ19+BmkINx22yUHHTHGk/WJbkrN5UcDMYbBGzZ5b4sCsQejHMphhIZGFjvIepOXA9h6LkTpyIKI+7EaWIKVmQrNlBLMBYlCtO0iboTpyEZPURJQFuoiriBtnBCGYgbIQ6z+IKrwLEvmnFYaQql37pphGB33IWj67vhLuzaO3XYds9dONY+Iwl9WIJaEY5i22RoHTJX4gZgCsv9T+z6Km7GUEVyvKrdjGP7WkVuxv56Rc7SnD7hJXJxvpA1MhGvLqzN7sQ9EV5G4p6uDPTcb+px3amFJNehJLVg9O+kdZ7XX7gQrfMV7ZLO31WmIIwj+FrtQhxErfWrMOFIK9As1+G0fUNzSMF6MxdXs2+V63DFerudFz7/C5TdXjVjbr3Zc+tFNZfkZrklrwkuyfW6G8dlGU7KQhzst5ZbcaPuwfW0S4pXmuTKHHUrTgp7kLyNhOtfs92KAYc8D8qv4FB6AR90GU5wKQ6Wk1yFG8lWHHUnTiMUjLoTx02Dq7UpuwqnaON7K5S+U7y4iIunHC7Xno+leeFqJcSVrpWcZE2JL1hrfl9PfEF/LC12K85Jxek7PUHe8zJpxF04ur6EhtyF/fXddxf2n3Fb7S6c4lk/g/t+qJFPhtYhUwymhPsHr7wYp1ERZm7GwXbKVw8WC4abHt3edSWu54/eTTVgNNtdORtx5k6cFrJGEJ5G1YGtzEjcVHKxBRmJy30nrIsj4RLUglKDkQW22f7HSBn/ssKzqwe1yL64uizhSI3tx7Vrglqw5jaq9JVkn6kEK7crCyvZ4aefRRZWxnee0LYaamXVrQetVBmuSoVhParCqAtw9f5LhFK1TMMNKgcr+qlDARhtB9Xdg8OZhhtTDlb2o0NPYMnbaLFyMNA2p7o4mB9iU0AgSm7ElOeQMS7F7r2lcn63tiYhSYNoEpLuIFWm4hhFYVrUQwL2tPiCQTQaX7AR1BM/PYqitrjp+f1womNIUABm7sIJasKMDKyKTDHY85DxrnXAqAJGVVECJqgIPQVh6mQl3luFWm8rEt5UJNZF3qRU78upvKimSnJSRUHo25fX5e0mEytNVN94PFJZJVh/H2VVoDdRrf8v57WpJ8tZBbztpuyjVfEFq6GZGYnLfbbCRbj56i6PZIx1FU5QBiQlHQlCaoFWbU1NOlLuO11duL/069fphCNNQJISKTiGehOMxG5rNZCCq0slGL9dgcp3EPcCsVGsCsXhmqYwbERJmFZFGKcerLYuqhxMsm2GcrCyn3pUfeF2SSq/Hqkc9L5LbVUg8Ujo5VLAzrt3VFOnx6kH61EJeki6n1ZDNAlJqjaR+3eyracSLLVJ4cngveSMS0ISTMCWJgFJdO4VNxeLvqht5MVtML6grjG3bUZ8QVGj3aqML9gMJL1MzVue8q50fKuRggnqwUR1YNA+bn2F4i9BHRi0LyFWHRhVE/q28erAep65q6oD03j1ZcjQg5ARgw3AIwhrkYSx69YhN+MKcjCCnK05db9XQ67Etdp0B3UF4U1AK9yJ64E3iYi6E68u1I49WJ30a0bcQQ9e/MFmEoLehLiZhGASEeghbvJfb9IR6c/n8rz+6jloXalcrtW2Vp2HLOFIMsHYEOnXTbVgWlIwDs1wHa5GLFYn7ep3HY7DqlQJhvrJt/PK565H59vjN9RkrI2EYb2kYStIwlrkYNqMxd0hB5Nt6yAHU26zW+RgtfG0iBx0dI5H2s53XYk98k+ZsEtxCdWyFMeRgnEZiSuzFdee60XdidPMD6PuxGmcTaIvDdPEM466E9cb+iTNPCjN/CtNrOjueHgE4wvWJAzriC8YRNC1OOhGHIdG4wtW9pMm2UjD3fvIScWpO/yDXNzcPi7D8NrsLhzzTFzVFqq6C2eEYDws0dgnQ+uQuRKnRLX04h45KKwYd+FuJitptZtxuP8muxkH3IurZRouOhY3PDSmtI1YkzACSUtajWa4E9cDz2046k5c1/Y9t+GIO3F3Ibrjk1AFzXDr9d2Om0kExsTW6S7qyUicNp5g2qQjAJZVYPsx02s+bHQn6Yi/7UYIwhrr18mEI6sAPSWWYCP99DRSEMAqrGSna05yCa5AfbPcadOi2hib5Za8KhOf1PPbece4Ga7G9SQlCboVR21ruRVDOvfgWslMkjIdJyUaSXIBTu1WXLGNSJ9Q7jfqVgxl1+Ikt+LAdnJWgSNXXg5SVGQjjnMpdslBUZGRuJZLcZJ7cdSdeG1LQhK3Lg5pkomkSUASdTO2hEp0Ga7HtTgIXQ8JWEd8wSAajS+4SlHjBUxR29zw3IRS4pEac+FqLsPdcBeu7Ksb7sIR+5a4C1ch/KoRgdX4hHURmStxz0OmGKwDSYx/o27GUF1F2Go34/j+u+lmHGwTRcReYBjYeyWiCVkcRTS+Rd3tS9+RB8uoO3E9KAekDrsT19WHn1ykCe7E1TfSvK5a6ILcEkUgniKwmclNPCIw/Rv8JDfiIOpJOuKuExgjKKwcgjGiIben4DZq1XnIEo70fLVgFFmCkXpdh8PKN2VgxcBhmEhWzyR1XCsSeFTDmqgwbOT36Y6KMNxP+PdJSjTSqHKwwjbhf12rXdrM5t1SDqbehq66rkJ9rSPbCLaJqAXdvmGJWA+DqOJGHHYp9tfH3H+ETnYpDpZ7chKSNIgmIUlCnDtxhU0a9+BuJiDxbVLOK+uKLxhEyHW4lptxa+ILJj0ftDrZSMX2MAzKL6nr2cxEFYAeGnAXLvfVBHdhv+8WugtX/BYxHnsJIcXWZViigeQjGTHYUmTEYAOoepGgTBD2ODfjGn3V5WYcahdDEKaEbWuO3f1NbEtXvj1qJorN67sy7mD9Vyif5FsD3Ym7G3uwTXbV3aaZSUP8PlsQK7Aet5zEeIK60q6RpCMetM7x5ptT0LrS3aXZhF8969KsX1sTjqR9iG8V0iQtqZeca8R1OH5sa4ZKMNqPzrXz5gmXo3ONuRKnJRCbTSKuKYThqiAJqxGEfrkb5GBiP00gB6Ntu0UOJl3XViU5GNPeIcc/2j6Lo10VWigbcRxRSPlFU4gIDK0vbyboUhzvXhy+x8Yp7aOIEoZpkHTvr2qbIkyJh6g7cS0vCbtGorVUmYpTzOXSxJuuNwRNXfEFg1jF8QW7g3RuxumunbZUHLPNc9i1RAOBWIJAdUJwHXAXrsYLZGRgMmQDbsSr2AljnUNGDKZEVaKvmyrC2HUpkpWEkCbAaUIcwpoXzRQEYcg2JYqOxc2P7UCxFqnVTTVgEloWd7ABF4FKdWAL/p61bvRNdBvubmbiNG+S6++zeSRjro74g1Zk4h5EvWrBepKOAORkge23v5KcqD45WRVJR/x+V4dasApBV64LMqm1CMAaLrh1JBxJg2arBdNsf3W4Dq8pKkGvryiswkq2v+GzWCmzEncHq4I4bHXik+4Qhd2JR5iq/26Qg9GkJKn7qYMcbDSZSZTwS9pmjyEHI9fuHAUOXf7/yFEItwmV3a8QaVhNPRgg/+LUgXHluHtjPWr8ipiCdZF/6ds0IwkJVM5xVmUCkujL5FrzyrU1vuAqg9IUtc0vZoynqBuMNlbNpTiJEKyZICQiQkkgBKPPtvWoA4P24X2qL5lI3DN8Le/BDBl6AjJisA4kEn0pCMK4tmukm3GwH9++fhJHCMP6/ZcjRDceNJqYhbga1gl34gbQrMQh3hviZioDvUloM92OvclxGlccD3ET8aRg4UlJR8J9VFcgROuMESxfPgzjt0nftlqdh7QKwvR1VR70/LqAbRzBqGq0r0UQ6oQHV2KUNRX91+dCXEstuCpiD6Z1O251gpG02/T6j7ePrW6qSrBaX0ZIlm+4OaaeIHctQquVhq0gDBshCVupImyUHIy27Q45mDZjcaPkYNw2q9n2FHJQK8EncuMQ3xDKRhxwKY7rN0QEBlyKo+uDZZmCNIxibU1C0tMSkKSdh66J8QXT2LQieo9As37vxYhqxzqtWCNGIbg63IUrx7Vq3YUzMrA6clZjnwytw+qfwa6BSEMQtkpFmLTNEFrpZlwnCVgt07AtNRPHvINdZ5KN1GhS3MGK+h7mTtwwaqgDZROPS9zkbW3OSBw3OU9SC9abdCSuLt612HUlnvPOpFhXYlg1SUf8uhpqQR81FIBrQ8KRRtBstWAq8rJOMq+VCUbqVQlC61yHy/Xux5F53jnsfByZ9+uqfVYX1hTCsKeQhLXIwaRYgs0gB93l5pCD1cIaVPbTg8lBZdDY/Kf9eDQ5t66WG3GQNAy4FMfaBkjDpCzFbrn8gs27h6ZRDTYSU7AeotDfTh1Eob+d0lwnF3AbrulivEpJwNr9yHq9XlZxfMHVgXp/EltqDhr9cveezYKkYAlV3YU9u7XMXTjumd7lALLkIx6yrMQ9D1lW4pRw//SRzHUBgi82K7GKyf4baZuUzRioyGjckmzGwQtlJJtx3NibhaKyuOOvW7GqMg2HoE3TAxVILdDSrLLsxKbGTbsZGYnTopkkXz1oJhHooREiUEbewIf6iyP4EtSC9SYdiasLPphYVoHttr6+oj4NVq2CsBYBGLPBWi7EQdRaX4NQWBvVglHUUkJVs4PWEoLJ/cdWrxJCMAir2MnWN54dP5gabatBrqLnyWr72KyMytHftp4Myd7xqifrsbc/zchqHM1cnJhpOLIumLE4KbNxZYbi6tmDkzMUR/tJyFisTOgJKynTcVJm42A24dTZiqPbD2YrhvD8LJIR2VZdHLT0SnfBax+0L5WFMhgESPfeYEq2QhuM9MqueMy9d1RmLo7LUiy0q6hwywJTujl7GYqDKGcihlq33mjW4iR4mYa9NqkyD3ttjEEL4WctTm4TtrGNwglkLbZQqBoZhmOzEEfqLBxU5HE0mpk4LlOxFApdRzbjnhBfMI0IoBHvpG4jcFMqaps7X9jLW1G2qSLySIPYLMNrfHbheDIwvo8szmAcLEGUWknXJkPLkCkG64DRXRgdnzyhFW7G0JiKMNHNuNa4YuIQxpVD9g1CCMMmQ5ZWdyXuxk2oO2hW3EEPzXQnbhVEDZJRNjFzcXfguwg3kYi0fLfjBpSBMW3KAcCrKwTD9pV1jSYdiYNQgiVLR/quxNA6wi/RvgG1YGzf9RB8rVALJiloonVruFqwcgzVXYdj7dcRUhDACMnS4Ts01ZW4lvKw1QrEVikMG1ETrkoVYWxfCerAepSDaTMWN6ocrOwn4X+/BioHNZKP5WZo7/El1o24ygulQLzBerIRp409aDsiUTVYTxKSqEqwpyQhSe6rZyUgSZq3rur4gs1GM5ONVLRDs0m/BdVdiZNQ67kthhRsenbhGurAVekuHPd8b3SmGPRQd0ZiGXpPlKEFyH7eBpCGIIyNJ9hiN+NUyUrqiUMYWN8QapCGltTstfUHWI3I1VenPxatcSfuDoxV42bcKnftGNSasNVD6nm2aVxRUvdZmuw0ojb0Jty5mAx9SWrB1ZF0xGuntc3cDw6AmElsq5OOrFa1YMIDsFsX6LRGPMLuJhxJbBtj20jCkO6illowSzDi1cdWo+0cH+x3Ctpuncq+GlY1gdhMwrARd+NWJyypen41gRysZduoe/C6Qg5qbF7pOBiNXW5b042YWNIwzqU4lLk4FWlYSfbFlWNV/2tAEhK/jxQJR6JI52Zc2yaagCQOaV5eizRzzxbFF0zzcr+VRGJVFGPmslKz56ZvNfZslgYRl2EfzXIXjqCRZCLddxeOIQQTnv8zZOgpyIjBlIgl+koEYatUhLHrupmsJIQYgjCEbqgBa0IrHGXxqye3wGm2Gq6FD9G13tJ1hygsKworfw9di/hrImpNnuqO4VIHempG4qS36PHKwOpE4KpKOuL3YxXZeoubsaxiXW2bqSBM28famnCk2cRes9WCjbotr0sJRmqRa1axi81vvRDZ1dn0DL7NQqtJw+6QhT1RRRhHENZDDkYzFifZVl1XQQBW/y+vC+SgTYH9l1yPrboq2wbjDdaKPRiIN+gTgaH15W6D8QbjYw8G3G0D8QbjFIJpVIP1xB/0EE1Ckq5NiTCMeakZsovMf+LmQ5WZimOyEEczFce88E2TqTj68jnuZXR0HlszZnaD8QVXdfzARp4t6oWjbX798jgcLytxmhuE7uYzSkw24jiSrt6Emt1RB0L8M3W15/BaoqAMlZCisU8juP766xkxYgTt7e2MGzeOZ555pqrtfffdxy677MKAAQPo3bs3Y8aM4c477wzZXHrppWy11Vb07t2bgQMHMmHCBJ5++ml//RNPPIEQIvbz7LPPAvDOO+/Erv/3v//d2E42ARkxWAcSCbtuEoTx8RJa52YcQuBCmfri1UAW4iikMIzaYDFSRCelrSPBmu0mXAvl5CJhd+LWbrTGTXwVugWnCRYNzXUN9vtsQvzBuAlwLiYpiTex7k7SkaSJfb1JR/ztaDBGsnDxVpgU7jKrMulI2b4G2RdXF0sg1iAAayn8qtnGoDsJR7qrFlwlmYpTqAWrkYKx/bVQJQirx3XY68f7aCSLt9gdI62qNkmf1Y1WEYZrA0lYixxMm7G4UXKwwrYb5GBVl2RlqpJ+0XarkxzUCt7PbVN2JY62D7kRB8vuV4g0rKYeDJB/ad2IhS67EQeV+MGXyXEZipPu39F29WUrNuG2KVSCce7EadqtiQlIKsLnBOfFdcQXDPW5mpOMeOjuu3uJZrOBHzdfBFBNbBLrXtw9d+EKNKAO7Ja7cLW+E57p10VIKbDq/DQS+/jXv/41F1xwAZdccgkzZsxgxx13ZOLEiXz88cex9oMGDeKb3/wmTz31FC+++CLTpk1j2rRpPPTQQ77NFltswXXXXcdLL73EP/7xD0aMGMFBBx3EvHnzANhzzz354IMPQp/TTjuNkSNHsssuu4S29+ijj4bsxo4dW/c+Ngs94yq2hqG7BGGrVITx46lygUvcVnVyMBVxmJI0lNKw48h59WW/bSVp2DohXAW8OIONTCT0KiT2RM3Mxd0bS5pYMun7UqHvRuBNiO04V+HUykCPJIzpv061YKNJR2To2chi3rzdQkG6Id6NOM024tCdpCM+aqgFY7dbB0FXc5stUgu2Gs1WC6YhY+KytdbrOpym37J9lXE0yXW4XpVgXD/Gspm/62EYq7Gcbj2VQGwmYdiIy3FPcTVOIgfd9c0hB9NmLG6UHIy2TSbvEq4lCarG6HUxddzVFOSgxmJW+x5orEpX4gA5KGLLlf1BhAgMuBRH1wfL9cQelAHSMHhvDtpG3YnTEIZRd+K4OUfVNv48pb7/SdzcqMImVRzBqKty5VwwVRzBFDa15rFpUU98wXKbFMlGVoEKMIqkuZOUhh03eBeZQgWYRsiRaBMhBYPPpq12F67oowF1YFp34YwQjMeqUgxeeeWVnH766UybNo1tttmGn/3sZ/Tq1Ytbbrkl1n6//fbj6KOPZuutt2bUqFF88YtfZIcdduAf//iHb3PyySczYcIENttsM7bddluuvPJKlixZwosvvghAPp9ngw028D+DBw/m/vvvZ9q0aYhI4qfBgweHbHO5VR+SxkNGDHYDifEEW+xmHLvNBtyMQ2814pSD2gkvJ6Aio1QcAjaOktz31OimuRKLFsYdTCNo8yT+3XEnhua6DZtaxF0TScZaE7Q0cWLqQTkRSffJxbh4OR5JGJtgJCHpSFxdvfEEQ3YJDwqpHh5kka02uxNLFnt20pEk+1arBVdRwpE1QS0YRXSbSYRIUrta9mtCgpGkfmSxi1F3fxtZbO51Lm77PYFA7A5RuKaqCKOq1VaQgzX7qYMcbDSZSSPkYIVtStflJDUiBR2+NmuDTZF9Ft1U6Uoc/SbBjThIGgZcimNtA6RhvBtxsFx2Ew66FHuIcymGZNfhVZ2EJIhacQbduqhNGhfixhKQpHEhjtbFvryOTkC6SRzKOmIRNr6NNMlGmrMtR1v87rVdcBrdL49QjIsfGIgvWI0UXJXuws1QB1btuxp5GOPNt66iO8lHli5dypIlS/xPV1f83KtQKPDcc88xYcIEv05KyYQJE3jqqadqjtEYw2OPPcYbb7zBvvvuW3UbN954I/3792fHHXeMtfnDH/7AggULmDZtWsW6I488kqFDh7L33nvzhz/8oeaYWomMGEyJ2mq/VetmXLNtAkkYvBCGPhGC0F8uXZArLtpeLIjABdsnByPrjFLlt0YlG2kctt74E6SXoUkr/4ZSti19Jz15pInfFRNgt1moGXcw4k7cTCh71cWtSBW4uYVoZkZir6/YSWyCWrDepCNxfXSHJPSVAbEEX1gt6D+EOBbzF+6ADry5bnXSkTikTTriI65/Hf+g56PKw2e5LvyQmdS+oYQjqxirQy3YyLi8vtf0BCNJv4+WFp9s/ym0bP1DYhqsagKxUaJwTSAJK7cfsOkGORjNWJy6n7TuwRW2PZMcrNVnkBzUWjKnfWxJMajD9tVeIHnknzJhl+IS4lyKhYrPXBzvRhx2KfYQ51IsddilOE4hmEY1GBeOpBaiSUji+y3ZpEouksZmDUxAEp3cNBBfME3YoGa5Hic9W1TEzwwqaIuR5yulEVpjGYetB73nuhJr7T6HKVW+uJeWjVLl5zbfRvnPf0YpTLHLfQ706xxMsdOvM4WVGFVEF1aEnjcrPiUkPhevpmQiad2Fk7iAdRXdUQxuvPHG9O/f3/9Mnz49dhvz589HKcX6668fql9//fX58MMPq45t8eLF9OnTh3w+z2GHHca1117LgQceGLL505/+RJ8+fWhvb+eqq67ikUceYciQIbH9/eIXv2DixIlsvPHGfl2fPn348Y9/zD333MOf//xn9t57byZNmrRaycHGfF7WcXh/eGHl61sXuCAI2Rbbrnq/xdK6Snlp0jaBqgrCCkSbqyLCyrnbtnLlZe2AtDGlZfxvByzbXw8QvV158xEBSEszaoNFvDm3L9rLzGtZ7o1FWhilEJbl3mwsy70hSVm5DO4E0ZIIrTFS+sshmyi0ASkQymCs+Bur0FAtNJtQUEf4kYagm5kVrNakaRX6UqdxEfHQiozEcUitDCzV1Zt0JNRHlLwLrosj4RLUgrVOEYPFwsVbMbjvaxXGq8NlOHXSEc++EQVhLYKwVS7Eq1AtuEpiDTagFmy163AcVpdKMGivLZvFW+5Ov1f/Sa1A7NVuSasDacg10YDvjvfb1LOv3nGpJ4aQN/56xuidL5adro3WpmJMRoMo7ZtWBhmYQxht/PF4/wdRWh9cF21rlPHt4voJratY1oiSlCLJtp52KAMp2gXtKmy9uVjsumi76n1S0JCXaCTv57dlWOeLSFS5f8/eu6ZYwiVBwJ3fleZ77o9OWRbhzQO1AQRGhud9cWWp3S78cml9XNl2BI5t0NIlcLQsvyD0+JxgO0uDklXqAm2i8OwtA0ok2/ptjEELgWUMSiQbW2hUDS2JjcYJ2NgoHCIhTCJ1tnBwTPhR1BYKx1hVl8GdQ6pAXXQZXBLQ1JqkS0XNxCPBg1EDqbIPq9p9eTZxnkdlr6RynVeOJbaVoSIZT1FVEIJeWUrFZoPm8eaHg9DaKpOBBEQbHhnol53I+mASkerqQN+W8nNuXagzJFY1MjC+j+qindS2GRHYMrz33nshl9y2trYE6/rRt29fZs6cybJly3jssce44IIL2Gyzzdhvv/18m/3335+ZM2cyf/58brrpJiZPnszTTz/N0KFDK8b60EMP8Zvf/CZUP2TIEC644AJ/edddd+X999/nRz/6EUceeWRT9yctMmKwG0gi82oSfaWLRZQgDLZtlCCs1rYWvIujYTki3zu0zvvrmSrLUbsKklA5CMsO1ReVzR//sQHC0kAXWLZPCnrknwksJ5KECWP1UfTWl+2j+xNtbSzhTwY9IjA4uYtCKIGxTKJNEKaJxF9Nt+EmohaxVw/xV9G25ELSFGVgQkZiy49JmI4QTFIL1pt0JGyXsC4tcVhNLYjrSrz5iN/UIPx6btIRH7UIjEZciGu1D6CehCN1t20Cmq0WbGTMaUnBeglB6NmkILiuxMN/8/34TlJuK4qeQiBGf4N6SLjgvqbdn+AxSksSBseYdnzBc6cWSRhHWqYlByFCznWDHAQaIvnWFnLQzhfZY9Ht7rKM9B+0D5SDL3/9sgaBqSANQ0Rgyda7t6UnDQVGmpqkoTRAaa4otbs/WhifCAT3BaCOJOhLQxT6tiXSz7NNIgEtDKridX58myhRGEcCRhFHAlbaVJKAFeMRDqpGP1JodOStvpQ65DkhpMZECb8IUWiESkxA4rkRB9V/nlrQq5PK8ut8wk9LP7agv06LCkJQahETpihcjqoCg7EyqyoES/MDESh7F2unqPnzi1u5daoYJgOhrAwEXxnorncCdU65ToWJP18ZGKjz0c3svdViB8ba1kEIJnnuxdbHEIKebYownesMLFG+h6aFd9nv27cvMsWkYsiQIViWxUcffRSq/+ijj9hggw2qb0dKRo8eDcCYMWN47bXXmD59eogY7N27N6NHj2b06NHsvvvubL755vziF7/goosuCvV16623Mnjw4FRk37hx43jkkUdq2rUKGTGYEq40uETmWfWSebVVhEkEYVzb4EWqFknYEErNPZLQ6AJC5tOrCElWCwJIadh+1FJemj0QrUXMdCTSPi1JWFoWAdVgSEXYVVYReiRhLYIwujeytKxL6/3lCLvjEYXNQDNJxFrqwLoSwjQJzcxMnOS+ErduTU86Ug1SC7S2mPfJzqw/YAZSqrUi6Uhi21qEVqvUgtX6iEOzXYBXAfFYSy2Y1i15TVcJVmujLZuFO09k4IyHkCkTcNVCTyUQGyUK1waSMKoejJKDQJnk6wY5CNVVho2SfGsDOagKgncG7MGIFU9jaVVJDgbbeNcazzMkWI4jDbXByAgRGFpfJgI9ck9oV3zolctEoUsOQlk16N5Ly0RgmSgMKgnLRGCZQHTJy2pkoK8SjKgGk1BWFrqqwSDi6oKwjcIRtUjA2gRfGjIxTgkYhRSqIrlaFEJoTDX3H7+jFOrBuL4jBGA9hKD/UjdACAbjlEfVgS5R6G03TAa6dhF1YBV3Ya9cri/bSV1ku40/4qU5Q8r362rqwBqxA0NkIOCFpXLXN58EDK2vgxCsRx1YzT4pZFiGeMgGsonUm5U4n88zduxYHnvsMSZNmgSA1prHHnuMc845J3U/WuuqcQyTbIwx3HrrrUyZMiVVUpGZM2ey4YYbph5Xs5ERgw2glQQhNK4ijEMcaZgGoQuZVyxtum6SsIqrsaDIBoNW8sqb7WjyAXWhR/w5YRVhcHze/qXcn6oqwhJJKIpAzs1y574hLrmXKPzlsmqwrCK0lMBYYYJQQ12qQQ/NdBs2qzAeYCvVg2mRJiNxnDJwVSYdSYoJ1IykI9VPNcHyFcMwA54P2zeB8Eu0j3MBTuqjlstwQl1PSjiSaFfDtllotlqwGaRgNULQtY+v72mkYCJRJyQrNtqCgc+v+je9q5tAbMSdd012NU4iByFC8jVIDtayXVfJQSMkn1ibMJxnARV2EQ7aBvsLuREHy4BH/oHvUmzi1IOe50iANKylCBRaIDEhl2J3fbJLcYgIDPQbVBKmci9OoRL0UM0mZxTFAAkY51JsoVBYVZchzoU4xj0YBxV4LLVxcCKPqWlciKN1UirXJTaIaJygmLhBRqpQJmK/fyfnk38u0efaeKSgRwgGyUAAqURd6sAgGejaJbgKQ6U6MEgAEqMOjMZwL8UNFFKzft8lvOL0cxWW1dSBQTKwoq6Kq3CUKGwymqEOdOu77y4crzwsZIrBAKQg/YN8sE2duOCCCzj11FPZZZdd2G233bj66qtZvny5nwhkypQpDBs2zI9TOH36dHbZZRdGjRpFV1cXf/nLX7jzzjv56U9/CsDy5cv53ve+x5FHHsmGG27I/Pnzuf7665k7dy7HH398aNt//etfmT17NqeddlrFuG6//Xby+Tw77bQTAPfddx+33HILN998c/072SRkxGA3kIYgdNc33824WttK++ZdfM3KQnmbkU1X09dFH6+C/2dHw4NP9gc0wgq8dQq5IFchCet1Na6mIgwi4mqcRkXokYWS+kjA7qKZ6kFRo680AZ27g+4oBZPiD6ZxIw7Zp0w6Ug7OHUcIVo4jSS3YzKQjUVv/TbR0GL3x74G1I+lIYl0NhV9LEo7UUPvVwpqgFkxCKLlBDyMEk/pqJimotYFCF8N+d6W7XKqv9812q1Fv9uA4JBF5jSj11lQVYZSk7A45GBxTRg4m92mbIrsu+D+3Lu9JNUtkX5JLcSTeYLkM0XiDECUCTeiFcHB9sFxP7EH3/mxiXYrjiEBPSWiVxqtFhCiMqAbjECUK45SFQXfiRuIKxtukcTOurTBsk1106eQ4YrEkYATpYg9W/pBeuB5FmRw0UkNAKRgkBaOEYFAdWOkeHFYHRpWCUXVgkAx07Ux1V2GoVAdGlIIm4B7sFBUP/2cYYKD0nBtVB4bIQL8uwVU4kqRjVWTmTYqv32p34bT16zqkrN+VuF57gBNOOIF58+Zx8cUX8+GHHzJmzBgefPBBPyHJu+++G3JLXr58OWeddRbvvfceHR0dbLXVVtx1112ccMIJAFiWxeuvv87tt9/O/PnzGTx4MLvuuitPPvkk2267bWjbv/jFL9hzzz3ZaqutYsf2ne98hzlz5mDbNltttRW//vWvOe644+rfySZBGBPz1JrBh9aahZ8s4Nj9v8XK5dWJQA/J66oTebVIvjiScFUhOjbfVbhU78UjFDIfWo9vV1r2EpKUlq2czS7bd/GfV3ujtQisL/HV3rdfb0XqvWUrtFy2C9z4vT+8b+stlybAkWV/fa5EEnqTTCkwlvAnhF7ZWK4bcfnb/Vt5ZW1pnzj0lIHaMj7B5673yqpcH1tXLntZiY2lyjEGpfYVg0aqAFOkyt+iXOcTg6U6IZTvSiyE9olBL5ubFNpXAUqpymVRLpe/Hb/cJrvKZJ3wFH6OX1cm8sIxBj3yz0aV66hc59sQ7U/5ysBgNmI7ogz0iEELXVYNBojBaNIRCxNQBpbqfFWgCSgEy8qAaNIRywSUhL5CsLwcTTASV1ctvqBXr7XFR/P2YMPBT5EvTQaD5J5HDIbrwn3FZWUUMfahuqiLS8g+PKkN2sdljawInB1sG6fciyPzqrkQl2yruRD7xFcLEo7E2XSXGGylWjDJNppxNQlrcizBav1ry2bBHkcz+Knf1e1K3NMIxLRIS+Q1krykXnVjI79hveOqpiAMbjv60BIk+aLbC5FukfUyui5lPxV9Bki4ynWNtSNlOxK2FyQHK9dV71NZNm/224/NlzzhvuDLB/rxfhdLlvsIfnskbkWZcrnUj6caNJKK+Z5X733rmmVv7oevGtSSwJywrPrT0vjtPJdiFehLC+OTgVoQKoNL9Hm2HumnBb4asGwnIjaiXIfwXYkVkqKwAuskCokjLJ80dJAoLJ/885dNsM4tezEGncB6v864MzOPIHTX2yhj+XVdug1lLD/GoFu2fFdiZSy09upK8/tSnedKrLV0iUEjyzEGtVU6aFZ5WUuEtsoxBr1lZfnEoNQWVjEXIgbtoh3rMhwlBKupA5uZSKS0w2F1YI1EItIUGLv5J/zn9QHus1mdiUSirsJGFUNEYOqEmE3G6nAXjqtvb4N7H/s2AwcNThUjb22Ex63Mmrg5ZsWyutqKXn0Y9dCb6/Tv10pkisEGkKwU7J6bcdX1NVyNW4mabzoirsYeqqoIPVdjCvTuMFBc6TZOkbCkIRVhClRTOMapCEvv8apmK16TIWqo9+QqzFwMlcRfom1KZWCSWrDepCOhuggRGERS0pE4u2YkHQnaFIp9idPrrxFJR+LQiFowDrUIrFrj6qZar9WkYHfHU40UTCIX40jBJCLQb5eg+uvppCAAQuD0HQQ1XPZS91cFPYlETKv2646SsCepCKspCIOuxbWUg8FtJSUayZSDVfrU0Gn1c/9nBj9bcQUSXIor4g3ikoNx8QbdMn68Qd9TJKAYjHcjJhB7sDLeoGsbTDziknZhJWFlvEEIuxETKMdlOfYQTUISh6A7cTTOYKMJSNJlIQ7XxakHo3WNJiCJIjYBSQS1EpBoS/kuwu6yxvJdhl1S0CpYqdSBzU4kElUHpkokIjW92woIXYSiruoq7H8nuAobXagrpt+qRCvdheNtvT5Wn9Cnp0EGXsKkRSMvGjOkR0YMdgNpCMK49TVJwAQCEapfoFYVjO5CyDaMcl2LvViCnqtxzYQluBSF0vDY323A8SeE0b97lFSsWt9KV+MWvJHQTUpIAq5asCfCSnDzBVctWHVdCvfiONIwqhYMb6960pG4unqTjoTrqN5HWtIvogys1Ud4fUB5Ih1GbvTAmpt0JIk0iSUD4/qtohYsoRUJR2qpBVdPpuLqhF5wXVJMwbQqwe6SgbD6CMGkNtW2IZ0iGz7w86r9NQtpScS05Fg9pGRS3/WShGu6q7FyTCI56PZTWhcl+SKZhhslB4NjjZJ8QGB57SEHLeMwZv59YVWhRw5Wcyn2rk0lN+KkeIPBevclViUR2F03Yo8c9FyKk+INQoAI1BCXubiaSzGyVI4hA5PcidNgdSYgiYsrGE1AEmdTkYAkJq5gRVbiKnEGG4VHCnqEYKsTicS5CtdKJKKKDo8/0999Fq0jkUiQDARXGVivSm91oZXuwkE+IEMYUkBMyPRENPDuNUMdyIjBtChlJa6XBAyu746KcE1DGpLQyufYc1fFU/+RqGK6hCVVVYTE6aEiYyp9p7qm+JPa0o3WS06yGqCbSfw1MV5gK2IPWglkoYc4gi9JLVhv0pEgcglKwqSkI0E0mnQkri4u6UgSpAatLd6bN54RA/+OlKqpSUdi+4ghvFqWdMRDWrXgKko40ghWpQtxkktwd1WCjbgJB1GNDIzbbpq+W6oSDK63cszb7yTWe+L/kD3goacRwq+RvmuRhK5NZR+rQkXotimRLi1IWJJEDrr9NIccBEIZi6vZJpN+YZIPiCUE6yEVVwc5qO08rw2YyNaLHsIKzkFqkYOR/nx1YCTeoKBcH403GGwXylycijR0VYM1Yw8aIKQkrCQCQ0rCEukXij0YIPvC5eqqwaBCMBhnECoTkMQhLuFIFM1KQFKx7TSZiyOxB2PjDEaJwqSAjTXgxR70l63KHz0umUizE4m4dWFXYXd99UQiljTsseMSnvpPHqUFaRKJBMlAt67Q48i/KJqhDqxWX40MNKor1UvTdQVSUrf3XSMxBjOkR0YM1onukYDpkpW4NrUTi6xORMcbVRGGUMXVGAWYHEZpjKruzhtVBTbd1dhTDUIoLqGIS1CyDkE00W24TTb+xqxeFWCSXb1JR4JYnUlH4upqxRYMt6msa0bSkbozFbcq6YiHWmrBGLuGEo5U2HdPLdhdF+DK8aQjBburEoy2i05405JTjZKBtbbTalIwaK8FGFOqSzica9ItJQ3Bl0adV0v1Vy9J2JNUhM0kByFAyEXchUMuyU0gByvXNUYqRsnB0D5EyUGIJxLrJAd9RNaVf6wIORi09cbhuRFHicJoueRSHCICQ+upcCkOuxEHicJKl2L3vlqZeCSsJKx0KQ5lLg4qDWNUh958I5qhOI1qMD4LcdSFuDIBSZQobCQBSRxxGE1AEqseTEMCRhFRCtYLLcvuw/UiRAp6hGCTEolEXYXL65MSiRQxysFogS6UYwpWUwcGycCQXaCupyPJE68xd+F09es6MlfinoeMGOwGGicBk8lF12YNuZgGiEDftTilq3Gxs8Df/1ZOWOK7Gnv2OqIipBuuxnGQFqZaHMLIRLWV0HESsUbRxGzFqxKxZF6MK3I06UjcunBddbVgkhtxzbpI0pEgmhFPME4ZWK9a0G8nFSPW+6tbTkn4eWiGy3DsugSiJ7VaMFFBWEMtWEJNF+KQbevUgonbSrWsY9c14jrcSIKRegnBWkRg3DiiSNrGqiQEPUhVZOijd1QdU61tVfTXgttPd7MS1yLk1lWSsFnkIEQIuR5KDlbYJigCo+2qqgy9a1icOjFAKlrGYdv5f4xXIwbjDQbJQWTVeIPBckW8QfBdiqPxBoPlIGlYSxEotECWYgjGxRuEMrkXjTfoE4GBfuNcir25RTRLcRyBGI0dGBdLMIhGMhU3Gnuwot8UrslRojAuzqCUGh0g8WLjDEZdioVCSPfZQqjGCEQtDVaAgTVW5fwojhRMVAfWSCQSIgOhQh0Yl0ikqIo8+ZQA3UlSIpGgq3DZzbi0vJpDXnUXzXAXrkoGriHP9xnWTWTEYEoY1UUjrsRpFYZrKoTV1hiJWQDbFux/YB8ef3yZ/0KrIh5hNZKwTlfj0DTHUw965XUVzXQrThETMC3iScLqKsCemHQkmIm4mn0QcSRhMBNxhX2qpCPut9Y2sz46kBHrPYosuWqv9UlHGrUnhVqwThfe7qoFE9V/CdtOoxKEdK7D3VUJNoMITOo/vL6+/ptBCgJoO8fHEz/L0IduQTrdd6HqLonXatRDEro2ldecVpGEq8PV2DvHPYKwFjkIhJKSZOSgt07Hk4OldsrO8fKQo9hu/v3Y3o0pqEaMIwej4/PKITfiIFEI0XiDECUCyy7FzYo9GCYCK5V/QKxLcciNOEgUBpSAfuxB44496FLszldK2w6Qgs1KQBJFRbKROOKwItlIpTIwmoAkGmcwDhVxBuNQQz1oLAVOrrI+4j6sLdP4u/ooKRhDCKZKJALV1YFVEolYlmH8nponnuhCqcD6iDqwGhm4pghb0qJZ6sByfXszhrVWIHMl7nnIiME60SpX4jUV1S+AnlqwuopQk2fpwuWYruVo5aoIg/CmH1H1X/RxLY1asKJuDSUEdQvi+qVBrWzF9cAK9BUk/ILxBZMTiyQpCZubdMSrqzfpSKjfBPKuXrVgPUlHPNgO5O2liBhSc61POuKhRQlHWoFExV8VUnB1qATddeVylAhqFhmYxh05iUSrlxBM2mYiWWcM9pJPIOa60NPR3azIaVR79cQlrEUSQjJRuCpVhEnqwSRyECIkX0YOBtYlkYOadmcxGFPZp4dopuJgvEGoUA/WdCn2CEQZIQJjXIqruxFT4VIsddilOJ40jI83CGWX4lrxBv37q6xODoI3Vyn9RoKacQajCUji4gxWuAenSTYSiTMYa5MiIUmFejDiYgxUxhWMSUgSl4BE2UUsJ9ct9+M4GEsgou+VPFIwjhCskUikmjowKZGIcYosWyLd57RivDqwGhm4tpGCcaiHEFzTxT+tRkYM9jxkxGA30AxX4nUJUZKwuLLAv57wkq/UkdW4lorQ2x6U1YOAl6SkJryMxd2AUMINNlwnmploxKwmEjEN7BAJGE8UpiH70iYdSUpEUq9asN6kI2G7hHVpicOIWjAOMvRgrNhk8D/X7aQjSUgg1SrqWqwWrKr4Ww0qwei6airBegjBZhGBrl3y+mZmHE5lr4sM+ttv3GKpqh4VWrPRquQj3SX4mtVHWjVhq0nCNORgsJ+MHOweOWgZxZbzHwm0q5LkpFoykqhdyI2YeJfiSLxBt4wfb5CYzMXxbsRB0rAy3qBrGyQCyy7F9cYbjEtGEs1UHH5lXlYD+i89RclE1I4zGIc0cQbTxBWMJiCJxhmMQywJGEFF7ME4pWA3EpAAaKmRQZfkSBIS9xxqpGNVVghGCcEarsLVsgp764u6wFP/qiQD3e/COkMGpnlWb0Q1aBpJA76WQooGYgxmaYlbiowYTIlmuBKv7XDdisv76/1e1X43Oyc57NgR/OV3c/yXXj6qJCxJoyKMKgWFlZ3mNdHERCNBRWA1dWB0OU4tGLSJUwtGycF61YL1Jh2Jq6s36UjIznN7i+mjHiVfEuFnOwKlbd766DC2WO/PWNLJko5UQXcTjtS2r04KdlclWGHXxAQj3VEJNss92LWp3U864rG+MaS113aej446h/Xvvw7pFBL7jCINgdjKLMONohnZiVcHSdhsV+NqrsXV4g5m5GDj5KAjcszc4ATGfPhrbOlU9hnnVhznUhy0i4k36JapcCl272WVRGB33Yg9ctBzKY7GGwzaxsUb9OpcwzA5GEKkLupKDCI2EYmFLk20rViisDKuYGVCkiialZAkjXowSgJG4wzGIkVCEi1VKOmIthSyG0Ri/DgkFQ9JAVKwKiFYxVXYL0dUg56rsG0LJh42kAd+Nw9HmZA6MEoGrkvPuJC8v1nikfqRKQZ7HjLGpE50x5V4bUc1GXWQHCx/F9C0MfedT9BOF1p1pkpYUk1FKMBXDwIh5eDaCmV3P45VI7DqfL0ZzEgcbVtLLRgsJ7sXh7MO16sWrDfpSFxdvfEEQ3Y+SVg5I4+vi+m3CuEnMPRrex8hTMQ+1txt0wSX4XqTjsT2Ua/LcCNJRxJQT8KRJLVgI6RgQ20SXIKbqRKEMKFTLyHYLCIwzbZq9dVdQtCDMJr29/6LiP5QKbAqSb9mxC5sVeKRZhCNaUjCVqkIowRhRg62gBy0NQNXzkGgI+2q9Bl0Kw66FMeMs8J12BKg3XtoNA5hnEtxKHNxKtKw7FKcGHvQEFCZmUoiEEJuxSFCMOBGHHQtjmYrhqCK0CMJy0Udo9LxyUJBzTiDaZKNVMQeTJVsJBxnMA7RBCRxcQYrEpB0M0txEiqTkIjwy9OcBV31ej44IUIwyVU4mlUYCKkDlXJ4f46FdgroYmepn0KIDMzIrjLqdS3OFINlCCnqzzKcZSVuKTJisBvI3IW7B6cAz/x9Nl5W41rwSELyIGSZPPThJSDpDpSCuCzFTYKuIxJxPbY1sQrcisNKwXAcwDDp59SlFgzWx7kQVyMFwwRimABMUgvWm3Qkro/ukIRpko5EbZPqpFQMG/As0LOTjiS6DLcq6UiDrsj1uBA3pPhbzSrBaLtqKsG0hGCz3IOTtlFvP41kNU5qI5TDwKf/VHvDLcCqTlSyKrITr6oMx90hCZMIwowcpCXkoHQcRi16skq76n0muhR71zrPjbhW7MGSS3GICFSV8QahmhsxNeMNQtmlOJiMxEtQ4o03GHPQq/P3F6qrByPkIAFX4rCCMFAUtVWDQM04g3GIEodxcQbTKAOjCUjibCoQE1cwCiNViSSutKtIOiI1UsnAslkVU/DKcZUUglF1YJAMdOvCiUSU7uLZfy4JqQO9Z9rod4YwMtVghjUda5wg8/rrr2fEiBG0t7czbtw4nnnmmaq2t912G0KI0Ke9vbFsQMELY+W6ruxT5RP3++jCEozqwmI5kz+7AxYrMKqALixzv4tLMbrL/VYFdGF56KZlCsv9G1v5GKwe9dzaCFkHIZmkHoyu645aMFiOIwerkYJWyCZMCqZRC67ZSUdKD6Y6xyvvT0bpXMA+ro/q/a+xSUdiEKcWrCe2YCIpqIxva5RJRfAF7RppA+lIQaNNatdhr53R6UjBaN+erfepBq3Dnzh4fcdto55+0owpqX3NbMi5Nuae/E10rvveAtH9qfVpFhrZTu31JvXvnqaPNGOPQ61zKE0f9YzLVPmveO3KdpE+UyqAE4n8lC8DKvpMGb+0nnZJcVYrrsUJ2/Ne2Dgix783+hyOyFVpF3PwPNW49zsoXW4T3I6uLAtl/PuUWy7VB0nnwCa9stDlcijmb2B9uVy+z9uOwHYEUrv3dffjrpOm9AnYSyOQRmBpd15Rti2RfIF2wfAllomMy7iEYPxcxmBhkMZgockZVarTWGhso2LnURCeg3mIhniJCwNT2aYy6VzFtiL9yBg2LloXm1gvOpGJO4BNRgUvGX1LERUsVCzHiyI8UtBNJLLcdxfWKxf6z1e6pBbUxaXo4lJs6XDcKaOxpYMuLPWf2bzv7JP8zFv+7avVr50xGRuBlI19MrQOa5Ri8Ne//jUXXHABP/vZzxg3bhxXX301EydO5I033mDo0KGxbfr168cbb7zhL3c3aGXwD74uugvXi+DvZVQ41qBTkLz2/P9wCisxpWCCno3nUgz4LsawZrgIB+PDJME0cYKxOhONyEhMwaBaMOhGDJWTu3rUgm776nEFq5GCQRfiaqRgnFrQjyMYk3TEI/26k3TEK6dNOhJtl5bcs4xicJ/X3QlwZGxrfdIR74GwTrVgGlKwEZVg5bputkl44E/jOtyIShAqScFQHw0o8YJIH5cwjU3tvmr1k9bV2BQVvV95ClNUq1zBVw3NHkdtlV/yetfGBGyS3YVrKQkb7aMVSsI4FWGmHGy+clBamg2XvohwFCFhWjXlYNSlOC7eYLAcciMO2GqIxhuEQBISDVB2KU4Tb9BTEbrdh92KgwlJgtG041yLgZBS0Is9WFFn3P3wxGx+xmKJH1cwGm8QTKwbsW/ryyYDwwwgGmewwqW4wYQk0QQkaZSBFclG4hB1IY5xKTZSIVSN2IOWjsQe1FiBNsYi/sVoM6EryVTPZdjLLBxMJOI9ZxVVgddnzqXYuRhd8FyJs4y73UX59+pYrePoSRBS1O8anLkStxRrFDF45ZVXcvrppzNt2jQAfvazn/HnP/+ZW265ha9//euxbYQQbLDBBi0ZT3ZRrB9l4q8LY7Xx/JMvlcjCToTVVhGH0IOQ6zYJ20wSsR7mJ/h2VQbaRd+6JqkDbaFSJyGppRYMlqMuxMF1UVIw+Da7FikYtg2TgklqwXqTjoT7qK4M9OqqxRCMg6cWBPe4bdDvxXU76UgJPuEWR7Q1SgqmVMR0N8FIWhVQI4qjtAlGGiEEe4p7cDP7imsvtEO/5/+aavuNoqcQjtAzSMJm9BE99+KIwnpIwiDh5/UfJAeBUMbiIDnobr/UT4QcDI4tSg4G163t5KBURTZd9ExpHRHiMCU5COF4g1B2KU5yI9bheIMCfJfiNPEGPXIQCIUADMYcdNe5Y/Lu48GkJGUi0OsgShoK4mIPRslBz8UYPBIx3F1SvEHPpbgoqpNjFUrBUtvayUYqYw9W2oSJwrg4g1GiMBpnEKhIQFIRZ7AOtCTpiCUrLz7BJCTS8hOMAAjLxgTJQGn7LsQeoqRg1F3Ye659/h+v+uXsWbd+ZL9ZOkhJ/b6rmWKwpVhjft5CocBzzz3HhAkT/DopJRMmTOCpp56q2m7ZsmUMHz6cTTbZhKOOOopXXnmloe1r1Rn6ZGgc3s3HthRTv3wwtqVqSrIT0Sw34p701NVDEc04HFULBpGkFqwkB9OrBYM2aZKN1BNXMM6FOEoKxqkFo7EF6006ElcX51ochyTCUGrXlfjF9z7juxL3tKQjiWrBYLuo61eInNNh+4KuUAtGScGQO26UFAy5BGu/bdSFN0owmpg2oX5jynW3SXAJTlIJpiEFg67DURfJaqRgnCtlT3IPTttXPS6vsetybcz97PfqdiVePS7DpuFPrX1Is4+1xtTINprVRz3nZdI4on0GEfwvVdoG+qnHJbjafzrhv18ZuiD8gqK7LzYqbJvgVuyIPP8YfrbvSpys3K52soWv+xVjC7kRB8olBO9P3ssvz3VY6PL6UJ0uuw9LHXYzrlwnECUXYiDgWhzvXuz2E6wruxf7LxZLy2657GIcnKtYpuxSHIRbb1K7FMclegvCRrmfaCzqOLfjGiFp4iBT2IjoRCVu4pLgiWOs+r10TGRiGPUsMla6OV+zESQF3TBPKzj1/E9VfTbLPvW5FHvIOIRKSCka+mRoHdYYYnD+/PkopVh//fVD9euvvz4ffvhhbJstt9ySW265hfvvv5+77roLrTV77rkn7733XtXtdHV1sWTJEv+zdOlSAOyc+zbKti1s20KrTqR0EKKIVp1YVrCsEBT8MqWybSswbgZeO1cu53Lajannlzv9sladGB0sd/llTBd2TpXLdqlMActyyyJYFkUsy/HLUrplKYrI0thX1T4hQEqHpx6egSqsdG1UF5gC+Tb3txZSkCu93ZUScjnhl+3Sy0ErVDZYpRuvJQ1W6aZrWQZZKtuW9mPo2ZbyVXC2DJdFaWKTk06gXESU3pzmRBH31akhHyi36VJWZAx5vLImXyLFBJpcqSyN9gkpIZwyORWot4zGNh6xVS7ngmWtsUsTubzWyFL/ea19MqtNmdhyuzKIaNkYOpQCYxAG2ktvKIWBNsdVC0oD+dKcLmdUoOzQXnpikhralVcWWEpgC4VUbtnCQSqBLPmw5JUplx2DKPm75J1yDJ5gOecI0AIbjSza2N52izn/97CLFhiwtUIUc1jGfdNtF0snjRHkCu5bZUsbcPLub6MFllOy0RJRspdKYpwcljEYbSFKNkZbGFWycSyMspAajLKRJfcRo2ykU3qD7eT8N9NauWWpS+USIahUHlH6PUyxDWME0nj1YErl0iHDFEvu+EbgqHJZG8mw/v8BtE8OaiPRTrlcrrdQxnbHUioDKGOhS/uhjO0H99aOhTYWQoNjcv4becfk8DKvOcpGe/vk5NyyhqLJ4z0HFMm7D+OAo3Luv0kbin6IAdcGZdBIHFUar3L7B9Ba4JCDgkZj4WgblEFhUSy5AiktUcLGKIMSNkpLUBolbJzS8VDaRpWUEEVjo/1yDi3K+6dL+1ckj/L21Wr3H8rdsvuQ7tVr5db7Y7fbS9sEpxRmQWnh77cWlrtPXrn0MKyljUMOowxa2hSx3f5lDi1zGG1QVg4tS/tq5d2yNjgyj5YWWhmKIu/vnyPbMKX9K1rlckG045SOk8p1oN2/ECrfgdIGg0DlO0rnhqBou2UjJCpX2lcjcCz3GGukT55paZXLlu2OTYMjbLRd2lcrhy6FkNB2DkdYaG1wpFsGl5QzslxWWG4/VhuqdE7qfLu/TyrfgRHC7cduR5X2Sec7Sldygfb3SeLYpf0WEp1v9/dPl/bPSAuFRb9//bF0vNvQGve8svLlsrd/Mocjcy7BZOcxpfhQOhcst4XL3v7l2zFSVpSdXDvKlPYp1+5y215ZG5RxbbQ27tjbSsdJBvYpVC4fG2PZflkJC8fKuf1YNtrO+8dG27nS/uVRojR2O7JP0i4fG7xjVj42Oh/YD7sdU3JjVPkOTOkOXLQ73DBxOni+lc9DIyRFuw2tjduXtx+BfVJY/nHSwf2wyueeErZ7vdDG3TervE/aKu2HbMPxzjdZPk5FK+/vh8q1o41w/5c599xTjqEg2t3/jzYUrXb/3Cta5X0qSPfaYYRE2e3udVJIlN3m/re1RJXGrpCoUggWx1h+2b1elK7l0vZVW0rGXCO8snddwPave0XyobLSwesegbJBK41T2ietoFi67rnX8tJ/HuneB/yy7ZcdWbreCwtH5kvXbAuDYLP5f8OUrtsAjrb8sn9dx41H6HjXZm2jsaCgccihvbGT96/ljsr5+1HUOUxJweeWAWUolu65OMYduzag3LZCu9c69x5tMA6oUr1R0i9rIzF+vYVx7NJ8wUKXyloH6h0bWbCxHYFxbHAspBbufduRSAPGySGUW2+KudJ8QSCK5XkExTZ/jqWdPFKVSMlieU5hnHwpjqFb7851BMYpJQkszY2kcZOe5IrSJQc1WI50yUEFOUdiocgpQ04Jt6wNudL9USrpz/GkI8mX5m+WI/2XnXlH+/M925HkSmq4nCN9Hq9DaUSJX2tzhEsuluaqGHfe2it2Dmto88YSKee1AaGxdKkM2NqQ095c3C0ruxial0vhuHNM3HmxLBGfORyk9xwRKfvPF6LKs4Ys7QiGnBUsl/bJssjZbjshjP/MJIQhZxuElQs/M+Xy/rOUZQnsnMSoLiRFLOn4xNYzj7+EU1iJlT3nNm2f2trd/1BGbGXoyVhjiMFGsMceezBlyhTGjBnD+PHjue+++1hvvfX4+c9/XrXN9OnT6d+/v//ZeOONATho8ngADjh2Xw44dl8ADv30Aexz2DgAJn3uUHb71E4AnHDOUey457YATLlwMlvtNBqA0771GUZuPRyAc777OTYauSEAF/z48wzZcBAAF93wRfoO6ENbe56Lbvgibe15+g7ow0U3fBGAIRsO4oIffx6AjUZuyDnf/RwAI7cezmnf+gwAW+00mikXTgZgxz235YRzjgJgt0/txKTPHQrAPoeN49BPH7Da9qlPX5uvXn0Grz33FgOHdHD+9E+7+7TpIM74uqsKHTF6IFO+MAaA0Vv15/hT3O1ss10fjjiyHwA77GBz0AT3YrvLTrDfnu7Nco+dO9ljpxUA7LvzIsZutRiAT+30IdsPXwjAwWPeYcuNPgHgiB1fZcRgt/7YHZ5n4/6LADhp26cY2msJAKeO/isD88sAOHPEA/S2OskLhy9s+BfywqGP7OScIQ8AMEgu4wt9HnP3SSzmTNvNorcZn3AarhvM1mY+U9XzAOykPuLThVfdsRc/YPLKt9zxdr7PMcvfdY/N8vc5fNkH7hgXv89BSxa4x2P+R+y72N2/Mz74mN2XuJnGzv/fAsYsc99MfW32QrZa7hKVl/53CcNXuL/T9FeWsUGnOwG5amYn/YvQruFHzxk6jKZfAX7wjI0Umg1Xar71rDu533QpfOnZvgCMXJjj9BkDANhiXgcnzlifNtnFNu/349CZG2MJxY5zBrD/i+7x2+nt9dntFbe88383YYc3RrjH8uUt2XKWW7/9zB0ZMcf972377Dg2+p9b3uqp/Rj8oXuObf73Qxgw331RsPlfJ9G+aAgWihEPn0xu6QAsNJv85TTyK9sRTo4NHzgT4eTJdfZi8ANnuYG2lw2i92NnYqGRizek/Qn3/2QvGI71zynum/OPtoBnT8IyYOZuj37+GAD0nLEUXj4SyxgKs/ei8PpEAFbO2p/Ot/YHYMV/J7J8zl5IA4teP5Jl7+8CwILXjmPlRzsA8NErn2b5wi0AeO+VaaxYMhJpBG+/fAYrl28EwOuvnENX52AAXn75yxSdvmid58VXv4zWeYpOX2b89wIAiiuGMOOdswBY2rUhM//3OYb0foMlnZvwwvunuNtfsTkvzHOvER8v246XPpnkbn/5Try6yL1GzF6+O28scf+Lby3fl7dWuNeI15dN4O3O3RHK8OLKw5hT2BmA5zuP5v3idgA803kCH+nNQRv+6ZzKAjMCoQxP6DNYrN19esycyzIGgzY8KL9CJ31RKscDbV/D0Tk66csDHV8HZVgqh/BIb3f/FokN+euAc0Bp5uc248mBZ4A2fNi2NU8NcMNM/K9jDM8O/QxGaWb32Z2ZQyeDMrw16FO8tJ57PXx9yMG8vv6hGGV4eYOjmTV0AijDzBEn887gvTBKM2P0Z3lv4K4YZXh267P5qP/2oAxP7XghCwZsgVGGJ3f5Fov7DscozePjvsPyXhtglOGxfa+kq60/ymrnr/tfhbLa6Wrrz+MTrsYow/I+G/Dk/v8PozRLB4zg3/t/B6MMC9fbmufGfwOjDPPWH8PMfS7EaMMHm+7By3ue4x6nzfbn9XGnATBnq8OYtYt77Z+947HM3vFYAGbt8hn+t+3hALy5zxl8sKV7vX/jU+fx8WZ7A/DaoV/nk+FjMRpeOfoyFg/bFq0NL534I5YP3QzlGF767LV0DtwIow0vfP4XFPsMxLHbefELt6DzHRT7DOTls29Fa+gaNIzXz7jePffX34z/TvsxRhuWDd+etz/zPQCWjN6V2ZO/BcDCbcYz56gvozUsGDORuYedDcD83Sfx4YTPuv+PfU/ko31PRGvDBwdMY8EeRwPwweFns2hn9z8395gvs2i78WgN7574bZZtsSsA7077PitGbg/AO2dexYoNRqG14e3zfkrnIPc8fPtrd6D6DsTkO9yy3UGx90De/todaA3FIRsx54KfAdA1bDT/O/tqtIYVI7Zn7mnfR2tYtsWufHzKN+n96r9ZvsPefHzihe6+7nYw8492j9mifY7mk0PdfVp0wMksOuBkAD459LMs2sfdp/lHn8OS3Q52/5cnXMjSHfZFa8OHU77N8i13dX+D07/PihHbobVh7jlX07mhu09zL/w5xfXcfXrvW3e6+9TWwXvfuhPT1oHqO5D3vnWne41YbyPmXujOgwrDRvPBedcA0LnZ9nx4xnS0hpVb78bHUy8GYPmY8cw/6SvuNWXcwSw45lz3+O19NAsOmYbWJnaftIaPJ53Dol3cffpo8oUs3dG9jnxwysUs32pXtIb/ffb7LB/hHqc5X7iazo3c+cXs839G56CN0Now6yu34/QdiM53MOsrt6PzHTh9B7plDZ0DhzHrnJ+6+7HRKGaffpU79hHb8/Yp30Nrw+LRuzDnBPfcW7TdeP539JcB99z73yFnu+PdbRIfHBA+9wDe338aH+96FEYb/nfwWSzY8SB3vEddwKJt3X16+/hvsmizXdAa3jzxuyzZ2L0evnbKFSwbupn735p2LSv7l/9PnW0DKIp2Zpx2M47VTlfHAJ777E0YDSv6bcSMk3/inkuDRvL8MT9wf/cNtuGFwy5xf+tNd+blA77mnjOb7c2r+56L0Yb3tziA13c7Da0M725zGG/t/BmMMsze/lhmb38sRhveHHMyc7Z0r/ev7vRZ3hvp3rdeHPsFPthkDwBm7H4BH6+3IwDP7vl1PhmwJQD/2vtSlvQbjlGGv+3zfZb3rrzuPbrXFe51L9+fR3f/EQDLOtbn8V0uB2VY3GdT/r7jNzHKsKDfFvxrmwswSvNhv+14evQX3HO5/1ieGzHV/Q8P2IsXhk1moyUv8vZ6+/Py0EkAvL7eIbw2yD3HXh46ibcGfcq9lg+dzDv998QozbNDP8P/OsYA8NSAaXzYtjVow5P9Tmd+biQow1/7nsMiOQyU4ZH2L7HUDEYow4P2V+nUfXDI8xAX4ug8nbovDxe/jFCGZWoQf+06G6ENS5wNeXLFaQgNnxRH8PSSUxDKMK9rc55bMhmh4YMV2/HiwklIDXOX7cRrCw9FaPjf4t15a9EEhIY5n+zLnE/2RWjB7HkH8v4nuyM1vDP3cD5euLNbfucYFi3cHqnh7VknsXSRO4+Y/cZUVi4egdQw+6UzKS7dCKlhzozzUCuGYGn44Kmvogt9MSrP/H98FenkYWVflj7xVQD08sF0/u08lyRcvCH8/QyXDJzvzo0A5Ieb0/Hv4wFo+9/WDHj2MCw0/Wdvy9Dn98NGM+TN7Rn24q7YaDZ+bQeGv749NootXtqBzd4chS0cdpq5HcPf2RSAPZ7bnhHvDcUWigOe2ZZNPxoAwKR/b86wBe6c8zP/2IwNlrTTJrs4+8mNGbzcZb2+8eQQ+nZJ2hRc8s/+tCkY4Gi++2+XaF9/JVw+AwA2XQbfetGdB2+11OGrr7sqrzGLHc5/2xWE7L6oizPfdefW4xcv49SP3Dn3xIULOf6TeQAcvuwDDl3+vjvGle+wf8EVnhzrvM4445aPlzPZQcwFYHKvfzM654pZThr4JJt0zHf3aaO/sn7bIpCCU0f/lQFt7rPGaWP/Tu98FzlLcdqeT5PLQ++2IqdPeAmAAX26mHrIOwAMHVTg04e7Y9xkI83kSS4xudlmkmOP7QW4z09HTt4EgJ3Grc9hx7nnzJ4TtmDice5cbr8jd2GjTQehlebgE/fOnnObvE8bDG9NeLM1EUKKhj4ZWgdhTExgrB6IQqFAr169uPfee5k0aZJff+qpp7Jo0SLuv//+VP0cf/zx2LbN//3f/8Wu7+rqoqsrkDDDGJxigWPGTWHJoqXYduktqqOwczbGGJSjyOVt982wo8jlc2ilUEqTy+dQSqGVJt+Wwyk6aG3It+dwCm65rT1PoauIMV65gDHQ1p6nq7OAEJBv88qCfFuOrs4CUgrsvE2hs+iWczaFriLSkliWRbFQxLIk0ivbFlIKigUHy7YQQuAUndW2T30GDuKUCyZxy/R7EVaeYlEic+3k23tRdCxkrp1cWxuOsrHsNux8G462sXJ5rPbeKJ3HskDaORyTc1Wdlo0m75cVOey85aoUyJHLC3SpbOdBY2NkDlsqt17Y2DlXTWAsG9vWOMLGSJtcm6YochgpsW2HgrAxliBnOXRJGy0NeeHQJXMYqbGtIp3SBkthWQ6d0sJIBxtNl2UhhIOFocsWCOEgMXTZrkpQSEWXJbCMxliKouUqBrV0yzmjcewijpDYooi2NI4Q5HFwpEYJQY4ijhBoy9BmHIoStKVp08ovdxhFl6UxQtChHYq2xgAdWlPIaaRQ5BUUcxobRbtRdNmQQ5HXCpVTSA15o9G5oltGI3Od5I1y317nHPJakUOhLENeu30pS7tlodCWJq8MtnCQloN0JJZ0sKwi0rGwpPs2UzoW0vLKNlIWsaWDLNoIqwDSkCtaGNvBEopcQWLsIhYa4eSRtkuUWsUc5AruG2Anh5XrdL1GdA7L7nLfiisL7KL7tl1b2FbRfduuLSyriNEWlgZhOW4gaiOwpeOrBW2pXJUgBiEVomgjhMESCq1y7pt1YdAqh2UUQmpEMYeQrp5DqTw2RaySMtAWRYQwpfpS/E2nDSkLJYVBHssqYBVdBWBeFFz1YLEXL394IjtseJf7Zl8WMUpijEWOoqteMBY2xZL6T2AJdz8MAts4fqwe2yhXUajcc0MrG3D3SakcEoVlFI7JIbWDFBrl2EgcpDA4Ku++mdaaInlsXUBgcFTO3ydHl8rK4JAnp7owiFK501WcaYltCmgt3P9sV6leWNhOAY2F0mCbIkpLDBLLKZSUgKJUdtUxlnFQIgfKG7sFRmMZRdHkkEYhvX0yDtJot167b/4dqw1R7EIaVyEjC53uPpXKYFBWO5bqxChQdhu204lWxi8rLdBWDtvpQguJMja26kILC43EUgW3bEplaWOERBS6SmWBLBbQ0lU6iWIBZeUQxiCcIsrKI4xGaoeiyCO0g9QKR7b55aLMI1URYTQF0YZ0CgijUbkORGElwhhXkdW5EjCuoq5zJSDQ+XaswkpXCWW1lcoSbeexip2lcg7R1YWR7rVVFsNlbdkgJNIpuEpAIZBO0VcLSlV0lVzGIJXjKoqMRioHnWtDKAehVajsWG2I0n7ofDui6JU7EMUuhNE4dgeidJxM3t1XEJh8O7KwEmUkJt+G7FqJkRJj55GFzkjZQnX04aOplzD0pm8hlOPun2VjpEQWC265tH+mpEgTThFtu8dGKAedyyO0V25DaFUue/uXb3f3Setwua0DUXD3yS13gnEVaqJrJYjSPnW5xybNPvnHybIx0vLLwk7eJ/Jtiftkmegxa684TpYIHyedDx8ny+msOPd0rt0/90wuj+24556xcxXnW7BMLuefe+55GH/uSeGee9oOn3so9z8U2qe2dqRTLP2H2pGOu08q34EsdiKMwbT38q8Rpq0Xsuiee6KjA6tY2ie7nZzq9P9Ptle2cuSMe10wlo2tC2hpYaSF5RQwuRxGuNcLY+cwQmCporuvgNSlY4NBagdl5d3988saaVSo7FhtbggR4173pC5iSfdaZ6kupIVfFhb+dY+SAtdWnSWFcXv5Wp7LY+sutyxtcqKIFhItbHLCca97wsIWRVetKtv59+iz2XP2dVi66F6/S4pJ91puIyw36ZYjcghpsHDLlgSJwrHz7nU976o8JY47dvJISyHRFK02bMtBYCjKNmwKGMu9D9nSfclalG3kLPc+W7Ty5ETBHTs5LKvoqgelXSpLlGWX9kOisUr1FloKhOX4ZUs4vhpaWAqlbYxlEJbjlqVBSkWXtN2kYpamiI0UCmNplMqB5WAsTdHkkbKIkZqizmNyblk7eXSugBbgmDzG9u6/ecgXXC2bzqFzRYwWaOOWHSMwJofKOShtoY2Nst17pTIWytYo5c69Hb9sU7RAKImDxLEEysnjIClaAu3kKWJRtFy1Y0FKisLCFHMUpYWRBoo5uoSgKG1kMYcjtWtTaKdTShxs8o5wy8Yi51h0Wa7ng120WGFZGC3JK+i0LFASW0m6LAFKYCuLLmkhlMDWUBC269miLQpSYDsSoQXKtGMrgVQSx+Ro78ohtetdkXcEQktw2lwFonJ/n46i62GCsskrBUUbtEVeOWhtIYqSvC6ilJsFJq+6cLpchXHOFHC6DGhNjgLFosAUCuREkWLBjW1r6U6KBY3QRSyKFFcWQBfcckEhnBUIU6RYKCCc5Qi1gkJnF1IUwBQpLF+MpAimQLFzBW3tcOqXD+cX378HVVyZPec2eZ/69O3F7/9zNwMHDUauoyl2tdYs/GQBXadvDyuX1de4ow9tN720Tv9+rcQaQwwCjBs3jt12241rr70WcE+sTTfdlHPOOadq8pEglFJsu+22HHrooVx55ZWptumdvEfufDIrlq/s1vgzhGHlOths6014+7X/gcj7yUfCn7z7kV45537neyNkKWuxlQMr535Lu2STA8suLduBslUqW7isouXWQWlZBr6l66ZllfKj5yw3BogUGEtgJIHvcrwQr2wsU/62NFoadMmNWVvGTyjirvPKqlwfW1cuK7tY2p4qZyWWGlOKr2KkCgSYUeV4KUL7ZVEKcCNKbaTUfuwVKRVClF2sLaGQspxIRJaSinjLlnDJOC+2YDDpiI2DLVQgNqDjl23hhBKKBGPPeLFo/HIgtmAwC3FSXMG0yUZkKX5O0CYurmA02Ug0rqD3k3vxeoBQbJ/wcjmOUDS2YDTpSDQbsV9fWoZysHKvTmiBMYJFK4czqG0OQphQbCPXptw+Whf9hnD8pPB3lRhNADHtK20C7euNJxixiYsnGG1vYvo20XXRbUfWJWUpbmbG4ei67iYYMeEhhOKcpU0wEoyxlpQ8ZFVlD25GP/XEjYvCSEnnZtvT/vZLiBbEq+2pIXBrzcvTuE2lmduns0kZl7WJfdXTZ1TpEGwT3F7ULpjNOGwXaB+JTxbsI5igI1hf0aaKXag+VA7vdHW7dG1I0UYjWTBgCwYvfROJjrSv3bffl7fOS0bi7a8ly+ui317iltI80C+D739lArbGs/HWRWyMrFynY5Yr1xl/2ctcrH0bUy6L8rIu+dsqib+sAnaqlIzE8zrWpUzFbp3wv8GrFyghUAi3jEvmqVJZIXGE5X67rwxx3AAybtl4y5bv2u4Y183dX2ds1yUe99utL4c3cYxFl27zX1wqY7vkpBfqpFTWOljnvgjVpfAixrgvGo2x/B/aaAm6tOxlJNaWG1ZGWwiVK31bWE4Oy8khtEQqC6klVjGH1NJ1l9YSu+i6eLvu0wKr6LpLC1WKDVl050FefEpR1FBU7kVfafd+UnTcxCNag1KYYqG0rEA5mGKX+60c0A6msBKjim5ZFTGFFRhdwBSWo73MxKXkI7qwNBwfzxQYucVQ3n7tf6hi9tzbbPTq3cEfZvxynSa2PG6leMYO0FknMdjeh9yNL67Tv18rsUZlJb7gggs49dRT2WWXXdhtt924+uqrWb58uZ+leMqUKQwbNozp06cDcPnll7P77rszevRoFi1axI9+9CPmzJnDaaedtjp3I0MJRhtmveK6ySYkN1tjILWoCCbckyEiWShkYNkjBT1EAz5Hgztb0SDSoUzDTmjZCiUhqZ6QJNQfwfbVshVXkoLlNrVJQd+2G8lGgqSgb5tACkbRKCkYykIcIAW9sQ5uf8cl8EzUJrwcrKv4DgZfr0YKBsiTKCkYSjJSjRSMI+T87wghCNUTjITqIu1DdZXtkpKLlMspyb0KsjB+O41kHE6yqyD0qpCCUbIrKcFIuRxqEksK1iKxVlX24Fp9dIcIrGirNW3/faEUAarnI+Uh8FGNJ6udnTi8oVqZg6v3EzMmGbWp3Kk020vbV719RvsP/leEFJE25XXR3VfB22tg1i4pj0NHzro0j0vRIdf/iNVID9XbBH/VyBUsYKNZb9HrsXYi2Lcl/Wui8DIOA6ZkI7zteveQvHRPcqWT90MKN35gZMxePMJo1uLKPXOtg5mLQ93jknLJmYyFqxrU1TMXe+Sgn8lYCp8cdLMQu2P0yEErsNseOViex5jSPhifHIzCQpcOhlWeGHjN4lAaloekbMUWTvCH9slBf30kA3FsHylsQumlPUhVJgcbhJYaGejDWIZyNml3k8Hpr7EEokk5FRtB8NksQ4ZWQmRZiXsc1qif94QTTuCKK67g4osvZsyYMcycOZMHH3zQT0jy7rvv8sEHH/j2Cxcu5PTTT2frrbfm0EMPZcmSJfzrX/9im222WV27kCGAfFuO8384jXxbbrWOw6j6s4v1FKTKjBbMrBZQC/rLAUQztcnAclAtCITUgt5yENHlcLbhauRefLmyTXlcFpUEoB0h/qA2KWgFH8yqkIJB3rcWKRhrW0UV6GYI7B4p6GUkhDIpKLXrGvTv976Ao/MRm3C/XmbE4LooKRhvEyb3hDLVSUFtapOCytQmBWtlHa5CCoYzESeQgsExBOtj7E1gW2kyfCbaBbKhRu2iKsFqdlGVoNcumHEYKlWCHikYzciapBI0kXXdyTob7SOun1pZcpMy+Savq95v2gzBOt/OB1/9uZ+8ox54f4tV+enuGGNtavxGrk3tTMdpMzKnOi4x20u7zXr7THtuQvn/4/2HwtsM9xO09f6ryonaEPp4/32twu2964WJ1msTblPNLrou9NGBTy3b5DYEPsH6osnz2HaXUDQ595paxa6UnQaq9Otfk71rZ0GXT26/bcy9qWTj3+cq7meE1+lw5mLv27MJZiz21gUzF1fPZFzOXOwRhME5QjBjsdcmmJkYysvRuYplwi8LoewtYRkTm6U4CV6mYsvLRuyVPQ+RQJZiO1gvnOQXxgEPldD2oi+yY7ILR+tE3HbimNsY6EhfuoGMxT0JPeXZLEOGZuL6669nxIgRtLe3M27cOJ555pmqtvfddx+77LILAwYMoHfv3owZM4Y777wzZGOM4eKLL2bDDTeko6ODCRMm8Oabb4ZsPvnkEz796U/Tr18/BgwYwOc+9zmWLQsrJF988UX22Wcf2tvb2WSTTfjhD3/YvJ1uAGuUYhDgnHPO4Zxzzold98QTT4SWr7rqKq666qpVMKoMjaBYdLj3Zw9QLDog8qt7OD0SdU0wAjM5E50IRSdBAVshVIVaMIh61IJtsqtCLRiyTaEWDNVHyMFaakGoJAWD5GAtUjCsCiRUF3UhDqIaKRichCeRgtF+gqRgtC5oF+c6XGFjimwz+H5sUwTRPNdht1xJCrrLle3XRNfh7qoEm+02HLXtCSrBJAKoFrqjLGyFEjCVQrFKc1MsMPCXP8YUCw0Rb6sL9Srj/HaRZnGmaZR51cYQ3Xa1Y1Op9EtrF7/fjagB4/qvtg1ZoRQEWaGPq1SYlW3LqKYkdO3i1YRp1QDBITamIGikh/g2wV9DqgJj/nsLoljA1e0F5jKBNsFfNKgkNCWbsgBN92j1IKU9TKse9JSD4CkDgYA3izTC//PqqFpQU1YQej9twN3Ynft4Ur+A5M+v0rGqQSfBJcgWKnqwwt0HlILRclQB6M1Fg/VxSkEhlOs6XIKUGq3rUApKXX1dg3DPgcAPkbOgKzhZk67rsL9shZebiNCzWYb/z96bx1tSlPf/76rqPufeGZaZAQEB2QRRRBZBRokiUQTEfAGXBBQDIohGEZSoaBQUVLYYg8FlfkKMEiX6jeZrRBPUoCYaERX3DTdwQQdFgYGZufd0V9Xvj+qlej19zj137gyc5/W691TX1t1nrX7353meqS2iSSUKISQ62aj9gY985COcd955rFmzhtWrV3PllVdyzDHHcOutt7LDDjtU+q9atYrXv/71PPKRj6TX6/HJT36S008/nR122IFjjnFJ76644gr+4R/+gQ984APsueeeXHDBBRxzzDH84Ac/YGbG3SA+5ZRT+O1vf8tnP/tZoiji9NNP56yzzuK6664DYN26dRx99NEcddRRrFmzhu9+97u88IUvZMWKFZx11lkjn+ckbIsDg1N74Jg1ll//3GXn2tJdiYWGYV4Km8KsD+3Kt3zLK88WtaAfWxCGw8K2bT+2YLqdlTuoBSvKwSFqQb9cdiH2rQkK1rsVN23j9aXYZorbrlwPBf1Yg21QcFg8wXIfYQBhWRn+Jt+u61P36IGlceIJTsx12O8/Iddhf+yoULDdVXj4mEq/BtAHZbjXsl8f1DUAQSiCiknEEiwDjoW59Y4P7BZj3lHhnjCG3q9+7NRbow3dbG0UaNjUtczZJg3uNhUwbDuGtvnL+6lzrS67Y4/jcqzL1/AdXI63TEioWXnvbdl2Ganm/dohoQ8IrdagRBEQ9nwsVzpuzzU5ncPfj4AECDo4WG5LS1amv6nV1uzYG4Gg3yayuIMpHAQfBuLInudinN2Q9F2MPRiY3mPM4CL43q8FU9YOhYNNLsW6xYU4g4YtcNAd5Hwh1mCbSWEwZXfhkglpXJzBBZiRBqmlt20L9+eNtCg9OuDYFOZfm01taotpQorqImGYjZGV+O1vfzsvetGLstBza9as4VOf+hTve9/7anNUHHnkkYXtc889lw984AN86Utf4phjjsFay5VXXskb3vAGTjjhBACuvfZadtxxRz7+8Y9z8skn88Mf/pAbbriBr33taxx66KEAXHXVVRx33HG87W1vY+edd+ZDH/oQg8GA973vffR6PR796EfzrW99i7e//e1LBga3KFfiqT2wrDcTcv4/vJjezFSuPqqliUegqg4sbPtJR9Jtz8ruE20AUAldUAuWYWDZpaOsFiy0jagWbI8/WFUL+tbkQuzK9VDQB35dk40U2kz9tt9/MaGg75pk4h7/85tz0XGvsc/YrsPDoGBtnzIAtO2uw8OgoDe+azzBChQszWEb+rapBOvGtPbz3AjL/YouwM39Cq6I3hjXlhULro2+23A6R12/shtlnduwP2YUt97yuGFju847qktw1marf2Ub5jYahzP89sJrMf3Z6uBFNM9jclH/uj4flX41z2398zv8PTPSfjvP1/5XZwt1JW77/LS5HFtjS3PUuxt3dTn2XYcr+/Jdc/39e2MqbsFN4wt/htFdjvP+ET0+s/oKIvqtLsf+mLo+ZTfjintxGq4ifcOWf2/8v6SP/xuXuxNDxb0Y9zvquxGX3Ytdn2HuxH5ZFNcihsylOK9LXYyLngVlF+PUvbh84zN1JS67FDeZczU2zpU4SQQ3ikvxMAtwCe9Sl2IX3ibOwtxUvVuqc5bD53R1H66uu7uN2xJsem02tU1lQomx/gDuu+8+1q1bl/3Nz1fDCgAMBgNuueUWjjrqqKxOSslRRx3FTTfdNPQYrbXceOON3HrrrRxxxBEA3Hbbbaxdu7Yw57bbbsvq1auzOW+66SZWrFiRQUGAo446CiklN998c9bniCOOoNfLvSZTJePdd9/d9WmcqE0Vg1NbMovmY9532b8SzccgH5yuxEZ1X0yU45gU4guWFyUtakHhryihkIkYRoWFcUUd6FtT0hEYXS3Y5Ebs2kyl3MWFGDZtspGFQsG2JCNNsQOljThkuw+iRNToOlyo86BgtU8R7o3kOuzVjeU67PUruw67uiIUrFMCtqkEx0kUMs4YaFb/bQ5uw267/hiGKQTHcSve1C7BwwRhXROjQBGY2bl5VrzrbzBz8wwJubVFWh0cBMqJYBufv6VQGC5E2de1f9O4pmPK+1eVgtX+ojSm9HlsSdfRxeV46ZOXlGcZPoPUczz+lrchBxsTV+JRk5fIQruvIPTdi9G4DMa+e3GdejC1kstwPn+6LUBS63rsl6xMfzPrVTHpUfhKQl85KLGeajBdQ9gaFWAx+UjmYuz3Sw/UkLsn2/TshrsURy2uQKoM/krJSLq4FMctCsEKBJRgSu6/UupCXdnFeNJmlEFpPwkJ1Q/RZmCFa7OpTW0xTSaqwREsFfzuuuuuhXh9b3zjG3nTm95U6X/XXXehtc7yUaS244478qMf/ajSP7V7772XXXbZhfn5eZRSvPvd7+ZpT3saAGvXrs3mKM+Ztq1du7biphwEAatWrSr02XPPPStzpG0rV65sPL7FsikYnNqSmbWW3//mj0Cjl8EWYXWJzBbLyncl/buWVuiqWtC3EdSCUpiREov4akEldEEt2ORGXG0brhZsciOG5izEm0uykUlBwaIbcDsUTF2Jt1F/yNfubXCwAQpOzHUYmqFgB9dhqELBScQTHMsFeJwxDaAPynCvG1RcTLfhyr4agGOTqqvOxoWAbXMOnbcF0g2DgE0wrM6ENQR3/qr7AIZDys3N6tbvmwIYjhu/cNjrO9l4gsPH+WO7QEC/zzCX44XGJZSl8Zury7FQsPw+FxrDtowZBgnrAKHVgCoCwqHuxSW34vL+LZDHIsxjDxb3DVaW4wxW8WHqetwEByFRDnpwcNLxBsver8W4g15xiEtx3PIOydZ/I8QbdCfkXIoBtK2/vE3XrgZGg4BS509SumulIc5VdUZppNfHKINaoEvyUph/bTa1qS2mSU8B2NWscrdzfv3rXyO8LOn9fn+ix7b11lvzrW99i/vvv58bb7yR8847j7322qviZvxAsy3vG2tqDxjrzYRcePXLp3L1xPxEI6aQSKR4xeG7EQPtakGpq2pBv2tpux0WlrMQlxSAHdWCQXncAtSCQel2a10WYr9+oclGhkFBP8PfYkLBNCNhsY7abRP3+K87X4OOe62uw0OhoOcDOLbr8DAo6PsZ1rgON0JBz9+xExT0jqVrLEHr9R95jFkat2FoVwm2xRIsZ0stj2lz4/Xbu7oEF9sm7xLcNmdX99m2/cS9WX5/xceIe7OLlhl4qW2U8+j6fG4Kd+SFuATXj+v+12Vs+VjK/bq0d81y3MXduM3luNVd2GvrlOG4bo4aV+BCVmL6fOao9xDhLgI7hX4ofd/789e5GDe6F2/UNdmLbbN7MRSzE+uqe3H6BhfZXymEh/e7XHYtLrsVl12J00zF/nrCrTOKLsbKpG2eR4KlmrHYVF2Km0wmbsSh1SO7FLdZmqlYEWfxq7u4FCuha7MTg3MnLq+F80aT31R/ALkLt9n02mxqW4JtvfXWbLPNNtlfExjcfvvtUUpx5513FurvvPNOdtppp8b5pZTsvffeHHTQQfz1X/81z3nOc7j00ksBsnFtc+6000787ne/K7THccwf//jHQp+6Ofx9bGqbKgantmQ2mI/4+9e8j8F8hJCTJf0PBCuCQl0AhLaUrdhW3CZatoUpAEC3KCqqBX1rUwuqZCHW1LdL0pGyjaoWVDQv1sK6mIMLSDYCmwcU9LddHaU++bYQA5606t0oMZic6zDUQ8FKnyYQ6PXZBK7Dxf7VOZYiuUhXt+Fy21IlF2kaM1w9WK1rOpZRxraBtYUqAceBdmIwx4q3vAgxmBu6/y3dxnUL3lTuyHX7HtcluOtr2ZTBuYvrcptL8Vgux61Zjr25vdotJXmJHMzxxM+djxzMtSR8q99j/bNgkrZcQVhIUKItQgnnXpz2G+ZevMDkJHXqwTRzca4MLCoHi3Xdk5EUko8YKLsYZwpCcrVgHjrFpkfsPbqibvADUpiiyq9sQ1yK45ZkJZCsGT3lYMW8l8yQfp5KcwqDkMlhTDj78JZg/rXZ1Ka2mCbk6IrBUZOP9Ho9DjnkEG688UZOPPFEAIwx3HjjjZx99tmd5zHGZHEM99xzT3baaSduvPFGDjroIMBlGL755pv5q7/6KwCe8IQncM8993DLLbdwyCGHAPC5z30OYwyrV6/O+rz+9a8niiLC0IH4z372s+y7775L4kYMUzA4taU0C/MbB2U/jwedtakD29SCVuoCHSpvV1yHR1ALlu+uVoM4N6sFg+RObta3QS3Y5Ebs5hhNLVjnRlze7hJX0NWV+1Dps7lAQf/ioU05GKRQUEzOdbhYV+5ThXSbxHW40K+tbTjg6+I23NqvdPHeBAXb+jUBQdeWl5uAYGWOFog3qttwcz211gWwLAYIHKb8G8Xa9mOxsGEDRledOhfDRnFzHtXKoK5sk44jOGlg2LbvtuNw++gwbsR4gtXxHmirQL/y9hAIuCCX42bIt/nGJdSo+Q1YrbPMwt33WIWEdYAwh3Q5IGx0L4bh8Qe9fdpKLMLcvbjcVkaZKRyEHAamrsQSCm7DabzBgitxQtfyuhwOjhNvEMquxMNdinWrC7Epji08caVH6sttmYmzdWwtHMwf21yMrdQI/QCHhdNrs6ltIhNSjBxjcJysxOeddx6nnXYahx56KIcddhhXXnkl69evz7IUn3rqqeyyyy6ZIvDSSy/l0EMP5eEPfzjz8/P8x3/8B//8z//Me97zHnfcQvCKV7yCt7zlLeyzzz7sueeeXHDBBey8884ZfHzUox7Fsccey4te9CLWrFlDFEWcffbZnHzyyey8884APO95z+Oiiy7ijDPO4Pzzz+d73/se73jHO/j7v//7kc9xUjYFg1NbMuvNhLz2qpdw2cvXED2IbkwZVf21LbsRl9WCvo2kFvTdINJtz8oZ2drUgqlbRl1b3XYXtWBTuTomP64mtWCTG3HhGDvEFfTLo2Qg9subEgoOUw7Gtsfn//AKnrLySkI7cPW+mqEJCnoXk2PFE6wBcrWuw6k1ZR0u1LVAwRp41wYFJ6kSfCAmF1koEBwnzmDWZ4kg4LhKP23A9me575IPsfVrT0HMbxxrns3FukDHOni4uQHDtmNoO462Y3L7Gz4u32/d+OqOy0Cvaa5R1IR1c8oCCmuOxLe5xiXUwQz/8/SrOOKTZxNqPwvleJCwFhAmiUd8QGi9/lZrUKI5/mASq7BgLclJuqsHi3AQhikIR09GAg78+XCwKd4g5HNkp2m9M+gYbzC1NjVgIOLOcNCdVFU12AQNhdBVOOgmaTyeB7L1ZkLOv/J0Lnv5GubWzy314UztAWxijBiDjNofOOmkk/j973/PhRdeyNq1aznooIO44YYbskQfv/zlL5Hej/X69et56Utfyq9//WtmZ2d55CMfyQc/+EFOOumkrM9rXvMa1q9fz1lnncU999zDE5/4RG644QZmZmayPh/60Ic4++yzeepTn4qUkmc/+9n8wz/8Q9a+7bbb8pnPfIaXvexlHHLIIWy//fZceOGFnHXWWSOf46RMWPtAzJ83OTPGcPcf/8Dxj30eG9Zv2Yv9zc2kmqE3EzKYixCq3/DXc38yLYfusbcckWQyFioEFbpHGSR9QlBBsh14ZZWUFSjlHiGpV25VkD1KbPKIlBAqt4CTAqsEViYLOkjKYKT1Hm3+qAxG2gT6Waw0WUbiFASm6sDqtiunakGrvCQj0hSTjsgEBKbbCRgUHilyi6Dk7rjnRiyELiQdkTKPzwI5GEzVgqkbceC1p0lH0tgvqrCdlJNYMnnZq0cX+qhs22RtKolJ48omUwumMWygmnTEjy3oqwXb4gq2JRupqgOXFgq2KQfRoG2PwA4QYjQoODHX4UJdCQq2uQ4X6krjC3UtsG9M1+GFqgQ39+QiXdyGJwEEGxWECwR1C3EHHjfzcJtZgP4szG8cSTG4OXsdj3FjHhiuOMzm77iDUY+j6/4r+xn3hBn/uaoDh3XHUu5X3a4ewLA+fntZteG3+eP8fiooj/H7efWqfnz5gtBvK4zx+0mBDmZQ8VxjH+G9AURjH1Hom7Vl9SKfx7949fv7c6TtKSCUIn8jen2zx2QdmfUFb5t8Wwps2i7J1p0p/EvrjMyBoCnU5bAvTUZivDojSNamyVjhlIOuzfXTSb/sUeT70SKtE9mjqxOujMAkCQI0kkiopF6ikcRCuUckbsWo8rJNt5M/GySP3nYC+zSu7NoCdFKeN320VWgbJI8Kkz6adFtik21rJca4bazEGgnGlYl7YCTCKIQOk0dFMOgjjUIYSRCFCCORWiGNREUBUgukkUgjUAOFNAKhhduOBCIJBS4jm8WkFNrCfATaIIxxP0RR5H5QtXZwOhqA0aBjbDTvHnUMJsYONmJ15Mo6wg42YM0AO1iPGazH6gHWzGP1ADO4D6vnC39haBjMRRg9BYOTtmXLZ/nEN65j5artCjDqwWQpW+m98TDE/PqRxtr+cgYXffVB/fzV2V133cXNN9+M1prHPe5xPPShDx1rnqlicGpLZwL6s70tPo5FGQqm1gQFfauqA02pvUUtmEBBf7tgon3bVwumUDCbqrTfYepA1aAOLG93UQu2xR8cVS1Y7OOpGYZAwXyupP8IUDAbOwYUTIGgv8+uULBOOZjeqNem59yJS67Dxb4NwM/vuxDXYViyeIJ1kG8pVIIPZLfhtv0Ng1+LGRNwkpmH2/ZphcD2lyHm5xAPkPutw163JhhW95x2VRiOquwbJVPysGNaSDzBUQCvP7wpu/JwZWBz/+YxLXNuMXEJBZGacTEGG30dR9Ehpr8HDvAVFX3JDVSk+65WotG9OFUZNroXJ+OLZ+Lvq6geRJJkMs6Vg5D+XrvaSccbLGQmBgrxBy0FpeAo8QaxZHCwbIHVFeVg4QmyNdsl1WBcUgIGxK3KwcyGuRSDF2uQ/Ia7UW7BlcQftF7ZyC0zE3HBHiDXZlOb2oPFPvaxj3HGGWfwiEc8giiKuPXWW3nXu96VuUqPYlv4t9fUtmTr9UNeecUL6fUfWJmvUiDYZL5a0K/LxpddhStxB8vtPhz01ILptmdtWYeh6josS9u++UlHgEwtCBTUgm672JYpA0VcVAlm9fVqwXQ7KzfEFvSTjtTFFixbXVzBcaGgNAuDgi6LICNlHva3yypAY3r8970vxeiwUF/s2w4F/azFY2cdboKC3ri6eIKjQMFKJkqvfzljZWrN2YdNJyjoZwItZyxuUwk2ZSwuqwRt9jq2ZxvuAgVHzTbcXD+8D1DIHtsl82uX7MDpnP6ff96LmXm4bp+Z9WbYcNHV0Jtp3NeW+Ndmozw/XecfOUPwkNep8fVqOaZh598lm/G4x+zmr/+M1WUk3hRZjrtkOG7LctwlwzE0fy/6Wdhj0eMrf/Z36KDfPLbhe7yuTzUTsp+RuJrBuCl7cZrBOPs9q2Qv9trSv6Q9z1ZcylwMeb2xxd9ubSu/9+XsxHmdyNYVfqbitM7PVCytQFpRyFSsTB5HOXu0+VqlnKlYJTde3Q1Yi8I2Zimus7pMxdlfsmbM6muyFNdZW6ZildwYF8l2mqVYJFI+4XviSOehk3rqpDfr/Zv4hUSBW2Am4wfqtdnUNj8TSo7192C3+++/v7B90UUX8dWvfpWvfvWrfPOb3+Rf//Vfef3rXz/W3FPF4NSWzAZzERe/6CoAhHrgZiUuuxDn9c1qQStNYaHhJx0BqurAFrWgkKaw3ZZ0xLW3wcK4og4sb5djC9a5ELs2DxaOkYl4Ui7EiwkFUxsFCkJVJejqKPWp3y6rAQMx4NhtLq/t0yXJSJ0qsDGeYBfXYVjceIIdXYfbFYPV/rX9TH3b5qYSbHIb3hQKwUocxA7XSU0gp9BnSKeFqAzHmnfjRmbPeVZLjvTJWduxL8AbttaGPY9Na/SmY+waR7Bu7sVW9C1EfQijxV2s7DvZud9diupni5JKblQ1YX0sw/IxllyEFyku4ahKQgNIvZEnfegFSCUa9YLNo7vszeR9dJqROG/zsxejddLuxR/0sxdvdLEIC/EH/X2XVIS+QM6VRUU5mCoFfeWgb6kITpnEnTirS9YUXsxBaUSiErRJJwcHjbSkMQeVAS2TfsbmO/CfwsJ2ekz+o19lGBZvUJdiDQZCd1IOjhJvEOiejCTtlMowpcJXDeogIhj03bodkEZma3upJUbZbJ1mlaUSmDE9ZAkNXHOTmn9tNrWpLaZtqhiDDzQ75JBDuOKKKzjhhBMACIKA3/3udzziEY8A4M4776TX64019xQMTm3JTAjB9g9dyV2/vXtpj6McX3ABVhdbsNJHmcZMxG1qwUJsQWhPOlKz7QNAP7Yg0Jp0pG67TS0IZHdv8/bucQXd+DyOYEBRPThJF+LFhoLpnfl0zDhQsGvm4bpHAGK4z2zP1vwBhK1CwVrgV94uQUN/3CZwHS7WNcO+Nig4aizBVvfiBiAIzVBwS0guslhAsFYZNgH41zT3qPsZZb7GcUjsjrsg7rwDUQ4IuQltXOA5zEZxG/atAvc6AsMuc9fND+MDxK7P3bjPRWpdjllKUTmeMigc1eXYWRew2DJnIyQszr1YkNAKwYZtdmb5/b/NXPZH1490gYQ5IGxyL07rGt2L037Dshd7gFAYB+WsX1bCZS1O6oQXdxAsQpPHJ6QOCvp1LiFJbyCyuIMpYZOQAMB02wOCAFIgNRjh1k5p3MHyM1q2zGtjBDjoWwUUoicCB9syGJdNyOQdqmWiGkyf4OR9kEBBZWTBndgok9WBdM+fTFCyEUm5mFAmMynH/0FagAkh2H7nVUt+bTa1B74JOQYYnPTdzy3QPv3pT/Oyl72M97///bzrXe/iHe94ByeddBJaa+I4RkrJ+9///rHmnoLBqS2Zhf2AF772z/n717xv88pKPELikab4gr7VJRwBJqIWtFIXZWVlGFhSB7apBVO3iqxvBQ4W4V9dLMFqXUw5fuAkoGBgda4SxGRgL/TqZeLCAikEbIaCdYlGsvKEoGBq5UQjfnnczMN1j+BAXkyPr6x/Pn+6/N30TJKVuAQFR0oy4l+ttrkOZ/OVoGAdiGuBgpOMJ7hQlWCb+m9zTi4yiTiCbfCxKxCsAy+TgH9t848716jzMtMnOu9Sehe+COZGT1SmF4volUyNuagednijwrKuwHDYPiYJ42r3OcF4gql1ganDQOEwSOispCYbUU04bM4FxyUcAxLGYZ/vHHsBj/u3VxBEc0l/GvsPt2GjTVYvIIs16APC9GgFBptkJB4af9Bo9yL6GYybACFOPSgSxV5aJwxYmcYadLUiAYDZ2ZgkTp4HCkmUgql6ECAOKKgHpRaJsM2W1INk20iy1Z3MnyYoETtd+gxIa0eGg774sC57cQYLy/MMgYP5QTFUNSgkWGMy1aAFhFUV1SBaFdSDriwTgaFB6TQeoUUlT06qFnQQmHxNpLwPrVJ1pH/i5l+bVeKITm1qE7SpYnA822OPPfjUpz7Fv/zLv/DkJz+Zc845h5/+9Kf89Kc/RWvNIx/5yEJ25FFsCgantmQ2mIu4/Jz/D3hguRKXk45U24sQMKv3MhGX22xZSdimFkwyERe2PROl7Ta1oCq5CqeZiP3tJrVgU1xBWBoomB1fCxT0VYJunmTb1AHC0aBgoS7pn8b7geFQsE05WHn0gFNoBxy91ZWTTTJS6zJcgoItrsNQhYJjuw7XzDGK6/BCVYJVF+DhUHFTuQ0vdmKRcYBgE4zZIuBf7b6SgRs2ELzqlE3iSrwQWwiAbIOKo7o3j6MGXIiib7HVh7AwiOgPLR9rGRQOg4Suz2hqwi4ux1VQKApthe+eRYKEan4jqz94llPNUbWFQ8LqKJu4DBcAoTem4F5MAgi9vq7NA4SpizHkkFAL90KncFAJ58psRPICJzemcepBtM0hUvrf2AQKptsOOBW8fw0JFHRH7pSEtpCYJHcnJlMPZm9QTz2ocbAwe8pa4GD27AjQJfqnUlDoD6uz4hNfmL6cgAS8m9cThINO8ke2xrZGV1SDaQy0VCkoE1mlkQZplLs+AJQWTliATcoiW59ZJRCJJsBKiUi/FKQEnZyXUu69AyADJkXx/GuzqU1tapuvPfe5z+XpT386r3rVqzjyyCN573vfy0EHHbSgOadgcGpLZkIKdtljR+64/c7x51AhqNA9ygCRljeR+WrBtqQjw9SCxe16tWBZHVhOQtKmFnRBlfPtYVmHJ6EWhPq4gk0ZiBcbCirbHQrWqQSL2znQ25RQsCnzcOExgU5Z8hErWBc/lG3lb1FZJot6KFjnKjw0nmCb6zCMFk9wqHtwGzAcDQra0tX3UqsEN4Xb8GIDQagXiw7r51tXkLIk8K/FrJSw+z7wi58gFqDq2ETCwYp1ERIOex6awOFiqgFrYd4i7q9pn9AdIo4CEKUoHledmrB8MkvhclxRJ3aISzgOJLRCcv9D9mKbP9421GV/FEgolEi+t9NRTerB4lFZcnBYG38wVQSm8Qp1AgVrIWEK4DxAmB4fJAlLcs+VsdyLPVDYxb24KfagkeRQcAw46LsUR6IK9ZoSk3TNVIwFPeQSt7yuBe980lMpwUFk8s62KQyUCOtWnDqIUHFYUQ0aI91TolUiFnCqQT/eoFV4as8EEIYKItwXQFk5mMJBqfIPj8rhoFAhVo/niiWkYJfdd3LXZptBzMOpPXBtrGQi0+QjAPzHf/wHP/zhDznwwAO55ppr+O///m9OOeUUnv70p3PxxRczOzs71rzTZ3dqS2ZhGPCclzydMFwEPq2CBBQGXlkl5TSmoKrGFxzRjbhsZbVg6kact/tgrznWYOfYgmm2tNTKgUpa1IIiycSWTTUEFtZtd1ELQtGFONuuyUCctuXl/PjKGYgnAQWVzaFgVq6BgnlWPtEIBbMMf6WYgpOGgnWZh5ugoDBgTcg3BydiTfI5GwYFjaWcKXEoFEyzLvp9B6YZCmo7EhSszSjsja+LJ1iGgnX96vq2qQTTNj9LZl0/v74us6Zry4oVlWAKBYdlGy5nEC3Xl7OONs1TLjdmI/ZeXr9POYvrqP38P9+6Zoutm2fY3GXTxjb+DTNjwQQ99BmvwgS9zscz6jEupi3mczip/dfvs9vfJM+36z4XktW46Tjr5q9kGC4df1tGYvdX16d5TLndGIjj5jlHzXBcl90Y3Hemlj1+8tRziEWYfZ+Omtm4rk99hmJTU+/azEC78sCQZit2dQY70K5ukIwfaEjqC2NK/RkYmNMQuf4MdP47Gpnsdzn7fY6Sv7TOuBjCMqaQuTjbTtYjwoCK87I0oGKRZS8uZy4OdLqeydctfsbiumzFC8lU7K/1UltopuIAlzgvSLxeyuvZNkszFQPFxVVys96K5FFpdBBhpMYona3vs0fvWiAVEfhhiNJrC7dTD6anIMSLgy6SaxjXnl9DiUI5HFqus0W9Npva1DxLXYlH/Xuw21//9V9z+umn87WvfY0Xv/jFvPnNb+bJT34y3/jGN5iZmeHggw/mP//zP8eaW1hrG5Y+UwMwxnD3H//A8Y99HhvWjx43aGrNJlXu/y5Uv+Gv5/5kWg7dY285QvaaFYObCAzqsKgWbAKDqWLQVwemYLC4nZd1EGUuxL5a0AoPFKZgMN323IjTbMRpHEEpTSHpSAoGVdbu3IZTtaDvRpxmI+7L+dztN1lspQsvlUDCFAzWJRypcyH2lYFpm68eHCUD8ahQMH0KfdfhNpVg1r+mzj0WoWChznRPNDJq5mGoh4LuMb06tIV+rq44dmSVYFssQb8fJSiY1RXnaYsn2OY6XNdvVNfhSSYXKbdNUiW4ObsNj9pnFNXfONBsknH7lhLapbYp49CPelN+UvHAx42B6Nu4UyxUiLCQQ++y77LSsLy/8hx1ysRylRwyptzeVDdsrN/m14uaer+v364Cv2/iLuvvQ9WPEw31hf5pbL90XlV+lNl2W5s70Pr2cj014wp9e9K9YErm6sHUzThZj+aPrjmrk/nN6/LNbJvGHJSZ8C0ru0eb1cWBUwe69SzEKtkWFp30z8qC/FG4Ni3SbZE9ujrhyghXRhIJldRJNJJYKPeIxK0wVV5OaFqc1StiGySP3rZ1q8nYpvUBOinPmz7aKrQNkkeFSR9Nui2xyba1EmMk1oRYI0GHYBTEIcIohHaPwfwMKg4RRhJE+aOKAqQWSCMJIoXQAmkEKpIIDSoSGdCVUQ6AmY9AG6dEj2KnFowipz41GqIB6NhtR3NYHYOJsYONWB1ho42gI6yOMHN3Y/XAlaP7kvIAM1iH1fOFPwCj55jaZG3Z8lk+8Y3rWLlqO2TTl+kD3FK2stVVT0YM1o801vaWc//L//tB/fxtt912fOYzn+GQQw7hj3/8I49//OP58Y9/nLX/4Ac/4MUvfjFf/OIXR557ejtgaktmQgr2etTDuO3HvwPRy2Dg5mzlpCO+dYGC+TztasGKC3Fa7qgWTKFg1rUl6Yhrb1YHplCw3F5WCwKd1IJ5XVEZOGko2JZoZBQoWIZ/XV2H3ePiQcFhQNCVLcYK/qB3ZztxOyqTfxTHTsRteBwg6M2z2PEEuwBBaIZ9TUCwMl8DEHRteXlzSy7S2sdW2+u8xpvchbO3Uw3YWmrg59tCprVSwr4HwK3fyVyJlyCh5MSsa9KQ1Jqeu1FhWdfXdtx4h6ktxJXY7X+8/Y677y5xBqtzFA9o1AQmdXEGgcy1slpvC/Wun6i0+fV49dq4dWFhHmOzvvHAglLc97D92fpX3yNQFry5tLE5KNQ2A3/W2AIQzI7Pf25KbekY67kAp67Bzv2tuS13G7bgtafuw1kCk5K7sYDM1VjguRn3LFkMQs/SBCWTdC92cQiLyUlS12IjbbKmSfebLniS8gTcihkhGUldXMHUFisZCUh3w11Sm4jE4lyKReI+nGYoNtIghyQhSU+nkoTEz06cxhhUyj11RufKQa1r3YmFChP39gjRWw4DXL3sY3WSkE71MxgopGCv/R7Oz7//86kr8dQW1abJR8az5cuXc9ttt3HIIYfwq1/9qpJoZL/99hsLCsIUDE5tCS0IA572F0/kfZf/O7HHjZZaLZhZjVrQty6xBctWTjBSji3YmHCkaybicpxBD775akGgNelI3bavFkytrBbM6kvgL6vzFINQhIDl7aWEgk2KwDpQ2DWeYLq9qVWCxgb8IH4qT5Tvz8jURDIO+33bkot49XVAsFDfBgVbYF89CKw/lsVSCVaA3iKpBKv96udeSijYBATL4GQxAN9iK/saAU7Yg2efDpefD/Hiqyz0Ip+nb/5PX935t6ndhr0e46rsFgoQFwLx3P67jZ8UQGyLM1gGfunYUcbUJTApg75iW70isQwNm4DgMFCYHnsZFGql+PUTn88jPvIGGMwj0iQYqZpwCCj0IWEK9vK+oggUU8DXAAlhspDQqQHT+II2B4QDU01SkioH8dlaCuzAz15MIVuxLW0XeV76FnBlP+cyeebhMeFgOTuxbwvNVFx8ItqhoW/9EeGgUw3SmIhESJLwP3kiEmlkIdagSeJIylGSkCj3SghtMndidAIFk3iDQimsiREqSEBgXISCKsSaFASGWD1AqF4FDgah4ujnPJ5rfvxLxgxTOLWpTW0R7dJLL+XUU0/lnHPOYcOGDXzgAx+Y2NxTMDi1JbNoPmLNG69LIGC3H/FNYbYMCLP6hakFywlH8nmLq/E2taBtgoBjqgW7JB1pUgvWQ8LhasG0bzmuoCoAw00DBYdlHW5TCbpH0aoShIXHE6x9HMFtOGTAkeLq/Ab9Qt2GFwMIFvo2A8M212G/vLmoBMux8TdHlWBTv67Qz29vA4JdY/UttY2t8pufg4vPHW1fm8H5drHycZZv2I8KC30b5TUfByKOAp/rIOJCj2/SAHFcZeCoCUzyg2g85EZwWIaGPixcCCgUUiDm59nn/a9CyOTQEkVhPEh+z7qAwuQN3QQK0/eMDwq7QkL3mG7bbLs7JEz6ZAlIEkCYAsSeR97SOiWy7MUpR7NpAgtpM9fjDBOaYvZiSJWCzjXbypznaUlBNYiXkGQUOKgVSVzoetVgOVMxkCcgGRMONioFvXJXgCiFQVuV3GBPfifrEpFohZW6kIjESJOpBwGnJjS5arCcpXjkJCQZKIxBBnlZBaRkL1MPyh70wG5MoKCZT+DgfHau0XzMmos/yrjJS6Y2ta4m5BjJRx6k7sO+nXLKKRx77LH8/Oc/Z5999mHFihUTm3sKBqe2ZCaVZN+D9uLH3/l1aVm7mdgC1IKmQUE4rlqw4kKclYugsJyJOC8XV/flpCOqBAu7qAWBBakFXb2hnGzEz0ZXKI8BBdMEJaNAwTbX4TaVYFpfpxIEssDerkyprX57ZCAIFeBntGQtj+Ch5lYkZnQgCM1uw4sNBBvm6hJPcHNVCfpAsDzHQjIOd6/v0GfCULDONgcICBN095UKDloN37rZKXua9reZnPdCLD2HNo+etud13Fh+o75nFsuNGRYGEcd1Ja7bxzjKwPp91R+8oV4ZmLXr+vNpdysugkJ3nB1AobFYqbj/EY9jm59+zf2elfflgcIU+HUBhXVuxz4oHAUSWg/05WrCHBK6x+SA0/0mQFBQBYSOcRkHEDNAmEA53wla2wwQZu7FdHMvTuMO+kxPy2TdUnIpHhUOapGvv6rULoeDZZdiLerfd6rs37pAONjFpdhBQT3cpdhTDWocBMyBcR7vu0k1SAIFsyV08r5zJy7LHx6nEgTPjThVDwaJetAlGrEmBhXSRQIopWDfg/bgR9/4cdtP2dSmtnBTkGbmHmnM1Nhuu+3YbrvtJj7vFAxObclMKckTnnYQP/vBb4nH/PHx3YgXZHVJRzxrUwsCFbWgG1ONLQhVtaDx4F6TWrCyXVYLNqgHfbWgy6y26dWCFRhYUgtC1aU48DINpxmIlwoKjppgBIa7Do8KBGE0laDbdg/WSG4Th7Gj+QkS3QwE/XKTSrAmjuBiA0G/vi2eYFc1IbSr/5ZCJdgGBKt96+feHKBgV9scoODE4/8FARx1PHzvFpdNtG6fm8F5T9L88xkl7M9CY/l1tUm+z8rwayGuzOOoEJtUmZNSBjYBPrdvm81XO5Z6eFies1EVSLEPNINCoxS/P/QZLP/ZN7HRfCU+YWE/2VzDQWGuEqRWUThZSFgTsxD3+1IHCFMXYwcKTe5eDMX4g34yFZLzyEAhlN2Lc7OF7ZTpCZOWx4eDmmT9ldLGwv6Gw8E6l+K4EhGy3rI4gxOCg6Sn0eJSbKXMO+HW+Klbse9SLIyb1CiBRLqM3bj3X+pO7INbgYJ541SJkAPCBASiFBjtgcJEPZjEG3Tl3J3YqQSLcQZTU4Hi8UcdwE++/dOaSOJTm9rkTKRq51FsGmNwUW0KBqe2ZBYNYt532Uc7uxLXxRcsti8gvmDZWtSCQCUTsW+pC3GxrhpbsJxwJJ97BLVg2YU4LXeMLTiKWrBc36YWrCoDm9WCdS7EmxIKTtJ1uC3ByKZwG3bbxXGBGfBE3l/qUwaAQ4AgVFSCmxII+v27xhMcVSVYTRTSDSpOUiXYBgTL7ZsLFCwcX8Pbx4comwMUXBQbzMMVr13qo1gyG+ZuPPa8Ewa4PtwaRdU4rhpwsWIh1kLAct/a82s+nibAl7UPgYe17tDlOUvfQ11AYaGPmWe397/BTeN5VaaKwkmBwvScfEXhYkPCRkAIFGIQpu7Fyos/mCgKC/EHkwQWGf/S6QuSjC+pByuuxTHoYIFwEIjSJfYE4WDFalSDse12iZutbTvCwVaX4iGJSLLHJBGJ+x01CC0y1WC6jphIEhLPnbirRYOYf7ri37F6igWntsimJJgR7/4t5G7h1IbaFAxObclMKsmBT3gk3/nqbZuFK3GTWhCKasEyCKxTCwKNsQXLLsSpVdSC5YQjqZWUhG1qQd+FeJhasC4TcdmFOFUL+lAwVQtWMg2ndR4UTNWCTS7EaVxBmBwUzGDfGFBwXNfhtliCkwaCft+6bMMGya/tY3iYybOlLsRtuA4IuvoSFYIFA8FO7sAd1IQwnkqwLRbhUqkEy2OXGgpuyZl3J2oqgMcfCV/5Qq7SeBDbJNSRiyEM6Pp+HVfVuKkAYif34DpQlzKQEQFfNp4WeNj4nNlCl0L8QQ82NscfzJdlGsX9Bx3BNt/5H0wcVxWFPmAcERQCWYxCwMFCkysKFxMSAu2AME0+gekWfxBIYxBm8QczUOi5F7uz9l6nKhy0kiT2oEBIt3YxEuIABwk7wEEjEhVo2kWCFJZIFuFgs/vweHCwi0txPOKlsO9SLCVo67sUtyciAedSXJeIxFcNSgTWlFSDdUlIMjKeJyFZqEklOeDx+/Dt//3e1JV4aotqU8Xg5mdTMDi1JTOlJPsdujffv+UXY7sSL2DnuVqwJtmIrxa0pUVyF7WgUcUVcllB2KYWLCccyWwMteCo5hSDORT0630omFodFPRdiAvwrwYKptt1yUaWCgqO6zq8OakE/XaL5DfBfuwSfw/pA4uFuA1vRkDQ778pVILVMXl5U6oE29omDQW72ANWCdjVlILHHg5f+2ItGNwS3IjrjnEp1+Cb83M2LFNz7ZjFAohjJA5JxWW1w1qUgekxdFIHNsxXGd8RFALQV9z3qCew/Lv/izRxLUxsckceCgqzPq4+VRVmisKUTaW/t3KykNCPR1gAhOTQMFUMDo0/mLoXZ096Nf5gnXrQGlsInUOQo8b8MVcPgoN8RlqMFZgEGkrrnledgr8Ss8wnK8JBY22tarAJGKaWhaIZEw6O61JsjFtzW3Drci8RSdqpkIgEnEtxTSISoQUSHBA0ZLEGsyzFdUlImtyJ0+zEZvSbVEpJ9nvsXnzvKz+YuhJPbWoPMpuCwaktmUWDmA9d+YnFyUo8zI24ZAW1YFhsH0ctCHXqwHa1YNmFOD+2klqwQ2bicibiOpNl5WGNpS7E5biCKoOEcUn511SnK3EEfSiY1+VQ0K+T/vYmgoKTTDCyFEAwtcAMeMLgQ5NxG36AAEGYrEqwDOzGUQm2AcHy2O4Kwg59GqBgYf4RwOGDVkE4mIerLl7qoxjJuoC3TQkLuxzPYoLKYfsvwMCOYG+xAaJTC9Z3cvBvTNdgmsFh29iu0NAfXx7j963sZ+McO3zgLS5WGykIxIOD44NCcLDQ79+a9dgUISG49cFCIGGqKqsAQiUS3mWGxx/cqKuAsBR/MGdl7epBGadqwfKjUw8CHVyLXQgWI9xareJa7MHBbFnRAgIDqyuqwbghI0ElzuAiwME03iBSFhORkLgUe4lIUlfitkQkQtqqalAmGacT1WABCqrJqQXBXZtdd9V/Tl2Jp7b4ppIbFaOOmVpm//zP/8yaNWu47bbbuOmmm9h999258sor2XPPPTnhhBNGnm/qqD21JTMVSB7/tINQwRK8DRdBLQjUJhxxCUaK23Vlt91BLbgA8+MLglMCpm7EZbWgDwVTS12Iy8lG0riCPhTM3IhLyUbSuII+FEzjCvpQMEzqUiiosBkUzI4/gYLZ+dk8pqBrHw4FlcmhoAOC9VDQAUFRUQmmrsNlKJi35XOkbbWPHhTM/6yDgumf128oFEzGaC35mVyN1on7UfoH9SrBgcn6WG0qUNBqW4GCxbrq2Lp2v76pb3PZJH8N7cZmoK2wbxzcMzX90r5Z2Wvzx7i2rFhRCaZQsDx3Gcx1hYLG2FbX4bTNn7NYbhnfAgUXqhZ80CkIgwCeerx73Iyt/BWw0Dkm+beU++4KSUedZ6wxpvtfpPOfh7q/SFu0af6LtG0Z6/5G3XfTmCi22feRMbZ1jN8v9o5Ry4B7n/BnaBFgDMTJnO6RpA6v7M2T9IljWxjnj9Wxzb67dU1/HRusscQDg44t0cAk9RZrQEcWHRl0ZDCR+40ykRujI4PRFj0o1qf9rLaYgcYMtPfb6NUNDHZgknaT/M5a7EAnf8Y9Jm0MDMwlL+JA57/vkUEU/mzyZxCxQcYWGYOMbGE9ImseVSzoDdxfECd/GgKdrI+scOsrrxzq4g1cZf0bvGTeIe7RuLVgUvZvJJfNrSnzONfluNZtFiRrXZV4xfTlfGFN7K+V09jcUhiE0HnInjQRYPqYxAi3UucuxVJnMcaN0u56QdlEOGCwyiZ/ybVGqt5MYUgiXLA1IY8mZSqQrH7qY5bm2mxqDyoTUiY3Pkb4W8T3/pZm73nPezjvvPM47rjjuOeee9DJDYIVK1Zw5ZVXjjXn5r2CndoD2oSU7LrXTtzyxR8Xpf+LZX7SEc/GVQsCBbWgUbbUVk04kpXHVQsukflxBYsxB3UBChbqS1DQTzZSl4HYX/ANg4L+QtJt2wIU7JpopCme4KgJRtpchTe5SjAdl8IvBH+Uu7I7XydzcRwSRxCqKsG6xCLNCsBh7bbQr9y3awzBSnkMhWDbHNVxXv0WphKstLV85z5oVX8LMSFhr33hf26oNC0Ewk3Clnr/C7Go489e2MHpoOtc45i//67P9zgKxDpL81I0tjNM/WfbXYdpVh42Kgcb9jmuUjDta5VgbtdHMCs+k98U9G6CQFUZOExR2FaPN2fqfuzHKPQTmfhKwjwuYTI+WUMIKZqVhInaEHLX4VQtmJ5o6naMEpX4g0MTlBhNpiDsJfHuaFcPyqjoWlxWDzpX4/rEJAG5a3G2yE9UhMaJ5PLX3bo+7ukuuhTrIQKhdI25ENVgbLt5LcksUYk7cGMlUuqiahAKLsV+IpJg0M/EAql6sC4RiZA2UQwmhynJ3i+FJCSLYEIIdt1rR77+hSmAmdoimxJgp4rBce2qq67i6quv5sQTT+Syyy7L6g899FBe9apXjTXn9FM/tSWzeBDz0f/vBuIJr9aFKvFuWYKBY6oFoagWtKp+JV/nQpzNXyr7CUcmaaYly1PxjudwtaAPAlPz4wpW3IY9KJjXV6Ggn4E4y0KcxBUsuhdvGiiYKQK9eXyVYBkKDlMJNkHB7E9b92doVQmm/VLfqXy71A4VKIi2BDricff9XwI98OQYthEKZuq9RMpSUQiWlHpFBWBVybdQhWCnvg0KwVTp16YQbIslmI/bfFSCdfM2zdE4f+mrq8mFuNx3EklH2gDEprSJJ7aLBnD137rHzcS6KuGW2lJlWt3fJOYYdS4YXeXXZf/lY+iqJuzy5wm969sT0dhiKA/bFIfD9lXu46sKfaWgsclP1/yAbT74d+iN8439mtSCuWIwVxU2qQf9el9tmH7f+2rCrkpCo22mJPT/fCWh8ZSGvlrQDAxmYLzfRFtUEA509nuNNkUF4UA79+KByZ/IjurBwnqltLYRBlSc/omCejBbN1m3jgp0UTmYrsnS2M3Z+i17tJn3SKoa9C1dOwatCsLhqsGiF8xw1WDZfNWgTJ4UkUkqc9Ug0lRUg+m1glEmg4XptUV6nZEKElLVoC1DkUmHYQLiSPOxq/+LeDB1JZ7aIltPjvc3hr3rXe9ijz32YGZmhtWrV/PVr361se/VV1/Nk570JFauXMnKlSs56qijavv/8Ic/5Pjjj2fbbbdl+fLlPO5xj+OXv/wlAH/84x95+ctfzr777svs7Cy77bYb55xzDvfee29hDiFE5e/DH/5wp3O67bbbOPjggyv1/X6f9evXd5qjbFPF4NSWzFQgeeLTD+V/P/PdybidJXEFK3WJLVQtWL6hWFYLlpOOdFELFo9l6RSBw6zsQlxebJUzEKdQ0E824rsT+1AwqytBwdSdpBBvcIJQsCmeYFeVYLq9OaoE/UeN4iezT2Kf+//b3U9vAYKZlVWCdWq9zUghOK46sK59KZOLDBvbnnykW7+yLcSFuGwPaqVhEMCxz4YbPuaowxLa5ggDJ63W2xzOcRxl4GKqFiOGKye1bRZcjKs8bFMcNqoNTblPQ5unKjSACEM2PuVZzH7u3zA6LqgPSeZJh0spKlmYu2Q+blMVunmL/dObyCZZSnZTEpK9gaSvFDTCJaFIsnU2KQjT+INkGYpzBWEaUzDNYFyboGQGytqQOvUgmMbEJEKCDqhNTNIbCAY93IxJ3EG3Gk9eJ5ENcOpBk75GnmpQuBvDqWpQWZstlnSDrsVPQtKkAgyE9pSC9ZfBGQTsGG/QSk0lEYmWIPWCE5FUVINhko3YyOzH3SUcmcyXiwokf3LswXzpU1+ZZiWe2gPCPvKRj3DeeeexZs0aVq9ezZVXXskxxxzDrbfeyg477FDp/4UvfIHnPve5HH744czMzHD55Zdz9NFH8/3vf59ddtkFgJ/97Gc88YlP5IwzzuCiiy5im2224fvf/z4zMzMA/OY3v+E3v/kNb3vb29hvv/34xS9+wUte8hJ+85vf8NGPfrSwv3/6p3/i2GOPzbZXrFjR6bz23HNPvvWtb7H77rsX6m+44QYe9ahHjfIUZTYFg1NbMhNCsPXKrRBCLNiVWKiwps5XCSblRVYLVscs/ZVylyQjvpXVgikUrOvXlIEYilAwG+NlIM5UgqUMxFCFgmmyEdUWX9C76wyjQcGySjAtQ1Ul6Ld1TTCyyYFgqW6OrZO57Ghuwx2BYHP7pgOCbRmGy33L7W0wEGrg2Rhuw9W+7fsYDRjSaJW+1m9rh4Jd1ILj3NTJYtI/kExIWLEdWUT+xDY1wFpqYLZQ8LWpjn9TQOx0ibEpXxMdD/e0agOI6bGOCg/b3JXrwGH6NkmhYcHFOGuj0maNIN5mO4x1mVodb2lOapLO0wQLy7Av65OVi30gh4UpQMzgYQLOAFKnDZkqvjxXYsCBQupdjoUUFUAIOBfTUkISHxAKEhV8ARDazL24kKBkTleTk6T78jMXQ8G1mFKNiqmBhM1wMAWnJv0RkPmN3PQ3IXUrzpYUQrj1ogUtGkDeEHdicDewscP66KRP8+VxQTkoQWuFEBpQzi04gYDDEpGoBAo2JSLBCEw5EUlU+jKRCY1Ok49IBaWkIUKFWN3dO0kIwTYrlrtrs6lNbTFN5t8zI40Z0d7+9rfzohe9iNNPPx2ANWvW8KlPfYr3ve99vPa1r630/9CHPlTYvuaaa/jYxz7GjTfeyKmnngrA61//eo477jiuuOKKrN/DH/7wrLz//vvzsY99rND21re+lec///nEcUzgxaNesWIFO+2008jndd555/Gyl72Mubk5rLV89atf5V/+5V+49NJLueaaa0aeD6ZgcGpLaHGk+eS1n0uyEre/FevAX6v5ysEUEG4CtWDZjbi4v/YrEWFUu2rQKFrjDFqZk6by3Emg5C5uxE3mqwXLLsRZnw4ZiAMPAJahYBpXUHmkuAwF0wzEuWqw6ooyDAq2qQRHzThc3p6ISnAiQDABr0Zz0LqPLwkQ9PtuCiA4SXUgdFcIlvtuKpVgl/6FthZA0QYFp9bBogF88N1LtvulAoKbCwhcbNDX5TjLwGypFLTDYgrCcIA4DB7WwsEWxWEZ9qXmQ8M6WAjuOjBrswP6H353dquynJXZh4BQBYFlWFgX03AUVWEbJCzHJXTH0w4KrcFBwgikEpgkJqGQnoqwBRAKJTPlX6oyLANCejg4mMYezPR+uWXqwShtduNT9aApBOojUbdVlYNujZTMJpM1kxRIYynHG5TJYGPd3CoBhErYWtWgfwhxo4Iw/4JqjEFYUBDW9/FhoC71UUJnsQazZMHWuPW6IXmUiUtxGnvQFFSDaOWUgsY9e0aJgmowUyYmWVyFlC5+YfoloxRoLzuxDMYGhHGk+eQH/wc7wUzHU5tarak0WOmIY4D77ruvAK/7/T79flXdOxgMuOWWW3jd616X1UkpOeqoo7jppps67XLDhg1EUcSqVasAMMbwqU99ite85jUcc8wxfPOb32TPPffkda97HSeeeGLjPPfeey/bbLNNAQoCvOxlL+PMM89kr7324iUveQmnn356JzB/5plnMjs7yxve8AY2bNjA8573PHbeeWfe8Y53cPLJJ3c6t7JNweDUlsxUoHjqs57A5/79G60XoUL1WuepQEMfMiZKQVGJMTiaWjC1UdSCbVYHCYe6Eo+g/JObSKnY5EKctddkIAYqGYjTOh8KpnEF/ad7VCjoKwNHhYJ1bsNuux4I+tsLVQmO4zKcWSmxiB5IfrjiaB4192mUdQvFhQLBTeky3JRQpAkIThIGQneXYbdNY9+69kmqBOuA4LhxBavzTJ46bQ6qQTXJGO5BCCc+Hz7+QYgXJ3Zsky0FFBwHCC7kOMd9nTapWm8zgunD3IJhOEBsg4dN4NB/DprgYbmtqhBMIFoNMNQiRP+fU1DXfwilo1p1YWp1IDA1k60NilARRlMVporCYlv9I9BJUViGhE0qwqGAUIlkNZViOpx78YAMFGauxXXqwWxM7lqcbsu4CgdVTJKMJIeDQUwhIYkU7jF9/Y1KFIKGZpfiJBGJSVSDoFoTkgxzJy4nIym7E/ug0L1ILe7EaRdhKsBQSINNb+hLlZysAaPQQeRch6GiGkQrjLQV1aCDsnXuxKr4Y6+CdkAoe1ia44+pQPGUEx/HjR/70tSVeGqLawtIPrLrrrty//33Z9VvfOMbedOb3lTpftddd6G1ZscddyzU77jjjvzoRz/qtMvzzz+fnXfemaOOOgqA3/3ud9x///1cdtllvOUtb+Hyyy/nhhtu4FnPehaf//znefKTn1x7HG9+85s566yzCvUXX3wxT3nKU1i2bBmf+cxneOlLX8r999/POeec0+nYTjnlFE455RQ2bNjA/fffX+saPYpNweDUNmsTsv3HuBxTsKA8TMtlN+KsvV4t6FuqFuwKBGWy2mtSDdaZrelrC64KNVdEdcrAUp0LhqxHUgs2uRHXqQXrYg1C0YW4DAX9ZCNtSkEfCnZRCtbFFPQzDZehYJPr8CTchguPHhQcyW14AkAwUwgmd5utNtiUgi0REKxTEjb2XUIgOIo60G1TsWHJRdrGL1Ql2OY+XNd/FLXgJFVQmwMc3JJtcwaC4xzbUsC/zQnmTdra4glmfTrEFYR6gOjzhro5fDxeXmbVuSyXoWEdMLSJegyTJ4dSHsiDOqDYDgxTGxcWpu3Z/LLYBjZrL8PCOlBYhoQLBYTV+IM2Vw+WAWEh9qBpdS2WsYs7aMIiHPTdiknWVCkclNLBrtSluKAmLC13yi7F7q5pcgDAwIN7vpWVgYV1ai0IjNOXqVU1uFCzUiO08h4dJDRKu1iDgDGyohpUWmAVSRK05P1Qc+/JxRlU+Ztd5VBQqBBrmmPfCtXH6maPoalNbVFMiuE/UnVjgF//+tcVxeBi2GWXXcaHP/xhvvCFL2TxA02yyD7hhBN45StfCcBBBx3El7/8ZdasWVMBg+vWreMZz3gG++23XwVeXnDBBVn54IMPZv369fzt3/5tJzB42223Eccx++yzD8uWLWPZsmUA/OQnPyEMQ/bYY4+Rz3cKBqe2ZKZjzWf+75caXYlHVgp6kFCU3YdLQNDKmlXuAiy786cWeNVcyFpccwXm1yXlNAOaEPkdx8WGgr75asEmKBh4ANCHgikQdG3dsw9nwM8WVYJQhIBd4gkOUwkuNLnIguIIjuAy3JRUROoBj77r+kJdFyDYBO4qczT0bVYKDuk7BAi2uQsvpjqwrv8whWBdn4WoBMeab4FQcFzX5K5WDhezxYLCOIKP/lOhajGh0+YIBUc5pnEg4EjzT+j52dLBYSc4WAPpKn28174pxmDWPgJErIOHZdVhARgOIvjXf8rUfw765QN8t2PXXoWGdcCwDhYWYGANLIR8fYHnEu0vL3MgWAaJ9Y9WUkhiYhMYOAogBDIoKHtjAsKedE9KT1GIPUjqg530CyQyypOSmAwIJtAzoAAHg1h4jxThIBApCDO37sTNGCdmdBObRMeY1huUNS4ZiagJOVQCfWW1YFvMwYC4ohrUDclKjOdqZMz41xdGmopq0BpL9kQkZpXnTlyOM1g2FUDqQqzCrOxciwc15xLw2Y9+Bas1Us1g9NzY5zO1qS2Wbb311sgO1/Lbb789SinuvPPOQv2dd945NK7f2972Ni677DL+67/+iwMOOKAwZxAE7LfffoX+j3rUo/jSl75UqLvvvvs49thj2Xrrrfl//+//EYbtodFWr17Nm9/8Zubn54fCzhe84AW88IUvZJ999inU33zzzVxzzTV84QtfaB1fZ1MwOLUlsyBUHPvcJ/Pp//uV0S8SWt2HS0pB30YEgtLked1y9wiQpTxspkFN6Gcc62q1akGp3Z/It4VHp4TQmfvwplQKdoWCylMNlqFgV5VgXebhPIbgcJVg2q+rSnChcQQXM9Owe2wHgimA0yLge9udwP6/+zgyXRyOCgQ3YfzAcn0dENyU6sByf7ddbJ80EKxvH60/jA4FNwfzQeGmgIQTcycOe3DSmfCRa1y8wUW0TQ2r2oBg12MZ5TleLAA4yedtc/zsNNkwaJf1KwG5cft1hYjlY0nhYR04DFWy37BHcPKZ2ORzVt5X+VzboKHxXNjqvneaYGBhXF0f7QFBr72oLrQlKOhUhRnjSeodJLTo2I1LIaErUx+HUOWQ0GqTqAhNAghFto23TU/WA0Jj3ZOfJSexECbQ0IDQGhvKLGsxFDMWpwpCcGuxlJkZ6foaTymYKgSNAJR7Hk363KTQVVhUohJSGLSVREIxENC3EUooNCZZgypiTLK2VcRW5RCwBAdr8qosWDloRwCERhpUS/9O7sRR8mmRKlEPNisEfROqlwFCofooGXPMc4/gP6/7HPFiplGf2tSUoCL57TSmu/V6PQ455BBuvPHGLP6fMYYbb7yRs88+u3HcFVdcwVvf+lY+/elPc+ihh1bmfNzjHsett95aqP/xj39cyBC8bt06jjnmGPr9Pp/4xCcyxWGbfetb32LlypWdFJDf/OY3+ZM/+ZNK/eMf//jWc2uzKRic2pKZtZb77r4fa7uv1oXsVZSChe0UEKoa9eAmNmFka8IRHeT3ysvqQFtWBtZBQZGCQF1QCWZ1iwgF/SzEXaFgCvvKULBJJTiq2zCwYJXgsDiCWxIQzPoLQ39wj6tvcQmeVIbhUdyFoR74dXEXXmp1YP2Yap9JA8FOY2q+UrtAwcUCiSrJvDmqZckANjEIG8usgXv+UH3jTdgWGwpOylW463ulM1iccL+s/4RernhLeI8CcfL6BsNUhKXtJqA4FBK2tDcBxDpwmCsODbN//AODyJBmIBmmNMy2vX3XQcNsDzXAMNI++CtmWU7rYw8I+n0qwLBGXeigoE3KvutxDgxTSDYyJJRFKFirIkwAok36ZUpBbd0aY0aRxh8UOoGDmYowgYypq3GiHhQGTJCCQbDJcfbAqQWxGCuIsYSkCVoERtjsuYmAENxizySvowCkQSdRENObzr560AeEbo8U3JDT7VHhnxJxJZagv21HTaTQwYy0qLagiqn5CUiSOINCBTkglLlyUPSWYzfW38Cy1rLunvUjXZtNbWpjmRSjxxgcIyvxeeedx2mnncahhx7KYYcdxpVXXsn69euzLMWnnnoqu+yyC5deeikAl19+ORdeeCHXXXcde+yxB2vXrgVgq622YquttgLg1a9+NSeddBJHHHEEf/qnf8oNN9zA9ddfn6n01q1bx9FHH82GDRv44Ac/yLp161i3bh0AD3nIQ1BKcf3113PnnXfy+Mc/npmZGT772c9yySWX8KpXvarTeQkhuO+++yr19957L3rM5EFbHBh817vexd/+7d+ydu1aDjzwQK666ioOO+ywxv7/+q//ygUXXMDtt9/OPvvsw+WXX85xxx23CY94anUm1Qw6NvzPf3wbAOH9zjrX4qIbsVA9RG+5tx2CDHIoKIPMHXmpQGBqo8QZLMQXlAYrdA4FpWmFgm2uw8CiQ8EUCAKdoGAKBIEKFGxTCY6acTh76h7sQBAH0iQx+9756Ww7s9K4xXAXHlcd2NankPxjCAyEdiA4DAa6uuL2ODCwrt9iAEFYPCg4qk0yfuBiA8KJqAbjGD75kYkcT5MtFhQcVRTSdBzDnsNJwr3FUCrCwgCfHvUCZwmtCNGGn3TsvUeaoOIwmFh+zQowsAYglq9rnCtxzP3/L/+cKUk5twJKVF2UR4GGxgMiTcDQbxsGDVuBYQkW1rkY56DQJtsOIgopRoaEMqxXEcqeKrgZW20RPVVUEM4qsgQlUOteLI3ABjKLPShjHwwW1YPgKQiNg4VhbNHpuZaWRlLkGYxdkhKnHhwgmSHK1INamFLswUGmHizDwRkxzxz9RtUgFnSDq3FnM8PHp9cNcgSVYZ07cRZnkDTmYADau1YyMagQa1KFYA9r5pOyizOoY8P/fPKWwppvalNbDHNMfbTfzXGEvCeddBK///3vufDCC1m7di0HHXQQN9xwQ5aQ5Je//GXBLfk973kPg8GA5zznOYV5/AQnz3zmM1mzZg2XXnop55xzDvvuuy8f+9jHeOITnwjAN77xDW6++WYA9t5778I8t912G3vssQdhGPKud72LV77ylVhr2XvvvXn729/Oi170ok7ndcQRR3DppZfyL//yL6iEfWitufTSS7PjGNWE3YJuCXzkIx/h1FNPZc2aNaxevZorr7ySf/3Xf+XWW2+tzcLy5S9/OXvS/uzP/ozrrruOyy+/nG984xvsv//+nfZpjOHuP/6B4x/7PDas3zjpU3rQmlQzBL2AE194DP/+/s+jTYDsbZNAQQcGZbi1A4IqRM6uzNWCKkSEswgVJtuBA4O9mQQQKlcX9jJJPUqRJR8JAxdj0Es+Us5KnD9SSUCSPSqDkRYjnStxqg509QajNFaWy275aaVBBxFWJSAwGZuBQR8KQkKsilBwmOswsOhQMM3+1hUKtrkOD1MJtsURhKLb8DhAMO3fFQiOkmW4uG0nk1SkAQja0lgtQr65y8kc9Mt/QcX5HeIKvBsD8m0qdWC5bTEzC7u64vY4rsJ1fer6jQMEa8d1AILQDQrWje0yri1e4TiKwSZbDEC44GugsAcvOBfe/w7n4jjhY5zkfAvxDqs7jrbnbqiycEIQsMvrNyr0Gwf0bWo378WwUTy1ukDF1IapFJtUiYXj6fVYcda53PPed6BqXPbrjr08b7lPOTFKuV2VQJ9vRQhY75pciElYVhGSgL5SfaYYFGQw0NXjwcH8UXjbdZBQSIEMpacizIFgriZ0276LsUhcjEXqStxTlfiDKIFN3IutEtjQradNIAqxB9P4iTop68BiJAx6bl0dJ+tsIyFS3qNwsQe1cOMjCVoIjHCPkRRoIdAIjBDMiTDZlmgk8yIkRuJWuIp5wsytOEYxZ/uunNbZgHnbd9tWEROgrWK9Xoa2Cm0DBqaHsQptFZHuYazEWoXWIca4stWBg4I6dI9GInXPPUY9VByi4hBhJEGUP0otUZFCGkkQKZeAJJKoSLj1bAQysojIuLXkfISIYohi506sNTYaQDTADubBxNjBHERzmMEGbLQRO9iANQPMxrsxg/WY6D7M4D7MYB1Kxhz/l4fz7+//PNHchmmMwQnbsuWzfOIb17Fy1XadYuQ9EC1lKyu+/ByEHo2tWDXLPYd/9EH9/KX2gx/8gCOOOIIVK1bwpCc9CYAvfvGLrFu3js997nOdWZdvW5RiMKWoqfRzzZo1fOpTn+J973sfr33tayv93/GOd3Dsscfy6le/GoA3v/nNfPazn+Wd73wna9as2aTHPrWqWWP49c/vBNlDJEGD66CgUL0iFFRpXw8KlrMR18UXTE2b/HbshExq4UIid4gn2NSnAgVTa4CCIiFSbfEEgUWFgj4QBDpBQR8IQhUKTjLb8CSBoK8OLD42A8GJqwO9Po1AsATorNCsvP92t1hcgLvwUqsDq2Motm0GiUTq+nTtN+44WHwo2NXalHfjuhPX2WaZzdga+Pmti+JKPCnYtKmAYNvxTgQUDnmKuwDAUaDfyO7Jm9t7c0SrO/4mWNj0PA5zK8775ZVx6f2ZgsRCdWSY/8mtaG0q7wMl6lWJtcrDluNqBYemGRxG2taCw/RzVwcOnWqw6nacKQYzgZ7NAGIOB9N6CBIQ2KQkdMlLbEFFqHqJMtBXDSbbmYJQm0Q56CkFtc1POnUvTg82lfRJi6Q+9iCQZGMuuhbLRDWY/sbVuRaX1YPl2IO+enAuiTeexh4s5Nz1lIMzYp452ydPRuL0hWVX476cZ4NelrzmGrNI2Yu7WBZnUFvwVYNpYgOtnDCi18cOSFyKA2RvWZa4h0HijaUihOllwgyE5I7b/zB1JZ7aopsdI8agHTWL8QPY9ttvP77zne/wzne+k29/+9vMzs5y6qmncvbZZ7Nq1aqx5txiwOBgMOCWW27hda97XVYnpeSoo47ipptuqh1z0003cd555xXqjjnmGD7+8Y8v5qFOraMZG3Lzjd9NfowcFIT0hyqHgnJmZREKpi7EPhTMyi0/1JlqcMJQcIwEIwW1YOPEulUpCO1QsAkIAhOHgl2TjDSpBIFaKDgsjmBTYpEyEPSTikDVZbgty3AXILjJ3YULdcWxZZdgRcyev/18bVu5blLqwIXAwHJbVxi4VDEDF95vAWMXAASbxk/SygAvvTCeBCCctHvxgt2J4xhu/MRkDmbCNi4QHMVleFwYOBQULhACdgGAk3RdhsnHG1ws0DjK9VXTOTW6FTf0r0I50dheBXYWopg/fKr6OQtK7sCQfKa7QM4W2Acw0NVlYyM8NPXtSjhwmB5XanWKwzQjr2qBg0oWQWEcpy7HDgg6UJhDQhXIgopQhc7dN3UzlqGDhKmCMC1TKFv3gfTjD6buxdpCT2ZrLfflbyCsxh5My+BAYbpm8xOTSCuIlVvXRdljAgOtUw0a6YBg+vz6sQcRMGPiLDFJ6h7cBAcDEZNmKA6E803XNnBrZpu7EyuhK5mJHSRcfOWSVYBJoKBOnksjEHhJSMC5FPd67tSigYOD2enOFeCgBKweIHQfoZwCV8eGmz/3g6kr8dSmtgXYzjvvzCWXXDKx+bYYDeZdd92F1jrzB09txx13zIJClm3t2rUj9QeYn5/PAkSuW7cuC+oYhO6HIAgUQaCyOpWUw55fDlHJL3rYC5FJudcPM3eA3kxe7s/0EMIvk5UBhPDLIitLKejNhHm5n5SVJOy5svLLgSLsBVl5qc5JqhlE0Gf5NrM875xn0F+2jP6y5QjVR4Y9ejPOTVgGPXrLlyfnB2HfwT8VBq6MWwgFymRllRAeJQ0qEAilUGEuIAxkHoMvkHFeFjEy+akMRZzkIIZQRFm5R4RIVhF9HSO1W8z0iAGLsJa+dQsKvyytpW91Vu4Zv+yolCQmJAJpCIwlTK52y+UgKfesJsRBwb4x9KyDgjNGOxgnNDPGZMArjEUGtGa0JTQOBM7GlsC68kxsCawDgP1IOHBo07IDgGEkHRQ0BhkliyMjEHFalhAHDgpqi4qVA4FaZmWpFTJ2L4jVCquVg3pxgIgVyoKIA2Ts6kUU5tndohAZS6QV2ChEaIm0YOMeQjs3Cxv1sFYQxAIT90ALrCUpA9qVhQF00gewWhAbV2+1QOsQoS3GSrQOkz6S2IYIY9FaorVCaOvcS7R7Dox2LisY65417Y49NsrVa0tMmNfrAIOjEjE9TLKwjqO03hKJfgbIItvDagfMBtYt/qy2RLLvFIIIItsDbTFINorlfPURL3GuMTKpN4JY9rDaYoQisgFWG4wIiJNFrzYqK8dWoWVeNjLApufhl4XCGotWPVfWFh30sUJitCUOZrDCXZDE4QxWuIuOOJzBJsHHI+UWsVrDQLoMXlYIIjWblCWR6mOMxQqJDvro2GKlQgfu5oJGZmWjAmIZZmWjQreGViEmUR9rGaCTQKcm6BGLwPUJ+9jkyyNWPXTyk2nC5JwM2TkB6N4s2rrzML1ZbPKNYXqzaIM7x15+HnGYlKXE9GYwxjp3qF5y3lJhwj7GgFUBJnTnZFVAHPSysk3KWgbYIHmvBj1soqS2oV/uu7lsUk7Oz/Zm3HEYi+27MoDtz2bn58runGx/1j0Kge3n5yRn83Oy/RkXW1pKrHdOcmYGJQUyDLG95JyCABv2asphfk5hDxsEhbIUYHv9/Px63jkVzsMrz3jnNJOfEzPu2BHCK8u8LCX0Z2rKCrbaBl5+Icwug+ScCJKQFpVy6P7A1SXnVCj3+qACBzZ6fXdjC9w+UzmRX56ZzeU4M7OkP7pR2OGcZornpC1oqfLzUAH0+mjj3mP0iuekLU6pEhbPSVvQ3jmJ5JwATK/v9gEI7zzEjCtrA6afn5OYzc9Jz8wSW4gRrj45p7SshcL03WcRKd38AEoh+v3k/AJ3DBZEECCScxJBgEjOyQQhJghdn7CHyM7DlWObnkdejpNzkt45yfScrHu/aeGVEXnZgkbkZSGx3uskvdcpKyuFTLIXiiAolAvnlJbDEJG8TibsYZL3mF+2vX6hrKVy5f5MduzpOcUWzMwsMX5Z5OXkdUq/FzSyeH7p+0241yl976Wvjf86GRVit9qGHc+/ELNsK0zQd9+3QQ8dhMQWdNAjVu71GKie+25Pvsu1SMreOZlefk7GO7+oN+t+R6x7Hw6McO//5Lt8YASDMH3NJHPBLHMxRFYShTPMxTBnJLrnzmkgFDp05zEgYKDc5ykSAZHsYZI+AxkSactABAxESKRhIHsMCFxZhESopNwjQhGnZSOJY4hVn0gL4tgykH20lejYME+fQWSxBubpoyOLMZaB6KMjg9EwMCFmoF1Zh26NoAWDOABt0VoQxSopQzznZHxGC2Lt+phIEBu3NjKxWyfJ2GK0wsTSJSXRASJSDgjGAVYH7qbvXA9iV0/UQ2jpwsVEIUHs1nti0MvW3zLquUcLMnJrM2UschCirCE0miAK3A1rKwgj5WJjG0EYpXeXBL00kY019BMKHhpNEMusPkgSgCgDgQYpNIGBIF1na5dcz4311uvGZjfAe8ZkyfZ6Rudl68pGGvo2zjyLAjUALFYZekSJCMESBnH6tUcoo0RCCmFo3Pcc1v3cKJVcEwpQAarfJ+gphAoJwoCw70I1hbNbEfb7yN42LFuxHc97+dH0ZpcTziwj7C9Dqhl6s1tNr3MndE5TS0yO+Te1zO655x4+85nP8MEPfpBrr7228DeOTZ/ekl166aVsu+222d+uu+4KwNF/8WQAnvrsI3jqs48A4LhTnsqTnrEagBPPOI7DnnIwACedfQIHHv5oAE591V/wyINd0Mkz3/B89nzU7gCc/ZYz2HnPhwJw3t+9hO0f6iSfr3v3uWy9Yiv6Mz1e9+5z6c/02HrFVrzu3ecCsP1DV3He370EgJ33fChnv+UMAPZ81O6c+YbnA/DIg/fm1Ff9BQAHHv5oTjr7BAAOe8rBnHiGS7zypGes5rhTnjrxc9r14bsj1Qzn/d1fscOuD0WqGV737nPZZrvtmFm+tTun5VuxzaqVnHfFX/Kj79zJyh1W8fI3PR2heuyy+46c8fJHAbD73it47vOcWnCvvXs888/ca/TIvTXHHbkBgAMesYGnPv5ekAGHPvIennTgXSAVqx/5O1bvfYc7171v57EP+zUAT3n4j9h/B1c+do9vs+9K1+eEXb/CnssdMP7znb7Iw/p3uXPd7nPsFNwDwEu2/S9WyfuRRnDe8s+wNXP00JyvbqSHZmvmeb3+HwAeYjfwuvVfB+Bh+n5ec8/3AHjE4D7O+8PP3Guz4X7O+e1vAXj8uvW8+I67AXjyPffzgjvuBWE49vcbOfkOF9/jhDsiTrjDLTqec7vlae7Qee5PAv7kt+7H75TvL+Ogte7C4C+/uZJH3RWihOYFX9uRPe+eQQnNc7+4NzutmyEQmud8/iBWrnf9T/j0EczM9QlixVE3HI2KA3pzMzz+P08EYOa+bXj0Z57lyvdsz56fexYBhuV37cxO//MsFIbZtXuy4ibXJ/j1o+nd4saKXzwWvu1eQPOzw4l/eAzSgv7JkUQ//VOUhY23HsPc7S7t+j0/Op77f+PSw//u1uew/ncHIg385ofPY/3d+wJw260v4P779gDg1h+9iI3rd0Ya+NZPX0a0YXukgZtveyUDvRVW9/jyr16Btj2ieCu++NtXALAxWsUX7/orhIF18UP58t3u8/THeHduXveXbv/RPnxt40kIA3fo/fnGvDunX5jH8u3IndNPzeF8j6MR2vIj8af8iCMB+J44hp+oPwFj+WbvRG6X7py+1v8LfhUeCNpy0zansVa5c/riyrO4q7cXDAyf2+mV3BPsAsBnH/Za7g9dHNUb9n4zc8E2xLLPp/d9C7ENmQu24dP7uTtG94c78LnHvMk9jzO78r+PfhU73fUt7tlmL27a/68BuHPVAXz10S6V/R0PeRzfesxZ7px2PoLvPfo09/zudSw/etRJWG352b7P5Gf7PhOrDT/e/7nc9vCnA/CDx76QX+3xpwB89wkv47e7PQGAbz/5Vdz10IMA+MbTLuCPD3Gf6Vv+zyWsW+les68960o2bOW+A28+5b3Mz2yLDmf46l9eTSRnGCxfyddfcDUAG7bZmW8+/x8AuG/7PfnuyX8LwLpdH80PnnWxO9e9DuWnJ/4N1lj++KgjuO3PXokxlt8/5mn88piXutfycSfy6z91oSjWPvFk1j7xZKyx/PapL+T3q93r+qunv4y7H3uMKz/zr7ln/ydjjOWXz72A+x7xOABuP+0S7t/9Ma784r9nbueHA/Dzc97DYPudXfn8a9Fbr8T2Zvn5+ddie7PorVdy++vcj/X8qp351XkupMX8zntzx9lXAjC312O488UuM9rGRx3G715woXsODn4yfzjFhcW4b/Wx3POcl7vykc/i3v/zQoyx3HfMKdx3zCnuuTnhDO7/02ehDaw76eVsPNy9Zvee+hrmDnG/Z+te/EYG+7vkXfe+/DKivQ9w5ddchX6Y+46/58KrMTu49+F9l30Iu80q6M9y32UfQs7MYrdZxfrLPwSA2/TTeQABAABJREFU2XEX1l/kXjOz297Mvf4qANj3AKJXXebqDziM6Ow3ufJhR2LOOh8lBfaI4zCnut85c/SzMX9+pisf/3zM8e63zfz5mZijn+3Kp56LPcL9ntmzzofVR7ryORfBge43zL76ctjXnZO98CrYfR9Xfus1sJM7J/v262DbVTAzi7jyOgfMtl3lyuD6XXqNK+++D7wpOadHHgDnX+7KB62Gl74evvFlOPSJ8OLzARBHHoc83Z2TPPbZyJPdOclnPh/5THdO8uQzkce6c5Knn4s40p2TfMn5iMe7cwpfeRHyIHdO4esuRzzSnVPv4qsQe7hz6l1+DSI5p/4/uHOKwlm2epc7J7FilSsD8qG7sPxt7pzknvuw7M3unMQjD2D29e6cgoNXs/xVF7l9Hn4ky17mzmnmqcex1YvcOc3+2bOZfb47p+XPeT7Ln+POaau/PJPZP3PntOKsc1l2lDunFeeez+wTj0Rb2P78i5g5xJ3TQ950Of1Hu3Pa4fKrUMk57XLVNYQ7u3N62DXXoVauQs/Msuc/XoeYnUWtXMWe/+jOKdx5F3a/6hq0Fcw8fG92f5s7p2X7H8DD3uLee8sOOYxd/uZNAGx7xJHsct5r3HEd/XQe+tJz0BZWnvBsdjjdndMOJ5/CDie7z9NDX3gm25/4bGILO7/0HLY92n2e9vjr17Dyye512uuCN7Ht49znae9LLmPZ/gegLez791cx83D3eXrMmquZSc7poGs/RLhyFXJ2loOu/RBydpZw5SoOutZ9nsKH7spj1lxNbAUzD9+H/a68itgKlu9/II+45HJiK9j6cavZ+4I3EVvBiiOOZM9XnU9sBdsdcxy7n30OsRXs8Mxns8vpZxJbwUOf+3we+tznE1vBLqefyQ7PfDaxFex+9jk85Fh3Tnu96jWsOsKd094XvokVyTnte8llbP0Y9zql56Qt7Peeqwl33gVt4TEfyM/pMR/Iz+lR7/8QsQW18y484t1XE1uYffje7P129zotf8wB7P6Wy9AWlh96GA97/ZvQtvg6bf20p/OQM17Cuq/cxIqnH89DXuBep+1OOoUVf/F8tBWsOu1FrDzBvfce8lfnsvxpxxFb2O4V57P8Se6ctjv/InoHr0ab/L2nLWx/2VWoPd177yHvuAbxUHdO2/9/1yFXrML0Z1m15jpMfxa77SpWrbnOKVp33IVt/i75jtjDfZ60BfWoAwheezmRBnPAauQrLnKA9fFHIl9yvoOOTz4O+4JzHbBMvveMBX3884n+7BS0sQyefSZzT3022sCG553DxsOfjjGWe099DesPdr9Pv3/hhax/5GEYY/nVCy/h/t33xxj42Rlv5/6H7IUx8L0XvpON2+6MMZavv+Bq5mZWEMs+N520hkj0metvy//82TsBuH92R/77SZdgteGeZbvxPwf+DVYb/rBsb76017lYbVk7ux837XgmDAy/6h/I15adBNpye/A4viWOB2P5qTmc78dPA+DH80/mJ3NPRhi49b6juG394135D8ex9t6DEUZw62+fyd137480gtt+9lzuv3tfpBX8+nuns/HePVEGfnfLS9DrdkZZuOdL58L926GsZXDjq1FzW0Pco/+ZVzpQOLcV2/2n+/2fWbcNu30m+Y66ZyWP/NzxBEKz4q4deOwXjyQQMTuu3YHDv/JYAPa84yEc9c293Of2F6s45ns7AfCkXyzjuJ+4zKTH3tbj6bc7KPXs2+Fpv3Gg77TbBjz5LpcC58W/vJfH3+PiqJ1zx50cuH49AOf94WfsEznxyavu/xa7Glf+a/2/bI/r8+rwv9hazNEj5uWr/pOeiNlKzvGSXf4DgJW9+zlt78+576vl6zj5MS7Zwa6r1vHsQ34AUrHnjus4/k/uABmw7x4bOO7I+xEq5IDHSI5+Wh8he6x+4vYc9X/2Qfa24knH7IcQAVYt5+nPO5In/dmfIFSfE194DKuf9gRUb1tOfvmzOeiJByHVDKe9+iQedch+SDXDmRf8JQ/ffx+kmnnAXucu9Jx22t29j6aGCzWgRvybgtXMrr/+enbbbTeOPfZYzj77bM4999zs7xWveMVYc24xyUcGgwHLli3jox/9KCeeeGJWf9ppp3HPPffw7//+75Uxu+22G+edd17hyXnjG9/Ixz/+cb797W/X7md+fp75+Vxsbq0ljgY8a/WprLvnvuyOQxxrgjDAWouONWEvcGqPWBP2QozWaG0IeyFaa4w29PohcRRjjKU3ExIPXLk/02MwH2FtWh5grbvTMD83QAjo9dOyu2MyPzdw7gK9gMFc5MphwGA+QiqJUopoEKGURKblQCGlIBrEqEAhhCCO4pHPqT+7FVobjDaEyTlZY+n1Q6Kk3F++FdF8jLXuXKNYgnV3W6JIIoI+/dnlDOZjZNCnNztLFCtUb2vCmR6xDpH95YS9HrEJkWGICgNi4x5Vf5bYhqhQIQNFbHuoUCBUgCZEhQKkwogQFYIVCiNDgsBipEKLgCB0CikThKhAY4RCK0WgYiKpMFISBBEDITFKEsgBA6WwCAI5YF4pjDIEMmZOCqy0hDJiYyCxQhOoAXPKaf6ViphTAkSMEjEbewYhXXkQgCRGJuWAGCE1kbIExEhpXNlYhNCYwNKzLhahUU4xKKTGBk4xiNSgnGIQGSGUZiszABUjlWY2NqAilNL0I4sIBygZE0QKggGB0PRjgQjnnHowFohw3ikGY4EM5wmMu3uqwnmUsYRaIIN5lAGlBaGaByNRRiDVwCkGLUgZIbVy/WScqP+cklNEAQqLkBqRqA6V0IgozFyU/bLWYeLObLFRj4AYZS1a9+iZpBz3UWLg7krrXqEcyAFCC7QNCRlgrMCakEAMsFpgtSIQEVZLDIrQRi7AtJEEIkJridCgRIzWChAEJsrUggqN0QqwKBMTEyC0QaGJdYDEIHVMTIjUERJDbEOkjZGDmFj0kLGrH5iQwA4Q2hDJPoEZYLUhln2CaCMgiGxIaOaxGmLZIzTzaA1GhqhoDoPEWEVgBhgh0caVtREYkZYVVgiUibKyjAaZWtCVQ9AGaWK06kGsvXKMtNqVo6Qc9GEwQFhDHMwgo3lXDmeQ83MIa7MyWHQ4g5hz56TDGYJoI8YKdODKqUJERXNOPUiAiuaduk4GyMEcRiqsDBCDOYwKQEhkPHCKQSuQcZSpBUU0wAQhWOteD9kD614bE/YROsbGeVkY7RSDgwhhDaY3g4jy8xPJ+ZneLGKQnFMwixi4c7K9GeRgI9pKbK+PnN/oFHVBD+byshzMORWkCJDRvFMGSoWM5p0yUEpkNHBKOSGxg/lMWSfiyM1nDSaKnfrOGHcuYR+MxsZJOTkn25uBeICNNbY/41yQjHFqwME8RqflOdwP1CzMb8QgoDeDmN/oVHi9PmJ+IzESwh5ifs4p9YIedt6dE0GAGLhzQilXDtx5mPm8LKJB8ZxCd04ijovlXh8Ta3d+vT7EyTkVzsMrz8zCvHudXDk5p5lZzIaN6a1+mNvoJBn9vitLd07Mz5XK7pwYzDtFnFLo+XlXJyREg1I5UdbFkZvDGucL6Jd7fXSsQbsyOnYy2uQ8MKZYTs4J68rRhvyc3Hm0nFOvh95YOqc0iVdyTlooVw4C12/gzkmTnFOqFozcOWmTnod77xHHzqVNa3QcI/p9bOzOSfRnXLB84z5PduDKYnYWO+fOyZXniI115Y3unMTMTFKWiJk+8Ya53JVuLimH7r2npUIEAXbenZMIFHZ+3ikBpSSeH7iykNhokCnrbBQhktcmimKnvjMGG8fIft99ZrQrm+ScbH8Gk5yHnPHKs7OY+fm8POdeJzk7i0nOSc7MYDZuJBZODWg2utdJ9nquv1cWyp2TSc5DKJWXpcQMBtn52UHpnPzz6PVQVufnpPNyek6F82g4p3BZ+zkhJHLGnVOgSucU9jDJey99nVRQfZ1sck5K1r9OEp2833rY9L3X76O0+zz5771gNn/viZn8vRfMzrr3iTWImVlk8r0nZmaxyedJzRQ/T2qQf56Ym3PqI+/zFPaK3xEqyr8jVJx/Ryidf+8pHTkVqDUoHSP7PaQ1BDZG9GeQVhPYGPozKBM7NdzMLKEdoITFzswQ6IhAWezMLIGeJwwFpr+MQM+hQoFJ6lVPYXoz9OQAVFJW7jfG9nqEKnLlmR6BiLFKYfs9AhljeiEmDAlUjO6FWClRShMHIUiB7BliETg32LQcWFCamAATuvJABugwBmWYFwEojQ41sQkwQYwODJHpEfcirHReEzpIyqaPDiJiKdDalSOhiPQsg55OPDv6zIUWbQIGeoYotMQ6YGBmGAQwr2cwOmC9CjE6wJqQ+2WAMSGR7rFe9EArIt1nXips3MMYxUZCglihrWTehgRaYnRATEAvCpKkJYqZKHBxC+M+swOJ1X2sVSwbSLQJwAQsH0BkQlQcMGM0etBDGsFsZIh0gIoEfRsTDwKkNgRExBsEwsSEeuCusaIByswTDUDG80hioo0R0kaIeI440oh4A0JvJNqwEUmEnb+HwYb7kSLCmnni+XmUiDHxPPFgI0q6a7p4fiNhL8iuAwOl0bHGGEvYD4jmNlSuCXszYeGacH7DfZv1de5iXrtvtfUyPv71Dz2ok2ekyUe2+eZJCDNi8hE5y7qDP/Kgfv5Se8QjHsFxxx3HJZdcwrJlyyYy5xYDBgFWr17NYYcdxlVXuTuMxhh22203zj777NrkIyeddBIbNmzg+uuvz+oOP/xwDjjggM7JR6ZZiUGqmaF90viATXV5/MD8sTczy8lnHcJH/vG7xCZAyH4x4UhveZZ0RPSWkcYWbI0vmCYeUUng3XJG4iTG4EKyEkNerstMPCwrcV1G4tpsxKX4gkAh8cg48QXbYgsCE4kvmMYWBDrFFyzHFgRq4wuWYwsCWcKRLrEFmxKNwBYUW7Amnl8ltmApFmAse3z1ES/lcT98F0E0Xxk/NF5gxxiEsLDYgl2zDi92xuFJxxVs7ruA/dTspmnfo8YXnNQ8C4lrOG4MwknEGxw7rFKvD6+4CK58IwzmJxIXbiFzjBJXcCFx/hrjELbM2do25Plvi983LJ7g0PPs8Hx3jR84idc/HiMr8kIsGCHDcJt1jV04LEtx3Vyi32e317+JX771TcjBfMOY+vNo2l9d2Om2mIONfbrGIaxpb8p87OIJCq/sPWbxBvNyHmOQQuZiF18waevJQqxBPxmJkALZky4jsSqWRVJOsxOLNEuxEi5TceiVswzFzsXVhkkiEgkmTB4DF33GZSgmyVhsiZNsxXHgYgq6R4uWECv3GCmK2YoFWXZiP0txJFQSZ1ChkcRCMZ+sYOcIXaZiq3CavCRDsc0fNQFzpkdMwLzpMW/6aKschLSKyDgwGJkQaxXGuLAy42YllloRREFSp5BGoAbJY5TcjI5EtkaVkXVr0bnYwe0odl+iUeSg/2AARrubNzrGRvPJ4xzoGDPYgMtavAGrI8zc3SgZ8efP25n/+/6fMpjfiNWD5M993poeUytvN9WV7cGS/XialThnK1t/++SxwOB9B374Qf38pbZ8+XK++93vstdee01szi0m+QjAeeedx2mnncahhx7KYYcdxpVXXsn69euzLMWnnnoqu+yyC5de6tywzj33XJ785Cfzd3/3dzzjGc/gwx/+MF//+td573vfu5SnsdnbJECgv10GhOm2IeTrX74TQ5gAwHooSKLsmdrUpja6SRuzx28/j0xiXk5taktpXTIKj5vBeEmzFccx/Ncn3OMS21JDwaltmRZbMTE4uFhm45g/fuoTTvE3tUUxl5l4qY9iaotiMnDq8+RRqNDF11UhAhC95dh4PbfcfC8GJ9gAlxTS6h5WD1qnt3q+cM2XAsG6usqhedeeDxZIOLWpLcSOOeYYvv71rz94weBJJ53E73//ey688ELWrl3LQQcdxA033JAlGPnlL39ZoMeHH3441113HW94wxv4m7/5G/bZZx8+/vGPs//++y/VKWzWNi4QLNcPUwq6xx5WhNz6/T8WlIJTe+BYmp14aktr0hoe+sdvjTSmnCV4alObpC0mHFwyM9rFGJzaFmtKTGHnZm9ac9/NN7nyNNTUg96kAf0gg5hW5R4sw0wohTXaeVLpEkxXAego6ecAodA9bAA/+cl6rAgzQGzNPEL12o/Lg4JlIOjDwLq6sqXXo1NA+MC2cZJ5b4IE4FuMPeMZz+DVr341P/jBD3jMYx5DGBY5yvHHHz/ynFsUGAQ4++yzOfvss2vbvvCFL1Tq/vzP/5w///M/X+Sj2vJt0ipBv1wHBQHCnuQvX7w/H7z6J8SarC1VC05tyzaNnMLBzcBi2ePLjz6PJ3zv7wg6uHNMbXyTUjS64j7YTMkFuOVmc4wOBxeqGhz7uPszLhnJ5ee7mGJbgD3QIJgSdqg78dSabXNXC4LLYL3HWy7j9je81sU7ndrUFmgxD0CyqFQ1DokKXJxaFWSQMBVkWJNvhyGcfOoKrvvAbxo/YlYPEKqfwUD/0c1TBYRlEDgFhFObgsGF2Yte9CIALr744kqbEAKtR3AfSWyLA4NTm6x1AYKwcChYHdsjjg2fv+E3aBPUqgWnbsRTm1rJxpC0SBPzyF/8P6SZul49kG1Lg5JL6va7GBYN4KP/5B5ZOvXZKG7Em6NNAig3zj1VBC66dY0vOK7ZaMDv/vn9LmHIA9ymyTc3LwuEZnO/tWqlRJS/QKVyQNAzoYIMBro+AQKwuO/f//niPFouQ6j8CzN1I07FHcPgoOvbb4WDbfXFU5gCwgeiWSVcYrRRxky/GDMzdUHIF2hT7jq1odYE98aZoyhF73P7z1xmqmqbP3YKB6c2WXsw3XGSGB5y74+QD0L1ppwuIKa2qcwY+MG36rPFTG1qY9iWoODb5GYM67/zrYl9zrokHpnaA9sCtvC7KSOYUJ46UtZrg6yFX/xCU5eaNI056ObqJY/13mH1+1/49eTUHjhm5Xh/U6va3NxkoPn06d3CTaqZBf2lliYFqfsb1i5UH9nbprac//WyPxlujZB9erMzvOSvH01vtpe7EJeSjggVuh+vUTISL7I1ZSSe2tQ2R4tln88dfDGxnC7IprblmdpS4G5/Bi692j1ObWpbmG2OELIO0MmZGR7+rquRMw+uz9mW8jW4qc0s0lVsIEbzsJA1Qf+ETOpkFTxa5eqMTB/z8UaZQp1VNrnWsNg05p9M5xHuzREql5Ia0jTV7k+p5PpIuesjFSDCvntUAYQziN4ssrcMEc46V+KZkDPO3Jr+suXImZXI2ZXI3nJkb3l2DSfDrV25t1XyuHXh+q/tmrDuGrH+urHmWnOB17zjXB9PbWqbq2mtefOb38wuu+zCVlttxc9//nMALrjgAv7xH/9xrDmnrsQdzX1RLP3CaVJ3W4bNM6rrsL/tK/+yO0qy2CZUiBE9PvnxuzDBCmSY12dAEKpAMKtrgILpjx94P4bSe5TY5BEpIVTZD6tVwt2NSB5HNStNAgsNRmm3XSgv7K6kEJO5qxkTOH8BIPMdoPtCKK67n+DN46IiK0JbPF6dycWtN8AbKAED6cdMJ9uu3uYrY7+MBSOSWxzpfBAHliAWyGRug8iO2uACVltJpqGTyWFbmT/mkc3zz71rE4jkGPKn0SY9RfZ0YCxWCYS2ud9k6stWefSPDugl2wOTzOe2rTbZGKGESxKSjBXJ2OxotUUoidQRj/3ZP6FEnF9pJePzs0+tWYVhk/mG9asbJ5N9GW0RyWtnjX8MRSsckbaIdBFsiipAYywqyLd1nM+f7qPc38tPhTHU9C8eiynts26etB9Uj8/V1fUbfWx2PKWnLXXJrTvOOkWMrpkjnadOZTnOPFCvxknHQfvFru9mPAwOluMQdr2IbnJlbjru+n0nhWgA731b5koM3ZVHTe6tw8bXjQtb7o2V3Yzr5i/PWX4ufC+1tvGjthXaG95rAEHD2Dibu/7JTGMPDt13y3OubfP+y8eyUNVZejybEtgt9Ji7PDej7Ku2TzRg7Tv+liCeh4bnpu44mj7Tdfso11W2O6gMy59Dv71Q9uaShXqR1aV90rKUolKWaVnm5SBw2yIpCylQgUBKgQrdtlACFUqEctuyJxHKbftlkZRRAtFTSZ1yJ9Nza2mUcH/JetodWLqmFrWqHysd3DMSrEzWa9LdgDfCPYJbD6YQ0NR9t9S4I5qaOj2GHiYQmtgWL5eV0GirUEJjkhiFbo2ukNKg04woUruDlxqMxArt1jNGoYMIFYfu+gCQJvfrkNJgkMRoAkAisca69hAUAoNAmHS9JPMVqzEIYtfRLWDcSltqlyRLKudKPJhHqBh0jJUxQrnrLWMG/OeNA7ScRfRChA4hXI7VEdYMsIP1wPLMtdjqyJVDl6QEtkratk7a899E32W4zn24yaW4LrvxMBvmnjzM1CKpG1VvCh1Tm8YYXJi99a1v5QMf+ABXXHFFFm8QYP/99+fKK6/kjDPOGHnOKRjsaE7ttulchCYpt+4y16jZht12MwAs1CWQL9vuLU/69vjdvSEioBYGZmMTAOi2S0AQKlCwAgShMxT0zSqyO3SZSrCkFhzVrDToIMIq7X6kRzQpR38PaquYN32Q7kdStQDGGFXldqkl2ypxu6gEbK6Bg26McWDOWm++ejioVQInUkBYgoNGgZECaSzKkKykHRw0CqS0uKdIMOi5cgoItQRhHGLTCQAsYC4J9U9vDghTcIgPAP3T9gFhAgWtBwVbISHJQeRH1AwIk3bhjbUUASEJOFQKVs39EhSgVAYX08zDomb/QiUQMmm3PogkyXSXlat9C+OkwCYERnntKIHpEPBLeeNRFMa4tryv7JXj7Al0XO6fb0tJsb8U1XjdksIYN67arzLXSP2qnnF1Y51VnzNJvWedVKIWftUdA7i3SF18t3HmoWEuN597bIsxOGyO8vENm69pHwvOfJz9bhj4xa2luuGWsv5RLf3qGKV/GzTMOw5pH3ZuLa/XsBh/3n2LaptqboPh7xcfsMV183vPZVMCk2Kf+v2U+/k2SnzDUSDbprBR3mtd+zZB3LIVnwuN/dmt7uLFg2ZdjqFznWzv0wb9areHwD+/3oeA6XYK/8rbdTDQf0whYBcg6EBgAvxUvk26nbShZAESMqPcQaWAMF1PhzKHgoHMYKAJc0CogxQIOihopLupa5IyJJAweZ8Y4dZxrgxa5OXU0jrtLV7roGGTBejWZCR9Oc8GvaxQJ6XOQKArS4TQyS+1zNfD0iSZf1W+/o9DjHS40kiTLXmNkUlZJr+xyRpLCogkhCAkqEhgQoGQDh5m604AaRAJGEQphNZgDHYwAKMRUjlQqGMXg9AkkFDH/O6+GLEMlI4T8BchkpiEdmZFls04hYVAAgwpAMPCdgIN87oqOHTb7XBwmI0DEUfdx0Js6k6dmxWMtF7KxkwNgGuvvZb3vve9PPWpT+UlL3lJVn/ggQfyox/9aKw5p2CwozkZ8+Lcud3UELCtXxv8K2+XVYCu3AwBC31USC+EM04LeN8HYaBDCjAQ6oEg1KsEoR4K+kAQGqFgarlqsAoF6yx1Iy6rBTubNFgxHiQcZjrxOVA1SsAuqsECJEzN2w4wQ+GgFgHKWqceFKY0n9vQCSeTFlQa1CRZHWmRCAJt/pgqBo3EAcJ0gWwYCgiRFmscIESSlMmgoA8IffWgDwN9QOjUg0CiIswhIMnirAkgDjGlkit/3JXujMqpx8C493kGBEuQ0Id2GCLZ58b9L+QpP7iI0MxnY0XqkuKTifTKVdsMvNukr9UmU/iloDAvF/um8/pQMWv3FIPKq0+PoawqTM8tPacy3KuDhW6s25a9ZF5TfPZTYFgHC4v9ya7SfPiWXsAVx1b71c3XvR81/fJ3T934yhxQ39/73iucasM8/iddd5inba66Ocvz5vNX6xqVfh3mq85f/DSOAxcB7Mwsg4uvRr3hTMTcxs7j/fMbZd9Nr0dj/xboVugXtPdJI/42JTnxQ1jVAr7Sdt2xtwG4MnSptNe8Xyp9ql0Kx9Gk0vOBYnc1aN5xS45d1wXidYWZoyhyy8+ZmJnlIe+4ht+feyZ2bmPjc7qpgR80Q79qW0tdCQL6ddLfHgEGCum+52QonSowhX0lhaAPB2uBYJtKMIOBqVoQbCgzpWAZCKZKQbedQ8E4KRuRQMIEBhqZqAYFORyURTiYAsBRQGCbBUKjE6VgQIwmXVO7eiU0xuZ1JlEXiHRRiXMntkbhuxNb41SDFjLVYKoEJAqRQBxGBKRlkFpkykGNwRqBQqKxSCOQyS1hkSyUBSFEGmtMERAag0jvRGqN1U5FKJJHdEwoIl7w9Nt5/6d2JZo3oOMMCpKAQqAIC3UE4fKsXISFqbpwudfXA4KZ0jA1Hx76tnVNXdHSBChdrCkRymKb6E3BYGpGNgq/G20KBnO744472HvvvSv1xhiiKBprzikY7GgLBYOL8WUzypztwWCrST/qAGC5bRgELCQN8cpp3MBYWP71kwGxEMhesr+yu3BalwHCUizBOpVgVl+jEoRaKOi7EPtQ0Le62IJNNpYbsTTUxSKZpMXeIqZQVwB6rhwkfWIbNMLBWhMOKgZWo0jJW64exLqFmxIWY61TEnrqQQcKrXOVyW+UOuCXAcJcMVgHCF2TyABh6qriA0LXT9RCwbKiEKjAQJvCv1J9AQJmfYTbQVcVYcHS9zRjQcJAx/zJ7e8kDDQiXUWX1H9ABgt9UJhBvSHwr9A3K6vufUuwsE5V6CsP/bFQAwuT56u7urAIC9P+6TFlY+oUcg0qw+rYKtAbRWXoxlWVhuU5m/ZV7b9weFg+njZY1QXAVd2m639zuwLAMlTsAt7GgYsAdjBP/+9fh4gH2ftzXMg4qoqxiwLT38ewc+oCEdOf5y4QEbqBxLr5hr0ew0BhXZ+6/uMCxdo5O0DGLc2Gwbxh0HNcKFoZF81z35tfSxjNg6w/rrp9bWro19bmfz+XlYB+nfTrGkBg+ttZdhVOYWCTOtD9VV2GOwFBKSDdTtfSocyBYFJngmJ4HuMpBE0GCLtBQeN9jny1IBRBYNl9OBL5Cx+Lrp9g7zUjzm6AK6G9NXSMtgqZrJMNCilMsgJz7sTGgLXSreuNqwcSl16n+LNKoyGDg2m4lhQOSqkIoiBzK5bSEriVNYQmURACqRLUcy3O1pcNgBApk/WjJ04wGq1jPva/e6KFcvsIydSEhLhHcFBQ52AwBYbC5PAwdUEGMlgIZWBIUi6CDCurENCqZkWfy5Jcn8TS75PaqNflk1ITlq+pH8xmJXVOMO1jpmAws/32248vfvGL7L777oX6j370oxx88MFjzTkFg11N9TqBwcW+2zAaDGz/gqwFgg0Q0JXDal0TDCyDQPDgXq4MvPs+IAxK7S1AEBiqEoSJQcE6F2LfymrBNvPdiFttCBwUNUGOy5bGPvFt3vTpJ+7E2oOBQRkSgs/pnGvFCHAwRhJgKupBUEQoQhJg6M1hUo6VqQbzwb57MUCqJnSg0HcpBk0CCK0bnwFC6w7aB4QAQeyDQFGBgmm5rCLMrYABXWmYinBUSFiAhelVR3IQLZCQBPJJBdvo35G7EqdwLZkqvYrNaEBOBRpBYdY+glKwRoHojqPe/RjaQSG0w0KoAYbp57oAFPPmqroQqHFHTo8tG9cAyvyrwrLaMB3f1d047Vs3n38M5ePoFguxOk8FQtb1naBaEMaDiV32VbfPrsCvu6LPwO9+5b4S0ov9EfeV77P5eW2z4vk1D+wKErscf5u6r9Av6NYvLG1X4iKOCBKh+/GX56sDTF3cgesg4wPF2gDfMLg2ypzNr4OBO3+VzV3nHr8Q6Ofau4G/6jivrQb++X2GQUC/rqwUFB4cbIOBZXVgnbtwbQzBNiCopCv762gpsKFXlrk60FcK5grBtNwdCpbVgpB7lPjbvrXFE2xzFw48AFjXluKhNM6ge22q7sQACJOpA/14RRaSO9gyOVYK8QYhW+oSQwYHwTgFoRIwUG6divOQUMkPT+panKsHcfAQsEo2A0JIIKHi7vkAZvCUhArCPlZrhMrVg075l8QnZDZTFIpw1oE+FbrVvI4QLMtdkD0vsrIrclavw9J2VHvdmsK+JuDmqxFHAYdlGza2q2VCmKlNFYMLtAsvvJDTTjuNO+64A2MM//Zv/8att97Ktddeyyc/+cmx5pyCwY4mZD+78N3U8QFG+TLq0rfuy7PqMhzWtqUg0M1TDwMLSsEaGOj6BoSh4cUn3c3/938fQmyrikHXvwQEoagSzLZlSTFYjScIdIKCqflQ0Le2TMR+0pE2W4jrsLWyEQ5mi5QSFPRBYWxVIwxU1LsSB3VxBYtiq3pL+J5GooRJ7nPm6kGDcDAvm8xXDVJxLzY4QJe7Fbv6IhDsBgilEcSBm7stDmFBUeg2K27GTSrC9Mkp48PaZCVtT2kZEvoAsByPEAoxCSPR5z8f/iaO/fmFhHY+VxNmc6sCTCvHKCwrCmE4LGwCheDBvyFQsdDXA3wFUJgcZxMs9OcoPJ1+nxIszNvz/l2AYToOqKoXqYF9HhDs6pZcni+1OtVh09hJuSw3gcO6/Y4D+Or20QXsdYVqXWFi1/3b/iz3XfYhtn7tKYj5oivxKIq+UfbZZl3iLnZVKI4KEt2cLf1aYFyl7xCgOI4qsW3fw85hXOVb3b4WwxZyfCPtp4G5dNl/l1iXZUCczTszS/CO64jPfR4kLvuTBH/++K7gr9y3TRkoS21lCFju46sCx4WBBQCoatyFy0DQjyE4DAimKkHPbbiwrvagYNGFuB4KuqQjzVAwVQv62Yh9N2IAjagoB0dJOlKGgm2g0LeyO3HK3WwKBMtuKEaRxh10xwgiiy3oLC37MQezhW9PZ3DQKQhzOFi4u19SD5K0IGURECZ1vZ7lzCfewjX/fQiDgSJNWAIglAb6DgBm12mecjBJYgIgdJirAGUq+Eg+2Z46UCQAsAwLBfn1ph2sb4SChWvOQluiYGy4Lq6DgF3VfEXX59FsUoBxalM74YQTuP7667n44otZvnw5F154IY997GO5/vrredrTnjbWnFMw2NFkbytkvOk+zCPBwI5fZPUuw2FrnzoQWBg3CgyEAviLtOX9n9iJ2Eoq8QMLfYtA0M3pqwZHh4JZRrQaKFhONuLq6hOOpGrBOhvqRtwGDzuoAiv7MwpZsy8XC6U+43BMQODBQO3FHgxEXElGktX55in/MrWgv38hc4Vgdm6JerAUe1AL0e5ebMFfNaXuxaoBEKYJS1JAmMUg7AgI29yMR0lWsmAVYZuV4xFCARIGg4in/eYywlAj0rvYnmIPKMLCUozC1ApIzAOTvvovh4nDQaEr1yc1aUp+ko0pwb9RYaE/bzakRl1YTo4iS8i2muwkOe2GBN/VS5PSTYcayl6X/KQyb43q0NU3Q69xXJa7gMO2ebL20nYj/GyBW13AXldQNY5Cr7x/G8+x7cUvQsRzWRbtcY+n+Ti9fXY8zi6qv67JW0ZxdR7FjXscoFjrMlxa0XYBcSHtQHGSMG9zFBJOAiQOA32jqAxb55Fg4zn4mzMJ47nsN2UY+KvvU982iuqvrU8ZABbrim1lEAhFVWC63RUGAq3qQB8Iip7M1IF4kLAABL3tChBMtstuw2WVYPGxBQp25HepWrAcT7AuvmAZCurSJ7FNPVhnfgKS9IZ7flM+dyfOzFcNJmtHjCq6FCddswzFFOGgH3NwGBwUybo2dS321YMFQGhMUUGYfPlGzHDtzYcSESB6Inc1Njr5UnTnLFTgFjtKOUho4qzO6hg/JFQG/8qg0MStsDAdI2aK16apytCHh1lbojwcBgSbgGLhOBtsIXBPhs37fbDZ1JV4fIvjmEsuuYQXvvCFfPazn53YvFMwOKItNulfCOSr79f8BdQGAd2x1IBA6AQDC+WKCjC9c6QYGAthCIh6IOi5DLuxJSCYzJO6DgNV92GqSsG0rikTcbGu6ELsJxwp1ulCXWGOpvqWDMGjWJ3rcF29705cNl9JmN4dTZOR1MYhxMvg5sHBwv5RWRbjLurBcuZiLUQn9+IyICxmMM63K0lKhgBCoBCHsC2b8TAVYW4TUhHWWg7+sivsGUFgo+QKTOVqwtJVr/UgYLavsuuxd9VePKPCbfC82AIK0zmbQOEw1+Oy63AXWAgMBYa+VQBWaQVjTVU5YoxF1UTh13HuIt00fyPIawB/+XHYitout+Z3zqguy6OAQ3+etmNvmzdr98pN2Zez9iFqxGHqwPHcjd2n10YbsQJEh+D3XY+nyUY9zklmgh4HpI7q5jxs/i7nPwwkZv1aEq4MS7ayqa1TZukJ2SSgYdMcbW7GNVwvM4tFRRtBgvC+29rAX12fcdx+y+2yZo5iXXN7ebusCkzrRoWBZXWgDwBr1YETBoLQDAX9JCMurEs3KNimFgQHAx0oLL4JIqEqoDAeNQVqR1NCu5vTnjuxL8ZzXy/+G8JT7pl8DeUnI8nwX3LCqSdSGQ5KZYv9ERisdyNTuHVoEyCUshiDUGsGcgZCkX25ZrEIdaIeNNoBwqTsgKBK2gN8d+MUEmbgkCootDpC1MBC5z5cuo6tq0usDiIChfiGbTAx69PhGntYIpQmE3IKBlOzEuyoS6Axf5fe9a538bd/+7esXbuWAw88kKuuuorDDjustu/VV1/Ntddey/e+9z0ADjnkEC655JKsfxRFvOENb+A//uM/+PnPf862227LUUcdxWWXXcbOO++czbPHHnvwi1/8ojD3pZdeymtf+9ps+zvf+Q4ve9nL+NrXvsZDHvIQXv7yl/Oa17xm6PkEQcAVV1zBqaeeOvJz0TrvRGd7AJtQPYTqDu7G3Ue3fsO/VIbGF2yBgJV91ME+6AYDC/2CQlvYk5x1/G1c/amHE8WJy7CvDoThQDDdLkPB1LyYgqmli5hsuwkGNrgQF+pqYgsOcyPeVNYEC+vMh4KaIHMpTmMLujiDqkirRJJkhBwmBuiR1YNNmYsdFLT5zjz1YDl7cWbJdgb9kgzGmWXbyfhEFVg4KWgGhMku2tyM600snptxo7mjienzn6v+hqff9RZCO1/rcuzm9UB6HSQErNeni5rQWbWfr1BsAoV1rsflfmUrqwDrwF8ZGPqzLBQUuj7VV6gZFg7fR27Nx1WnNMznG09tmLfXgcB64NcMGqntX3csw/p1hYjDVIgwHGqN4m5s+rP87qIPssMbn4+c3zgSVOx6PI1zjHCc3RSE3Y9nXJCa2mjuyQ2veQclZRcX4a4uzaNaV9XhYrkBbyr34mx/Q9hLG/gbpvazM7PMXfEhlp9f47I/BA42uf8Og4R1gM+vHw4Iq3WiBhSmdSkMdP3agWAdDASKdQ3xA2uBYDmpyBgKQWhXCfpQsGx1bsRNpoUoxBjM5xC1rsN1dV1chOtMeRmLy/VAFj5QeycgUrdhTzWYWcmlOBjk15pGmspSV3lPnlEGiazAQa1srh7U0AoIUVmSkjAwnHnwl7jmliOIopA0g3EWi1DrRCWYJyxJIaFIY6g3QEIgB4Xk14UFUOhDQek9x2lm5Jpr4NxtuAoRy/V1asBhMLHO6gBjZY4ScHTHMkUvqVlpRyeDwo7MBj/ykY9w3nnnsWbNGlavXs2VV17JMcccw6233soOO+xQ6f+FL3yB5z73uRx++OHMzMxw+eWXc/TRR/P973+fXXbZhQ0bNvCNb3yDCy64gAMPPJC7776bc889l+OPP56vf/3rhbkuvvhiXvSiF2XbW2+9dVZet24dRx99NEcddRRr1qzhu9/9Li984QtZsWIFZ5111tDzeupTn8p///d/s8cee4z4jDSbsHZkVvugMmMMd//xD5x8/NVs3NAer2ChthjAr9Iuh7gTV1yLqyCwXD8KDCy2ScK+JIplPncdECzUe1DQcx2GEhQcIa4gkCUcSV2I87qiC3FZLZiCQZP8GPrZiPPtXEmYJh+xUruFgEj7uW2kdn+pK7HUCGlAGETSV0qTxC/ReZ0wKKGRUrvHpF4JnfzF2YKlL+czCKiEzlyJ07pA6AwM5nXJNjqvI2/LymivXqPQGRwMyLcVhsAmx5Bsp3BQYRJXYlBYVOJanCsHyWIPusfkqTJeOVEPZipCQFqnHixvy2RlKT0FYlaXbAexyMqi1Ja9VN52ua3ymAKuSrvNrmwzlWFpjH/lW1dXuArVFgvEukfAvPsx9a+K/XEeJCwoCXVTfemnw1cT6objKc3X1C+tr+trh/SrPbaaOh8AFkBhx37ltrqxeb/a6gY35KY5WsDgMGjVAdgMc1dumqNu38P210Ul1+WYu/abxPNT6F8znQVsfxYxv7GyaB1HFTiOq3Fhnx132eXYxjmWcSFn1311nb9NndjUtNDnfrGta1KPUa0N2E3C6qBf277rYgVagP4szG8kqFMFdowf6PedtArQrxO1IFFU2obBQGAoEMwUgTC6y/AEgKD/CFUgmNb5UNBXC6aZh4fFF4wUmRtx+qgFRFJm8QU1MlMMDgiIhUIjiZFoFHNJGrzYKmLc35ztu3JaZwPmbd9tW0VMgE7K86bPwPTRVqGtwqSPJt2W2GTbWokxEmtCrJEOCNrk0bm2IHUPjEQYhdAKFYcu3qBRCCMJomRbK6SRSC2TbeG2jXB1WiQgMF2nOiiYrmlFcnnhr0GFLq07o5iQiCgSgMjdjNMfSq2LZXAQEHJImJbBA4JpfREUura42FZpr3ftra039bFcGt2Dh7gNN9kwd+NK/wQ0zs4GfPCDx7Fy1XbIZlePB7SlbEX//mSwG4cP8E3Moh7y4ZGev9WrV/O4xz2Od77zndn+H/awh/Hyl7+8oN5rMq01K1eu5J3vfGejQu9rX/sahx12GL/4xS/YbbfdAKcYfMUrXsErXvGK2jHvec97eP3rX8/atWvpJUlpXvva1/Lxj3+cH/3oR0OPa82aNVx00UWccsopHHLIISxfXmRAxx9//NA5yjbF1h3NKQbTO3GLIwPulDikBfzVQb/i/DXH3QYCYTgMhGZX4Zo2156oA7H0epbINLgMQ7tKEIpQMDtmT/k0RC0IORSs1pUVg8WEI2W1YJO7cJsJq+rdiavpb7FWZSBwmBmrWhOQ+FaOMwi5ajBVEsY2KMYchIKULSbI3Y5TFWGq/PPdif19NMQeTF2LpbVohCdZcxOmcNC5iHivUUf1YJaVONu2te7F/kn6CkKS/r6CEG/XvqKwTUGYn1OpvhSHsElBWD3KZouDGYI4ciPqEpfA6ErCksSmSU2YuhPXzVenJvTPZxw1YdoXisCwLglJ1uYpBSepKAQHC+tiztW5IQONv8pNcQub9ltob1DyFTu1q/WaYh2OEqvQH9O2ry5z+P0WqkQcNRFJ4R2czGmFQM/MIqM5ROl+60JjGHY9Lt9GcQvuqpwc5RjKOpxJZ4EeNX5k3VwuOkLNe1qNDzYnZZOAdG0gblNau0JweH+/jxUCtlqGNPMIa7u5EI8RB7BabgZ8de7A5TG+GrA8Z/r7kMJAYKg6MOtTAoRuJw1JRXwoOKsouAwrAaEcK6lI+RGagWBWTg61rBwcJelINkZQcSN29VXloE4goG9xXZ0NWtWEbj3dIPlPvo/cQ0usQa/NCl2INUhcvBYrqwalp0R01yGu1VcOprtJXYtJysnBpHsGzyk/WWXTY56IPhib+9Io6b5s0x/dREWIMbmrMZC5GnvxCCG5NkxjEiZqwhTi5W1uAeSrCn0XZKCwGKpVAjaoAwuuyr6Vrnu7Ar9GFtAwPu0vN2U8iKkxGAy45ZZbeN3rXpfVSSk56qijuOmmmzrNsWHDBqIoYtWqVY197r33XoQQrFixolB/2WWX8eY3v5nddtuN5z3vebzyla8kCNx78aabbuKII47IoCDAMcccw+WXX87dd9/NypUrW4/rpS99KQBvf/vbK21CCLTuxgx8m4LBjiZkmF1swuKoBoep/dxxNO+3FVjWtNX2l0Fjn1oY6I1pVwd6T17mSiw47Sk/5Or/eoyL37MQKOgrBaESiKccT9BXC6ZWCwM7JBxJ1YFujhFAYUaoyvUKOmYtHgUW+pYCvxQWxknSkTT7WiB0KxxMXYsDob3toEqoWshVqiSMhQ8bq3AwNZOBQPcobQ4HXRmyWIDp/oqro/xqL12wF7ZT9d1mAgjTM00AYSVRiT867UP1qY7p8dnZ83j6/ZcSUnKN8CGhH0OwCRJ2iUtIERK6tiYA6MFE3z24BP/KbsddYg76/XPbtKAQml/7Ojdk17/+Krop0UlyJI1Kw9QqyVUarBUiNrgdjwINy/uCduA0aYg4fK7h+6ubMw5nWHv+e9n1LX+JnG++A14HFTvtp3xDa0TA2PbcjBpbcBxoNg7o7A7/vHkbpm06x6ZzqoLNyZLCSUC7SXK/xVIhttkorr/ZT3Z/lj+84erMZb+ub3nuYYCve59uILCsBCy2JX29z3MdDPS3u7gLu50VwWFnKFgTR9CGSdmDgiYUnYEg5G7D4KsCi9tAwWW4iwtxanXJR4BMLViuK8cXTJWB3eqKasGuVok16F+IeOt8Cwid77ccaxBdPCbnPpygwGTB665VPDhohPN6Il9XFGMPQrqe9tecgdSctvcXuPrWo4nmJVkMwgQKCi+DMcZQTEjiuRqnUKIECF2/EiSEelAIRViY9sueCB8SJvU14LAA++rq/GOTQ9BIgyKxPH/jPlT51+XBa7GyVK9/hplFAffdd18hnnO/36ffr34277rrLrTW7LjjjoX6HXfcsZMqD+D8889n55135qijjqptn5ub4/zzz+e5z30u22yzTVZ/zjnn8NjHPpZVq1bx5S9/mde97nX89re/zUDe2rVr2XPPPSvHlbYNA4NmVHeXDjYFgx1NqDD/8U3rOoC8zvMPUfv5x9FoDW2NY2q+/KpZiktjaxWAHYBgoc3VRVbx7k8f5LblAlSCDVCwrBZM6/zf5XHVgmldNq+fiESNDuq8wfVQsEZB2GR1ykA/M3GXBCQLgYPlzMWV+IQlU5U4hAIfDqZrllwpCHVwMLMyoUvrCrdRq+rBQvZiKADCTFW4QEDYJZNxXX25tawiLPQpQcKQiOPn35z4WQ+7kkw/U+RX0DMl+cxmrCZM912Eg9Wsx3lb8zjfFgIKm+ZtBHWKRpfkJmgIw8BhdjRAs7uyf2zQBPsaoE4DUEu/nluVlkMAYrpfN//CIGL3ufJyl7VXT8+x10V/7vp3JDajKhULY71yl+ObpDJwXDVg+Xh8m1S8x2EwsUkNOAyOlo93U9lCgN1mIhgEms9jZNdfPcfOf/Mct116TSYNAMv1XdyCh4FAHwL623UwMNsuuQu7+hz2+f387bGSi4ReOYGCPhBsyzQMdHIbztpKrsOujwcJRVEtmFpTNuLUjbhQj3Q3nz1L3YkLdTaozU5cpxrsy3nmEzfikc1XDZbop68aFBUQmIQNoqgadFmME0RoZAUO+mMcKGyDg64c6R7v+un/AWERYVLv8S2nCvQAYWplhWBSZ30o2AYJy/1LCr868FeBhjXjmsaWr287uwaPMK5OpSjKGbYexNY1C3md7brrrtx///3Z9hvf+Ebe9KY3LfygSnbZZZfx4Q9/mC984QvMzMxU2qMo4i/+4i+w1vKe97yn0Hbeeedl5QMOOIBer8eLX/xiLr300lqIuRCbm5urPb5RbQoGO5roLUe0+HJ1BXu1Y7u6JrdmGG6Zo+HuR92YRhBYM9e4QDAFfUJKViyf49655TngWAQo2CX78ChqwWKfdghoPMingyE/Og0KQmukizNY7m4UsgQR6+oaXYhrVINBAQKOBwcL+0gWWn59bVY4b11SBoVGCP+GpnMxFqVBiYtxejda2eQHxyRlQWlFRVU9CBkwdJYDwnTMQgFhtp281FXeOxogTFWErq4eEloD97MdW6k/IEe6gq+HdJu7mrDSv2RVUFe/n3FBYVP2Y6jCsTqVI7SAuTQmasNx5eNqmzOTvfwVaYdA9UrENvXhuJmVuwBEN/9w+NddQTgcSPrztc1phWSw/c707voNgX+jqLPysBvUbDu+oefb8ZhGVQYu1O0ZRoONXaFi0/PSBgGbrtkW07V4oQBvoWq/2pAGi2jjKAVTE0oSPWRnwt//BiVsaVx5noY5FwgB/fZJgMC0vgwD8/KYQBAWBAVNUHUd1innaIGCZZUgLAwKpmZkERDC4roR65pL5HRtPMzKSUhS1aD2gV/ZncRLRmKVRsNw1WAJDjpLQGEyee5onLZWXYutFMla1IKEVeo+7pnbyl1rGYtAQZKgJDtGGA8Q1rkap3XUQLzkOrAJGNaOgc7QsDJH2driuOCum4dCRb/PgzSuYJ2574TRFYMAv/71ryuKwTrbfvvtUUpx5513FurvvPNOdtppp9Y9ve1tb+Oyyy7jv/7rvzjggAMq7SkU/MUvfsHnPve5glqwzlavXk0cx9x+++3su+++7LTTTrXHBQw9NnCxDy+55BLWrFnDnXfeyY9//GP22msvLrjgAvbYYw/OOOOMoXOUbQoGO5qQIaLjh3nkGIQd+08K/rW2tYBAN6ZD/MBCm+9CrAp1YQ+efdiPuPZ/DyYiAauTAIJQCwVHAYQFV+Ga2IJ1ttB4g/WT1isIrZWIDgrCMhRMt1PVYBkOTsLK4BDIYxMK6uMNIkucL3cpTkFhMd4gpBPmQLAbHFTGA4VQgoGgsS5ByaYAhMl2CgjLGYvLP5jZ4k26OISFHg2QMCbkS+J0jrL/QEiiFFUiT1zSyTpAQlh6NWFHUFgXpzC3bqCwMEcNKKsAw+ScoAr22sDhSGrDrAO1+6ntmsDjJmtWIja7LzcdXyeA1RGQdVUiDptr5PiCDXPq3gx3nP5W9vyHv0IOfBfHUecvbo/kbjxBxSR0B4mVcTXqulHB2iiwcbhKsF4tOe4+lsIWAu+WUjnYRSlYPr4q4PM6zMzw67MuYfe3vwQ52NgI+crztLWVXYLL/UdxDR4FBBa2SzAwr6tPKOK2ZWGbCjQsAcGkzzhQUAdFlSDkULDNdRhGg4LpMqtQFjkULCcdKduk3Yh9U8lauc2U0G6NaOr7CeHi8NWpBq3UYBhJNZhahgK1KMQcdG31cQdduaoeDEXMcx76Jd7366cR67AQ0mZBgNDbzr5pPSBYURPKbCGTjK8HhjA+NHRjh7gGt8DEbB/tMxT7LkXchs3UFqIY3HrrremSfKTX63HIIYdw4403cuKJJ7r9GsONN97I2Wef3Tjuiiuu4K1vfSuf/vSnOfTQQyvtKRT8yU9+wuc//3m22267ocfyrW99Cylllgn5CU94Aq9//euJoogwdEzms5/9LPvuu+9QN2KAt771rXzgAx/giiuuKGQ+3n///bnyyiunYHBT2SQUfmPNNyn4B1UA2LKPWhhY6jsKEEz7Rij+8X9XJ20NQBAmBgVTK8NAV2crdW1qwVEgoN9uR3EzbnAfNkYia/ZZhnvlBCSpO3EZDvo2rmqwzTJloQcHyxaUljkOFOZwsJyMxAHAlCT6EK0GqJVXUd7qSNpkXVajHlwKQJhaDgodCLQe9Mstf7+3QcKAiGP5u+KYQl8PEnpuyM3mfzYpXokvtZqw3K8BFJbHtYHCUQAjFNV/TcBPNSgFUWIkaFg7hz+d935eCEhsgofjxj3sEu+wc8KLDjBskmrE8vG5/hYZb+QRb39B0tg+f9d91O1nlDELTcpSdwyjHEdhjtL2QmBjK1dueN8Mg4flfdTZYickWQjAW5DL8SYgh6PAvzblH/FG9nnbC1w5ECPNU6cCLI9pg4CuPRkzARDoHqswMH2cCBAEKklGUgCoBDaU+FmHNzUULGyXoGCqDqyDgr4tlhuxbwGxi8XdYlJozKjuxb5qsERJ6lSDZffgwv4hUQ5Civ+kEUk8wqprsSsLtLIuczHO1Xheh6z5zTNAkiTSSt5XTAYQQhESFhSBJRjotxfUhamNAw2hHhym1gQKVTAcIjaZjrPr8SkY3PR23nnncdppp3HooYdy2GGHceWVV7J+/XpOP/10AE499VR22WUXLr30UgAuv/xyLrzwQq677jr22GMP1q5dC8BWW23FVlttRRRFPOc5z+Eb3/gGn/zkJ9FaZ31WrVpFr9fjpptu4uabb+ZP//RP2Xrrrbnpppt45StfyfOf//wM+j3vec/joosu4owzzuD888/ne9/7Hu94xzv4+7//+07nde211/Le976Xpz71qbzkJS/J6g888MDO8RPLNgWDHc3FGGz4MA8Be53A35Bgp4sN/9w8Df0bVIR1CUW6AMHMlRjLDtuu53f3bY1tUAjCeEDQjaOy7f9mNwLCMdSCebufiGQIBBxDVdiUbMRYiWxREKYwsAwHodmleBRrizWYQsGqm3HN5ylhfb47cZQmJ2mBg8qWE5H4ZagkJYHqKgsWFRC6OINiJEBYfXJySFjkxs2Q0EjBOv1QtuU3hY9nEcjV1PuQ0Ff5lRR/xSNeejVhxY24wfXYbU82TmHd2Gy/VCFek9Kwru+oasOydQWJjfM0xD5sUxwOA4ewsHiHhX11AYkjqhG77NftW2CFZONDH07/jp8hhvlyMy7wGw0sdspGXTmW0Y5jlHFN+8zn6Pg8dNhvmzt0k8hg1NiKTdbmBr1UAG8S7G+hHnDtir7mvn6bFZL5XfZm9rf556zJBbi6j2JbHQT0+/nZ5CcNAuvbqqrBtoQiWb9Se61CMG3LFIJpBuJ2KFgXVxDGh4LlJCNAIftwOs7PQJxCQd+0EIviRlxnXdyHu6gJyyakwfrKQmmyjMVCAg2qw2HKQTeFa3URipKeCqROAKG0Dhpm43JAqLDsOHMPd86twCK9G9NjAMJyJuOC+7AsfIHXwULwwd6EoKE3ztZlbfWSoJSt6Wu09ZfD5NmW3b6nYDC18ud6seykk07i97//PRdeeCFr167loIMO4oYbbsgSffzyl78sqA/f8573MBgMeM5znlOYJ41jeMcdd/CJT3wCgIMOOqjQ5/Of/zxHHnkk/X6fD3/4w7zpTW9ifn6ePffck1e+8pWFuIPbbrstn/nMZ3jZy17GIYccwvbbb8+FF17IWWed1em87rjjDvbee+9KvTGGKOoYM7NkUzDY1VQ49MM8FABuBvDPzdURADbM1SV+oF/XlFQkUDFHP+pWPvzNQ4mypAfdgSCMBgVTKycc6aIWrLOmbMR15scXtH4msib33QVmJvbBXw4Fq+7CbS7Fw1SD41qaiKTsUpyBwgQOurJBWVuAg+6kKf1CZwMaylQJXF3dYgJCQGIzQJjCyiZAWI5DWAcCu0BCY3vcEj2TJ4dXI8SgNSahd1aV+m7mfdAmrCakDOTaQGFpzqYYha4th4Xjuh/XwUIoAcqacdn+qYeGMJraEJpVf8PmHXY80AIOWxSHw+IepvEON0XilGyfo0C5jjDOhH1+efwrecQ//TUqmht6DMXjGQ34uTHevju4U3ede9yEKAtxgc7nKH7jTOJ4u0DErO8QxSB0Uw0uGKCNebG0kP0uhmqwVflXs88urr867PPrE4ufs7Z5y6CwDgC6ft54VR2/WCAwb6tmF87G+/3r4gcm5Vog6ENB33W4BAVNkMDAFqXgOFCwS+bhLlAwdRtOy2UoaBIYOK4bcZNNCgpWshODe1IT92FqQGB6rVBWDQojC3DQ3872R1E9OAogFEpz3LZf49r4KURW4pb7ojsgTE7SX4mXnoz8y7gC9qp3qUS5z0KhodenFhomY2uhYYM1AkMdV6/HlzK2w2ZmC4kxOKqdffbZja7DX/jCFwrbt99+e+tce+yxB9a2H8djH/tYvvKVrww9rgMOOIAvfvGLQ/vV2X777ccXv/hFdt9990L9Rz/6UQ4++OCx5pyCwRFtEuq/YfOMBAEXqv4bMldBFVg3xxhAMK2LUPzzNw9Ptl2bLfSZHBBMf7PbEo7UqQWztgY34jqzDeOGuhH78y4wM3FqqTtxERTWuxT7wK/Jpdi3UTIU+7EG03LZncMHhXEKAqECBxUmS0iisNmC0U9K4scdTJ4877lNnxya61oAYbVuPEDodpcDwrrMxeXDGQcSKiKesuw9iZJQ5M+E527sFnf+bIUzq9Q32iKqCSvHUAfjGpSC5Xkn7X5ct52OBzpDw3Lf1vpRwWHZhoDEOjVjejxNc4+jOPTHQjNATG0pQGK27xYIJfUcj77mZclGWjk68BtVreiOa3JJVMrz+jZavMNq3ciZl2vnaOvf/nx3AWdd4y62z9HevlQAb2H7HXfc6PAvtTrXX2XnefQ1L3NjA1HpB0X4V95PEwAszzMuCHRlWdvW1qeSTCSpq7gLZ/U5MCwkFUnn8qGgBwSBHAqGMss87ENBExRhoH9jfRgUTJdBdVCwS5IRP55g1l4DBVNL3YjL1tWNuMkCocFSm4DEN7eWHiL6EBrbRU0ovfh7iWow/TaqJCLBv4mcZCTGCRZkGpswSU4yKiCcR/Hee4+GwK0RZQYFoRsgxGUxLgHC9EOcKQkhX7PVxb9YADS05ViFpuX6y+jaa+O6b9pRkVTdHELV1T44zcrJPKcPVrvwwgs57bTTuOOOOzDG8G//9m/ceuutXHvttXzyk58ca84pGOxoQta4Ei8QAHZp7wIDR4KAjSCx4Uerdo5md+HCXE0ZhpM6gWHXlXfz63UrMR2AoB8ncBgQLNa5xxQK1iUc8a3Qptq/sgrAcEw3YttRGVhn5SzE2iow7u5kCv78WINtLsX+HHVZioGJxhp0KsT6953CVOBg2lKoq70l6csJG9SDkN5Srdbh6tP4gy5ZiUVaUQwBM2lASHXBl25n0NCr6woJrRb8Qe/B9uJ2pLDUxiQkR4YjQ8JOcQn9I6ddTQgZKCwr/6hR8RXbW2Bhi6pwEu7HWV/q4V4XaJgdM4sHDsvWChJVNebhsLmHKQ6HHlOL+rB+rtZuI4NEGA4Ti/tPPjdCct/D9mfrX32v1pV4LCXeCGBxHPdn30YFi27MqKCvuqRfiAtyu1Kyvr5r3MU2W0zwt9A5llo1OIoqEOrhX93Y7Dsn+Zyt+O33C5+zJvgH1CoAs+2Gtk0FAov9c9hX5y5c6FMXPzCddxgQ9FyHu0DBNqVg0VWYpJxCQtfWJclIOZ6g61uMKVhWCvqxBVO1YFc34jYLREw8BPZBR6WgMJhy1sMxTQdRBgehuoT1148LAYTKWHYL/sAv4u0BVYlBOC4gTM2m7sVQhIVQBYZUx3exwtq1HLuw6XrXtxFgIYwIt6aKwcyMsNgR0aAYGSU+cO2EE07g+uuv5+KLL2b58uVceOGFPPaxj+X666/naU972lhzTsFgV5Oq8cPcRUXYPWHJmElBmsaPowIsjK/rW1UHFuYdAgRdnURJw+G7/ZSP/uhxmMJt3MUDgsXtolpwmBXUhCMkEWlyI641v32IOrCcmdiPM5gCwzaX4hQOQrNLsR9vsItLcRfVYLlv4bnyFm9lOKgwyZ1jRWh1lqDEjzvoPTvpk+ht52U/9qB7wvKReUKStCJ7gpPt0vfACIDQLcbEUEBYURF6hzEqJIxlyI82PoXHL7+W0EaFtlEgoZ+kpPxp6bTMaVMTdgSFsDBY2KYqnIT7sT8WukPD+vrFBYdla1II1mZXzhrrwWHbfOkxDTuezkq+EUGim7N9yu4wEdJ3vw763PH/s/fn8XJUdf4//jznVPe92TeykpCEfQ0ga0ZlVxZFRGTYVEAURXEGcPfjPuMwooOOfsbh6zijzqg/HUfnM5swrCJLZImENSCEkI0kQDYSkntvV53z++NUVdfeVd19b27IfT8eeeT02epU3+7qU896vd/vE97LAb/8ArLRXziidFKY6JqqgMU2oF/yuWc7cLHsseJzJMeX3/S3c/yuqAZbzNGOO3gV23mqwXLHbRf+JftmKf88p4c1b34Pk/7jSyi3+T0ro/7LXE+yLQcExtq6CQIjbZXUgX6/LHdhiMC/EBLGgSDQFhQM9i5VoWCreILBPNF4gsnsw2WgYNSy3IhbWfjwuqiP8ED20697CvuVjjsYdSf2LUs1CIS76BAQSg+pVQwGVgGEsU2wDwglHieNepKfvPam8P3LSlJSBhCiHL9NxeIQJhWCJkdBGAOGRcFboxbEMgTwvNg9b+zKruMqw9CiILGkVQKGI2AwNE/mvEcFtru/e9/5zne48sor6e3tZeXKlbzpTW/itttu69r8wrRykt7NTWvNpo0buOyjj7Gjr/VFqS0FYJ61CwMzxpaGga1AYKJPPAFJOSAIpOMHRvt0GQhm1QUgMPo6AH92Y+OXlQlVgc12HYJBI3Wkr9fsK5vlAAwa5TXBoNRhfEEjvaaCUHpNOCiadSJoFxohPIKsxELoUDEohBeCwQAGSuk1y/7/KvJ/AAaDuiBLsSOa4wIwGEC84H+FG6nz+9Ds0ywn2pL/Cw+Fh4PGwQtdih10mITEMV5YVljXYoBapF76dQoTtod1hkhdvBy0+3+WZjlo03mvRTimqF76u1wZOUas3n8dQsLwTx25eWn++WOvW9Ul/wdCuJfZFtwQR26MY9mQM+Yp7J9oI9nmFbUlrrfJm/WBRHtifAycpdryj5Vui1xHEmsq6pvbJ2eu1v2r1lebv0x7ESwqGlcE7cqCsZau0RXng9YwMT5v6a527jZS2JZRKiatyvkG1s7a2okZGFg7a+zWsdNzdb7l7eZ68mxXcjdOqvCS8xTBPyA37p/tG5mnAPBBvvovObYIFFZRBMbrqoPAeH+ZGpurDgz6ZKkDo+XoPjmEgWmVIORDQROBf0VQsJtJRpKuw8020XwdgYJATC0YuBEHYDBQDIZlE7z2/0WyEodtxsE1dmfqmmCMvWfy/Nf9ugfPKDzj+P8rtP8/2Af0tk5ijEJrhTESrWXTtdhIjJaglf+mK/9fAMYUwsRfAwhPoVw/y62WyKDe7yc95SsC/XYfDsqwXUb6ima9Fkj/DyQ8EdbFy4Rl2y+yn/RMrGzfiIL9YRQWJi+s0QerBW2xcV7RfJH47nnxA4tcjpPzlxmTkcV4VI/gH/9iCpMmT4klvNidLGAr6913Y9hRaaxgFNOdf9tt3z/HcXjxxReZNm0aSinWrl3LtGnTujd/12baDay06g/KA8AS7sj22Il+Jd2EU0CwCzAwNW8mAMyKKxiHglLB/AnrWL5lGjpYe06m4WhdOyrBeF0aCib7AJnZiHPjDrZwI47FF8xzI85SE1ZQEAKZ2YmTLsVl4g1GxxXFGyxyKa6Sodj2b35WFF74OqocVOhQKRj0TLkbR8WBEIs9mO6Q2KRElYLROiL1XVAQxo9t64NNN8SzGdtDN8dWVRIaT/Kytx/TnGf9z0YA2amU3di2RiBZXvKShGtx7N0pcjvOUPollYGxzWCvKoSFMQVgVVUhkWOVVRUG5wBpdSGkoOGguxJXnD86Xx6EK2wrUAi2Uh1Ca0jXzezL4aErxBeMikiy1qqFYtO8o5j0wmKk8SopFAMLlIpQBWAlVDIV3KADqxpfESoCtg5iFUJazRhYO8BxKFyF28kyXdU6uR/KAnndOGYVAJjsX9b9N/ieTV71B4TxOgaAyddFyUKy+nUCArPGt1QHBn0z1IHNcnwPnaUQjL1OwcDWULCTJCPtxBMMoGAQT7AIClYxB48g0kyeUjD0bDGEcDDLomF58pSC9mG+vcbkxh0M9v1a2nsEXzkYvBZaYZQXxh00Ulvtn1YYqePJSbRstnsKHcQjVDqSuMQAfr00SFwONC/zR6ZjPOXXWVBoyxYOaj8uYXAaQgefrfjeNrY/jL4XnonFjieaRDURhzAafz4VozCqPsxzEy5QEUIEFBYpBcu6IUctK75hxSlez6ZHFIOVbdasWfzqV7/irLPOwhjD6tWr6evry+y71157VZ6/Mhhcvnw599xzDytWrGD79u1MnTqVI488koULF9Lb21t5AbuKCVWDRnCj2Jnqr/WxCsZ0y1W4DAzM6JcGjRlQMMsykotIqTl82gpWbJtm7+9r+VfLrOzCYVsCCmZZKyhYJelIXjbirKQjpbIRZyUzicA9kdGutQxVg4HbcJCdOIhnooSXcikuG2+wyKU4sLx4g9HxSTgYtWjSkiBLcaHbR3S/EXufAtIRqYvvS0h0IN2h2L0YMuq7DAgDN2NIxyLsBBIao1ix42imTHoeYXTb2Y0jZ+C3RiBh1OUYCkFh1CU5BQpTwK5DWDgYLsgpt2KVAf0ywFsLsDeY4DALkuXNX3SMouO0bGsB4bqVNKXs8WJ9ow+ZKgDF6PzGqbF2wZlMfvExpJv82zeLZVWKZWMoJi0KF6EspBoauBhYNxKT2Imq3yK041adtFbn2q0Mv+0CPLuGdseVP2be+ooAoB0XaavoAmxUjTUHn8EeLz2OynoAk7GuLLDXfL1zQWBqXJE6MChnqQOhCQQT6kBbjisEo0AweF0EBatkHm4VTxDyoWCreIK2bzwDcRIKRtWCWRYkFoFsGBjCQiAvAUmWO3ESBsrARRj7nwWC6eMJqUPX4Vh24iD+TDihjsFBaMYdBCtKiMJBW6dDNWDMrTg4vYy+Cs0xzvMsG5hKQ8lQLWiUiZSJwUE7VxMORveTwedTeCYu9oi+B1FIGGQ2hjgghBgkzAWE4bgmCCyEhxmgMGmmyL24VXITpeJKww4e6rzebCTGYHX7/Oc/z8c+9jGuvvpqhBAcc8wxqT7GGIQQeBUyawdW2pX4pz/9KX/7t3/Lww8/zPTp05k1axajRo1i48aNLFu2jN7eXi655BI+/elPp9Im78oWyF0vv/bZtCtxG9APWoC/LBtMV+ESMDBz/pSiUKbbCtSCqQQjkKsWzFYGpkFhq5iCti4NBqMuxPZ/HaoFjdS5LsRZdYFa0EgdcyG2dU2XYSPibsXhE0IZ0eQHLsJSh3UiAhSj7sT2tRe2Z7kUB6+zXIrt/26mS3HQp8ilOHid5VIcvC5yKW7O1XQjDtrzXIttW7Muz71Y+T8iUffiQAxa1r049jpo13mvRXxcTn3SxTizLXLJSboaA6G7cVnX4qRLcrRc2d0YKHYhjr8scjEudD+GYhfkzNdRN5NEWxUX5ER7kQtyZnvW2vKOUzRH4Tzl56/qjty6LZ+ytDtn2KfLLsZQHspVOX4762j3GFDtHLKPWX1Mu+637bhGR61TF+R2bSjdjXeGy3A7wDEJ+8qsoxtJQFLj2lAB2rIsaMsr56n62gCBsfGJcVEYGIxNqgP99ix1YLPcWh0YlKPZhtPlapmHO0kykownGJTz4gkCpaAgxLMQh67CGe7EQXvgUpzlTgzEXIqz3ImBlEtx0p0YSLsUJ92JgVyXYv/Ny3MpBqsc7IZLcdhewaXYHofQonu7vPq2XI07dTNOtuVZSbCS65ocO57tM6oH/vH/jN5tXWGhyVZWch5GVHQlNqPYi1/t1u/f1q1bWbFiBQsWLOD2229nypQpmf0OP/zwynOXIlRHHnkk9Xqdyy67jF/96lfMmTMn1t7f38+iRYv4+c9/ztFHH833vvc9zj///MqLGdYmVe4OrjLoy7Iycwyhq3D23FkQMQMIpuqzoaAUmgMmr+GZTXuiHfvDZhIbu6hluRCHbRkQMN0nWy0YrWulFozWt1IL2mNkQ8HQovQmw604Sy1YZFHVoBS6qRSMZC9OuhRnJSjJSkaCINOlOFAOAmm34ZjbcbZLcTJLcUvlIJDpCVw5c3FyoqxJGTIFoTTRh8PpRadUhJBOWpK1XE+ybsehzBj9RPh5a/1TGl9jppIQWigD45u8pKowlsykSFUInSkLO3FB9scHAKxUFmQSx2vh6pulNrT9KygOcxSBWWrDrqoAB0F1WKUPVFMGllYlQuxmvwyMM47DS/PfyLTl9yHcdFyhLKvi9hwuKwPCVAJoiZ/xMufWjls0pNWLUBW6tQe+iqwdNWTS2nG9bsc6UQwWgbwiKwMbk8AP0sq/Zt98WJfV3goCaqFYN/dPmLl6EdJ4mX3LQsC8cdkwLxvqdQQCIR8GBv93UR0IaQgYtHcr83AynmC03GmSEWhCQS/yOg8KtrJo2JvMtsg2qIxq0MvIZJxUDWa6DwvdTDKiiSseIqpBI7wQDuapBgNrpRqM1iX7OhqOEC/ymNkTkAmlYL5qMHgdLD+pFsyrD78D2sTu78qqCOO3AQUqwqhFVYRZFiY9Kef3W+pqq5SvPCw15W5hWoCp+FMlIHWbtjtZkHzk0EMP5Yc//CELFy5k1KhRXZu/FNH667/+a04//fTc9p6eHk466SROOukkvva1r/HCCy90a33DxoRyECUy14bWDVgI5WBg1vG65SqcNS7rYtoCCmaZlLDPhHU8u212OuxYTrKRqBW5EBdlII6+znIhzootaMtpF+K82IKtXIhzYwuWiCOYtCA7cZZLcRIOIsmMNxi4QGTFG4zBvUGMN9gEjU046KDDPl5i85bMWhx/DyPuxdHYg1AACLNgYcSGCBDG5kg470JGLEKagFBoEW7qw2VoxUt9BzB1zNJm1uqM5WdbDP21aE9vjlJ/mkRNNE5hEgZ2DAujNpTxCoPjQWtoGKw70Tc8JnTuppwxb34MwXwV4FDDwzJzt9MP4jCiClAsmt8oh1fmHsv0VQ+gotniB2E9qfEJ2NEJaCybBTpqVVSM6eOVHtoVy4KVSWsNL1vPUVYt2S7Ag/YVg5AN9zKPURL4hfUZ/TOTkxQBuiI1Yb3Gy3OOYeb6hxCeznQFzhxXwoUYKOUiXCpOYHSuPBAY7ZOAgUBldWDQVgUINttMrC0PCiaTjEA+FOwk83AyyYgtF0PBwAIomKUWzLIw5nWwDRR2Pxo1hZt6jpx0HVYi/UAoK9aglB7aZ1a5sQbDOINZbRFYqDyEF8BCP76g71Jshzfdh6MAMDDtZyq2ZYP0BArNgWodT7ozaUTbI27DSRiYijdYERBC4qoagYS5gBDikDDPzdhvKxWLMIw1ODj0TiiFyIonP2IjVtKuu+46LrzwQnp7e3n/+9/PmWeeOfRgsAgKJm3KlCm5ksZd2qTT9CXs1nwVbKe7CkP6QtkKGEaf6GS4ELtG8t/LjylMOJK0IlCYlXAkr09eXdSFuNmeoyLMcSFurrVFwpE8tWCBBdAvz1rBQWiqAruVjATy4w1G1YB5cBBIKQyL4GBKURjZrLWTnCRduZMBITR3zbHPeWsVoYzMEagIpdPgsOm/tHWBS3F0GaTrsi36lDhLSRhfW/pVFuwrryrMHl8AC6uoCv21dBKvENKAKzN+YIvYgVngMBMa5oC2LGhYNq5hOHfG+gqPEZm3rcQlBbAyely7rmKSVDVeYFXVXp5C0aHB4ffeaF9E1lAGKsasolKxaI1RKwsc24GMncQbLBOIvVP36arWSjEIrYFmGQBZxsoCvNTxC7wvio9XHvjl9c+FiSWgYSuYJ3F5w8PfsW2RPWinEDDaFlMcdgoD80BgtJypCMxQBwb1GerAsJwB/YLXWUDQvm7Cvl0h87BtS0PBosQjSVjYysI4hP7bngSFQDPZiK8azIKASvgKsQ5Vg/YZt2qpGozCv3ZVg/1S8jN9NEEca0gqBU0zEUkEBvqREmN1GScaKUcenJZVEUb/fnkqwrLJSqJWUSEYWjsgsdad34bXg3myDcWggYz8lbuNDbvkI4G99NJLvPTSS+iEj/6CBQvanXLXsDbjCpa1VgFQB9VVOHNcCxiY2Sf+OgUFg2FCc9i0VTy+aS5exvtalIW42cf+XwT82k040kotGO0bLVdKOFL2yVGawMQSkJS1dpKR9OsekP2ZyUiCzVLUpbhqMpKUa3EFOOj4IDArc7FC+5vIiHoQqOZenPXatw4AYZA0JFmfWkuBilBG1IFFbsaucVj76pHMHP8ITuBO3uI0ykLC2FpJf0yNFCkRbAoWpmYuUBWWGh+xbiY36Q0uNi2UhZChIMyBhlnAI8cFuAwwDNdQ0oU4b47C9UEhPByMxCVlj11lLXnHLz93vL+WDqv3OYXZy+5E6mxX4ipuzxCHimXXlT9ZfK6ysC0JbqomcwnHdbD2MqCu29aOcjJqZd/fdgEe5EO8UmMLjps3bxXgVzRPkbLPvpa57capsXLOiey16m6kcUu7EOdBwNS4LMDYLRiYAQIh/VA8Sx0IhEAwL9Z2UiEYbctzG462JeMJBm1loGAy83BYLgEFk5mHoX0omKcWLLJknzDETbQuAQrzMhQnVYM6g5AJ4YVqwVzVoNCRzVkaBOapBsPjtlANRuuSqsGaZzhWrORhsxcGFW8PYWATDtrlpAFhsr4jN2P7ZpZTEUYtCQkz2u1CKz6BaRckgi8y2o3JVsSMiN/mlLHB0XLuOjbYyUcqU67Fixdz6aWXsnTpUoK8JUKIjhaxS5h0oCB+XWAtwV471i4MzOjXFVfh3D45QDDZ5tfLmmT6qE08uWlu8xKZkXAkaVVciPMsmXDE1pmM9nTCEdte7ELcUi1Y0oyWqTiDWarBwJ04q19evMEoHARi8QarZipOxhuMux/HgV+mUrDLcDCwAA4qY2gIRc14cUWhAYUJN5xhJdANQKi0/dGTxm6W7evEZiew6I1oQkUodTMwd1U3Y6Ph1f5ZTBePpISIorm3zFQRxp4YR9+2WDkJ/1pdJ6uCvi6CwrYsea1L/KGz3JAhleQkU+VXpDTMcE8uBQyhssowaw3BPLZteMDDdvpF11K+f7NcFioa5bB1j31gxd2IFvugqhAyHNdpfMGItQ0duwQYof21D4UVgbPAit6zbsHMMuvIHVtyDd0Afrl9c+vTe8jWwFDgScmWiXsjXroP6X9+UscoqR7MhYVZCsOhgIGQqQ6EBPzLAILR/1u5DdvXJvVgsSjzcNBeBgomMw+H5RJQMJl5GJpQ0AuhXzUomKo3aWhYBBAd4eJmxA90ou7FVVSDGS5PQniWO4aqweQ9VwQEdqgazFMSBvUCw55iE4vNHLxo1uGUUtD//uUAwsDFOKs+/hZk7b/j9XkqwhgghNIZjYG0u3EZaxckRk2OgMHAomEFytrw3TUMjV155ZVcdNFFpZKPtGOlsxIHdvjhh7PPPvvw6U9/munTpyNE/C/6espIDISZc674wgZ29Hfp49hu/ME2YSBkAMF2XIUz+xTAwIz22BwFLsR5asEyWYjjdcVqQbsBasYWjKoFo3EEkwlH4nXNsuc0ChOOpNyIo9mIIS63ykpAUiI7sa3z0v2GOFNxs669TMXx+ZqZiaPtyfpo1mKVqItmLY7WS78+K3uxfU2iPu+1/V9qSmcwtnUiHBdYXiZjWxaxuaLtMvILG9RVzWbcTn1KFRhtSwKqDM6SHp+41iZed5IBuUx75SzIkA3oSgDDojkzoVRmv5zfpgqZifPmLlxLV+Yt/l0tA+bKzjX0/aspujtSBHZxjnCuNsBdN4+/M60b7sul3bfbhIjtqA07Vfe1rs++Ya4yT2lXYOgcAkIhCIzNM4gwMHwdUQfa/4n/r0QhEAxel3EbhnyVIDShYDLTcNCnDBRsgr9mPEHb3hoKJjMPQ/ehYOp/HwBGsxPH6v0sxXkZioEwS3FRhmKwD+8LMxSHf0xF2QzFAMqtlcpQnKxLZii242UsQ3Fg0ezEybrA4m2t6ytnM4bYHivWFs1mDKQyEFf4bU5lPW7HIscbVTf84GON3TqrbsBWlvach66YlViaURzUv3tnJQ7sxz/+MRdeeCE9PT1dm7MyoXr++ef51a9+xb777tu1RezS1q0kI1HLAoCp4w4fV2GoCAQBataF9Q1Tl7F4474xuX1RHMFmH/t/FRfisL2kWtCWO084kqorcv/NcBnuhmowakOVqTiMLdhmpuJOlINA05044lacUg5CTD1oX6f+KImGfAWhMv7erax7sX3z/bomrOumm/GAlKzdsJA5E34f/r0DN2NPRiBhdEkZS2/2bzZkqQmTllQURmMU5tuupiok7YYMcVfkwPIUhlBaZdh1t+Swf74KL9dNOjJvLggr4ULcjvIwaw22b7mNfOX4ggVKPy0clu99BvOfvwVpXL//4CoVW62xyrHLzFU1sUs4bhgrA/MsqajMspbvRwdqv8DaVQy2go2DofAb1Ln9155weH7Pt7DPuttQ/kO+1PgCWJgJARPjMoHiYMLAaHsBEEzWd+o2HLzOAoL2dRoKpl4Hl+82oGAy87Dtm4aCgQ0lFCxrWarBpAUP3gdbNZiViCRZLqMadDx4s1jOfWZvDDJUCAb3RtKTzfur6PKi59KBijCZlKSrKkJIKwnzzP8NTt3flrQYUIxdU3a938MRG5526aWXdn3OylTr1FNP5dFHH939wKBSLWPKxKwM3Kty7JLH2Wmuwjl9UvNEL9ZKMNbps5f5AhfitHowfdgyLsTRzMTNjVDUzTcCBEskHMlqj7kQB3XJZCE6QlSaE5OKN5hVVzLWYBT6hXW+S3HS8pKR7OxMxZ3AQYRVDUbhIBB57+y51SJ9gk1qO4BQGROXwydBYFF9IQRMtMXaI3WpZCXx/v3uOFwHpP+5z4pFGIWEUejnJT5yZQBia2uF6or773RQmAviMurLAkPo2C051zU3a03kg42dBQ+LQEsrgJi5jpx1Zq2r2b9NqCgl/aMmgSOb36OM/uXXlP6hax/wpevaAY/tZj/uxB22jO0slWIZpV+pmIxtKgarvK/Zyrzsq/ZgAr/c/iXnlo5Df+8khHIQxuRDwErxBgtAIAyOm3C0PQEDo+WhcBsOXkeBYLOuuT9oBQWTmYdt33JQMJl5OGgL6oYaCmYlG0lasN+NWk8GHMzMTCw0GhKxBjO+LxViDYbH812KgcxYg1mJSGzZjyUoPcZ7/QgMnt83CvOyAGEaBObVN9cZi0WYs+uqHIswmaykFSTMsjB+YBtA0IveG2aPNwX3qbubjbgSV7fJkyfzxz/+kT322INJkyalPHejtnHjxsrzVwaDP/jBD7j00kt54oknOPTQQ6nVarH2d7zjHZUXsctaJ/Cvk1iEw8lVOKNP5kW3Fj+WUQLPKO5af3gmCClKOBJYURbiKglHki7EYXuLhCNJF+Jme7YyUGiVVhKWhH+DrRocbpmKuw0HgVz1oH2TCPtoIZDGhE+wiwBhEwhmwDpoDQijbUlACMWQsEhFGL2ncRrsNec3oEV4qKxYhHZYBJ4TrW9anmowr76MtVIVtkxqIkXM/XjQsx9XtbLA0F9raZVhGWDoz1kaGkbXx9DCw1KKv8qALfI9GUSoKNEc+sef2ktBC2BTVamYHFdlfflzJX6T25grCRzbVTl2aoMNHousbCzMdq2d8YMJ/KrOXRb4Fc4f6atwWbDmXxE1QfjL1CkEhGwQGJ07CgE7VAVCvjIw2j+zrVAVmGxrAr4iIAikYgnaurjrcLSuFRSMgsCszMNB23CGglluxHkWjcWd1waEqsFMWCi1TURCjmowuFfoUDUYWJ5q0BWK/3AO9NsMwWapDCAEch8Yx+o7UBHmAUJIbNdbQcKkBe7H7SYigdYwcSf9Rg5X022Awd3dvvWtbzFu3LiwXAQG27HKYHDRokXcd9993Hzzzam213fyEVVNEtNl8Jdlw9pVGDIvwNGLtBIex099ht9vOBDPqEIX4qRasB0X4mQ/IDfhSPO4eaCwRcKRiAmj0qrBzIXtHNVgO5mKIT8ZSaeZirsNByEOCJt/GPs+ZAHCOIUK6kiYiVTmqQl9ywGEQVKSWFtsJ9VaRSiNiDwwTgBCQKNYu/YkZs78bajWtKJV22egbmIQLwSF0iSgXzYoLLMJTILCItfjpiXPeXipCnNhYRIqRvqn4WBw99SmyrAkMIRiaAj5UGcw4WH+uGLlYWx+30pBqUGEip5w+OM+Z7P/iv9CGXdIXIcH0224nbnykq+9XuIOZlmWGjPL8r9fbahSwrHlAHSZMYMJ/HLPsSI0REk84fD01DM58OWbcZJ7o5h6MLlnzYGA0BoERv/v0EXYlhP/q/y2aDkPAAZ1nboNh30iKsGsuk6hYDLzsC1nQ8GqNthQ0Ctx25xUDeYmJIGYatBk3fxIz+9EExJKq7VLqgazEpFAddVg3TWcpp/ndrk3nqlF7pNa7/Y6URFGAaE9Qt71LeOhOMUqQsgXmoT7uCJomLRoDMOyCkSw15cRxWBo9hpRDWwl9+q7m0Xdhy+77LKuz18ZDH7sYx/jPe95D1/4wheYPn161xe0y9gQgL+k5WY8Hq6uwsE8yYtxcLGOXAyyk4vkg8JmH/t/GRfiLLWgnT9LRVisFkyWK1uWO3Fs0UOnGsxcXotMxVnxBstmKnaNY9V8GZmKBwUOQtuAME9BaJWCotmx0wzGeW1lVIQZbToC9dBgRNaTuejamg1l1ISl3I4TH/Ei0WQ5G16gEDKUhYF1Cxp2GxhCbvKTQhg3SPAwhCptKA/Tc0V+ewYDyrWCikLYv68SYERHSsXcY5SwbrkN27m6Ax53pqJvKKxd1/AyVva9G0zgV3XudoBf6WM6EqEEoi7B6GIACPlKwORxs1SGXYKBZVyEY22RuiQMzKorAwTt/1H4l66DYpWgLRMvi2a/dqBgNPNwMM62y9j/ZdWCZaxTKBj2K+FuHFhSNaiT8QMBIXQTEuKrBpPuxdKLqQhD1WA0/mAL1WAUBEbrwFcFKo3x90PBfY7t48M8T4T3RVXdjP3TDy2+3Y2A/cFSEUatBTBMWmxPV0Z5GFjyPnkEDIY2ohisbq+++mrpvuPHj688f+WsxOPGjWPJkiXss88+lQ/WiW3cuJGPfexj/Nd//RdSSs477zz+9m//lrFjx+aOOemkk7j77rtjdR/60Ie46aabSh83zEr8te3s6C85qNvgL88GQR3YTVfh9LFFYZ8sKBit71YWYvu/Dn/kjNQxtWA0jmASFNq6eJzBpGIw5i6cyEoca4+lmk1kJ4Y4GBzkDMXRfmHW4kHIVBy8LspUbF93lq04q83W+f2Ml6pLZi+GoclgHK4jqItckdvNZhxtT/aJZS6OMsW8PllqwkS9yOmfVAUmWXjV9pavW2RA7nb248w+BfO1HJPVPzMDcsk6yIduRbHP8jIntzoWLSBUB9mJ7fjqgKsyyBrOmYe7mXG4q3ONuEeVscLkOxVsp7jz5sxTBfYV96+wlrw5OoGAyXKXk4dE+xbBwKQKsFVdNF5ZGSAI5LoNQ75KMBjXCgoGYC8oJzMPQ3ml4M50IS4LBV2/3kvU9+ueMDtx0J7MUBzUayOLMxSDhYHRDMX+HynMSGxU+McQWuVmKLbtMgSDWVmKo/W2rllOuiPLSCbi2JjonjAjm3GyT349LevtuiLlnIzGWe2FViFpVpVQM6Nw+ccPbN2ts+oGbGXxmHe3lZX4qNf+bbd9/6SUpd2H2/HirawYfNe73sVdd9015GDwkksuYe3atdx22200Gg0uv/xyrrzySn72s58VjvvgBz/IV7/61fD16NGju7OgoYJ/WVYVCA6Rq3BVGKiExwlTHufuTYfFpPZFUDDLkhCwVb+qCUeK6rIsK5Zgpjtx2SQkLazbqsGiZCStMhVDfjKSqHIQyMxU3I5yMMsC9WC8Ll9BmJWgpNDFOCkMbL7LiYaSCkIopyKM9Q+gdxwCptq1w0srT2fGXrcipRtfQ2Zm4+Q6m30qux1XVA3uaqpCCFSDOdPnKAcrKQ2z+pZVGEJxLEPIhm29wY1HdXjYrvKwVHKRChmKm/NGXgyKu3FwU1vjyVnncsiqX6NMo6B/s1wZqA2y63C74LEr+5phYoPp9lzW7bjZv8Xmv8vx+0oduysKxGpKwyjw83B4fPzbOezV/0Zl7ZWKFITJ+TNAIHQPBlZ1Ec6qy1YKtoaBtpwGgsn6LCBo+8ZVgrE+bULBaOZhGL5QsJWVgYJZ1hXVYBhnMEv40Vo1GFjSpTiqHHSMxzkDL/BftX3C9z+y7OZau6QijLoZQ76KMC9ZSVkVYWBFCsHY/qtVUqhoXOtWYR3Kqg13M4s+MChvu7fE8K677grLL7zwAp/5zGe47LLLWLhwIWBD/v34xz/m+uuvb2v+ymBw//3357Of/Sz33nsvhx12WCr5yJ/92Z+1tZAiW7p0KbfccgsPPfQQRx99NADf/e53Oeuss/jmN7/JrFmzcseOHj2aGTNmdL6ICjEGu7pJbjVXERQcDHVgFVfhgj5G2ov/Nq8XY7IvqllQMKkWLBVrMCfhSFjXIuGIzokdmDThqXScwQz41+0kJLFpuhBrMMvKZiq2belkJEk4CKThXwk4GH8z7H/dAIRR1+GdAgihfTdjICsWYfDRMxhkz6tooUGYGEiMuhxrmk9kbR9SfeLnUD2JyS4PCnOBXv4T49x4KFWgYSfAsKge8sEhZLspB9YpPCw4ZitgVtVNtzl35AFURXfjVlBRCEOv3oKogzByUNyfW67Rt7YVfMnf6ddxbMA8G3S357w4oy1sOLnzVlL3FfRPxfqD/JvxcG5JL1uhJgGTPXcRAEwcIytLcKy+izCwXRdhW5cGf3nKwFidyG4rAoKxekEaEPpQMJl5OFrelaFgK7VgkQVQMCuuYLlYgxmw0I8piCb+gYFm0pGMRCSQHWswCQqjcBDAeIItsoanNGgVB35RyNfCzdha9tNvGamP9a4YizCoD5hr9LbJRPZNyZBUeTGuS0NDaBscVvBAf92bJ5rXkcG2v/u7v+Mb3/gG69at4/DDD+e73/0uxx57bGbfJ598ki9+8YssXryYFStW8K1vfYtrrrkm1sfzPL785S/zk5/8hHXr1jFr1iwuu+wyPv/5z4eKvjxl3w033MAnP/lJAObNm8eKFSti7ddffz2f+cxnMseeeOKJYfmrX/0qN954IxdddFFY9453vIPDDjuM73//+7F4hGWtrazEY8eO5e6770656QohBgUMLlq0iIkTJ4ZQEOC0005DSskDDzzAueeemzv2pz/9KT/5yU+YMWMGZ599Nl/4whcKVYP9/f309zd9hgNPawtRJCqARaKGkhpjLGRxpIc2orisPDwtMUZQUx5uUK4bXE9hENSUS8N/ylNTHg3/QmTLDgKDE5SlwFFuWK9qAlfbtUphcJHNsqg1y1ohFEgiKjAlw7JBoIWDIzw02q69btBGorFKL08qNJKacHGNxCDtORlpz0M0aMhas2wcjISacGn4P7pKaB7YdhBCGeqiwYCpgdQ4wqNhagg0ytE0jINEg/TQOAilUWhcHBQeAkND2dhyRhq0H2fOYGgoYeGQBJDxsmjYvw2gRAP8ck00cP1z7TEe/X48uR7tMSDsr0uP9ugXFjOMHpBsr9ltT4/26JMK6UnqwqVPSqQx1IyhXyoELjVj6JPW/dRxYcCx8Elpw4AUOK5ESI+GFDjaYoUGKnTR9STUtMEgcJWhpg0IgysFdc9gMHh+2RWgpaDugStBo+jVHg0JCOhxYUBZINjjgluz5+S4CtfxMMb273dAGKh7ArcG2nPoNR4DjsIxHtrtRdb7kBqEdjA1F61r1LWH60BdawwOwnExXg2DRDgNtFuzMFBB3TNoBNJx0W7NAkbloFyFpwYw0lB3wZMCJV20W7cbEAnSdZBqAE8qZMPBdQZAGGSjhnYaOHgYtxftu31Lt4as9eMZhXAd3Fo/aIHwBMZpoLRB6x6M07BviJYo1aBhanZHrPrBU9gbExdcZd9Q1bD1xoDyMEEf6WE8B4VGSA/j1kF6OMLDeDW7qxEa49ZQwkVIg3HrGBoIadBuHaEaEJYHUAaMZ8tG2LJ0BpCewHg1pDOAERIjFJP2ugftCTxdQ6oGxhUYo2wZFZa1th8MKV2064RlVyikASktoJXa+GUHqW39DsdBGQ8pNJ6uUfO0LePgGBchDK6u44hmWakGyvhlMWC9ZDxbtp/1OnUGMEbgmRqOM4DxBNrUcOSAvcnwHBzZsO44SuEYv4xCOQ2Mf21VwsUTDmgRgm0kONrFM/YaKh0P7TmAQQmPhqijtD0n19SQeCjp+WXXXk9NHUkDWTM0vBoODYQwNEwdhwGQ4Hk1WwZc6tSEPaeGU6dmBvzrUA1H+GXpUNMDaCQahUPDXnO1tGXsOTnKRXv2b6Zw7Y2RtG70nrafPRtz00Eov+w5fp5HjYs9J6n8suf69XV7fmgaajQOAwhP06DHPw+DSw8O/aAErnaomX57TRJ1aqbfrn1UD47nl4WDY+LnpAcEWkgc45+TX9aqDhqU8f9mRMrGPw9RQxiNUn7ZdZF+vTT++Yk60ripckP04KgB+9th6jjaPyfZg6P7AYEr69S0f06yTk0F51FDuX2pczJCccCG29FS4QoHRzXwhLL7BrffL4vsc8KglIcnaoBGGQ9X1BGeizQerqwjtX8esXIPUjfsOckeHG3Pya2NTp+TR/qctH9OsoYTlh2c4LNX88tCoYXC0QO4WoCQKB05P9NInFPzPDxZA+Ofk6zbv01YdpGm3DkF5ZZ/p6JzEv7fLHFOnlBDd0613pbn5NV6889JDKT/TtKhJhr2nFA4xj8n5fjnEf/sCSXinz3jf4dk87sljUb4ZSVN+vvk9MS/T8aeR6NnVFh2RQ+O8f9Oqif7GqHsddJeF5xmWTn2GoHdazo08JSDQXCg9zu8uvJjCrt4yv874fkQxz8PWbN7Yzxcagilm9c9GSnjIhT2Wi4bSP/6rZT9rWoIe90zUuBSR0n/Wi7r9u8hJR41lGpey4OyJ5q/Tx4KJRt4wrqKCqeBNgpj/H2PUXjC399oZR/qSY8G9vdJ1108bcs4Hp6uYaSLlPY3F+EhhKah7TkZpfE8e05GgufVQQ3Yc9J276D9vYPxw8K42u4jPOw+wtQH8IzA6BqmNoDRAm0ctGpgtL2Wa8fF891cdc3F1fZajrLr9bBlrX2FnTLgOSAknqPBdSwcVB7arYPUuErYvZkEpMbz90yelMiGw4DC7ocaPeC4eCKo90GQa+tdFMp16K8ZMGAavVCz61Ja0q+sh4PWNfueejWUFvQrYaGTroGj0a6DAvqlRGphXYSVgUi98gTK2D264wkLGiVIV4EPQGoeNLDlXuMx4Ae96fFgQADSoz5g6JPGrzf0C4kxhl7P0CcMQrj0GE2frCE8QY9p0C9q9l4Dl34cW/bvq6QxOLj2cyQa1LRkQIIwGonB03WEcBGANg5IzV29s/CMxJEDGASekNSMh84o9xjPdw+XOEbbnYOQ9HoeDWnvD3u1piHtvqVXewz4D8V6Pc2A//3t8TwG/O9sj/YYUPY+sOYZGtJBaYODpqEclOd/f6WDow1SaTzPvydUJiyjQHsyDC3k4d/n+vdDjnD976wtG0/a641w/XveyH2uStzzigausdekuh4I723D+9zwnteekxOUO4lP/zoz3UbyEdGGYvAXv/gF1113HTfddBPHHXcc3/72tzn99NN55plnmDZtWqr/9u3b2XvvvTn//PO59tprM+f8+te/zt///d/z4x//mEMOOYSHH36Yyy+/nAkTJoQsbO3atbExN998M1dccQXnnXderP6rX/0qH/zgB8PXQdbhVrZo0aLM8HhHH300H/jAB0rNkbTKAozly5fn/nv++efbWkQrW7duXeoP5zgOkydPZt26dbnjLr74Yn7yk59w11138dnPfpZ/+Zd/4T3veU/hsa6//nomTJgQ/ps9ezYAbzzgRYRSHL/fixy/34sAvHn/Fbxhni2fcvDzHDp7PQCnH/YsB8x4BYCzj3yaeXtsBqU47+inmD1lGyjFhcc/zrSJO0Ap3nf8H5g42vrYf+BNDzGmPkBNeXzgTQ9RUx5j6gN84E0PATBxbD/vO/4PICXTxm3lwqMeAWD2xM2ct8CW503ewNmHPA7AAXus4/QDngTg0GmrOWX+UxgpOWrGct681zOgJMfNfp7jZj5nz2nOMxw1Y7k9p7mPc9i0VVBTnDF7MQdMXI1RgnfMfYD5Y+37/u697mX22A0gBRfPvYtpo7dglOCy+bczqbYVgA/Nu5nRtT5qwuXDe91MzfEYU+/nw3vdzJmTH2KP2mYun3krRsL02mbeO+1OjII5o17hwsm/A2B+71rePXERAIf0rOKccQ+hpeHInhc4c8wSAI6vP8db6vZcT+x5mpOcZ+zfQy3ljeJ5tNS8kyc4llUYqblIP84C8SJaaq7of4yDeBmAq197nL31JgA+8eqjzHFfA+BLGx9nmtcHwNdffoIJrkeP0dyw/il6jWaC5/I3K+13YEZjgK/5TwDm7mjwxRVr7N9jex+fWrUeoRVHbOvjmlUb7No37+BDK1+1a9+4g8tWbQPgjJf6uWCN/Wy8c20/71zbj9GSC1YNcPo6C7kuXT7ACS/ZzdCVy1yOfcWWr15qWGBPg+seh/232PJnH1HsZafnSw/XmLbDXmT/8vejGNun6PHgq/ePpceDcQOCL9w7GYDJr9W57v7JeEax59YaH/q9VeLutXE073vIlueun8A7H94LzygOWDOR0x6Zb897xXROeGw+rlEctmwWRz9pywuemcfBT++DaxwOfeJA9nlub1u/ZAGzX5iHi+KIh9/AtJVzcY3DgkVvYtK6PXFRLLjnVCa+Ms2W7zyT3k1T7dhbz6W2dRIeioN/czGibyza7WX/37wX6dYQfePY5zeXWXC+dTJ73foePCTO5hlMvfMSXKFwXpnLpHv+FABn3b6MX3QenhA4qw9m7MNn0xAKueIN1Ja8DQ+JXLYQ9eRb7FPxZ07C/PEkPCEwT70V8/yf2Kdij5+Nu/JoPCHof/Q83LUL8IRg++JLaLx8AFrAaw+9n4HN8/EEbPn9h2m8NgstYcOiP2dgxxQaEl6671O4A+NwTZ21iz6Fa+r0e+NY8/tPoQXs6J/CqsV/jifhte0zWfXIh1j3x3N5dcs+rHrycrSEzVv3Z+UfL8aTsGHTYaxa9i60MLyy4Q2sXnE2WsL6lxeyZs1b0NKwbt2JvLjuJLSA1WvewrpXFqIlvLD67by06Ui0NCxbdS6vvHooWsIzKy/klR374jqGx1a9l01989ASHln1AV5tzMBIw0Mrr2K7Nxkt4f5V19BnxtIQde5bcw2uqNNvxnLfmmvQErbpydy/7iq0hFfdmTzw8hUYCRsbc3lo03vREl4a2I/Fm/4UI+HF/kNZ8uo7MRJW9h/J49vOwkh4vu94lu44DSPh2b4TeLbvBIwSPNX/FpY1FmKU4NH+t7HCfQNGwh/6zmW1PhQj4cH+C1hn9kM7gvsGLuUV5mOk4O6BD7KZWRgpuLNxNdvEHiAFtzY+Tp8cjyt7+F/9CRqqhx1qPP+rP4FRgq1yD+7QH8PUBFvkLH7LlSDhFTmPe7kMUxOslQewSF6MUYJVcgEPO+eDFLwgj2aJOgek4Nn6m3i8dgZGCZbWTmFp7RSMEjzecybP1t4EUvBI/Z28UDsGpOCh0Rewqn4EKMGi0e9jXe1AUIJ7Rn+AV3r3ASW4c9zVbK7tCUpw2/jr2FqbCnXJzZM/R58zHlf1cvPkz+GqXvqc8dy8x+ehrthan8ZtUz4BSrK5ZzZ3Tv4zqCleGb0v90z+MEjBut6DWTT5cpCCVROP4qFp74G65IWJC3lkj/OhLnl20sk8Pu0cGKVYOvl0lk4+HZTg8Snv4NlJJ4MSPDL1fF6YsBCU4KFp72H1pKMRdcXv97yS9eMORSjJvbOvZsOY/RBKctden2DL6L0QSnL7vM+xrXc6Qklu2fcv6B81Ea9nNLfs+xe4Ti999Qncsu9fgBJs653O7Xv/H1CCzaPncNf8TyDqkg0T9ufevf8MoQTrJxzK7+d+mMWz38vKycexeM6lCCVYMfmNLNnzQkRdsWzGW3hy9nmgJE/PeBtPz3gbKMkTe76L56adBkqyZM5FrNjjzaAki+dexpqpxyLqigf2uYr1Uw5H1BX37XcNGybsj1CCuw/8NK+O3QuhBHce/CVeGz0doQS3HnY9/T0T8Gq93HrY9Xi1XvpHT+TWI/4aUZe8Nm4Gdx72ZVCCLeP24u6DPwNKsGHi/tx34LWgBOsnL+CB/a4CJVi9xzEs3udyUIKVM0/k0X3eg6grnp99Ok/NezdCSf4452z+OOdshJI8Ne/dPL/nWxFK8uje72HljBMQSvKH/a6w56QkDx7wUV6afDhCSe4/+ONsnHgAQkl+d9jneHX8XPs3O+KrvDZmJkJJbjvqBvp7J+LVRnHbUTfg1UbR3zuR2466AaEkr42ZyV1HfBVRV7w6cR6/O+xziLpi45QDuf+QjyPqipf2OIIHD/wooq5YM/04/rD/FYi6Sp/T/Hcj6oo/zj2bP849G1FXPDX/3Tw/+3REXfHoPu9h5cwTEXXFH/a/gjXTj0PUFQ8e+FFe2uMIRF1x/yEfZ+OUAxF1Zc9p4jxEXaXPacwkvN7R9px6R9M/ZhK3HvHXoET4dxJ1yasT5nL3IZ9BKMGGSQdw3/7XIOqK9VMO54F9rgIlWT3lWBbPuwxRV6yY+mb72VOCZdNO5clZ5yLqkmdmnMXTU89E1BVPzDiX56aeiqgrlsy6kBWT3oioKx6e+b7Y92nd2ENglOKePT/CKxP2g1GKO2dey+Yxc6BXcdusT7N1zAzoVdw87Qv2GlEbzc3TvoBbG01ffWLzGtE7ndumfBLqis2j5nDnxI9BXfLKqH24Z8IHoS5ZN+pgFo19H9Qlq0YdwUNjL7TXiJ5j+cOod/HQqPN5pvdEHh91FtQkS2unsrTnVExN2utez5sxNckjtXNYXjsGU5M8VD+fVfJwTE2yyLmEtfIAjBLcIy/nZWc+SPgtV7JZ7olRgjv0x9gm9sA4klv7r2O7Gk9D1rltx7W4ss4OZxy3b70WXRNsM5P57ZarMBK26Jnct9n+Pr2im79P6939eGTjn+I5sHbHoTy+yf4+rXntSJZuOgstYcXW41i28VSMNCzfcgIvbDqRgbrh+VdOY+Wrx6MlPL/27azbYn9zn1t1Lhu2HIaW8Ozyi9j86v64yrDs2UvZsn0uWsJzT13Jtr6ZaGF49tGPsaN/Cg0Hnl/8SRruODxd44WHPolr6gy4zX1Ef98U1j3452gB7tZZbHzow2gJA1vm8+rD70cLaLxyANsXX2JjFr64gMaSd+MJMCuPgkffbmHfsoU4T56GFoLa0yegnrZql9qTp9L73DEAjHvkrYx+YQEAkx46i9GrDgRg6v3vYPTaebhI5vzunfS+MsfeD9x5HqM274GL5JBb30Vt6yQAjvzNn1LvG4Vxezj+5ndi3B7qfb286eazAejZOpGTbj8ZF8WEzeM58a432b3tK3twyr1H4RqHPddP4cQH7FrmrpnBSX/YD9coDlo5lTc/ujcAhy+byZuXzsQzioXPTuW4Z20izhOXzmDh8gl4RvGOpyZxzGorQrnw8Qkcvq4XgMuXjOfgDRYgXf3IKPbdLMN9+dzXLLz66iOG6X7YtW8t6WNCwzAKzbef3GLvNVzDt5+29w4z3AGuf97ee+7VvyO819i/fxufXLsKgEMbG/nIxucxUnPMjk1c9uoyAN7Yv54Lty1HK4+TB1bzzr7laKk5s/8FrnltCY5o8I6B5zmpYec5r/E0x+nVAFzkPsHhxkKPS/UjHCBeAuCD5iHmC7u2j4j7mSntjcc18rdMlvae8JO12xkj+6jj8fHe23BUg3H0cd2YWzHKMEVs46qxdwAwU27hivHWdXJO/WUunmDvCffpXRfeEx44eiVnT3wQo2DBmOW8deIjGAlHj3+WkyY9hlGChZOfZuHkp+3fadLjHD3hWQBOm/IIC8a9AMBZUx/igPGrMBLOmbmI+WPXYSS8e9Y9zBll7+kvmX0n03s227/lXreF97lX7nMLo+v9OI7HlfvcguN4jK73c+U+t9jPdX0bl82/HYA9/PEjFqiLq/+rajfeeCMf/OAHufzyyzn44IO56aabGD16NP/0T/+U2f+YY47hG9/4BhdeeCE9PdmhAe6//37OOecc3va2tzFv3jze/e5389a3vpUHH3ww7DNjxozYv//4j//g5JNPZu+9947NNW7cuFi/MWPGlDqvOXPm8A//8A+p+h/84AfMmTOn1BxJq5x8pJv2mc98hq9//euFfZYuXcqvf/1rfvzjH/PMM8/E2qZNm8ZXvvIVrrrqqlLHu/POOzn11FN57rnncmMkZikG3cYAV35jgNf6mopBT8tsxaCsFaoHPe0r6pSH6wVlN1sxWDMJ9WBCMRiU6bFPRaXG1cp6PfvKQCk00hFhWUiBa/wyBk/WmnHjRK2pGDQSx4o20EahHC98euII138y3Xx6opWKPUlxVPNJSk00GJBWyl4XLgP+U5Ue1c9Bo1fz+GvzkMLQL+3ToahiMHhaKv3nyQ1ly8Kvt0+EDC4KIe0Tr4ayT4e00ngopHQxCBoS+yQWgatAyQYaQUPZJBMNpdFC+uu1TzJ6jEe/sorBOg0GhMQIQY0BBoRES02P0fQLiXYa9BjNjhoIY2zZwX9y59knjf6Tu34pEcLFMYYBKVHCQxnDgGOaKkFH27LQoXoQ6VllIB4GcKWgZmzZU5q6Z+zGzDG2LLWvGDRoR6MFoWJQCxjlaQYUoWJwQIGQHj0euI5VQdY9aNQ8hIFRWtPvWNfSHqPteo2LowW65jKKfuuOWnORGmpG4zqGurbjheMiPUFNeHjKUPMDo0rHRXkSJRpoZejxlY+2bF0dlHRRrnVrUKqBchVCWhVdjyvwpGfLDYHneDjSRTYctOOi8KxK0LHf7bor0TWrEq25Al1r2PfaczA1qxgUWqFUv1ULasBxY2XlSjACHJeaCyBQagA8ZZORKA/lKwaVdMFzEEYjlIds1JqKQdeWVagYbISKQemXZaMOyirRGLBP+gGk2ywL1z7pN0YgG7WwTKOX7S8tYMyMxSgtrEpQS4R2mmXPVw9qhfQEUrm+S4uwymHfLcXB85/62ye3YVnYJ+1CeNZVW9eQ/mfa82pI6fplq16oeeB6dZS056TdpkpQez1NxaBJKAblAHjNsjECE1UMGl+J5peVtArOQDGojYorBvHjTAaKQWEVg0E5VAnqZjlQDyqdUAz6KpOaTigGsSpBhwGENjHFoEuNmhhAe8QVgzi+olliPBmW7VPtBp7nK4DC8/DPz/f5iilntGsVgxHlTKAY9FLqQReJXaPUA0gMDepWBRmWB8Az4TkF51fDKgtcr0aN/rQCCKepHgwUg1E1kCfsb4eviGyqIH01kG7E1UD4qvLwnLRVDEbOz204+YpB46u2ImqnmMJJ17IVTlHlY6TcEHVWjTmKvbY8gBAmpYL0UCASikE3UKVFVFuhYtCqtopVkD1I00B4XufqusaOtBItOL+kEi1U1KVVkNJtxNV1URVkUl0XUUEq4Q2+YrDNc0qq65LKTol/TtG/TTsqSNHIPKd6oBIUNZzgc+jUIp9DXymNwjhO9mfPkfY8gu8T/jnVRPr7JOvZ3yfVGyqJ46riXnt9w8RVxaon+xqhbFnjK6Wxqjt7vWjEldJKNcsoPBxWiSOYI5ZgW9zQhTRQCQaKb5v4wapxk9dvoXRTCS698FoupNtUDPq/Tw1RRzGAUQKPOjJQDIp6+DvkCvub5AqraFeOfy03DtLxr9/C/iZpI/FEVD0oEE6gEhSYegOtlQ0HIu1vrpY6VOlbTwUPHXgbOLZslIeQ2i83f4eEbGBU0/PASG09Lmr+76xu7iNck1AMBipBauiIYlA4DVw/mUZQ9ozC1FzwFJ6QeMoDT6ED9aBn7wMaDn4fqxL03DoIg6cMwnVoKAH+Go3UuJKIetCqBAeUAWkwjR604+EiUQ2HfqepGPSiikH/bcOt49Y8qyjTkj7HKgaNV8N1/N9ELRhwrDJQew6uo+2+wEC/UrZeKzxlMK79Pm0XdV8lKG2cZdfBCBgQylcJKjyJ9YARNgtz3YMBFA0UNVfSkFbR1uNCn7DfgXpD0CdsUpIeV9KHQgRlJRGepMcV9CmJ8iR1Le29hieoe7asXIljDJ7uQRmNowUDQvllRUNIlLHuxK6Q9GiXN27fwD29MxBYV+FAJWi0Cst4Tlj2EGAc6sa1rt26WTbGoce4uNpX1+Hiav+eEA/XV5L2epoBrLqu7nkMUENpQw3NAA7SM839pX+VsHsYe68UeJFJbXCNrx7UvkowqhiMlB3hYoxAe3GVYKZiMFVu4HnN+9yUYpBsxeDomsc/XbBpt02eAYTJR3474UK8islHlBnFSVt+Xvr9GxgYYPTo0fzbv/0b73znO8P6Sy+9lM2bN/Mf//EfhePnzZvHNddck3Il/qu/+iu+//3vc+utt7L//vvz6KOP8ta3vpUbb7yRSy65JDXP+vXrmT17Nj/+8Y+5+OKLY/P39fXRaDTYa6+9uPjii7n22mtxnNZOvb/5zW8477zz2HfffTnuuOMAePDBB3n22Wf51a9+xVlnndVyjqRVBoPvf//7C9vz6GuWvfzyy2zYsKGwz957781PfvITPv7xj7Np06aw3nVdent7+eUvf1noShy11157jbFjx3LLLbdw+umnlxoTfHg/8HWXHQN+ZbcDbbd7YchbR3S+oriC0baCWIJFMQSLMguXabd94q+TcQOL2pNZiGN1SqcSjmhlwrgY0UzE9nU823BWjMFmW7ouyE5s1zBIGYojdaEcPRIsI0guEo0zGCQhicYPDPtFxobZiCP9khmKo3XRLMXR11mZioGW2YrjbZE6sjMXR/vF6vAyx9ljdZbFWGW0dSOLcbwtXZeub5azMhun+usy9ZEYgbpan6qZjpNt0fiEyTYglvU4u52utrd6HdbnxGDL6184V1Gsvoy2/MzGGXO3ihVXcOx2si4DBVmS2xgT69OmG06FDIMxa5WhOc/aiM/Xtey+XYoNuDvGGBxKG7SEHVmx+6BE/L4Sc1eMO5h3zDLJ6gr7Qq7PU9m5jczenxZlEi4TL7B1ZuF4bMBorN524gXatmZdXtzAWFvk1LNiCEbHR2MJ2tfxeIJBnzB+YE5MQWBI4gp2O6Zg2WQjQX00E3H0f518nchMDNhsxH5bLEMxEGYprpihGAgTkQBhzMFUhuFIfMNom4yMjWYeTmYyTrZnZTPOymKclcE4K0txdh2pumR91Ir2Zpn9O/gNzDvWqJrmhxdsHAGDHYJBp1aPxfDr6enJVPe9+OKL7Lnnntx///1hgg6AT33qU9x999088MADhcfLA4Naaz73uc9xww03oJTC8zy+9rWv8dnPfjZznhtuuIG//uu/5sUXX6S3tzesv/HGG3nDG97A5MmTuf/++/nsZz/L5Zdfzo033ljm7WD16tX8/d//PUuXLgXgoIMO4sMf/nDbisHKMQajcA6g0WjwxBNPsHnzZk455ZRKc02dOpWpU6e27Ldw4UI2b97M4sWLOeqoowCr/tNah4S0jC1ZsgSAmTNnVlonYCFcpzyw0wtAGSDZDhRMWlHGpIJgq1mbqaw2225B0dkTH+S/Nh/LQEaW5zJAMD2mCQWTpjPG6CQhyDDpqVQCEqlVDA6C/bGNwkHITjTSUYbikklKup2EJMhQHLVmQhInNxmJE8lmHE1IEn9D7H8qoy1IPmLPM94/SFCSqkt+UU0wV36Skiwb2iQlGQdJDcjZoES/WxkfZ+PV2PjEu5l4yL8hVSPWJ5pkxMOEEDCeoKT50czv070kJpABChPnrkm2k2ino/akZXzF/HqRXa8KkpFUnMsuUKTAYXhTm0pAkj52s2/O/DmJUMKxeVCtYFxmchR/DFA9SUrYR+WPLxwXKVcBcL2RgQVw0aXGQxMv5pjNP8MhkZW4JFzMTFzWzo1J8hLYJnBMgasRUNi0QUhS0jH8qwL+OoV+Qwz8gr6uqbHYfRdHOb+2Csu8uXPrW7xOgMBouTz4i9e1m0UY0jAw3mbrvNgcBW3BpTerLgEDY3UZQDB4HU0yEtbtRCjYyoYjFExaMgGJEF4TDkYtkaE4mnQkyFAcJifx72GEp8L7lAAQgp9AxJ+v14PLXn2WH03Ym4aphfc/QRZjO30z+Ujw65Js10qHoK+Z9diEcDBIemL3hsGeUYfZi0XYz4RJSdJ1TQgYnSeaqCRqWeKUIliYd40qAwyzjjViceskxuDs2bPZtm1bWP+lL32JL3/5y91cXqH967/+Kz/96U/52c9+xiGHHMKSJUu45pprmDVrVmbSj3/6p3/ikksuiUFBgOuuuy4sL1iwgHq9zoc+9CGuv/76XDfmqM2ePZuvfe1rnZ+Qb5XB4L//+7+n6rTWXHXVVbnuuZ3aQQcdxBlnnMEHP/hBbrrpJhqNBldffTUXXnhhmJF4zZo1nHrqqfzzP/8zxx57LMuWLeNnP/sZZ511FlOmTOGxxx7j2muv5YQTTmDBggWDsk6gc/gXWDuqxIJjZ2YgLjMuJ2Nbsq3oApgFBQE0kmcGZuHGFIjxvllZh5NQMC8LcVItaNcSVwsWmf3BivcTkR/DwrqdlKHYGBWqAZt1MlQNFvULE9G0VdcaDtoTtv8NN0DooHM3lUMDCJuNnhCh8s8TTdWgFqIJ8WL1EbinmqpBC+jsZrE2bSlGejYWUATWhR0Di0HGqPQv54c7t0/kRojWoNB+NZrjB+pJiJiAhQnI6MmEqjDxVfOSX59EexlQmA/0qoO+PHCYN5e1fEVOJjTMyZ4MeccugIcqeDqfM26owGFWvzJ9U2M7hIsZoE1imDXwJFIaUn+rknCxlLWhYBxuwHFnWi5829nWaebeTuBfBbVfaTVeZr/sw+QDwnS9EIaZ4hmEMjbBRTBHFkyscLwsEBgtl8kiHK9Lg7wyMDD6M1YGBrYEhQkYGFMKVoCBWXXDEQq2Ugtm2c6Ggkm1oC0X3bN59nc66BMCQn+eIENx4KXkDysChNEMww2pWdI7wbqTxzIPe6E6MIB6UYu2N+t0TDlo60xMOWjnMyS9SqIgsLguGw4GbYHlqQjz3up2gKE9TvFvq8kfutuZ5weqqGa2/+rVq1OKwSzbY489UEqxfv36WP369euZMWNGxWM37ZOf/CSf+cxnuPDCCwE47LDDWLFiBddff30KDN5zzz0888wz/OIXv2g573HHHYfrurzwwgsccMABba+vXasMBrNMSsl1113HSSedxKc+9aluTJmyn/70p1x99dWceuqpSCk577zz+M53vhO2NxoNnnnmGbZv3w5AvV7n9ttv59vf/javvfYac+bM4bzzzuPzn/98dxbUTflvJ67Jeeso2vy260IcsbJteVAQbHy8J/rmZrZBGgrmAcFoWx7wy1ILQnn4tzurBgPYF1UNNtWCTUiYBQcBiLgWR9WD0ASEjvCaMHC3B4TRDslO1dSEngIlNfXZS3CJKP9EBCDGVIMkFIFBfftqwtT6EgAv/xzib86gqgpbgcScOQKrCg2t5aloqkPDTAiZAQyj/fNhXpHaUex8cJgzT2hVgFfb4yLXCH+cxDC38YgPz4p+fyPldsBab/KHsksqvm4Ax8FSFA6COm9YWJ7Lb2DdBoB59UMAAKvAvyy1nwl/ejWz1WNAHGi1Ok4ZcJgF+PLqy7gIw/CAgbG6EjDQ1qXVgen+ItY23KFgnlowy3YWFEyqBaNtmSa9UDGI1Bj8ew5/Xx4CQl89SNBeAAhd4PejpwDNB7BNxV8aDgZt0ISDUXAYqgBj/SwcjPXzoV5MaeiDwLgaMKsuDgft25EGiEnLg4X2nLPrW7kjd6Iy3N3MFSr8/pc1439/x40bV8oVu16vc9RRR3HHHXeEMQa11txxxx1cffXVldcc2Pbt21PHV0qhdfoD8o//+I8cddRRHH744S3nXbJkCVLKzGzJQ2FdAYMAy5Ytw3Xd1h3btMmTJ/Ozn/0st33evHlEwyXOmTOHu+++u3sLkKLQjbaUDQYAzDxOvG+3XYiL3ISLgWH8tYPLuycu4t82L6Shmh/FIiBY2BaBgllqwahJT6YgYjb8G6aqQb89phr026NqwAAORlWDAfSL9fPhYBT0dQMOArnqwSz34gAQWmjXDJLehIc+UPQBoYWBfpv/YxEAwihEDABhDBQmAKENwC79/jrsnwUPPSQK3fxBaxMQakQYb9ATIoxFaFWDUUVge2pCAOPV2P6HSxj9hp/iyAi0znVbJbtPCTVht9yOk/2sDSEozGiHfGCY1x/ag4bdclEObrAzjxO2VYV5gwAOoVA9WGlDXTRfkXUIF11qLOp9Lwtf++e0K3Hu2C6Atayf7eEEHEfMWtX9Y6dx/4YTAKzg7tsK4LmmxkPbL+Docf/qJ2spP7aoLgkZW0HCbsYMjLaXiRkYbR8qdWC8v0i37UJQcLi4D+dBwUAtqLPId9SEjqsGIy7FtjkCCIOpMgBhEH/Qcxoot0Zdaz66cRnfm7Q3A5JY7EHIVgZGoV/YL0NVWLZfptIwQ1WYVRdtCyyvTx5zHUxgWHSfvLuZR/Usw6INyeV1113HpZdeytFHH82xxx4bisYuv/xyAN73vvex5557cv311wM2YclTTz0VltesWcOSJUsYO3Ys++67LwBnn302X/va19hrr7045JBDeOSRR7jxxhtTuTheffVVfvnLX/I3f/M3qXUtWrSIBx54gJNPPplx48axaNEirr32Wt7znvcwadKkyufZDasMBqO+0ADGGNauXcv//M//ZPpU75bWaXKStpORpMeVdiFOQMEiF+L4/PnTx4FhvM1esCWLt++DVwAr82IJtmpLmvQEWplsNeBQqwZ9ehJVDYbtUbISwMEoJBwEOAg2hkkUDoIFd3lwEEBGoGB0TBQOBnVROAhp9WCQmCSqHgyShng4MTho+zkpOBjM26zLgIj+/0AKLMYyGyJj6sEAEEbhYfj37gQQRtrT9WRaVVBolKY29wG0tNmoi9yOm/P49RXVhEBHbsckN28JlUXM/VcOsftxTr+W/QvGFMPBoXFRzp2vFTiEHJjXBjiE1nEO846XZ5HfsMpP6ts4nkSzj/d7ZN0076CrWtYNQ1uwcBgBx93JuuWmXEXtt5MAYKU52wCAeccQRjN31MMI6cVc8toFgHl9WykGbX1rhWBVIGjbh4+7cLx/tG7XVgnuKlAwmniklPnqQDskEnMwoz2wKBwEcIXgrjF7hO+9lh5Sq5bKwCJV4VDFG4RsqJcVlsq+HeWBYREstOeV31Y16cmIddcuuOACXn75Zb74xS+ybt06jjjiCG655RamT58OwMqVK2PqvxdffJEjjzwyfP3Nb36Tb37zm5x44on89re/BeC73/0uX/jCF/jIRz7CSy+9xKxZs/jQhz7EF7/4xdixf/7zn2OM4aKLLkqtq6enh5///Od8+ctfpr+/n/nz53PttdemWNtQWuWsxCeffHLstZSSqVOncsopp/D+97+/VHrlXcnCrMQ3wo6ByAWkG5mJO05GUjw+BQUHOQtxWRfioqzDZdWCKbfihPovvhkL4gpGxmfEGizOQhzpl8hebNu7nKU40h5TDgbl6K9M8PQvSh66nKk42jdWJ9J1yWzF0bogYzGksxZDOnNxrF9mW0ZW4jazF8ePlc5QHPRTsTl86BftV5DBOHyduOwG2YyTfWWkn4oAtHi24mh99jE6yXScaouO0WXqm9eFTrIdJ4+Rtc6izMdQPftxVp9m3+z6onxG3RzTTuZjyIdkbc9XMZtyq3XkgsMyY8tYm0q4nXHMTOuWO1I35nk9uEYNB/VGmTUMBQCEjlSA3QSAlcbmbIUzXY0rqgWz23dPl+FoexII2roRKAgWCnYbCJrwQ5QAhVHwFys3//CxbMWJ9ig4DOBgMikJxFWDRdmIs7IZZ2UqjvcT6X7+BzKW2TjsJ1J1yfqotQJ6ScubJ8+qzj/K0fzzuRtGshJv3MB/TLocV1bLSuzoUZyz6Ye79fsXNdd1+e1vf8uyZcu4+OKLGTduHC+++CLjx49n7NixleerTPHuuuuuygd5XZhSnW0gO/nwtvEUuhAKJm2IXYjDw+Jy0aR7+Nmrb6aBU8mFOGplEolAUzUITUVg1KU4UA5GlYFhvzAGRrNdRJ6SRZWDwZiocjBwKxZRqX9EOQgWEGYpC2OKwaAcBtxptgcbByF1TCIUqAejMQcD9WCwKYm6FgcblzzX4lid71ocVww2sxXbunRSEmiqA6PzRV2Lm+rApmtxNO5g4FqcchmOuBaH6sCEwtAeK0NFGFEPtnItjioLA9disJtex3jhpjemHgxeRzbTMSUhxAR0nmiCwnbdjo1bw/v9ZdSP+yHCaVROYuIfPNtkTp9YfZ5SsHWflEqQ+Katlftxp6pCe8z8G+huKQe76aLcui3fTRnyFYdQXcHYVpzDgnXExgZW9Ul8O+7JqWOmx7rUuEe9nzd7/5R2JU6qnjoBalnfoXbAYzcyDu+srMXDAea1Y+2uuxLYa18FONwBIECDGg9tfC/HTP6XMDRGuwAwq192H5PZJ8tl2JY7A4LxsSNAcFcCgrHXOwsK5liYlCRal6EqVLKfT65fwY1T9mFAEmYsluH9y/CLNxgdkzrvnLcmD+h1Q13Y6hgjZq2d5COicrKS16+tWLGCM844g5UrV9Lf389b3vIWxo0bx9e//nX6+/u56aabKs/5+pL3DQcbZBVgkRW6DUdtp7sQW2soyW93HJJyzbTjyrsQZ8YL1CISgLbpKpwHB8H/wYrAQVvnxdyKi9qDH00tvRgcBKsejMYczHIdDlyLs+BhM7hwjmtxpC50LY7czUfhIFA57iDEXYtjdRXjDgabrDJxB/PgYLQugH6Qdg+uEncwDw7aeWUMDgIxeBhNTBJ1LY4CwqCtCBIGtTHrwO0YDEa5cODtDDgeTiSbYKfZjpv9/foIpOtWEhMg4zqUuDYUuB9n9q8YqzALFgaWckeOrKF4TEZDF0EjdB8cAoWuypAPDvPa2k6QErXI16UKcOs2XJR4HGJu95XVxQAoC6x0pCrsBnhMrqkbsHF3tU7jUftWGItqFwSAlcbngT3jsu+EO0G5aNE+AMzvlw0BA0v+XhQBQWj+PA1XIBitKwMEo+0jQHCIgWCkrRAEtopNCJkux4FLsSsEv544FVfE54nCwbBuGMQbTMLB9KlWA3pVgGErdWHWMYpA4u5mrpCVk48gSny+dxP78z//c44++mgeffRRpkyZEtafe+65fPCDH2xrzlJg8IwzzuDLX/4yxx9/fGG/rVu38r3vfY+xY8fy0Y9+tK0F7TK2EwEgVICAyWMVjGs/03B+W9RSikAkKxrTUm1F2YfbtVZw0NbLEA7a4+apA6NzqQx4qEI4GIwJ1IOBVD9QD4bwzw7Mjzvot8fiDtoFxOGgX1cl7iAQqgfz4g5CE/p1GncwLylJdL52kpLkwcF4XUa/RFKSZNzBsnDQjo2DvygfaAUJw7puqwmFgWkv+O9v9GjR73seZcz57kWXXUJN2E1QmMx43EpVWBUUZqkKIQMYhvNn98+Fhv6aKkHAdkCjPw6yxxbDvKK26uAwmLMdcGjbyv0GtFL15VoX4KIApurltr4FGMxeQ3pMu8rCFNDpEuQbyaoYt64Fka8AEoebC3DecbqZCCTaT2CYPOoFIA7Iqs+X/iy3goDJPsm9aTeBYLS9DBCMzjHUQDDefwQKxtvzoWBLIAhplWC0Lu91WcuJN6g9xdJRYwE3zFScBHjloV4aHGaCvki8weZ8aQVgnkIwuG8UXvpaVBXoVYkvWFVdOGJx020oBuWIYjC0e+65h/vvv596vR6rnzdvHmvWrGlrzlJg8Pzzz+e8885jwoQJnH322Rx99NHMmjWL3t5eNm3axFNPPcW9997Lb37zG972trfxjW98o63FDGuTsv2nwEOhAmznuG26EEetrAtxVlzBGi6XT7yTf3z1ZHSH4tUs1WBx/2I4CK9P1+IY9MtxLQ6gX5FrcdQFOc+1WImkinBwk5LkZSwO5i0DB2N1ETgIxUlJou2BVYGEdnz31IQxUOj1UL/7CrwTf4DnDHQl23FVNSHQPbfjZL/MvhEXL6q5H9u69MYuDxgGlgkOu6g29CJf8awx0D48rKo6bFch2A44bDVnrkWhXQUw1i5cdE2du70PcmLtH3DEgD1uhyAtW1nYxkRdgnxdAY7D2bqk9MuzjkFiBTBXFgDa+pJ1QwgA8/q5us5D667g6Fn/iCMHSszXGgBCsRKwWVfcJ8tlONpvBAiOAMGOVIJZloKE8b6p5CM5FnUprosGX1izgr+cMR+Xmt+uh51LcbQ9PI+EsCQLFAbjsmww1YVF84/YiLVjWms8L/0hXL16NePGjWtrztLJR/r7+/nlL3/JL37xC+699162bNliJxCCgw8+mNNPP50rrriCgw46qK2FDFcLk498txZPPpJlQ6kCrHrsgmQjkNjwJTaPeYrA4piD8cPFFYH2f4FmhrOZF/UEDM0LftKyLrCZ/TLAYHojF++TlZAkOV/rxCM61pZuT48JAKGJjfHLkX6ZiUli2Rm8+P/QvHuOJhbJSEwiInMHgFBE7rwDQBjrF2TYzUhKEq2XIl23KyQlyUxOEj2XjMQjyf7Jfll9k8lIHOMVtmfVFSUwifXXArV5BmbCWpCmchKTdL8y9c1yLOFItD7aX5epj19v8hKZtOprXyfaM34F82BZ0cYub0yu2rBgTK7asGCMHZff1snYqklYOmprAa06yfDX7thWcFEbwRYzkwliLVIU9B0EmNY1JV8H72tgQ6kq7Jpir9vWJUFDqfPLhX0dQLxhAADz+hkj2NKYybietQgR3b9lf+7agYBZe84iCJg1rhsKway6IiAY79caCNp2EW8rAIIw4jY8mNmGS0HBIrVgCyiYjC+Y118aw7wdDVbUe9FCFCYjaZVspChRSSyxSFgn0v0iH+IweUkG8KsC3fKAYZZ1OxnJKEfz07dv3K2TZwRs5SeTr6Ih+yqNrele3rPx73fr9y+wCy64gAkTJvD973+fcePG8dhjjzF16lTOOecc9tprL374wx9WnrNyVuLAtmzZwo4dO5gyZQq1Wq31gF3UcsHgcFUBZlnW8drIQlzFhThPLVgEDG17OTCY27cgO7F9nQ8GIQH0MjIW2/o0ACybtTgLDtpzCdojvyiBmq8sHIyWS2YtLgsHo32zshZXhYO27MbqugEHo3WDlbHYHq8Y/HUTEmb1aQUJoQAUkoCAOynbcVVImG4rhn+dwsKs4+eNbTVPqzF54LAY4hVvVrsNAAdjXLvgMNavTRC1M+Bi/nyDANO6MOeI63Cx7QxX4tjxXwcKwKr9bN/2VIBZ/VqpACENAcuBwzTwi/Z7vQDBaHkECuZDQR35gJRyHQ47F7QNAhQMX0dAXhYYhJ0PB+06W+2DBgcWVp3bzm//HwGDTbby48lXtwUGL934f3fr9y+wVatWccYZZ2CM4dlnn+Xoo4/m2WefZY899uB3v/sd06ZNqzxn2/6bEyZMYMKECe0O3/VMybYCaw85BAys6LhtQMGktetCHDVHDvDhCbdz05bTGKA6XBaeaJmIJJqExL6WKTiYZ0m3YqBj1+KsuIP2XJquxUnX4UzX4qy4g0DMtTi4e63oWpwVdxDirsVZcQch7lqcF3dwqJOS5GUsbtYVZyyOjg0t+owgw4U4GJe0lu7GibmhXGzCJKmIxSZs1Jl4+wd47dT/D2oDqf7tZju25aFLYgKQ63YMrW+uK7gfh0PI3vwl3ZFjbTnuw1nuyYG166YMrdyHc94TWTwOuh/rsJtxDuP9oi7DxX1j46Jf58oZitN1rlfnrtc+wsljvkdNDKQ7FM6X/XfqCEAm5mwHPnY9ScquaF10L877O1efp1rbcAKA1eZMf9YGTJ0/LP8Ib5j3PRxlv2dlAKCt6xwCZo+J90nGPsxSD0b7jQDB1y8QtK9LqASzrIoLccSqQsGk9WqPv1y9jC/M2oc+mX+c5jJ3TrxBaApEqrgM57sLZ/+2ddsdOc8teXc0F5V7v5RnomL/17PNmTOHRx99lF/84hc8+uijbNu2jSuuuIJLLrmEUaNGtTVn24rB3cVCxeD3egpdiYclAExaRkzBneFC3BynmSy3sVGPDYO1512Yd5ZqMDlfeuzOcS3OUhbackXX4sidZ7ddi2N1mYrBuGtxtC1QDzoZ/Z1MdWBUoecm2iL9M9yDm3Xpfsly5usuKQmz+ndFTahBbpuMHrsR/JuSoVYTFrUNlqLQtnemKswb16wvcPftotqw1bgiV+VWYwfDZbkdt+NO3KO7NaaTccYIXtOTGSM3hi6Og6G466ZasRtzDYracQitW7AuPufOmWdnAcAqfTuNA2iMoG9gCr31DQhhSgHArPlauQJnj0nPWwQB88aVAYIQiQFYAghm1RUBQWhCwTJAMNqeBIKxukGAgq8bIAjFULCsC3GFuIIpKNiiP4B0JdPdAdY7dUyOK3HYN3qsAmVgK1Vh6CIcqxPpfv6HPAkTs2wwFYCduCKPcjQ/O3NEMbhp4wb+v8nXtqUY/NDGb+3W7x9Ao9HgwAMP5L//+7+7Gsavs4wPu7G1DQKHCgJGLSfJSLtZiGP9ih5otcgmbBBs0PHgmFkqQEgr/1r1HyxLKg6zsxI3k5YAhVmLg7qqWYuzkpb4ByPMWhyAwKKsxRFZTl7W4gAORrMWh/189WBU2Rf0G+5JSbIyFkf7ZVlURRi+7oKSMK9/V9SEUuON3xhOkMx0XEsmQhkENWF68XnULFIuUJ8FVqgohMqqwmQG5HAalQ0N89SB0F21oW2z/2fNOVAvVg9C9azK0JnqsGqSlE6Sq2SZyf5IVxpXbaxhjNrgl4K50u9dpzAu6z6v/ezFGXNVXN9gnGPrYw7u/EO9hk5dknOzBQ8Z2CvbrxsuwIaeUa9gAK/kfJ26AgfWCgKWGpMBA1P1I0Dw9acShLYVgMVtxZCvan/hKYyAdTX7PkWhYFnLUgaWVRW26hdNRhJYHiTshgKwirqwzLwjyUfiplHhtaGsqRHFIAC1Wo2+vmpQtYyNgMGKVgkItgsBOyXgRdmGfeuGC3HZuIJ51qtdPjb5Zv528xkxV+JO4WBVd+JohmIgBuyqWBYctPPvJNfiCAjMcy0OlYMVXYtj/XJciwM4CISuxQEcDOqScDA6RwAHIeIyHIGDQMy1uAgO2jmcFBwEMl2LAxsqSBjNbpzVPxiThIDRDXpepmPd6GXazR/mpTNvQtb6Yhv+JCQE0sxuGLsdA4WgMAnhkuAvC/hFOXvUiqAhVAOHQVUeOLTzpccVzWnbit2V7TGzx0J1l+UmzMsaR+G4drIkR/f/1TIUR4qVwVe6LuvYrq5z14ZrOHnKt1PZUtuZr4p1E84lwWN72YvbO/ZwtG7FEewqSCwx164PAKN1Efdbr85jT32cQw/9G1QyK3EbKkA7rtgVOGtcqTGJ9RRCwgyX4Wj9CBDctYBgtE+WDQcX4ry4gr3a45trnuVT0w+mP/abGx8vW0FI4lCvKItxLOtw2K/pUpwFB8NjZG3MqAYMu+EuHJ236nwjNmLt2Ec/+lG+/vWv84Mf/ADH6Q7SG3ElbmGB3PWKm0a1zkoM1WFgJxCwBADMsiIomGzvhgtxXh8wjFY72GZ6SUmhqOZWnOw7mO7E2eOz3YajfXdV12Ipo3XVXIuHc1ISOzbfLTjd5sZfD4G7cdkxtk+O27EB2TcG0bs19TWrmuk4OWZnJTGBcm7HkOUuXNze7FfNrbiduVrN1+rpctEec6hdlofaXbnsHEXWVbdcD/r1WHrkNkSJrUKpOQdBedcd9+HO5xhutrPcfwdjrs5j+5XtN3gAMK+fMTDgjsOpbY19zwZLBZg1rgjwVeqTUjKm68sAweiYMkDQ1tmDdQoEbd3Og4LDBQjaugIoOMguxN1MNiKMYdKA4FXpYPzPRRIKQhoMZrkL236ysE9Zl+Jk32ZdBbfeEi7I4VpLuAsXHTtv/ChH8/PTN+3WrrABW/nupE8xELnHK2N13cPHNt2wW79/gZ177rnccccdjB07lsMOO4wxY8bE2n/9619XnrMyXrz00ku54oorOOGEEyof7HVtZYFgl92By1jhE++SUDA1Z5e+i65XS7v/tbAs5WCnqsFuWp7icFi6FgdQssC1ONjsVHUtHs5JSSCtBixS/A2VkjBvvk7VhDVnAJ2hJky5IbdQEw6F23EZNSGQ63acVBSmVYPFqsJmv2puxVCsNoRscNhKcQj54CvPXbm5zpxxQ+2y3EJ12I67cnKOwNpVEkL7gBHs51OYATxBCCw6BmgZl4ZOf7a64z7c+Rw7w4YDtEtaizwAlaw4tEu5/sMFAEIecDMg+tDShN+zMjDPji0+ZlVX4Kz2zD6ZSsb8PlkJRKL1QwUEIT+xiK0bUQkGpou+yEPgQhy1TqAggHRr9AmdF/DF9imAgumlplWDQKgcjKkBfeVgvF+2crA5f3kX4Cx1YRllYZECsJW7cdVYh7uTtZN8RI64Eoc2ceJEzjvvvK7OWRkMbtmyhdNOO425c+dy+eWXc+mll7Lnnnt2dVG7lA0GEOyWErCVFUDBormLXIiLTHjxvnWsK/F3N55Jn0x/FIcyfmArd+IkaKw0d0FcQuiOa3GgHKzsWpwVd9AuoDDuILR2LY7FGCwRdzDuYhyHg0As7mDoMpyIOxhzD47AQSB0Lc6y4QAJ7RqruRznjYlu7IVbY+bN72fVWT/A1OznqeNMx2RAwuSYKIwbQrdj20ixJW/KyId2VaBhc0w1cNjZnPnQbWe5LA+Zu3KWRf62VSFa1v1BWeDl6jr3vXgNb9wz4kqc87PfCdzLEzx0lsE4o2qYwcKd4Z48VNCuirWzpl0RAOa53Lmmzh8f/QT7H/nN0JV4Z7kCZ/bJUQEW9knNITLbR4Dg8ACCti4fCu5sF+L4uGpQULk1eozHDeufsq7EQrV0IU61J0FjiYtWq3iDSTjYau52YGGRmtAo09I9uAgQjsDBbBsBg53ZD3/4w67P2ZYr8csvv8y//Mu/8OMf/5innnqK0047jSuuuIJzzjmHWq16oNLhbLmuxFVchstCwQpAsKO4NxnxiIrdhPPbbHv2YfIzCYcl6rgM4ADZ8QNt/+64FA+lO3FyfNm+OuJ623XX4lhdd12Loy7DYb/I2DKuxUUZi6N1Ra7FWRmLk2WIuxin++a7DKf6DpK7sV1j66zFyTkyxxiNcGsYpwGiS5mOM342ijIdw9C6HSfHQxp0ZF1W8iBZ0TOBdsbYce251xavpb05bXvB2CF0We4kw3KRlQaLJSxrDcaAZ+ooMdCWK/FgKO66KYrfFRSB7dqupv4ra/kuxTsHAEJ5CJinAjQGtK4jpf2eDUdX4Lz2rHnyIGBeexIIRvsMNRCMtu9MKDhYQBBaQ0Hblu7frIi07WQX4lZQEPxkI8bQYzT9Qqbm6xQKFvXPcinOHtNqj1B88WwZoqWFu3ER5CvjWjziStxkK9dP+lJbrsSf3fSV3fr9G0xrK1Lh1KlTue6667juuuv4wx/+wA9/+EPe+973MnbsWN7znvfwkY98hP3226/bax0+1m2VYEkg2KkisOy8g+1CHFUO1oXLgP/jXTXzcF7/PKuahKSblqcaTPfzNyEFrsUBHKzsWhxVDFZxLfbvCItci6Muw2G/gqQksTozeElJsiyqIoRhqiRMzG3X2b6a0HF7cR2vpcsxtFYTJl2OobWaUKFjNyuDrSbMtOS+mzQ4SSU2CfrmKAehWG0IRePaVx1Cd12W7bzVMyw315ozrkjNmKM6LOOuHFgriBizxCK7rdozBhqNOkK2BwaHvbqwC6rCnWnDDdpB99aUBfqqHLMsALT13VUBVnUDNgY8twflDKRjWw8TV+CsOWyfahAwOW8WDIRyQDA65vUCBKP1g6USjPbJsl3Fhbg0FMRuPXuNpmEcotuFwYSCVSy4T8sDhK0Uha0UftFEKFnWSj1YJZPxiI1YJzZ//nxEwYbz+eefrzxnRylM1q5dy2233cZtt92GUoqzzjqLxx9/nIMPPpgbbriBa6+9tpPph58NdyBYEgRWmbdMn6SLcLicFuCujsuHJt3GdzeeGWYlrgoH2+1Xxlq5E3czTmHqWAWuxZlxByEEgF13Lc6IOwjEXIvz4g4Gm6wycQcD5WAy7mCwwSuKOxi1KCCE4Q8JM4+VmNuus/m6SmxC6daYf+vFLDvrR7i+K3Gelcl0nDWmk0zHyfbBAoWpGIWQCTuygGFzvnQ9tAaHUB0eFkG+5jG777Js15Phetymy3JzrVnrLAaHRXNCEyLmzdGOVYKNEXO9Og+t+gjH7P0tHNXMltrpurLdmztUP3YJ8nXiej1YtitDu1bWyZqy4F/RvDsbAOaN1W6dF5b8GXsdewNSDBSPawEB21EBZvYpAfjKKgHjY5J90jAw2W+4AMGgvKsBQSiGgruqC3ErC6AgQN1ovvrS03x66qH0+5+PwXAfLmtRl+KotQKEQKaLcrMtH+K1ci/uyLV4ROQWmoeDm+G1VGSqM3T1urJrrrkm9rrRaPDII49wyy238MlPfrKtOSu7EjcaDf7zP/+TH/7wh9x6660sWLCAD3zgA1x88cWMHz8egH//93/n/e9/P5s2bWprUcPJQlfi749hR6PFZnwXAIKt5ky7CWe4HeecZvsuxeX62zFZG05T2KdKhuLBdCdOH6tV3/z2QXMtjt7VDZJrcdRlOOgXq0u4BxdlLIa4azEkMgAn3HOjrsbJvsPB3bjM6+y1ts5a3MrtODkm6QoMabfjVi7H0DrTcdaYwXA7zlpLVp+sOVNjilx9i8YVtLV2PW5v7K7istyuu3LV47Rjg6GMaxdAFtlgrLMbLthl19VNVV9Z6xa469baiwBeVSuzpuEKAKuMbccVuB0VYPY8xSrArD5psJilFEyMIXmcZHtnQBAyoF8JIBjttzNVglWBYLxPvivwLulC3EZcwXj/BPTrAhSsOiYJ5IqSmzTHFO1LiscXhj3psmvxKGX4xVtGXIk3bdzAlyf9Ff2imitxj+nhy5s+t1u/f63s7/7u73j44YfbikFYGbvOnDkTrTUXXXQRDz74IEcccUSqz8knn8zEiRMrL2aXtWEOBMvOV/YphtDZfasqB6VnmFTfykZvHCay6anqItxNG8wkJOljxd2J81SDWTZorsURdWAV1+IADkZdiwPol3QtjroMt5OUJGnB5hCyFYQxi6n6hp+SMNPFOKE0rKwmNIIxW8fRP24L+DdZZTIdJ22o1ISD5XZs+4kUgMpzQc5UGAZjVHA+6bamei5jnCgYV6AehHyX5WBsuy7L9phZCkG/bYhclotUh63em7zjRK2jjMO5br7NtRoj6OufQm/PBkQGzEhaVO0Yn7OtJeZaxwAyM4h7tSla3FcNuu2q0K7cPO2vaVcDgGABmbt9Cs5o+z0bqoQgtk9nrsB2TL4KMKwrCQGj1m4MQdi1gaD9vz2VoO2T/0XcZV2Io21tQEFhDNO9ftarHkRiz92OO3CnULCsRROUpNr8H63hph7c3c01snLyETUiuWxpZ555Jp/97GeHBgx+61vf4vzzz6e3tze3z8SJE1m+fHnlxexy9joBgtA9aXMVOFgTLheNu5fvb35L6Epc1N/On3YVTvZN9ukmzEtaq9iBSdjXiSXn6ti1OJirC67F3Yg7GAOGOXEHm+W4e3FgRZDQicxh198sDkdImDl/G7EJa65k73vO5Mm3/hpda6RiE2ZZq0zHOy02IcRBYqSpDChMT4DfPw0M7djmOrOsFTzMdT2mwNW3TXjYrsuyHTs4WZZbr6c9l2XbXm2jnXfP1ckzqOjvjufVeHr5ezn0wP8bZkttb850XSc3FbsMgOzQXm/QLj5PV6axcxX8mYYTAMxTAWq3xsuPXs7U4/8WnPT3bFdxBYY0AMwck4CAqQdriXm9mCvw0ADBWF0BFNzZQDBal2WFrsAFN0m7igtxWaVg3Wiu2fgsX5l8GP0y3V5kVeMKdgsKBlYEB4GWrsV2TfmAsAgOQr56sAg87s7WTlZiNZKVuKX927/9G5MnT25rbFtZiXcny3Qlfh0BwXBM0W9XznzFY7Lru+VWnHIX7qI7se3fbB9Md+Jk/yruxNB0KQ7bh8C1WETX4LeLiGtroB4UkbGBejDWL+FanJWx2PbLrk+6CauEi25Zd+Nk3yJ34+TrbrkbZ7dXczkuc4yuZTpu4UK8MzId2/Zst+Nk3yJ336IEJoXuvG2Py28bDJdlaC/LcutxQ+uyXHb+dmwwNvCDIYIfDNfh4e6CvbtCu0rzVDy3/AzCOw8Atur3enMFtn2KIWC2ulAWvu4UCELrOIK2z9CrBFsBQSiGgruTC3G33YehNeTrFhQsAyTTa2t9MS1yL+4kc3Er1+IRV+ImW/nMxG/QL6o9SO0xdf568yd36/cvsCOPPDKWfMQYw7p163j55Zf53ve+x5VXXll5zpEIjlVsmAPBSnNWMOGZzHnzXIqLLKruE2hmOJtZ504ET7aVwCSv3+stCUlee/FcaXVgN1yLg81O1LU42BxFXYuDzVTUtTiWvCTiWpyVlASa6kEgpiBMWtLNeLCUhI7IVwB2oiR0RJYSsEtqQi0Yu3ky2yZuJDlFq0zHWbYrqgmTFlUUJi2tMIy2FakHs1WHwTjId1mGHBWgCsZlHM//v6rLMgQqwJy10r7LMjljB8NlOWv+qJWFipnz5Zxk0aXXGMGO12YxasyLma7EeUM7AXGDrYIM52vz521nxAwcrOPvLGiXP08X5ihweR8uABDiIM5oQeO1WahxLyKiit1BUAFmzzu4rsB582aNyYOAWe1Vk4rA8AWC8dfloGDSdjcX4qi1goKOJ5njbmOVMyYTYMPQQcHBtMFUDxYpB3dWqKzhaJ5xcHN3R9nmZISUKmN/93d/xze+8Q3WrVvH4Ycfzne/+12OPfbYzL5PPvkkX/ziF1m8eDErVqzgW9/6VirRx5e//GW+8pWvxOoOOOAAnn766fB1X18fH//4x/n5z39Of38/p59+Ot/73veYPn162GflypVcddVV3HXXXYwdO5ZLL72U66+/HsdpfZ7nnHNODAxKKZk6dSonnXQSBx54YJm3JWUjYLCsSUmGcCZuu0CW4XatKhzMcymOmiM0bx//MD/adAoNIyu5IVcFf2mYF5+zm3BvMN2Jkxa4E4fHisQcjFlG3EG7thauxQGUjLoWdxh3MAYRc+IOQhwQJq0IEqbeo10cEgIp79cqsQmVdtj34T/hsVNuxo185stkOk6Cwl01NiGQAoXB/MWwLuOmNxyXXndr1+NieNiuy3LeegYj3mGRy3IwdihdlvPMy3AZh9aQscjyQZzA82qsWn4uex/6/UquxO1AyJZzZs43vABkN+31CO2gGNxVtSr33cMBAOatxTU1tj1+HmMX3oTwlSaDoQK044beFThrTNbvZREEBFK/y14G1Iv26xQIZo7LgIKDBQSjdVk2bF2IU+rAyOsiBWDy2EWqwoI4gFlKwZrxuPTV5Xx90sH0C1UZ8nUTCg6WWjCwIjho24tjD7brWjxi1lxT3ZW4MI58jv3iF7/guuuu46abbuK4447j29/+NqeffjrPPPMM06ZNS/Xfvn07e++9N+effz7XXntt7ryHHHIIt99+e/g6CfOuvfZa/ud//odf/vKXTJgwgauvvpp3vetd3HfffQB4nsfb3vY2ZsyYwf3338/atWt53/veR61W46/+6q9anteXv/zlku9AeRtxJW5hoSvxD8blZyXeyUCw0tx540tee6u6FXfLpThrTKsMxd10J4a4G+9guhOnjtWBO7Htn+E2HLTtBNfirIzF0HQthrSbsEy8B3muxlljs7IaZ7XtDHdj+7rZXiYDcSuX48w+I5mOcxWCKgcg5R2rzJx2XHtz2nnbXU/RuILjtYBQg5FpuZMMzXZ8dzfcg/Hsptuhbbt9zjD83ZEDe71Cu24KZQZLRbgzAGBWv+GcEMT2GTxX4MI+BRDQtidfp9WDMLhAMNZvEKBgtB5GXIjDcoELcaZ7cIcZiNvJWLwzwWDemtJ9uudaPEoZfnnq5t3aFTZgK382/nv0VXQl7jV1vvPqRyq9f8cddxzHHHMM//f//t/w+HPmzOFjH/sYn/nMZwrHzps3j2uuuSZTMfj//t//Y8mSJZnjtmzZwtSpU/nZz37Gu9/9bgCefvppDjroIBYtWsTxxx/PzTffzNvf/nZefPHFUEV400038elPf5qXX36Zer1euDalFGvXrk3BzQ0bNjBt2jQ8r5WiLW0jisFOrNtAENqCgt2wsm7B3VIOSi0w0mOv2iusbOyB8TcqZZSGzbmLVYODmYSklTtxUjXY0bE6cCdOWY70JitpSaeuxaHLcMK1WAfcMUM9mGVRFWEwrqySUBUoC4uUhHayJigcLCWh7etk9rVzd0FNqDXjXpnJpj1ezqUxlTMds2upCYE41I6YRhQCviKX5CJr113ZWlFj/oI6UR0Wrqfdy02herA91WFzfCK+ZIeX9k7dkY0R7Ngyn1ETloeuxPnZjNtZ4dCrINuesw0VZHfdfl+f0A6G/tx2BgDMmi+45hst0BvnIycvT+3/djcVoO1TDAGzxmXBwOjY4Q4Es2zEhdhvq+BCnLQACkpj2K+xlefUhNj38PUIBcvaYCYm2Z2tnazErv9927p1a8yNtqenh56enlT/gYEBFi9ezGc/+9mwTkrJaaedxqJFi9pcubVnn32WWbNm0dvby8KFC7n++uvZa6+9AFi8eDGNRoPTTjst7H/ggQey1157hWBw0aJFHHbYYTHX4tNPP52rrrqKJ598kiOPPLLw+Hnavv7+/pZQMc9GwGC79jqCglWtW3Cwbgwnjn2S/9+mN9OIbFyquBR3Yq3ciaUnUqrBdi0dO7B7rsut3Ilj0C+5riy3YuiKa3FW3EEglbUYiIXvLIKEdj3N4mBBQiW8OCjcCZAwM65gCgK2jk1odI29nzyMh998D570Ct2Om3Mkjpv4uu9KsQkhHZ8wZTnQEIrBoSdES8VhvhXE92ozzqG1ot+R9tbaboblllbwJykCh5nriPzJu/UzkQXicmGmdtjwwmnMXPBPSNnI7hT07RBCpubrMoCEoYWQ7dgItGttnQg389Yw2ADQ9stXARrj0HjmNOTCHyFEIzImOW+WUrAYAu5KKkDbJ18JmDvGJMekIWC0HN1P5MURjPYrgoJVgWC8Lqn6y1cERm2nuhAnL3g70YW4SrIRB80521bztxPGMeD/jYcaCg5Xa+VaDPnnVRR7cHc1e12otqkIrhuzZ89m27ZtYf2XvvSlTNfaV155Bc/zYvANYPr06bF4gFXtuOOO40c/+hEHHHAAa9eu5Stf+QpvfvObeeKJJxg3bhzr1q2jXq8zceLE1HHXrVsHwLp16zLXFbTl2Xe+8x0AhBD84Ac/YOzYsWGb53n87ne/G4kxOGQ2GEAQOoaCebBuqK0KHGwYh59sOCUT9pWFgylV4E5MQtKJtYpLmFQNdmQJ1WBlOGgXHIeDfl0MDtoJY3EHw/OJgcDykDAaj9Cui8i4KnEHhzckzLJ2YxO6Cu476V5A4EAhFMw87i6sJoy2FFqrS0QBOGxT3OfDv6LB3Yd/7cY4bGlFf5aCt84es815Cyx6pey2O28ugJQNZhz1/2ESxy9rURDXrTUn7z274Yo8GBCy6rHamut1BO2iNpTrGWwAmNUv1afmwgn/ELus7KoJQcI+FV2BS43J2E+kQWI2FLTjuwcE7Zj2VIJZlnQhjrUNJxfinH7pRbenACxUFVaMKxi1hqnxjYmHNtt3AhRsRy04VFYEB6G1erBb96S7u61evTqlGBxKO/PMM8PyggULOO6445g7dy7/+q//yhVXXDGox/7Wt74FWMXgTTfdhFLN71y9XmfevHncdNNNbc09AgbLWk1RxqesbTinzS6jGIT2QGQS9kk0+/SsZVn/TNyMc6/iVlzWBjMJSSt34m4mIUnOlVQNdjZ3CzgYLUcSj+S6FpNIFrsTIGE0u3HShgISArE3oQgSQnfVhEILpq+bxoYZa3Fl4pKf5bq8i6oJC60I7PlHKLSCfZwnsmMawuvLTbkYOA6Om3JLcFjCihKpdGrRRCxGS/o2HEDvlGficVfbsMFQP0L33a+jFl9z9Q92N8Dd7gztylgnYpXBBoBZ/TLnNwrW7Q/T/wgy/SDo9eYKXGpMgQowf958EJhsHwogaMvZUDDmJlwyrmDSdicX4ipxBbNiCkqjOXRgM0/UJ4KuJfpXg4JZNlhKwXbciMvEF0yPaX2cVurBEbPm4eBW9GQJrjXjxo0rFWNwjz32QCnF+vXrY/Xr169nxowZlY5dZBMnTmT//ffnueeeA2DGjBkMDAywefPmmGowetwZM2bw4IMPptYVtOXZ8uXLATj55JP59a9/zaRJk7p2HiNgsIs2HBR7Q2lVXYqTJtG8YfQylvdPR2qntHKwqmqwE0u6E3cT7g1mXMIq7sQtrQwctAdJuRYDmQrCcF1tQkKI84ThDgmV8MINMlAICa0ir9m3UzWh8iR7Pz+Pl6e9ghf5DGS5He+qakKoCAqT1gIcesIpVtMVsrbh5abcfozCfLVh62MWWIs/WUeuyhGL3jN0+4G9VmBQbF1zHM4ez4VhE7phrbJAd2KDBU3Lqh/bvWfqBih7PUG7qHVTaFO0pm4CwKxj5boCuw5q+bF4057HSyTe2lmuwMNVBZh7nAIImHWcKkAwWo5CwWh7ketw0tp1E96dXYijVhRXMC/RiIPhxL71PKMmE8252QoKZh8jCQ5bjxnOasGqVqQeHDH7PfUquhKX9QwLrF6vc9RRR3HHHXfwzne+EwCtNXfccQdXX311pbmKbNu2bSxbtoz3vve9ABx11FHUajXuuOMOzjvvPACeeeYZVq5cycKFCwFYuHAhX/va13jppZfCBCK33XYb48eP5+CDD255zLvuuqtr6w9sBAyOWGhlgV5sTAfxBl0cfrHphDZWWs12ZhKSTmxnuRO3HpuAgxAHhDFi58U2TCLxmWhfSejFNmlDDQmz+g4GJAQ6VhO6DvzujQ/7x1LNMQWxCbOOO1zUhLnWZmi9ZNzC/Pnzv9dF4LCBSmVNLjvvYLgpF6kNW048xElRwvH+R6RbQC94x7vq/uo0GH/0j/Dw4yMOAnwMrPsgz9pgwsduWDv3V12BiMMM2nUzTFU77083AaAdW8EV2HHx3vgTf4yItI+oAFupALP7VFQSJoBgtK4dlWDSuuFCnB434kJs54zsrwuyDw8Ixd+NPTTWXgYKtnIhHkxANpzUgiNW3jqJMVjFrrvuOi699FKOPvpojj32WL797W/z2muvcfnllwPwvve9jz333JPrr78esAlLnnrqqbC8Zs0alixZwtixY9l3330B+MQnPsHZZ5/N3LlzefHFF/nSl76EUoqLLroIgAkTJnDFFVdw3XXXMXnyZMaPH8/HPvYxFi5cyPHHHw/AW9/6Vg4++GDe+973csMNN7Bu3To+//nP89GPfrS0a/Tq1av5z//8T1auXMnAQDzD84033lj5vRoBgyPWsbULByWag0atYumOOWhkrtKvHdVgFRvMJCStYwe2DxKHzJ0YUiAxBgeD1xAHhNACEsY/IEMNCW2HZrEKJLSvsy+f3YKEQf9O1YQ14zF79WxWzF6HkaYUwBsKNWH2mGI1IVQAhVHrfj6OjGMUfY8LznuYuSkP56QowZ68a8lFIn+WTkGe0ZKBtQuoz3wMIXX8OtRl4BbcA+1K8LETaw9etXmsDu9duwYRu6ZE7M5ERetpFwBmjW2ZEERLxOrD8GY/GX6xXs8JQbJeZ/apqAIsNUfGmLIKwWSf2J4oOl9JtWAVF+L4uNeZC3GRqrCCC3F8jnhbzRUcNfASi+t74AlZCqB1Cwq+ntSCI9ba+nWd/qRipIXJgmtGnl1wwQW8/PLLfPGLX2TdunUcccQR3HLLLWGij5UrV8bckl988cVYRuBvfvObfPOb3+TEE0/kt7/9LWCB3EUXXcSGDRuYOnUqb3rTm/j973/P1KlTw3Hf+ta3kFJy3nnn0d/fz+mnn873vve9sF0pxX//939z1VVXsXDhQsaMGcOll17KV7/61VLndccdd/COd7yDvffem6effppDDz2UF154AWMMb3jDGyq/TwDC5OU6HjHAyk03bdzAFT+eyI5G8QarY1fiLsQY7HQNVRWDZY6dN6dSLmdPfJD/2nxsDI7kuQGnlfQm0W5KtycVg8m+SViXBINJd+LofOmxcbVQamyF/knFYHKuJBg0qbkSyqXI+CzFYKb7cdZdbma/RF0SnETaUzG5In1FYl1JNz0R6SsTx4yOlYnjq9S8Xn6byG9Lv3Zz23oSkLBoHoe4m1Syf+YcGWOUK3nj4oO576in8ByNk3C/chKpEpJzJtttnxZztHidvfbkmGyakjVX1vhW8zTHlaM2TpHqr8Q8Re1FQK1IbVg0Z7EqkEI35aL1FM1bBKpaJTZpB0S1nSyly+sAMF6N7Y++m9GH/xtCZT+gGcyY44OR/AMGd81lrCpoa+e+sh2Y1x0l4uBDuyrWznraBYDQGgJmJgTxehj78NlsO/q/rHpwF04IsrNUgFnzJMd4GbqRLBho50/HBsyDglkxBbPbEsq+orbhknBkF8lCXKQWlJ71cLj0tWf58Zj9aAjVcbKRKkrBdsDgcFcLJs9/lDL820lbmDR5SqkYea9HC9jK+b2/ZEfifqKVjTIOv+w7f7d+/wI79thjOfPMM/nKV77CuHHjePTRR5k2bRqXXHIJZ5xxBldddVXlOUfAYAurAgZh58PB4QgGi+bNEztlwcGsvtF+VcAgVIODVcBgcqxtb97cdwIGbf/89k7AYNinE0AII5Aw9rocJIQ4KEv2hdagMAscZoHC+OtiwJc5JgUSS8zRChxmrr0a6KsKDFvNl56ndb8ieFgIBtuEhjA44LBdaNhy3ha7jU5A32Ao3AYDPAY2WIq8XRE+ZtlQAL5uudEO1rG6cdz0PF2ZJhP+2flbA8Cs8cPFFXhXUgGWOk4FFWDunKlj5AO9ZN88KGhfOwVt3VcLmpxxXXMhjq4ledMTA4EVYF8basF2oSC0hnyDkYG4aP4yNlzBYN55j4DBJls5r+fXbK8IBkcbh1/1v2u3fv8CGzduHEuWLGGfffZh0qRJ3HvvvRxyyCE8+uijnHPOObzwwguV5xxxJe6ytZOtd3ewLLdihceC3uU82jc/tbHKcitulaV4V0lC0k134qQl3YmzkpBABPQFP46JeIOBBZAwugFJjU2Mj/ujedl10Q9DkLQkmD9yPkXuxgA6Fj9QxzZ48bZ8d+OkKeHFN5sl3Y2z5inrbtwj+wtdgpMux06phCTW7Vh6ggNWTOe5uWtwIyntk7EJgRyX4sSYLscmBLI9SXfFy2jBml1ULjj0kLkQr8id2NrQuikPXlKUYlflVtZ0r+0eGYvCi1Y/JUYr3JVH4ey1GFEiFuxgrBfiAKrrsQi76HpdeJwhUPC1A9qG4hh2XFvDQsuDdtXXUW2eMgDQ9iuGgIWuwJ5i9AsL2Drv8VhQzOGiAsyaZ7ioAKE1BMw+Vj4ILJqnLBRMrbFkDMJuQMGk7UwX4m5AwaRVcSEOIJ8ymjf2r2dRbWbsWjQCBSv0H0k4Uso8k/dIv3jMiFkbM2ZMGFdw5syZLFu2jEMOOQSAV155pa05R97dQbBdGQ62k4AkHNvivJNzC2GYWd/E49vnZQYVbwcOFq9v10hC0jouYbUkJMGmoRQgtAdo9hvGkDCZ4bhdSCiElxuHpgoklIUZjduHhMm4hHbR8ZdJUBiNTaiMYOrmsfxxbi2e/SsznmGLuIKDEJswN15hHngYxpdWF1msQByEWIdFgG+wsikXA8d8cFiUFCWwZhzB9t6QACp0G1y1AnkGgd4yG80fqMJTqsDHqhbPxDw4ALKdNXczfvtwBXzV1YvtHKPzNzIL5lWxonUPhgpQGIXaNAtv3tMYX2kyXBKCDJUKMHOeLkFAe7zOQWDR2G65ELc6TmC7ShbiqKVciKNtXchCXAT5JIa57jYeqJkQ2gw2FHy92O54zp2YzUpcbRNRNSvx69mOP/547r33Xg466CDOOussPv7xj/P444/z61//OkxwUtVGwGBZa3hUebuEZz/olQGhNh25E+9sKFnl+K5x+M2mY/xx7QG/10sSkuprbcLB4Ac7mC+6MUiqBwMLIGEVyNcWJIzO0QoSQgy8FUFCIJ7huE1IaNsj0wwzSGgnS7scFyUwSUJCV8KdRy4HRCwrcVESk6FSE7ZluyAwDKwIHHoiXzVYpDZsaW0mRSnKptxSxdhuDpLYMQLA1941N66c6x4Ui4KM2M+B4yGP/Hf/XelcKdZ9kGcnH0z4ONT2egB8ba2pzc9Xp0rCUtnbKQcAs+YrlRCkJug75nb/lRw2KsDMPm0oAXPn3kVAYN74IhiY9brIfRhaqP66kHBkuGYh7lZcwaglIZ9navx09AGZ82T17wYUHK5qwbJKwdLJVTyxK2xVh8xGwGBnduONN7Jt2zYAvvKVr7Bt2zZ+8YtfsN9++7WVkRhGwGA1a/g3SbXyH8q2QF2HcHA4W1Q1qPA4etyzPLx1v9xspZ26A3cTHCYtpeTrQIGYhpCtQWLwQ58EhDB0kDAajzBzfN4cWZAwVd8sJiFhOsNxvG9ZSJjOcByZpk1ImLR2IWHQ3qmasK49Dl+2J4/ssx4tTctMx8CQqAnz+rVtuzAwLGW7kJtyEYxsmU05YTEQ16asslPImGfRewbhSnj+T2Dv+xGqTYgbscFWPtq5d80Q07sr4GtLVVg1gzvZYK/08UoAwKy6sq7AwpNMevYINu23BDdjbz0Y8QCz520N7zLHlYGOWfPsZBBYBQI229Ln0W0gWJRsBIpdiOMPjAfZhbhLcQVj/brkQhw1qSXKaE7uX8NdPXuiE3/D3UUpOBhAcMRGrJvmeR6rV69mwYIFgHUrvummmzqed5cBg1/72tf4n//5H5YsWUK9Xmfz5s0txxhj+NKXvsQ//MM/sHnzZt74xjfy93//9+y3336dLabhVYaDUFE9uJvAwbFyR7M+RzWYhnvxfp3Aw7QLcBfjEraAfWX6QzMZSRb4s+MiG58OIGGWq7Ednw8Jk+4OhUrCnDkqQ0KIBwkcZpBQynwQWAUSKuGmlIHtqAk94zCqv45nHASN0rEJwzlKxDNspSbM6hPaYAO9Vl/nIb7MuqjcRCkeKjdZyq7kplykNmw1b5FpAtVbZ4AQ2oeMuSYVsn88WipUoUqzmg2W8hEK1I/D2EYAXzlrB+5VjynYek2lVIAV4gEKFGrHWLxUOq5y7sAwAgLbBYFVIWDemKowEDoDglnjh9yFOLaYwXUhTin8yroQ+20CwwQzYO+HRHbfaP/4fNWh4HBTC45AwaEzbRS64l6sbJz317sppXjrW9/K0qVLmThxYtfm3WXA4MDAAOeffz4LFy7kH//xH0uNueGGG/jOd77Dj3/8Y+bPn88XvvAFTj/9dJ566il6e3s7W9BQqAe1/2WpCAh3BXdiocGTiju2HJkY234MweYc3UtC0k13YjtepUBfMhFJYMFxoz/GgwkJs1SEdnx1JSEMJiRMxCXsAiSEJAhsDxIm19MuJCxjZROYeBLuOGQ9IFGJS35RbMLQEl/ldtyOgeoAcKgUgGW/zsNgb9cuOBxubspg4SEUZ1XOszDeXxtwMTAd+YN2BbgpD2/BLUATdHQbPsZB3mAmLRlelHCo4u+NAL7ujykDAksDPRQoWH3k76uN241AYBICQndBYKvA/3l7mkzYN4jqwLw5ijIQp+ZIzj/ILsQpKNimC3HUqrgQB+YKxa979ivs204Cj51lI0Bw+JpnZK7HYNGYEbN26KGH8vzzzzN//vyuzbnLgMGvfOUrAPzoRz8q1d8Yw7e//W0+//nPc8455wDwz//8z0yfPp3/9//+HxdeeGF3FjZM1YOdwMFOEpBUMUd7LJy4lPtfPSh2YciCg61Ug1Wsm0lIWrkTBz9I7SkBuwMJo4lKRiBh02KJTYQX2yC2Cwml0PHNa5uQUOUo/5qv3dRcyY19AAqVJ3jjc3vwwH7r8VR8ztRNRKYLcRwCtlITZoHCpOtx0TFD29nAsOxxk1ZiHR0pAwfB2gWHnbkpB/3sZ6Ud0NWIfKbaAYzNNTTLbcNGT1F7+gQaB/4O/Gtm1+Fj9HCDqH4cLNfrrGMMytwjgG9Q+kM26Kt6jEogMDFOeJKZS49k7UGPgNIjIHAngcBWDzXz2juFgXaOztSBWW7DRTEFoYJSMNlewYU4r1/SyroQJ6FgrK0A9NU8OH1gOf9bn4sr5KBCwcFUC44AweFvWqvKsYJHFINN+8u//Es+8YlP8Bd/8RccddRRjBkzJtY+fvz4ynPuMmCwqi1fvpx169Zx2mmnhXUTJkzguOOOY9GiRblgsL+/n/7+pnue8TfGUtjkI8oHHJ5RKOHZTIQNezOsawptFI5w0UaikamyZyQGSd00aAiFQVKTDVztYBDUZIOGtn+WmnSbZRo0dA0h7U12w9QQaByhaRgnVpZopNC4noNQxpaNg8RDChOWhWieR+ycjN2k2bULNPnnVBMurn9O0XJdNGgYe0510WDA31zUhRuWa6KBMFa2bvsE5+TR8GqgEueEBRm2rGngoPAQGFztIKSLwL+R9TRGGXseeHg0ywa7wazh4vmzRcs92mNACnseuDS0xJPYMgrp2b/TgH871utp+qQNKFvHo99zEMbgqAb9wkEaTd3TDPhlKT0GhMJxbfbOhlAI2UBiaGiFMhqJYUAJlNH++SkcY29YBxQ4RmNcgSckNePhKo0nJD2ewcOvFw27AdeKuvFwkbhK06M9GkKitX+uQqKVseWGgwF6jGZ7zd5e9TagTyqEMdRlgz6pkMZQcwX9UiKNwRGuLXsCxxgGpEQJD+WXa1oijKEhJcq4CAwNFI6vim04mpo2zb+N1hgErmOoa22fKglBXWtcpdFC0OMZGkb6ZU3D0WgkvZ6hX4JBNcvSo6ch6JOW2/Si6VN2TT0a+hz/nDQMOBo8QU1DvxI4GBwDA0rgGA/lSVvWBiWgoUBpGzOzoSROyDU10rU/ep6EWoOw3GM8tFC23gOk3QfWPZssxJNQd21ZKA+n4TCgDEZAjytw/St33RMMKIMSLsp1GHAMwkCv1vQ7PQgNPQ37q+t5CqGh4RikBsfY91dquzEyNReta0gDrjLUtYcxDp4yKE9Y4KcsaDSAVgalJQaDVgbHlQjZwJUK5Uq0NBhp6z1l986Oq/CkZ8sNhed44Jddx16HHNcvG79ci5eFEUgt8RwPoSNlL6deS4QRaMdDeBIR/G38TZ6r7IbPAMb/mxlhmmWpMdKkylpqkAblOnjSs+WGg+sMgLBlz7HObspNlGsuIOw8NRe0sGpiv2y0Qjj9tl4rtOPa89CSPse1nxkjMP45gcAoD8+r4aAxyvNvHux5CFcxIAxSNRCuYx8KSO2X7dpj5UYNo9ywHJyTaNQwwcMD1y8bv1xrgBF2Hv/DrnUP0j8PoR3bX/sfdseNlT2twAiUMwDBjYjy8suuA8KEZU8qkBrVsP8jNbg1kPY8YuVGHZyGHd+ogzNg53XrNCLlmrMDjLBjawP2C6wdOzZWluDWUAg87YDx6z0FCFD++fllFUoePfAcwKTLbs0++AjPw8s4pzrIhn1o5p+TRKfOKVauDWScU832SZyTp1Xz/LSK/G3seaTL4CndlXNq9XfKOift1VueE4lz8hyv5TlFz6PhkPrsNT9vTuZnT3t1jAy+T3X7PRBBecD/PjXL2u3F+Odkv1sDie9Q/PuktYPxv09CS1v2JMI0y/acmt8h17GAwWBA+dcCoZvl2DVC40kKrxHGcVPXCO32oP2ydGto/xohXYdGTaeue1rX0Y7rn5/CdXR43dOOi/CkfS+RaK/mr93D8x9uGqURnsJDxq7lKI1267HrtycFRhpU5FpuGj1ov49qOOC4uELFfp9o1GO/VdTsw7Pw90kL8Gwf+3ZKcDSe5yC1wHM0UguUFgw4ds8kEHhKo10HAeFvrgL6pbS/uQL7Pfdq9iMtDY4rkBIaQuK49uG5llBzBX1CYvyyKw399FB3BQ1/H1F3BTv8p5zBPsIzji37+4iaJ/Acg/EUjrb1UoPjf8WlBrQK90DSNPdDNQP9UqG0/aq4yo6TQL9QOJ69DOHvgVzT3A9pAQNCUff72J8IiSttW49n27WAHtfuiT2j6HUN/QrA0OPJ5n5PG/qUwHjC7veUfVDjeIp+ZWPe1rWh39/bOtrOKV2BCvZ+2iC0oiH9Mhb22z2swZXC7mG1wpXEynWt8YTAM8ruYYWw+1atafjlXk/QEMaWtabfCIxfHjAOBkOv0fTrGgJDj9H0SYXTcKgbz77XnqDml6Ux1I291wj3tgKU0SgMLs17Dc/Umvcawt5rCP/et+6CQYf3GmiFJ+yDOE3zHsTDXmfrxsVFooWMlXuMa++ZhGiWgR7j0o9q3j8Je/8UlKXRODTvn2ra0PDvA5V/HxEtK+x5aF0Ly27kQWzzPlDgIan79xpe0T2hp3Gxe0R7H+jf59KggX+fS8PetwJ1Ggz4eKWOywD2b1bzyyrwBhwxNAqv4tuhKyoMX8921llnAfCOd7wDEXmQaIxBCIHnVX9g/rrVY65btw6A6dOnx+qnT58etmXZ9ddfz4QJE8J/s2fPBuBPZj0DwHEz/shxM/4IwJv3XMpR05YBcMqcxzhs/HIAzpi9mAMmrgbgHXs9wPxx6wF49/z7mD1mAwAX7X030+ubEZ7hsvl3MKlus8pcue//MsbpoyZdrtz3f6lJlzFOH1fu+78ATHK2ctl8m5FtWu9mLp57FwCzR7/Cu2ffA8D8Mes4Z0/ranHgmJWcNe0hABaMf4HTpj4CwNETn+WEKY8DsHDSUhZOWgrACVMe5+iJzwJw2pRHWDDuBQDOmvoQB45dBcA7py9i79H2PTx/xj3M6X0FgPfMupPp9c0AvH/mrUxytgLw4T1/w1jVR124fHjP31AXLmNVH1fu+b/cs+VQJsjtvH/6rfbvU9vMe6fdCcBezitcOPl3AOzTs5bzJywC4ODeVbxjgj2nI3pf4Iyx9pyO632OU0c9Yc+j92lO6HnankfPE/yJY/9Ob+9ZwhucFQhP8K7aHzhMrQHgEvUw+4uXALjc+T3z2QjAVfJeZvEqUkuu43fswWsAfM78lvF6gB48Pmd+S682jNcN/o9n17sHr/HJgUVITzLHe40/H3gQgL3NZq7qfwSpJYe4G7mi/zEAjhp4hffueAbpKRY21nJ+37MILTml70XeucP+Dc7oX8kZ/SuRWnLu9hWc0vciABdsf543b38F6Skue/V5ju63n7EPb36Ow/q2ILTkmk3PsF9jK1IrPrvhGeYO9AHwlVeeYrrXj9CSG9Y/xQTXo8doblj/FKMbikkDgm+usZ+H6e4Af7nqBYSnmLejwRfWrADggL7tfGrNiwitOGLbDv5s7Vr799jyGleufRm05ITNr3Lpevs5OWPjVi54eQvCKM7ZsJlzNmxGaMWF61/ljA32/b1s7WZO3PwaaMmHVm3h+E12vdes3MQRW1zQik8/v5kDt9qL3pef28Tc1wxoxfVPb2ZGv1USfvvJLUxoCHpdxbcf30avq5jQL/nWo9sxWjJ9O/zV49vBSOZugy892Y8xiv23CD651IKcwzYKrn5ao7XkmJcFH/ijfQL95vVwyXMCrRWnrRa8a7nCGMXbVth/2kje+bzDqavsBuFP/9jDwhdreEbx3idHceS6OlorPvjYKA58pY5nFFf9YSz7bHLQRvHnD05k5qu2/rr7pzD5NVv+3D17MKavhuM6fOZ306l7gtF9dT559554xmHStl4+es9sPKOY/uoo3v/gLG7b71WmbR7PBQ/MpV/3sM9LYznn4bm4RrH/mkmctcT2P2TFHpz82BwADl82k4VL5+DicNQf9+TIZ2bjGsVxT83lsGWzAPiTR/dhvxUzcI3ihD/sx9w1M/BwOPXBQ9lz/R54OJx+/wImvzIN1yjOvPsoJmyegGsU77jzWEZvHYtrHM753xOo7RgNjR7O+d8ToNFDrW80b/vfk3FRjNo2jrfe8WZcFGM3T+LEu96EaxQTX96DP7nneFyjmLJuJkf9/jhcFDNWzeHwh4/CRTFr+T4c9MgbcI3DXs8ewH6PH45rHOYvPYT5Sw/BRbH340cw+9kDcVHs/8jRzHhhH1wUBz90PFNXzcNFcciiE5mwbjYuigX3nMq4V2bgojjyztMZvXkPXBRH3/Y2alsn2vLN5yH7xmLcHo6++TyM24PsG8vRN5+Hi6L26kQW3HourlH0bprKIXe+Hdcoxrw8iwN+dzoeinFr57L3/W/BQzFh1b7MffAkPBQTlx/Eno+8GRfJlGcXMOOx43CRTF16FFOWHo2LYupjC5n07BH2/XjkRMYvPwQPxYwH38LYVQfgodjz/rcxeu3eeChm/u5d1F+Zg4tkzzv/FGfzdFwkc259D2brHnhI5vzmA9A3Du32MOc3H0C7Pbj9E5l584dwhUJsm8L02y7HFQq5ZSZT77yEflHDeWUuk+75U7v5XrcPkxa9Cw9Jz6qDmfDQ2/GQ9L5wOOMfeSsDOPQ8exyjHj8FD8mopW9i1NI34SEZ8/gp9D57LB6SsY+cTs8LR+AhGffQ2dRXHWL7/P7diPX7MSAU4+69CLlhLp4QjL/rUsSWmXhCMOH2D8C2yXhCMOmWj2L6x6G9Hibd8lG014PpH8ekWz5Kn3RovDaV0Xd8iIZQ6C17Mvq377cP9TbMZ9S977FKsPX70/vwebx26D2ItQfTs/gcGkIhV7yB+pKzaAiFWnY8tSdPtQ+CnjkJ8cxJ9IkazhOnoZ5baN+bJW9DrniDLS9+J2L1Yfbm5fcXwLr9bfne98Ir8+3799srMFtm2ffvjqsw2/agIRQ9t16L2z8B7fXQc+u1aK8H3T/OloXAvDaF+p0fsUq5V2dRv/sDtrxhHrX73mfL6/en9sAFaCEQaw7D+cO5NITErDwK8ejbbXnZn8CTb6UhJDxzEjxzEloI1JNvQS5biBYC59G3IVe+wZb/cC5izWFoIag9cAGs39+W73sfbJiHFoL63R+AV2fZ8p0fwbw2xd5E33ot2v87ZZ2T99pUeu+4ykKhLbPo+e0VVq32ynzq977XltftT/33F9gbvtWH4yw+t/Dv5DxzAs4zJ9jyk6chly3EE4LRS06ntuJwPCEY8/A7cFYfjCcEY3//btT6ffGEYNy9F8GGeQwIxcQ7L0VunomHZNJtH4CtU/CQTLn5I5i+8Wi3lyk3f4SGOwq3bwLTbv4wHhKxdQp73PZ+PCRy80ym3GnPI/p9kuv2Y/Kid+IKRc/qg5n40Fm4QjHqhcOZsOQtuEIx5rljGP/4Sbb89BsZ8/Qb8ZBMfOzNjHv2KDwkkx85hTHL7edtyoNnMGrVgXhIpt7/Dmpr98FFFl4j5NbJuEjm/eb94TVin99chnF7EX3j2Oc3l1ml9NbJzLv1YnsN3Dyd+Xfa62HvK7OZ/7u34SIZs3Yu8+5/K0Dsujd5+UHMe/Q4XjjkUaYuO5jZjx2DaxR7Lj2cPZcejoti7uNHhdfyfR85lukv7Je6li9Y9CamrpuBaxyO/t0JjH95Oq5xeNNdJzBm8yRcFCfefgq928bjGsXpt5yGs2M0NOq87X9Ptg8NIr9Po7eO56w7/gTXOIzfPJEz7z4K1yj2eGUKp953JK5RzFk/mVMfPBQPh7lrZnDCHw7CNYr9VszgTx7dB9coDn9+Bsc9ZX+Xj3xmtv3NxWHh0jkcvmwmLg6nPDabQ1bsgWcUpz8yl/3WTAbgnIfnMne9/W09//fzmblhAv26h/fdN5/Jm8cB8NF7ZjNxW4/dU/x2L0b31VFujU/evSfKrTGuX/KZ303HM4pJr9W55r6peEYxa6vD1Q9MxjOKuZt6+cDiSXhGsf/LvVz+qFWkHL6ul4ueGIc2imNXj+JdS+0xT1rZw9ufG41nFG95fhRveX6UXe+yHk5a0YPWivOfHsUb1zp4RvG+pT0cud4Clg8/UeOQDXYvde1jiv022z3WZx9R7GVvmfjKYsHU1+yt7DcWG8YPSHo8yTcXe/RqGNdvy1pLZvQZvvZoA2MUe20TfOnJPjCSA141fOppKwg5fJPmz5/tw2jJ8ZsafOiFHaAVJ77sctmq7XYP+1I/F6yxe9J3rtvOO9f1gVZcsGYHZ7yyHbTistVbOXGT7R/bw67awJGvDiC04lOr1nPA9j6EUXxxxRrm9tk1fG35KmY0LFC/8YUXmOC59BrN36x8nl6jmeC5fHPNsyi3xnS3n6++ZO919mps57Mb7L3qAf3buWaTLR82sJkPvWrvW4/u38Blrz4PwBv713Pha7Z8cv8azul7AaElpzZWYYTAFZKzG8s4yV0JwLsHnuE4z94zXdx4giO0vQ+8vPEoh7j2nulKbzF7m00AfMx7gD2x94Ef9+4L75/+j/c7xtFPrzZ8zvyWHjzG0c/nzG8Be/90nbH3s7N4lavNIqQn2Edv4gPYe6kDeZn3stj+zXiRP+VRAI41qzmXJ+35iec5Q9h721PEs5wi7L3MGWIpb+J5pBa8Qz3GUdLey5ynHmGB8M9PPcT+4iWkJ7m0fj/zpL2v+mDP75gltgBwdc9dTBH2g/jx3tsYJ/qo43LdmFup4zJO9HHdGHtvO0Vs46Oj70RqwQxpx4/YiHVqd911V/jvzjvvDP8Fr9sxYczOCybzmc98hq9//euFfZYuXcqBBx4Yvv7Rj37ENddc0zL5yP33388b3/hGXnzxRWbOnBnW/+mf/ilCCH7xi19kjstSDLqNAT74j6N5bSBHMWikVQyGZRft1AoVgzXp4uqg3KAhasWKQelaxSAGJyhLU6wYTJSF0qUVgxqFUu0rBmuO21Ix2Cv6eePEpdy96TCkMPSLiGLQVw8qJ6oY1AxIFZZdHKTyFYO+etDI5tOhqGLQAA0pw7KHwlGN1NMhV0EN1386JHFkI/J0yCoGPWn8p0D2qUUdzz79kib1xKtPydQTL6ncsBwoBpXRIL2wLCNKwuhTPLBPZB3jP/EKFIPShOXoU7yG0v6TO89/cuc/2RK+0s5XDHq+knBAyFAx2C8kSE3daPoDxaDRbK9r+wTSr5fGfiZD9WCgGDQGKVwGpMQxJlQMOsJrlv1Af66UOKZhVYJShIrBhqObT1sDxaAQvsKx+bS1x9M0pEArTa+n6Zf+01ZP0+/Y0La9GvsEWWj/qbGwikE8+oKnxujwCXJNQ79jwifIDUejtAmfINfxrJBF2ae0AsKnyVJq+9TYf/qtlReWjdLUPeu+6Eno1R6e/1S813jhU/G6C8bxYk/FhfTCssE+OXcde+y6J+h3DA4eteCpv4axrsfJz0/k1n03gRDomovUoIxVD0gNoxjAdQxKC4QBHBfplz1lVZvQVDIYAVI2YkoGx5VI5YZlT2pfJWjLSnmx+lpD4joaKdxMxaAjvIhKEJRfrhkPpaWvyGgqA2tah4oMW2/Lda2tmsjRvguKiCkGpWokFIMS4/+dAjWJkYa6Z0LFSbQ+Vm44VuknaKkYdIzXVA9qgdLK9vHPSfvnJPyyVc40lY8OOqUYFJFzSioG8VWQNdd+r01CMShdBykHbLnh2FAF0iAbNbTjooTrlyMKIL9cc1WmYlB4zbKjRVrVVKBwEv454fmuzKHaqZzCyZZrGOmipBeWy6q2hFvPVW0FKsiYEq1RY+zSN7PtkLutRMbxFWdGNMtQqIJUDVVJiVZWBYkzYNUeuYrBHBVkQl2XVEG2Ute1pxgsf04ADW9UpXPyjEqpVVv9nTxlCtWqyb+TVddFPm+xz162us7zeuNq3BbfJ61rlb5PHiqiJCZTVRxcI5oqQZGrKs66RiBMeI1wUbFrRFIxOOD/IEYVg1IrGo6JXQOFlnieE173pOcw56kjWH7woxil0UojPImLstdv/1reUCKl/m4ImbpmG7ceu5YPCKskDH+TBCmVYJ8fpif6+2QadV8xaFWC/Y4My67/m2Q8x/7m+b9PrqPRnhP+zkot8CIq/fCz5zrN31lPhPvQqEpQN3rxRFMx6Eq7b6y7goY0GAmqUYspBq1KUNHjCfqVCfcR25VEGOvB0O9/vB0NAw6gVVNRp23SokAlaHLUg4FiULq+WlUSKgYHhAr3Rp7vNdFAhmVXgOerB4O9Ua0haUgbAqDXNfRJ6e/3rIeIp2VzvwfUPdXc7/l7P6mbXiHS2D1LWNYwIBy73wMGpMDxRGyPF1UPgnXpDr1eQvWgxJUi3MNq48QUg1YlGFEPGtVUDAoBxqFXe/T7+/JRvhJUAKMaKrYvH6AW7ssb1O15oBkQCuWBg7HvtSvC+wtlNI4WzfsOLXCFolc3eHv/cv6ztr+9Vvj3FP//9s47XorqbtzPzOzuvfReRKQJgooCIiCoCEiEGDXEEmuwojFKRNLUWKOGJKYYSyQxFpI3RmOKv7wxr4lBjY1YQGwIERSwcJFeLnB3d878/pjdvVtmZmdmZ7bd83w+fhz2zpwyu7Nz5tnv95wG3ch5vsjeNnStIErQKWIwIaLmGBbdMWJQ0w2iCOKknnNT2WL5EYNRQSqLLDtKsDBi0BCRnIjB7O38KMHs58NkznNga8RgUo9mIgZzowRzIwY1QSZisL2m8+jndtCtew/U7LmJ2hBCCLZt3cJxxks020yrY0cHNP6tHN2mz1+YVFQMbtq0iS1btjjuM2TIEGKxWObfbsXgBx98wIEHHsgbb7zB6NGjM68fd9xxjB49mp///Oeu2pj+8F78qw7sdZjXwRYP8w+Cx7kHwfPcg37q8DvfYLF6NHSO7Pw+r+8cZg5abeopnI/XcPU38++G49+t9gEs5xy0OjZ77sDc4y3qsdjXbm5Dq3KtVjS2LNO2TW6Pt/6Stto3e3XjzH42Ky8bVuXatDU9J2EpZWC5b95r+YsnZM/HmF9u1r5KXvvUvH2VrH3VvDqzj1Xz6tcKytWd/644/11TdDQBx6ztyIuDdqOr5vyETsc0WKx0nE/+MZl9C9aJdC7H6XXNpiz7cmz2LzLosCvPaznF2uGnPKd9SumX3fyGZrn2c+w51elUptvy3VDKgiOA/4VWbMi0R9fo8P6RNA97PTPHYCDlhkCYcweGQVDzEdbKHHyO5ftok9fJ3W3ng3V9vHMbndpTbM4+RVfp//4I1g57HyNr/ORmjkDrfYKZIzB/fkDbsn3MEWhVjps5Aq3mByzcx91cgG6OyRzrMHeefX2lzRto7uNcRtHFRIrNHWi1j8McgmCxaIjDAiO2x+Q9e+YvNlLqKsT5+2mGYFrLJzwXGYCempzbab4+rysRu51X0M1cgtU+j6BVve00g8c+t61Ni620W5ks/uNLDD6vHtWmz182L7zwAr/85S/54IMPePzxx9l///357W9/y+DBgznmmGM8l1fROQZ79epFr169Qil78ODB9O3bl8WLF2fE4M6dO3nllVe4/PLL/RWaXsbUywfRx+IkYa9c7LWOsBYj0dF4ZWdrNKifevIXISlcpMTsZ1r+pb+krfbJ2S/r5pCWd9lf8OnjrRYIMY/P2jdVptXCH1b12JXrduER+za5PT5rP4uFS7IFYTkXLvFahuXiJU4Llygi5+85i5OouR/O/Mfq7BWOVVXkDFpz/6bnroycVUb+wiWaouctelK4IImbSXh1BZ4ZvBdSv5p6XcSEPFHoWBearTT0vD6C3VeUx3KSRJxlXYCLigRdXjIV8ez1b0XbEcLc2EXbkyItBdyKxMJ6zGvLr2BMP+gEJd4yEiEC+ojXUq+WfsPMFkZBS8JAFlsppf4yz2LjWb75WSikTgSfn3Zl46aNVqKrtX7rv2Ve1+DDEatS/3YWeFIEuhOBfiWgkwAseqzFYD/wVYWhuAyE4kIwaBno5pgSZKDl3z0sIGKIKIujg1zt64UghSAEKwXLIQQlhQjhfQQi0Op4Ijxv/OlPf+IrX/kK5557LsuWLctkvO7YsYPvf//7/P3vf/dcZs0sPrJ+/Xq2bt3K+vXr0XWd5cuXAzB06FA6duwIwIgRI1iwYAFf+tKXUBSFefPmcdtttzFs2DAGDx7MDTfcQL9+/Zg1a1ZpjRHCuxwE14KwHCsXe60jHdjkRdwVE5ARJcnnur3B09vGWA7EWsspJv8K/w7W8i9fENrtl7NvlUhCf5IveElotwpyoJLQrNzct8olIYrIlX0BSMJ88iWhWYDFPlnlpVc6jupw2sqOPHHwDhKa83eQK1EItFAYWViUgERfYOUUK89v+WUsz684TBpFjrORu06rKZvHul9ROfth3G00Zn5b0viRjNkCJIhVoJVkhC5vTGHTmOcwIslAhVvOuQo44jEoAVlu2eeGahR8XuWeWYdXIRi+dLSs18UPVU59cfM3NalxyBtjWDHmDeJ548t6FoFuVwz2KwLDEoBmfQ4SKgwZCKVHB3qUgeA9OtCrDDSPCVYIWu0fNXROj6/ij7Hh6EZhG1r3dSnTqlgImvUGJwWlEPSGYZgLfXo6JoxftmuU2267jYULFzJ79mweffTRzOtHH300t912m68ya0YM3njjjSxatCjz7zFjxgDmxItTpkwBYNWqVezY0Tqp57e//W2am5u59NJL2b59O8cccwxPPfUUjY2NpTdIRg+6Lh+sBaRhKDTFu2EYrX+zK9+NHMyUq7Xukya9r6X4qxFJWLrkqx5JCK2i0FLwmZW0blepJARQsj+vAUlCRdEdB9PFogmzSQLrOunmvERZjdeUwghEqwcNO6yEodmYyghDJ6HlWxpmU60CMYzoP5/iEIrLQ+syS5N0QUlGv1GMAIoCe7ptIqmAgRq4eEyjZ33hBB3tV2oKaTXRFgWfX7nnRugVLcNl3b7FYOrepKCyrdsOEmgkLb78yikCreuqfhFom85bZgHoVG9FUoWt+h9wqnAxGQjliQ50Okag8JHSxey7xfjCS+qwGylYD0LQS735Mxi1ZYRQfUQMVt+PkJVi1apVTJ48ueD1Ll26FJ1yz46KzjFYC+TMMZiwuej95Li3wbkHPffBpg7rqHyruQOty3Q9z6DFfrb7VnBOwtLnFHQ3n6H98aXNSQjW8xJazicIlnMKlm1OQsi9q+fPH5hddt7dP2duQYc5Cc2/Z0nPgnkFC9tf6tyEVvsUf906Pdduf7sIQ9s5BsswjyHYz2XopYzc/YKbY9BtvY5zETq0x+8chq7mR3R5vuwoRdJB6TLOj2B0Q6n9ciJIAVlLlJL+Wi+Cz6/cC0IGByIFHX6Usk0vtv0xrD5FoPU+/kSgn3kAW8v3JwCL1VsWGWhxTK3NG2j5dwvB6CY60Gn/1v28f79WIkqw6oVgqrx2EcGjM+Qcg9u2bmFiyzKaPY5bOqCypOGINn3+0gwZMoRf/epXTJ8+nU6dOvHmm28yZMgQfvOb3/CDH/yAFStWeC6zZiIGq5oyRQ+CB7lWxdGDYPYjoiT5Qo9XeXLLeNtBoVUKs/vowML97PeVkYTZx1sda398YSSh3b5WkYRgnXJclZGEZkFZx5Dz9+xBqd9IQkURedGA5JB/Cy02N2GDoTN7RQd+c8g+EhUMCAoqwjDQeQwh+EjAStTrlG7sGP1nP/9iSfMbkvsw7Eey5UQB+pCM5U41VpIRBrw6hfXjzVRi+3JLOy9OlNrnaiGItNZilGP+Pc9zAvqQe37FXjmFYGZ/H/LPPC7rc51UGb90FK+OfRMiwtWiI/llgBSBdvvllhuOADSPty/bqwyE8FOF88UeBJ8qXEwGWu7jI1XYaX+AhqTB2eJtfq8eRsLldAxuRWBrO6o3SjAsISgpxDA0z6nBXlOP65k5c+Zw1VVX8eCDD6IoCp9++ilLlizhm9/8JjfccIOvMqUYDBKvgtDj3IPgM724yuYeTNdjoLC6uR9GUkHBuV/ZQVKlSsLi+0pJmH18m5GEWWVUShJC7tdHoST0lnIMkDTgzR6CpKGlpke1TzuuBHbCsKLzGHopO4y6PNbrJP+KluFzkRK3i42k903jSxLWgGRUVNi2/3qSqvuBa75oCjLiL0wB6ZVqS1GuB8FXyjkNRAp6mHaiWJ1eFiPRVYWP9ttEXFVJ2Mx/ZlVeUCLQ6t5ZThHodn7AfDHndSGQNOUUgEXrDXveQAg9VbhS8wbmk39MzvMEgneU3oi8AYBX+VdQpwdBVs1pw1IIBoivlU2lGExzzTXXIITg+OOPZ8+ePUyePJmGhga++c1vMnfuXF9lylTiIrhKJbbCa3irx9RiCD+92E/qb+bYgK5bpzY41eE23djLvjLduPix9sdXPt0YrFOOPZVhu2/e627TjfP2LUgb9pBybHm8i7Rju7KK7u859dghnbdCacngnJrspmy/+7lNYXZbZrEUZud0Y/9pw25Tp/2UHdaxQRyfKafElGk7wor4C0o+lrp6bSUIW/D5i0IsoxD0KPOCqr/YefSdYmxTrpUEtNq/rYnAYj8iep0HMPdYfwLQsV4/kYFWx4WcKmwZTViBVYW9HuMky/xKQC/yr+BYD3VWc9pwsbJkKnGrW5nQ/K6vVOJXOhzaps9fPvF4nNWrV7N7924OOeSQzKK8fpARg24RArwMiOooehC8S0KnyVXT9+yIkmRWnyU8sXGifSqxQxvsogjN47L+5hAd6GVfGUmYe3w5IgnBeYXj/AFZsXRhq2hCL9GIllGDVq+7jiTMzcfPWf1Y0XMG1MVTjvWCAbYAYjp87V2NXxyqE3f6erG7Zj3ed4WhWUpD3XBIAfZIYAufUCQ1OZuAf0IrtoiH17qThnN5jmnDJSw2UjRa0YH0Q7gfuVhyFGJAEXVpSaAmNUYuOZaVE59DREr/nJca5WhHOdJ0q4VyzrsXtuArVeoFEyUY/Pn0Kv60pMrxrx7K0+NXoUesb1q2cw8GJAKt7j/lFIFu04LtRGDVCcDMDjbttSo35FThAhno5piAZSAEnypsJ8qyy4kaOucbr7FIOcIylbgU+WfXLvfHVa8Q9FKeJIXQcJ+Ok0bKwHxisRidOnWiU6dOJUlBkGLQG3pqEKJ5+FCauXvu96/CuQez68nGb0RhJv0YleXbD8TQVRSKRxmWKgmLzTOYvW/2/lIS5pVZRBIWPz5v3xJXODZypKSF5KtWSUieCPQgCcFi7kGrAEcVEsCz/SCBhmHY+z9bbA4QaLZRhpUiSGGYj1uBmDQirqMQXVOONGa/6caULrFKTxVuHcpUQjICKKrC+gPXsFeNYHhIs3ZDvpiodGpwpQg7JbksQjDAFFx39QUgBEOKUnRqm13Un1AVVgxuokVRbEWT/aIkxecHtDq+FkSglQSsNQEINhIwU3GwMhDCTxW2lH0hpwq7kYFOEYE6Ci8rA9BRfEtAv+KvsBzv9VfzPIKqUHz1SVI69957L3fccQdNTU2MGjWKu+++m/Hjx1vu++6773LjjTeydOlS1q1bx89+9jPmzZuXs8/zzz/PHXfcwdKlS9mwYQN/+ctfmDVrVubviUSC66+/nr///e988MEHdOnShenTp/ODH/yAfv36ZfYbNGgQ69atyyl7wYIFXHPNNUX7lEwmueWWW7jrrrvYvXs3AB07dmTu3LncdNNNRKPW0204IcWgH7wKwmqNHszGxyrGVrIwjZu2CFTW7Gm9OKyiDO3GD05C1G7eQy+LkdjtLyVhXpklHm+WURhN2CYkoSJy/u5WEkLxaMJM9cL0esu6pV+w/xrSDa0gFRnMBw6rlOR0eZZU2Q96e/T2zlIvAHGYQ5XOR6gbEdsUZqeIQ6doQ6ty0lRiPnCvc1MAAIlESURBVMCKSUYVmvptJP3hz5cpgYrCKpo/sBSqZe5Bf+mx4Qu+UqVeJeYSzD3WuX47+ed4rAKr+jQDmuX3p5X8y9TnMy3Y6th8CWhXfqVFYCkC0DzeQeKFJQDBOkXYrswypwrny0AIP1W41HkDrcqwwnye0FhJX+f9Kij+CsrwuGpyJeYRlDLQhjLNMfjYY48xf/58Fi5cyIQJE7jzzjuZMWMGq1atonfv3gX779mzhyFDhnDGGWdw9dVXW5bZ3NzMqFGjuOiiizj11FMty1i2bBk33HADo0aNYtu2bVx11VWccsopvP766zn7fu9732POnDmZf3fq1MlVv+bOncuf//xnfvSjHzFx4kQAlixZws0338yWLVu47777XJWTjZxjsAiZOQYXtmNv3OLC9hI9CN6iB9OUY/5BJ3xIQyfSbYsqSU7v9wJ//PRYEi4Hn87zCnqfj9BpXCPnJMzfz8ucgqXNaWiW4X5fq3kJreYkNMuweL2a5iTM+7vTnISZl2znDRTEdINvrdC54xCNeOoayZ+rsHV/m4UVbOcZtC4n7HkMnY6xf91e8rhNcXa7GIrreQbdzltYxnkQneY+LCWltZS5CCGAOQVLabuLurWkxlEvTOI/x76MXiSVuNRz4Vh2BUVhtYg+L4Qt+Mq50nBrnQHMJViilHSSfsXKd6w7GeP0/wzhj0d9QDIvlbjYolp25QYlAt2sGGy1XzlEYM0JwCLlhi0DLY+pwXkDnWSgXTRglCSX8Cq/ZjwJIiVJwKCEmFf5Z0U55xF0KqtdRPDI57e26TnyMnMMbl/jb47Brgd6On8TJkxg3Lhx3HPPPZn6DzjgAObOnVs0Mm/QoEHMmzevIGIwG0VRCiIGrXjttdcYP34869atY8CAAa7Lt6NLly48+uijfP7zn895/e9//ztnn302O3bs8FymjBgslbCjB8FzejHYR/P5Eob50YXZlBBpqKPw0uZD0JOK6+kbnVOGi6cau40iBBlJmF+mtzkFZSRhqpNZr5UeSQjkrnBss0+mGgFxDP7YXyGOgkh9fuy+fqzSkR33t6nXFo9pyUHOSxgEtqnK+dRwBKLTnILph2MvC6dkys2O5PMTCVhqunCq/rCiGHVV4d1DVxFXFYwiN7QwU4NLPU+ZcgKQS9VGaSmxHoVgGaIQrcsIV+gF0QbnVYid6xeKwgvDPyNukUrsVK7Td7ebtGCr/SotAq3KqUkBWKRs22M9ykAIP1W4GuYNtJOBbtOChYjwNCMQRFCLRGdVk/iD0ub4CzJKUEYIukSoeJ9j0Nx/165dKErrsQ0NDTQ0FH7Px+Nxli5dyrXXXpt5TVVVpk+fzpIlS/y02jc7duxAURS6du2a8/oPfvADbr31VgYMGMA555zD1VdfTSRS/F7c0NDAoEGDCl4fPHgwsVjMVxvrb+RXKXThfe5B8J5enMZHFCEELAyhJGlooPLRnt627SrWJjvZl11eqQuWpEl/yedH7ElJKCVhwfF2ZQQgCcHa/VjJwvS+OrCic+7BngWgx/1rLS05aAFZNHU5RQvuohCLLSySplzzIJaa7pv90F1uyRiUYIQ8oadAU6/tgOpZ0Ia10EgQ88tVM+XoXzkWCQmiH+UQekEcX0z8OUX9JQ0NFPigxz7yU4m9ir/Wv1m3x01aMBSKQDcrBlvtF7QIrCsBWOzvIacK18K8gdYC0m1UW+6xBvABPS32K0G6VYH4y8drf2TacAgYKnhNXE3JwP79+2fm1QO46aabuPnmmwt237x5M7qu06dPn5zX+/Tpw8qVKz032S/79u3jO9/5DmeffTadO3fOvP71r3+dI444gu7du/Pyyy9z7bXXsmHDBn76058WLfPKK6/k1ltv5aGHHspI0ZaWFm6//XauvPJKX+2UYjBI/C5OAt5TjPNFYTY+pGGp8wVaYicN1dZU4nMGPssj66ZaphK7lYVBRxGax6WPyWu6jcyzO6aaJWF2qnFQktDc192chHZlWB2fW4azJMzet5gkhFZRWFQSmpWb+xaRhLZlWElCaBWFTpIwjdVcnIUvmW1SoUE3uGnFXm45pB0tqWvAbn9dtxZ6oKJapErruuqQlmxdR1BRhpWYxzCMCMZqjEL0Ig5LjwQMRjJWOoqxUTf43HPjeXrKqyRLWJW4LS80Uk2pyJ5TjH1ItWqQeYGV4bIvRcWfDenvyVhS4ZIl/fj1xE+JR4yiZdqJPzftCUoEulkx2G1acL4IbFMCECxTfqE+5w20SuEtJgTdyMBiqcExklyuvsgvk8cSd3ldV5v4C1LOBb9QSSmtkaT5+OOPCyIGq5VEIsGXv/xlDMMomPdv/vz5me3DDz+cWCzGZZddxoIFC4r26Y033mDx4sX079+fUaNGAfDmm28Sj8c5/vjjc+Y+/POf/+yqrVIMhkEpgjAfP/MPVLs0TAnDJApPfTqWpK64fsh3En3gThJWIoowe//sYyopCa2iCKE0SWju6yUSsNRoxEJJaLevlSQE62hCL5GAVpLQtgybaETLaEKrwbEHWQhgCI24kuRXg9oRR8XIfDbUwrkL08dYFxV6lGEtC8NyUG6B6Db6MJtsmeInIrG0SMDKRjE2Ay+M+S/NRNCM4B5K8oVLmPMTBkmtpiJ7lWR+5V41CD23Ms+JYvP65dQXQKrvPgX+fNhW9ilqJtDESf55FX9prFKC7Y4JSwRaLyhWPLKwcAfnm6KnlYC9lB2CAEzjKk3Yopx6nDfQSQZ6mR8w/eygo/FnYzQJm8FUKRKwlsVfqe3IDEtq89YYCorQUDxGDKZlYKdOnVzNMdizZ080TWPjxo05r2/cuJG+fZ0X2QmCtBRct24dzzzzTE60oBUTJkwgmUyydu1ahg8f7rhv165dOe2003JeO+CAA0pqr/x4ukQRAkUoGF5EnZ735Op1oRKwf7qGmpeGBiob96WWS7WKLiySipxft/t5BYtHEVoflz4mr5kuogjzj5OSMLdM+3a1EUmYVYatELT7GzjKMEGED9thGr+sj6dTlKEV1SYM7dKSdd1aaNnNY1hvBCkQM/Py+RFtWaLOT5RlKZKxIlGMKmzstg+IFEgxP6LRtm0l9q3UOuuJUiL2/J6TckbnOeFF6Fm2wePxflN9zb9n9VeB9Z0FEAEjePFX9DgXacFm+eGIQEcJ2EYEYOZvLkSgVRn1MG+gnQx0KwKdhJaByidGN9u2OFFt4q+SqcetbQisCXWHYvgQgx7nJIzFYowdO5bFixdnFgcRQrB48WLf6bZuSUvB999/n2effZYePXoUPWb58uWoqmq5WnI+Dz30UBDNzEGKQY8oqadaT4IwTb4ozKYNScPMqsRqggsGL+bhD48nIaKFO3qUhf4iAsuzYEn2cW6OqRdJmFtu25WE4DHlOK8sx4G1qjv+vdEwWLByG9eO6Ma+7M+4XZShTTlehWFwacn2Qi+wKEPci0O36cTC0BxXVfZanvv9Io4rMKdxOw8imHMhpnG7MnM2pcqsUiRjuaIYowmVM589nMemvkUimvtBy0+RDUro5UdKuRWQQaSwVhvlkpe+hWAVyDwI5jy5/vEhC7/pvvnHNSQV5r/cnZ9O2soeh3FzkOLPzbFlFYFSABYt26sMNI+pbKqwn3kDgxCB+W2IkeDKhme5p2UqcSyezShflF0xqk1EghSBnhCq7zkGvTB//nzOP/98jjzySMaPH8+dd95Jc3MzF154IQCzZ89m//33Z8GCBYC5YMmKFSsy25988gnLly+nY8eODB06FIDdu3ezevXqTB0ffvghy5cvp3v37gwYMIBEIsHpp5/OsmXL+Nvf/oau6zQ1NQHQvXt3YrEYS5Ys4ZVXXmHq1Kl06tSJJUuWcPXVV3PeeefRrVs3KoFiGF7fkbZFekntS37RwN64uw+jL2nohB9p6ETQ7fO7EAoGXWO72R7viCiljw6y0C5q0Wns4xTpaHec07glXxC6Oc7uGEMrfN3TvlqhGbE6XliIG2FRHuQKPad67Mu1votalmuT/mpVhtXxZhnu9s2WhDn72rbXZjRg0w7IjSp0XZ7Lss2/6yiGQd8WnaYGDSP7hupUvt0CITbH2KUl25VjLQyxFIbm/nbzGNq0x658u36lcCud3EYeui7P5X5uy3O/n79ItqDmWfQjGbMpRbCV2od8yagY0HV3I9s77sNrJnG5Iv9qhWqMUCxF7JU7Os8KPzIvH7/9CDLVVzGg1x6Nje2wvc6KtdNJ/jlHGVoPAO2i+MIWgVIAFi+33KnC5Zg30I0M9CIC81Ew6KHsZovRESMVneVFwNWz+AviVt0uIvjdSVvp1r2Hq1TYeiTtViZ9uplmjxqqg6Lwcr+ens/fPffcwx133EFTUxOjR4/mrrvuYsKECQBMmTKFQYMG8fDDDwOwdu1aBg8eXFDGcccdx3PPPQfAc889x9SpUwv2Of/883n44YdtywB49tlnmTJlCsuWLeNrX/saK1eupKWlhcGDB/OVr3yF+fPnu5ozccuWLdx44408++yzfPbZZ4i8gLGtW7cWLSMfKQaL4EcMOtGmpKFPYZjG1/yFNpLQj+xzOs75GPu/2Us8P8dISWhZbgiSEOxFIZRPFroq20UdjlLQ6e91KgwzxxURh2nqRSB63bfw2OBSZEsVdaVIxlLFXJAL0pSyWnQ1EkSkXKWoB6EXRJRhsQU8/NYfRqovBC/+wDmF166+oESgFIDuyoVCEQj1MW+gkwz0Ir3cpgWXYwXeakjzzSeoW7lTe9pFBL89ZYsUg1u3cPRHW2n2aKE6KPDSAd3b9PlLc+KJJ7J69Wouvvhi+vTpk7MYC5iS0iu1O2IrN7qA7C8xn0JOcUj/rbv0ZKvU5CxZGFUTzBn+T+5fdYJlKrHbVYlzSKcf5wlC//MKVnbBkuxj8o+rlnRj8/hUCrTLdGP7cr2kCwcxr2FhyrFV+oahCsvUEy8rHbeWpTumDRcbNNulJNvV0agL7lzdxLyhfdmnqWY9flOT7b4C6iAtGcyHxmLyEOznNyxsh8u04wqlMZdKkKs05yz+4UM47tHbZx3vrU35StGrZEwaGrGkyhXPDGXh8atIRDwnuWfQ89KOg14FuxSCkEzVRhjRiZWMzms9vvKpy37Fn9OxDUn4/ssduf6ovbRYdLGc4s88ziGd2c1CIRbH24pAp/u2FIAZgkgThsrPG2gnA0uJBrQj+xkhRoL5Hf7JT5tPKEgl9rbYRnVF+0F5xJ9EUi5eeOEFXnzxxcyKxEEgxaBfnIQc+JJybUIaZsnCBAqL3ptCIqFgM41FAa5lYfb8hD4kYTUuWJJ9XOExlZOE5vGF8xIWk4S5dQUnCe3KSJdjJ/7yB4pmOday0Gp+wjR6JGE5aLWThY5zDKbJOtduxGF2HXFUrh20H3E0QBSvx1YK+hCGumoZHWgIzSbKsHKrJRc7rqAcd7u5x22BAf9AWi6J6IXsh3s/YqwSkrFFgXuP+ZhdNELqkFJTpaFQXAWRdlyNqbpBEISQK4VKR+cF1Y5Sjy8m/YrV4STimtG45cg4e1WtYGqqahB/Ret0IwKlAGz9u0cB2FqunVSrrnkDrRYRKSgjYBFYTNjFiXDvnmkkRRTV5UIP1TDnYJDDmDDb5GOKvLpFS0axSUCzP0aevwwjRoxg7969gZYpxWBYBCzlalIaumhXXE99BItEFzrhJO3MtllHEWYfG0QUYfZxQUQRZh/nTSwqqWOMovtXUhLa1+UsCc19nYWdF1FoVU66LDtZaLc/eJeFRSP/zEpt98lBFYWDdMOgRVUxEK6jDK3KLfrQYdsmm9dDjjL0KgyLHee1nEx57nZzTdBRiKUStlhMCwS/kXNlk4wG7NGUnPqyBaPf+vMpXTVWP7UWmVgNMi+IMtwIvSDaUFKqrwF7VMj/jbhqxF/mj9bHWkYDWrVPCsAMTgLQLNspzbaw3FqYN9CNmAozLTjhEK3hVQJWm/irxgjEtooiVJTw1x6pW37xi19wzTXXcOONNzJy5Eii0dzrtnPnzp7LlGLQLUJA9pdJKXntbUUaFpGFUVVnzsh/cf8700kIi4+iD1noKAllFKFjPdUuCbPLLlUUpsvKL8ddWaXLQrsUZMidr7DYYLq1HnuB2CgEP127jvlDBrDP5vsgP8qwoOxyRhlWLC25tWF2cxrmlmOXrpyP+zRhN2nMXiiXRCxV3rkhLS1KkZClS0L742NJhW8934cfTN5IPGL96Ss1krEWCUKaVSvVIPOgdKEXSBtc3qtKTfVtSMIPX1P49jgjk0pcTeIPfM4JaFWeFIB5ZXsTgE7HVuO8gU7Cym9asBN29cVIMq/TP7hz1wziRMs036DvQwNtRzZBD2fSw0WXU1m3CVRDK7qGYsExAWfN1DJdu3Zl586dTJs2Led1wzBQFAVd9/4hlouPFCGz+MjPNW+Lj4TxyQ14oZFAF0Lx1TaDqKqnfpkq4YvcRWSh49yEbWjBEvM467+FsXCJ+Xppi5fY1edUvnmM+4VMgi7LalETN/U7LXBiWZZNu3J3MmhQkuxTFOuf2kpYCMVxARQXKyZ7/lvIi59k/ux6cRF3Ixp3AhFPcs51GwNeUKVofWWIUgxDQJYiHDVFBwMadIUWzfB1O6umuQStqLUovjCpBpkXRDvcyryg2hBIqq9h0KjDPg1QFEfxZx7rr87AxV+RMp0lnxSAabwKwJxjLdpU6XkD7SRWJRcJUXRTDsaJ4HQz81pmEFRrtJ8X2dcuIlh0mlx8ZNvWLUz7b5xmj2KwgwrPHBRr0+cvzfjx44lEIlx11VWWi48cd9xxnsus359yK01QE1llU82RhlZtc9GmmJYkkdAouPl4qT8/stBCFLqKJGwDC5aYxxWmGjsd4yeSMLsMN4uXmOUY9im9FoMkr1GF5jHOkX1BleVlvsLs+osNmNM4RRwWoCZpl4S4pmHk3TSKRQPaReNBfUYZZo4zVFcjveLRh2mCjkJ0/xUZ9IIqRetzGaVYCmGkSZcS9SgMDcWAdgkFoSZtP3du6k8T1jmUgs8/1SDzoHShF4zY9DZGDCrVVzEMGnTYp4KBUh/iz9XfpQB0faxDm6ohMtB8zWJuQRcyMGgRaF2eQUxJEs+K9i6XBKzGaL+gI/ys5sqXSPzwzjvv8MYbbzB8+PDAypRi0C26nrcqcYkDqyBX/4XqlIZFZGFU1Tn/0Oe5/61phanEficIg6Ki0HaOwAqkGluNI0tJNbYa/3lNNfZ6jP2CIoWi0C6l1yyn+ErHmbodZKFzHV4Fn/uy/M5XaHeMFV4EYloeNiYVbv9kLd/cfxj71NY2uJrf0GHOQbuHDSdh6KZcX3MZehWGtouftFJMHmbKcrdbXUnEYgQlGZ0IS0CKrFWBvcjHhiRc85+O3DhpN/Gs25nfNuZLqOyIxiAElcQbtRadZ9kGjzLPCkfZZldvkb57Sfdt1A1uW55g/pgoe1WHR5haE39QkvwDKQALy7Y+1s8KxFbjzVKjA6tHBOYSI8nlXf7F3Vs/X7AqcWF5rqrNUG3iryLST5qXDIruPZXY65yE9cyRRx7JRx99FKgYlKnERcikEv8Ub6nEpYpDO4IOmw0oPbmktORS2+C2boeUY9u0YZs0Y8djsB8/+k9Ptn7dOWXYvjwvacPu67NJJXZMA3affmyW5S0F2al+r2nDTvUEWVZh2d5HQMXKLpay7JSi7Jg+DL5Tk0spN9C0ZLflZhfldmTjYRRaC+nMxesMPz02bAEJtZVmLQmOapB5ULrQ8yPzCtpQwrnwO89fXUX8QVHxB+HKP1fl15EA9FNu2KnCTjLQy6IeQYpAb+W52q1kAViN4i+oSL92EcHDX97aplNh027lc+8a7PH4HrVX4elDlTZ9/tI8/vjj3HzzzXzrW9/isMMOK1h85PDDD/dcpvTWYVFswke/4rBKIw2tIgyLyUIFg66NzWzf1wEjP5U4wEVOMmRHElZxFKH1celjcl8Pc8ES8zj7dOP8eq0GIIZmFEkDLp5+3Po34TkFGawHYk6Rhf4WJCm9LNv2e3ggs4pAVAyDPnoLG7UGDEXBUIXjAN9uBWVoI1GG2bgcsLiJQExX6lYi1kIkYnHM9yVMIRbGoi35uImAVAzovVfhs3YGhs0zkZ51XVX7nIJtmWqQeVC60AtCbBabw8+5/iL3OB/iTzEM+uyBpkalYGoMs9Iyz/GX2cfdeXKzoFgl5R+0DQHoVG65ZGAlogHdlKdg0F3bxVa9U26mXAll5pRfx9IvU55D22TEWyuKUFA8SmTF12Qt9cmZZ54JwEUXXZR5TVGUkhYfkWLQLcLImosuAEMdhjgslzR0Ke2KycKIqnPaiNdY9NaxhanEPucszJBdt5MktBGE4E8S+pmL0Ok4P3MRgvtUYzsx13qctexzKiO7HK+y0KmsMGWh3XyFrXWUPl+hU1nZZaZxm16cW2dh2Q1CZ97W97ml+2G0qJqj63KShk7CEJylYVXOZegKt8KPmpCIxaa+za7bbSSiG4KVjVaUR0CCfRRkQxKuekvjprF6ZrVUJ/LFUTkiH+uJIMRbGFQ6Os9sQ+nnppjUK96GIn3wGfHXkFD59vs7uPbgLuzLH6OFJf4ClH7gQvy5qLOS8g/KOwdgEOU6lR1GmrBVudUqAlvLM/8fU5Kc3fVF7t/6OctU4qCjC22PD+iWWE7pJ/GGqmueo0tVwwDkD6sAH374YeBlylTiImRSiX9ssDfu8qCwQ1uDTlMOor0lpAOXvDqyl7qd6qrRVOPiPy77Szd2c3xhefb7BpmG7DUF2SwrmJWQnevwvhJysTK91mVH8Tb4T3t2Sk0utnJyKSsbh5aaXLCv2/wZl/t5GVnWQDqzW4KUjXaEKyBNwhSQQZ7zICSVxB31IPPMdpT4mXHRj6pa1RcCSfHN7Of2/AWRVlzF8g+qTwCax3qLOiw1OtCNvKu0CCx3eZn9q1D8lWPOwXZRwYPnbGvTqbBptzJzucYej2KwvWrw1Gi9TZ+/MJERg2EQxorE2ThFG1Yq0tBHhJ+CoHeHXXzW3AkjL6/Pkyz0UrdTJGGNpBp7iSIE9+nGdmXYDQqs5JzdwMXQDE+RhXYLm4BzZGEtLW6SrgeKD5Ld1mWFahjsb+zko0gHhFXqFfaLo2TqdCi/UlGGflOTM8LQy0O0UN2JRNfRgPUVieiWdCptuKm/wUY7WmEVAakaBgN2w/qO2F5n7pAyr5YoVejViswrWoTbfpQo/lTDYODeJOvaRVqvM0cpWJ3Sz229tSz/zPKrTwA61WuVgRKkDKx2CQigCYO+0e00JboWPJv5KbMU2VZr0k/iDVWo3iMGkRGD2fz2t79l4cKFfPjhhyxZsoSBAwdy5513MnjwYL74xS96Lk+KQbfoeuvnMMwViaE0cVgOaRiQLIyoghOGvsOjb08gkXfjtVsV2feKyFai0I0krIJUYz9zEWaTPZZ1I/nsbvZuhaF1mTYpxTaCzymFOShZaJeCDOWRhXb12OFXIkYRzN61hh93HkWL4k1cpuu1e3gQqvOx1TaXIeBatBXU6XbHNioRvWAYaqj5OOUSkNAaBRnRDS56X+e2wzVaHCK/JfVB6Km2rgopsQ0BSElPUzUEEPEX1QWXfrSTm4f0pEVTS065zexXAekHxcUf1Lf8K7V8vwLQPNZJ4AUjA6tdBFqVF1GSnNjlNX6zZRqJ1DUblgQMSq5VvfTLfj6UqcgZVKE6XoeWx8g5BjPcd9993HjjjcybN4/bb789M6dg165dufPOO32JQZlKXIRMKvEPk+5TicNakThNGKGzpba5gqsS+0pFtquzClKNi431ndKN3RxvllF8Hy8pxG7LLFaubUqxx1WUq3UlZKd67MsKflXinPJ9pEa7qaMSqcmBpg9ble9BNBVtSxq3bQo6nRncj6bDTJ0NO724DKnF5Vh9WVIdVDo6r+wyz7IRPtrgN9U3APFXzdIPios/s862K//M472lAOce614A5v7NuwysRRFYSnlub6+lirZqXmgkR/q5oF3U4MHzZCrxtq1bOPnVduzxKAbbawb/O35vmz5/aQ455BC+//3vM2vWLDp16sSbb77JkCFDeOedd5gyZQqbN2/2XKaMGAyDsFYkThNGxKFdm9221UdkoYKgf5ftfLzDJlw9oEVOLElHFObXUQWpxvk3QKd0YzfHW5XjJirQaQBhnUZsu3tO2b5Sij1GFlbrSsh29VjVm8ZtyrBZR2EkomoYHKhvZ43WtSDF0YwGtG5P0YVSHNpRSpSh39TkkqIMXaLgMhoQ3P8qLDR3EjHwSERwtTIzgB5ehJ/76EW/pCIeQhSQhqGiGgbDdyVZ1VktMZVYUnWUM9XWjgBWGC65H37b4FP8WX2fq4bB8D37WNW+EaEodSH9zHqLt68tyz939fsTgObfbSL+rBYmKZh3sMgqvxVMC/ZTpoLggIbNfNTSs+DZLAwRWE/SrxiKbqB4DLqoZ1Rd8RExKEnz4YcfMmbMmILXGxoaaG5u9lWmFIMuMYSOkfriVEoVe5UUh16loVVbA5KFmiqYNHA1f3rnCJJWN+0SViZ2LQuz6/AjCQNONbY6zuqm6VUWui/HYp8i8xZa4UUcGpp38WfXBj+ysFIrIVvhRR5mtyeN1cA8Zuic1LKW+xrGEE+lEhdLZXYShuk67R4Cis2p6DiXoYM0dBKGUJ4ZR7zIxbqTiF5Smr2SvjZCjO4LW0BGdIPTP07yo+GNMpW4TqjZ6Lwg6y+1DI/iL+fvFoOPmBCcvnkHd/RvT0t6XFYH0g/qX/yZZYQn/4q1odi41a5tXiMDaz0aMKIIJnd+hz98NjmTSuxcnjvRVertvRakn8QbvuYYVOR5TjN48GCWL1/OwIEDc15/6qmnOPjgg32VKcWgD4wiYq+qxWEgC42UEF2YVX9SqDy2/MhU3e6qDkoW+paEPqIIoYgkhBxRaHdzKRYVWE5ZmFtm4Wve5h+0LjMIWWgXiZg+JghZaLe4iVmWtSwsaIsHeZjdTqv25JNE5e7YeHOSPMXdwiXFowFrJ8oQii+CEhouRZ4XiajomruU5qAlYqrMcKP7Qi4/RAHZosD3DupsXmdJQj5PklCptMwLog2BCEH//QgsxTevDS2o3Nb/gNTfvNUH1Sv93JZX7fKvkuLP/Ls/+ZfGz8IhtS4CM/ulrqckEX63cZpDeeGIwEDFmpR+kjrme9/7Ht/85jeZP38+V1xxBfv27cMwDF599VV+//vfs2DBAn7961/7KluKwRCoWXFoJw1LEYYObVEVwaDuW1i7tYd11WGuiJxXYYEoDCnVOFNfMVEIjlGFVuW4SyH2Jx2tymot035/s+zC14otghKULKy2lZALy7Vf7MQOrxJRNQTDlc94T+3p6kGvtGjA4KMMwfl3g2JRhuD+Ic8Jv3JR0TXHeREzuBV5gOLy4xK4RARvItEP6QfosAVkwHWohsHonQmWd46aqcTZ12cZ5jmUlIiUeYB7wWZ7vJc5GH1E+qmGwag9u3mzfceClP1al36Z8qT8K/L38OSfm/LdiMBakYCWdSEY0m4DH+zdD8Ol9CzXXINA9Uu/RLE3QUrGNKpQfEQMhtSYGuKWW27hq1/9Kpdccgnt2rXj+uuvZ8+ePZxzzjn069ePn//855x11lm+ypZi0C1Cb/11Ui1t4FRz4rCklYntZaGqGIzq9zHrt3W3/p4PcUXkfNKi0FYQWh3vVhKmyZKFbqL5gpCF4D+60G1ZTuWaZRc5psi8hnaysNichdW2EnLuPu7EYW59/iSihsExyY9ZrfUiUcQo2a2wDEFEA/ost5TUZIc2eaFYRGJRklHHBVXS1IRETNUPHhZY8UP6PQ9bQgbUh4gwmL5pF+90aCReMHLN+4zKaMLqIAgRF0Q5FZZ54FHoWeGzD14j/aJCcPyO7ayIdSZuMR6sdenXWq+Uf87lV17+uS2rtczKlOdV2mmKzpiOa1jX3JukhSYIVQLWvPSTeEHRva9KrEixSva6weeeey7nnnsue/bsYffu3fTu3buksqUY9IMotvJlGxCHAcjCpA5/WX54qk53h4YtCx3TjfOPzz7WTbt8yELIk3N2N80AUpHBvTAsaFeRcu3KN+tw2N8xStB6f/CRUhyALLRb3CS/DeY+3ucQ9CsRk6j8WjVTiZ2m5jBU4SmVOb+N4UQD+i+3mDT0QhBqKhJvcLdadCUlopd5EWl9WPeyWrNnvEQz+io/GAEZB340qGeqzGJ1VrEoDEqW1TsBzD9Y1ug8K4KYQ5EA+uEh0k8H7uwxDARoNtdZrUs/t/VK+Vc9kX+55brbr9IC0I6kEeGPTceiCHDTQtfyra1JP7ssvIDPQy2j6IonCQ/uPpNtASUvYr59+/a0b9++5HKlGAyDehWHxcr1mIqsKoLhvT9j1We9rU9ZiCsiZ3CICHSdbpxNMVmY3za7G1EVRRdm9vUgDS3bWKR86zqsyvUuC72kFJvHeJeFToNYu+hCJ5wWQLE/plAiqghG8Slv0g9hoeHcRCI6SUOnKMOi7S0hNblo2b6PtGpHeQVjxSQi/pJcvApFz+WXSUCC/yhIzTA4asce/tOlPbrXVYnzP+elnsuAhI+kkIrLPKiKCENwL/Tc4DbSL6LDuL3beK1dN3SHcOhal35u6pTirzTxF6b081NPuQWgXXkqghEdP2Ll7gNyxoxhCcCyzN9XLukn8UQ5U4nvvfde7rjjDpqamhg1ahR3330348ePt93/8ccf54YbbmDt2rUMGzaMH/7wh5x44omZv+eLuTQ/+tGP+Na3vgXAoEGDWLduXc7fFyxYwDXXXJP591tvvcUVV1zBa6+9Rq9evZg7dy7f/va3i/bnoIMOsm1Dmq1btxYtJx8pBt2i663LXpa8anBlxaEdRYWiU7lOx9p8gaqqzpBeW3h/Uy/r+4jf+hzqdBSGThGBFIpC8CEL7dpWxdGFmX09S71gxWG6/ErIQj8rIecc5zIST2SFQHi5WTpJxCiCQ9XPWCH6kcga5HmZB9FR3hUVot5TiN1FA/qbz9ALxdrhFU2o7oSfWTnChaSqpETMoQzpxUr68xuyhPQjICNCMHZXC6937Ihw+8OUHTJqr+qodHReIOnCAS/AFMTcrdm4+a7V0Bm9bwfLG3pgKKWt4pumEtLPbb1S/pVH/pXym5NXsVEtAtAOTegM7fAp7+/sh2E49M2lAAxd/FWz9LN8JpQRg+XmscceY/78+SxcuJAJEyZw5513MmPGDFatWmWZevvyyy9z9tlns2DBAk466SQeeeQRZs2axbJlyxg5ciQAGzZsyDnm//7v/7j44os57bTTcl7/3ve+x5w5czL/7tSpU2Z7586dnHDCCUyfPp2FCxfy9ttvc9FFF9G1a1cuvfRSxz7dcsstdOnSxfO5KIZiZCcqSwoQQrBt6xYu/t4u9rZ4OLBUeViMEuWhV3xHIfo9zu+DVSnn3W2dLlZBtlz12Ec5RdsULd5fKwFXWI+3gY2rMvOP8fGWFqvHrkynZ7jslF43x9jvb//VaXeMHU5l2dZhl0dV7DgPbRNFBIxwaLeTrCrWdqd6RRFp5Vq8uaBY/z2X50O4ue2PG4nopTw3EtGxHj9y0Wsd5UjBDXOOQ0l1UwcyL2h5lybIH0zSeInMrgfp57ZeKf9KPd7xz57Lc4OXOislAIOOAPQkACs1V1/Y0s8F7WIGD3x1L92690At9UfEGiXtVs76Rzf2Jr2dg3YRwaMztnk6fxMmTGDcuHHcc889mfoPOOAA5s6dmxO9l+bMM8+kubmZv/3tb5nXjjrqKEaPHs3ChQst65g1axa7du1i8eLFmdcGDRrEvHnzmDdvnuUx9913H9/97ndpamoiFosBcM011/DEE0+wcuVK2/6oqkpTU1PJ8wlaUTMRg7fffjtPPvkky5cvJxaLsX379qLHXHDBBSxatCjntRkzZvDUU0+F1Moswlo5OE2xqMNsApCITlGIjtLQ4Tg1ojBy/ybe+aQvIt/wOH15O0b9lSHK0ONchWlCiS70mYoMLqMLwVIaliON2KmedPl2C6t4mX8Q/EUWOs4/6HJg6ZTObIfXKEQNnSO0dbzOAHRUT20rHpVnM5+iQ5QhFJlXsJQFUAKM8Cs1lTkwdM2VUHQdjRh0JKIdKSFRqmB0IpNiHKaEzJMVdjIyYhhM3rGD57t0Iek1lVhSVZRrzjw7gpB5YYi7NEFNrZCPq4hBQ3D0vs94qbE3hnB3nqpZ+pnlFd/P8X4qxZ8r/Aq/oGawqBUBqCo6h3VZx9s7BiIsfjF3XV455V/Qqb0+pZ8d2c+EipxjMIOvVOLU/rt27cpJpW1oaKChoaFg/3g8ztKlS7n22mtby1BVpk+fzpIlSyzrWLJkCfPnz895bcaMGTzxxBOW+2/cuJEnn3yywDkB/OAHP+DWW29lwIABnHPOOVx99dVEIpFMPZMnT85IwXQ9P/zhD9m2bRvdunWzrK9YCnEp1IwYjMfjnHHGGUycOJEHHnjA9XEzZ87koYceyvzb6kPjiuxViaF02Ra2OMzGi0S0okhf7aRhsShDVSTp22knK0RPRPZAM4w0YfB/zt3UZ3cTyRJ9VrIQ8oShi3KCSEUGD2nExW5iFRCHTm0PQhbarYScPsZrSnFhGd4EYm6bvElEBdhf3c4biYEYjkouq64icyIWX3nZKeLPf2qyE0GlD2fKC6wkk1JEoypUd9GLFZKITkTi5j03yEjOAsogIdPkS5+0lFSFYMi+OC92VFHaaBRALVMPMi8sYZdNWMLR7Xd3xIBBiT28ElVJKPUh/UBG/ZUq/8o1X2DO8SXe0iotAO1Qgb7ttrFi6wBcJRW6FYDVMi9fiNJP4g1F934dpp1Y//792b17d+b1m266iZtvvrlg/82bN6PrOn369Ml5vU+fPrZReU1NTZb7NzU1We6/aNEiOnXqxKmnnprz+te//nWOOOIIunfvzssvv8y1117Lhg0b+OlPf5qpZ/DgwQX1pP9mJwbDTPatGTF4yy23APDwww97Oq6hoYG+ffsG36CQ5wksKrEg/HTlNE59dehnsSjDpND45zvDCv8Y8FyGgLs0Ya/i0I2gK1d0YUALnYAPqVcF4rB1/kHrBVa8ykLn+QfdH2Nfho8IQZ8SUSfC/9PHmv92W1fRhxkH8ecgDZ2iDM1Si8wr6FMaeiVoyQili0a3Mq9iErEYKWlRqmh0oiwSMp+UEDKARV0GQwKUMghKSTCUKvSqQeaFGR2YT9Dfi5lyXfZBR+WRdsPBgPSsGLUu/VrLk/KvlOPdlmN7XEC3Db9z6lVLCrCOyj8/PqJwx2oUgAFLvnwCl366gHIstlIjlBIx+PHHHxdEDFaKBx98kHPPPZfGxsac17OjDg8//HBisRiXXXYZCxYsKKm9IsRrrGbEoF+ee+45evfuTbdu3Zg2bRq33XYbPXr0CL/isMUhuJOHpVI0es+mDS6iDFVFMHZwE0s/bE0l9r0Ait8ow2z8Rhxm110v0YVpLOYwDFwcQoE89FqHnfizK6scsjD/eChPhGB+PRo6R8VW85/4UHRsFvvwUJfTCszFV18OJzW5nNLQD4GJxoBlXtAS0Q1a6n0MVd6VQULmoxmCzzV/xtMdeqOI3AFfWUWlxJagBFo1yLywBJ1jnSEJSC/nQjMEU+Mf82ysf2ZVYi/nolqlX2a/Csq/ahd/5RZ+QS+a4bUdlZoDUE0mGNt7DUs/O7Bwmqecel12KGR555dQpJ+kbHTq1MnVHIM9e/ZE0zQ2btyY8/rGjRttA8f69u3rev8XXniBVatW8dhjjxVty4QJE0gmk6xdu5bhw4fb1pNuQyWoazE4c+ZMTj31VAYPHsyaNWu47rrr+PznP8+SJUvQbERSS0sLLS2tq4ykwzVVIwG6gpYa4OtKDE0VGIAQKhFVINLbmkAIBWEoBdu6UDAMhagSJylUczuik0yqGJjbiaQKqkY0IsxtSG1rKBhE0tuKQUQVJHRzW1MFSV1DVQxU1SCpq6iKQFUxt1UzHicpzG0F0IXa2qfUdk6fDJHVJxBGVv/UCBFNR0/3Q9Nb+6TESeqpPmk6idRgJaoJEob5C30sotOhMY6qGGiqTkLXQCRt+6RFFJJCM/ukGLnbOqiKQFEs+hQFw1DMtqs6wnZbZLZ10dr21n4kSeoahqoR1ZJme4EoLa3bmk5Cj6BoKpH0NgYR4iSEua2pwmy7Rm4/DL2wfxFQMNANDU3RwdAz2wZm2zXNQJDVDyGythUEKpGoSPVJJUrqs4dKVE2SFJrZPzVJAvO9iao6CaFBIpnaTvUjsy3M90lrQEGgKYKkEUFFoIqs7fTrim5+9gwNJZL67KX7BOgi3ScQhkZE0c3rydCIKEmEopn9UJIIQ0XoKlElSdJI9SNnO0FCjYJQzG3D/JqLKkniirkdEwkSRtTsk5IkrsZQEEQNPfW6IKIIEkYERbXpk6YTEQZJImipJct1tJxtVU1iALquESGJgYKOuS3M0nK2oyRJaGY/GoROEnM7RoIEEQwUYiSIp766YySJE0Gohrmtm32KkiSO2Y8GdDrRgqYbaOgkMPuhIYhrGiqCqBAkUv1QgGSqH9nbAAlVJaqb3xFmP/TMdpQkSZRMP/SsPiVR0TVoFDqJTJ+SJDA/exE1QTz1sB1DJ07r9j5VRdMhik4c87MXRWS2Iwha0FANgYZBQtHQDIFqs61gkFQ0IobZp/S2gYKuqESUBCJpbkcNHUHrto6CUFRihtmn/O0GI0kcDUNRWreBBs1so5LqU4sSQTGMzLZqmP2IW2zn96kFpz6JVJ9UIknQNWHZj5w+6eZ7EzP0VD+UnO10P1QRJarEW/uEXqRPBlEELYqGahipPmW/T1Gz7VqSuOX7lOpHdp+M1Gcvrx+x1HuT3k6m3qd2upH67Bk0CJ2EkuqT0Ikrqvk+pbeBBkPQoqhmnwxBi6qZfUptq4ZBNGu7tU8GjYagq56kQVcQCll9goSItm6n+iFUnaSiEjXMsYOet13Yp9R7I8zj0v0IvE+GIJ7XPy31nuX0SVEL+pR+nxp0xVufsj9vIb9PfvsUNQSGUF1/9nKvIfN7DxGx/47wcD1FdMXienL7vZd9PbV+7zl+R6BgGJG89yxJEi3nO8JPn2I6Be+NU59ihkEXkSCWBF0h0ydVKAXf5dZ9goak4eq7PCGiLvpU/P6UvudGBTn3X/Oem3pv0NAQaELk3HNb77MKOiox3ci552bfZ3VUDF3J3HNb77Ot4whdRG3HEWDQoOupsUPuOCLdD00YOX1SESQz2zq6nh5HtI6NsscRqlAKxknZY6OoSI3xssd76TEerWO8pKGBUImlxngGCjElQTw13ospybztVJ+UJIlkJHeMl7WdM8bL2dbRDCOzrSh5Y9j0uNwAQWrcaihZ29Z90pOK5Rg2mepTzhiWBAmR2lbNz6c5Lk9vm/1IJrXCcbmS9T6lX0+an4ykYT53pJ81ImqSjtF95vOKomMIw3ymUPSsZ40kQlFbt4WK0CGiJlufNdSk/bNGaryXedZIbSeTqvWzRmrbfH6KWD8HWmznPD9lv0+psarzM2Fq24hb9yn9TJh6PkyQ/RyY90yI0fpMWOr0XnVEKanEbonFYowdO5bFixcza9YswIy4W7x4MVdeeaXlMRMnTmTx4sU5i4Y8/fTTTJw4sWDfBx54gLFjxzJq1KiibVm+fDmqqmYWDZk4cSLf/e53SSQSRKPRTD3Dhw+3TSMOm4qGWFxzzTUoiuL4n9OqLMU466yzOOWUUzjssMOYNWsWf/vb33jttdd47rnnbI9ZsGABXbp0yfzXv39/ACYdugmACQdvZsLBm0FPcuyhnzJ2yGegJ5k26mMOG7AF9CQzx65neP/tAJxy1DoG990FwOnHfEj/ns0AnD1lDb277AXg/OPfp2tHU0bOmbmKDo1JomqCOSesIKom6BBrYc4JK0DodG2/h/OnrgSh07vTbs6e/F8QOv277+T0SWtA6AzuvZ1Txn8AQmd4v63MHLMWhM5hB2xm2uHrQeiMHbKRYw/5BITOhIM2MOGgDSB0s08Hmn2dNuojDhu4BYCZR6xj+P6pPo3/gMF9doKuc/qE/9K/6w7Qdc4++j16dzT7ev6Ud+naYZ/Zp+lv06EhQVQTzJn+NlElQYfoPi6a8hbPvXMAnRr2cv7ktwDo3bmZsye9C2D2abz5/g/utZ2TR6/E0HUO6rOJGSPfx9B1RvZrYtohHwBwxKBPOfagdeb7NOQjJgz5CIBjD/yQIw74CHSdacPfZ+R+n4KuM+OQlQzvtRF0nZMPf5dBPbYBcNoRb9O/2w7zMzRuOb07m3MYzD5qGV3b7wUhuGTSK3SI7COqJLhk0itmn2JxLpn0CgBdG3Yze+wroOv0br+ds8a8DrpO/67bOO3wNwAY1HUTJx+8HIRgeI8NzBj2DgjByD6fMO1As99H9P2QYwesAl0wYf81TNh/DeiCYwf+lyP2WwvA8YPe4bCe61GEYOaQNxnR7VMUIThl2DIGdzXfy9OHvUL/DltAF5w94iV6N24HXXD+of+ma6P5mZxz+DN00PYSJcGckf8iSoIO2l7mjPwXCEHX2C7OP/hZ831qv4OzD3oBEjr9Gz7j9EEvQUJncPsNnHLAfyChM7zTemb2XwrAYd3WMa3fcgCO7Lqayb3eQdENjuq+kqO6r0TRDSb3eocju642+9R3OYd1Md/Lz/dbyvCOH4Ew+GK/JQxuvwGEwen9X6B/4yYQBucMfNbsE3DB4H/RXduFohtcNuj/6MheYiLBZYP+j5iRpKOyj68O+D8UAd21XVzU/2kU3aCvto2v9HkGRTcYEN3El3s/D8CBDRs4tfvLKAIOafyIk7q9CsCoxg+Z0fkNFB3GtX+fqR3fQtHh6A7vcXTH98xrqOPbTGi3GlUozOy0nNGNa1GFwhc7v8ahDR+jCoUzuixhWLQJVSic3e0FBqqbUXS4sMsz7KdsR9Hh0q5P04NdKDrM7f5/dDL20SCSzO3+f8RI0tlo4aquT6EKhZ7Kbr7a5V+oQqGfuoPzOz/P082j6a9t57yOL6IKhaHRJr7c8T8ousJI7WNmNS5F0RWOiKzjCw3LUXSFo6JrmB57F0VXmNywkskNK1GFwgnRd5kUWYMqFE6KvclYbT2qUPhSw1IOUz5B0RXOjr7KQXyGoiucH3uZQeoWVF3lssiL9Be7UHWVr0eeo5fYA8B3tMV0EXEaheA72mIahaCLiPMdbTGqUOkt9jKf51GFSn+xmyt4GVWoHCi2M4dXUXWFQ8RmzhfLUHWF0WIDZ4m3UHWFCeJjviTeRdUVJou1fEGsQtUVpos1TBdrUHWFL4hVTBZrUXWFU/X3mCA+QREqZ+tvM1psRBEqF+jLOVhsQREql+pLGSJ2oAiVufor7C92owiVb+gv0UvsRREq39Wfp7NI0IDODfEXaacbdNET3BB/EVVX6a3v5VvxJai6ygF6M1fFX0PVVYYmd/DV+Buousqhya1cFH8TVVcZk/yMcxPvEklEmJjYwBnx/6IKlamJjzglvgZVqMxIrGVGYi2qUDklvobj932Kqmt8ee9qJrVsRNU1vrJ3FWPjm1F1jTl73mVkYjtaIsqVzW8zNLETRah8c/dyDkg2owiV63Yto3eyBUWo3LZjKV0TgnbC4LYdS2knDLrqSW7bsRRVqPRNtnD9juWoQmVAYg/f2vkWqlA5KLGLr+96F1WoHBbfwWW7V6IKlSNbtnDhjg+IJKIcu2czZ+9ah6prTG/eyKm7P0LVNb7Q/ClfaDb7ceruj5jebPbj7F3rOHaP2Y8Ldn7AuL3bUHWNr+54n8P37UTVNa7avpKDWnajJaJ8Z+sKBu1rQUtEuWnr2/RJxFGEyoItb9IlqdOow4Itb9KoQ5ekzoItb6IIlT6JODdtfRtFqAyI7+U721agCJWDWnYzb9sqFKFy2L4dXLLjAx7vMJjR+3Zw4Y4PUYTKMXs2c87OdShCNfu062MUofKF3Rs4eednaMkop+/YwAm7NqMKjXO3f8Tk5q2oQuOibesYv2cHqtD42tYPGbVvF6rQmL91NcNb9qAKjWu3rGJgfB+q0Lhl8wr6JhKoQuOHm96ha1LQTlf44aZ3aKcrdE0KfrjpHVSh0TeR4JbNK1CFxsD4Pq7dsgpVaAxv2cP8ratRhcaofbv42tYP0ZJRJjTv5OJt69GSUSbv3sZ52z9GS0Y5YddmTt+xAS0Z5eSdn2X6dOquj5nebF435+xcxzF7NqMIlQt3fMi4vdtQhMpXt6/msH3mNTRv2yoOajGvoe9sW8GAuHkNhfE+fXX7ahShMm7vNlfv00m7mtASUU7d+Ymvz14kEeU7295l0L4WVKFy/Y7l9E2a27ftWEpXPenpetKSEYYmdnJls9nXkYntzGl+D0WojI1vZvae/6IIlUktG/nynjUoQmXavk+ZtXctilCZue8jZu77CEWozNq7lmn7PkURKl/es4ZJLeZ7NnvPfxkbN9+zOc3vcViL2acr9rzFsIS5/Y3mNzggsQdV17i2+XX6JFtQdY1bml+hi67TTodbml+hnQ5ddJ1bml9B1TX6JFu4tvl1VF1jYHwvV+97HVWoDNV3cHnLG6jC/N67uOVtVKFyRPIzzmtZgSpUJiY28KXEGv5fZATHJj/N+d77nP4hqq5ycmI1UxLrUXWV0xIrmZj8FFVXOTfxLmOSn6Hq7r/Le4s9qLrCdcZzdE7dn64znqNRCDqLONcZz6HqCj1pdr4/CZWDxWbOU19HFQqjjU85Q1mOKhTGsZ5ZytuoQuEYPmCG9h6qrjJNeZ9pyvuousoM5T2OVj5A1VVOir7JWGU9iq5wamRZwT0X4PzGlxisbEEVCnPa/Zv92YkqFK5o/wzd1d0ousK8Tv+gk2ihQdeZ1+kfNOg6nYT9OOLizs+iCoUB0c2c0/kFFB2Gak2c0WkJig6HRj/iix1fA2B041pmdjL7N6HdaqZ1NPt3bPuVHN3xPRQdpnZ8i3Ht30fRYUbnNxjV+CGKDid1e5VDGj9CEXBq95c5sGEDioAzez7PgOhmFAGzez1D34g53rtov3/SLWI+d3x1/79nxntf3f/vxESCjuzlq/v/HUU36K7u5KL9/glAn9h2zuv3DIqAAQ2bOaPvCygChjQ28aXeS1AEHNz+I77Q8zUUAaM6rmV6rzdSY9j3mdzjbQAmdnuPid3eQ9ENjuv2Nkd2eR9FN5je8w0O7/Qhim5wYu/XGNFhPYpuMKvvEoY0bkDRDc7Y73n6t98M0DqGFQYXDPqX2SdhcOmBT9FBNcfllw79B1E1SYfIPi4d+g8U3aCbtosLBi9G0Q36xLZzzqDnzOenDls4ffBL5vNT/rh8/9choXNYj3VMO8B89hrbew3H9lsBQnBk7zW0JCPousKx/VYwto/5jDVtoPmsgS6YOXA5w7t8ArrglCFLGdzJjHI6fcRr9O+8DUUIzj50CX3a7UARgvMPf4FusV0oQjBnzHN01PYSI8GcMc8RI0FHbS9zxpht79rYzOzRZtt7d9jFWYeZz1X9O2/jtEOWpp6fNnPycPP9GN6jiRlDzfdjZO+PmTZ4hfn8tN9ajh34XwAm9P+ACf3NfmQ/P00btIKRPT8CXTDjwLcY3u1T0AUnH/QGgzp/BrrgtJHL6N/F/LydNerVzHPu7DFL6NrOHMNeMu5FOsRazGfCcS+az4SRfVwy7kXz+alhN7PHLAEh6NmhdV68to4i/P3nlfnz53P//fezaNEi3nvvPS6//HKam5u58MILAZg9e3bO4iRXXXUVTz31FD/5yU9YuXIlN998M6+//nqBSNy5cyePP/44l1xySUGdS5Ys4c477+TNN9/kgw8+4He/+x1XX3015513Xkb6nXPOOcRiMS6++GLeffddHnvsMX7+858XLHxSThQjzBkMi7Bp0ya2bNniuM+QIUNyVmt5+OGHmTdvnqtVia3o1asXt912G5dddpnl360iBpOJOHNu2kTzXsU+uk4TCMNDxGBMcY4YBB8Rg+koweyIwaxtPxGD2PSJSGrbJmLQrk8xJRM92BhNcsSQz3j1/b4oCpl+WEYMamb0o/WvQ6k+2UQMRqKK+Ste0YjB1LZdn7KjB2NG3i9CDr8OqUpO9GAmYjAnMlCx/8VLMdCJWv/ild12NeLQP/NXPKFG3P+Kp2RHD9pEDOb/iqeSFSWY+jU5s134y6SWurRb+2QTMZj1a6uuaq2/IFtFDKoJkiL1a6uaaI2CVJI50YMJIwoaRFLb2b8ao1r/gqxoRmZbQ0dRjMw2pKMEraMHI0oSw1Ay27l9Ui36ZP4qbmD9q7hQDcdfxeOpPjUoCSa0f5+XmoeDptj80i+yft3P/aU/rqoW0Qu5v/QntcIowfS2piZsoxcSRBAaNtELENESqcgLwzYiQ1X1gigMp4iM1m3riAxVTWS2o6SiBAu27SIyWqMgzX5oCNVwETnjPmIwrimeoyA1NeEYDZSOlomriutooKgWLxoNFEFP9cNdNFB6W1WSJUc45UdtWUVBZvdJV0VJUZANhs70lk/5Z8P+CEWxidpyHwUZNXSSqYjPYpFoxaLrzGgSv5GdxSLRvPWp2PuU06cAouv89EnLRJ/5/+w1pKJVg4+u8349lRIx2KC7i67z2qeEiHn63ktvR40kU4x1PKsMQlfUzHedIlSXEYPmtiFUV9/litAy3+VQGNGevj81CFE0YlBDoOuxvPuTdZR+JJWWWHjPNbcNEbG950ZJouvm2CG3f+Y9VxGq7T03RpKEXjiOyI6uixlG69jIYhwR0a3HRultIdyPjYSRioJ0yBCxiq6LGYXjvXSGSEFWSNa2lprmyCpiUFV8RAwK1TFi0M0YNplIj8uT9hGDLar9uDy7H0Yy9SxlPy6PqXHG9VnDfz4ZCtD6rJETMWg+Xxg6ls8athGDupGbcVXs+SnMiEG3z4TpPglyn5nyIwZd9ql9THD/VYJu3Xu4SoWtR4QQbNu6hQv+0J29SW/noF1E8PCXt3o+f/fccw933HEHTU1NjB49mrvuuosJEyYAMGXKFAYNGpSzjsXjjz/O9ddfz9q1axk2bBg/+tGPOPHEE3PK/NWvfsW8efPYsGEDXbp0yfnbsmXL+NrXvsbKlStpaWlh8ODBfOUrX2H+/Pk58wu+9dZbXHHFFbz22mv07NmTuXPn8p3vfMfTOQmSiopBP5QiBj/++GMGDBjAE088wSmnnOLqmPSH96LrPmNvS+6pKjofXiXRKpgl7nL+RE0VTBjexCur+qIL1f9iKkHM10iA76ebctx8mQVWTvF9ChY7cYOLcgvwU4/FPIdOWC1cYt0W6/3sjneaasVTvR7KtK7H2/4aOpM6reDF5oNt5xgstZ70HIXW5dj/ze9xOWVowc3r4tQe/2UGO++McHle8nE7z52X8xl03wrKD2heQ794mRswYghmtqznqYYBJJW2Odivdap53r+w5vdzrDOkeVtLOc8RQ+d4Yw2LlQNJKub5djt/Xz6u5xt0OTew63kJXbS31uf7cxPV42cOv7LPF+hy/j6v+G5P0AuAWMyLpyk6E/ZfwyufHIieGgi6no+v2ufZK9fCKA5rALSLGfx6PlIMbt3ChY91Z2/CoxiMCh4607sYlLijZuYYXL9+PVu3bmX9+vXous7y5csBGDp0KB07dgRgxIgRLFiwgC996Uvs3r2bW265hdNOO42+ffuyZs0avv3tbzN06FBmzJgRSJucVt2FCotDPRle2cWko8sFSXSh8vJ7/bJe8LuwSDALvRR7P7NxfG8DW6TEZzluVjQGV4udZONqpWSb8jMUq8fqS77YQMjvqspWAz5V8bRYCTgvclKsDV4Gua31eDhGM3+Rf2HXYYC7uSPcLqiSXYfdQ4RQDdsHGEMzHB8+3Jwap4VQ/BHGoDHogYvPNuqaK6noZRXi9LkPUs7mlJ96cA9bQNqSJ3qcRKWOypOxIWCAUlM/t7ZtSpV55RB2lVhYKayVjv1KvDSCCE+TWpWY0s9/JaSf23qrWf4FLf5qTfgFvTBJBrfiL03Awk4RAoHCkvVmtKBiN95wKwDLuUJxOSjHop9tCEU3PF9LSgg/4EtaqRkxeOONN7Jo0aLMv8eMGQPAs88+y5QpUwBYtWoVO3aYc8NpmsZbb73FokWL2L59O/369eOEE07g1ltvLduS1l5Ekx1VGZXoJB2dpGGewNNUwbEjm3jhnb7oqXRP6/oczqOb8+NlotcAJWLBe2d1TP4+rkRfkXLcSEdwvrFbSL1i8rCWxaGtLExFFTod40/ulU8iauhM6fIWz+043DFi0OvKyW4Eork8gM3xDmUXk4ZuyvCDGrDEK75Ksx/8tzHt14qKtpQscRudGPZKw2ELSNftsJAQ6XMZMXROTqzhf6OtkUyS6iQImVcuWReWoHOiVHlnW24AfYmgM1N5j6eMgxGi9EcYL+9jkNLPTXnVHvXnZhxTC8IvUMnnVey5JQQBaIem6Bw78L+8sO4g9KTL74JKCcBqFnV250QADmNjiaSS1IwYfPjhh3Nyv63Izopu164d//jHP4JrgEhaSIPwT18QcjFIiopKO2loIQwNoHlfBANcRxkW1ufi/HiRq24loguBaPfe5ZzDSkcX5peTKc+71AtcHFrVE7Q4TElDW/FnN8i0iSy0o5ISUQGa9XbmpL2O9Xhom0OUYBozWtDf8W5PU5XE4tlSvaLRbQqdx2g9j0LRK5qFWAhLRrolLRY0Q2W3aERLRAnAV0hCIAiZV05RF5ags60vxL4F9QOJgsoutREtoRHUHcCt8IPgpJ/b8qpd/nkVfzUh/MKQe0GKMw/pun5SgA3FYHdLDEM3KBg1ui6vup5dA6XeoiAriTmZvPdjJKEhh6+lIDyk65ZBIpYDJ1HpnF5beK6EDq+91915rrog0oS93KDcSsQSBKJvYRhUdGF+WW5ucgFEA3oWh37q8SoO7QaAUc12UOkoDAvqs484tCNoiShQeXXbcPPvtP49zHTm4uLPaW5Bdw9fTmnKfmkrolHV3UffqULzPPditqsLPQ3YIhU0LDHphEDlOWUoGKAlCv9eaYFZq1QiYi6fcgs6KP+cgsFHNmeVHWB0pYHKy/ERQHAxN176HnzUYOlllZLyG5T4q3vhF5YMCmhOviDnABSGyuvrB6b/VaS8AAVgPQo3q/Ojg9QvJmYqscdjZCpxqMhPZrnwIhErQQDi0qs0jGiCaWOaeOaNviTtBo5+5zPMx+0CJUFLRKf25bXJ6vyFEl3oVFZ+ecXKtS3fezRgVYlDqwGkQ3ShFZ4EIoQmESNKkum93uBfm8aYq/eVKZ3ZvqxicxK6K8cpTdkvwYu8YAmyfZquuV7gxYtILDg2tdJ5GAu72NdZ+FrYgjKCzize4QlGkrRK2a8SgVkJKiHWgqIii36EKOks6wsxLTroH29iQnBi4xv8fd9o6+vMI37aF6T0c1NepaP+fIm4ahd+QUmokBbbcC367ChhDsCIqjPtoFU8s3o4SaG5fy6qJ7FXzxGP1URCh4TX7+C2MW6qFFIMukUkwe6mVckVgIOiVHFZRCxaSS/dMNi4rZ3z+MHvfIb5BC0Qwf2Nw04gukifDj0dGbxJw/xy3ZRvVQd4lnoVFYeq6n7w6VEggg+JCK7TmQ2gaW83jCSgeZd7huq9L04LtfidkzAfp6hDP7iNVPRCPYlGLyLRCjXrfa/EXIFpQZlPUMJSAT5RuqEYmuvIzkoITD9UQo5VA/Uk6OwIWtxlE/T5M9tqsCHZDXQFpcQfh0ppX1DSz215Yco/T0KuXoVfwIKvZLFnh592ekz/FULQtLMjIimsHYzXvrVxyZb/HGcIkPolhRDg9Xs4pJXCJSbykxkEYa4A7IdKiEonsWgjDYVQWP7fzph3niLRclZ4Oe9uz0kIC5V4ngfRqg1eowvt6g0kGtDHvI5VIA6hhAVSvKRbexnM+pWI4PrmKFB5c/uBvuvxmmrsXIf9AKCYNMwn6IjBoEUjhNHGYPGsIYQSiEjTsqLnSpGNQaBafOb8iEsDjdcYbJZZSnssBGYQ57zckquWqTdBZ0XYn4fAp3lItdcgwrK95oqpft8lr6lrTu0Jqq6qiPrz+MBdz8KvqsReMQIWdcJQeeuT/VPluii7ysVftc3VL5FUM1IM1iOVEJWOqxFbtyeiCT4/aTP/9x/rVGJfK//aUe0SsehKwyFHF1rVmanbj9TzWE8ZxCGEvECKl8FZGSViREny+f2W8n+fjiVpuPhsh5TSXIo0LAfhpCYHK72qQTRqqQf+wISexQN2OdOOrdAs0n6L9TdKklOjy/hz4ggSAQ+trOSlJBzqTdBZEXYfg+xTvliLkOSULq/x1x3jSPq4zgJbBMXDNRnUPH0lyz+X4q9ehV/Z0nP9ELSI9CLD8uqOqDozDl3FP95NpRJ7LFOKuDzyn9+qLymgcggBXu9HbWQKlkohxaBLDD2ZWqGp/Ci1kKrsYTXiNEIorP6oHSKpp2OrW3E556HbG5BrgQjuJWLQqcz58tBVirB/YQguowyd6ofqEIdW9YQwz2E+hqp6HyxqalklooHCmp19MZJKzuIj+XiNRDTb5kUiFosW9Pr9Wv0RUNUe1VhS+wKKHrRCsxkoVjS6sIjAFGisVPZD6FrJKY6S8lOPgi6f8KMEgy3Pur0a7+/bH4Tm+fsryPaFsRpvOcSfL+lXr8IvKNEXWnRhwBeUy3aKpOCDjd3sU4lTVEQAegnIkFQ9ihAoHu9LikwlDpUaME4So9pSlVO4EpYObRdahPfWdrL5o8s+BywQoYJRiG4XKnG1YnFxYQjFz4vluSiL1KuSeQ4L6vUvEjPRiF7q9CoRoWA+RAG8t2l/7FL2AcdVmK3wLBGLzofo54E16MFB9cucahONmq5glD7/v3uqLLowV2CqvJsYhAKo8hftmqHccg4qJSHDLT/4+QStXzdQWbHbXDHVbY1BLJqVU54PuRbY6r5F7rme2iaFXythyL2wxFkQbXVom0DlvQ29AQ/PTm1N2JXy3raxU+WI7iNisEJBWm0FKQbdIvRgvowDWP23WnAjLJ3kYYQ4X5yymf/3XM/CVGLX6bwe5FwtS8Ri8w66iS60K8euTHymc5dD6oUR2WhXV069Pr4DUjKxLBIRLNJCkpxy4FL+umYsSZH32fIZjRjowiouF1EpJOAHUWFkVmwOsNSgCwyUQERj1setEpLOKrqwrLIyRYQkZ3RewuM7JxZeZ1Q+PVpiUum5FsMWdPmUo7/ljMSLKEm+1PNl/rJ5kqupMXynxdqVV8JjQBDz/LkqQwq/Vkp5bqtmsWdFCe3NHutHVJ1Txr7PX5cOK1z5OygBKNONJSAXH6lC6sdS1Qqlrv4bNgGLSyd5KBSN5as6Iay+FEKZE7AOJGJ2X91EBXqO7vMmDsFH1GFYUs+PPPRblxtKkHtBSkShw5tNAxAJyFicMs6LWOxBxu8tXhFGJpU5OIIur21FNWZLukrIuQw2H+sw5ZyBytLmAzF0a91qnx4dWpNqimJyyct5Krd8c0M9RglWIhLPQGH5zgOLTo0B1REpmENQc/x5uQdL4ZdVT0AXRBWKPSe8pvwKQ+XNtb0QugFGkWNrXfBVItJRzjEoqWKkGHSLnvQ/H0UtzBGYJkhxWUSu6Umd1eui2MVVu55bsc4koqNAtOprfp9cphGb5VWhOHTTLgguIjCMgY2m+UsB9pHaXHRBFeCDrb1SdaReDCAS0RG3EtFj9GE+1a/d2q5otHooDz4i0xvhyjmNNfv2BzyulmpxnmohurDsoquGH6bKLSqDFmKWdVQoEs9AZc3ufuYxdmUFnWoWYIRKYBF/Uvhl1ePzAgtS8FWJ1HONw1heAGs2ds19UaYU+8Pqma0C01dULbouU4mrjBoyVjVMJecIrKSUdJJraoRoRHD6CVv54z+7k0harUrs/rwFLhE9LSxS/vkQc1cadrnwS5ALoGTq8JFm4CNdGXxGHkJ4EYFWZKL3PAyO0u3zI95cDLwjapLTRi7jT+8daZni6EToi6skvBWdj5Kf5lIi1a/dql00OpMvSDJzVVaYICRmVElyZs/neWzzZBJuVv92IOzowmqMqKs3yiHnCuoswwNTpaPwokqS0/u/wB8/Ptb6Ogs4zSzQcxpmpF+5hJ/fAIlaEH4hSLhKiD1fZKcSazqnT1rDH18+kKRuNfVPFd5AqnQufkkRhOH9O1tAtWfP1DJSDLrE0BMYfm68WjSE1nigWqWkSJJMGLy0tD3JhMWqxGlcyzR3/ayXKES7wYYrYZjG7VyGOe0KIi3Y5aCi3AIRrOc/9IIvuReuRNRReXndUPTsVOKi9ZRhXkQ/C6vkU6JYzKfqRWPA6dOKXlk5Z7W6XKWjCtPYLn5gc750VF7YPhLdJpU4kDbVcNRcW6AcYs6y3jJ9LqohEi+JwoubDiGpK2R/wwbeNj/z9DlR7RF+9Sr8ShRzNSP20gTQXl2ovPTefuhJF6nE0CakXJCfA0NGDLai694XY9FB6qvwkGc2ZAw94CdXByouIfMpMleeYSis3xBzLiPwaLwKRiFC6BLR6eZVKMxc1FGOqMNMXeUTiLbp2uWaL8V3qrF3iWgI+Ghb19SLLhd5Kce8iH4fRLLRRcFK0SXRIpwXn/GIkgCiVS4bAy6vVKyEXLVEFoK1zAQwVIWP9pgp+8XmPpPUB5UWtWUTkVUVhafw8a686yxIiRd0RkEQ97kUUviVVldgcqeKpZ4lHttrAB991r7wD2UQgKGJWElVYgjdlXvOPQakvgoPeWZd4idisNyirpwS0g7XfdaTRCMG587axe+e6EQiafPgV9E5AWtcIub1098KwyHJQ6ioQKzU4CNzfsuRapyqI6olOWvsGzy6dAwJ3eEzVUXzInqh6hVMG4tqDIMCGRf4ojOlExNJzhn4LI+sm5qT4lhNUlNSGpWKCLSkTCszVlskXlRNcvZBL/D7/x5rOQVNSQQo8dIEea/LQQq/DL7HcyGm4wZKaCLSenwfjQjOnraW3z8zyPYaq1mBVw0LgFZgISqJxC1SDIZIW4wWdNtnRYuS1OGpf7cn6XR/qaJoPCeqUiK66We55CHUjkAMg1QffK1iXaJETAqFf644iGRCwTJisArnRfRC4EMsIVrTooOgDUY1ho6FrKi0gEui8NSnYwtTHO0EThXKTUkeZZJvbimrmKyWVNo8kgL+sXYUyZaA7yNhCLwQRGMBpbTbj9wp4/x9ZRd+YciuMku9UjF0nYQweOqVPiTiAsPw8Z1TDfKtXPh5H6QYbEXo3hcWk1OqhIoUg24RurcveJdCKSjKHS1Yqog09AQGsKEJwPmL1UsUomvaqkQskHPeU7X9z/VXpQIxTDICzWNbVM3zoFjRNMs+G8DGbe0puJuWJPdCloheEMGKMqj1JT58UPlg85JRrPpQVuGp8Flz19SWi3fcRvJUWnC2VaoqGjCboAWdGwJdrTXg730h+GxHRwCUoJ4QwxJ4YS50lk+p451qF36Vkn01KPZKLsNQ2Li1MffFapJ9bWBOwzaD7zkGJWEhxWBYlPtLtAZFZCxqcNE5SR58rB2JhP3DkNe6XIlErzcWN4LO63vu4j3zIhGtKBCLYQpEH9GHUAGBCIUSMSy8DtL8iMQi0YhRTef8yW+x6PnDSaRWmLOTiEXbFva8iNVCwLJRCTpqsNqjGqsFq6iigCVymqia5PyDn2XRe1NJeFz9OxtLwQm1F9VZ7VRCuLmhnDIpn6CjuUOYry+qJZk9Zgm/eWOi89QYXggt3bdGpa7Pdle98AtS8oUgp8Jb6MRbW6MRwQVf+JiHn+xvn65fR3Ku1Ocs7/XJH/8ylDFi8N577+WOO+6gqamJUaNGcffddzN+/Hjb/R9//HFuuOEG1q5dy7Bhw/jhD3/IiSeemPn7zTffzKOPPspHH31ELBZj7Nix3H777UyYMAGA5557jqlTp1qW/eqrrzJu3DjWrl3L4MGDC/6+ZMkSjjrqKH8dLREpBl1iiIQH0VGBtN4aFJGJJPzhrxESLQkMw90XpZtz25ZFYj6+V2v2I+d8LhRTdoEIlU0rtkP1KOtcSsSkMPjTf4aRTBiQGuNVIqU5VEKIGqx22lxUY1BYyY8ApGhSKPzp/QkkkzYp+6XiNnVSDWC171Kpxmux0ufEjnKkmxYhDIEXOKk2JoXCn98ebT81hldCkzEVfl+DiBwrpYxqF351LPZcY3MOksLgT//qRTKup1d6CJxyy7iyUuz9ElV4f6wUum6bPWF/jPfR72OPPcb8+fNZuHAhEyZM4M4772TGjBmsWrWK3r17F+z/8ssvc/bZZ7NgwQJOOukkHnnkEWbNmsWyZcsYOXIkAAcddBD33HMPQ4YMYe/evfzsZz/jhBNOYPXq1fTq1YtJkyaxYcOGnHJvuOEGFi9ezJFHHpnz+r/+9S8OPfTQzL979OjhuY9BoRi+JhBoOwgh2LZ1C7MveYm9e6tQJlA98wuWTAhRj2Gcm1DOt9uU4aDwea5dpzZn47dvvttYY5E1fs6Pn4hHP+fFRz0VPf9B1x204Kj69skBa5pAIzIlEkJciMIvIQq8wKk1gVclkfKByKpSf0gt51yBJQinUMRemaVeENSktKumVOcitGtUeehnw+jWvQdqGx1npN3KRdd9xt4WbxqqXYPCg9/v7en8TZgwgXHjxnHPPfdk6j/ggAOYO3cu11xzTcH+Z555Js3Nzfztb3/LvHbUUUcxevRoFi5caFnHzp076dKlC//61784/vjjC/6eSCTYf//9mTt3LjfccANAJmLwjTfeYPTo0a76EjYyYtAtesLDogf1vRpxUGIsFjX46kWw8EGIJ5SQUnGDjx70UmYo8yN6wU46+Y7u8xGBWMb5D6G2VkszU3p9zI3pYcAcjcGcE1Zw/z8PIZF0KaZCSGkuBzJBQxIUisfIwqia5JKxz/PrpZNLSiWW1BFVEA1YQJhyMszv/lS7o1qSS455jV+/OC6YVOKQ2lx145AgsiQqKRl9jJGDkaK1JfaCkHrRiOCyL2/il3/oVZhKXEMCriTClKN625SBlSIej7N06VKuvfbazGuqqjJ9+nSWLFliecySJUuYP39+zmszZszgiSeesK3jV7/6FV26dGHUqFGW+/z1r39ly5YtXHjhhQV/O+WUU9i3bx8HHXQQ3/72tznllFNc9i545Og1DMos6mpVRLbo8MAiaNlX+DdXQq3CIrFiac1eKDUFOkSBWNb5D6sJHwu5gA+JCKBFSMQNFv1rGIm4gatZe0NKaS4HhtCDnT9S14ONgNT1YKMGg06hDrp99YaVVEmd/4Su8JtlR6Xmy61CISQJl2qLBkxTTkFVhui7hA6/eWk0iTiUOgt91cm7fMK4p1ZDBCGUP7IvyHFiFUs9R1yeg0Tc4KE/dyUR1ynrvawWIxVdkP8caEgx2IpIgvCYuJpa1XnXrl0oSms4QENDAw0NDQW7b968GV3X6dOnT87rffr0YeXKlZZVNDU1We7f1NSU89rf/vY3zjrrLPbs2cN+++3H008/Tc+ePS3LfOCBB5gxYwb9+/fPvNaxY0d+8pOfcPTRR6OqKn/605+YNWsWTzzxRMXkoBSDLjH0Kp5jsNwi0i8W5yUet941FKEW8ArDlY5GDIKCNpV1deOQ5z+E8qdou8Gn0PY3L2ASMIi3iNS2Q0ydj2hEzxKxHAQst6RslDiS+fwbxIWRuh8rUrDWO9X2vQeVl5Nlib4zaGlJv1ZijHgV/JjlizqQe2lKlrN+hV8ocwyGKLbC/gE8p+0G8X2kIp5rMw+j3M9SEp+IpPc5BlNisH///uzevTvz8k033cTNN98cYOOKM3XqVJYvX87mzZu5//77+fKXv8wrr7xSMG/hxx9/zD/+8Q/+8Ic/5Lzes2fPnMjEcePG8emnn3LHHXdIMVhPVFzuVCt55yUWhcvntOO+hXuJO52ySqT3VkFacxjk991tm2pSIELt/wKpRXx9FrMH29GIYM4XPuRXfx1su8Kc32jEqn2wClrmBUzQE/sGPnSvJulRI4ItqiW5ZFJWiqNDdKGkxqi0cLOimq5Rwlx4IbfcqKYzZ9rb3P+vw0joJXw3VNn580xQ995alnvZlNiP+pF6pRONwmXn7OSXj3Qmvq/yzy3VQJDPbzJisBVDT2J4FIPpVZ0//vjjgohBK3r27ImmaWzcuDHn9Y0bN9K3b1/LY/r27etq/w4dOjB06FCGDh3KUUcdxbBhw3jggQdy0pYBHnroIXr06OFK9k2YMIGnn3666H5hIcWgSwyRwHD55a6osZBbk0s1CCc/xIkWl4LgPSKyiPireDQihLLQihv8CtSqFIg+5z+sFRQt4nP+wdxjEnGDXz1xAImkRVpIydGIbYQQogarOqqxmrD5bFbbIkMJHX7977EkdLBNcbS7zqqsL22aKhVGbTLtFQrej4RupObLdTk1hh3V+qOWVwK6D9eD3IMQxoE1JvWy8ftsGNcNFv62HYlEKvq9QtTqs21R6uW7JwiE7v2Ht9Sqzp06dXK1+EgsFmPs2LEsXryYWbNmmUUIweLFi7nyyistj5k4cSKLFy9m3rx5mdeefvppJk6c6Nw0IWhpacl5zTAMHnroIWbPnk00WtwnLF++nP3226/ofmEhxWAIGMImPzYkyi0ig8LQE0TbKbTsc/9rgStJ5+VmUql5AqtxXrwC0Va83xWNQKzGcxgEGVnnvn/OEtEgFhMkdJWcQV4A0YhVTeApu8lgU9OrXDZWO4bd4LpigtQgGkkQ16N4fpiyuKaqTXzWI1X7XVZrD45lihY0MYipydQCPz6lRZ3+qCXlXhblGB+G/DkKU4w5l20Qa8RMJ67RVOICqup5Qd7by838+fM5//zzOfLIIxk/fjx33nknzc3NmYVAZs+ezf7778+CBQsAuOqqqzjuuOP4yU9+whe+8AUeffRRXn/9dX71q18B0NzczO23384pp5zCfvvtx+bNm7n33nv55JNPOOOMM3LqfuaZZ/jwww+55JJLCtq1aNEiYrEYY8aMAeDPf/4zDz74IL/+9a/DPB2OSDHoEiPejBF3GTEY6xBya3Ipt4gMilhM4ZJLenDvPVuIxw1XgjNwSRdwNCKUfjOvWGq4rzRffyIwdIFYi9hE/BVFjTgOpKMRwQWntK4wl0m5DiAasdoxRDLY6Ny2JhtrkQpF5UU1nfMnB5DimMJWfNYqlf5cVuv5rFY56YXQogUL7zfRiM7509dw/5MHkkj6+0xVrRAOAin3cqnQmLFyUq90YlqSi86BhQ9CPFEnYjBASj3/RjVOTVEp9GRqLksvx3hPxT7zzDPZtGkTN954I01NTYwePZqnnnoqs8DI+vXrc6IPJ02axCOPPML111/Pddddx7Bhw3jiiScYOXIkAJqmsXLlShYtWsTmzZvp0aMH48aN44UXXuDQQw/NqfuBBx5g0qRJjBgxwrJtt956K+vWrSMSiTBixAgee+wxTj/9dM99DArFMIygpzuqK4QQbNu6hXO//Dh791bnQ3G5RWS1EHSkZChCrlbmf3TA93nxIWRKeQ9qZq7NoPAjlHy9JzX++1EY7Q94KoDAo8Nq/T0rF5WWVZK2RbXKyVIIbYXWsKIQq3McHzj1IvfKKPbKkboaeh11/Pmul9Tidu00fvPro+nWvYerVNh6JO1WLrjiLfbu8yYG2zWqPHzv4W36/IWJfHpwibkqsZf52cqX3mvEm8tWV5AoCnTvEWXrlgT5etqN7PQaKVlMJIaSMlyrN7Ig5hcsYwSil2PrAUWLuh4wK4pBty6CbbtjrudJBXylNOfUWy1yKowHi4Aj/YKObJS/8bvE7rPh471VMOjasYXtuxsw5Dsgqefo9hSVkHcKBt06J9i2M+r9OmsD70k+9SL3qmF8V8tSz9PzqwLdusK27RQ8m9UNlfw8eY2Qq2NMt+LtfMjFW8KlSp7c6g9DL/M8g2UUkUERjSqc9ZW+3H/vx8TjuXcfr7KzFkRiptxaiGxz07eg0oNDFIj1iKJFPfU/2hjh9M/v5qE/diaRdPkg5XP+wWzqbTGYAvRk9cjPPAJPoW5r+FjwJBLROe3otSz652DfKY6S2qSuU1OdCEtkONw7IhHBaVObePivfUkkvT0g1v09yYk6kXtVO/arEqnni7zyo1H48mmNPPjgPlzOoNVm8fPeeBVhdY3QvUfSCzm+ChP55OASQ3iNGCyv/Cm3iAyClr1wz4/XFN3PjfSsBZGYKbdaBzYuyPlcu+1HuQVivZKJ4PP2PRTfl+SX/9MecBlh6CEaMYMfkVgHBCrgghaNQc9fKHGMuI3rEe7/38Gpf7VRUVTvtMHvOFtCSyF2Ljeuw68e7w2I1H8uke9d/ci9GnsvQx3zh1B2PAELf7kv8HKDopafoSSSakc+NYREJb64aiISLQtFgb79Gmn6dJ9juLpX6VkrIrEWyJedvqReyAKxLaBoUZ+LkiRQFIM+vQw2blIwDOeIQa/RiJm2teVIjAAFXPCLpVRvVGO9oYgEvbvH+WxrLPc6k+e/NmnL32lFCC3yzsU9TlEM+vRIsnFLpOj9LIN8L3MoefGEIMZmAci9mh8jVukCJYoCfftqNDXp9ZtKnKISz22GkGOCNGbQlbcfUuXiLeEiP50uMfS4jwfm8qb31tpNMhJTOfnUvjz4izUk4u4udDfys1ZEYi3g9qZZVoEIdbGoixd8ybrUwDsSNTjxePjtHyBht8Kcz2hEP22rS/REcD/MpB9iq1U2SiyJRAQzJ23ld3/rQSJ7DhwbKSGFbfVQ1SmmNRYd5RuX70EkYjDz2F387olOJPTiYlDen6yRcs8ndbBASbFxfSSqcOKJHVj08HYSiTo3gwHi9jnRkPf+VvSE7dQt9sdIMRgm8tMZIpVM762FOQcTccEv73zf0zFhLBBSDSKxFsmWn2UViFC7i7qEjYWsi+vwwG/sDyklGlHSihGkHISqlo2SQhJxePjP3XCb4ui4EJAUueFQrZKtmsVkGfByL4nr8NBj7XAzNYa8R7mgGuReHb1PlZZ6JZWdem6Jx+H+e3eHVo9EksZcfMRjxKAUg6EiR58uMUTc1xeyojaE0Jri1MKcg4oKAwd3Yt2HuzB8XufFJF01iMR6If9cu5Wf5RSIbRkzpbfwPCkKHHCAykcficK0EI+pw5nro1ofsCtM0NF5YcjGtka5pthQFIMD9kvy0QYPKY52tHFRVK/I+5g13lZMNThgf4OPPikyNYa8R7kmkM9lNcw9WOWUQ+oFgaLAgEGNrF/rPM1TPVHO5zpDbyMn1QWGSDj/SGp5jFRXYSLPbsgYoqXSTahaIhGVqTP347e/3EoiWWgG3UjVoKP9/AxMam1uR7+4PdflFIgSE0WN2X52I1GYfEwHHn20mUTW/ddOJNriY/7BNknAMk+mApeG02c2yPcpEjE4+sh9PP6/ja5SHCX1jfyudInHh8JIxODYCfCHv2B7nclz75MqkHttcewXdoaR1+ekSFThuGl9eeShj0gkpcTySrFrwG8gTD1ixJsxPC59LVOxw0WeXZeYcwz6v2HVQmpvuUnEBQ/e/bbt371K1UqIRLNMOQjNfsAOWyBKclFiHRwH0/EW+M2i1r+nozE9RwrKz7lrDD0R7DyYQUcOSoBg03njOvzujxHcrv4tqRNkZJpv/Iyd4jr8z6MOO8j7VEkEsupwAHJPjgdNwoxks3uv4zo8fN+a0OqVSCTVixSDZaKtpp86oaoKww7pwfsrtiBE8V+likb7VYFIbCsUSD0fcwV6ObdSrNtTbACtqnDgsPaseX8PRsRZIlrhFI0ocSDoyMGgZaPEGY+RhqpqMGQQfLAWhJARg/WG/A4MGJ/nU1VhyBCVDz4Q5C9OKd+j4ChV7gUp9uQ4vJAwP+uqCkOHd2L1ql0F11i9U47PmkwlbsWcY9DbZ1mev3CRYtAlpUYMgpQb+Wiawrhj9ueDVVtdicHA04Z9pHlXas7IasN3VKDPxUbkwNA/iqowdlxHPvxgL0kfq2u3xdSeoEifu/w5M32Tun5k9GBlsfoeUyIwZmQDH34oMDwusiepIqRcCp1SpIaiwBGj2/Phmpac60zep4InCLknx26FhCn1gjjfqqpy5FHd+WDVNnS50IMvnJ4vDRfPu20FQ/gQg/IjGSo1IQbXrl3LrbfeyjPPPENTUxP9+vXjvPPO47vf/S6xmP0D1759+/jGN77Bo48+SktLCzNmzOAXv/gFffr0KWPrW5E3yFziOvz23td8HesuxTeEtGE5Z2RRsuVp2AJRUpyEDr9f9LHn4xQtJtN5AsKgOWcOzZLLE/HgZKMkEBI6PPaY8/eWFLrVhbzPlJcg5F0iDo/+PrcceZ8Kl1KfXeR15o5Q04Y9PLvEW+B/fvVOaG2RSNKYQVcyYrCaqAkxuHLlSoQQ/PKXv2To0KG88847zJkzh+bmZn784x/bHnf11Vfz5JNP8vjjj9OlSxeuvPJKTj31VF566SXPbTA/vMFIIUWTUWcAqqYw8oj9eGfZBoTHCz2cuQKluPVL9vl1OwDxIxAl3tGiMQ49vAPvvrndVVpIWl7I9yRYjL3xQKPGg5aNktJQVTjkkAZWrGixvc5kVJOkrRKUvFNVOGRkR1a8sxsh5H2qXJS8qIh8n3xT7oAEVVMYObon7yzf7PnZrB4I+7MqMwpaMUTc87hIRlyGS02IwZkzZzJz5szMv4cMGcKqVau47777bMXgjh07eOCBB3jkkUeYNm0aAA899BAHH3ww//nPfzjqqKPK0nYrghKMtY6qaYw4rCcrlq1H10v7piwmW2UaeLj4iQyU0Zfho6gNqCQ56OCOvPfm5qJpIYom5xMMEyPgVOCgZaPEP0pUYdjQDrz39jaMhBy4SiRpgnzQVlSFg4Y38t472xBxKZvKSRDvoxz3BUdYAktVVYYf0o0Vb2yQqcQlYPf+SDEoqWZqQgxasWPHDrp3727796VLl5JIJJg+fXrmtREjRjBgwACWLFniWQwaoiVwodfWIwcTcZ3H7veXSpyP1/fG67mXv3b6ozBFWJ7HcpA+74ZoId4Cjy96r/gxaoN8f8qEoQcn9IKWjRJ/JHT40++9p+xLJPVKGD8yJXT44+/WyXtVBQlC7sn3LzxKPbdxHR57YFlArZFI7PGzfoMUq+FSk2Jw9erV3H333Y5pxE1NTcRiMbp27Zrzep8+fWhqarI9rqWlhZaW1pueYZi//EciKgBa6v96UhCJqhgCdF0QiWoYwkDXBdGYhq4LhG6Y20mBEOZ2MikwhEGsIUIiEW/djicxDIg1RIjHk5DebkmCArGYua0oEE1vqwrRqJbZjkRUEnEdVVXQ0tuagqaZ25qmoqgKyUR6G5IJEXCfdNd9atcuxmHjBrDspQ9QNTWwPukimtuniIphpPuU7l+Lyz5pJBIigPdJJd6ie+hT6r3RVBQFkknhok9u36dw+xSJNZJICLNPapJEQqBpSup9Sm0rimWfUKPoupHqk4GuG0SjKrowzD5FVXTdSPVJTfUJYjGNRFI3txs0EnE91SeNeFxP9Ukj3qKn+mRum31KbasQjZj7KyqpPgnzfdKUrD4pRfqkpPpkpN4no/x9iuiZPjU0RDjsiD688eqnKIpi2adItIFEosWiT5BMGnl9UlKfPT99Ukmkt0t6n1TiceHzfaqOPmGY30GJRCSnH7l9wvxesOwTJBNGa5/icYc+KanvCKs+mat7Zvcpp38NZlvMPpnnnfR2i0j1ydw236fUdhB9cnyfwu1TQ2Oj+RlTML/rUtuRaKpPCkQiComEgaqa5Y8c3ZW3lm4DIJHfj7xtSPUju09Z29Gokvq8UbCdTBoYRqpPiVQ/YuY5TW/H42akh9W22z6Z11PudlvvUzLeIq+nCvZJ0xIcdkQv3nq9GSGMqvgur8f7k1OfojGV+N59tTk2quLxXrxlX+sY3VefFPN90il81kj1SSFe9Fkj1hBhzMQBvP7CWhSFqn3WqNXnJwzF1kG0NaQYrD7USlZ+zTXXoCiK438rV67MOeaTTz5h5syZnHHGGcyZMyfwNi1YsIAuXbpk/uvfvz8A004+BENvYcqJw5ly4nAMvYUTvjSSiccfiKG3cPLZozni6AEYegunXjCOw8b2w9BbOPurkxh2aC8MvYUL5h3HoAO7YugtXHrN8ey3fwcMvYW5N8+ke88GDL2Fb/7gZDp2VIlGdb75g5OJRnU6dlT55g9OxtBb6N6zgbk3z8TQW9hv/w5ces3xGHoLgw7sygXzjsPQWxh2aC/O/uokDL2Fw8b249QLxmHoLRxx9ABOPns0ht7CxOMP5IQvjaxon66+/QvsP7ALPXo1euvTkQM47cIJAIw9ZggnnzMWgEnTD+KEU0dh6C0cN3Mox80ciqG38LlZI5g4dSCG3sJJZx7GERP3N/s0ezQjx/TB0Fs469JxDDukO4bewvlfn8jAIZ0x9BbmfGsy+/Vrj6G3cOUNU+neM4aht/CN20+gYweFaETnG7efQDSi07GDwjduPyH1PsW48oapZp/6tWfOtyZj6C0MHNKZ878+0ezTId0561LzvRk5pg+nzjbfmyMm7s9JZx5mvk9TB/K5WSOquk+Dhvbg/K9PAuCgkX046xKzHyNH9+RLXzE/Y2OO2o8vnGH246gpBzD9lKEAHDfzQI6beSAAn/viQRw1uR+GHucLpw1lzITeGHqcWeeO4NBRPTD0OGdeNJKhI7pg6HG+cvkoBg7uiKHHufjqI+i7XyOGHudr3xlP9x5RDD3O1TdNyvTp6psmZfp09U2TMPQ43XtE+dp3xmPocfru18jFVx+BoccZOLgjX7l8FIYeZ+iILpx50UgMPc6ho3ow69wRGHqcMRN684XThmLocY6a3I/pJw3C0ONM/twAJn9uAIYeZ/pJgyrep4u+PoZ+B3Rg4OBOln0aOaY3s84y+zFmXE9O/JLZjwnH9uH4E81+TD6+H5OPN/tx/IkDmHBsHww9zolfGsSYcT3NPp01lEMP74qhx/nyBcMZOryT2adLD2HgoPZmn75+OH37mpGJl39zNN27RzD0OPOuP5KO7U2hOe/6I80+tYd51x9p9ql7hMu/OdrsU98GLv764eb7NKg9X7n0ELNPwzvx5QuGm+/T4V1rpk8isYu++0W5+MoRGKKFAYMaOW/OUAzRwtDhHThj9mAM0cKhh3fii2cOwBAtjB7Xlc/P6o8hWphwTA+O//x+GKKFY6f15thpvTFEC8d/fj8mHNMDQ7Tw+Vn9GT2uK4Zo4YtnDuDQwzthiBbOmD2YocM7YIgWzpszlAGDGjFECxdfOYK++0UxRAtfnX8o3XqoGKKFq647nA4dDKLRJFdddzjRaJIOHQyuuu5wDNFCtx4qX51/KIZoqfk+ff2aEYjELrp2TXLZvGGIxC769DG46PIhGHqcAQMbOPdi83N14LB2nHbOAfTbv5FDDuvIKWfsj6HHGT22M5//4n4Yepzxk7oxbYZ5/R87tQfHTjWv/2kzejN+UjcMPc7nv7gfo8d2xtDjnHLG/hxymPldcMZ5AzhwWDsMPc65Fw9iwEDz83bR5UPo29f8vF02bxjduqkYepyvXzPC7FMkydevGUE00tonQ4/TrZvKZfOGpa6niG2fzjjPvFbaXJ9O6IFI7OKYKV05ZkpXRGIX007owfiJneT1VMk+je3EzFmD6Ne/PeOPqb7v8nq8P9n1Caj5sVG1jff2698JgCuuO4Yevc35g+d/bwqdOjcQjejM/96UTJ/mf28Kht5C9x5RrrjuaMxxeSOXfGMCht7CwMEdmX3FWAy9hWEHd82Myw8buz+nnn8EAEccPZCTzhoFwMTjD+RzXzrUHJd//iBGTeiPosLnvnQoE483x+gnnTWKI44eCMCp5x/BYWP3B+DsS8dz0EhzUc/zvz6JQUN7ADDnW5Ppd0AXAK68YSo9encE4Bu3n0Cnzo3EGiJ84/YTiDVE6NS5kW/cfgIAPXp35MobpgLQ74AuzPnWZICCZ42zLx0P4KpPUz4/nCmfH24+a5SpT3bPT333a2frINoahm6u3+DtPxltHCaKkQ6JqwCbNm1iy5YtjvsMGTIks/Lwp59+ypQpUzjqqKN4+OGHUVV7r/nMM89w/PHHs23btpyowYEDBzJv3jyuvvpqy+OsIgaTiThfnnYNu3bsyYuu08xfh/K2zV8dDET6F4jMrw4RksmsiLp0dF1jhESLjmGY2+YvCpjb+1K/OjSY24qiEG3QzO2C6DqNRDyZ90uKav5SFNfRIqr5K1eicLue+xRtbFe2KMh6jOwMsk+6iFTtr3j1+MtksT4l9YjLX8Xz++TlV/GsPsW0VPRCAL+Kxy365OmX/urrU0LXqiZ6oR4jMsrVJzMCtzajgeoxwsmuT6qRqLvPXj1eT5qqEN+3r6a+y+vx/mTVJ1VJ1OXYqFb6hGiRzxo11qf2HRv54zO30q17D0ePUc8IIdi2dQunTb2evc3epiZo16GBPz17W5s+f2FSUTHohU8++YSpU6cyduxY/ud//gdN0xz337FjB7169eL3v/89p512GgCrVq1ixIgRnuYYTH94Tz36KvY07yu5H5JWtIjK0Sccxkv/fBs96X+C27Y+V2M1I9+byqNpKpOmH8TL//pvzkTS8r2pTuT7UptomsLEqYNY8uxa9Da4kqNEEgb580drmsrE4w9kyeI1cmGEKkEuqFh9lPKeaBGVSZ87hJefXlHSs5nEmvYdGvnT8z9q02JLisHqpSbmGPzkk0+YMmUKAwcO5Mc//jGbNm3K/K1v376ZfY4//nh+85vfMH78eLp06cLFF1/M/Pnz6d69O507d2bu3LlMnDixoisSS1pRFIVOXdujKKXNtyAHJdVDvtSQ700VoGp06hIDI46RWv1b0Rrke1OlpN8XKQhrDEWlY+coiDiGFBYSSclY3qNUlU6do2C0yOusypBjivpAURQ6d21X8rNZW8bpWjB0eV4zpFKJvR0jz1+Y1IQYfPrpp1m9ejWrV6/OzPmXJh3wmEgkWLVqFXv27Mn87Wc/+xmqqnLaaafR0tLCjBkz+MUvfuGrDencdklwJHT422+fC7xc+UBdOeQ1Un0kdPjb/7yYc13I96n6MfQW+V1WQyR0+Pujr1e6GRJJzeN0f0ro8OQj/yljayRekeOL2iY9ZpRIwsaPW/ErVu+9917uuOMOmpqaGDVqFHfffTfjx4+33f/xxx/nhhtuYO3atQwbNowf/vCHnHjiia3tMAxuuukm7r//frZv387RRx/Nfffdx7BhwzL7bN26lblz5/K///u/GR/185//nI4dO2b2eeutt7jiiit47bXX6NWrF3PnzuXb3/62rz4GQU2IwQsuuIALLrjAcZ9BgwaRnxXd2NjIvffey7333ltyG+Rkl8GjRTSmzRrHM0+8hp4MbpkhOSipbqTsKC9aRGXqKUfw7F+XybSQGkNGD9YOWkRl6smH8+z/viWvM4nEJ8XGb/J+JpG0EsbzTljPZhITGTHYSrnE4GOPPcb8+fNZuHAhEyZM4M4772TGjBmsWrWK3r17F+z/8ssvc/bZZ7NgwQJOOukkHnnkEWbNmsWyZcsYOXIkAD/60Y+46667WLRoEYMHD+aGG25gxowZrFixgsbGRgDOPfdcNmzYwNNPP00ikeDCCy/k0ksv5ZFHHgFg586dnHDCCUyfPp2FCxfy9ttvc9FFF9G1a1cuvfRSz/0MgpoQg9WCFE7BYigaGHrqi0HefOoRK6Ehr6Py0nqdxeV1VqNIQVj9GIqKIdL3MyksJBIvuB0XyPuZROIeP+Nt+WwWLoYu58VLY/hIJfZz/n76058yZ84cLrzwQgAWLlzIk08+yYMPPsg111xTsP/Pf/5zZs6cybe+9S0Abr31Vp5++mnuueceFi5ciGEY3HnnnVx//fV88YtfBOA3v/kNffr04YknnuCss87ivffe46mnnuK1117jyCOPBODuu+/mxBNP5Mc//jH9+vXjd7/7HfF4nAcffJBYLMahhx7K8uXL+elPfyrFYLUj9H0IXS4+EiRCh6d+/y9fx6paY8CtkYSBlICVJ6nDPx/7d6WbIQkAeT1VLyIOTz/+UqWbIXFAXj+1j7yfSSThoid1/vkHmUosCR8/bkV4jBiMx+MsXbqUa6+9NvOaqqpMnz6dJUuWWB6zZMkS5s+fn/PajBkzeOKJJwD48MMPaWpqYvr06Zm/d+nShQkTJrBkyRLOOusslixZQteuXTNSEGD69Omoqsorr7zCl770JZYsWcLkyZOJxWI59fzwhz9k27ZtdOvWzVNfg0CKwSKk05PbdWhX4ZbUH5FohBO+fBz//MO/SSaSlW6ORFKXyOtMIgkf8zo7Vl5n1UxUpnDVOvJ+JpGEi7zGwqWh0bwP5U9/1hZp37G972N27dqVs0BOQ0MDDQ2FWTWbN29G13X69OmT83qfPn1YuXKlZR1NTU2W+zc1NWX+nn7NaZ/8NOVIJEL37t1z9hk8eHBBGem/STFYlZgX7mMvPFDhdtQvX/3GxZVugkRS98jrTCIJH3mdSSThI68ziSRc5DUWNm1XDCqKgqKoPPr8r30d39zczEHDD6ClpTUL4KabbuLmm28OqIVtFykGi6AoKl27dUNBAbl0e6Ds2rWL/v378/HHH9OpU6dKN0ciqUvkdSaRhI+8ziSS8JHXmUQSLvIaCxnDwMBAUdruXIOKotCte3ffUZMdOnbis88+y3nNKloQoGfPnmiaxsaNG3Ne37hxI3379rU8pm/fvo77p/+/ceNG9ttvv5x9Ro8endknv43JZJKtW7fmlGNVT3Yd5UaKwSKoqgq03Ys3TBRFYffu3SiKkjrPEokkaOR1JpGEj7zOJJLwkdeZRBIu8hqTlAMzatBfwFVjY2Nm5d9ixGIxxo4dy+LFi5k1axYAQggWL17MlVdeaXnMxIkTWbx4MfPmzcu89vTTTzNx4kQABg8eTN++fVm8eHFGBO7cuZNXXnmFyy+/PFPG9u3bWbp0KWPHjgXgmWeeQQjBhAkTMvt897vfJZFIEI1GM/UMHz68ImnEII2XRCKRSCQSiUQikUgkEomkjpg/fz73338/ixYt4r333uPyyy+nubk5s0rx7NmzcxYnueqqq3jqqaf4yU9+wsqVK7n55pt5/fXXMyJRURTmzZvHbbfdxl//+lfefvttZs+eTb9+/TLy8eCDD2bmzJnMmTOHV199lZdeeokrr7ySs846i379+gFwzjnnEIvFuPjii3n33Xd57LHH+PnPf16w8Ek5kRGDEolEIpFIJBKJRCKRSCSSuuHMM89k06ZN3HjjjTQ1NTF69GieeuqpzEIf69evz4mOnTRpEo888gjXX3891113HcOGDeOJJ55g5MiRmX2+/e1v09zczKWXXsr27ds55phjeOqpp3IiGX/3u99x5ZVXcvzxx6OqKqeddhp33XVX5u9dunThn//8J1dccQVjx46lZ8+e3HjjjVx66aVlOCvWKIZcFkdSIVpaWliwYAHXXnut7dwAEomkNOR1JpGEj7zOJJLwkdeZRBIu8hqTSNouUgxKJBKJRCKRSCQSiUQikUgkbRA5x6BEIpFIJBKJRCKRSCQSiUTSBpFiUCKRSCQSiUQikUgkEolEImmDSDEokUgkEolEIpFIJBKJRCKRtEGkGJRUnLVr13LxxRczePBg2rVrx4EHHshNN91EPB6vdNMkkrri9ttvZ9KkSbRv356uXbtWujkSSV1w7733MmjQIBobG5kwYQKvvvpqpZskkdQVzz//PCeffDL9+vVDURSeeOKJSjdJIqkrFixYwLhx4+jUqRO9e/dm1qxZrFq1qtLNkkgkZUSKQUnFWblyJUIIfvnLX/Luu+/ys5/9jIULF3LddddVumkSSV0Rj8c544wzuPzyyyvdFImkLnjssceYP38+N910E8uWLWPUqFHMmDGDzz77rNJNk0jqhubmZkaNGsW9995b6aZIJHXJv//9b6644gr+85//8PTTT5NIJDjhhBNobm6udNMkEkmZkKsSS6qSO+64g/vuu48PPvig0k2RSOqOhx9+mHnz5rF9+/ZKN0UiqWkmTJjAuHHjuOeeewAQQnDAAQcwd+5crrnmmgq3TiKpPxRF4S9/+QuzZs2qdFMkkrpl06ZN9O7dm3//+99Mnjy50s2RSCRlQEYMSqqSHTt20L1790o3QyKRSCQSS+LxOEuXLmX69OmZ11RVZfr06SxZsqSCLZNIJBKJxD87duwAkM9iEkkbQopBSdWxevVq7r77bi677LJKN0UikUgkEks2b96Mruv06dMn5/U+ffrQ1NRUoVZJJBKJROIfIQTz5s3j6KOPZuTIkZVujkQiKRNSDEpC45prrkFRFMf/Vq5cmXPMJ598wsyZMznjjDOYM2dOhVoukdQOfq4ziUQikUgkEokknyuuuIJ33nmHRx99tNJNkUgkZSRS6QZI6pdvfOMbXHDBBY77DBkyJLP96aefMnXqVCZNmsSvfvWrkFsnkdQHXq8ziUQSDD179kTTNDZu3Jjz+saNG+nbt2+FWiWRSCQSiT+uvPJK/va3v/H888/Tv3//SjdHIpGUESkGJaHRq1cvevXq5WrfTz75hKlTpzJ27FgeeughVFUGs0okbvBynUkkkuCIxWKMHTuWxYsXZxZCEEKwePFirrzyyso2TiKRSCQSlxiGwdy5c/nLX/7Cc889x+DBgyvdJIlEUmakGJRUnE8++YQpU6YwcOBAfvzjH7Np06bM32TUhUQSHOvXr2fr1q2sX78eXddZvnw5AEOHDqVjx46VbZxEUoPMnz+f888/nyOPPJLx48dz55130tzczIUXXljppkkkdcPu3btZvXp15t8ffvghy5cvp3v37gwYMKCCLZNI6oMrrriCRx55hP/3//4fnTp1ysyT26VLF9q1a1fh1kkkknKgGIZhVLoRkrbNww8/bPsQJT+eEklwXHDBBSxatKjg9WeffZYpU6aUv0ESSR1wzz33cMcdd9DU1MTo0aO56667mDBhQqWbJZHUDc899xxTp04teP3888/n4YcfLn+DJJI6Q1EUy9cfeuihotPVSCSS+kCKQYlEIpFIJBKJRCKRSCQSiaQNIidyk0gkEolEIpFIJBKJRCKRSNogUgxKJBKJRCKRSCQSiUQikUgkbRApBiUSiUQikUgkEolEIpFIJJI2iBSDEolEIpFIJBKJRCKRSCQSSRtEikGJRCKRSCQSiUQikUgkEomkDSLFoEQikUgkEolEIpFIJBKJRNIGkWJQIpFIJBKJRCKRSCQSiUQiaYNIMSiRSCQSiUQikUgkEolEIpG0QaQYlEgkEolEIinCAw88wAknnBB6PU899RSjR49GCBF6XRKJRCKRSCQSiRSDEolEIpFIJA7s27ePG264gZtuuin0umbOnEk0GuV3v/td6HVJJBKJRCKRSCRSDEokEolEIpE48Mc//pHOnTtz9NFHl6W+Cy64gLvuuqssdUkkEolEIpFI2jZSDEokEolEImkTbNq0ib59+/L9738/89rLL79MLBZj8eLFtsc9+uijnHzyyTmvTZkyhXnz5uW8NmvWLC644ILMvwcNGsRtt93G7Nmz6dixIwMHDuSvf/0rmzZt4otf/CIdO3bk8MMP5/XXX88p5+STT+b1119nzZo1/jsrkUgkEolEIpG4QIpBiUQikUgkbYJevXrx4IMPcvPNN/P666+za9cuvvKVr3DllVdy/PHH2x734osvcuSRR/qq82c/+xlHH300b7zxBl/4whf4yle+wuzZsznvvPNYtmwZBx54ILNnz8YwjMwxAwYMoE+fPrzwwgu+6pRIJBKJRCKRSNwixaBEIpFIJJI2w4knnsicOXM499xz+epXv0qHDh1YsGCB7f7bt29nx44d9OvXz3d9l112GcOGDePGG29k586djBs3jjPOOIODDjqI73znO7z33nts3Lgx57h+/fqxbt06X3VKJBKJRCKRSCRukWJQIpFIJBJJm+LHP/4xyWSSxx9/nN/97nc0NDTY7rt3714AGhsbfdV1+OGHZ7b79OkDwGGHHVbw2meffZZzXLt27dizZ4+vOiUSiUQikUgkErdIMSiRSCQSiaRNsWbNGj799FOEEKxdu9Zx3x49eqAoCtu2bct5XVXVnPRfgEQiUXB8NBrNbCuKYvuaECLnuK1bt9KrV6/inZFIJBKJRCKRSEpAikGJRCKRSCRthng8znnnnceZZ57JrbfeyiWXXFIQrZdNLBbjkEMOYcWKFTmv9+rViw0bNmT+res677zzTiBt3LdvH2vWrGHMmDGBlCeRSCQSiUQikdghxaBEIpFIJJI2w3e/+1127NjBXXfdxXe+8x0OOuggLrroIsdjZsyYwYsvvpjz2rRp03jyySd58sknWblyJZdffjnbt28PpI3/+c9/aGhoYOLEiYGUJ5FIJBKJRCKR2CHFoEQikUgkkjbBc889x5133slvf/tbOnfujKqq/Pa3v+WFF17gvvvusz3u4osv5u9//zs7duzIvHbRRRdx/vnnM3v2bI477jiGDBnC1KlTA2nn73//e84991zat28fSHkSiUQikUgkEokdipE/QY5EIpFIJBKJJIczzjiDI444gmuvvTbUejZv3szw4cN5/fXXGTx4cKh1SSQSiUQikUgkMmJQIpFIJBKJpAh33HEHHTt2DL2etWvX8otf/EJKQYlEIpFIJBJJWZARgxKJRCKRSCQSiUQikUgkEkkbREYMSiQSiUQikUgkEolEIpFIJG0QKQYlEolEIpFIJBKJRCKRSCSSNogUgxKJRCKRSCQSiUQikUgkEkkbRIpBiUQikUgkEolEIpFIJBKJpA0ixaBEIpFIJBKJRCKRSCQSiUTSBpFiUCKRSCQSiUQikUgkEolEImmDSDEokUgkEolEIpFIJBKJRCKRtEGkGJRIJBKJRCKRSCQSiUQikUjaIFIMSiQSiUQikUgkEolEIpFIJG0QKQYlEolEIpFIJBKJRCKRSCSSNsj/B1hLO+uG6OwLAAAAAElFTkSuQmCC", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "showGrid = False\n", + "\n", + "fig, (ax) = plt.subplots(1, 1, figsize=(14, 4))\n", + "\n", + "contour1 = ax.contourf(XI1, YI1, 100*np.abs((TI_cst-TI1)/TI1), levels=250, cmap='turbo')\n", + "ax.set_xlabel('x (um)')\n", + "ax.set_ylabel('y (um)')\n", + "ax.set_title('Interp. Temperature Distribution difference Tidy3D - Eff. DOS vs Constant')\n", + "fig.colorbar(contour1, label='Temperature difference %', ax=ax)\n", + "\n", + "plt.tight_layout()" + ] + }, + { + "cell_type": "markdown", + "id": "cc74b335-f1ae-4128-b5fd-a9fe725a4713", + "metadata": {}, + "source": [ + "### IV-Curve" + ] + }, + { + "cell_type": "code", + "execution_count": 29, + "id": "22fa81b5-1467-40ac-8140-54ced69a3a80", + "metadata": {}, + "outputs": [], + "source": [ + "norm_length = 500\n", + "voltage = results.device_characteristics.steady_dc_current_voltage['v'].as_numpy()\n", + "current = results.device_characteristics.steady_dc_current_voltage.values*norm_length\n", + "current_cst = results_cst.device_characteristics.steady_dc_current_voltage.values*norm_length\n", + "current_iso = results_iso.device_characteristics.steady_dc_current_voltage.values*norm_length" + ] + }, + { + "cell_type": "code", + "execution_count": 30, + "id": "9dddde51-7a0c-4be4-916a-9f103b55fd37", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "fig, ax = plt.subplots(figsize=(14, 5))\n", + "ax.plot(voltage, current, marker='o', linestyle='-')\n", + "ax.plot(voltage, current_cst, marker='*', linestyle='-')\n", + "ax.plot(voltage, current_iso, marker='*', linestyle='-')\n", + "# --- ADJUSTED LABELS ---\n", + "ax.set_xlabel(\"Voltage (V)\")\n", + "ax.set_ylabel(\"Current (A)\")\n", + "ax.set_title(\"Current-Voltage (IV) Curve\")\n", + "ax.legend(['Tidy3D - non-isothermal - Eff. DOS',\n", + " 'Tidy3D - non-isothermal - Cst',\n", + " 'Tidy3D - isothermal'])\n", + "ax.grid(True, which=\"both\", ls=\"-\") \n", + "plt.show()" + ] + } + ], + "metadata": { + "kernelspec": { + "display_name": "Python 3 (ipykernel)", + "language": "python", + "name": "python3" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 3 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython3", + "version": "3.11.13" + } + }, + "nbformat": 4, + "nbformat_minor": 5 +} From 76e528eb4486d18c961804747149bb5c252afdc8 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Damiano=20Franz=C3=B2?= Date: Fri, 3 Oct 2025 10:29:43 +0200 Subject: [PATCH 2/6] Address comments --- PINMachZenhder.ipynb | 59688 +------------------------------------ img/local_refinement.png | Bin 0 -> 80072 bytes 2 files changed, 441 insertions(+), 59247 deletions(-) create mode 100644 img/local_refinement.png diff --git a/PINMachZenhder.ipynb b/PINMachZenhder.ipynb index 0572c364..455a9e09 100644 --- a/PINMachZenhder.ipynb +++ b/PINMachZenhder.ipynb @@ -5,55 +5,65 @@ "id": "1d45055c-523f-46ab-8a09-b3f5e4796b1b", "metadata": {}, "source": [ - "# Introduction\n", + "# PIN Mach-Zehnder modulator with thermal analysis\n", "\n", - "A Mach-Zehnder modulator is an optical device used to control the intensity of a light beam. It works by splitting a laser beam into two paths and then recombining them. By changing the properties of one or both paths, we can control whether the waves interfere constructively (bright output) or destructively (dark output), effectively turning the light on and off at very high speeds. This makes them ideal for encoding data onto light signals for fiber-optic communication. The \"PIN\" part refers to the P-type, Intrinsic, N-type semiconductor structure that is used to control the light paths. By applying a voltage across this PIN junction, we can change the refractive index of the material, which in turn changes the speed of light in that path, thus controlling the interference.\n", + "A Mach-Zehnder modulator is an optical device used to control the intensity of a light beam. It works by splitting a laser beam into two paths and then recombining them. By changing the properties of one path relative to the other, we can control whether the waves interfere constructively (bright output) or destructively (dark output). This allows for high-speed modulation, making them ideal for encoding data onto light signals in fiber-optic communications.\n", "\n", - "The operation of the PIN diode generates heat, especially at high modulation speeds and power levels. This heat can significantly affect the performance of the modulator in several ways:\n", - "- Refractive Index Change: The refractive index of silicon is sensitive to temperature. The heat generated can change the refractive index of the waveguides, leading to a drift in the operating point of the modulator and affecting its performance.\n", - "- Carrier Mobility: The mobility of charge carriers (electrons and holes) in the semiconductor is also temperature-dependent. This affects the speed and efficiency of the modulator.\n", - "- Reliability: Excessive heat can lead to device degradation and failure over time.\n", - "By including the thermal aspect in our simulation, we can accurately predict the modulator's performance under realistic operating conditions, optimize its design for thermal stability, and ensure its long-term reliability. This multiphysics approach, combining both charge transport and heat transfer, provides a more complete and accurate picture of the device's behavior.\n", + "The \"PIN\" structure consists of P-type, Intrinsic, and N-type semiconductor regions. Applying a forward bias voltage to this junction injects charge carriers into the intrinsic region. This changes the material's refractive index via the plasma dispersion effect, altering the light's phase in that path and thus controlling the interference at the output.\n", "\n", - "This notebook demonstrates how to use Tidy3D's advanced multiphysics capabilities to perform a comprehensive simulation of a PIN Mach-Zehnder modulator, including both charge and heat transport. This notebook will guide you through setting up the geometry, defining the materials and their physical models, running the simulation, and analyzing the results. This specific version of the notebook uses the effective Density of States (DOS) model with temperature dependence." + "The electrical current flowing through the device during the operation of the PIN diode generates heat, which is most significant during the 'ON' state of the modulation cycle. This heat can significantly affect the performance of the modulator. In particular, the carrier mobility (electrons and holes) in the semiconductor is temperature-dependent, which ultimately affects the speed and efficiency of the modulator.\n", + "\n", + "By including the thermal effects in the simulation, we can accurately predict the modulator's performance under realistic operating conditions and optimize its design for thermal stability.\n", + "\n", + "## Scope\n", + "This notebook demonstrates how to use Tidy3D's advanced multiphysics capabilities to perform a comprehensive simulation of a PIN Mach-Zehnder modulator, including both charge and heat transport. This notebook will guide you through setting up the geometry, defining the materials and their physical models, running the simulation, and analyzing the results. This specific version of the notebook uses the effective Density of States (DOS) model with temperature dependence.\n", + "\n", + "In order to appreciate the difference in the simulation, we will perform three simulations to assess the impact of temperature on the device's performance:\n", + "1. **Non-isothermal simulation with temperature-dependent DOS**: This is the most comprehensive simulation, including both heat transport and a temperature-dependent model for the DOS.\n", + "2. **Non-isothermal simulation with constant DOS**: This simulation includes heat transport but assumes a constant DOS, allowing us to isolate the effect of the temperature-dependent DOS model.\n", + "3. **Isothermal simulation with constant DOS**: This is a baseline simulation that neglects thermal effects and assumes a constant DOS." ] }, { "cell_type": "code", - "execution_count": 1, + "execution_count": 116, "id": "550ea3ba-0d98-41d0-8a80-2724c51bdb67", "metadata": {}, "outputs": [], "source": [ - "import tidy3d as td\n", - "import numpy as np\n", + "import subprocess\n", + "\n", + "import h5py\n", "import matplotlib.pyplot as plt\n", - "# TODO remove\n", - "from tidy3d_backend.run_heat import run_heat_sim\n", - "import tidy3d_backend\n", + "import numpy as np\n", "import pandas as pd\n", - "\n", "import scipy as sp\n", - "import h5py\n", - "import subprocess" + "import tidy3d as td\n", + "import tidy3d_backend\n", + "from matplotlib.colors import LogNorm\n", + "\n", + "# TODO remove\n", + "from tidy3d_backend.run_heat import run_heat_sim" ] }, { "cell_type": "markdown", - "id": "b6104a8c-6ecb-46f7-aa67-4ba111ba01ab", + "id": "28e4138d-c091-45fa-9528-7895f9005de2", "metadata": {}, "source": [ - "Here, we define the geometric parameters for the different components of the Mach-Zehnder modulator. This includes the pad, rib, silicon-on-insulator (SOI) box, cathode, and anode. The dimensions and centers of these components are defined in micrometers." + "## Device Geometry\n", + "\n", + "We begin by defining the key geometric parameters of the Mach-Zehnder modulator in micrometers (µm). This includes the pad, rib, silicon-on-insulator (SOI) box, cathode, and anode. The dimensions and centers of these components are defined in micrometers." ] }, { "cell_type": "code", - "execution_count": 2, + "execution_count": 117, "id": "9e6b4fd6-39c7-4287-bc83-a9dc64f472dd", "metadata": {}, "outputs": [], "source": [ - "z_size = 4 # µm\n", + "z_size = 4 # µm\n", "\n", "# pad size\n", "pad_center = (0, -0.045, 0)\n", @@ -91,17 +101,17 @@ "id": "1a47366c-eb62-49a3-876e-af943905d864", "metadata": {}, "source": [ - "# Doping and Materials\n", - "This section defines the doping profiles and the physical properties of the materials used in the simulation.\n", + "## Doping and materials\n", + "In this section, we define the doping profiles and the physical properties of the materials used in the simulation.\n", "\n", "Doping Profiles\n", "- `Constant Doping`: A constant acceptor doping concentration is defined for the p-type epitaxial (pepi) layer.\n", - "- `Gaussian Doping`: Gaussian doping profiles are used for the n+, p+, n-well, and p-well regions. These profiles are defined with specific centers, sizes, concentrations, reference concentrations, and junction widths. The source parameter in `GaussianDoping` specifies the direction from which the doping is introduced." + "- `Gaussian Doping`: Gaussian doping profiles are used for the n+, p+, n-well, and p-well regions. These profiles are defined with specific centers, sizes, concentrations, reference concentrations, and junction widths. The `source` parameter in `GaussianDoping` defines the axis along which the Gaussian function decays." ] }, { "cell_type": "code", - "execution_count": 3, + "execution_count": 118, "id": "07325445-0b1b-4d9e-85c3-8f37629cc25c", "metadata": {}, "outputs": [], @@ -117,48 +127,57 @@ "conc_nplus = 2e18\n", "refconc_nplus = 1e8\n", "donor_nplus_center = (-1.5, 0, 0)\n", - "donor_nplus_size = (2., 2, z_size)\n", - "donor_nplus_doping = td.GaussianDoping(center=donor_nplus_center, size=donor_nplus_size,\n", - " concentration=conc_nplus, ref_con=refconc_nplus, width=junction_width_01, source=\"ymax\")\n", + "donor_nplus_size = (2.0, 2, z_size)\n", + "donor_nplus_doping = td.GaussianDoping(\n", + " center=donor_nplus_center,\n", + " size=donor_nplus_size,\n", + " concentration=conc_nplus,\n", + " ref_con=refconc_nplus,\n", + " width=junction_width_01,\n", + " source=\"ymax\",\n", + ")\n", "\n", "# pplus\n", "conc_pplus = 2e18\n", "refconc_pplus = 1e8\n", "acceptor_pplus_center = (1.5, 0, 0)\n", - "acceptor_pplus_size = (2., 2, z_size)\n", - "acceptor_pplus_doping = td.GaussianDoping(center=acceptor_pplus_center, size=acceptor_pplus_size,\n", - " concentration=conc_pplus, ref_con=refconc_pplus, width=junction_width_01, source=\"ymax\")\n", + "acceptor_pplus_size = (2.0, 2, z_size)\n", + "acceptor_pplus_doping = td.GaussianDoping(\n", + " center=acceptor_pplus_center,\n", + " size=acceptor_pplus_size,\n", + " concentration=conc_pplus,\n", + " ref_con=refconc_pplus,\n", + " width=junction_width_01,\n", + " source=\"ymax\",\n", + ")\n", "\n", "# nwell\n", "conc_nwell = 1e20\n", "refconc_nplus = 1e8\n", "donor_nwell_center = (-1.8, -0.49995, 0)\n", - "donor_nwell_size = (1.4, 1.0001, z_size)\n", - "donor_nwell_doping = td.GaussianDoping(center=donor_nwell_center, size=donor_nwell_size,\n", - " concentration=conc_nwell, ref_con=refconc_nplus, width=junction_width_02, source=\"ymax\")\n", + "donor_nwell_size = (1.4, 1.0001, z_size)\n", + "donor_nwell_doping = td.GaussianDoping(\n", + " center=donor_nwell_center,\n", + " size=donor_nwell_size,\n", + " concentration=conc_nwell,\n", + " ref_con=refconc_nplus,\n", + " width=junction_width_02,\n", + " source=\"ymax\",\n", + ")\n", "\n", "# pwell\n", "conc_pwell = 1e20\n", "refconc_pwell = 1e8\n", "acceptor_pwell_center = (1.8, -0.5, 0)\n", - "acceptor_pwell_size = (1.4, 1.0001, z_size)\n", - "acceptor_pwell_doping = td.GaussianDoping(center=acceptor_pwell_center, size=acceptor_pwell_size,\n", - " concentration=conc_pwell, ref_con=refconc_pwell, width=junction_width_02, source=\"ymax\")" - ] - }, - { - "cell_type": "markdown", - "id": "c8bc6ac5-95f8-4b0b-83e1-0ed4aced0424", - "metadata": {}, - "source": [ - "## Mobility models Models\n", - "To accurately model the semiconductor behavior, we use several advanced physical models:\n", - "\n", - "- **Caughey-Thomas Mobility**: This model is used to describe the carrier mobility as a function of doping concentration and temperature for both electrons (mobility_n) and holes (mobility_p).\n", - "- **Fossum Carrier Lifetime**: The FossumCarrierLifetime model is used to define the carrier lifetime for electrons (fossum_n) and holes (fossum_p) which is dependent on the doping concentration.\n", - "- **Slotboom Bandgap Narrowing**: This model accounts for the reduction in the bandgap energy at high doping concentrations.\n", - "- **Isotropic Effective Density of States (DOS)**: A novel feature, `IsotropicEffectiveDOS`, is used to model the effective density of states for the conduction band (`N_c`) and valence band (`N_v`) based on the effective mass of the carriers. This is an alternative to using a constant value.\n", - "- **Varshni Energy Bandgap**: The VarshniEnergyBandGap model is used to describe the temperature dependence of the bandgap energy (Eg)." + "acceptor_pwell_size = (1.4, 1.0001, z_size)\n", + "acceptor_pwell_doping = td.GaussianDoping(\n", + " center=acceptor_pwell_center,\n", + " size=acceptor_pwell_size,\n", + " concentration=conc_pwell,\n", + " ref_con=refconc_pwell,\n", + " width=junction_width_02,\n", + " source=\"ymax\",\n", + ")" ] }, { @@ -166,7 +185,7 @@ "id": "107f5726-c11e-47ef-a978-5e64c9302d64", "metadata": {}, "source": [ - "### Media\n", + "## Media\n", "\n", "We define `MultiPhysicsMedium` objects to combine both the electrical (charge) and thermal (heat) properties of the materials.\n", "\n", @@ -176,14 +195,29 @@ "- **air** and contact media: These are defined as `FluidMedium` for the thermal simulations." ] }, + { + "cell_type": "markdown", + "id": "c8bc6ac5-95f8-4b0b-83e1-0ed4aced0424", + "metadata": {}, + "source": [ + "### Mobility models\n", + "To accurately model the semiconductor behavior, we use several advanced physical models:\n", + "\n", + "- **Caughey-Thomas Mobility**: This model is used to describe the carrier mobility as a function of doping concentration and temperature for both electrons (mobility_n) and holes (mobility_p).\n", + "- **Fossum Carrier Lifetime**: The FossumCarrierLifetime model is used to define the carrier lifetime for electrons (fossum_n) and holes (fossum_p) which is dependent on the doping concentration.\n", + "- **Slotboom Bandgap Narrowing**: This model accounts for the reduction in the bandgap energy at high doping concentrations.\n", + "- **Isotropic Effective DOS**: `IsotropicEffectiveDOS`, is used to model the effective DOS for the conduction band (`N_c`) and valence band (`N_v`) based on the effective mass of the carriers. This is an alternative to using a constant value `ConstantEffectiveDOS`.\n", + "- **Varshni Energy Bandgap**: The Varshni Energy Bangap model is used to describe the temperature dependence of the bandgap energy (Eg)." + ] + }, { "cell_type": "code", - "execution_count": 4, + "execution_count": 141, "id": "b3b246c7-50fd-47cd-871b-ea1939f0d47d", "metadata": {}, "outputs": [], "source": [ - "mobility_n=td.CaugheyThomasMobility(\n", + "mobility_n = td.CaugheyThomasMobility(\n", " mu_min=52.2,\n", " mu=1471.0,\n", " ref_N=9.68e16,\n", @@ -193,7 +227,7 @@ " exp_3=2.4,\n", " exp_4=-0.146,\n", ")\n", - "mobility_p=td.CaugheyThomasMobility(\n", + "mobility_p = td.CaugheyThomasMobility(\n", " mu_min=44.9,\n", " mu=470.5,\n", " ref_N=2.23e17,\n", @@ -210,11 +244,15 @@ "sigma = 1\n", "tau_n = 1e-7\n", "tau_p = 2e-7\n", - "fossum_n = td.FossumCarrierLifetime(N0=7.1e15, A=alpha, B=beta, C=gamma, tau_300=tau_n, alpha=sigma, alpha_T=0)\n", - "fossum_p = td.FossumCarrierLifetime(N0=7.1e15, A=alpha, B=beta, C=gamma, tau_300=tau_p, alpha=sigma, alpha_T=0)\n", + "fossum_n = td.FossumCarrierLifetime(\n", + " N0=7.1e15, A=alpha, B=beta, C=gamma, tau_300=tau_n, alpha=sigma, alpha_T=0\n", + ")\n", + "fossum_p = td.FossumCarrierLifetime(\n", + " N0=7.1e15, A=alpha, B=beta, C=gamma, tau_300=tau_p, alpha=sigma, alpha_T=0\n", + ")\n", "\n", - "ni = 1 #Useless in this formulation\n", - "narrowing = td.SlotboomBandGapNarrowing(c2=0.5, n2=1e17, v1=0.0045*2, min_N=ni)\n", + "ni = 1\n", + "narrowing = td.SlotboomBandGapNarrowing(c2=0.5, n2=1e17, v1=0.0045 * 2, min_N=ni)\n", "\n", "# Temperature dependent Eff. DOS\n", "N_c_isotropic = td.IsotropicEffectiveDOS(m_eff=0.8)\n", @@ -230,9 +268,9 @@ " permittivity=11.7,\n", " N_c=N_c_isotropic,\n", " N_v=N_v_isotropic,\n", - " E_g = Eg_Varshni,\n", - " N_d = [donor_nplus_doping, donor_nwell_doping],\n", - " N_a = [acceptor_cst_doping, acceptor_pplus_doping, acceptor_pwell_doping],\n", + " E_g=Eg_Varshni,\n", + " N_d=[donor_nplus_doping, donor_nwell_doping],\n", + " N_a=[acceptor_cst_doping, acceptor_pplus_doping, acceptor_pwell_doping],\n", " mobility_n=mobility_n,\n", " mobility_p=mobility_p,\n", " R=[\n", @@ -240,7 +278,7 @@ " td.RadiativeRecombination(r_const=1.6e-14),\n", " td.AugerRecombination(c_n=2.8e-31, c_p=9.9e-32),\n", " ],\n", - " delta_E_g=narrowing\n", + " delta_E_g=narrowing,\n", ")\n", "\n", "## -- MATERIALS\n", @@ -248,9 +286,9 @@ "sio2_capacity = 709\n", "al_capacity = 902\n", "\n", - "si_conductivity = 148 * 1e-6 # W/(µm*K)\n", - "sio2_conductivity = 1.38 * 1e-6 # W/(µm*K)\n", - "al_conductivity = 236 * 1e-6 # W/(µm*K)\n", + "si_conductivity = 148 * 1e-6 # W/(µm*K)\n", + "sio2_conductivity = 1.38 * 1e-6 # W/(µm*K)\n", + "al_conductivity = 236 * 1e-6 # W/(µm*K)\n", "\n", "Si_doping = td.MultiPhysicsMedium(\n", " charge=si_charge,\n", @@ -272,30 +310,8 @@ " name=\"Al\",\n", ")\n", "\n", - "air = td.MultiPhysicsMedium(\n", - " heat=td.FluidMedium(),\n", - " name=\"air\"\n", - ")\n", - "\n", - "contact_medium_left = td.Medium(\n", - " heat_spec=td.FluidMedium(),\n", - " name=\"contact_medium_left\"\n", - ")\n", - "\n", - "contact_medium_right = td.Medium(\n", - " heat_spec=td.FluidMedium(),\n", - " name=\"contact_medium_right\"\n", - ")\n", - "\n", - "contact_medium_bottom = td.Medium(\n", - " heat_spec=td.FluidMedium(),\n", - " name=\"contact_medium_bottom\"\n", - ")\n", - "\n", - "contact_medium_top = td.Medium(\n", - " heat_spec=td.FluidMedium(),\n", - " name=\"contact_medium_top\"\n", - ")" + "air = td.MultiPhysicsMedium(heat=td.FluidMedium(), name=\"air\")\n", + "contact_medium_bottom = td.MultiPhysicsMedium(heat=td.FluidMedium(), name=\"contact_medium_bottom\")" ] }, { @@ -304,12 +320,12 @@ "metadata": {}, "source": [ "## Geometries and Scene\n", - "The geometries defined earlier are used to create Structure objects. Each structure is assigned a medium that defines its physical properties. The collection of all these structures is then used to create a Scene which represents the complete simulation domain. The scene is plotted to visualize the geometry and the doping profile. The first plot shows the different materials in the scene, and the second plot shows the doping concentration across the device." + "The geometries defined earlier are used to create Structure objects. Each structure is assigned a medium that defines its physical properties. The collection of all these structures is then used to create a Scene which represents the complete simulation domain. The scene is plotted to visualize the geometry and the doping profile." ] }, { "cell_type": "code", - "execution_count": 5, + "execution_count": 120, "id": "808b1a2a-23e6-4bb0-8e4d-9ca7a921f8e7", "metadata": {}, "outputs": [], @@ -346,21 +362,17 @@ "\n", "cb_thick = 0.5\n", "contact_bottom = td.Structure(\n", - " geometry=td.Box(center=(0, -2 -y_pad_h - cb_thick/2, 0), size=(x_pad_w, cb_thick, 4)),\n", + " geometry=td.Box(center=(0, -2 - y_pad_h - cb_thick / 2, 0), size=(x_pad_w, cb_thick, 4)),\n", " medium=contact_medium_bottom,\n", " name=\"contact_bottom\",\n", ")\n", "\n", + "\n", "def createStructure(pad, rib):\n", - " structures = [\n", - " contact_bottom,\n", - " soxbox_structure,\n", - " cathode_structure,\n", - " anode_structure,\n", - " pad,\n", - " rib]\n", + " structures = [contact_bottom, soxbox_structure, cathode_structure, anode_structure, pad, rib]\n", " return structures\n", - " \n", + "\n", + "\n", "structures = createStructure(pad_structure, rib_structure)" ] }, @@ -369,12 +381,12 @@ "id": "0fcf81f6-a394-4337-9770-51e9b68da05d", "metadata": {}, "source": [ - "Create a temperature independent density of state model by using`updated_copy` on existing classes" + "To avoid code repetition, we create a temperature-independent DOS models by using `updated_copy` method on existing classes." ] }, { "cell_type": "code", - "execution_count": 6, + "execution_count": 121, "id": "84803c45-8533-4b1c-9af5-ad8880fff33b", "metadata": {}, "outputs": [], @@ -389,34 +401,38 @@ }, { "cell_type": "code", - "execution_count": 7, + "execution_count": 122, "id": "bec6d909-74c5-4887-86a5-af11b0bd0ced", "metadata": {}, "outputs": [], "source": [ "# create scene\n", - "scene = td.Scene(\n", - " structures=structures,\n", - " medium=air\n", - ")\n", + "scene = td.Scene(structures=structures, medium=air)\n", "# create scene\n", - "scene_cst = td.Scene(\n", - " structures=structures_cst,\n", - " medium=air\n", - ")" + "scene_cst = td.Scene(structures=structures_cst, medium=air)" + ] + }, + { + "cell_type": "markdown", + "id": "40b4a85b-23c8-42dd-b249-7245182a05d4", + "metadata": {}, + "source": [ + "### Scene plot\n", + "\n", + "The first plot shows the different materials in the scene, and the second plot shows the doping concentration across the device." ] }, { "cell_type": "code", - "execution_count": 8, + "execution_count": 124, "id": "5b5f1cc7-5d04-4030-ac8b-4b2b37cc61dd", "metadata": {}, "outputs": [ { "data": { - "image/png": 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", + "image/png": 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", "text/plain": [ - "
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" ] }, "metadata": {}, @@ -424,10 +440,14 @@ } ], "source": [ - "_, ax = plt.subplots(1, 2, figsize=(14, 5))\n", + "_, ax = plt.subplots(1, 2, figsize=(10, 4))\n", "\n", "fig1 = scene.plot(z=0, ax=ax[0])\n", "fig2 = scene.plot_structures_property(z=0, property=\"doping\", ax=ax[1])\n", + "\n", + "ax[0].set_title(\"Device Cross-Sectional Geometry\")\n", + "ax[1].set_title(\"Net Doping Concentration\")\n", + "\n", "plt.show()" ] }, @@ -436,21 +456,20 @@ "id": "4ff2ebd9-8945-4441-b26e-4b248a37cb35", "metadata": {}, "source": [ - "## Doping Profile Visualization\n", - "These plots provide a more detailed view of the doping concentration in the device. The four plots show the doping concentration with different color limits to highlight the p-type and n-type doping regions and their magnitudes." + "These plots provide a more detailed view of the doping concentration in the device. The two plots show the doping concentration with different color limits to highlight the doping regions and their magnitudes." ] }, { "cell_type": "code", - "execution_count": 9, + "execution_count": 137, "id": "a8a035e7-98d2-4f2a-8a54-b1cbe7666bdd", "metadata": {}, "outputs": [ { "data": { - "image/png": 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", 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" ] }, "metadata": {}, @@ -458,11 +477,14 @@ } ], "source": [ - "_, ax = plt.subplots(2,2, figsize=(14, 10))\n", - "fig1 = scene.plot_structures_property(z=0, property=\"doping\", ax=ax[0][0],limits=[-1e20, 1e20])\n", - "fig2 = scene.plot_structures_property(z=0, property=\"doping\", ax=ax[0][1],limits=[-1e18, 1e18])\n", - "fig3 = scene.plot_structures_property(z=0, property=\"doping\", ax=ax[1][0],limits=[0, 1e15])\n", - "fig4 = scene.plot_structures_property(z=0, property=\"doping\", ax=ax[1][1],limits=[-1e20, 0])" + "_, ax = plt.subplots(1, 2, figsize=(12, 5))\n", + "_ = scene.plot_structures_property(z=0, property=\"doping\", ax=ax[0], limits=[-1e20, 1e20])\n", + "_ = scene.plot_structures_property(z=0, property=\"doping\", ax=ax[1], limits=[-1e18, 1e18])\n", + "\n", + "_ = ax[0].set_title(\"Net Doping Concentration\")\n", + "_ = ax[1].set_title(\"Net Doping Concentration\")\n", + "\n", + "plt.tight_layout()" ] }, { @@ -471,14 +493,15 @@ "metadata": {}, "source": [ "## Boundary Conditions\n", - "This section sets up the boundary conditions for the simulation.\n", - "- Charge Boundary Conditions: `HeatChargeBoundarySpec` is used to define the electrical boundary conditions. DC voltage sources are applied to the cathode and anode. The anode voltage is swept through a list of values from 0.5 to 1.2 Volt.\n", - "- Thermal Boundary Conditions: `HeatBoundarySpec` is used to define the thermal boundary conditions. Temperature boundary conditions are set at the interfaces between different structures. Temperature at electrodes is artifically increased up to 50 degress to showcase different simulation results between isothermal and non-isothermal analysis." + "Here, we set up the electrical and thermal boundary conditions for the simulation.\n", + "\n", + "* **Electrical Boundary Conditions:** A DC voltage source is applied to the anode and cathode contacts. The cathode is held at 0 V, while the anode voltage is swept to obtain the I-V characteristics.\n", + "* **Thermal Boundary Conditions:** A heat sink is defined at the bottom of the simulation domain to dissipate the heat generated by the device. For the non-isothermal simulations, a higher temperature is set at the electrodes to model a more realistic operating condition.Temperature at electrodes is artificially increased by 50 degress to showcase different simulation results between isothermal and non-isothermal analysis.\n" ] }, { "cell_type": "code", - "execution_count": 10, + "execution_count": 138, "id": "aff6d1ab-966f-43d9-9439-06e0f1bb3cbd", "metadata": {}, "outputs": [], @@ -487,14 +510,14 @@ "voltages_cathode = [0]\n", "bc_p = td.HeatChargeBoundarySpec(\n", " condition=td.VoltageBC(source=td.DCVoltageSource(voltage=voltages_cathode)),\n", - " placement=td.StructureStructureInterface(structures=[\"cathode\", \"pad\"])\n", + " placement=td.StructureStructureInterface(structures=[\"cathode\", \"pad\"]),\n", ")\n", "\n", - "voltages_anode = [0] +[0.5 + round((1/20)*x,5) for x in range(17)]\n", + "voltages_anode = [0] + [0.5 + round((1 / 20) * x, 5) for x in range(17)]\n", "# anode\n", "bc_n = td.HeatChargeBoundarySpec(\n", " condition=td.VoltageBC(source=td.DCVoltageSource(voltage=voltages_anode)),\n", - " placement=td.StructureStructureInterface(structures=[\"anode\", \"pad\"])\n", + " placement=td.StructureStructureInterface(structures=[\"anode\", \"pad\"]),\n", ")\n", "charge_bcs = [bc_n, bc_p]\n", "\n", @@ -503,29 +526,29 @@ "temperature_electrodes = 350\n", "\n", "# cathode\n", - "bc3 = td.HeatBoundarySpec(\n", + "bc3 = td.HeatChargeBoundarySpec(\n", " condition=td.TemperatureBC(temperature=temperature_electrodes),\n", " placement=td.StructureStructureInterface(structures=[\"cathode\", \"pad\"]),\n", ")\n", "# anode\n", - "bc4 = td.HeatBoundarySpec(\n", + "bc4 = td.HeatChargeBoundarySpec(\n", " condition=td.TemperatureBC(temperature=temperature_electrodes),\n", " placement=td.StructureStructureInterface(structures=[\"anode\", \"pad\"]),\n", ")\n", "\n", - "bc3a = td.HeatBoundarySpec(\n", + "bc3a = td.HeatChargeBoundarySpec(\n", " condition=td.TemperatureBC(temperature=temperature_electrodes),\n", " placement=td.StructureStructureInterface(structures=[\"cathode\", \"soxbox\"]),\n", ")\n", "# anode\n", - "bc4a = td.HeatBoundarySpec(\n", + "bc4a = td.HeatChargeBoundarySpec(\n", " condition=td.TemperatureBC(temperature=temperature_electrodes),\n", " placement=td.StructureStructureInterface(structures=[\"anode\", \"soxbox\"]),\n", ")\n", "# box\n", - "bc5 = td.HeatBoundarySpec(\n", + "bc5 = td.HeatChargeBoundarySpec(\n", " condition=td.TemperatureBC(temperature=temperature),\n", - " placement=td.StructureStructureInterface(structures=[\"soxbox\", \"contact_bottom\"])\n", + " placement=td.StructureStructureInterface(structures=[\"soxbox\", \"contact_bottom\"]),\n", ")\n", "thermal_bcs = [bc3, bc4, bc3a, bc4a, bc5]" ] @@ -538,15 +561,15 @@ "## Monitors\n", "Monitors are used to record the simulation results at different points in the simulation domain.\n", "\n", - "- `SteadyFreeCarrierMonitor`: Records the steady-state free carrier concentration.\n", - "- `SteadyPotentialMonitor`: Records the steady-state electric potential.\n", - "- `SteadyCapacitanceMonitor`: Records the capacitance of the device.\n", - "- `TemperatureMonitor`: Records the temperature distribution." + "- `SteadyFreeCarrierMonitor`: records the steady-state free carrier concentration.\n", + "- `SteadyPotentialMonitor`: records the steady-state electric potential.\n", + "- `SteadyCapacitanceMonitor`: records the capacitance of the device.\n", + "- `TemperatureMonitor`: records the temperature distribution." ] }, { "cell_type": "code", - "execution_count": 11, + "execution_count": 139, "id": "ef5b3741-f3eb-4a4b-a136-6dd0629389ed", "metadata": {}, "outputs": [], @@ -561,7 +584,10 @@ ")\n", "\n", "capacitance_global_mnt = td.SteadyCapacitanceMonitor(\n", - " center=(0, 0, 0), size=(td.inf, td.inf, td.inf), name=\"capacitance_global_mnt\", unstructured=True\n", + " center=(0, 0, 0),\n", + " size=(td.inf, td.inf, td.inf),\n", + " name=\"capacitance_global_mnt\",\n", + " unstructured=True,\n", ")\n", "\n", "temp_mnt = td.TemperatureMonitor(\n", @@ -578,24 +604,31 @@ "metadata": {}, "source": [ "## Simulation Setup\n", - "- Charge Tolerance: `ChargeToleranceSpec` sets the convergence criteria for the charge solver.\n", - "- Analysis Type: `SteadyChargeDCAnalysis` specifies a steady-state direct current (DC) analysis. The fermi_dirac=True argument indicates that Fermi-Dirac statistics should be used, which is more accurate for heavily doped semiconductors.\n", - "- Grid Specification: `DistanceUnstructuredGrid` is used to create a non-uniform mesh for the simulation. The mesh is refined in specific regions of interest using GridRefinementRegion to improve accuracy where needed, such as near the junctions." + "\n", + "Finally, we instantiate the simulation objects for each different simulation conditions, by setting the following aspects:\n", + "- **Charge Tolerance**: `ChargeToleranceSpec` sets the convergence criteria for the charge solver.\n", + "- **Analysis Type**: `SteadyChargeDCAnalysis` specifies a steady-state direct current (DC) analysis. `IsothermalSteadyChargeDCAnalysis` allows performing the same analysis under a constant temperature.\n", + "- **Grid Specification**: `DistanceUnstructuredGrid` is used to create a non-uniform mesh for the simulation. The mesh is refined in specific regions of interest using GridRefinementRegion to improve accuracy where needed, such as near the junctions.\n", + "\n", + "For `SteadyChargeDCAnalysis`, when `fermi_dirac=False`, the simulation uses Maxwell-Boltzmann statistics to model the distribution of charge carriers. This is a common and effective approximation for semiconductors operating under non-degenerate conditions—that is, when doping concentrations are not excessively high and temperatures are not extremely low. For the device and operating conditions modeled here, Maxwell-Boltzmann provides a sufficiently accurate and computationally efficient result. The `fermi_dirac=True` argument indicates that Fermi-Dirac statistics should be used, which is more accurate for heavily doped semiconductors." ] }, { "cell_type": "code", - "execution_count": 12, + "execution_count": 140, "id": "422a1ff6-f855-4f83-9ede-2161c629d4d7", "metadata": {}, "outputs": [], "source": [ - "charge_tolerance = td.ChargeToleranceSpec(rel_tol=1e-4, abs_tol=1e16, max_iters=400, ramp_up_iters=5)\n", - "analysis_type_iso = td.IsothermalSteadyChargeDCAnalysis(tolerance_settings=charge_tolerance,\n", - " convergence_dv=0.1,\n", - " fermi_dirac=False,\n", - " temperature=300)\n", - "analysis_type = td.SteadyChargeDCAnalysis(tolerance_settings=charge_tolerance,convergence_dv=0.1,fermi_dirac=False)" + "charge_tolerance = td.ChargeToleranceSpec(\n", + " rel_tol=1e-4, abs_tol=1e16, max_iters=400, ramp_up_iters=5\n", + ")\n", + "analysis_type_iso = td.IsothermalSteadyChargeDCAnalysis(\n", + " tolerance_settings=charge_tolerance, convergence_dv=0.1, fermi_dirac=False, temperature=300\n", + ")\n", + "analysis_type = td.SteadyChargeDCAnalysis(\n", + " tolerance_settings=charge_tolerance, convergence_dv=0.1, fermi_dirac=False\n", + ")" ] }, { @@ -603,7 +636,7 @@ "id": "ad6a4d73-d4ff-42b1-92c4-70277fb8a139", "metadata": {}, "source": [ - "Here we can **manually** define the regions that require a finer mesh. This is particularly useful for resolving small features or areas where fields are expected to vary rapidly, without the computational cost of making the entire grid uniformly fine. In particular, an higher refinement is applied\n", + "Here we can **manually** define the regions that require a finer mesh. This is particularly useful for resolving small features or areas where fields are expected to vary rapidly, without the computational cost of making the entire grid uniformly fine. In particular, a higher refinement is applied\n", "- In the region where the doping concentration changes rapidly.\n", "- In the proximity of corners (between the pad and the rib) to address singular fields.\n", "\n", @@ -614,7 +647,7 @@ }, { "cell_type": "code", - "execution_count": 13, + "execution_count": 114, "id": "0dd7233b-6b79-4175-ac5e-80532e315eb4", "metadata": {}, "outputs": [], @@ -673,21 +706,21 @@ "\n", "# Build a grid specification with all these custom refinements\n", "grid_spec = td.DistanceUnstructuredGrid(\n", - " relative_min_dl=0, \n", - " dl_interface=dl, \n", - " dl_bulk=20*dl, \n", - " distance_interface=2*dl, \n", - " distance_bulk=6*dl, \n", - " sampling=1000, \n", - " non_refined_structures=[\"soxbox\"], \n", + " relative_min_dl=0,\n", + " dl_interface=dl,\n", + " dl_bulk=20 * dl,\n", + " distance_interface=2 * dl,\n", + " distance_bulk=6 * dl,\n", + " sampling=1000,\n", + " non_refined_structures=[\"soxbox\"],\n", " uniform_grid_mediums=[\"Si_doping\"],\n", - " mesh_refinements=[ref1, ref2, ref3, ref4, ref5, ref6]\n", + " mesh_refinements=[ref1, ref2, ref3, ref4, ref5, ref6],\n", ")" ] }, { "cell_type": "code", - "execution_count": 14, + "execution_count": 115, "id": "1bd8666d-aaf6-4657-9eeb-754f85515316", "metadata": { "scrolled": true @@ -697,6 +730,7 @@ "sim_center = (0, -0.545, 0)\n", "sim_size = (4.8, 3.5, 0)\n", "\n", + "\n", "def createSim(structures, bcs, analysis_t):\n", " sim = td.HeatChargeSimulation(\n", " medium=air,\n", @@ -706,18 +740,28 @@ " boundary_spec=bcs,\n", " analysis_spec=analysis_t,\n", " monitors=monitors,\n", - " grid_spec=grid_spec\n", + " grid_spec=grid_spec,\n", " )\n", " return sim\n", "\n", + "\n", "sim = createSim(structures, charge_bcs + thermal_bcs, analysis_type)\n", "sim_cst = createSim(structures_cst, charge_bcs + thermal_bcs, analysis_type)\n", "sim_iso = createSim(structures_cst, charge_bcs, analysis_type_iso)" ] }, + { + "cell_type": "markdown", + "id": "7ed0a65d-e52c-4782-bbb3-4461fc786d97", + "metadata": {}, + "source": [ + "## Simulation visualization\n", + "Before running the simulations, we plot the heat and electric conductivities." + ] + }, { "cell_type": "code", - "execution_count": 15, + "execution_count": 86, "id": "eeeb6492-5132-4dbf-bea9-7f25431e57be", "metadata": { "scrolled": true @@ -725,7 +769,7 @@ "outputs": [ { "data": { - "image/png": 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", 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", 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" ] @@ -741,6 +785,14 @@ "plt.tight_layout()" ] }, + { + "cell_type": "markdown", + "id": "c7fb6ab4-c821-42de-97e4-c72c95161689", + "metadata": {}, + "source": [ + "## Running the simulations" + ] + }, { "cell_type": "code", "execution_count": null, @@ -748,58998 +800,75 @@ "metadata": { "scrolled": true }, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m815\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mSetting up heat-charge simulation.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m841\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin meshing heat-charge simulation.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m853\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin adding structures to mesh.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m862\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a single structure:\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m871\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a single structure:\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m880\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a Box.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m889\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a single structure:\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m897\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a Box.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m907\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a single structure:\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m915\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a Box.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m924\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a single structure:\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m932\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a Box.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m940\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a single structure:\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m947\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a Box.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m957\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a single structure:\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m964\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a Box.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m974\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd adding structures to mesh.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m981\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing refinement region.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m991\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd processing refinement region.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:26\u001b[0m.\u001b[1;36m999\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing refinement region.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m008\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd processing refinement region.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m017\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing refinement region.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m026\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd processing refinement region.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m035\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing refinement region.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m044\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd processing refinement region.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m053\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing refinement region.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m062\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd processing refinement region.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m071\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing refinement region.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m080\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd processing refinement region.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m089\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin adding monitors.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m096\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd adding monitors.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m105\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin combining added structures.\u001b[0m \n", - "Debug : BOOL (2,1) other \n", - "Debug : BOOL (3,1) replaced by 1\n", - "Debug : BOOL (3,2) other\n", - "Debug : BOOL (3,3) replaced by 1\n", - "Debug : BOOL (3,4) replaced by 1\n", - "Debug : BOOL (3,5) replaced by 1\n", - "Debug : BOOL (3,6) other\n", - "Debug : BOOL (2,38) other\n", - "Debug : BOOL (2,39) other\n", - "Debug : BOOL (2,40) other\n", - "Debug : BOOL (2,41) other\n", - "Debug : BOOL (2,42) other\n", - "Debug : BOOL (2,43) other\n", - "Debug : BOOL (2,44) other\n", - "Debug : BOOL (2,45) other\n", - "Debug : BOOL (2,46) other\n", - "Debug : BOOL (2,47) other\n", - "Debug : BOOL (2,48) other\n", - "Debug : BOOL (2,49) other\n", - "Debug : BOOL in (2,1) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", - "Debug : BOOL in (3,1) -> out (3,1)\n", - "Debug : BOOL in (3,2) -> out (3,6) (3,5) (3,3) (3,7) (3,8) (3,4) (3,9)\n", - "Debug : BOOL in (3,3) -> out (3,3)\n", - "Debug : BOOL in (3,4) -> out (3,4)\n", - "Debug : BOOL in (3,5) -> out (3,5)\n", - "Debug : BOOL in (3,6) -> out (3,9) (3,8)\n", - "Debug : BOOL in (2,38) -> out (2,13) (2,48) (2,49)\n", - "Debug : BOOL in (2,39) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", - "Debug : BOOL in (2,40) -> out (2,8) (2,51) (2,54)\n", - "Debug : BOOL in (2,41) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", - "Debug : BOOL in (2,42) -> out (2,11) (2,60) (2,37) (2,43)\n", - "Debug : BOOL in (2,43) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", - "Debug : BOOL in (2,44) -> out (2,10) (2,63) (2,44) (2,38)\n", - "Debug : BOOL in (2,45) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", - "Debug : BOOL in (2,46) -> out (2,12) (2,53) (2,36)\n", - "Debug : BOOL in (2,47) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", - "Debug : BOOL in (2,48) -> out (2,9) (2,58) (2,39)\n", - "Debug : BOOL in (2,49) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m194\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd adding structures to mesh.\u001b[0m \n", - "Debug : Syncing OCC_Internals with GModel\n", - "Debug : Sync is removing 377 model entities\n", - "Debug : Destroying 0 entities in model\n", - "Debug : OCCRTree found 3 matches at (-2.5,-2.09,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 3 matches at (-2.5,-2.09,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 3 matches at (-2.5,-2.09,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 3 matches at (-2.5,-2.09,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 3 matches at (-2.5,-2.09,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 3 matches at (-2.5,-2.09,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - 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"Debug : OCCRTree found 2 matches at (0.19,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0.19,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.19,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.19,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.19,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.31,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.31,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.31,-0.095,0) in tree of size 654\n", - 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"Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 8 matches at (-2.4,-2.295,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 8 matches at (-2.4,-2.295,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.29,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.29,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.29,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.4,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.4,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - 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"Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 8 matches at (-2.4,1.205,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 8 matches at (-2.4,1.205,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.47,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.47,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.47,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.47,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.47,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.47,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.47,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.47,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.47,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.47,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.47,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.47,0.55) in tree of size 654\n", - 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"Debug : OCCRTree found 1 matches at (-2.145,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.145,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.4,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.4,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.4,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.345,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.345,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.345,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.29,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.29,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.29,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.4,0.2525,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.4,0.2525,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.4,0.2525,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-1.19,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-1.19,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-1.19,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.345,0.005,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.345,0.005,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.345,0.005,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.29,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.29,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.29,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.145,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.145,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.145,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (1.31,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (1.31,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (1.31,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.31,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.31,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.31,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,0.2525,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,0.2525,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,0.2525,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (1.19,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (1.19,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (1.19,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,1.1025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,1.1025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,1.1025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 8 matches at (0,1.205,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 8 matches at (0,1.205,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 8 matches at (0,1.205,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.4,1.1025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.4,1.1025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.4,1.1025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.19,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.19,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.19,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0.31,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0.31,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0.31,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0.19,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0.19,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0.19,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.47,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.47,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.47,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.28,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.28,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.28,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.28,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.28,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.28,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0,-2.47,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0,-2.47,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0,-2.47,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.47,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.47,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.47,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0,-2.47,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0,-2.47,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0,-2.47,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.28,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.28,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.28,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.28,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.28,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.28,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-0.045,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-0.045,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-0.045,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,0.25,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,0.25,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,0.25,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,0.25,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,0.25,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,0.25,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 7 - new wire\n", - "Debug : Curve 8 (7 --> 8) ori 1\n", - "Debug : Curve 42 (8 --> 34) ori 1\n", - "Debug : Curve 41 (33 --> 34) ori -1\n", - "Debug : Curve 40 (11 --> 33) ori -1\n", - "Debug : Curve 14 (13 --> 11) ori -1\n", - "Debug : Curve 39 (32 --> 13) ori -1\n", - "Debug : Curve 38 (31 --> 32) ori -1\n", - "Debug : Curve 37 (14 --> 31) ori -1\n", - "Debug : Curve 16 (15 --> 14) ori -1\n", - "Debug : Curve 36 (30 --> 15) ori -1\n", - "Debug : Curve 35 (29 --> 30) ori -1\n", - "Debug : Curve 34 (16 --> 29) ori -1\n", - "Debug : Curve 18 (17 --> 16) ori -1\n", - "Debug : Curve 33 (28 --> 17) ori -1\n", - "Debug : Curve 32 (27 --> 28) ori -1\n", - "Debug : Curve 31 (18 --> 27) ori -1\n", - "Debug : Curve 20 (19 --> 18) ori -1\n", - "Debug : Curve 30 (26 --> 19) ori -1\n", - "Debug : Curve 29 (25 --> 26) ori -1\n", - "Debug : Curve 28 (20 --> 25) ori -1\n", - "Debug : Curve 22 (21 --> 20) ori -1\n", - "Debug : Curve 27 (24 --> 21) ori -1\n", - "Debug : Curve 26 (23 --> 24) ori -1\n", - "Debug : Curve 25 (23 --> 7) ori 1\n", - "Debug : OCC surface 7 with 24 parameter bounds (-2.4,2.4)(-1.545,0.455)\n", - "Debug : OCCRTree found 1 matches at (0,-1.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,-1.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,-1.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 8 - new wire\n", - "Debug : Curve 43 (22 --> 23) ori 1\n", - "Debug : Curve 26 (23 --> 24) ori 1\n", - "Debug : Curve 27 (24 --> 21) ori 1\n", - "Debug : Curve 23 (22 --> 21) ori -1\n", - "Debug : OCC surface 8 with 4 parameter bounds (-2.4,-2.29)(0.45,0.455)\n", - "Debug : OCCRTree found 1 matches at (2.345,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.345,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.345,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 9 - new wire\n", - "Debug : Curve 21 (20 --> 19) ori -1\n", - "Debug : Curve 28 (20 --> 25) ori 1\n", - "Debug : Curve 29 (25 --> 26) ori 1\n", - "Debug : Curve 30 (26 --> 19) ori 1\n", - "Debug : OCC surface 9 with 4 parameter bounds (-1.31,-1.19)(0.45,0.455)\n", - "Debug : OCCRTree found 1 matches at (1.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (1.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (1.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 10 - new wire\n", - "Debug : Curve 19 (18 --> 17) ori -1\n", - "Debug : Curve 31 (18 --> 27) ori 1\n", - "Debug : Curve 32 (27 --> 28) ori 1\n", - "Debug : Curve 33 (28 --> 17) ori 1\n", - "Debug : OCC surface 10 with 4 parameter bounds (-0.31,-0.19)(0.45,0.455)\n", - "Debug : OCCRTree found 1 matches at (0.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 11 - new wire\n", - "Debug : Curve 36 (30 --> 15) ori 1\n", - "Debug : Curve 17 (16 --> 15) ori -1\n", - "Debug : Curve 34 (16 --> 29) ori 1\n", - "Debug : Curve 35 (29 --> 30) ori 1\n", - "Debug : OCC surface 11 with 4 parameter bounds (0.19,0.31)(0.45,0.455)\n", - "Debug : OCCRTree found 1 matches at (-0.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-0.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-0.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 12 - new wire\n", - "Debug : Curve 39 (32 --> 13) ori 1\n", - "Debug : Curve 15 (14 --> 13) ori -1\n", - "Debug : Curve 37 (14 --> 31) ori 1\n", - "Debug : Curve 38 (31 --> 32) ori 1\n", - "Debug : OCC surface 12 with 4 parameter bounds (1.19,1.31)(0.45,0.455)\n", - "Debug : OCCRTree found 1 matches at (-1.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-1.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-1.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 13 - new wire\n", - "Debug : Curve 41 (33 --> 34) ori 1\n", - "Debug : Curve 44 (34 --> 12) ori 1\n", - "Debug : Curve 13 (11 --> 12) ori -1\n", - "Debug : Curve 40 (11 --> 33) ori 1\n", - "Debug : OCC surface 13 with 4 parameter bounds (2.29,2.4)(0.45,0.455)\n", - "Debug : OCCRTree found 1 matches at (-2.345,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.345,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.345,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 35 - new wire\n", - "Debug : Curve 93 (70 --> 72) ori 1\n", - "Debug : Curve 118 (72 --> 51) ori 1\n", - "Debug : Curve 62 (50 --> 51) ori -1\n", - "Debug : Curve 117 (50 --> 55) ori 1\n", - "Debug : Curve 68 (55 --> 54) ori 1\n", - "Debug : Curve 70 (56 --> 54) ori -1\n", - "Debug : Curve 74 (56 --> 60) ori 1\n", - "Debug : Curve 116 (84 --> 60) ori -1\n", - "Debug : Curve 115 (83 --> 84) ori -1\n", - "Debug : Curve 114 (59 --> 83) ori -1\n", - "Debug : Curve 72 (59 --> 57) ori 1\n", - "Debug : Curve 113 (82 --> 57) ori -1\n", - "Debug : Curve 112 (62 --> 82) ori -1\n", - "Debug : Curve 77 (62 --> 61) ori 1\n", - "Debug : Curve 80 (61 --> 63) ori 1\n", - "Debug : Curve 82 (65 --> 63) ori -1\n", - "Debug : Curve 111 (81 --> 65) ori -1\n", - "Debug : Curve 110 (69 --> 81) ori -1\n", - "Debug : Curve 86 (69 --> 68) ori 1\n", - "Debug : Curve 109 (80 --> 68) ori -1\n", - "Debug : Curve 108 (79 --> 80) ori -1\n", - "Debug : Curve 107 (66 --> 79) ori -1\n", - "Debug : Curve 84 (66 --> 67) ori 1\n", - "Debug : Curve 90 (67 --> 70) ori 1\n", - "Debug : OCC surface 35 with 24 parameter bounds (-2.4,2.4)(0.545,1.545)\n", - "Debug : OCCRTree found 1 matches at (0,0.5,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,0.5,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,0.5,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 36 - new wire\n", - "Debug : Curve 85 (68 --> 66) ori 1\n", - "Debug : Curve 107 (66 --> 79) ori 1\n", - "Debug : Curve 108 (79 --> 80) ori 1\n", - "Debug : Curve 109 (80 --> 68) ori 1\n", - "Debug : OCC surface 36 with 4 parameter bounds (1.19,1.31)(0.545,0.55)\n", - "Debug : OCCRTree found 1 matches at (-1.25,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-1.25,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-1.25,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 37 - new wire\n", - "Debug : Curve 87 (64 --> 69) ori 1\n", - "Debug : Curve 110 (69 --> 81) ori 1\n", - "Debug : Curve 111 (81 --> 65) ori 1\n", - "Debug : Curve 83 (64 --> 65) ori -1\n", - "Debug : OCC surface 37 with 4 parameter bounds (0.25,0.31)(0.545,0.55)\n", - "Debug : OCCRTree found 1 matches at (-0.28,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-0.28,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-0.28,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 38 - new wire\n", - "Debug : Curve 113 (82 --> 57) ori 1\n", - "Debug : Curve 71 (57 --> 58) ori 1\n", - "Debug : Curve 78 (58 --> 62) ori 1\n", - "Debug : Curve 112 (62 --> 82) ori 1\n", - "Debug : OCC surface 38 with 4 parameter bounds (-0.31,-0.25)(0.545,0.55)\n", - "Debug : OCCRTree found 1 matches at (0.28,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0.28,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0.28,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 39 - new wire\n", - "Debug : Curve 116 (84 --> 60) ori 1\n", - "Debug : Curve 73 (60 --> 59) ori 1\n", - "Debug : Curve 114 (59 --> 83) ori 1\n", - "Debug : Curve 115 (83 --> 84) ori 1\n", - "Debug : OCC surface 39 with 4 parameter bounds (-1.31,-1.19)(0.545,0.55)\n", - "Debug : OCCRTree found 1 matches at (1.25,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (1.25,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (1.25,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 42 - new wire\n", - "Debug : Curve 121 (86 --> 85) ori 1\n", - "Debug : Curve 126 (88 --> 85) ori -1\n", - "Debug : Curve 125 (65 --> 88) ori -1\n", - "Debug : Curve 82 (65 --> 63) ori 1\n", - "Debug : Curve 80 (61 --> 63) ori -1\n", - "Debug : Curve 77 (62 --> 61) ori -1\n", - "Debug : Curve 124 (87 --> 62) ori -1\n", - "Debug : Curve 123 (86 --> 87) ori -1\n", - "Debug : OCC surface 42 with 8 parameter bounds (-0.25,0.25)(0.545,0.765)\n", - "Debug : OCCRTree found 1 matches at (0,0.11,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,0.11,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,0.11,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 43 - new wire\n", - "Debug : Curve 120 (85 --> 64) ori 1\n", - "Debug : Curve 83 (64 --> 65) ori 1\n", - "Debug : Curve 125 (65 --> 88) ori 1\n", - "Debug : Curve 126 (88 --> 85) ori 1\n", - "Debug : OCC surface 43 with 4 parameter bounds (0.19,0.25)(0.545,0.55)\n", - "Debug : OCCRTree found 1 matches at (-0.22,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-0.22,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-0.22,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 44 - new wire\n", - "Debug : Curve 122 (58 --> 86) ori 1\n", - "Debug : Curve 123 (86 --> 87) ori 1\n", - "Debug : Curve 124 (87 --> 62) ori 1\n", - "Debug : Curve 78 (58 --> 62) ori -1\n", - "Debug : OCC surface 44 with 4 parameter bounds (-0.25,-0.19)(0.545,0.55)\n", - "Debug : OCCRTree found 1 matches at (0.22,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0.22,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0.22,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 47 - new wire\n", - "Debug : Curve 128 (89 --> 90) ori 1\n", - "Debug : Curve 130 (90 --> 8) ori 1\n", - "Debug : Curve 8 (7 --> 8) ori -1\n", - "Debug : Curve 129 (7 --> 89) ori 1\n", - "Debug : OCC surface 47 with 4 parameter bounds (-2.4,2.4)(-1.75,-1.545)\n", - "Debug : OCCRTree found 1 matches at (0,-2.1925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,-2.1925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,-2.1925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 48 - new wire\n", - "Debug : Curve 13 (11 --> 12) ori 1\n", - "Debug : Curve 133 (12 --> 92) ori 1\n", - "Debug : Curve 132 (91 --> 92) ori -1\n", - "Debug : Curve 131 (91 --> 11) ori 1\n", - "Debug : OCC surface 48 with 4 parameter bounds (2.29,2.4)(0.455,0.545)\n", - "Debug : OCCRTree found 2 matches at (-2.345,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.345,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.345,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 49 - new wire\n", - "Debug : Curve 132 (91 --> 92) ori 1\n", - "Debug : Curve 136 (92 --> 94) ori 1\n", - "Debug : Curve 135 (94 --> 93) ori 1\n", - "Debug : Curve 134 (93 --> 91) ori 1\n", - "Debug : OCC surface 49 with 4 parameter bounds (2.29,2.4)(0.545,0.55)\n", - "Debug : OCCRTree found 1 matches at (-2.345,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.345,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.345,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 50 - new wire\n", - "Debug : Curve 14 (13 --> 11) ori 1\n", - "Debug : Curve 131 (91 --> 11) ori -1\n", - "Debug : Curve 138 (67 --> 91) ori -1\n", - "Debug : Curve 84 (66 --> 67) ori -1\n", - "Debug : Curve 137 (13 --> 66) ori -1\n", - "Debug : OCC surface 50 with 5 parameter bounds (1.31,2.29)(0.455,0.545)\n", - "Debug : OCCRTree found 1 matches at (-1.8,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-1.8,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-1.8,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 51 - new wire\n", - "Debug : Curve 139 (95 --> 22) ori 1\n", - "Debug : Curve 23 (22 --> 21) ori 1\n", - "Debug : Curve 141 (21 --> 96) ori 1\n", - "Debug : Curve 140 (95 --> 96) ori -1\n", - "Debug : OCC surface 51 with 4 parameter bounds (-2.4,-2.29)(0.455,0.545)\n", - "Debug : OCCRTree found 2 matches at (2.345,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.345,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.345,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 52 - new wire\n", - "Debug : Curve 135 (94 --> 93) ori -1\n", - "Debug : Curve 142 (94 --> 72) ori 1\n", - "Debug : Curve 93 (70 --> 72) ori -1\n", - "Debug : Curve 90 (67 --> 70) ori -1\n", - "Debug : Curve 138 (67 --> 91) ori 1\n", - "Debug : Curve 134 (93 --> 91) ori -1\n", - "Debug : OCC surface 52 with 6 parameter bounds (2,2.4)(0.545,1.045)\n", - "Debug : OCCRTree found 1 matches at (-2.2,0.25,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.2,0.25,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.2,0.25,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 53 - new wire\n", - "Debug : Curve 15 (14 --> 13) ori 1\n", - "Debug : Curve 137 (13 --> 66) ori 1\n", - "Debug : Curve 85 (68 --> 66) ori -1\n", - "Debug : Curve 143 (68 --> 14) ori 1\n", - "Debug : OCC surface 53 with 4 parameter bounds (1.19,1.31)(0.455,0.545)\n", - "Debug : OCCRTree found 2 matches at (-1.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-1.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-1.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 54 - new wire\n", - "Debug : Curve 144 (97 --> 95) ori 1\n", - "Debug : Curve 140 (95 --> 96) ori 1\n", - "Debug : Curve 146 (96 --> 98) ori 1\n", - "Debug : Curve 145 (98 --> 97) ori 1\n", - "Debug : OCC surface 54 with 4 parameter bounds (-2.4,-2.29)(0.545,0.55)\n", - "Debug : OCCRTree found 1 matches at (2.345,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.345,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.345,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 55 - new wire\n", - "Debug : Curve 141 (21 --> 96) ori -1\n", - "Debug : Curve 22 (21 --> 20) ori 1\n", - "Debug : Curve 148 (60 --> 20) ori -1\n", - "Debug : Curve 74 (56 --> 60) ori -1\n", - "Debug : Curve 147 (96 --> 56) ori -1\n", - "Debug : OCC surface 55 with 5 parameter bounds (-2.29,-1.31)(0.455,0.545)\n", - "Debug : OCCRTree found 1 matches at (1.8,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (1.8,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (1.8,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 56 - new wire\n", - "Debug : Curve 16 (15 --> 14) ori 1\n", - "Debug : Curve 143 (68 --> 14) ori -1\n", - "Debug : Curve 86 (69 --> 68) ori -1\n", - "Debug : Curve 149 (15 --> 69) ori -1\n", - "Debug : OCC surface 56 with 4 parameter bounds (0.31,1.19)(0.455,0.545)\n", - "Debug : OCCRTree found 1 matches at (-0.75,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-0.75,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-0.75,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 57 - new wire\n", - "Debug : Curve 150 (55 --> 97) ori 1\n", - "Debug : Curve 145 (98 --> 97) ori -1\n", - "Debug : Curve 146 (96 --> 98) ori -1\n", - "Debug : Curve 147 (96 --> 56) ori 1\n", - "Debug : Curve 70 (56 --> 54) ori 1\n", - "Debug : Curve 68 (55 --> 54) ori -1\n", - "Debug : OCC surface 57 with 6 parameter bounds (-2.4,-2)(0.545,1.045)\n", - "Debug : OCCRTree found 1 matches at (2.2,0.25,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.2,0.25,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.2,0.25,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 58 - new wire\n", - "Debug : Curve 148 (60 --> 20) ori 1\n", - "Debug : Curve 21 (20 --> 19) ori 1\n", - "Debug : Curve 151 (19 --> 59) ori 1\n", - "Debug : Curve 73 (60 --> 59) ori -1\n", - "Debug : OCC surface 58 with 4 parameter bounds (-1.31,-1.19)(0.455,0.545)\n", - "Debug : OCCRTree found 2 matches at (1.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (1.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (1.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 59 - new wire\n", - "Debug : Curve 62 (50 --> 51) ori 1\n", - "Debug : Curve 154 (51 --> 100) ori 1\n", - "Debug : Curve 153 (100 --> 99) ori 1\n", - "Debug : Curve 152 (99 --> 50) ori 1\n", - "Debug : OCC surface 59 with 4 parameter bounds (-2.4,2.4)(1.545,1.75)\n", - "Debug : OCCRTree found 1 matches at (0,1.1025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,1.1025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,1.1025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 60 - new wire\n", - "Debug : Curve 17 (16 --> 15) ori 1\n", - "Debug : Curve 149 (15 --> 69) ori 1\n", - "Debug : Curve 87 (64 --> 69) ori -1\n", - "Debug : Curve 120 (85 --> 64) ori -1\n", - "Debug : Curve 155 (85 --> 16) ori 1\n", - "Debug : OCC surface 60 with 5 parameter bounds (0.19,0.31)(0.455,0.545)\n", - "Debug : OCCRTree found 2 matches at (-0.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 61 - new wire\n", - "Debug : Curve 151 (19 --> 59) ori -1\n", - "Debug : Curve 20 (19 --> 18) ori 1\n", - "Debug : Curve 156 (57 --> 18) ori -1\n", - "Debug : Curve 72 (59 --> 57) ori -1\n", - "Debug : OCC surface 61 with 4 parameter bounds (-1.19,-0.31)(0.455,0.545)\n", - "Debug : OCCRTree found 1 matches at (0.75,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0.75,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0.75,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 62 - new wire\n", - "Debug : Curve 18 (17 --> 16) ori 1\n", - "Debug : Curve 155 (85 --> 16) ori -1\n", - "Debug : Curve 121 (86 --> 85) ori -1\n", - "Debug : Curve 157 (17 --> 86) ori -1\n", - "Debug : OCC surface 62 with 4 parameter bounds (-0.19,0.19)(0.455,0.545)\n", - "Debug : OCCRTree found 1 matches at (0,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 63 - new wire\n", - "Debug : Curve 156 (57 --> 18) ori 1\n", - "Debug : Curve 19 (18 --> 17) ori 1\n", - "Debug : Curve 157 (17 --> 86) ori 1\n", - "Debug : Curve 122 (58 --> 86) ori -1\n", - "Debug : Curve 71 (57 --> 58) ori -1\n", - "Debug : OCC surface 63 with 5 parameter bounds (-0.31,-0.19)(0.455,0.545)\n", - "Debug : OCCRTree found 2 matches at (0.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : GModel imported:\n", - "Debug : 81 points\n", - "Debug : 110 curves\n", - "Debug : 32 surfaces\n", - "Debug : 0 volumes\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m212\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin constructing surface dictionary.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m226\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd constructing surface dictionary.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m236\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin create volume zones.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m247\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd create volume zones.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m257\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin create surface zones.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m273\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mContinue create surface zones.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m300\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd create surface zones.\u001b[0m \n", - "Debug : Decoded option name 'Mesh' . 'MeshSizeExtendFromBoundary' (index 0)\n", - "Debug : Decoded option name 'Mesh' . 'MeshSizeFromPoints' (index 0)\n", - "Debug : Decoded option name 'Mesh' . 'MeshSizeFromCurvature' (index 0)\n", - "Debug : Destroying 28 entities in model\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m324\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin meshing.\u001b[0m \n", - "Debug : Decoded option name 'Mesh' . 'Algorithm' (index 0)\n", - "Debug : Decoded option name 'Mesh' . 'Algorithm3D' (index 0)\n", - "Debug : Decoded option name 'General' . 'NumThreads' (index 0)\n", - "Info : Meshing 1D...\n", - "Info : [ 0%] Meshing curve 8 (Line)\n", - "Debug : Meshing curve 8 (Line): 9 interior vertices\n", - "Info : [ 10%] Meshing curve 13 (Line)\n", - "Debug : Meshing curve 13 (Line): 26 interior vertices\n", - "Info : [ 10%] Meshing curve 14 (Line)\n", - "Debug : Meshing curve 14 (Line): 44 interior vertices\n", - "Info : [ 10%] Meshing curve 15 (Line)\n", - "Debug : Meshing curve 15 (Line): 28 interior vertices\n", - "Info : [ 10%] Meshing curve 16 (Line)\n", - "Debug : Meshing curve 16 (Line): 40 interior vertices\n", - "Info : [ 10%] Meshing curve 17 (Line)\n", - "Debug : Meshing curve 17 (Line): 28 interior vertices\n", - "Info : [ 10%] Meshing curve 18 (Line)\n", - "Debug : Meshing curve 18 (Line): 20 interior vertices\n", - "Info : [ 10%] Meshing curve 19 (Line)\n", - "Debug : Meshing curve 19 (Line): 28 interior vertices\n", - "Info : [ 10%] Meshing curve 20 (Line)\n", - "Debug : Meshing curve 20 (Line): 40 interior vertices\n", - "Info : [ 10%] Meshing curve 21 (Line)\n", - "Debug : Meshing curve 21 (Line): 28 interior vertices\n", - "Info : [ 20%] Meshing curve 22 (Line)\n", - "Debug : Meshing curve 22 (Line): 44 interior vertices\n", - "Info : [ 20%] Meshing curve 23 (Line)\n", - "Debug : Meshing curve 23 (Line): 26 interior vertices\n", - "Info : [ 20%] Meshing curve 25 (Line)\n", - "Debug : Meshing curve 25 (Line): 15 interior vertices\n", - "Info : [ 20%] Meshing curve 26 (Line)\n", - "Debug : Meshing curve 26 (Line): 26 interior vertices\n", - "Info : [ 20%] Meshing curve 27 (Line)\n", - "Debug : Meshing curve 27 (Line): 1 interior vertices\n", - "Info : [ 20%] Meshing curve 28 (Line)\n", - "Debug : Meshing curve 28 (Line): 1 interior vertices\n", - "Info : [ 20%] Meshing curve 29 (Line)\n", - "Debug : Meshing curve 29 (Line): 28 interior vertices\n", - "Info : [ 20%] Meshing curve 30 (Line)\n", - "Debug : Meshing curve 30 (Line): 1 interior vertices\n", - "Info : [ 20%] Meshing curve 31 (Line)\n", - "Debug : Meshing curve 31 (Line): 1 interior vertices\n", - "Info : [ 20%] Meshing curve 32 (Line)\n", - "Debug : Meshing curve 32 (Line): 28 interior vertices\n", - "Info : [ 30%] Meshing curve 33 (Line)\n", - "Debug : Meshing curve 33 (Line): 1 interior vertices\n", - "Info : [ 30%] Meshing curve 34 (Line)\n", - "Debug : Meshing curve 34 (Line): 1 interior vertices\n", - "Info : [ 30%] Meshing curve 35 (Line)\n", - "Debug : Meshing curve 35 (Line): 28 interior vertices\n", - "Info : [ 30%] Meshing curve 36 (Line)\n", - "Debug : Meshing curve 36 (Line): 1 interior vertices\n", - "Info : [ 30%] Meshing curve 37 (Line)\n", - "Debug : Meshing curve 37 (Line): 1 interior vertices\n", - "Info : [ 30%] Meshing curve 38 (Line)\n", - "Debug : Meshing curve 38 (Line): 28 interior vertices\n", - "Info : [ 30%] Meshing curve 39 (Line)\n", - "Debug : Meshing curve 39 (Line): 1 interior vertices\n", - "Info : [ 30%] Meshing curve 40 (Line)\n", - "Debug : Meshing curve 40 (Line): 1 interior vertices\n", - "Info : [ 30%] Meshing curve 41 (Line)\n", - "Debug : Meshing curve 41 (Line): 26 interior vertices\n", - "Info : [ 40%] Meshing curve 42 (Line)\n", - "Debug : Meshing curve 42 (Line): 15 interior vertices\n", - "Info : [ 40%] Meshing curve 43 (Line)\n", - "Debug : Meshing curve 43 (Line): 1 interior vertices\n", - "Info : [ 40%] Meshing curve 44 (Line)\n", - "Debug : Meshing curve 44 (Line): 1 interior vertices\n", - "Info : [ 40%] Meshing curve 62 (Line)\n", - "Debug : Meshing curve 62 (Line): 9 interior vertices\n", - "Info : [ 40%] Meshing curve 68 (Line)\n", - "Debug : Meshing curve 68 (Line): 0 interior vertices\n", - "Info : [ 40%] Meshing curve 70 (Line)\n", - "Debug : Meshing curve 70 (Line): 4 interior vertices\n", - "Info : [ 40%] Meshing curve 71 (Line)\n", - "Debug : Meshing curve 71 (Line): 14 interior vertices\n", - "Info : [ 40%] Meshing curve 72 (Line)\n", - "Debug : Meshing curve 72 (Line): 40 interior vertices\n", - "Info : [ 40%] Meshing curve 73 (Line)\n", - "Debug : Meshing curve 73 (Line): 28 interior vertices\n", - "Info : [ 40%] Meshing curve 74 (Line)\n", - "Debug : Meshing curve 74 (Line): 30 interior vertices\n", - "Info : [ 50%] Meshing curve 77 (Line)\n", - "Debug : Meshing curve 77 (Line): 11 interior vertices\n", - "Info : [ 50%] Meshing curve 78 (Line)\n", - "Debug : Meshing curve 78 (Line): 1 interior vertices\n", - "Info : [ 50%] Meshing curve 80 (Line)\n", - "Debug : Meshing curve 80 (Line): 19 interior vertices\n", - "Info : [ 50%] Meshing curve 82 (Line)\n", - "Debug : Meshing curve 82 (Line): 11 interior vertices\n", - "Info : [ 50%] Meshing curve 83 (Line)\n", - "Debug : Meshing curve 83 (Line): 1 interior vertices\n", - "Info : [ 50%] Meshing curve 84 (Line)\n", - "Debug : Meshing curve 84 (Line): 30 interior vertices\n", - "Info : [ 50%] Meshing curve 85 (Line)\n", - "Debug : Meshing curve 85 (Line): 28 interior vertices\n", - "Info : [ 50%] Meshing curve 86 (Line)\n", - "Debug : Meshing curve 86 (Line): 40 interior vertices\n", - "Info : [ 50%] Meshing curve 87 (Line)\n", - "Debug : Meshing curve 87 (Line): 14 interior vertices\n", - "Info : [ 60%] Meshing curve 90 (Line)\n", - "Debug : Meshing curve 90 (Line): 4 interior vertices\n", - "Info : [ 60%] Meshing curve 93 (Line)\n", - "Debug : Meshing curve 93 (Line): 0 interior vertices\n", - "Info : [ 60%] Meshing curve 107 (Line)\n", - "Debug : Meshing curve 107 (Line): 1 interior vertices\n", - "Info : [ 60%] Meshing curve 108 (Line)\n", - "Debug : Meshing curve 108 (Line): 28 interior vertices\n", - "Info : [ 60%] Meshing curve 109 (Line)\n", - "Debug : Meshing curve 109 (Line): 1 interior vertices\n", - "Info : [ 60%] Meshing curve 110 (Line)\n", - "Debug : Meshing curve 110 (Line): 1 interior vertices\n", - "Info : [ 60%] Meshing curve 111 (Line)\n", - "Debug : Meshing curve 111 (Line): 14 interior vertices\n", - "Info : [ 60%] Meshing curve 112 (Line)\n", - "Debug : Meshing curve 112 (Line): 14 interior vertices\n", - "Info : [ 60%] Meshing curve 113 (Line)\n", - "Debug : Meshing curve 113 (Line): 1 interior vertices\n", - "Info : [ 60%] Meshing curve 114 (Line)\n", - "Debug : Meshing curve 114 (Line): 1 interior vertices\n", - "Info : [ 70%] Meshing curve 115 (Line)\n", - "Debug : Meshing curve 115 (Line): 28 interior vertices\n", - "Info : [ 70%] Meshing curve 116 (Line)\n", - "Debug : Meshing curve 116 (Line): 1 interior vertices\n", - "Info : [ 70%] Meshing curve 117 (Line)\n", - "Debug : Meshing curve 117 (Line): 0 interior vertices\n", - "Info : [ 70%] Meshing curve 118 (Line)\n", - "Debug : Meshing curve 118 (Line): 0 interior vertices\n", - "Info : [ 70%] Meshing curve 120 (Line)\n", - "Debug : Meshing curve 120 (Line): 14 interior vertices\n", - "Info : [ 70%] Meshing curve 121 (Line)\n", - "Debug : Meshing curve 121 (Line): 20 interior vertices\n", - "Info : [ 70%] Meshing curve 122 (Line)\n", - "Debug : Meshing curve 122 (Line): 14 interior vertices\n", - "Info : [ 70%] Meshing curve 123 (Line)\n", - "Debug : Meshing curve 123 (Line): 1 interior vertices\n", - "Info : [ 70%] Meshing curve 124 (Line)\n", - "Debug : Meshing curve 124 (Line): 14 interior vertices\n", - "Info : [ 70%] Meshing curve 125 (Line)\n", - "Debug : Meshing curve 125 (Line): 14 interior vertices\n", - "Info : [ 80%] Meshing curve 126 (Line)\n", - "Debug : Meshing curve 126 (Line): 1 interior vertices\n", - "Info : [ 80%] Meshing curve 131 (Line)\n", - "Debug : Meshing curve 131 (Line): 21 interior vertices\n", - "Info : [ 80%] Meshing curve 132 (Line)\n", - "Debug : Meshing curve 132 (Line): 26 interior vertices\n", - "Info : [ 80%] Meshing curve 133 (Line)\n", - "Debug : Meshing curve 133 (Line): 21 interior vertices\n", - "Info : [ 80%] Meshing curve 137 (Line)\n", - "Debug : Meshing curve 137 (Line): 21 interior vertices\n", - "Info : [ 80%] Meshing curve 138 (Line)\n", - "Debug : Meshing curve 138 (Line): 14 interior vertices\n", - "Info : [ 80%] Meshing curve 139 (Line)\n", - "Debug : Meshing curve 139 (Line): 21 interior vertices\n", - "Info : [ 80%] Meshing curve 140 (Line)\n", - "Debug : Meshing curve 140 (Line): 26 interior vertices\n", - "Info : [ 80%] Meshing curve 141 (Line)\n", - "Debug : Meshing curve 141 (Line): 21 interior vertices\n", - "Info : [ 90%] Meshing curve 143 (Line)\n", - "Debug : Meshing curve 143 (Line): 21 interior vertices\n", - "Info : [ 90%] Meshing curve 147 (Line)\n", - "Debug : Meshing curve 147 (Line): 14 interior vertices\n", - "Info : [ 90%] Meshing curve 148 (Line)\n", - "Debug : Meshing curve 148 (Line): 21 interior vertices\n", - "Info : [ 90%] Meshing curve 149 (Line)\n", - "Debug : Meshing curve 149 (Line): 21 interior vertices\n", - "Info : [ 90%] Meshing curve 151 (Line)\n", - "Debug : Meshing curve 151 (Line): 21 interior vertices\n", - "Info : [ 90%] Meshing curve 155 (Line)\n", - "Debug : Meshing curve 155 (Line): 21 interior vertices\n", - "Info : [ 90%] Meshing curve 156 (Line)\n", - "Debug : Meshing curve 156 (Line): 21 interior vertices\n", - "Info : [ 90%] Meshing curve 157 (Line)\n", - "Debug : Meshing curve 157 (Line): 21 interior vertices\n", - "Info : [ 90%] Meshing curve 158 (Line)\n", - "Debug : Meshing curve 158 (Line): 2 interior vertices\n", - "Info : [ 90%] Meshing curve 159 (Line)\n", - "Debug : Meshing curve 159 (Line): 0 interior vertices\n", - "Info : [100%] Meshing curve 160 (Line)\n", - "Debug : Meshing curve 160 (Line): 0 interior vertices\n", - "Info : [100%] Meshing curve 161 (Line)\n", - "Debug : Meshing curve 161 (Line): 9 interior vertices\n", - "Info : [100%] Meshing curve 162 (Line)\n", - "Debug : Meshing curve 162 (Line): 2 interior vertices\n", - "Info : [100%] Meshing curve 163 (Line)\n", - "Debug : Meshing curve 163 (Line): 9 interior vertices\n", - "Info : [100%] Meshing curve 164 (Line)\n", - "Debug : Meshing curve 164 (Line): 0 interior vertices\n", - "Info : [100%] Meshing curve 165 (Line)\n", - "Debug : Meshing curve 165 (Line): 0 interior vertices\n", - "Info : [100%] Meshing curve 171 (Line)\n", - "Debug : Meshing curve 171 (Line): 0 interior vertices\n", - "Info : [100%] Meshing curve 178 (Line)\n", - "Debug : Meshing curve 178 (Line): 0 interior vertices\n", - "Info : [100%] Meshing curve 179 (Line)\n", - "Debug : Meshing curve 179 (Line): 0 interior vertices\n", - "Info : Done meshing 1D (Wall 0.0617277s, CPU 0.064583s)\n", - "Info : Meshing 2D...\n", - "Info : [ 0%] Meshing surface 7 (Plane, Delaunay)\n", - "Debug : Recovering 24 model edges\n", - "Debug : Recovering 425 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 7\n", - "Debug : Computing mesh size field at mesh nodes 425\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 425 points created -- Worst tri radius is 47.689\n", - "Debug : Point -2.28753 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point 2.28753 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.31247 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.31247 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.312471 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point 0.312471 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.18753 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.18753 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point 0.187542 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.187542 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 2011 triangles generated, 794 internal nodes\n", - "Info : [ 10%] Meshing surface 8 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 58 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 8\n", - "Debug : Computing mesh size field at mesh nodes 58\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 58 points created -- Worst tri radius is 0.792\n", - "Debug : Point -2.39796 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : Point -2.39796 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point -2.29204 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point -2.29204 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 110 triangles generated, 27 internal nodes\n", - "Info : [ 10%] Meshing surface 9 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 62 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 9\n", - "Debug : Computing mesh size field at mesh nodes 62\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 62 points created -- Worst tri radius is 0.794\n", - "Debug : Point -1.19207 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.30793 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.30793 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.19207 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.30718 0.4525 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.19282 0.4525 cannot be inserted because it is too close to another point)\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 114 triangles generated, 27 internal nodes\n", - "Info : [ 20%] Meshing surface 10 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 62 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 10\n", - "Debug : Computing mesh size field at mesh nodes 62\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 62 points created -- Worst tri radius is 0.794\n", - "Debug : Point -0.307931 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.192069 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.192069 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.307931 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.192824 0.4525 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.307176 0.4525 cannot be inserted because it is too close to another point)\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 114 triangles generated, 27 internal nodes\n", - "Info : [ 20%] Meshing surface 11 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 62 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 11\n", - "Debug : Computing mesh size field at mesh nodes 62\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 62 points created -- Worst tri radius is 0.794\n", - "Debug : Point 0.307931 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point 0.192069 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : Point 0.307931 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : Point 0.192069 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point 0.192824 0.4525 cannot be inserted because it is too close to another point)\n", - "Debug : Point 0.307176 0.4525 cannot be inserted because it is too close to another point)\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 114 triangles generated, 27 internal nodes\n", - "Info : [ 20%] Meshing surface 12 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 62 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 12\n", - "Debug : Computing mesh size field at mesh nodes 62\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 62 points created -- Worst tri radius is 0.794\n", - "Debug : Point 1.30793 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.19207 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.19207 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.30793 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.19282 0.4525 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.30718 0.4525 cannot be inserted because it is too close to another point)\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 114 triangles generated, 27 internal nodes\n", - "Info : [ 30%] Meshing surface 13 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 58 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 13\n", - "Debug : Computing mesh size field at mesh nodes 58\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 58 points created -- Worst tri radius is 0.792\n", - "Debug : Point 2.39796 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : Point 2.39796 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point 2.29204 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point 2.29204 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 110 triangles generated, 27 internal nodes\n", - "Info : [ 30%] Meshing surface 35 (Plane, Delaunay)\n", - "Debug : Recovering 24 model edges\n", - "Debug : Recovering 312 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 35\n", - "Debug : Computing mesh size field at mesh nodes 312\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 312 points created -- Worst tri radius is 28.183\n", - "Debug : Point 0.278471 0.753119 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.278471 0.753119 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.92425 0.599632 cannot be inserted because it is too close to another point)\n", - "Debug : Point 0.92425 0.599632 cannot be inserted because it is too close to another point)\n", - "Debug : Point 0.974031 0.599626 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.974031 0.599626 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.0236 0.600088 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.0236 0.600088 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.79154 0.598819 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.74272 0.599332 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.79154 0.598819 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.74272 0.599332 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.90192 0.601289 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.90192 0.601289 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.312471 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : Point 0.312471 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.18753 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.18753 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.31243 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.31243 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.268545 0.773526 cannot be inserted because it is too close to another point)\n", - "Debug : Point 0.268545 0.773526 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.60759 0.590312 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.60759 0.590312 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.97768 0.604631 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.97768 0.604631 cannot be inserted because it is too close to another point)\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 1284 triangles generated, 487 internal nodes\n", - "Info : [ 40%] Meshing surface 36 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 62 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 36\n", - "Debug : Computing mesh size field at mesh nodes 62\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 62 points created -- Worst tri radius is 0.794\n", - "Debug : Point 1.19207 0.54875 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.19207 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.30793 0.54875 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.30793 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.19282 0.5475 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.30718 0.5475 cannot be inserted because it is too close to another point)\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 114 triangles generated, 27 internal nodes\n", - "Info : [ 40%] Meshing surface 37 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 34 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 37\n", - "Debug : Computing mesh size field at mesh nodes 34\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 34 points created -- Worst tri radius is 0.800\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 62 triangles generated, 15 internal nodes\n", - "Info : [ 40%] Meshing surface 38 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 34 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 38\n", - "Debug : Computing mesh size field at mesh nodes 34\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 34 points created -- Worst tri radius is 0.800\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 62 triangles generated, 15 internal nodes\n", - "Info : [ 50%] Meshing surface 39 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 62 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 39\n", - "Debug : Computing mesh size field at mesh nodes 62\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 62 points created -- Worst tri radius is 0.794\n", - "Debug : Point -1.30793 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.19207 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.30793 0.54875 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.19207 0.54875 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.19282 0.5475 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.30718 0.5475 cannot be inserted because it is too close to another point)\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 114 triangles generated, 27 internal nodes\n", - "Info : [ 50%] Meshing surface 42 (Plane, Delaunay)\n", - "Debug : Recovering 8 model edges\n", - "Debug : Recovering 99 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 42\n", - "Debug : Computing mesh size field at mesh nodes 99\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 99 points created -- Worst tri radius is 9.102\n", - "Debug : Point 0.187542 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.187542 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 617 triangles generated, 260 internal nodes\n", - "Info : [ 60%] Meshing surface 43 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 34 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 43\n", - "Debug : Computing mesh size field at mesh nodes 34\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 34 points created -- Worst tri radius is 0.800\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 62 triangles generated, 15 internal nodes\n", - "Info : [ 60%] Meshing surface 44 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 34 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 44\n", - "Debug : Computing mesh size field at mesh nodes 34\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 34 points created -- Worst tri radius is 0.800\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 62 triangles generated, 15 internal nodes\n", - "Info : [ 60%] Meshing surface 48 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 98 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 48\n", - "Debug : Computing mesh size field at mesh nodes 98\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 98 points created -- Worst tri radius is 11.057\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 1502 triangles generated, 703 internal nodes\n", - "Info : [ 70%] Meshing surface 50 (Plane, Delaunay)\n", - "Debug : Recovering 5 model edges\n", - "Debug : Recovering 135 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 50\n", - "Debug : Computing mesh size field at mesh nodes 135\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 135 points created -- Worst tri radius is 5.960\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 539 triangles generated, 203 internal nodes\n", - "Info : [ 70%] Meshing surface 51 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 98 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 51\n", - "Debug : Computing mesh size field at mesh nodes 98\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 98 points created -- Worst tri radius is 11.057\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 1516 triangles generated, 710 internal nodes\n", - "Info : [ 70%] Meshing surface 53 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 102 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 53\n", - "Debug : Computing mesh size field at mesh nodes 102\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 102 points created -- Worst tri radius is 10.917\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 1620 triangles generated, 760 internal nodes\n", - "Info : [ 80%] Meshing surface 55 (Plane, Delaunay)\n", - "Debug : Recovering 5 model edges\n", - "Debug : Recovering 135 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 55\n", - "Debug : Computing mesh size field at mesh nodes 135\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 135 points created -- Worst tri radius is 5.960\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 539 triangles generated, 203 internal nodes\n", - "Info : [ 80%] Meshing surface 56 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 126 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 56\n", - "Debug : Computing mesh size field at mesh nodes 126\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 126 points created -- Worst tri radius is 5.990\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 486 triangles generated, 181 internal nodes\n", - "Info : [ 90%] Meshing surface 58 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 102 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 58\n", - "Debug : Computing mesh size field at mesh nodes 102\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 102 points created -- Worst tri radius is 10.917\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 1612 triangles generated, 756 internal nodes\n", - "Info : [ 90%] Meshing surface 60 (Plane, Delaunay)\n", - "Debug : Recovering 5 model edges\n", - "Debug : Recovering 103 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 60\n", - "Debug : Computing mesh size field at mesh nodes 103\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 103 points created -- Worst tri radius is 11.128\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 1627 triangles generated, 763 internal nodes\n", - "Info : [ 90%] Meshing surface 61 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 126 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 61\n", - "Debug : Computing mesh size field at mesh nodes 126\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 126 points created -- Worst tri radius is 5.990\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 494 triangles generated, 185 internal nodes\n", - "Info : [100%] Meshing surface 62 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 86 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 62\n", - "Debug : Computing mesh size field at mesh nodes 86\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 86 points created -- Worst tri radius is 6.043\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 326 triangles generated, 121 internal nodes\n", - "Info : [100%] Meshing surface 63 (Plane, Delaunay)\n", - "Debug : Recovering 5 model edges\n", - "Debug : Recovering 103 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 63\n", - "Debug : Computing mesh size field at mesh nodes 103\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 103 points created -- Worst tri radius is 11.128\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 1613 triangles generated, 756 internal nodes\n", - "Info : Done meshing 2D (Wall 0.152024s, CPU 0.158448s)\n", - "Info : 8604 nodes 18480 elements\n", - "Debug : Minimum mesh quality (ICN) = 0.348727\n", - "Debug : Renumbering for potentially partial mesh save\n", - "Info : Removing duplicate mesh elements...\n", - "Info : Done removing duplicate mesh elements\n", - "Info : Removing duplicate mesh nodes...\n", - "Info : Found 0 duplicate nodes \n", - "Info : No duplicate nodes found\n", - "Debug : Renumbering for potentially partial mesh save\n", - "Debug : Decoded option name 'Mesh' . 'MshFileVersion' (index 0)\n", - "Info : Writing './output/gmsh.msh'...\n", - "Info : Done writing './output/gmsh.msh'\n", - "Info : Writing './output/gmsh.vtk'...\n", - "Info : Done writing './output/gmsh.vtk'\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m614\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd meshing.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m624\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd meshing heat-charge simulation.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:27\u001b[0m.\u001b[1;36m633\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mMesh heat-charge simulation time (s): 0.8077\u001b[0m \n", - "Resetting DEVSIM\n", - "Physical group name bc_0 has 0 Tetrahedra.\n", - "Physical group name bc_0 has 0 Triangles.\n", - "Physical group name bc_0 has 70 Lines.\n", - "Physical group name bc_0 has 72 Points.\n", - "Physical group name bc_1 has 0 Tetrahedra.\n", - "Physical group name bc_1 has 0 Triangles.\n", - "Physical group name bc_1 has 643 Lines.\n", - "Physical group name bc_1 has 645 Points.\n", - "Physical group name bc_2 has 0 Tetrahedra.\n", - "Physical group name bc_2 has 0 Triangles.\n", - "Physical group name bc_2 has 42 Lines.\n", - "Physical group name bc_2 has 43 Points.\n", - "Physical group name bc_3 has 0 Tetrahedra.\n", - "Physical group name bc_3 has 0 Triangles.\n", - "Physical group name bc_3 has 42 Lines.\n", - "Physical group name bc_3 has 43 Points.\n", - "Physical group name bc_4 has 0 Tetrahedra.\n", - "Physical group name bc_4 has 0 Triangles.\n", - "Physical group name bc_4 has 44 Lines.\n", - "Physical group name bc_4 has 46 Points.\n", - "Physical group name zone_1 has 0 Tetrahedra.\n", - "Physical group name zone_1 has 4323 Triangles.\n", - "Physical group name zone_1 has 6841 Lines.\n", - "Physical group name zone_1 has 2520 Points.\n", - "Physical group name zone_3 has 0 Tetrahedra.\n", - "Physical group name zone_3 has 12615 Triangles.\n", - "Physical group name zone_3 has 19308 Lines.\n", - "Physical group name zone_3 has 6694 Points.\n", - "Device device has 8569 coordinates with max index 8569\n", - "Region zone_1 has 2520 nodes.\n", - "Region zone_3 has 6694 nodes.\n", - "Contact zone_1_bc_0 in region zone_1 with 72 nodes\n", - "Warning, contact \"zone_1_bc_0\" shares a node with contact \"zone_3_bc_2\"\n", - "Contact zone_3_bc_2 in region zone_3 with 43 nodes\n", - "Warning, contact \"zone_1_bc_0\" shares a node with contact \"zone_3_bc_3\"\n", - "Contact zone_3_bc_3 in region zone_3 with 43 nodes\n", - "Warning, contact \"zone_1_bc_0\" shares a node with contact \"zone_3_bc_4\" (repeated 1 times)\n", - "Warning, contact \"zone_3_bc_2\" shares a node with contact \"zone_3_bc_4\"\n", - "Warning, contact \"zone_3_bc_3\" shares a node with contact \"zone_3_bc_4\"\n", - "Contact zone_3_bc_4 in region zone_3 with 46 nodes\n", - "Warning, contact \"zone_3_bc_2\" shares a node with interface \"zone_1_bc_1\"\n", - "Warning, contact \"zone_3_bc_3\" shares a node with interface \"zone_1_bc_1\"\n", - "Warning, contact \"zone_3_bc_4\" shares a node with interface \"zone_1_bc_1\" (repeated 1 times)\n", - "Adding interface zone_1_bc_1 with 645, 645 nodes\n", - "Warning: Replacing equation with equation of the same name.\n", - "Region: zone_1, Equation: PotentialEquation, Variable: Potential\n", - "Replacing Node Model Holes in region zone_1 of material Si\n", - "Replacing Node Model Electrons in region zone_1 of material Si\n", - "Warning: Replacing equation with equation of the same name.\n", - "Region: zone_3, Equation: PotentialEquation, Variable: Potential\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:28\u001b[0m.\u001b[1;36m236\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mRamping up doping. Scaling by 0.01\u001b[0m \n", - "Replacing Node Model NetDoping in region zone_1 of material Si\n", - "Replacing Node Model n_i in region zone_1 of material Si\n", - "Replacing Edge Model n_i@n0 in region zone_1 of material Si\n", - "Replacing Edge Model n_i@n1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en2 in region zone_1 of material Si\n", - "Replacing Node Model n_i:Electrons in region zone_1 of material Si\n", - "Replacing Node Model n_i:Holes in region zone_1 of material Si\n", - "Replacing Node Model n_i:T in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en2 in region zone_1 of material Si\n", - "Replacing Node Model NetDoping in region zone_3 of material Si\n", - "Replacing Node Model n_i in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en2 in region zone_3 of material Si\n", - "Replacing Node Model n_i:Electrons in region zone_3 of material Si\n", - "Replacing Node Model n_i:Holes in region zone_3 of material Si\n", - "Replacing Node Model n_i:T in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:Electrons@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:Holes@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:T@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:Electrons@n1 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:Holes@n1 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:T@n1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en2 in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.79782e+07\tAbsError: 2.04000e+18\n", - " Region: \"zone_1\"\tRelError: 1.00000e+00\tAbsError: 3.94714e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00000e+00\tAbsError: 3.94714e-01\n", - " Region: \"zone_3\"\tRelError: 1.79782e+07\tAbsError: 2.04000e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.98918e+06\tAbsError: 1.01999e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.98900e+06\tAbsError: 1.02001e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00000e+00\tAbsError: 3.96698e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.02134e+03\tAbsError: 5.28988e+17\n", - " Region: \"zone_1\"\tRelError: 8.09397e-01\tAbsError: 8.82032e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.09397e-01\tAbsError: 8.82032e-02\n", - " Region: \"zone_3\"\tRelError: 2.02053e+03\tAbsError: 5.28988e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.63152e+02\tAbsError: 2.39643e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.15671e+03\tAbsError: 2.89345e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 6.68292e-01\tAbsError: 8.50469e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 5.29619e+04\tAbsError: 5.40829e+17\n", - " Region: \"zone_1\"\tRelError: 3.49575e+00\tAbsError: 8.50914e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.49575e+00\tAbsError: 8.50914e-02\n", - " Region: \"zone_3\"\tRelError: 5.29584e+04\tAbsError: 5.40829e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84891e+03\tAbsError: 1.73566e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.11077e+04\tAbsError: 3.67263e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86071e+00\tAbsError: 8.36026e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.56340e+02\tAbsError: 1.60913e+17\n", - " Region: \"zone_1\"\tRelError: 7.02286e+01\tAbsError: 8.33246e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.02286e+01\tAbsError: 8.33246e-02\n", - " Region: \"zone_3\"\tRelError: 4.86111e+02\tAbsError: 1.60913e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.58439e+02\tAbsError: 4.77489e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.24056e+02\tAbsError: 1.13164e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03617e+02\tAbsError: 8.33199e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.59462e+03\tAbsError: 1.22966e+16\n", - " Region: \"zone_1\"\tRelError: 6.99663e+02\tAbsError: 8.14001e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.99663e+02\tAbsError: 8.14001e-02\n", - " Region: \"zone_3\"\tRelError: 5.89495e+03\tAbsError: 1.22966e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.96162e+02\tAbsError: 4.98403e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.42866e+02\tAbsError: 7.31259e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 4.55593e+03\tAbsError: 8.14001e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.75617e+03\tAbsError: 3.95067e+15\n", - " Region: \"zone_1\"\tRelError: 2.56000e+02\tAbsError: 7.80984e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.56000e+02\tAbsError: 7.80984e-02\n", - " Region: \"zone_3\"\tRelError: 3.50017e+03\tAbsError: 3.95067e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.11350e+01\tAbsError: 2.15897e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.36945e+03\tAbsError: 1.79170e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95825e+01\tAbsError: 7.80984e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 8.71973e+03\tAbsError: 3.68802e+15\n", - " Region: \"zone_1\"\tRelError: 1.83283e+03\tAbsError: 7.35600e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.83283e+03\tAbsError: 7.35600e-02\n", - " Region: \"zone_3\"\tRelError: 6.88690e+03\tAbsError: 3.68802e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.44856e+01\tAbsError: 2.01861e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.68953e+03\tAbsError: 1.66941e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 4.17288e+03\tAbsError: 7.35600e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.17699e+04\tAbsError: 3.55641e+15\n", - " Region: \"zone_1\"\tRelError: 1.61805e+00\tAbsError: 6.82367e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.61805e+00\tAbsError: 6.82367e-02\n", - " Region: \"zone_3\"\tRelError: 1.17683e+04\tAbsError: 3.55641e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.02915e+03\tAbsError: 1.96286e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.07375e+04\tAbsError: 1.59355e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.69644e+00\tAbsError: 6.82367e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.90710e+03\tAbsError: 3.56322e+15\n", - " Region: \"zone_1\"\tRelError: 5.40021e-01\tAbsError: 6.20658e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.40021e-01\tAbsError: 6.20658e-02\n", - " Region: \"zone_3\"\tRelError: 3.90656e+03\tAbsError: 3.56322e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.97521e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.89701e+03\tAbsError: 1.58800e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.52609e-01\tAbsError: 6.20658e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.59564e+03\tAbsError: 3.90856e+15\n", - " Region: \"zone_1\"\tRelError: 3.02279e-01\tAbsError: 5.41457e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.02279e-01\tAbsError: 5.41457e-02\n", - " Region: \"zone_3\"\tRelError: 4.59534e+03\tAbsError: 3.90856e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.15072e+02\tAbsError: 2.13486e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.77996e+03\tAbsError: 1.77370e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 3.09991e-01\tAbsError: 5.41457e-02\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.89532e+03\tAbsError: 5.45590e+15\n", - " Region: \"zone_1\"\tRelError: 1.32864e-01\tAbsError: 4.41646e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.32864e-01\tAbsError: 4.41646e-02\n", - " Region: \"zone_3\"\tRelError: 2.89519e+03\tAbsError: 5.45590e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.95366e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.88608e+03\tAbsError: 2.50224e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12497e-01\tAbsError: 4.40685e-02\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.80503e+03\tAbsError: 9.25911e+15\n", - " Region: \"zone_1\"\tRelError: 8.45871e-02\tAbsError: 3.26030e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.45871e-02\tAbsError: 3.26030e-02\n", - " Region: \"zone_3\"\tRelError: 1.80495e+03\tAbsError: 9.25911e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.62604e+03\tAbsError: 4.94846e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.78832e+02\tAbsError: 4.31065e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.47515e-02\tAbsError: 2.89742e-02\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.02488e+03\tAbsError: 1.35461e+16\n", - " Region: \"zone_1\"\tRelError: 6.19799e-02\tAbsError: 2.54954e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.19799e-02\tAbsError: 2.54954e-02\n", - " Region: \"zone_3\"\tRelError: 1.02482e+03\tAbsError: 1.35461e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.85774e+02\tAbsError: 7.51298e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.39007e+02\tAbsError: 6.03314e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 4.01021e-02\tAbsError: 2.12584e-02\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 1.63746e+03\tAbsError: 6.22853e+15\n", - " Region: \"zone_1\"\tRelError: 3.24151e-02\tAbsError: 1.77252e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.24151e-02\tAbsError: 1.77252e-02\n", - " Region: \"zone_3\"\tRelError: 1.63743e+03\tAbsError: 6.22853e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.57093e+03\tAbsError: 3.54700e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.64599e+01\tAbsError: 2.68153e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 3.68353e-02\tAbsError: 2.00855e-02\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 4.66473e+04\tAbsError: 1.65128e+15\n", - " Region: \"zone_1\"\tRelError: 3.72589e-02\tAbsError: 1.93441e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.72589e-02\tAbsError: 1.93441e-02\n", - " Region: \"zone_3\"\tRelError: 4.66473e+04\tAbsError: 1.65128e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.35588e+04\tAbsError: 1.14975e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.08852e+03\tAbsError: 5.01532e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.08564e-02\tAbsError: 2.10000e-02\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 2.75087e+04\tAbsError: 1.29732e+14\n", - " Region: \"zone_1\"\tRelError: 1.63751e-03\tAbsError: 8.62426e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.63751e-03\tAbsError: 8.62426e-04\n", - " Region: \"zone_3\"\tRelError: 2.75087e+04\tAbsError: 1.29732e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.46168e+03\tAbsError: 8.16018e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.40470e+04\tAbsError: 4.81304e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.98561e-03\tAbsError: 1.03284e-03\n", - "Iteration: 16\n", - " Device: \"device\"\tRelError: 5.46518e+03\tAbsError: 1.25626e+12\n", - " Region: \"zone_1\"\tRelError: 1.47051e-05\tAbsError: 7.97633e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.47051e-05\tAbsError: 7.97633e-06\n", - " Region: \"zone_3\"\tRelError: 5.46518e+03\tAbsError: 1.25626e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.38697e+03\tAbsError: 7.51084e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.07821e+03\tAbsError: 5.05179e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.75881e-05\tAbsError: 9.27716e-06\n", - "Iteration: 17\n", - " Device: \"device\"\tRelError: 2.77216e-01\tAbsError: 1.06695e+08\n", - " Region: \"zone_1\"\tRelError: 3.00061e-09\tAbsError: 1.68638e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.00061e-09\tAbsError: 1.68638e-09\n", - " Region: \"zone_3\"\tRelError: 2.77216e-01\tAbsError: 1.06695e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.46960e-01\tAbsError: 6.29583e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.02562e-02\tAbsError: 4.37368e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 3.30209e-09\tAbsError: 1.76457e-09\n", - "Iteration: 18\n", - " Device: \"device\"\tRelError: 6.10978e-09\tAbsError: 3.33176e+02\n", - " Region: \"zone_1\"\tRelError: 7.09002e-16\tAbsError: 3.97988e-16\n", - " Equation: \"PotentialEquation\"\tRelError: 7.09002e-16\tAbsError: 3.97988e-16\n", - " Region: \"zone_3\"\tRelError: 6.10977e-09\tAbsError: 3.33176e+02\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.93846e-09\tAbsError: 1.72168e+02\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.71311e-10\tAbsError: 1.61008e+02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.75573e-16\tAbsError: 4.23801e-16\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:32\u001b[0m.\u001b[1;36m827\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mRamping up doping. Scaling by 0.03162277660168379\u001b[0m \n", - "Replacing Node Model NetDoping in region zone_1 of material Si\n", - "Replacing Node Model n_i in region zone_1 of material Si\n", - "Replacing Edge Model n_i@n0 in region zone_1 of material Si\n", - "Replacing Edge Model n_i@n1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en2 in region zone_1 of material Si\n", - "Replacing Node Model n_i:Electrons in region zone_1 of material Si\n", - "Replacing Node Model n_i:Holes in region zone_1 of material Si\n", - "Replacing Node Model n_i:T in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en2 in region zone_1 of material Si\n", - "Replacing Node Model NetDoping in region zone_3 of material Si\n", - "Replacing Node Model n_i in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en2 in region zone_3 of material Si\n", - "Replacing Node Model n_i:Electrons in region zone_3 of material Si\n", - "Replacing Node Model n_i:Holes in region zone_3 of material Si\n", - "Replacing Node Model n_i:T in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:Electrons@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:Holes@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:T@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:Electrons@n1 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:Holes@n1 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:T@n1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en2 in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.18667e+04\tAbsError: 4.42639e+18\n", - " Region: \"zone_1\"\tRelError: 4.54590e-01\tAbsError: 3.65435e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.54590e-01\tAbsError: 3.65435e-02\n", - " Region: \"zone_3\"\tRelError: 6.18663e+04\tAbsError: 4.42639e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.16910e+04\tAbsError: 2.21325e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.01748e+04\tAbsError: 2.21314e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 4.55812e-01\tAbsError: 3.74548e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.75398e+00\tAbsError: 3.67168e+16\n", - " Region: \"zone_1\"\tRelError: 1.54414e-01\tAbsError: 1.18873e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.54414e-01\tAbsError: 1.18873e-02\n", - " Region: \"zone_3\"\tRelError: 2.59956e+00\tAbsError: 3.67168e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.44312e+00\tAbsError: 1.84482e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.00167e+00\tAbsError: 1.82685e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.54775e-01\tAbsError: 1.19406e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.21359e+00\tAbsError: 2.73096e+15\n", - " Region: \"zone_1\"\tRelError: 2.12576e-03\tAbsError: 2.90809e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.12576e-03\tAbsError: 2.90809e-04\n", - " Region: \"zone_3\"\tRelError: 1.21147e+00\tAbsError: 2.73096e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.69344e-01\tAbsError: 1.45487e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.39562e-01\tAbsError: 1.27610e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.55964e-03\tAbsError: 3.14523e-04\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 6.75330e-03\tAbsError: 2.19594e+12\n", - " Region: \"zone_1\"\tRelError: 1.15504e-06\tAbsError: 1.24812e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15504e-06\tAbsError: 1.24812e-07\n", - " Region: \"zone_3\"\tRelError: 6.75214e-03\tAbsError: 2.19594e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.50950e-03\tAbsError: 1.03504e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.24140e-03\tAbsError: 1.16090e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.24282e-06\tAbsError: 1.46046e-07\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.09534e-08\tAbsError: 1.52655e+06\n", - " Region: \"zone_1\"\tRelError: 7.26821e-13\tAbsError: 7.85393e-14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.26821e-13\tAbsError: 7.85393e-14\n", - " Region: \"zone_3\"\tRelError: 2.09527e-08\tAbsError: 1.52655e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98949e-09\tAbsError: 6.59404e+05\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.09623e-08\tAbsError: 8.67143e+05\n", - " Equation: \"PotentialEquation\"\tRelError: 8.44838e-13\tAbsError: 9.68488e-14\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:34\u001b[0m.\u001b[1;36m479\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mRamping up doping. Scaling by 0.1\u001b[0m \n", - "Replacing Node Model NetDoping in region zone_1 of material Si\n", - "Replacing Node Model n_i in region zone_1 of material Si\n", - "Replacing Edge Model n_i@n0 in region zone_1 of material Si\n", - "Replacing Edge Model n_i@n1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en2 in region zone_1 of material Si\n", - "Replacing Node Model n_i:Electrons in region zone_1 of material Si\n", - "Replacing Node Model n_i:Holes in region zone_1 of material Si\n", - "Replacing Node Model n_i:T in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en2 in region zone_1 of material Si\n", - "Replacing Node Model NetDoping in region zone_3 of material Si\n", - "Replacing Node Model n_i in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en2 in region zone_3 of material Si\n", - "Replacing Node Model n_i:Electrons in region zone_3 of material Si\n", - "Replacing Node Model n_i:Holes in region zone_3 of material Si\n", - "Replacing Node Model n_i:T in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:Electrons@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:Holes@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:T@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:Electrons@n1 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:Holes@n1 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:T@n1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en2 in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.39694e+03\tAbsError: 1.39693e+19\n", - " Region: \"zone_1\"\tRelError: 1.06972e+00\tAbsError: 3.13057e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06972e+00\tAbsError: 3.13057e-02\n", - " Region: \"zone_3\"\tRelError: 2.39587e+03\tAbsError: 1.39693e+19\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.53044e+02\tAbsError: 6.98446e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.64175e+03\tAbsError: 6.98488e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07292e+00\tAbsError: 3.13057e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.01295e+00\tAbsError: 5.30343e+16\n", - " Region: \"zone_1\"\tRelError: 4.68874e-01\tAbsError: 9.69744e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 4.68874e-01\tAbsError: 9.69744e-03\n", - " Region: \"zone_3\"\tRelError: 2.54407e+00\tAbsError: 5.30343e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07579e+00\tAbsError: 2.59554e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.98430e-01\tAbsError: 2.70789e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 4.69858e-01\tAbsError: 9.86343e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 6.06000e-01\tAbsError: 4.02078e+15\n", - " Region: \"zone_1\"\tRelError: 1.21931e-03\tAbsError: 2.40897e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21931e-03\tAbsError: 2.40897e-04\n", - " Region: \"zone_3\"\tRelError: 6.04781e-01\tAbsError: 4.02078e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.12380e-01\tAbsError: 2.14256e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.91182e-01\tAbsError: 1.87822e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21931e-03\tAbsError: 2.54339e-04\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.84065e-03\tAbsError: 2.23230e+12\n", - " Region: \"zone_1\"\tRelError: 4.74964e-07\tAbsError: 9.96724e-08\n", - " Equation: \"PotentialEquation\"\tRelError: 4.74964e-07\tAbsError: 9.96724e-08\n", - " Region: \"zone_3\"\tRelError: 1.84017e-03\tAbsError: 2.23230e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.44793e-04\tAbsError: 1.36966e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.09483e-03\tAbsError: 8.62644e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.43349e-07\tAbsError: 1.12867e-07\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.11523e-09\tAbsError: 4.82934e+05\n", - " Region: \"zone_1\"\tRelError: 2.15869e-13\tAbsError: 4.52167e-14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.15869e-13\tAbsError: 4.52167e-14\n", - " Region: \"zone_3\"\tRelError: 1.11501e-09\tAbsError: 4.82934e+05\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83261e-10\tAbsError: 3.45065e+05\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.31495e-10\tAbsError: 1.37869e+05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.54655e-13\tAbsError: 5.34272e-14\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:36\u001b[0m.\u001b[1;36m088\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mRamping up doping. Scaling by 0.31622776601683794\u001b[0m \n", - "Replacing Node Model NetDoping in region zone_1 of material Si\n", - "Replacing Node Model n_i in region zone_1 of material Si\n", - "Replacing Edge Model n_i@n0 in region zone_1 of material Si\n", - "Replacing Edge Model n_i@n1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en2 in region zone_1 of material Si\n", - "Replacing Node Model n_i:Electrons in region zone_1 of material Si\n", - "Replacing Node Model n_i:Holes in region zone_1 of material Si\n", - "Replacing Node Model n_i:T in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en2 in region zone_1 of material Si\n", - "Replacing Node Model NetDoping in region zone_3 of material Si\n", - "Replacing Node Model n_i in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en2 in region zone_3 of material Si\n", - "Replacing Node Model n_i:Electrons in region zone_3 of material Si\n", - "Replacing Node Model n_i:Holes in region zone_3 of material Si\n", - "Replacing Node Model n_i:T in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:Electrons@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:Holes@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:T@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:Electrons@n1 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:Holes@n1 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:T@n1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en2 in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.95472e+03\tAbsError: 4.41411e+19\n", - " Region: \"zone_1\"\tRelError: 3.81043e+02\tAbsError: 2.85345e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.81043e+02\tAbsError: 2.85345e-02\n", - " Region: \"zone_3\"\tRelError: 6.57367e+03\tAbsError: 4.41411e+19\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.14821e+03\tAbsError: 2.20694e+19\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.40994e+03\tAbsError: 2.20718e+19\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01552e+03\tAbsError: 2.85345e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.80786e+03\tAbsError: 6.59033e+16\n", - " Region: \"zone_1\"\tRelError: 2.19832e+02\tAbsError: 1.26527e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.19832e+02\tAbsError: 1.26527e-02\n", - " Region: \"zone_3\"\tRelError: 2.58803e+03\tAbsError: 6.59033e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.51340e+00\tAbsError: 3.52905e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.98731e-01\tAbsError: 3.06128e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.58452e+03\tAbsError: 1.34324e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 9.63105e-01\tAbsError: 8.92986e+14\n", - " Region: \"zone_1\"\tRelError: 2.25408e-01\tAbsError: 6.58954e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.25408e-01\tAbsError: 6.58954e-04\n", - " Region: \"zone_3\"\tRelError: 7.37696e-01\tAbsError: 8.92986e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.80759e-01\tAbsError: 8.00842e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.45120e-01\tAbsError: 9.21447e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18173e-02\tAbsError: 7.04254e-04\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 8.06680e-03\tAbsError: 2.77776e+12\n", - " Region: \"zone_1\"\tRelError: 6.08613e-04\tAbsError: 1.98093e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.08613e-04\tAbsError: 1.98093e-06\n", - " Region: \"zone_3\"\tRelError: 7.45819e-03\tAbsError: 2.77776e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.65188e-03\tAbsError: 2.73367e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.79286e-03\tAbsError: 4.40855e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.34515e-05\tAbsError: 2.15181e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.07461e-07\tAbsError: 2.67458e+07\n", - " Region: \"zone_1\"\tRelError: 6.49905e-09\tAbsError: 2.34425e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 6.49905e-09\tAbsError: 2.34425e-11\n", - " Region: \"zone_3\"\tRelError: 1.00962e-07\tAbsError: 2.67458e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94056e-08\tAbsError: 2.64009e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.13963e-08\tAbsError: 3.44866e+05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.59744e-10\tAbsError: 2.55539e-11\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:37\u001b[0m.\u001b[1;36m675\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mRamping up doping. Scaling by 1.0\u001b[0m \n", - "Replacing Node Model NetDoping in region zone_1 of material Si\n", - "Replacing Node Model n_i in region zone_1 of material Si\n", - "Replacing Edge Model n_i@n0 in region zone_1 of material Si\n", - "Replacing Edge Model n_i@n1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en2 in region zone_1 of material Si\n", - "Replacing Node Model n_i:Electrons in region zone_1 of material Si\n", - "Replacing Node Model n_i:Holes in region zone_1 of material Si\n", - "Replacing Node Model n_i:T in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en2 in region zone_1 of material Si\n", - "Replacing Node Model NetDoping in region zone_3 of material Si\n", - "Replacing Node Model n_i in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en2 in region zone_3 of material Si\n", - "Replacing Node Model n_i:Electrons in region zone_3 of material Si\n", - "Replacing Node Model n_i:Holes in region zone_3 of material Si\n", - "Replacing Node Model n_i:T in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:Electrons@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:Holes@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:T@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:Electrons@n1 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:Holes@n1 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:T@n1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en2 in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.33861e+04\tAbsError: 1.39514e+20\n", - " Region: \"zone_1\"\tRelError: 2.79494e+02\tAbsError: 4.20836e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.79494e+02\tAbsError: 4.20836e-02\n", - " Region: \"zone_3\"\tRelError: 1.31066e+04\tAbsError: 1.39514e+20\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.86187e+03\tAbsError: 6.97553e+19\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.24838e+02\tAbsError: 6.97585e+19\n", - " Equation: \"PotentialEquation\"\tRelError: 9.61994e+03\tAbsError: 4.30246e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.25022e+02\tAbsError: 5.51056e+16\n", - " Region: \"zone_1\"\tRelError: 3.98460e+01\tAbsError: 3.11827e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.98460e+01\tAbsError: 3.11827e-02\n", - " Region: \"zone_3\"\tRelError: 2.85176e+02\tAbsError: 5.51056e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.99835e+01\tAbsError: 2.78545e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.26461e+00\tAbsError: 2.72511e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.33928e+02\tAbsError: 3.22725e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.58594e+00\tAbsError: 1.77512e+15\n", - " Region: \"zone_1\"\tRelError: 5.05411e-02\tAbsError: 2.57431e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.05411e-02\tAbsError: 2.57431e-02\n", - " Region: \"zone_3\"\tRelError: 1.53540e+00\tAbsError: 1.77512e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.84777e-01\tAbsError: 8.67365e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.04763e-01\tAbsError: 9.07757e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.58597e-02\tAbsError: 2.58832e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 8.67888e+00\tAbsError: 5.91098e+13\n", - " Region: \"zone_1\"\tRelError: 1.67922e-02\tAbsError: 8.54135e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.67922e-02\tAbsError: 8.54135e-03\n", - " Region: \"zone_3\"\tRelError: 8.66209e+00\tAbsError: 5.91098e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.42042e+00\tAbsError: 2.76016e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.26176e-01\tAbsError: 3.15082e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.54893e-02\tAbsError: 9.88817e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.81690e-01\tAbsError: 5.88696e+12\n", - " Region: \"zone_1\"\tRelError: 1.48229e-03\tAbsError: 5.31753e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.48229e-03\tAbsError: 5.31753e-05\n", - " Region: \"zone_3\"\tRelError: 7.80207e-01\tAbsError: 5.88696e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.04708e-01\tAbsError: 2.85353e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.54154e-02\tAbsError: 3.03343e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.43580e-05\tAbsError: 5.79660e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.81047e-04\tAbsError: 4.19141e+08\n", - " Region: \"zone_1\"\tRelError: 2.16246e-08\tAbsError: 1.50485e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.16246e-08\tAbsError: 1.50485e-09\n", - " Region: \"zone_3\"\tRelError: 4.81025e-04\tAbsError: 4.19141e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39973e-04\tAbsError: 4.84100e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.10496e-05\tAbsError: 3.70731e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 2.37568e-09\tAbsError: 1.64465e-09\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.08814e-11\tAbsError: 3.17736e+04\n", - " Region: \"zone_1\"\tRelError: 1.06569e-14\tAbsError: 2.06294e-16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06569e-14\tAbsError: 2.06294e-16\n", - " Region: \"zone_3\"\tRelError: 2.08708e-11\tAbsError: 3.17736e+04\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.06175e-11\tAbsError: 1.55596e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.34811e-13\tAbsError: 1.62139e+04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.84794e-14\tAbsError: 2.16987e-16\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m466\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m485\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBuilt-in potential: % (np.float64(-1.0659654762908737),)\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m485\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mnot all arguments converted during string formatting\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m575\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.65 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m576\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.6 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m577\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.55 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m577\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.7 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m578\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.5 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m598\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.6 V. Current applied bias: 0.1\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m599\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.5 V. Current applied bias: 0.1\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m599\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.55 V. Current applied bias: 0.1\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m599\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: 0.1\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:40\u001b[0m.\u001b[1;36m599\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "number of equations 22602\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "number of equations 22602\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.73717e+01\tAbsError: 8.69288e+15\n", - " Region: \"zone_1\"\tRelError: 2.57083e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.57083e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.66335e+00\tAbsError: 8.69288e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.93654e-01\tAbsError: 4.53799e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.93414e-01\tAbsError: 4.15490e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.62866e-02\tAbsError: 4.09542e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.73717e+01\tAbsError: 8.69288e+15\n", - " Region: \"zone_1\"\tRelError: 2.57083e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.57083e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.66335e+00\tAbsError: 8.69288e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.93654e-01\tAbsError: 4.53799e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.93414e-01\tAbsError: 4.15490e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.62866e-02\tAbsError: 4.09542e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.73717e+01\tAbsError: 8.69288e+15\n", - " Region: \"zone_1\"\tRelError: 2.57083e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.57083e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.66335e+00\tAbsError: 8.69288e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.93654e-01\tAbsError: 4.53799e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.93414e-01\tAbsError: 4.15490e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.62866e-02\tAbsError: 4.09542e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.73717e+01\tAbsError: 8.69288e+15\n", - " Region: \"zone_1\"\tRelError: 2.57083e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.57083e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.66335e+00\tAbsError: 8.69288e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.93654e-01\tAbsError: 4.53799e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.93414e-01\tAbsError: 4.15490e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.62866e-02\tAbsError: 4.09542e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.73717e+01\tAbsError: 8.69288e+15\n", - " Region: \"zone_1\"\tRelError: 2.57083e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.57083e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.66335e+00\tAbsError: 8.69288e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.93654e-01\tAbsError: 4.53799e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.93414e-01\tAbsError: 4.15490e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.62866e-02\tAbsError: 4.09542e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.74300e+00\tAbsError: 2.93645e+14\n", - " Region: \"zone_1\"\tRelError: 2.20462e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20462e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.52254e+00\tAbsError: 2.93645e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90423e-01\tAbsError: 1.21723e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.85863e-01\tAbsError: 1.71921e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.62516e-02\tAbsError: 3.07632e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.74300e+00\tAbsError: 2.93645e+14\n", - " Region: \"zone_1\"\tRelError: 2.20462e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20462e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.52254e+00\tAbsError: 2.93645e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90423e-01\tAbsError: 1.21723e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.85863e-01\tAbsError: 1.71921e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.62516e-02\tAbsError: 3.07632e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.74300e+00\tAbsError: 2.93645e+14\n", - " Region: \"zone_1\"\tRelError: 2.20462e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20462e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.52254e+00\tAbsError: 2.93645e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90423e-01\tAbsError: 1.21723e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.85863e-01\tAbsError: 1.71921e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.62516e-02\tAbsError: 3.07632e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.74300e+00\tAbsError: 2.93645e+14\n", - " Region: \"zone_1\"\tRelError: 2.20462e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20462e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.52254e+00\tAbsError: 2.93645e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90423e-01\tAbsError: 1.21723e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.85863e-01\tAbsError: 1.71921e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.62516e-02\tAbsError: 3.07632e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.74300e+00\tAbsError: 2.93645e+14\n", - " Region: \"zone_1\"\tRelError: 2.20462e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20462e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.52254e+00\tAbsError: 2.93645e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90423e-01\tAbsError: 1.21723e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.85863e-01\tAbsError: 1.71921e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.62516e-02\tAbsError: 3.07632e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.07714e+00\tAbsError: 4.48799e+13\n", - " Region: \"zone_1\"\tRelError: 4.05238e-02\tAbsError: 2.58454e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.05238e-02\tAbsError: 2.58454e-02\n", - " Region: \"zone_3\"\tRelError: 1.03661e+00\tAbsError: 4.48799e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14392e-01\tAbsError: 2.36249e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.86252e-01\tAbsError: 2.12550e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.59693e-02\tAbsError: 2.57490e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.07714e+00\tAbsError: 4.48799e+13\n", - " Region: \"zone_1\"\tRelError: 4.05238e-02\tAbsError: 2.58454e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.05238e-02\tAbsError: 2.58454e-02\n", - " Region: \"zone_3\"\tRelError: 1.03661e+00\tAbsError: 4.48799e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14392e-01\tAbsError: 2.36249e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.86252e-01\tAbsError: 2.12550e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.59693e-02\tAbsError: 2.57490e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.07714e+00\tAbsError: 4.48799e+13\n", - " Region: \"zone_1\"\tRelError: 4.05238e-02\tAbsError: 2.58454e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.05238e-02\tAbsError: 2.58454e-02\n", - " Region: \"zone_3\"\tRelError: 1.03661e+00\tAbsError: 4.48799e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14392e-01\tAbsError: 2.36249e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.86252e-01\tAbsError: 2.12550e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.59693e-02\tAbsError: 2.57490e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.07714e+00\tAbsError: 4.48799e+13\n", - " Region: \"zone_1\"\tRelError: 4.05238e-02\tAbsError: 2.58454e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.05238e-02\tAbsError: 2.58454e-02\n", - " Region: \"zone_3\"\tRelError: 1.03661e+00\tAbsError: 4.48799e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14392e-01\tAbsError: 2.36249e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.86252e-01\tAbsError: 2.12550e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.59693e-02\tAbsError: 2.57490e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.07714e+00\tAbsError: 4.48799e+13\n", - " Region: \"zone_1\"\tRelError: 4.05238e-02\tAbsError: 2.58454e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.05238e-02\tAbsError: 2.58454e-02\n", - " Region: \"zone_3\"\tRelError: 1.03661e+00\tAbsError: 4.48799e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14392e-01\tAbsError: 2.36249e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.86252e-01\tAbsError: 2.12550e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.59693e-02\tAbsError: 2.57490e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.81042e-01\tAbsError: 7.01282e+12\n", - " Region: \"zone_1\"\tRelError: 1.15331e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15331e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.69508e-01\tAbsError: 7.01282e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.87363e-01\tAbsError: 9.92393e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.03912e-02\tAbsError: 6.02043e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17537e-02\tAbsError: 9.16534e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.81042e-01\tAbsError: 7.01282e+12\n", - " Region: \"zone_1\"\tRelError: 1.15331e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15331e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.69508e-01\tAbsError: 7.01282e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.87363e-01\tAbsError: 9.92393e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.03912e-02\tAbsError: 6.02043e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17537e-02\tAbsError: 9.16534e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.81042e-01\tAbsError: 7.01282e+12\n", - " Region: \"zone_1\"\tRelError: 1.15331e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15331e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.69508e-01\tAbsError: 7.01282e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.87363e-01\tAbsError: 9.92393e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.03912e-02\tAbsError: 6.02043e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17537e-02\tAbsError: 9.16534e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.81042e-01\tAbsError: 7.01282e+12\n", - " Region: \"zone_1\"\tRelError: 1.15331e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15331e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.69508e-01\tAbsError: 7.01282e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.87363e-01\tAbsError: 9.92393e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.03912e-02\tAbsError: 6.02043e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17537e-02\tAbsError: 9.16534e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.81042e-01\tAbsError: 7.01282e+12\n", - " Region: \"zone_1\"\tRelError: 1.15331e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15331e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.69508e-01\tAbsError: 7.01282e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.87363e-01\tAbsError: 9.92393e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.03912e-02\tAbsError: 6.02043e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17537e-02\tAbsError: 9.16534e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.40625e-02\tAbsError: 6.64799e+12\n", - " Region: \"zone_1\"\tRelError: 2.74618e-03\tAbsError: 3.10429e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.74618e-03\tAbsError: 3.10429e-05\n", - " Region: \"zone_3\"\tRelError: 9.13164e-02\tAbsError: 6.64799e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.88453e-02\tAbsError: 1.24813e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.42442e-03\tAbsError: 5.39986e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.66460e-05\tAbsError: 3.16854e-05\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.40625e-02\tAbsError: 6.64799e+12\n", - " Region: \"zone_1\"\tRelError: 2.74618e-03\tAbsError: 3.10429e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.74618e-03\tAbsError: 3.10429e-05\n", - " Region: \"zone_3\"\tRelError: 9.13164e-02\tAbsError: 6.64799e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.88453e-02\tAbsError: 1.24813e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.42442e-03\tAbsError: 5.39986e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.66460e-05\tAbsError: 3.16854e-05\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.40625e-02\tAbsError: 6.64799e+12\n", - " Region: \"zone_1\"\tRelError: 2.74618e-03\tAbsError: 3.10429e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.74618e-03\tAbsError: 3.10429e-05\n", - " Region: \"zone_3\"\tRelError: 9.13164e-02\tAbsError: 6.64799e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.88453e-02\tAbsError: 1.24813e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.42442e-03\tAbsError: 5.39986e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.66460e-05\tAbsError: 3.16854e-05\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.40625e-02\tAbsError: 6.64799e+12\n", - " Region: \"zone_1\"\tRelError: 2.74618e-03\tAbsError: 3.10429e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.74618e-03\tAbsError: 3.10429e-05\n", - " Region: \"zone_3\"\tRelError: 9.13164e-02\tAbsError: 6.64799e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.88453e-02\tAbsError: 1.24813e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.42442e-03\tAbsError: 5.39986e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.66460e-05\tAbsError: 3.16854e-05\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.40625e-02\tAbsError: 6.64799e+12\n", - " Region: \"zone_1\"\tRelError: 2.74618e-03\tAbsError: 3.10429e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.74618e-03\tAbsError: 3.10429e-05\n", - " Region: \"zone_3\"\tRelError: 9.13164e-02\tAbsError: 6.64799e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.88453e-02\tAbsError: 1.24813e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.42442e-03\tAbsError: 5.39986e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.66460e-05\tAbsError: 3.16854e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.20145e-05\tAbsError: 8.69361e+08\n", - " Region: \"zone_1\"\tRelError: 2.45098e-07\tAbsError: 3.49761e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.45098e-07\tAbsError: 3.49761e-09\n", - " Region: \"zone_3\"\tRelError: 6.17694e-05\tAbsError: 8.69361e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.00240e-05\tAbsError: 1.13923e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.74001e-06\tAbsError: 7.55438e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 5.37090e-09\tAbsError: 3.64623e-09\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:42\u001b[0m.\u001b[1;36m724\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: 0.22\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.20145e-05\tAbsError: 8.69361e+08\n", - " Region: \"zone_1\"\tRelError: 2.45098e-07\tAbsError: 3.49761e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.45098e-07\tAbsError: 3.49761e-09\n", - " Region: \"zone_3\"\tRelError: 6.17694e-05\tAbsError: 8.69361e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.00240e-05\tAbsError: 1.13923e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.74001e-06\tAbsError: 7.55438e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 5.37090e-09\tAbsError: 3.64623e-09\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.20145e-05\tAbsError: 8.69361e+08\n", - " Region: \"zone_1\"\tRelError: 2.45098e-07\tAbsError: 3.49761e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.45098e-07\tAbsError: 3.49761e-09\n", - " Region: \"zone_3\"\tRelError: 6.17694e-05\tAbsError: 8.69361e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.00240e-05\tAbsError: 1.13923e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.74001e-06\tAbsError: 7.55438e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 5.37090e-09\tAbsError: 3.64623e-09\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:42\u001b[0m.\u001b[1;36m871\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.55 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:42\u001b[0m.\u001b[1;36m871\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.21250000000000002\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:42\u001b[0m.\u001b[1;36m875\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.6 V. Current applied bias: 0.225\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.20145e-05\tAbsError: 8.69361e+08\n", - " Region: \"zone_1\"\tRelError: 2.45098e-07\tAbsError: 3.49761e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.45098e-07\tAbsError: 3.49761e-09\n", - " Region: \"zone_3\"\tRelError: 6.17694e-05\tAbsError: 8.69361e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.00240e-05\tAbsError: 1.13923e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.74001e-06\tAbsError: 7.55438e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 5.37090e-09\tAbsError: 3.64623e-09\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.20145e-05\tAbsError: 8.69361e+08\n", - " Region: \"zone_1\"\tRelError: 2.45098e-07\tAbsError: 3.49761e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.45098e-07\tAbsError: 3.49761e-09\n", - " Region: \"zone_3\"\tRelError: 6.17694e-05\tAbsError: 8.69361e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.00240e-05\tAbsError: 1.13923e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.74001e-06\tAbsError: 7.55438e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 5.37090e-09\tAbsError: 3.64623e-09\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:42\u001b[0m.\u001b[1;36m991\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:42\u001b[0m.\u001b[1;36m991\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.21000000000000002\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:43\u001b[0m.\u001b[1;36m002\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.5 V. Current applied bias: 0.2\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "number of equations 22602\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.43252e+01\tAbsError: 1.03421e+16\n", - " Region: \"zone_1\"\tRelError: 2.25819e+01\tAbsError: 4.47728e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.25819e+01\tAbsError: 4.47728e-02\n", - " Region: \"zone_3\"\tRelError: 1.74335e+00\tAbsError: 1.03421e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.22691e-01\tAbsError: 5.59498e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.22662e-01\tAbsError: 4.74717e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.79926e-02\tAbsError: 4.47728e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.99855e+02\tAbsError: 1.07731e+16\n", - " Region: \"zone_1\"\tRelError: 3.98095e+02\tAbsError: 4.56455e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.98095e+02\tAbsError: 4.56455e-02\n", - " Region: \"zone_3\"\tRelError: 1.75960e+00\tAbsError: 1.07731e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.28567e-01\tAbsError: 5.82810e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.28539e-01\tAbsError: 4.94497e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02494e-01\tAbsError: 4.56455e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.05002e+01\tAbsError: 9.69576e+15\n", - " Region: \"zone_1\"\tRelError: 8.77946e+00\tAbsError: 4.34059e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.77946e+00\tAbsError: 4.34059e-02\n", - " Region: \"zone_3\"\tRelError: 1.72076e+00\tAbsError: 9.69576e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.13079e-01\tAbsError: 5.24529e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.13050e-01\tAbsError: 4.45048e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.46281e-02\tAbsError: 4.34059e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 9.99488e+00\tAbsError: 9.48030e+15\n", - " Region: \"zone_1\"\tRelError: 8.28205e+00\tAbsError: 4.29338e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.28205e+00\tAbsError: 4.29338e-02\n", - " Region: \"zone_3\"\tRelError: 1.71283e+00\tAbsError: 9.48030e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09640e-01\tAbsError: 5.12873e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.09610e-01\tAbsError: 4.35158e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.35761e-02\tAbsError: 4.29338e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.60543e+00\tAbsError: 4.89557e+14\n", - " Region: \"zone_1\"\tRelError: 9.64208e-01\tAbsError: 3.52793e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.64208e-01\tAbsError: 3.52793e-02\n", - " Region: \"zone_3\"\tRelError: 1.64122e+00\tAbsError: 4.89557e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.40829e-01\tAbsError: 2.23317e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.35914e-01\tAbsError: 2.66240e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.44805e-02\tAbsError: 3.52793e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.21485e+01\tAbsError: 8.61846e+15\n", - " Region: \"zone_1\"\tRelError: 3.04717e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.04717e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.67686e+00\tAbsError: 8.61846e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94516e-01\tAbsError: 4.66248e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94484e-01\tAbsError: 3.95598e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.78603e-02\tAbsError: 4.09542e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.78928e+00\tAbsError: 5.28938e+14\n", - " Region: \"zone_1\"\tRelError: 1.12561e+00\tAbsError: 3.63154e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12561e+00\tAbsError: 3.63154e-02\n", - " Region: \"zone_3\"\tRelError: 1.66367e+00\tAbsError: 5.28938e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.50678e-01\tAbsError: 2.41685e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.46054e-01\tAbsError: 2.87253e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.69416e-02\tAbsError: 3.63154e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.84157e+00\tAbsError: 4.32896e+14\n", - " Region: \"zone_1\"\tRelError: 2.36912e-01\tAbsError: 3.36589e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.36912e-01\tAbsError: 3.36589e-02\n", - " Region: \"zone_3\"\tRelError: 1.60466e+00\tAbsError: 4.32896e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.24168e-01\tAbsError: 1.96905e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.19345e-01\tAbsError: 2.35991e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.11504e-02\tAbsError: 3.36589e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.85366e+00\tAbsError: 4.14640e+14\n", - " Region: \"zone_1\"\tRelError: 2.61180e-01\tAbsError: 3.31000e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.61180e-01\tAbsError: 3.31000e-02\n", - " Region: \"zone_3\"\tRelError: 1.59248e+00\tAbsError: 4.14640e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.17871e-01\tAbsError: 1.88389e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.13734e-01\tAbsError: 2.26251e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.08768e-02\tAbsError: 3.31000e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.43347e+00\tAbsError: 7.21532e+13\n", - " Region: \"zone_1\"\tRelError: 1.81992e-01\tAbsError: 2.58895e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.81992e-01\tAbsError: 2.58895e-02\n", - " Region: \"zone_3\"\tRelError: 1.25148e+00\tAbsError: 7.21532e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.01180e-01\tAbsError: 4.01174e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.02411e-01\tAbsError: 3.20358e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.78909e-02\tAbsError: 2.58895e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.07800e+00\tAbsError: 3.45404e+14\n", - " Region: \"zone_1\"\tRelError: 5.44178e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.44178e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.53382e+00\tAbsError: 3.45404e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90662e-01\tAbsError: 1.56300e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.87478e-01\tAbsError: 1.89103e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.56802e-02\tAbsError: 3.07632e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.45137e+00\tAbsError: 8.09526e+13\n", - " Region: \"zone_1\"\tRelError: 1.57705e-01\tAbsError: 2.56964e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.57705e-01\tAbsError: 2.56964e-02\n", - " Region: \"zone_3\"\tRelError: 1.29366e+00\tAbsError: 8.09526e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.19167e-01\tAbsError: 4.49957e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.25437e-01\tAbsError: 3.59570e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.90582e-02\tAbsError: 2.58393e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.22755e+00\tAbsError: 6.01612e+13\n", - " Region: \"zone_1\"\tRelError: 4.61375e-02\tAbsError: 2.58854e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.61375e-02\tAbsError: 2.58854e-02\n", - " Region: \"zone_3\"\tRelError: 1.18141e+00\tAbsError: 6.01612e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.71455e-01\tAbsError: 3.35148e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.63762e-01\tAbsError: 2.66464e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.61967e-02\tAbsError: 2.58870e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.20078e+00\tAbsError: 5.64838e+13\n", - " Region: \"zone_1\"\tRelError: 4.55160e-02\tAbsError: 2.58865e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.55160e-02\tAbsError: 2.58865e-02\n", - " Region: \"zone_3\"\tRelError: 1.15526e+00\tAbsError: 5.64838e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.61025e-01\tAbsError: 3.15083e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.48693e-01\tAbsError: 2.49756e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.55410e-02\tAbsError: 2.58905e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.89326e-01\tAbsError: 4.13996e+12\n", - " Region: \"zone_1\"\tRelError: 2.41774e-02\tAbsError: 1.57805e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.41774e-02\tAbsError: 1.57805e-02\n", - " Region: \"zone_3\"\tRelError: 5.65148e-01\tAbsError: 4.13996e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.73951e-01\tAbsError: 2.57829e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.66640e-01\tAbsError: 1.56166e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.45580e-02\tAbsError: 1.57805e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.11313e+00\tAbsError: 4.26791e+13\n", - " Region: \"zone_1\"\tRelError: 7.05940e-02\tAbsError: 2.58377e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.05940e-02\tAbsError: 2.58377e-02\n", - " Region: \"zone_3\"\tRelError: 1.04254e+00\tAbsError: 4.26791e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14646e-01\tAbsError: 2.38411e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.85599e-01\tAbsError: 1.88379e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.22941e-02\tAbsError: 2.58015e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.96834e-01\tAbsError: 3.38950e+12\n", - " Region: \"zone_1\"\tRelError: 1.98031e-02\tAbsError: 1.31065e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.98031e-02\tAbsError: 1.31065e-02\n", - " Region: \"zone_3\"\tRelError: 4.77031e-01\tAbsError: 3.38950e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.31319e-01\tAbsError: 2.13807e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.25594e-01\tAbsError: 1.25143e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.01182e-02\tAbsError: 1.31065e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.67195e-01\tAbsError: 2.99700e+12\n", - " Region: \"zone_1\"\tRelError: 1.84458e-02\tAbsError: 1.22654e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.84458e-02\tAbsError: 1.22654e-02\n", - " Region: \"zone_3\"\tRelError: 4.48750e-01\tAbsError: 2.99700e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.16869e-01\tAbsError: 1.89558e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.13140e-01\tAbsError: 1.10142e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87406e-02\tAbsError: 1.22654e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 6.52999e-01\tAbsError: 4.87650e+12\n", - " Region: \"zone_1\"\tRelError: 2.73515e-02\tAbsError: 1.76835e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.73515e-02\tAbsError: 1.76835e-02\n", - " Region: \"zone_3\"\tRelError: 6.25648e-01\tAbsError: 4.87650e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.01915e-01\tAbsError: 3.02544e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.95961e-01\tAbsError: 1.85106e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.77724e-02\tAbsError: 1.76835e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.59775e-01\tAbsError: 2.80288e+11\n", - " Region: \"zone_1\"\tRelError: 1.96302e-04\tAbsError: 1.31500e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.96302e-04\tAbsError: 1.31500e-06\n", - " Region: \"zone_3\"\tRelError: 1.59578e-01\tAbsError: 2.80288e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.59143e-01\tAbsError: 4.20993e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.33221e-04\tAbsError: 2.38189e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.47952e-06\tAbsError: 1.35652e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.83480e-01\tAbsError: 2.88954e+12\n", - " Region: \"zone_1\"\tRelError: 1.35212e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35212e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.69958e-01\tAbsError: 2.88954e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88338e-01\tAbsError: 2.12977e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.78790e-02\tAbsError: 2.67656e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37417e-02\tAbsError: 9.16534e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.27801e-01\tAbsError: 4.34192e+11\n", - " Region: \"zone_1\"\tRelError: 2.46783e-04\tAbsError: 4.60435e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.46783e-04\tAbsError: 4.60435e-06\n", - " Region: \"zone_3\"\tRelError: 1.27554e-01\tAbsError: 4.34192e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.27237e-01\tAbsError: 2.24685e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.08059e-04\tAbsError: 2.09506e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 8.98221e-06\tAbsError: 4.88811e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.18420e-01\tAbsError: 2.77452e+11\n", - " Region: \"zone_1\"\tRelError: 1.60281e-04\tAbsError: 2.62019e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.60281e-04\tAbsError: 2.62019e-06\n", - " Region: \"zone_3\"\tRelError: 1.18259e-01\tAbsError: 2.77452e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.18060e-01\tAbsError: 1.27601e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.94154e-04\tAbsError: 1.49851e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.08922e-06\tAbsError: 2.78229e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.84172e-01\tAbsError: 1.90697e+11\n", - " Region: \"zone_1\"\tRelError: 6.30141e-05\tAbsError: 1.39710e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.30141e-05\tAbsError: 1.39710e-06\n", - " Region: \"zone_3\"\tRelError: 1.84109e-01\tAbsError: 1.90697e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.83263e-01\tAbsError: 3.06155e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.42765e-04\tAbsError: 1.60082e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.64032e-06\tAbsError: 1.43554e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.92675e-06\tAbsError: 1.03497e+06\n", - " Region: \"zone_1\"\tRelError: 7.52446e-10\tAbsError: 5.33045e-12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.52446e-10\tAbsError: 5.33045e-12\n", - " Region: \"zone_3\"\tRelError: 5.92599e-06\tAbsError: 1.03497e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.92250e-06\tAbsError: 2.38573e+05\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.48197e-09\tAbsError: 7.96401e+05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02976e-11\tAbsError: 5.60919e-12\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.38444e-02\tAbsError: 3.70458e+12\n", - " Region: \"zone_1\"\tRelError: 3.59871e-03\tAbsError: 2.71390e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.59871e-03\tAbsError: 2.71390e-05\n", - " Region: \"zone_3\"\tRelError: 9.02457e-02\tAbsError: 3.70458e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.84320e-02\tAbsError: 1.19345e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.76575e-03\tAbsError: 2.51114e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.79561e-05\tAbsError: 2.71828e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:44\u001b[0m.\u001b[1;36m997\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:44\u001b[0m.\u001b[1;36m997\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.33999999999999997\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.29843e-05\tAbsError: 5.43351e+06\n", - " Region: \"zone_1\"\tRelError: 1.09761e-09\tAbsError: 3.62523e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09761e-09\tAbsError: 3.62523e-11\n", - " Region: \"zone_3\"\tRelError: 1.29832e-05\tAbsError: 5.43351e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.29355e-05\tAbsError: 5.10581e+05\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.76677e-08\tAbsError: 4.92293e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.63478e-11\tAbsError: 3.77119e-11\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:45\u001b[0m.\u001b[1;36m089\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.55 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:45\u001b[0m.\u001b[1;36m089\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.32500000000000007\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.49173e-06\tAbsError: 2.80652e+06\n", - " Region: \"zone_1\"\tRelError: 5.46308e-10\tAbsError: 1.14586e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.46308e-10\tAbsError: 1.14586e-11\n", - " Region: \"zone_3\"\tRelError: 6.49119e-06\tAbsError: 2.80652e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.47826e-06\tAbsError: 4.87875e+05\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.29012e-08\tAbsError: 2.31865e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.30092e-11\tAbsError: 1.26062e-11\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.87003e-06\tAbsError: 3.02548e+06\n", - " Region: \"zone_1\"\tRelError: 1.49583e-09\tAbsError: 1.05811e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49583e-09\tAbsError: 1.05811e-11\n", - " Region: \"zone_3\"\tRelError: 4.86853e-06\tAbsError: 3.02548e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.85850e-06\tAbsError: 6.55593e+05\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.00060e-08\tAbsError: 2.36989e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.59711e-11\tAbsError: 1.24054e-11\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:45\u001b[0m.\u001b[1;36m223\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:45\u001b[0m.\u001b[1;36m223\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.32000000000000006\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.96038e-05\tAbsError: 5.27330e+08\n", - " Region: \"zone_1\"\tRelError: 3.38320e-07\tAbsError: 2.80513e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.38320e-07\tAbsError: 2.80513e-09\n", - " Region: \"zone_3\"\tRelError: 4.92654e-05\tAbsError: 5.27330e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.82203e-05\tAbsError: 1.20057e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.04006e-06\tAbsError: 4.07273e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 5.04648e-09\tAbsError: 2.84942e-09\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:45\u001b[0m.\u001b[1;36m267\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.6 V. Current applied bias: 0.35\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:45\u001b[0m.\u001b[1;36m310\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.5 V. Current applied bias: \u001b[0m \n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:45\u001b[0m.\u001b[1;36m310\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.47853e+01\tAbsError: 1.02519e+16\n", - " Region: \"zone_1\"\tRelError: 1.30252e+01\tAbsError: 4.47728e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.30252e+01\tAbsError: 4.47728e-02\n", - " Region: \"zone_3\"\tRelError: 1.76018e+00\tAbsError: 1.02519e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.22739e-01\tAbsError: 5.83243e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.22729e-01\tAbsError: 4.41946e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14714e-01\tAbsError: 4.47728e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.89525e+01\tAbsError: 9.61793e+15\n", - " Region: \"zone_1\"\tRelError: 1.72162e+01\tAbsError: 4.34059e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72162e+01\tAbsError: 4.34059e-02\n", - " Region: \"zone_3\"\tRelError: 1.73629e+00\tAbsError: 9.61793e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.13130e-01\tAbsError: 5.45653e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.13119e-01\tAbsError: 4.16140e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10045e-01\tAbsError: 4.34059e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.10506e+01\tAbsError: 9.40634e+15\n", - " Region: \"zone_1\"\tRelError: 9.32438e+00\tAbsError: 4.29338e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.32438e+00\tAbsError: 4.29338e-02\n", - " Region: \"zone_3\"\tRelError: 1.72626e+00\tAbsError: 9.40634e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09691e-01\tAbsError: 5.33144e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.09680e-01\tAbsError: 4.07489e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06894e-01\tAbsError: 4.29338e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.20730e+00\tAbsError: 4.79565e+14\n", - " Region: \"zone_1\"\tRelError: 5.48136e-01\tAbsError: 3.52793e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.48136e-01\tAbsError: 3.52793e-02\n", - " Region: \"zone_3\"\tRelError: 1.65917e+00\tAbsError: 4.79565e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.41117e-01\tAbsError: 2.59100e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.36240e-01\tAbsError: 2.20465e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.18119e-02\tAbsError: 3.52793e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.62677e+00\tAbsError: 8.55868e+15\n", - " Region: \"zone_1\"\tRelError: 3.93566e+00\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.93566e+00\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.69111e+00\tAbsError: 8.55868e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94568e-01\tAbsError: 4.83229e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94557e-01\tAbsError: 3.72639e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01989e-01\tAbsError: 4.09542e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.85666e+01\tAbsError: 1.06738e+16\n", - " Region: \"zone_1\"\tRelError: 2.67884e+01\tAbsError: 4.56455e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.67884e+01\tAbsError: 4.56455e-02\n", - " Region: \"zone_3\"\tRelError: 1.77824e+00\tAbsError: 1.06738e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.28615e-01\tAbsError: 6.08350e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.28605e-01\tAbsError: 4.59032e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21017e-01\tAbsError: 4.56455e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 4.51523e+00\tAbsError: 4.22739e+14\n", - " Region: \"zone_1\"\tRelError: 2.89450e+00\tAbsError: 3.36589e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.89450e+00\tAbsError: 3.36589e-02\n", - " Region: \"zone_3\"\tRelError: 1.62073e+00\tAbsError: 4.22739e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.23769e-01\tAbsError: 2.24190e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.20407e-01\tAbsError: 1.98549e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.65581e-02\tAbsError: 3.36589e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.26294e+00\tAbsError: 4.04710e+14\n", - " Region: \"zone_1\"\tRelError: 6.55990e-01\tAbsError: 3.31000e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.55990e-01\tAbsError: 3.31000e-02\n", - " Region: \"zone_3\"\tRelError: 1.60695e+00\tAbsError: 4.04710e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.17961e-01\tAbsError: 2.13363e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.14153e-01\tAbsError: 1.91347e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.48377e-02\tAbsError: 3.31000e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.33125e+00\tAbsError: 4.12213e+13\n", - " Region: \"zone_1\"\tRelError: 6.47491e-02\tAbsError: 2.57580e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.47491e-02\tAbsError: 2.57580e-02\n", - " Region: \"zone_3\"\tRelError: 1.26650e+00\tAbsError: 4.12213e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.01161e-01\tAbsError: 2.62343e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.03820e-01\tAbsError: 1.49870e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.15242e-02\tAbsError: 2.57829e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.64610e+00\tAbsError: 3.68437e+13\n", - " Region: \"zone_1\"\tRelError: 4.53119e-01\tAbsError: 2.58087e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.53119e-01\tAbsError: 2.58087e-02\n", - " Region: \"zone_3\"\tRelError: 1.19298e+00\tAbsError: 3.68437e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.71779e-01\tAbsError: 2.36334e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.63005e-01\tAbsError: 1.32103e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.81958e-02\tAbsError: 2.58820e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.68467e+00\tAbsError: 3.35446e+14\n", - " Region: \"zone_1\"\tRelError: 1.36557e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.36557e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.54812e+00\tAbsError: 3.35446e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90679e-01\tAbsError: 1.72457e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.87899e-01\tAbsError: 1.62989e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.95382e-02\tAbsError: 3.07632e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 6.89383e+00\tAbsError: 5.18509e+14\n", - " Region: \"zone_1\"\tRelError: 5.21126e+00\tAbsError: 3.63154e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.21126e+00\tAbsError: 3.63154e-02\n", - " Region: \"zone_3\"\tRelError: 1.68257e+00\tAbsError: 5.18509e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.50957e-01\tAbsError: 2.83335e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.46413e-01\tAbsError: 2.35173e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.51973e-02\tAbsError: 3.63154e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.24212e+00\tAbsError: 3.49826e+13\n", - " Region: \"zone_1\"\tRelError: 7.44892e-02\tAbsError: 2.58685e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.44892e-02\tAbsError: 2.58685e-02\n", - " Region: \"zone_3\"\tRelError: 1.16763e+00\tAbsError: 3.49826e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.61171e-01\tAbsError: 2.23843e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.49557e-01\tAbsError: 1.25983e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.68989e-02\tAbsError: 2.58685e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 6.01287e-01\tAbsError: 4.15111e+12\n", - " Region: \"zone_1\"\tRelError: 3.07780e-02\tAbsError: 1.57805e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.07780e-02\tAbsError: 1.57805e-02\n", - " Region: \"zone_3\"\tRelError: 5.70509e-01\tAbsError: 4.15111e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.73696e-01\tAbsError: 2.44163e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.65705e-01\tAbsError: 1.70948e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.11079e-02\tAbsError: 1.57805e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.10405e+00\tAbsError: 2.84626e+13\n", - " Region: \"zone_1\"\tRelError: 5.09442e-02\tAbsError: 2.58970e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.09442e-02\tAbsError: 2.58970e-02\n", - " Region: \"zone_3\"\tRelError: 1.05311e+00\tAbsError: 2.84626e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14915e-01\tAbsError: 1.81960e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.86897e-01\tAbsError: 1.02666e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.12979e-02\tAbsError: 2.58565e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.68433e+00\tAbsError: 4.64869e+13\n", - " Region: \"zone_1\"\tRelError: 3.73668e-01\tAbsError: 2.58485e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.73668e-01\tAbsError: 2.58485e-02\n", - " Region: \"zone_3\"\tRelError: 1.31067e+00\tAbsError: 4.64869e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.19200e-01\tAbsError: 3.02498e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.27007e-01\tAbsError: 1.62371e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.44592e-02\tAbsError: 2.58694e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.05251e-01\tAbsError: 2.85806e+12\n", - " Region: \"zone_1\"\tRelError: 2.46961e-02\tAbsError: 1.31065e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.46961e-02\tAbsError: 1.31065e-02\n", - " Region: \"zone_3\"\tRelError: 4.80555e-01\tAbsError: 2.85806e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.31249e-01\tAbsError: 1.68183e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.24321e-01\tAbsError: 1.17623e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49853e-02\tAbsError: 1.31065e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.59361e-01\tAbsError: 2.03855e+11\n", - " Region: \"zone_1\"\tRelError: 1.21525e-04\tAbsError: 1.10173e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21525e-04\tAbsError: 1.10173e-06\n", - " Region: \"zone_3\"\tRelError: 1.59240e-01\tAbsError: 2.03855e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.58701e-01\tAbsError: 6.56291e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.35370e-04\tAbsError: 1.38226e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.20073e-06\tAbsError: 1.24268e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.74278e-01\tAbsError: 2.59384e+12\n", - " Region: \"zone_1\"\tRelError: 2.28487e-02\tAbsError: 1.22654e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.28487e-02\tAbsError: 1.22654e-02\n", - " Region: \"zone_3\"\tRelError: 4.51429e-01\tAbsError: 2.59384e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.16516e-01\tAbsError: 1.52691e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.11789e-01\tAbsError: 1.06693e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.31245e-02\tAbsError: 1.22654e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.87738e-01\tAbsError: 1.50257e+12\n", - " Region: \"zone_1\"\tRelError: 1.63299e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.63299e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.71408e-01\tAbsError: 1.50257e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88723e-01\tAbsError: 2.92089e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.61472e-02\tAbsError: 1.21048e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65380e-02\tAbsError: 9.16534e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 6.67356e-01\tAbsError: 4.97105e+12\n", - " Region: \"zone_1\"\tRelError: 3.52993e-02\tAbsError: 1.76835e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.52993e-02\tAbsError: 1.76835e-02\n", - " Region: \"zone_3\"\tRelError: 6.32056e-01\tAbsError: 4.97105e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.01229e-01\tAbsError: 2.83328e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.95149e-01\tAbsError: 2.13777e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.56785e-02\tAbsError: 1.76835e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.18030e-06\tAbsError: 1.23059e+06\n", - " Region: \"zone_1\"\tRelError: 2.53347e-11\tAbsError: 5.61891e-12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.53347e-11\tAbsError: 5.61891e-12\n", - " Region: \"zone_3\"\tRelError: 2.18028e-06\tAbsError: 1.23059e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.16612e-06\tAbsError: 1.68178e+05\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.41360e-08\tAbsError: 1.06241e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.46617e-11\tAbsError: 6.26882e-12\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.19005e-01\tAbsError: 5.46470e+11\n", - " Region: \"zone_1\"\tRelError: 5.19598e-04\tAbsError: 3.00981e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.19598e-04\tAbsError: 3.00981e-06\n", - " Region: \"zone_3\"\tRelError: 1.18486e-01\tAbsError: 5.46470e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.18069e-01\tAbsError: 1.59389e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.09405e-04\tAbsError: 3.87081e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 7.48302e-06\tAbsError: 3.25953e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:47\u001b[0m.\u001b[1;36m224\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:47\u001b[0m.\u001b[1;36m224\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.45999999999999996\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.32086e-01\tAbsError: 3.58732e+11\n", - " Region: \"zone_1\"\tRelError: 3.52069e-03\tAbsError: 3.46952e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.52069e-03\tAbsError: 3.46952e-06\n", - " Region: \"zone_3\"\tRelError: 1.28565e-01\tAbsError: 3.58732e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28060e-01\tAbsError: 1.88253e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.95953e-04\tAbsError: 1.70479e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 8.82064e-06\tAbsError: 3.74489e-06\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.96849e-02\tAbsError: 2.07362e+12\n", - " Region: \"zone_1\"\tRelError: 7.02885e-04\tAbsError: 1.90198e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.02885e-04\tAbsError: 1.90198e-05\n", - " Region: \"zone_3\"\tRelError: 8.89820e-02\tAbsError: 2.07362e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.78375e-02\tAbsError: 8.90891e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10276e-03\tAbsError: 1.18273e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.17313e-05\tAbsError: 1.96984e-05\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.85665e-01\tAbsError: 3.55505e+11\n", - " Region: \"zone_1\"\tRelError: 1.22203e-03\tAbsError: 2.29161e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.22203e-03\tAbsError: 2.29161e-06\n", - " Region: \"zone_3\"\tRelError: 1.84443e-01\tAbsError: 3.55505e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.83320e-01\tAbsError: 1.35128e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.11619e-03\tAbsError: 2.20377e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 6.84121e-06\tAbsError: 2.55517e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.40982e-05\tAbsError: 1.92019e+08\n", - " Region: \"zone_1\"\tRelError: 4.03285e-08\tAbsError: 1.17477e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 4.03285e-08\tAbsError: 1.17477e-09\n", - " Region: \"zone_3\"\tRelError: 3.40579e-05\tAbsError: 1.92019e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.36060e-05\tAbsError: 5.55444e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.49187e-07\tAbsError: 1.36475e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 2.67835e-09\tAbsError: 1.26430e-09\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.06553e-05\tAbsError: 3.01286e+06\n", - " Region: \"zone_1\"\tRelError: 1.31838e-08\tAbsError: 2.69287e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31838e-08\tAbsError: 2.69287e-11\n", - " Region: \"zone_3\"\tRelError: 1.06421e-05\tAbsError: 3.01286e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.05960e-05\tAbsError: 5.16247e+05\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.60244e-08\tAbsError: 2.49661e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.27167e-11\tAbsError: 2.84312e-11\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:47\u001b[0m.\u001b[1;36m647\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.5 V. Current applied bias: 0.4\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:47\u001b[0m.\u001b[1;36m649\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.55 V. Current applied bias: 0.4375\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Iteration: 5\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 8.63620e-06\tAbsError: 2.22522e+06\n", - " Region: \"zone_1\"\tRelError: 2.53869e-09\tAbsError: 2.37681e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.53869e-09\tAbsError: 2.37681e-11\n", - " Region: \"zone_3\"\tRelError: 8.63366e-06\tAbsError: 2.22522e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.60416e-06\tAbsError: 5.72923e+05\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.94484e-08\tAbsError: 1.65229e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.35026e-11\tAbsError: 2.45711e-11\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 5\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 5.34503e-06\tAbsError: 4.05779e+06\n", - " Region: \"zone_1\"\tRelError: 3.22995e-10\tAbsError: 2.21843e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.22995e-10\tAbsError: 2.21843e-11\n", - " Region: \"zone_3\"\tRelError: 5.34471e-06\tAbsError: 4.05779e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.27797e-06\tAbsError: 6.65666e+05\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.66791e-08\tAbsError: 3.39213e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.85320e-11\tAbsError: 2.41530e-11\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:47\u001b[0m.\u001b[1;36m741\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:47\u001b[0m.\u001b[1;36m741\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.43000000000000005\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:47\u001b[0m.\u001b[1;36m776\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.6 V. Current applied bias: 0.475\u001b[0m \n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.64361e+01\tAbsError: 1.00688e+16\n", - " Region: \"zone_1\"\tRelError: 1.46549e+01\tAbsError: 4.47728e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.46549e+01\tAbsError: 4.47728e-02\n", - " Region: \"zone_3\"\tRelError: 1.78122e+00\tAbsError: 1.00688e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.22740e-01\tAbsError: 5.91653e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.22726e-01\tAbsError: 4.15223e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35753e-01\tAbsError: 4.47728e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.36121e+00\tAbsError: 9.46924e+15\n", - " Region: \"zone_1\"\tRelError: 3.60591e+00\tAbsError: 4.34059e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.60591e+00\tAbsError: 4.34059e-02\n", - " Region: \"zone_3\"\tRelError: 1.75530e+00\tAbsError: 9.46924e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.13131e-01\tAbsError: 5.54964e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.13117e-01\tAbsError: 3.91961e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29049e-01\tAbsError: 4.34059e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.56244e+00\tAbsError: 8.45570e+15\n", - " Region: \"zone_1\"\tRelError: 3.85573e+00\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.85573e+00\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.70670e+00\tAbsError: 8.45570e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94571e-01\tAbsError: 4.92914e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94557e-01\tAbsError: 3.52655e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17574e-01\tAbsError: 4.09542e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 4.57466e+00\tAbsError: 9.26788e+15\n", - " Region: \"zone_1\"\tRelError: 2.82864e+00\tAbsError: 4.29338e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.82864e+00\tAbsError: 4.29338e-02\n", - " Region: \"zone_3\"\tRelError: 1.74602e+00\tAbsError: 9.26788e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09693e-01\tAbsError: 5.42632e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.09679e-01\tAbsError: 3.84156e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.26649e-01\tAbsError: 4.29338e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.02844e+01\tAbsError: 1.04643e+16\n", - " Region: \"zone_1\"\tRelError: 1.84861e+01\tAbsError: 4.56455e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.84861e+01\tAbsError: 4.56455e-02\n", - " Region: \"zone_3\"\tRelError: 1.79828e+00\tAbsError: 1.04643e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.28615e-01\tAbsError: 6.15809e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.28601e-01\tAbsError: 4.30618e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.41062e-01\tAbsError: 4.56455e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.89083e+00\tAbsError: 4.70583e+14\n", - " Region: \"zone_1\"\tRelError: 2.07990e-01\tAbsError: 3.52793e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.07990e-01\tAbsError: 3.52793e-02\n", - " Region: \"zone_3\"\tRelError: 1.68284e+00\tAbsError: 4.70583e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.41003e-01\tAbsError: 3.14025e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.36896e-01\tAbsError: 1.56557e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04944e-01\tAbsError: 3.52793e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.75354e+00\tAbsError: 4.15023e+14\n", - " Region: \"zone_1\"\tRelError: 1.11621e-01\tAbsError: 3.36589e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11621e-01\tAbsError: 3.36589e-02\n", - " Region: \"zone_3\"\tRelError: 1.64192e+00\tAbsError: 4.15023e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.24008e-01\tAbsError: 2.68102e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.20579e-01\tAbsError: 1.46921e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.73304e-02\tAbsError: 3.36589e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.67739e+00\tAbsError: 3.26551e+14\n", - " Region: \"zone_1\"\tRelError: 1.13651e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13651e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.56374e+00\tAbsError: 3.26551e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91179e-01\tAbsError: 1.98410e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.87607e-01\tAbsError: 1.28141e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.49517e-02\tAbsError: 3.07632e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.73313e+00\tAbsError: 3.96589e+14\n", - " Region: \"zone_1\"\tRelError: 1.05624e-01\tAbsError: 3.31000e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.05624e-01\tAbsError: 3.31000e-02\n", - " Region: \"zone_3\"\tRelError: 1.62751e+00\tAbsError: 3.96589e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.17540e-01\tAbsError: 2.53211e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.15147e-01\tAbsError: 1.43378e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.48212e-02\tAbsError: 3.31000e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.03555e+00\tAbsError: 5.15225e+14\n", - " Region: \"zone_1\"\tRelError: 3.28232e-01\tAbsError: 3.63154e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.28232e-01\tAbsError: 3.63154e-02\n", - " Region: \"zone_3\"\tRelError: 1.70731e+00\tAbsError: 5.15225e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.51762e-01\tAbsError: 3.53233e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.46051e-01\tAbsError: 1.61993e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09502e-01\tAbsError: 3.63154e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.37866e+00\tAbsError: 9.07304e+13\n", - " Region: \"zone_1\"\tRelError: 8.45133e-02\tAbsError: 2.58376e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.45133e-02\tAbsError: 2.58376e-02\n", - " Region: \"zone_3\"\tRelError: 1.29414e+00\tAbsError: 9.07304e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.01230e-01\tAbsError: 6.48171e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.08400e-01\tAbsError: 2.59132e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.45133e-02\tAbsError: 2.58376e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.13583e+00\tAbsError: 3.35166e+13\n", - " Region: \"zone_1\"\tRelError: 6.49986e-02\tAbsError: 2.58787e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.49986e-02\tAbsError: 2.58787e-02\n", - " Region: \"zone_3\"\tRelError: 1.07083e+00\tAbsError: 3.35166e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14794e-01\tAbsError: 2.31889e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.90894e-01\tAbsError: 1.03277e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.51440e-02\tAbsError: 2.58923e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.29377e+00\tAbsError: 6.84080e+13\n", - " Region: \"zone_1\"\tRelError: 7.72791e-02\tAbsError: 2.58679e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.72791e-02\tAbsError: 2.58679e-02\n", - " Region: \"zone_3\"\tRelError: 1.21649e+00\tAbsError: 6.84080e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.71768e-01\tAbsError: 5.01523e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.67427e-01\tAbsError: 1.82557e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.72992e-02\tAbsError: 2.58679e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.43276e+00\tAbsError: 1.07866e+14\n", - " Region: \"zone_1\"\tRelError: 8.84483e-02\tAbsError: 2.55894e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.84483e-02\tAbsError: 2.55894e-02\n", - " Region: \"zone_3\"\tRelError: 1.34431e+00\tAbsError: 1.07866e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.19179e-01\tAbsError: 7.49207e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.35012e-01\tAbsError: 3.29455e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.01174e-02\tAbsError: 2.58079e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 6.27863e-01\tAbsError: 1.70405e+13\n", - " Region: \"zone_1\"\tRelError: 4.19952e-02\tAbsError: 1.57805e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.19952e-02\tAbsError: 1.57805e-02\n", - " Region: \"zone_3\"\tRelError: 5.85867e-01\tAbsError: 1.70405e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.73355e-01\tAbsError: 8.63901e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.70241e-01\tAbsError: 8.40152e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.22716e-02\tAbsError: 1.57805e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.26176e+00\tAbsError: 6.17820e+13\n", - " Region: \"zone_1\"\tRelError: 7.36238e-02\tAbsError: 2.56439e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.36238e-02\tAbsError: 2.56439e-02\n", - " Region: \"zone_3\"\tRelError: 1.18814e+00\tAbsError: 6.17820e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.61240e-01\tAbsError: 4.55005e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.51872e-01\tAbsError: 1.62815e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.50269e-02\tAbsError: 2.58894e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.97006e-01\tAbsError: 3.97798e+12\n", - " Region: \"zone_1\"\tRelError: 2.05644e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.05644e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.76441e-01\tAbsError: 3.97798e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88505e-01\tAbsError: 1.01871e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.71832e-02\tAbsError: 2.95927e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.07533e-02\tAbsError: 9.16534e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.23128e-01\tAbsError: 9.62684e+12\n", - " Region: \"zone_1\"\tRelError: 3.26236e-02\tAbsError: 1.31065e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.26236e-02\tAbsError: 1.31065e-02\n", - " Region: \"zone_3\"\tRelError: 4.90504e-01\tAbsError: 9.62684e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.30875e-01\tAbsError: 4.28253e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.26769e-01\tAbsError: 5.34431e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.28603e-02\tAbsError: 1.31065e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 7.00731e-01\tAbsError: 2.44819e+13\n", - " Region: \"zone_1\"\tRelError: 4.92915e-02\tAbsError: 1.76835e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.92915e-02\tAbsError: 1.76835e-02\n", - " Region: \"zone_3\"\tRelError: 6.51440e-01\tAbsError: 2.44819e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.00079e-01\tAbsError: 1.28123e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.01755e-01\tAbsError: 1.16695e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.96058e-02\tAbsError: 1.76835e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.89862e-01\tAbsError: 7.99664e+12\n", - " Region: \"zone_1\"\tRelError: 2.98842e-02\tAbsError: 1.22654e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.98842e-02\tAbsError: 1.22654e-02\n", - " Region: \"zone_3\"\tRelError: 4.59978e-01\tAbsError: 7.99664e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.16917e-01\tAbsError: 3.30963e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.12949e-01\tAbsError: 4.68701e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.01113e-02\tAbsError: 1.22654e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.61764e-01\tAbsError: 1.88685e+12\n", - " Region: \"zone_1\"\tRelError: 8.28721e-05\tAbsError: 8.34626e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.28721e-05\tAbsError: 8.34626e-06\n", - " Region: \"zone_3\"\tRelError: 1.61681e-01\tAbsError: 1.88685e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.59331e-01\tAbsError: 9.23461e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.31979e-03\tAbsError: 9.63390e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.04564e-05\tAbsError: 8.70001e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.28686e-01\tAbsError: 7.78584e+11\n", - " Region: \"zone_1\"\tRelError: 8.41818e-05\tAbsError: 5.98192e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.41818e-05\tAbsError: 5.98192e-06\n", - " Region: \"zone_3\"\tRelError: 1.28601e-01\tAbsError: 7.78584e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.27790e-01\tAbsError: 3.25797e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.90479e-04\tAbsError: 4.52787e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.13119e-05\tAbsError: 6.66099e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.75905e-02\tAbsError: 6.14178e+11\n", - " Region: \"zone_1\"\tRelError: 1.87871e-04\tAbsError: 5.35919e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87871e-04\tAbsError: 5.35919e-06\n", - " Region: \"zone_3\"\tRelError: 8.74026e-02\tAbsError: 6.14178e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.70791e-02\tAbsError: 2.57149e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.08574e-04\tAbsError: 3.57029e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49985e-05\tAbsError: 5.65537e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.86955e-01\tAbsError: 3.78131e+12\n", - " Region: \"zone_1\"\tRelError: 1.86505e-04\tAbsError: 1.66794e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86505e-04\tAbsError: 1.66794e-05\n", - " Region: \"zone_3\"\tRelError: 1.86768e-01\tAbsError: 3.78131e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.82184e-01\tAbsError: 1.93089e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.52284e-03\tAbsError: 1.85042e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 6.18724e-05\tAbsError: 1.90993e-05\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.19535e-01\tAbsError: 7.67511e+11\n", - " Region: \"zone_1\"\tRelError: 1.02132e-04\tAbsError: 6.40339e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02132e-04\tAbsError: 6.40339e-06\n", - " Region: \"zone_3\"\tRelError: 1.19432e-01\tAbsError: 7.67511e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.18713e-01\tAbsError: 3.47334e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.98127e-04\tAbsError: 4.20177e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.17746e-05\tAbsError: 7.06173e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.50521e-05\tAbsError: 3.76327e+08\n", - " Region: \"zone_1\"\tRelError: 3.48964e-08\tAbsError: 3.16416e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.48964e-08\tAbsError: 3.16416e-09\n", - " Region: \"zone_3\"\tRelError: 3.50172e-05\tAbsError: 3.76327e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.44276e-05\tAbsError: 2.07077e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.78619e-07\tAbsError: 1.69251e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10178e-08\tAbsError: 3.56939e-09\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:49\u001b[0m.\u001b[1;36m790\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: 0.58\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.49501e-05\tAbsError: 5.71953e+07\n", - " Region: \"zone_1\"\tRelError: 5.68261e-09\tAbsError: 4.84224e-10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.68261e-09\tAbsError: 4.84224e-10\n", - " Region: \"zone_3\"\tRelError: 1.49444e-05\tAbsError: 5.71953e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.48629e-05\tAbsError: 3.20709e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.97586e-08\tAbsError: 2.51244e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72322e-09\tAbsError: 5.34422e-10\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 9.95471e-06\tAbsError: 1.37438e+07\n", - " Region: \"zone_1\"\tRelError: 1.96050e-09\tAbsError: 6.30623e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.96050e-09\tAbsError: 6.30623e-11\n", - " Region: \"zone_3\"\tRelError: 9.95275e-06\tAbsError: 1.37438e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.91827e-06\tAbsError: 3.21260e+06\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.43047e-08\tAbsError: 1.05312e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.78389e-10\tAbsError: 6.72817e-11\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:49\u001b[0m.\u001b[1;36m913\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.55 V. Current applied bias: 0.55\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:49\u001b[0m.\u001b[1;36m961\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.5 V. Current applied bias: 0.5\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 5\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 7.08853e-05\tAbsError: 1.42552e+09\n", - " Region: \"zone_1\"\tRelError: 4.19440e-07\tAbsError: 1.37162e-08\n", - " Equation: \"PotentialEquation\"\tRelError: 4.19440e-07\tAbsError: 1.37162e-08\n", - " Region: \"zone_3\"\tRelError: 7.04658e-05\tAbsError: 1.42552e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.80448e-05\tAbsError: 7.64375e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.36999e-06\tAbsError: 6.61144e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 5.10689e-08\tAbsError: 1.57552e-08\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:50\u001b[0m.\u001b[1;36m078\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.6 V. Current applied bias: 0.6\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Iteration: 5\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 1.39115e-05\tAbsError: 3.56195e+07\n", - " Region: \"zone_1\"\tRelError: 4.59619e-09\tAbsError: 3.23674e-10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.59619e-09\tAbsError: 3.23674e-10\n", - " Region: \"zone_3\"\tRelError: 1.39069e-05\tAbsError: 3.56195e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.38108e-05\tAbsError: 1.93540e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.49639e-08\tAbsError: 1.62655e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15594e-09\tAbsError: 3.70759e-10\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:50\u001b[0m.\u001b[1;36m181\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: 0.54\u001b[0m \n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.63822e+02\tAbsError: 9.99860e+15\n", - " Region: \"zone_1\"\tRelError: 1.62022e+02\tAbsError: 4.47728e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.62022e+02\tAbsError: 4.47728e-02\n", - " Region: \"zone_3\"\tRelError: 1.80004e+00\tAbsError: 9.99860e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.22736e-01\tAbsError: 5.99873e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.22714e-01\tAbsError: 3.99987e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.54591e-01\tAbsError: 4.47728e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.18638e+01\tAbsError: 9.38144e+15\n", - " Region: \"zone_1\"\tRelError: 3.00933e+01\tAbsError: 4.34059e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.00933e+01\tAbsError: 4.34059e-02\n", - " Region: \"zone_3\"\tRelError: 1.77059e+00\tAbsError: 9.38144e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.13128e-01\tAbsError: 5.61995e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.13108e-01\tAbsError: 3.76149e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.44356e-01\tAbsError: 4.34059e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.87556e+01\tAbsError: 8.34767e+15\n", - " Region: \"zone_1\"\tRelError: 6.70313e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.70313e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.72426e+00\tAbsError: 8.34767e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94570e-01\tAbsError: 4.96926e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94551e-01\tAbsError: 3.37841e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35138e-01\tAbsError: 4.09542e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.68568e+01\tAbsError: 1.04087e+16\n", - " Region: \"zone_1\"\tRelError: 1.50335e+01\tAbsError: 4.56455e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.50335e+01\tAbsError: 4.56455e-02\n", - " Region: \"zone_3\"\tRelError: 1.82326e+00\tAbsError: 1.04087e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.28610e-01\tAbsError: 6.24214e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.28586e-01\tAbsError: 4.16658e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66069e-01\tAbsError: 4.56455e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.50411e+01\tAbsError: 9.17516e+15\n", - " Region: \"zone_1\"\tRelError: 2.32813e+01\tAbsError: 4.29338e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.32813e+01\tAbsError: 4.29338e-02\n", - " Region: \"zone_3\"\tRelError: 1.75981e+00\tAbsError: 9.17516e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09690e-01\tAbsError: 5.49119e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.09670e-01\tAbsError: 3.68397e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40449e-01\tAbsError: 4.29338e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.96710e+00\tAbsError: 7.06642e+14\n", - " Region: \"zone_1\"\tRelError: 2.55041e-01\tAbsError: 3.52793e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.55041e-01\tAbsError: 3.52793e-02\n", - " Region: \"zone_3\"\tRelError: 1.71206e+00\tAbsError: 7.06642e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.41689e-01\tAbsError: 4.35939e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.35147e-01\tAbsError: 2.70703e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35224e-01\tAbsError: 3.52793e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.22954e+00\tAbsError: 5.42067e+14\n", - " Region: \"zone_1\"\tRelError: 5.61058e-01\tAbsError: 3.36589e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.61058e-01\tAbsError: 3.36589e-02\n", - " Region: \"zone_3\"\tRelError: 1.66849e+00\tAbsError: 5.42067e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.24386e-01\tAbsError: 3.71154e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.20213e-01\tAbsError: 1.70913e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.23887e-01\tAbsError: 3.36589e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.18244e+00\tAbsError: 3.45808e+14\n", - " Region: \"zone_1\"\tRelError: 5.95786e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95786e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.58666e+00\tAbsError: 3.45808e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91491e-01\tAbsError: 2.56450e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.87672e-01\tAbsError: 8.93573e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07491e-01\tAbsError: 3.07632e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.94995e+00\tAbsError: 8.76084e+14\n", - " Region: \"zone_1\"\tRelError: 2.06767e-01\tAbsError: 3.63154e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06767e-01\tAbsError: 3.63154e-02\n", - " Region: \"zone_3\"\tRelError: 1.74318e+00\tAbsError: 8.76084e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.52450e-01\tAbsError: 4.97626e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.43319e-01\tAbsError: 3.78459e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.47410e-01\tAbsError: 3.63154e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.82843e+00\tAbsError: 4.96905e+14\n", - " Region: \"zone_1\"\tRelError: 1.74894e-01\tAbsError: 3.31000e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74894e-01\tAbsError: 3.31000e-02\n", - " Region: \"zone_3\"\tRelError: 1.65354e+00\tAbsError: 4.96905e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.18406e-01\tAbsError: 3.48442e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.14285e-01\tAbsError: 1.48463e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20848e-01\tAbsError: 3.31000e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.65271e+00\tAbsError: 2.27191e+14\n", - " Region: \"zone_1\"\tRelError: 3.95002e-01\tAbsError: 2.57709e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.95002e-01\tAbsError: 2.57709e-02\n", - " Region: \"zone_3\"\tRelError: 1.25770e+00\tAbsError: 2.27191e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.72445e-01\tAbsError: 1.34608e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.75411e-01\tAbsError: 9.25828e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09847e-01\tAbsError: 2.58536e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.10064e+00\tAbsError: 4.54473e+14\n", - " Region: \"zone_1\"\tRelError: 7.63192e-01\tAbsError: 2.58969e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.63192e-01\tAbsError: 2.58969e-02\n", - " Region: \"zone_3\"\tRelError: 1.33745e+00\tAbsError: 4.54473e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.02310e-01\tAbsError: 2.67136e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.12917e-01\tAbsError: 1.87336e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.22224e-01\tAbsError: 2.58495e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.19247e+00\tAbsError: 8.54805e+13\n", - " Region: \"zone_1\"\tRelError: 9.12229e-02\tAbsError: 2.58978e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.12229e-02\tAbsError: 2.58978e-02\n", - " Region: \"zone_3\"\tRelError: 1.10125e+00\tAbsError: 8.54805e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14822e-01\tAbsError: 5.48784e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.98551e-01\tAbsError: 3.06021e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.78742e-02\tAbsError: 2.58989e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.74358e+00\tAbsError: 6.95805e+14\n", - " Region: \"zone_1\"\tRelError: 3.59029e-01\tAbsError: 2.58870e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.59029e-01\tAbsError: 2.58870e-02\n", - " Region: \"zone_3\"\tRelError: 1.38455e+00\tAbsError: 6.95805e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.20623e-01\tAbsError: 3.94554e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.32523e-01\tAbsError: 3.01251e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31406e-01\tAbsError: 2.58603e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.37737e+00\tAbsError: 1.78105e+14\n", - " Region: \"zone_1\"\tRelError: 1.48634e-01\tAbsError: 2.57619e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.48634e-01\tAbsError: 2.57619e-02\n", - " Region: \"zone_3\"\tRelError: 1.22873e+00\tAbsError: 1.78105e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.61703e-01\tAbsError: 1.04558e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.61460e-01\tAbsError: 7.35471e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.05569e-01\tAbsError: 2.58968e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 6.80745e-01\tAbsError: 1.10410e+14\n", - " Region: \"zone_1\"\tRelError: 1.47166e-01\tAbsError: 1.31065e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.47166e-01\tAbsError: 1.31065e-02\n", - " Region: \"zone_3\"\tRelError: 5.33579e-01\tAbsError: 1.10410e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.30651e-01\tAbsError: 5.09385e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.57058e-01\tAbsError: 5.94711e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.58703e-02\tAbsError: 1.31065e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 8.32791e-01\tAbsError: 2.51857e+14\n", - " Region: \"zone_1\"\tRelError: 1.94730e-01\tAbsError: 1.57805e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.94730e-01\tAbsError: 1.57805e-02\n", - " Region: \"zone_3\"\tRelError: 6.38061e-01\tAbsError: 2.51857e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.74054e-01\tAbsError: 1.12814e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.03778e-01\tAbsError: 1.39043e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.02300e-02\tAbsError: 1.57805e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 7.88147e-01\tAbsError: 4.23450e+14\n", - " Region: \"zone_1\"\tRelError: 8.68826e-02\tAbsError: 1.76835e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.68826e-02\tAbsError: 1.76835e-02\n", - " Region: \"zone_3\"\tRelError: 7.01264e-01\tAbsError: 4.23450e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.01742e-01\tAbsError: 1.87764e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.28166e-01\tAbsError: 2.35687e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.13557e-02\tAbsError: 1.76835e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.52183e-01\tAbsError: 2.83225e+13\n", - " Region: \"zone_1\"\tRelError: 5.95279e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95279e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.92655e-01\tAbsError: 2.83225e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.85164e-01\tAbsError: 1.34603e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.99920e-02\tAbsError: 1.48622e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.74993e-02\tAbsError: 9.16534e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.72011e-01\tAbsError: 8.49829e+13\n", - " Region: \"zone_1\"\tRelError: 7.44559e-02\tAbsError: 1.22654e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.44559e-02\tAbsError: 1.22654e-02\n", - " Region: \"zone_3\"\tRelError: 4.97555e-01\tAbsError: 8.49829e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.15246e-01\tAbsError: 4.00907e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.40638e-01\tAbsError: 4.48922e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.16711e-02\tAbsError: 1.22654e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.57506e-01\tAbsError: 2.43354e+13\n", - " Region: \"zone_1\"\tRelError: 1.98853e-02\tAbsError: 1.46090e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.98853e-02\tAbsError: 1.46090e-04\n", - " Region: \"zone_3\"\tRelError: 1.37621e-01\tAbsError: 2.43354e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.25248e-01\tAbsError: 1.21923e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.16835e-02\tAbsError: 1.21432e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.88777e-04\tAbsError: 1.56043e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.32076e-01\tAbsError: 6.53765e+13\n", - " Region: \"zone_1\"\tRelError: 4.91696e-02\tAbsError: 3.68622e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.91696e-02\tAbsError: 3.68622e-04\n", - " Region: \"zone_3\"\tRelError: 1.82906e-01\tAbsError: 6.53765e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.53357e-01\tAbsError: 3.17111e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.76638e-02\tAbsError: 3.36654e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88533e-03\tAbsError: 3.90599e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.59308e-01\tAbsError: 1.15477e+14\n", - " Region: \"zone_1\"\tRelError: 3.78271e-02\tAbsError: 6.12666e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.78271e-02\tAbsError: 6.12666e-04\n", - " Region: \"zone_3\"\tRelError: 2.21481e-01\tAbsError: 1.15477e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.73784e-01\tAbsError: 5.52720e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.43391e-02\tAbsError: 6.02054e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.35832e-03\tAbsError: 6.56549e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.52644e-02\tAbsError: 2.55837e+12\n", - " Region: \"zone_1\"\tRelError: 7.16041e-03\tAbsError: 2.30338e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.16041e-03\tAbsError: 2.30338e-05\n", - " Region: \"zone_3\"\tRelError: 8.81040e-02\tAbsError: 2.55837e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.71797e-02\tAbsError: 1.35830e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.38768e-04\tAbsError: 1.20006e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.54583e-05\tAbsError: 2.40500e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.03413e-04\tAbsError: 7.94574e+10\n", - " Region: \"zone_1\"\tRelError: 6.70321e-05\tAbsError: 5.82251e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 6.70321e-05\tAbsError: 5.82251e-07\n", - " Region: \"zone_3\"\tRelError: 4.36381e-04\tAbsError: 7.94574e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.00904e-04\tAbsError: 5.18181e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.27552e-05\tAbsError: 2.76393e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.72259e-06\tAbsError: 6.15178e-07\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.54505e-03\tAbsError: 5.10916e+11\n", - " Region: \"zone_1\"\tRelError: 4.30658e-04\tAbsError: 3.74485e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.30658e-04\tAbsError: 3.74485e-06\n", - " Region: \"zone_3\"\tRelError: 1.11439e-03\tAbsError: 5.10916e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.36752e-04\tAbsError: 3.20803e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.58614e-04\tAbsError: 1.90113e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.90289e-05\tAbsError: 3.92494e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.35620e-01\tAbsError: 1.72712e+13\n", - " Region: \"zone_1\"\tRelError: 9.74579e-03\tAbsError: 1.05058e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.74579e-03\tAbsError: 1.05058e-04\n", - " Region: \"zone_3\"\tRelError: 1.25874e-01\tAbsError: 1.72712e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.17031e-01\tAbsError: 8.70382e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.35880e-03\tAbsError: 8.56740e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.84384e-04\tAbsError: 1.13804e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.58292e-05\tAbsError: 4.59514e+08\n", - " Region: \"zone_1\"\tRelError: 9.81723e-07\tAbsError: 3.18909e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 9.81723e-07\tAbsError: 3.18909e-09\n", - " Region: \"zone_3\"\tRelError: 3.48474e-05\tAbsError: 4.59514e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.45053e-05\tAbsError: 3.33895e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.30263e-07\tAbsError: 1.25619e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18628e-08\tAbsError: 3.31754e-09\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.52128e-09\tAbsError: 1.00152e+06\n", - " Region: \"zone_1\"\tRelError: 5.76028e-10\tAbsError: 7.90239e-12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.76028e-10\tAbsError: 7.90239e-12\n", - " Region: \"zone_3\"\tRelError: 5.94525e-09\tAbsError: 1.00152e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.51837e-09\tAbsError: 7.00920e+05\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.93070e-10\tAbsError: 3.00596e+05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.38074e-11\tAbsError: 8.27676e-12\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.27011e-03\tAbsError: 1.28677e+12\n", - " Region: \"zone_1\"\tRelError: 5.62187e-04\tAbsError: 1.00891e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.62187e-04\tAbsError: 1.00891e-05\n", - " Region: \"zone_3\"\tRelError: 1.70792e-03\tAbsError: 1.28677e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34924e-03\tAbsError: 7.92563e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.04077e-04\tAbsError: 4.94210e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.46001e-05\tAbsError: 1.06469e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.16833e-07\tAbsError: 3.97603e+07\n", - " Region: \"zone_1\"\tRelError: 2.48086e-08\tAbsError: 2.94098e-10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.48086e-08\tAbsError: 2.94098e-10\n", - " Region: \"zone_3\"\tRelError: 9.20242e-08\tAbsError: 3.97603e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.92851e-08\tAbsError: 2.72716e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.13386e-08\tAbsError: 1.24887e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40050e-09\tAbsError: 3.06568e-10\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.15889e-04\tAbsError: 3.71681e+10\n", - " Region: \"zone_1\"\tRelError: 2.41579e-05\tAbsError: 2.90587e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.41579e-05\tAbsError: 2.90587e-07\n", - " Region: \"zone_3\"\tRelError: 2.91731e-04\tAbsError: 3.71681e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.74902e-04\tAbsError: 2.46870e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.54957e-05\tAbsError: 1.24811e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33364e-06\tAbsError: 3.11133e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:52\u001b[0m.\u001b[1;36m657\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: 0.7\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.90842e-07\tAbsError: 2.29484e+08\n", - " Region: \"zone_1\"\tRelError: 8.07789e-08\tAbsError: 1.50187e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 8.07789e-08\tAbsError: 1.50187e-09\n", - " Region: \"zone_3\"\tRelError: 3.10063e-07\tAbsError: 2.29484e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52989e-07\tAbsError: 1.55818e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.89546e-08\tAbsError: 7.36663e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 8.11933e-09\tAbsError: 1.58002e-09\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.90380e-09\tAbsError: 2.12026e+05\n", - " Region: \"zone_1\"\tRelError: 1.00300e-10\tAbsError: 1.55136e-12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00300e-10\tAbsError: 1.55136e-12\n", - " Region: \"zone_3\"\tRelError: 1.80350e-09\tAbsError: 2.12026e+05\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.71088e-09\tAbsError: 1.50477e+05\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.62945e-11\tAbsError: 6.15487e+04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.32889e-12\tAbsError: 1.60667e-12\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:52\u001b[0m.\u001b[1;36m992\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: 0.65\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:53\u001b[0m.\u001b[1;36m186\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.97666e+00\tAbsError: 1.01000e+16\n", - " Region: \"zone_1\"\tRelError: 6.10143e+00\tAbsError: 4.47728e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.10143e+00\tAbsError: 4.47728e-02\n", - " Region: \"zone_3\"\tRelError: 1.87523e+00\tAbsError: 1.01000e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.22692e-01\tAbsError: 5.64880e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.22609e-01\tAbsError: 4.45116e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29929e-01\tAbsError: 4.47728e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:53\u001b[0m.\u001b[1;36m220\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.75 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:53\u001b[0m.\u001b[1;36m249\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.04122e+01\tAbsError: 9.15719e+15\n", - " Region: \"zone_1\"\tRelError: 5.85997e+01\tAbsError: 4.29338e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.85997e+01\tAbsError: 4.29338e-02\n", - " Region: \"zone_3\"\tRelError: 1.81249e+00\tAbsError: 9.15719e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09671e-01\tAbsError: 5.35064e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.09616e-01\tAbsError: 3.80655e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.93207e-01\tAbsError: 4.29338e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.14611e+00\tAbsError: 5.45375e+15\n", - " Region: \"zone_1\"\tRelError: 3.96880e-01\tAbsError: 3.52793e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.96880e-01\tAbsError: 3.52793e-02\n", - " Region: \"zone_3\"\tRelError: 1.74923e+00\tAbsError: 5.45375e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.40967e-01\tAbsError: 2.70333e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.16719e-01\tAbsError: 2.75043e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.91546e-01\tAbsError: 3.52793e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:53\u001b[0m.\u001b[1;36m537\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:53\u001b[0m.\u001b[1;36m586\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.8 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:53\u001b[0m.\u001b[1;36m624\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.17038e+03\tAbsError: 3.32754e+16\n", - " Region: \"zone_1\"\tRelError: 8.06380e+02\tAbsError: 7.25190e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.06380e+02\tAbsError: 7.25190e-02\n", - " Region: \"zone_3\"\tRelError: 1.36400e+03\tAbsError: 3.32754e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.34381e+02\tAbsError: 1.98676e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.29412e+02\tAbsError: 1.34077e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03625e-01\tAbsError: 7.25190e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:53\u001b[0m.\u001b[1;36m739\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:53\u001b[0m.\u001b[1;36m768\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.85 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:53\u001b[0m.\u001b[1;36m796\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: 0.1\u001b[0m \n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.66737e+00\tAbsError: 2.26108e+15\n", - " Region: \"zone_1\"\tRelError: 9.89112e-01\tAbsError: 3.31000e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.89112e-01\tAbsError: 3.31000e-02\n", - " Region: \"zone_3\"\tRelError: 1.67826e+00\tAbsError: 2.26108e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.18687e-01\tAbsError: 1.24573e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.03123e-01\tAbsError: 1.01535e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.56453e-01\tAbsError: 3.31000e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.52675e+00\tAbsError: 5.28945e+15\n", - " Region: \"zone_1\"\tRelError: 1.72040e-01\tAbsError: 2.58808e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72040e-01\tAbsError: 2.58808e-02\n", - " Region: \"zone_3\"\tRelError: 1.35471e+00\tAbsError: 5.28945e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.06193e-01\tAbsError: 2.41324e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.69802e-01\tAbsError: 2.87620e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.78720e-01\tAbsError: 2.55235e-02\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.24679e+02\tAbsError: 4.01088e+15\n", - " Region: \"zone_1\"\tRelError: 3.95733e+00\tAbsError: 6.76846e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.95733e+00\tAbsError: 6.76846e-02\n", - " Region: \"zone_3\"\tRelError: 3.20722e+02\tAbsError: 4.01088e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.70129e+01\tAbsError: 2.67793e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.93558e+02\tAbsError: 1.33295e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51138e-01\tAbsError: 6.76846e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.37416e+02\tAbsError: 3.75122e+16\n", - " Region: \"zone_1\"\tRelError: 1.70857e+02\tAbsError: 7.53940e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.70857e+02\tAbsError: 7.53940e-02\n", - " Region: \"zone_3\"\tRelError: 6.65589e+01\tAbsError: 3.75122e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05162e+01\tAbsError: 2.17236e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.58128e+01\tAbsError: 1.57886e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29865e-01\tAbsError: 7.53940e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.57562e+00\tAbsError: 1.85067e+15\n", - " Region: \"zone_1\"\tRelError: 3.48899e-01\tAbsError: 2.58724e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.48899e-01\tAbsError: 2.58724e-02\n", - " Region: \"zone_3\"\tRelError: 1.22672e+00\tAbsError: 1.85067e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.65203e-01\tAbsError: 7.94760e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.14656e-01\tAbsError: 1.05591e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.46858e-01\tAbsError: 2.56646e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 8.09161e-01\tAbsError: 2.63764e+15\n", - " Region: \"zone_1\"\tRelError: 8.96528e-02\tAbsError: 1.57805e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.96528e-02\tAbsError: 1.57805e-02\n", - " Region: \"zone_3\"\tRelError: 7.19508e-01\tAbsError: 2.63764e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.72631e-01\tAbsError: 1.36770e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.67164e-01\tAbsError: 1.26994e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.97131e-02\tAbsError: 1.57805e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.25791e+02\tAbsError: 4.25995e+16\n", - " Region: \"zone_1\"\tRelError: 4.60002e+01\tAbsError: 7.79815e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.60002e+01\tAbsError: 7.79815e-02\n", - " Region: \"zone_3\"\tRelError: 2.79791e+02\tAbsError: 4.25995e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.31837e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.70530e+02\tAbsError: 1.94157e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.60749e-01\tAbsError: 7.79815e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.71515e+02\tAbsError: 8.34333e+14\n", - " Region: \"zone_1\"\tRelError: 6.48480e-01\tAbsError: 6.21778e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.48480e-01\tAbsError: 6.21778e-02\n", - " Region: \"zone_3\"\tRelError: 2.70867e+02\tAbsError: 8.34333e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.08231e+01\tAbsError: 6.11932e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.49923e+02\tAbsError: 2.22401e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20191e-01\tAbsError: 6.21778e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.15214e-01\tAbsError: 6.36762e+14\n", - " Region: \"zone_1\"\tRelError: 2.12397e-02\tAbsError: 7.08897e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.12397e-02\tAbsError: 7.08897e-04\n", - " Region: \"zone_3\"\tRelError: 1.93974e-01\tAbsError: 6.36762e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43220e-01\tAbsError: 3.40835e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.55466e-02\tAbsError: 2.95927e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.20806e-03\tAbsError: 7.36504e-04\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 6.62870e-01\tAbsError: 8.58491e+14\n", - " Region: \"zone_1\"\tRelError: 9.69362e-02\tAbsError: 1.22653e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.69362e-02\tAbsError: 1.22653e-02\n", - " Region: \"zone_3\"\tRelError: 5.65934e-01\tAbsError: 8.58491e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.14889e-01\tAbsError: 4.34973e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.96689e-01\tAbsError: 4.23518e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.43556e-02\tAbsError: 1.22654e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.20129e+02\tAbsError: 4.00033e+15\n", - " Region: \"zone_1\"\tRelError: 6.98278e+00\tAbsError: 7.09268e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.98278e+00\tAbsError: 7.09268e-02\n", - " Region: \"zone_3\"\tRelError: 1.13146e+02\tAbsError: 4.00033e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.89107e+01\tAbsError: 2.82869e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.40617e+01\tAbsError: 1.17164e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.73521e-01\tAbsError: 7.09268e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 5.64331e+02\tAbsError: 6.50244e+15\n", - " Region: \"zone_1\"\tRelError: 5.93412e+00\tAbsError: 7.38245e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.93412e+00\tAbsError: 7.38245e-02\n", - " Region: \"zone_3\"\tRelError: 5.58397e+02\tAbsError: 6.50244e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33785e+01\tAbsError: 3.20431e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.44821e+02\tAbsError: 3.29813e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.97731e-01\tAbsError: 7.38245e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.84400e-01\tAbsError: 1.84489e+14\n", - " Region: \"zone_1\"\tRelError: 5.08949e-02\tAbsError: 4.34577e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.08949e-02\tAbsError: 4.34577e-04\n", - " Region: \"zone_3\"\tRelError: 1.33505e-01\tAbsError: 1.84489e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07596e-01\tAbsError: 1.04840e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.33209e-02\tAbsError: 7.96491e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.58735e-03\tAbsError: 4.38742e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.43586e-03\tAbsError: 5.13181e+12\n", - " Region: \"zone_1\"\tRelError: 3.56695e-04\tAbsError: 1.12706e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.56695e-04\tAbsError: 1.12706e-05\n", - " Region: \"zone_3\"\tRelError: 1.07916e-03\tAbsError: 5.13181e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.13872e-04\tAbsError: 3.41370e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.83111e-04\tAbsError: 1.71811e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.21790e-05\tAbsError: 1.15889e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 4.63879e+02\tAbsError: 1.84326e+15\n", - " Region: \"zone_1\"\tRelError: 3.13835e+00\tAbsError: 6.58786e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.13835e+00\tAbsError: 6.58786e-02\n", - " Region: \"zone_3\"\tRelError: 4.60741e+02\tAbsError: 1.84326e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.71445e+00\tAbsError: 9.31874e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.50886e+02\tAbsError: 9.11387e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40118e-01\tAbsError: 6.58786e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.44475e+03\tAbsError: 2.23451e+14\n", - " Region: \"zone_1\"\tRelError: 1.78721e-01\tAbsError: 5.58210e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.78721e-01\tAbsError: 5.58210e-02\n", - " Region: \"zone_3\"\tRelError: 1.44457e+03\tAbsError: 2.23451e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10094e+03\tAbsError: 1.56875e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.43535e+02\tAbsError: 6.65760e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.64317e-02\tAbsError: 5.58210e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 4.38653e+02\tAbsError: 5.85580e+15\n", - " Region: \"zone_1\"\tRelError: 8.57649e+00\tAbsError: 6.91598e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.57649e+00\tAbsError: 6.91598e-02\n", - " Region: \"zone_3\"\tRelError: 4.30076e+02\tAbsError: 5.85580e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.62250e+01\tAbsError: 2.43153e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.63689e+02\tAbsError: 3.42426e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.62308e-01\tAbsError: 6.91598e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 9.66432e-04\tAbsError: 7.61489e+11\n", - " Region: \"zone_1\"\tRelError: 4.42890e-04\tAbsError: 3.54702e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.42890e-04\tAbsError: 3.54702e-06\n", - " Region: \"zone_3\"\tRelError: 5.23542e-04\tAbsError: 7.61489e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.54885e-04\tAbsError: 5.60496e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.72654e-05\tAbsError: 2.00993e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.13918e-05\tAbsError: 3.60294e-06\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 9.86672e-08\tAbsError: 3.37805e+08\n", - " Region: \"zone_1\"\tRelError: 2.92240e-08\tAbsError: 9.88161e-10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.92240e-08\tAbsError: 9.88161e-10\n", - " Region: \"zone_3\"\tRelError: 6.94432e-08\tAbsError: 3.37805e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.06757e-08\tAbsError: 2.17314e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.15885e-08\tAbsError: 1.20491e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 7.17900e-09\tAbsError: 1.00963e-09\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 3.15655e+03\tAbsError: 4.54227e+13\n", - " Region: \"zone_1\"\tRelError: 7.59588e-02\tAbsError: 4.83791e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.59588e-02\tAbsError: 4.83791e-02\n", - " Region: \"zone_3\"\tRelError: 3.15648e+03\tAbsError: 4.54227e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.11021e+03\tAbsError: 3.33738e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.61933e+01\tAbsError: 1.20489e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.62264e-02\tAbsError: 4.83791e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 7.29918e+03\tAbsError: 4.20610e+14\n", - " Region: \"zone_1\"\tRelError: 4.04058e-01\tAbsError: 6.01028e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.04058e-01\tAbsError: 6.01028e-02\n", - " Region: \"zone_3\"\tRelError: 7.29878e+03\tAbsError: 4.20610e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.71144e+02\tAbsError: 2.66090e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.52752e+03\tAbsError: 1.54520e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11913e-01\tAbsError: 6.01028e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.21163e+03\tAbsError: 5.71211e+14\n", - " Region: \"zone_1\"\tRelError: 5.79636e-01\tAbsError: 6.38656e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.79636e-01\tAbsError: 6.38656e-02\n", - " Region: \"zone_3\"\tRelError: 2.21106e+03\tAbsError: 5.71211e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.77921e+02\tAbsError: 3.25592e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.83301e+03\tAbsError: 2.45619e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28645e-01\tAbsError: 6.38656e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.97260e-08\tAbsError: 1.61510e+07\n", - " Region: \"zone_1\"\tRelError: 9.39372e-09\tAbsError: 7.94516e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 9.39372e-09\tAbsError: 7.94516e-11\n", - " Region: \"zone_3\"\tRelError: 1.03323e-08\tAbsError: 1.61510e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.49613e-09\tAbsError: 1.01388e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.34196e-09\tAbsError: 6.01217e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.94202e-10\tAbsError: 8.30962e-11\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.35612e+03\tAbsError: 1.55095e+13\n", - " Region: \"zone_1\"\tRelError: 5.75455e-02\tAbsError: 3.95636e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.75455e-02\tAbsError: 3.95636e-02\n", - " Region: \"zone_3\"\tRelError: 6.35606e+03\tAbsError: 1.55095e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.89427e+03\tAbsError: 6.28140e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.46173e+03\tAbsError: 9.22806e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.78836e-02\tAbsError: 3.95636e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.14832e+02\tAbsError: 1.37556e+14\n", - " Region: \"zone_1\"\tRelError: 1.13605e-01\tAbsError: 5.34033e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13605e-01\tAbsError: 5.34033e-02\n", - " Region: \"zone_3\"\tRelError: 7.14718e+02\tAbsError: 1.37556e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.40858e+02\tAbsError: 5.31618e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.73771e+02\tAbsError: 8.43944e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.91929e-02\tAbsError: 5.34033e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.74418e+01\tAbsError: 2.44384e+14\n", - " Region: \"zone_1\"\tRelError: 1.58166e-01\tAbsError: 5.77787e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.58166e-01\tAbsError: 5.77787e-02\n", - " Region: \"zone_3\"\tRelError: 7.72836e+01\tAbsError: 2.44384e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.22063e+01\tAbsError: 1.55967e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.49742e+01\tAbsError: 8.84166e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03068e-01\tAbsError: 5.77787e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.16646e+02\tAbsError: 4.64268e+12\n", - " Region: \"zone_1\"\tRelError: 4.14390e-02\tAbsError: 2.91301e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.14390e-02\tAbsError: 2.91301e-02\n", - " Region: \"zone_3\"\tRelError: 1.16605e+02\tAbsError: 4.64268e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.15564e+02\tAbsError: 2.67332e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.98998e-01\tAbsError: 1.96936e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.18180e-02\tAbsError: 2.91301e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:56\u001b[0m.\u001b[1;36m114\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:56\u001b[0m.\u001b[1;36m140\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.9 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:56\u001b[0m.\u001b[1;36m169\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.64511e+03\tAbsError: 6.98723e+13\n", - " Region: \"zone_1\"\tRelError: 8.18118e-02\tAbsError: 5.06818e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.18118e-02\tAbsError: 5.06818e-02\n", - " Region: \"zone_3\"\tRelError: 1.64503e+03\tAbsError: 6.98723e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84310e+02\tAbsError: 1.77441e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.46064e+03\tAbsError: 5.21282e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.20392e-02\tAbsError: 5.06818e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.69280e+03\tAbsError: 8.64639e+13\n", - " Region: \"zone_1\"\tRelError: 7.66306e-02\tAbsError: 4.55241e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.66306e-02\tAbsError: 4.55241e-02\n", - " Region: \"zone_3\"\tRelError: 1.69273e+03\tAbsError: 8.64639e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.53627e+02\tAbsError: 4.60213e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.53903e+03\tAbsError: 4.04426e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.98236e-02\tAbsError: 4.55241e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:56\u001b[0m.\u001b[1;36m478\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.11219e+00\tAbsError: 1.21037e+12\n", - " Region: \"zone_1\"\tRelError: 3.15041e-02\tAbsError: 2.47247e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.15041e-02\tAbsError: 2.47247e-02\n", - " Region: \"zone_3\"\tRelError: 1.08069e+00\tAbsError: 1.21037e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99731e-01\tAbsError: 3.71567e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.89803e-02\tAbsError: 8.38801e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.19791e-02\tAbsError: 2.47248e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:56\u001b[0m.\u001b[1;36m504\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.95 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:56\u001b[0m.\u001b[1;36m527\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.13554e+02\tAbsError: 1.05627e+14\n", - " Region: \"zone_1\"\tRelError: 9.04876e-02\tAbsError: 4.22987e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.04876e-02\tAbsError: 4.22987e-02\n", - " Region: \"zone_3\"\tRelError: 2.13463e+02\tAbsError: 1.05627e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84186e+02\tAbsError: 6.63679e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.92139e+01\tAbsError: 3.92586e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.32116e-02\tAbsError: 4.22987e-02\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.20368e+02\tAbsError: 3.16867e+13\n", - " Region: \"zone_1\"\tRelError: 5.14732e-02\tAbsError: 3.61712e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.14732e-02\tAbsError: 3.61712e-02\n", - " Region: \"zone_3\"\tRelError: 6.20316e+02\tAbsError: 3.16867e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.09455e+02\tAbsError: 2.20751e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.08092e+01\tAbsError: 9.61157e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.17894e-02\tAbsError: 3.61713e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.67213e+02\tAbsError: 1.38177e+17\n", - " Region: \"zone_1\"\tRelError: 5.79299e+01\tAbsError: 8.24901e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.79299e+01\tAbsError: 8.24901e-02\n", - " Region: \"zone_3\"\tRelError: 2.09283e+02\tAbsError: 1.38177e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 7.25461e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.99891e+02\tAbsError: 6.56314e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.92743e-01\tAbsError: 8.24902e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.17367e+00\tAbsError: 1.24826e+12\n", - " Region: \"zone_1\"\tRelError: 6.08211e-04\tAbsError: 6.10243e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.08211e-04\tAbsError: 6.10243e-06\n", - " Region: \"zone_3\"\tRelError: 1.17306e+00\tAbsError: 1.24826e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.17019e+00\tAbsError: 3.41542e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.85589e-03\tAbsError: 9.06713e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07451e-05\tAbsError: 6.52377e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.41399e+00\tAbsError: 6.14949e+12\n", - " Region: \"zone_1\"\tRelError: 3.96641e-02\tAbsError: 2.58319e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.96641e-02\tAbsError: 2.58319e-02\n", - " Region: \"zone_3\"\tRelError: 3.37432e+00\tAbsError: 6.14949e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.95682e-01\tAbsError: 2.72768e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.33871e+00\tAbsError: 3.42181e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.99293e-02\tAbsError: 2.58939e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.31055e+02\tAbsError: 2.53177e+13\n", - " Region: \"zone_1\"\tRelError: 4.50617e-02\tAbsError: 3.23490e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.50617e-02\tAbsError: 3.23490e-02\n", - " Region: \"zone_3\"\tRelError: 3.31010e+02\tAbsError: 2.53177e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.14071e+02\tAbsError: 1.67282e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.16893e+02\tAbsError: 8.58953e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.54021e-02\tAbsError: 3.23491e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.94925e+03\tAbsError: 5.70592e+16\n", - " Region: \"zone_1\"\tRelError: 1.68789e+02\tAbsError: 8.03338e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.68789e+02\tAbsError: 8.03338e-02\n", - " Region: \"zone_3\"\tRelError: 2.78046e+03\tAbsError: 5.70592e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.37175e+01\tAbsError: 3.26918e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.76645e+03\tAbsError: 2.43673e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.95175e-01\tAbsError: 8.03338e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.54688e+01\tAbsError: 7.28460e+16\n", - " Region: \"zone_1\"\tRelError: 4.05779e+00\tAbsError: 7.88298e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.05779e+00\tAbsError: 7.88298e-02\n", - " Region: \"zone_3\"\tRelError: 2.14110e+01\tAbsError: 7.28460e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.78884e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.18413e+01\tAbsError: 3.49576e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 5.69762e-01\tAbsError: 7.88298e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.97212e-04\tAbsError: 5.28965e+06\n", - " Region: \"zone_1\"\tRelError: 2.74725e-09\tAbsError: 3.88867e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.74725e-09\tAbsError: 3.88867e-11\n", - " Region: \"zone_3\"\tRelError: 1.97210e-04\tAbsError: 5.28965e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.96560e-04\tAbsError: 1.88403e+06\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.49815e-07\tAbsError: 3.40562e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.55943e-11\tAbsError: 4.14441e-11\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 5.84987e+02\tAbsError: 3.31667e+12\n", - " Region: \"zone_1\"\tRelError: 3.70722e-02\tAbsError: 2.57858e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.70722e-02\tAbsError: 2.57858e-02\n", - " Region: \"zone_3\"\tRelError: 5.84950e+02\tAbsError: 3.31667e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.83958e+02\tAbsError: 1.18352e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.55224e-01\tAbsError: 2.13316e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.72734e-02\tAbsError: 2.57631e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.50753e+02\tAbsError: 8.15936e+11\n", - " Region: \"zone_1\"\tRelError: 2.19781e-02\tAbsError: 1.74093e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.19781e-02\tAbsError: 1.74093e-02\n", - " Region: \"zone_3\"\tRelError: 1.50731e+02\tAbsError: 8.15936e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50624e+02\tAbsError: 1.19984e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.39476e-02\tAbsError: 6.95952e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.24006e-02\tAbsError: 1.74094e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.07290e+02\tAbsError: 2.40888e+16\n", - " Region: \"zone_1\"\tRelError: 2.14527e+00\tAbsError: 7.64427e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.14527e+00\tAbsError: 7.64427e-02\n", - " Region: \"zone_3\"\tRelError: 2.05145e+02\tAbsError: 2.40888e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.20017e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.95921e+02\tAbsError: 1.20871e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.23648e-01\tAbsError: 7.64428e-02\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.21711e-13\tAbsError: 3.14873e+04\n", - " Region: \"zone_1\"\tRelError: 9.14172e-14\tAbsError: 1.14796e-16\n", - " Equation: \"PotentialEquation\"\tRelError: 9.14172e-14\tAbsError: 1.14796e-16\n", - " Region: \"zone_3\"\tRelError: 1.30294e-13\tAbsError: 3.14873e+04\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.60212e-14\tAbsError: 1.58694e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.70418e-15\tAbsError: 1.56178e+04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.25687e-14\tAbsError: 1.19262e-16\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.92851e+02\tAbsError: 2.89384e+16\n", - " Region: \"zone_1\"\tRelError: 1.14740e+00\tAbsError: 7.47705e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14740e+00\tAbsError: 7.47705e-02\n", - " Region: \"zone_3\"\tRelError: 2.91703e+02\tAbsError: 2.89384e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.26797e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.82502e+02\tAbsError: 1.62587e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.01675e-01\tAbsError: 7.47705e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:57\u001b[0m.\u001b[1;36m462\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:57\u001b[0m.\u001b[1;36m462\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.20833333333333334\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 9.81687e-01\tAbsError: 7.37661e+11\n", - " Region: \"zone_1\"\tRelError: 2.81044e-04\tAbsError: 3.08580e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.81044e-04\tAbsError: 3.08580e-06\n", - " Region: \"zone_3\"\tRelError: 9.81406e-01\tAbsError: 7.37661e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.80950e-01\tAbsError: 1.46501e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.51588e-04\tAbsError: 5.91160e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.97537e-06\tAbsError: 3.17226e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.80848e+02\tAbsError: 1.10456e+16\n", - " Region: \"zone_1\"\tRelError: 4.53931e+00\tAbsError: 7.21036e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.53931e+00\tAbsError: 7.21036e-02\n", - " Region: \"zone_3\"\tRelError: 1.76309e+02\tAbsError: 1.10456e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.22278e+01\tAbsError: 2.44374e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.63899e+02\tAbsError: 8.60186e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82421e-01\tAbsError: 7.21036e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 9.32143e+01\tAbsError: 1.23916e+16\n", - " Region: \"zone_1\"\tRelError: 1.85187e+01\tAbsError: 7.02256e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.85187e+01\tAbsError: 7.02256e-02\n", - " Region: \"zone_3\"\tRelError: 7.46956e+01\tAbsError: 1.23916e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.25956e+01\tAbsError: 6.77522e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.19341e+01\tAbsError: 5.61636e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65943e-01\tAbsError: 7.02257e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.04040e+00\tAbsError: 2.10389e+12\n", - " Region: \"zone_1\"\tRelError: 1.40276e-02\tAbsError: 1.11974e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40276e-02\tAbsError: 1.11974e-02\n", - " Region: \"zone_3\"\tRelError: 1.02637e+00\tAbsError: 2.10389e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.94847e-01\tAbsError: 2.84106e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.71950e-02\tAbsError: 1.81979e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43257e-02\tAbsError: 1.11975e-02\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 7.70036e-05\tAbsError: 2.07098e+06\n", - " Region: \"zone_1\"\tRelError: 8.41736e-10\tAbsError: 1.25497e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 8.41736e-10\tAbsError: 1.25497e-11\n", - " Region: \"zone_3\"\tRelError: 7.70028e-05\tAbsError: 2.07098e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69590e-05\tAbsError: 5.09430e+05\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.37439e-08\tAbsError: 1.56155e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.01100e-11\tAbsError: 1.29285e-11\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:57\u001b[0m.\u001b[1;36m951\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.2\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 4.45029e-01\tAbsError: 2.51715e+12\n", - " Region: \"zone_1\"\tRelError: 1.62807e-03\tAbsError: 1.83760e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.62807e-03\tAbsError: 1.83760e-05\n", - " Region: \"zone_3\"\tRelError: 4.43401e-01\tAbsError: 2.51715e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.41371e-01\tAbsError: 8.04152e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.00240e-03\tAbsError: 1.71300e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.83249e-05\tAbsError: 1.84337e-05\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 8.78638e+02\tAbsError: 2.94859e+15\n", - " Region: \"zone_1\"\tRelError: 2.84018e+00\tAbsError: 6.72141e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.84018e+00\tAbsError: 6.72141e-02\n", - " Region: \"zone_3\"\tRelError: 8.75798e+02\tAbsError: 2.94859e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.57596e+02\tAbsError: 1.73463e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.18056e+02\tAbsError: 1.21397e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.46332e-01\tAbsError: 6.72141e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.58281e+03\tAbsError: 1.21837e+15\n", - " Region: \"zone_1\"\tRelError: 1.36885e+01\tAbsError: 6.50809e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.36885e+01\tAbsError: 6.50809e-02\n", - " Region: \"zone_3\"\tRelError: 1.56912e+03\tAbsError: 1.21837e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.97257e+02\tAbsError: 8.33773e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.27173e+03\tAbsError: 3.84593e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.32580e-01\tAbsError: 6.50809e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.10347e+01\tAbsError: 9.33666e+15\n", - " Region: \"zone_1\"\tRelError: 9.32699e+00\tAbsError: 4.26142e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.32699e+00\tAbsError: 4.26142e-02\n", - " Region: \"zone_3\"\tRelError: 1.70771e+00\tAbsError: 9.33666e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.07276e-01\tAbsError: 5.05102e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.07245e-01\tAbsError: 4.28564e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.31893e-02\tAbsError: 4.26142e-02\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.72810e-04\tAbsError: 1.68937e+08\n", - " Region: \"zone_1\"\tRelError: 8.13209e-08\tAbsError: 1.07762e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 8.13209e-08\tAbsError: 1.07762e-09\n", - " Region: \"zone_3\"\tRelError: 1.72728e-04\tAbsError: 1.68937e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.71767e-04\tAbsError: 4.50513e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.59619e-07\tAbsError: 1.23886e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 1.69289e-09\tAbsError: 1.09594e-09\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 8.47095e-13\tAbsError: 3.17846e+04\n", - " Region: \"zone_1\"\tRelError: 1.89137e-13\tAbsError: 1.13043e-16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.89137e-13\tAbsError: 1.13043e-16\n", - " Region: \"zone_3\"\tRelError: 6.57957e-13\tAbsError: 3.17846e+04\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.94024e-13\tAbsError: 1.58952e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.50744e-14\tAbsError: 1.58894e+04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.48859e-13\tAbsError: 1.13805e-16\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.82433e+02\tAbsError: 1.43454e+15\n", - " Region: \"zone_1\"\tRelError: 1.48090e+00\tAbsError: 5.91833e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.48090e+00\tAbsError: 5.91833e-02\n", - " Region: \"zone_3\"\tRelError: 4.80952e+02\tAbsError: 1.43454e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.57272e+02\tAbsError: 8.66708e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.35743e+01\tAbsError: 5.67830e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.05889e-01\tAbsError: 5.91833e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.86518e+00\tAbsError: 4.02662e+14\n", - " Region: \"zone_1\"\tRelError: 2.81960e-01\tAbsError: 3.27220e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.81960e-01\tAbsError: 3.27220e-02\n", - " Region: \"zone_3\"\tRelError: 1.58322e+00\tAbsError: 4.02662e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.13443e-01\tAbsError: 1.82808e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.09901e-01\tAbsError: 2.19855e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.98791e-02\tAbsError: 3.27220e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:58\u001b[0m.\u001b[1;36m489\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:58\u001b[0m.\u001b[1;36m489\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.20714285714285713\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Iteration: 0\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 3.21485e+01\tAbsError: 8.61846e+15\n", - " Region: \"zone_1\"\tRelError: 3.04717e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.04717e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.67686e+00\tAbsError: 8.61846e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94516e-01\tAbsError: 4.66248e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94484e-01\tAbsError: 3.95598e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.78603e-02\tAbsError: 4.09542e-02\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.42447e+03\tAbsError: 3.70580e+14\n", - " Region: \"zone_1\"\tRelError: 4.53729e-01\tAbsError: 6.16382e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.53729e-01\tAbsError: 6.16382e-02\n", - " Region: \"zone_3\"\tRelError: 9.42401e+03\tAbsError: 3.70580e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.61616e+01\tAbsError: 9.68714e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.39773e+03\tAbsError: 2.73708e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17913e-01\tAbsError: 6.16382e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.18212e+00\tAbsError: 5.40940e+13\n", - " Region: \"zone_1\"\tRelError: 4.50065e-02\tAbsError: 2.58606e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.50065e-02\tAbsError: 2.58606e-02\n", - " Region: \"zone_3\"\tRelError: 1.13712e+00\tAbsError: 5.40940e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.53826e-01\tAbsError: 3.02007e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.38163e-01\tAbsError: 2.38932e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.51291e-02\tAbsError: 2.58973e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.07800e+00\tAbsError: 3.45404e+14\n", - " Region: \"zone_1\"\tRelError: 5.44178e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.44178e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.53382e+00\tAbsError: 3.45404e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90662e-01\tAbsError: 1.56300e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.87478e-01\tAbsError: 1.89103e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.56802e-02\tAbsError: 3.07632e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.00096e+02\tAbsError: 3.25866e+14\n", - " Region: \"zone_1\"\tRelError: 2.42568e-01\tAbsError: 5.23282e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.42568e-01\tAbsError: 5.23282e-02\n", - " Region: \"zone_3\"\tRelError: 3.99853e+02\tAbsError: 3.25866e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.97144e+02\tAbsError: 2.25150e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.02625e+02\tAbsError: 1.00716e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.47475e-02\tAbsError: 5.23282e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.67376e+02\tAbsError: 5.27737e+14\n", - " Region: \"zone_1\"\tRelError: 4.70139e-01\tAbsError: 5.51934e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.70139e-01\tAbsError: 5.51934e-02\n", - " Region: \"zone_3\"\tRelError: 1.66906e+02\tAbsError: 5.27737e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.26954e+02\tAbsError: 3.23447e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.98575e+01\tAbsError: 2.04290e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.42599e-02\tAbsError: 5.51934e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.19813e+01\tAbsError: 9.23407e+15\n", - " Region: \"zone_1\"\tRelError: 1.02779e+01\tAbsError: 4.23835e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02779e+01\tAbsError: 4.23835e-02\n", - " Region: \"zone_3\"\tRelError: 1.70346e+00\tAbsError: 9.23407e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.05551e-01\tAbsError: 4.99552e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.05520e-01\tAbsError: 4.23855e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.23930e-02\tAbsError: 4.23835e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.47964e-01\tAbsError: 2.72816e+12\n", - " Region: \"zone_1\"\tRelError: 1.75691e-02\tAbsError: 1.17190e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.75691e-02\tAbsError: 1.17190e-02\n", - " Region: \"zone_3\"\tRelError: 4.30394e-01\tAbsError: 2.72816e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.07313e-01\tAbsError: 1.74663e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.05231e-01\tAbsError: 9.81531e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.78508e-02\tAbsError: 1.17190e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.11313e+00\tAbsError: 4.26791e+13\n", - " Region: \"zone_1\"\tRelError: 7.05940e-02\tAbsError: 2.58377e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.05940e-02\tAbsError: 2.58377e-02\n", - " Region: \"zone_3\"\tRelError: 1.04254e+00\tAbsError: 4.26791e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14646e-01\tAbsError: 2.38411e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.85599e-01\tAbsError: 1.88379e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.22941e-02\tAbsError: 2.58015e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 9.63412e+03\tAbsError: 7.11539e+13\n", - " Region: \"zone_1\"\tRelError: 6.58173e-02\tAbsError: 4.42512e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.58173e-02\tAbsError: 4.42512e-02\n", - " Region: \"zone_3\"\tRelError: 9.63405e+03\tAbsError: 7.11539e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.27619e+02\tAbsError: 1.01552e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.30637e+03\tAbsError: 6.09987e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.62284e-02\tAbsError: 4.42513e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.45643e+02\tAbsError: 1.41192e+14\n", - " Region: \"zone_1\"\tRelError: 9.40268e-02\tAbsError: 4.76391e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.40268e-02\tAbsError: 4.76391e-02\n", - " Region: \"zone_3\"\tRelError: 6.45549e+02\tAbsError: 1.41192e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.67511e+02\tAbsError: 9.22825e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.77963e+02\tAbsError: 4.89099e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.43903e-02\tAbsError: 4.76391e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.12618e-01\tAbsError: 1.67703e+11\n", - " Region: \"zone_1\"\tRelError: 8.07019e-05\tAbsError: 1.19119e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.07019e-05\tAbsError: 1.19119e-06\n", - " Region: \"zone_3\"\tRelError: 1.12538e-01\tAbsError: 1.67703e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12411e-01\tAbsError: 5.81197e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.24559e-04\tAbsError: 1.09583e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.31628e-06\tAbsError: 1.26920e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.83480e-01\tAbsError: 2.88954e+12\n", - " Region: \"zone_1\"\tRelError: 1.35212e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35212e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.69958e-01\tAbsError: 2.88954e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88338e-01\tAbsError: 2.12977e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.78790e-02\tAbsError: 2.67656e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37417e-02\tAbsError: 9.16534e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.87614e+00\tAbsError: 3.94195e+14\n", - " Region: \"zone_1\"\tRelError: 2.99922e-01\tAbsError: 3.24492e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.99922e-01\tAbsError: 3.24492e-02\n", - " Region: \"zone_3\"\tRelError: 1.57621e+00\tAbsError: 3.94195e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.10160e-01\tAbsError: 1.78861e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.07263e-01\tAbsError: 2.15334e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.87924e-02\tAbsError: 3.24493e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.16512e+02\tAbsError: 9.24158e+13\n", - " Region: \"zone_1\"\tRelError: 7.94582e-02\tAbsError: 3.46606e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.94582e-02\tAbsError: 3.46606e-02\n", - " Region: \"zone_3\"\tRelError: 2.16432e+02\tAbsError: 9.24158e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.04810e+02\tAbsError: 5.48422e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.15737e+01\tAbsError: 3.75736e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.86497e-02\tAbsError: 3.46607e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.75979e-06\tAbsError: 9.15943e+05\n", - " Region: \"zone_1\"\tRelError: 2.41515e-10\tAbsError: 4.07741e-12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.41515e-10\tAbsError: 4.07741e-12\n", - " Region: \"zone_3\"\tRelError: 2.75955e-06\tAbsError: 9.15943e+05\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.75771e-06\tAbsError: 1.84364e+05\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.83413e-09\tAbsError: 7.31579e+05\n", - " Equation: \"PotentialEquation\"\tRelError: 8.05841e-12\tAbsError: 4.42587e-12\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.85209e+03\tAbsError: 3.15377e+13\n", - " Region: \"zone_1\"\tRelError: 5.58938e-02\tAbsError: 3.86842e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.58938e-02\tAbsError: 3.86842e-02\n", - " Region: \"zone_3\"\tRelError: 5.85204e+03\tAbsError: 3.15377e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.78253e+03\tAbsError: 8.91278e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.94521e+01\tAbsError: 2.26249e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.62456e-02\tAbsError: 3.86842e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:59\u001b[0m.\u001b[1;36m773\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:21:59\u001b[0m.\u001b[1;36m773\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.31666666666666665\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.16827e+00\tAbsError: 5.24298e+13\n", - " Region: \"zone_1\"\tRelError: 4.47125e-02\tAbsError: 2.58923e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.47125e-02\tAbsError: 2.58923e-02\n", - " Region: \"zone_3\"\tRelError: 1.12355e+00\tAbsError: 5.24298e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.48461e-01\tAbsError: 2.92951e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.30280e-01\tAbsError: 2.31347e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.48109e-02\tAbsError: 2.58991e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.38444e-02\tAbsError: 3.70458e+12\n", - " Region: \"zone_1\"\tRelError: 3.59871e-03\tAbsError: 2.71390e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.59871e-03\tAbsError: 2.71390e-05\n", - " Region: \"zone_3\"\tRelError: 9.02457e-02\tAbsError: 3.70458e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.84320e-02\tAbsError: 1.19345e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.76575e-03\tAbsError: 2.51114e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.79561e-05\tAbsError: 2.71828e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.59514e+02\tAbsError: 2.50534e+13\n", - " Region: \"zone_1\"\tRelError: 4.08268e-02\tAbsError: 2.81019e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.08268e-02\tAbsError: 2.81019e-02\n", - " Region: \"zone_3\"\tRelError: 3.59473e+02\tAbsError: 2.50534e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.58860e+02\tAbsError: 1.45093e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.72615e-01\tAbsError: 1.05441e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.08214e-02\tAbsError: 2.81020e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.01135e+03\tAbsError: 1.36473e+13\n", - " Region: \"zone_1\"\tRelError: 3.79634e-02\tAbsError: 2.58868e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.79634e-02\tAbsError: 2.58868e-02\n", - " Region: \"zone_3\"\tRelError: 1.01132e+03\tAbsError: 1.36473e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.00963e+03\tAbsError: 8.33029e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.64673e+00\tAbsError: 5.31702e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.81405e-02\tAbsError: 2.57846e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.96038e-05\tAbsError: 5.27330e+08\n", - " Region: \"zone_1\"\tRelError: 3.38320e-07\tAbsError: 2.80513e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.38320e-07\tAbsError: 2.80513e-09\n", - " Region: \"zone_3\"\tRelError: 4.92654e-05\tAbsError: 5.27330e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.82203e-05\tAbsError: 1.20057e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.04006e-06\tAbsError: 4.07273e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 5.04648e-09\tAbsError: 2.84942e-09\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.34212e-01\tAbsError: 2.61245e+12\n", - " Region: \"zone_1\"\tRelError: 1.69568e-02\tAbsError: 1.13359e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.69568e-02\tAbsError: 1.13359e-02\n", - " Region: \"zone_3\"\tRelError: 4.17255e-01\tAbsError: 2.61245e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.00635e-01\tAbsError: 1.65011e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.93911e-02\tAbsError: 9.62337e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72292e-02\tAbsError: 1.13359e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 8.80016e+00\tAbsError: 9.26520e+15\n", - " Region: \"zone_1\"\tRelError: 7.07643e+00\tAbsError: 4.26142e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.07643e+00\tAbsError: 4.26142e-02\n", - " Region: \"zone_3\"\tRelError: 1.72373e+00\tAbsError: 9.26520e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.07327e-01\tAbsError: 5.24812e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.07316e-01\tAbsError: 4.01709e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09088e-01\tAbsError: 4.26142e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:00\u001b[0m.\u001b[1;36m322\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:00\u001b[0m.\u001b[1;36m322\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.07850e+00\tAbsError: 1.70830e+12\n", - " Region: \"zone_1\"\tRelError: 1.83637e-02\tAbsError: 1.47172e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.83637e-02\tAbsError: 1.47172e-02\n", - " Region: \"zone_3\"\tRelError: 1.06013e+00\tAbsError: 1.70830e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.97311e-01\tAbsError: 5.14807e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.40601e-02\tAbsError: 1.19349e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87632e-02\tAbsError: 1.47172e-02\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.22208e+00\tAbsError: 2.75802e+12\n", - " Region: \"zone_1\"\tRelError: 2.87771e-02\tAbsError: 2.26488e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.87771e-02\tAbsError: 2.26488e-02\n", - " Region: \"zone_3\"\tRelError: 1.19330e+00\tAbsError: 2.75802e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99833e-01\tAbsError: 1.67616e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.64198e-01\tAbsError: 1.08185e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.92713e-02\tAbsError: 2.26489e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.08767e-01\tAbsError: 9.15820e+10\n", - " Region: \"zone_1\"\tRelError: 3.50074e-06\tAbsError: 2.32618e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 3.50074e-06\tAbsError: 2.32618e-07\n", - " Region: \"zone_3\"\tRelError: 1.08764e-01\tAbsError: 9.15820e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.08683e-01\tAbsError: 2.45142e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.10349e-05\tAbsError: 8.91305e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.11010e-07\tAbsError: 2.47753e-07\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 6.03578e-01\tAbsError: 1.20875e+12\n", - " Region: \"zone_1\"\tRelError: 6.45299e-04\tAbsError: 7.15824e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.45299e-04\tAbsError: 7.15824e-06\n", - " Region: \"zone_3\"\tRelError: 6.02933e-01\tAbsError: 1.20875e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.02052e-01\tAbsError: 3.27309e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.69519e-04\tAbsError: 8.81446e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13066e-05\tAbsError: 7.27175e-06\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 8.97893e-01\tAbsError: 7.55600e+11\n", - " Region: \"zone_1\"\tRelError: 1.29308e-04\tAbsError: 2.23218e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29308e-04\tAbsError: 2.23218e-06\n", - " Region: \"zone_3\"\tRelError: 8.97763e-01\tAbsError: 7.55600e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.96369e-01\tAbsError: 1.03886e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.39021e-03\tAbsError: 6.51714e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.72140e-06\tAbsError: 2.34576e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.02057e+00\tAbsError: 3.92740e+14\n", - " Region: \"zone_1\"\tRelError: 4.23022e-01\tAbsError: 3.27220e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.23022e-01\tAbsError: 3.27220e-02\n", - " Region: \"zone_3\"\tRelError: 1.59755e+00\tAbsError: 3.92740e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.13652e-01\tAbsError: 2.06183e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.10105e-01\tAbsError: 1.86557e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.37891e-02\tAbsError: 3.27220e-02\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.04952e-04\tAbsError: 1.41961e+07\n", - " Region: \"zone_1\"\tRelError: 1.02048e-08\tAbsError: 1.35544e-10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02048e-08\tAbsError: 1.35544e-10\n", - " Region: \"zone_3\"\tRelError: 1.04942e-04\tAbsError: 1.41961e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04766e-04\tAbsError: 6.03537e+06\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.75523e-07\tAbsError: 8.16076e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.19763e-10\tAbsError: 1.41360e-10\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.64184e-07\tAbsError: 6.99685e+04\n", - " Region: \"zone_1\"\tRelError: 1.53583e-11\tAbsError: 2.11293e-13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.53583e-11\tAbsError: 2.11293e-13\n", - " Region: \"zone_3\"\tRelError: 5.64169e-07\tAbsError: 6.99685e+04\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.64107e-07\tAbsError: 1.79086e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.20585e-11\tAbsError: 5.20599e+04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.03557e-13\tAbsError: 2.20449e-13\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 6.66959e-05\tAbsError: 3.18899e+06\n", - " Region: \"zone_1\"\tRelError: 7.45090e-10\tAbsError: 1.97675e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 7.45090e-10\tAbsError: 1.97675e-11\n", - " Region: \"zone_3\"\tRelError: 6.66952e-05\tAbsError: 3.18899e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.66668e-05\tAbsError: 1.78142e+05\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.83350e-08\tAbsError: 3.01085e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.11360e-11\tAbsError: 2.08037e-11\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.62677e+00\tAbsError: 8.55868e+15\n", - " Region: \"zone_1\"\tRelError: 3.93566e+00\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.93566e+00\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.69111e+00\tAbsError: 8.55868e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94568e-01\tAbsError: 4.83229e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94557e-01\tAbsError: 3.72639e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01989e-01\tAbsError: 4.09542e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:01\u001b[0m.\u001b[1;36m044\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.20625\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:01\u001b[0m.\u001b[1;36m044\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:01\u001b[0m.\u001b[1;36m044\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.3142857142857143\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.20591e+00\tAbsError: 3.39308e+13\n", - " Region: \"zone_1\"\tRelError: 5.60532e-02\tAbsError: 2.58742e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.60532e-02\tAbsError: 2.58742e-02\n", - " Region: \"zone_3\"\tRelError: 1.14986e+00\tAbsError: 3.39308e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.53907e-01\tAbsError: 2.17210e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.39740e-01\tAbsError: 1.22098e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.62087e-02\tAbsError: 2.58980e-02\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 1.88658e-13\tAbsError: 3.08154e+04\n", - " Region: \"zone_1\"\tRelError: 8.30400e-14\tAbsError: 1.14869e-16\n", - " Equation: \"PotentialEquation\"\tRelError: 8.30400e-14\tAbsError: 1.14869e-16\n", - " Region: \"zone_3\"\tRelError: 1.05618e-13\tAbsError: 3.08154e+04\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.97303e-14\tAbsError: 1.58947e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.24995e-15\tAbsError: 1.49207e+04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.46374e-14\tAbsError: 1.12518e-16\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:01\u001b[0m.\u001b[1;36m245\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.2\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.54174e-01\tAbsError: 2.63999e+12\n", - " Region: \"zone_1\"\tRelError: 2.16661e-02\tAbsError: 1.17190e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.16661e-02\tAbsError: 1.17190e-02\n", - " Region: \"zone_3\"\tRelError: 4.32508e-01\tAbsError: 2.63999e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.06955e-01\tAbsError: 1.55437e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03619e-01\tAbsError: 1.08561e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.19328e-02\tAbsError: 1.17190e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.68467e+00\tAbsError: 3.35446e+14\n", - " Region: \"zone_1\"\tRelError: 1.36557e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.36557e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.54812e+00\tAbsError: 3.35446e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90679e-01\tAbsError: 1.72457e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.87899e-01\tAbsError: 1.62989e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.95382e-02\tAbsError: 3.07632e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.28470e+01\tAbsError: 9.15711e+15\n", - " Region: \"zone_1\"\tRelError: 1.11470e+01\tAbsError: 4.22091e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11470e+01\tAbsError: 4.22091e-02\n", - " Region: \"zone_3\"\tRelError: 1.70000e+00\tAbsError: 9.15711e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.04237e-01\tAbsError: 4.95388e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.04206e-01\tAbsError: 4.20323e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.15525e-02\tAbsError: 4.22091e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.73208e+00\tAbsError: 9.16435e+15\n", - " Region: \"zone_1\"\tRelError: 6.01267e+00\tAbsError: 4.23835e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.01267e+00\tAbsError: 4.23835e-02\n", - " Region: \"zone_3\"\tRelError: 1.71942e+00\tAbsError: 9.16435e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.05602e-01\tAbsError: 5.18862e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.05591e-01\tAbsError: 3.97573e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08224e-01\tAbsError: 4.23835e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.12470e-01\tAbsError: 2.41978e+11\n", - " Region: \"zone_1\"\tRelError: 3.41928e-05\tAbsError: 3.25966e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 3.41928e-05\tAbsError: 3.25966e-07\n", - " Region: \"zone_3\"\tRelError: 1.12436e-01\tAbsError: 2.41978e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12179e-01\tAbsError: 1.55249e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.56546e-04\tAbsError: 2.26453e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 7.79208e-07\tAbsError: 3.44024e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.21485e+01\tAbsError: 8.61846e+15\n", - " Region: \"zone_1\"\tRelError: 3.04717e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.04717e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.67686e+00\tAbsError: 8.61846e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94516e-01\tAbsError: 4.66248e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94484e-01\tAbsError: 3.95598e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.78603e-02\tAbsError: 4.09542e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.10405e+00\tAbsError: 2.84626e+13\n", - " Region: \"zone_1\"\tRelError: 5.09442e-02\tAbsError: 2.58970e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.09442e-02\tAbsError: 2.58970e-02\n", - " Region: \"zone_3\"\tRelError: 1.05311e+00\tAbsError: 2.84626e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14915e-01\tAbsError: 1.81960e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.86897e-01\tAbsError: 1.02666e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.12979e-02\tAbsError: 2.58565e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.88714e+00\tAbsError: 3.87948e+14\n", - " Region: \"zone_1\"\tRelError: 3.15624e-01\tAbsError: 3.22432e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.15624e-01\tAbsError: 3.22432e-02\n", - " Region: \"zone_3\"\tRelError: 1.57151e+00\tAbsError: 3.87948e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.07930e-01\tAbsError: 1.75972e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.04835e-01\tAbsError: 2.11976e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.87474e-02\tAbsError: 3.22432e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.48978e-07\tAbsError: 3.61558e+05\n", - " Region: \"zone_1\"\tRelError: 1.68628e-12\tAbsError: 3.44674e-13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.68628e-12\tAbsError: 3.44674e-13\n", - " Region: \"zone_3\"\tRelError: 4.48977e-07\tAbsError: 3.61558e+05\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.48424e-07\tAbsError: 1.54412e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.51743e-10\tAbsError: 3.46117e+05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.60385e-13\tAbsError: 3.52997e-13\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.92499e+00\tAbsError: 3.84281e+14\n", - " Region: \"zone_1\"\tRelError: 3.34214e-01\tAbsError: 3.24492e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.34214e-01\tAbsError: 3.24492e-02\n", - " Region: \"zone_3\"\tRelError: 1.59078e+00\tAbsError: 3.84281e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.10494e-01\tAbsError: 2.01137e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.07227e-01\tAbsError: 1.83145e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.30565e-02\tAbsError: 3.24492e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.07800e+00\tAbsError: 3.45404e+14\n", - " Region: \"zone_1\"\tRelError: 5.44178e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.44178e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.53382e+00\tAbsError: 3.45404e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90662e-01\tAbsError: 1.56300e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.87478e-01\tAbsError: 1.89103e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.56802e-02\tAbsError: 3.07632e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:02\u001b[0m.\u001b[1;36m164\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:02\u001b[0m.\u001b[1;36m164\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.42500000000000004\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.15902e+00\tAbsError: 5.11241e+13\n", - " Region: \"zone_1\"\tRelError: 4.51307e-02\tAbsError: 2.58740e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.51307e-02\tAbsError: 2.58740e-02\n", - " Region: \"zone_3\"\tRelError: 1.11389e+00\tAbsError: 5.11241e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.44316e-01\tAbsError: 2.85584e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.25056e-01\tAbsError: 2.25657e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.45193e-02\tAbsError: 2.58647e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.87738e-01\tAbsError: 1.50257e+12\n", - " Region: \"zone_1\"\tRelError: 1.63299e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.63299e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.71408e-01\tAbsError: 1.50257e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88723e-01\tAbsError: 2.92089e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.61472e-02\tAbsError: 1.21048e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65380e-02\tAbsError: 9.16534e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.19211e+00\tAbsError: 3.32532e+13\n", - " Region: \"zone_1\"\tRelError: 5.53890e-02\tAbsError: 2.58920e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.53890e-02\tAbsError: 2.58920e-02\n", - " Region: \"zone_3\"\tRelError: 1.13672e+00\tAbsError: 3.32532e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.48642e-01\tAbsError: 2.13165e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.32451e-01\tAbsError: 1.19367e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.56280e-02\tAbsError: 2.58962e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.23439e-01\tAbsError: 2.48858e+12\n", - " Region: \"zone_1\"\tRelError: 1.65047e-02\tAbsError: 1.10525e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65047e-02\tAbsError: 1.10525e-02\n", - " Region: \"zone_3\"\tRelError: 4.06934e-01\tAbsError: 2.48858e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.94927e-01\tAbsError: 1.39921e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.52365e-02\tAbsError: 1.08937e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.67704e-02\tAbsError: 1.10525e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.11313e+00\tAbsError: 4.26791e+13\n", - " Region: \"zone_1\"\tRelError: 7.05940e-02\tAbsError: 2.58377e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.05940e-02\tAbsError: 2.58377e-02\n", - " Region: \"zone_3\"\tRelError: 1.04254e+00\tAbsError: 4.26791e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14646e-01\tAbsError: 2.38411e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.85599e-01\tAbsError: 1.88379e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.22941e-02\tAbsError: 2.58015e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.96849e-02\tAbsError: 2.07362e+12\n", - " Region: \"zone_1\"\tRelError: 7.02885e-04\tAbsError: 1.90198e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.02885e-04\tAbsError: 1.90198e-05\n", - " Region: \"zone_3\"\tRelError: 8.89820e-02\tAbsError: 2.07362e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.78375e-02\tAbsError: 8.90891e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10276e-03\tAbsError: 1.18273e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.17313e-05\tAbsError: 1.96984e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 4.19960e+00\tAbsError: 9.13325e+15\n", - " Region: \"zone_1\"\tRelError: 2.46103e+00\tAbsError: 4.26142e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.46103e+00\tAbsError: 4.26142e-02\n", - " Region: \"zone_3\"\tRelError: 1.73857e+00\tAbsError: 9.13325e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.07329e-01\tAbsError: 5.34387e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.07315e-01\tAbsError: 3.78938e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.23925e-01\tAbsError: 4.26142e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.39831e-01\tAbsError: 2.55802e+12\n", - " Region: \"zone_1\"\tRelError: 2.08443e-02\tAbsError: 1.13359e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.08443e-02\tAbsError: 1.13359e-02\n", - " Region: \"zone_3\"\tRelError: 4.18986e-01\tAbsError: 2.55802e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.00015e-01\tAbsError: 1.46829e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.78664e-02\tAbsError: 1.08972e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.11047e-02\tAbsError: 1.13359e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.06933e-01\tAbsError: 5.18671e+11\n", - " Region: \"zone_1\"\tRelError: 3.54917e-04\tAbsError: 4.66744e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.54917e-04\tAbsError: 4.66744e-06\n", - " Region: \"zone_3\"\tRelError: 1.06578e-01\tAbsError: 5.18671e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.06131e-01\tAbsError: 2.20799e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.37889e-04\tAbsError: 2.97871e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 8.78698e-06\tAbsError: 4.85813e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.83480e-01\tAbsError: 2.88954e+12\n", - " Region: \"zone_1\"\tRelError: 1.35212e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35212e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.69958e-01\tAbsError: 2.88954e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88338e-01\tAbsError: 2.12977e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.78790e-02\tAbsError: 2.67656e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37417e-02\tAbsError: 9.16534e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.40982e-05\tAbsError: 1.92019e+08\n", - " Region: \"zone_1\"\tRelError: 4.03285e-08\tAbsError: 1.17477e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 4.03285e-08\tAbsError: 1.17477e-09\n", - " Region: \"zone_3\"\tRelError: 3.40579e-05\tAbsError: 1.92019e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.36060e-05\tAbsError: 5.55442e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.49187e-07\tAbsError: 1.36475e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 2.67835e-09\tAbsError: 1.26430e-09\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.71932e+00\tAbsError: 3.84693e+14\n", - " Region: \"zone_1\"\tRelError: 1.01771e-01\tAbsError: 3.27220e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01771e-01\tAbsError: 3.27220e-02\n", - " Region: \"zone_3\"\tRelError: 1.61755e+00\tAbsError: 3.84693e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.13531e-01\tAbsError: 2.43732e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.10807e-01\tAbsError: 1.40961e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.32090e-02\tAbsError: 3.27220e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:03\u001b[0m.\u001b[1;36m095\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.4\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.08419e-01\tAbsError: 1.78582e+11\n", - " Region: \"zone_1\"\tRelError: 4.38975e-05\tAbsError: 5.32125e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 4.38975e-05\tAbsError: 5.32125e-07\n", - " Region: \"zone_3\"\tRelError: 1.08375e-01\tAbsError: 1.78582e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.08198e-01\tAbsError: 2.44620e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.75328e-04\tAbsError: 1.54120e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21401e-06\tAbsError: 5.53297e-07\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.38444e-02\tAbsError: 3.70458e+12\n", - " Region: \"zone_1\"\tRelError: 3.59871e-03\tAbsError: 2.71390e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.59871e-03\tAbsError: 2.71390e-05\n", - " Region: \"zone_3\"\tRelError: 9.02457e-02\tAbsError: 3.70458e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.84320e-02\tAbsError: 1.19345e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.76575e-03\tAbsError: 2.51114e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.79561e-05\tAbsError: 2.71828e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.24334e+00\tAbsError: 5.69750e+13\n", - " Region: \"zone_1\"\tRelError: 7.33683e-02\tAbsError: 2.58826e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.33683e-02\tAbsError: 2.58826e-02\n", - " Region: \"zone_3\"\tRelError: 1.16997e+00\tAbsError: 5.69750e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.53959e-01\tAbsError: 4.18873e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.42390e-01\tAbsError: 1.50877e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.36175e-02\tAbsError: 2.58826e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.11708e-05\tAbsError: 9.26273e+06\n", - " Region: \"zone_1\"\tRelError: 4.48579e-09\tAbsError: 6.49167e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.48579e-09\tAbsError: 6.49167e-11\n", - " Region: \"zone_3\"\tRelError: 1.11663e-05\tAbsError: 9.26273e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.11195e-05\tAbsError: 3.00525e+06\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.66737e-08\tAbsError: 6.25748e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.25761e-10\tAbsError: 6.95491e-11\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:03\u001b[0m.\u001b[1;36m456\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.3125\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.56244e+00\tAbsError: 8.45570e+15\n", - " Region: \"zone_1\"\tRelError: 3.85573e+00\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.85573e+00\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.70670e+00\tAbsError: 8.45570e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94571e-01\tAbsError: 4.92914e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94557e-01\tAbsError: 3.52655e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17574e-01\tAbsError: 4.09542e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.30803e-06\tAbsError: 1.39215e+05\n", - " Region: \"zone_1\"\tRelError: 4.09874e-11\tAbsError: 4.86456e-13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.09874e-11\tAbsError: 4.86456e-13\n", - " Region: \"zone_3\"\tRelError: 1.30799e-06\tAbsError: 1.39215e+05\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.30706e-06\tAbsError: 2.54601e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.20349e-10\tAbsError: 1.13755e+05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14721e-12\tAbsError: 5.00050e-13\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.96038e-05\tAbsError: 5.27329e+08\n", - " Region: \"zone_1\"\tRelError: 3.38319e-07\tAbsError: 2.80513e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.38319e-07\tAbsError: 2.80513e-09\n", - " Region: \"zone_3\"\tRelError: 4.92654e-05\tAbsError: 5.27329e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.82203e-05\tAbsError: 1.20057e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.04006e-06\tAbsError: 4.07273e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 5.04648e-09\tAbsError: 2.84942e-09\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:03\u001b[0m.\u001b[1;36m734\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:03\u001b[0m.\u001b[1;36m734\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.4214285714285714\u001b[0m \n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.67898e-01\tAbsError: 7.04138e+12\n", - " Region: \"zone_1\"\tRelError: 2.81523e-02\tAbsError: 1.17190e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.81523e-02\tAbsError: 1.17190e-02\n", - " Region: \"zone_3\"\tRelError: 4.39746e-01\tAbsError: 7.04138e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.06769e-01\tAbsError: 2.74850e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.04598e-01\tAbsError: 4.29289e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.83778e-02\tAbsError: 1.17190e-02\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:03\u001b[0m.\u001b[1;36m755\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: \u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:03\u001b[0m.\u001b[1;36m755\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.67739e+00\tAbsError: 3.26551e+14\n", - " Region: \"zone_1\"\tRelError: 1.13651e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13651e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.56374e+00\tAbsError: 3.26551e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91179e-01\tAbsError: 1.98410e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.87607e-01\tAbsError: 1.28141e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.49517e-02\tAbsError: 3.07632e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.10811e+00\tAbsError: 9.08870e+15\n", - " Region: \"zone_1\"\tRelError: 5.39249e+00\tAbsError: 4.22091e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.39249e+00\tAbsError: 4.22091e-02\n", - " Region: \"zone_3\"\tRelError: 1.71562e+00\tAbsError: 9.08870e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.04288e-01\tAbsError: 5.14403e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.04277e-01\tAbsError: 3.94467e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07055e-01\tAbsError: 4.22091e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.13460e-01\tAbsError: 6.89826e+11\n", - " Region: \"zone_1\"\tRelError: 1.18399e-04\tAbsError: 6.54909e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18399e-04\tAbsError: 6.54909e-06\n", - " Region: \"zone_3\"\tRelError: 1.13342e-01\tAbsError: 6.89826e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12681e-01\tAbsError: 3.53309e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.39335e-04\tAbsError: 3.36517e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.16295e-05\tAbsError: 7.19104e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.13583e+00\tAbsError: 3.35166e+13\n", - " Region: \"zone_1\"\tRelError: 6.49986e-02\tAbsError: 2.58787e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.49986e-02\tAbsError: 2.58787e-02\n", - " Region: \"zone_3\"\tRelError: 1.07083e+00\tAbsError: 3.35166e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14794e-01\tAbsError: 2.31889e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.90894e-01\tAbsError: 1.03277e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.51440e-02\tAbsError: 2.58923e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.42127e-05\tAbsError: 2.61598e+07\n", - " Region: \"zone_1\"\tRelError: 3.82398e-09\tAbsError: 2.37448e-10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.82398e-09\tAbsError: 2.37448e-10\n", - " Region: \"zone_3\"\tRelError: 1.42089e-05\tAbsError: 2.61598e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.41120e-05\tAbsError: 1.42128e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.60310e-08\tAbsError: 1.19470e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 8.29382e-10\tAbsError: 2.71915e-10\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.87280e+00\tAbsError: 3.78063e+14\n", - " Region: \"zone_1\"\tRelError: 2.87477e-01\tAbsError: 3.22432e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.87477e-01\tAbsError: 3.22432e-02\n", - " Region: \"zone_3\"\tRelError: 1.58533e+00\tAbsError: 3.78063e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.08269e-01\tAbsError: 1.97458e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.04792e-01\tAbsError: 1.80605e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.22654e-02\tAbsError: 3.22432e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.97996e+00\tAbsError: 9.03690e+15\n", - " Region: \"zone_1\"\tRelError: 2.24677e+00\tAbsError: 4.23835e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.24677e+00\tAbsError: 4.23835e-02\n", - " Region: \"zone_3\"\tRelError: 1.73319e+00\tAbsError: 9.03690e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.05604e-01\tAbsError: 5.28487e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.05590e-01\tAbsError: 3.75204e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21995e-01\tAbsError: 4.23835e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:04\u001b[0m.\u001b[1;36m472\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:04\u001b[0m.\u001b[1;36m472\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5333333333333333\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.62677e+00\tAbsError: 8.55868e+15\n", - " Region: \"zone_1\"\tRelError: 3.93566e+00\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.93566e+00\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.69111e+00\tAbsError: 8.55868e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94568e-01\tAbsError: 4.83229e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94557e-01\tAbsError: 3.72639e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01989e-01\tAbsError: 4.09542e-02\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.97006e-01\tAbsError: 3.97798e+12\n", - " Region: \"zone_1\"\tRelError: 2.05644e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.05644e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.76441e-01\tAbsError: 3.97798e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88505e-01\tAbsError: 1.01871e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.71832e-02\tAbsError: 2.95927e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.07533e-02\tAbsError: 9.16534e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.71120e+00\tAbsError: 3.76250e+14\n", - " Region: \"zone_1\"\tRelError: 1.01047e-01\tAbsError: 3.24492e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01047e-01\tAbsError: 3.24492e-02\n", - " Region: \"zone_3\"\tRelError: 1.61015e+00\tAbsError: 3.76250e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.10602e-01\tAbsError: 2.37048e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.07623e-01\tAbsError: 1.39202e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.19253e-02\tAbsError: 3.24493e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.18219e+00\tAbsError: 3.25905e+13\n", - " Region: \"zone_1\"\tRelError: 5.50731e-02\tAbsError: 2.58881e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.50731e-02\tAbsError: 2.58881e-02\n", - " Region: \"zone_3\"\tRelError: 1.12712e+00\tAbsError: 3.25905e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.44603e-01\tAbsError: 2.08693e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.27351e-01\tAbsError: 1.17212e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.51633e-02\tAbsError: 2.58974e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.68467e+00\tAbsError: 3.35446e+14\n", - " Region: \"zone_1\"\tRelError: 1.36557e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.36557e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.54812e+00\tAbsError: 3.35446e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90679e-01\tAbsError: 1.72457e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.87899e-01\tAbsError: 1.62989e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.95382e-02\tAbsError: 3.07632e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.75905e-02\tAbsError: 6.14178e+11\n", - " Region: \"zone_1\"\tRelError: 1.87871e-04\tAbsError: 5.35919e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87871e-04\tAbsError: 5.35919e-06\n", - " Region: \"zone_3\"\tRelError: 8.74026e-02\tAbsError: 6.14178e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.70791e-02\tAbsError: 2.57149e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.08574e-04\tAbsError: 3.57029e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49985e-05\tAbsError: 5.65537e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.22827e+00\tAbsError: 5.37376e+13\n", - " Region: \"zone_1\"\tRelError: 7.15835e-02\tAbsError: 2.58629e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.15835e-02\tAbsError: 2.58629e-02\n", - " Region: \"zone_3\"\tRelError: 1.15669e+00\tAbsError: 5.37376e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.48602e-01\tAbsError: 3.94447e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.35622e-01\tAbsError: 1.42929e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.24649e-02\tAbsError: 2.58483e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.29005e-01\tAbsError: 2.53945e+12\n", - " Region: \"zone_1\"\tRelError: 2.02409e-02\tAbsError: 1.10525e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.02409e-02\tAbsError: 1.10525e-02\n", - " Region: \"zone_3\"\tRelError: 4.08764e-01\tAbsError: 2.53945e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.94460e-01\tAbsError: 1.43263e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.38075e-02\tAbsError: 1.10682e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.04965e-02\tAbsError: 1.10525e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.35717e+02\tAbsError: 9.03749e+15\n", - " Region: \"zone_1\"\tRelError: 1.33965e+02\tAbsError: 4.26142e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33965e+02\tAbsError: 4.26142e-02\n", - " Region: \"zone_3\"\tRelError: 1.75243e+00\tAbsError: 9.03749e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.07326e-01\tAbsError: 5.40486e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.07307e-01\tAbsError: 3.63263e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37792e-01\tAbsError: 4.26142e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.10405e+00\tAbsError: 2.84626e+13\n", - " Region: \"zone_1\"\tRelError: 5.09442e-02\tAbsError: 2.58970e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.09442e-02\tAbsError: 2.58970e-02\n", - " Region: \"zone_3\"\tRelError: 1.05311e+00\tAbsError: 2.84626e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14915e-01\tAbsError: 1.81960e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.86897e-01\tAbsError: 1.02666e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.12979e-02\tAbsError: 2.58565e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 9.95471e-06\tAbsError: 1.37438e+07\n", - " Region: \"zone_1\"\tRelError: 1.96051e-09\tAbsError: 6.30623e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.96051e-09\tAbsError: 6.30623e-11\n", - " Region: \"zone_3\"\tRelError: 9.95275e-06\tAbsError: 1.37438e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.91827e-06\tAbsError: 3.21256e+06\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.43047e-08\tAbsError: 1.05312e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.78389e-10\tAbsError: 6.72816e-11\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:05\u001b[0m.\u001b[1;36m405\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.5\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Iteration: 3\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - " Device: \"device\"\tRelError: 4.52390e-01\tAbsError: 6.45583e+12\n", - " Region: \"zone_1\"\tRelError: 2.69601e-02\tAbsError: 1.13359e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.69601e-02\tAbsError: 1.13359e-02\n", - " Region: \"zone_3\"\tRelError: 4.25430e-01\tAbsError: 6.45583e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.99644e-01\tAbsError: 2.39511e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.86014e-02\tAbsError: 4.06072e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.71842e-02\tAbsError: 1.13359e-02\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.05316e-01\tAbsError: 5.79540e+10\n", - " Region: \"zone_1\"\tRelError: 7.85176e-06\tAbsError: 1.71162e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 7.85176e-06\tAbsError: 1.71162e-07\n", - " Region: \"zone_3\"\tRelError: 1.05308e-01\tAbsError: 5.79540e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.05226e-01\tAbsError: 5.43885e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.20943e-05\tAbsError: 5.25152e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.65925e-07\tAbsError: 1.77014e-07\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.33167e+00\tAbsError: 4.68608e+14\n", - " Region: \"zone_1\"\tRelError: 6.88547e-01\tAbsError: 3.27220e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.88547e-01\tAbsError: 3.27220e-02\n", - " Region: \"zone_3\"\tRelError: 1.64312e+00\tAbsError: 4.68608e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.14298e-01\tAbsError: 3.32999e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.10136e-01\tAbsError: 1.35609e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18685e-01\tAbsError: 3.27220e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.87738e-01\tAbsError: 1.50257e+12\n", - " Region: \"zone_1\"\tRelError: 1.63299e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.63299e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.71408e-01\tAbsError: 1.50257e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88723e-01\tAbsError: 2.92089e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.61472e-02\tAbsError: 1.21048e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65380e-02\tAbsError: 9.16534e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.09153e-01\tAbsError: 6.52102e+11\n", - " Region: \"zone_1\"\tRelError: 1.28718e-04\tAbsError: 6.46805e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28718e-04\tAbsError: 6.46805e-06\n", - " Region: \"zone_3\"\tRelError: 1.09024e-01\tAbsError: 6.52102e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.08417e-01\tAbsError: 3.48257e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.86286e-04\tAbsError: 3.03845e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.10131e-05\tAbsError: 7.10532e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.94336e-07\tAbsError: 3.10240e+04\n", - " Region: \"zone_1\"\tRelError: 2.64468e-12\tAbsError: 8.09012e-14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.64468e-12\tAbsError: 8.09012e-14\n", - " Region: \"zone_3\"\tRelError: 5.94333e-07\tAbsError: 3.10240e+04\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.94222e-07\tAbsError: 1.55669e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10786e-10\tAbsError: 1.54571e+04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49149e-13\tAbsError: 8.55910e-14\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:05\u001b[0m.\u001b[1;36m882\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:05\u001b[0m.\u001b[1;36m882\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.41874999999999996\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.87556e+01\tAbsError: 8.34767e+15\n", - " Region: \"zone_1\"\tRelError: 6.70313e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.70313e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.72426e+00\tAbsError: 8.34767e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94570e-01\tAbsError: 4.96926e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94551e-01\tAbsError: 3.37841e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35138e-01\tAbsError: 4.09542e-02\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.83071e+00\tAbsError: 1.53197e+14\n", - " Region: \"zone_1\"\tRelError: 6.21775e-01\tAbsError: 2.56371e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.21775e-01\tAbsError: 2.56371e-02\n", - " Region: \"zone_3\"\tRelError: 1.20894e+00\tAbsError: 1.53197e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.54286e-01\tAbsError: 8.99731e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.51877e-01\tAbsError: 6.32239e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02774e-01\tAbsError: 2.58431e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.45285e-05\tAbsError: 1.94103e+07\n", - " Region: \"zone_1\"\tRelError: 2.89450e-09\tAbsError: 1.67720e-10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.89450e-09\tAbsError: 1.67720e-10\n", - " Region: \"zone_3\"\tRelError: 1.45256e-05\tAbsError: 1.94103e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.44344e-05\tAbsError: 1.03183e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.06255e-08\tAbsError: 9.09197e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.79572e-10\tAbsError: 1.93371e-10\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.96849e-02\tAbsError: 2.07362e+12\n", - " Region: \"zone_1\"\tRelError: 7.02885e-04\tAbsError: 1.90198e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.02885e-04\tAbsError: 1.90198e-05\n", - " Region: \"zone_3\"\tRelError: 8.89820e-02\tAbsError: 2.07362e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.78375e-02\tAbsError: 8.90891e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10276e-03\tAbsError: 1.18273e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.17313e-05\tAbsError: 1.96984e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:06\u001b[0m.\u001b[1;36m182\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:06\u001b[0m.\u001b[1;36m182\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5285714285714286\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.18244e+00\tAbsError: 3.45808e+14\n", - " Region: \"zone_1\"\tRelError: 5.95786e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95786e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.58666e+00\tAbsError: 3.45808e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91491e-01\tAbsError: 2.56450e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.87672e-01\tAbsError: 8.93573e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07491e-01\tAbsError: 3.07632e-02\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 4.07391e+00\tAbsError: 8.96454e+15\n", - " Region: \"zone_1\"\tRelError: 2.34478e+00\tAbsError: 4.22091e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.34478e+00\tAbsError: 4.22091e-02\n", - " Region: \"zone_3\"\tRelError: 1.72912e+00\tAbsError: 8.96454e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.04290e-01\tAbsError: 5.24055e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.04276e-01\tAbsError: 3.72398e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20557e-01\tAbsError: 4.22091e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.40982e-05\tAbsError: 1.92019e+08\n", - " Region: \"zone_1\"\tRelError: 4.03284e-08\tAbsError: 1.17477e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 4.03284e-08\tAbsError: 1.17477e-09\n", - " Region: \"zone_3\"\tRelError: 3.40579e-05\tAbsError: 1.92019e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.36060e-05\tAbsError: 5.55442e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.49187e-07\tAbsError: 1.36475e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 2.67835e-09\tAbsError: 1.26430e-09\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:06\u001b[0m.\u001b[1;36m509\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.4\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 2\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 1.19247e+00\tAbsError: 8.54805e+13\n", - " Region: \"zone_1\"\tRelError: 9.12229e-02\tAbsError: 2.58978e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.12229e-02\tAbsError: 2.58978e-02\n", - " Region: \"zone_3\"\tRelError: 1.10125e+00\tAbsError: 8.54805e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14822e-01\tAbsError: 5.48784e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.98551e-01\tAbsError: 3.06021e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.78742e-02\tAbsError: 2.58989e-02\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 9.07379e-01\tAbsError: 7.09930e+13\n", - " Region: \"zone_1\"\tRelError: 4.33630e-01\tAbsError: 1.17190e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.33630e-01\tAbsError: 1.17190e-02\n", - " Region: \"zone_3\"\tRelError: 4.73749e-01\tAbsError: 7.09930e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.05206e-01\tAbsError: 3.39039e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.29527e-01\tAbsError: 3.70891e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.90150e-02\tAbsError: 1.17190e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.77164e+01\tAbsError: 8.93909e+15\n", - " Region: \"zone_1\"\tRelError: 2.59693e+01\tAbsError: 4.23835e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.59693e+01\tAbsError: 4.23835e-02\n", - " Region: \"zone_3\"\tRelError: 1.74706e+00\tAbsError: 8.93909e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.05602e-01\tAbsError: 5.34299e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.05583e-01\tAbsError: 3.59610e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35874e-01\tAbsError: 4.23835e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.70349e+00\tAbsError: 3.69951e+14\n", - " Region: \"zone_1\"\tRelError: 9.90112e-02\tAbsError: 3.22432e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.90112e-02\tAbsError: 3.22432e-02\n", - " Region: \"zone_3\"\tRelError: 1.60448e+00\tAbsError: 3.69951e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.08368e-01\tAbsError: 2.32085e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.05186e-01\tAbsError: 1.37866e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.09261e-02\tAbsError: 3.22432e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.72006e-01\tAbsError: 1.34673e+13\n", - " Region: \"zone_1\"\tRelError: 5.38023e-02\tAbsError: 8.38576e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.38023e-02\tAbsError: 8.38576e-05\n", - " Region: \"zone_3\"\tRelError: 1.18204e-01\tAbsError: 1.34673e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.11488e-01\tAbsError: 6.83755e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.33436e-03\tAbsError: 6.62974e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.82194e-04\tAbsError: 9.17770e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.52183e-01\tAbsError: 2.83225e+13\n", - " Region: \"zone_1\"\tRelError: 5.95279e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95279e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.92655e-01\tAbsError: 2.83225e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.85164e-01\tAbsError: 1.34603e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.99920e-02\tAbsError: 1.48622e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.74993e-02\tAbsError: 9.16534e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.21707e+00\tAbsError: 5.14100e+13\n", - " Region: \"zone_1\"\tRelError: 7.05172e-02\tAbsError: 2.58330e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.05172e-02\tAbsError: 2.58330e-02\n", - " Region: \"zone_3\"\tRelError: 1.14655e+00\tAbsError: 5.14100e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.44586e-01\tAbsError: 3.76870e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.30328e-01\tAbsError: 1.37229e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.16401e-02\tAbsError: 2.58529e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.47389e+00\tAbsError: 4.49152e+14\n", - " Region: \"zone_1\"\tRelError: 8.38694e-01\tAbsError: 3.24492e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.38694e-01\tAbsError: 3.24492e-02\n", - " Region: \"zone_3\"\tRelError: 1.63520e+00\tAbsError: 4.49152e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.11302e-01\tAbsError: 3.21890e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.07074e-01\tAbsError: 1.27262e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16820e-01\tAbsError: 3.24492e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.56244e+00\tAbsError: 8.45570e+15\n", - " Region: \"zone_1\"\tRelError: 3.85573e+00\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.85573e+00\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.70670e+00\tAbsError: 8.45570e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94571e-01\tAbsError: 4.92914e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94557e-01\tAbsError: 3.52655e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17574e-01\tAbsError: 4.09542e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.20842e-04\tAbsError: 2.15808e+10\n", - " Region: \"zone_1\"\tRelError: 1.03547e-04\tAbsError: 1.76087e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03547e-04\tAbsError: 1.76087e-07\n", - " Region: \"zone_3\"\tRelError: 2.17295e-04\tAbsError: 2.15808e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07574e-04\tAbsError: 1.44905e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.92433e-06\tAbsError: 7.09027e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 7.96777e-07\tAbsError: 1.90604e-07\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.52644e-02\tAbsError: 2.55837e+12\n", - " Region: \"zone_1\"\tRelError: 7.16041e-03\tAbsError: 2.30338e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.16041e-03\tAbsError: 2.30338e-05\n", - " Region: \"zone_3\"\tRelError: 8.81040e-02\tAbsError: 2.55837e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.71797e-02\tAbsError: 1.35830e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.38768e-04\tAbsError: 1.20006e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.54583e-05\tAbsError: 2.40500e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.47221e+00\tAbsError: 1.38206e+14\n", - " Region: \"zone_1\"\tRelError: 2.77597e-01\tAbsError: 2.57923e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.77597e-01\tAbsError: 2.57923e-02\n", - " Region: \"zone_3\"\tRelError: 1.19461e+00\tAbsError: 1.38206e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.48886e-01\tAbsError: 8.13987e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.44879e-01\tAbsError: 5.68069e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00850e-01\tAbsError: 2.58970e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.67739e+00\tAbsError: 3.26551e+14\n", - " Region: \"zone_1\"\tRelError: 1.13651e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13651e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.56374e+00\tAbsError: 3.26551e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91179e-01\tAbsError: 1.98410e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.87607e-01\tAbsError: 1.28141e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.49517e-02\tAbsError: 3.07632e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 9.98204e-10\tAbsError: 6.88449e+04\n", - " Region: \"zone_1\"\tRelError: 2.51168e-10\tAbsError: 4.66791e-13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.51168e-10\tAbsError: 4.66791e-13\n", - " Region: \"zone_3\"\tRelError: 7.47037e-10\tAbsError: 6.88449e+04\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.16501e-10\tAbsError: 4.91562e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.84705e-11\tAbsError: 1.96886e+04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06479e-12\tAbsError: 4.91347e-13\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:07\u001b[0m.\u001b[1;36m651\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:07\u001b[0m.\u001b[1;36m651\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6416666666666667\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Iteration: 3\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 4.40857e-01\tAbsError: 6.00505e+12\n", - " Region: \"zone_1\"\tRelError: 2.60893e-02\tAbsError: 1.10525e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.60893e-02\tAbsError: 1.10525e-02\n", - " Region: \"zone_3\"\tRelError: 4.14768e-01\tAbsError: 6.00505e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.94016e-01\tAbsError: 2.13559e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.44396e-02\tAbsError: 3.86946e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.63124e-02\tAbsError: 1.10525e-02\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.58292e-05\tAbsError: 4.59514e+08\n", - " Region: \"zone_1\"\tRelError: 9.81723e-07\tAbsError: 3.18909e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 9.81723e-07\tAbsError: 3.18909e-09\n", - " Region: \"zone_3\"\tRelError: 3.48474e-05\tAbsError: 4.59514e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.45053e-05\tAbsError: 3.33895e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.30263e-07\tAbsError: 1.25619e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18628e-08\tAbsError: 3.31754e-09\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.13583e+00\tAbsError: 3.35166e+13\n", - " Region: \"zone_1\"\tRelError: 6.49986e-02\tAbsError: 2.58787e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.49986e-02\tAbsError: 2.58787e-02\n", - " Region: \"zone_3\"\tRelError: 1.07083e+00\tAbsError: 3.35166e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14794e-01\tAbsError: 2.31889e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.90894e-01\tAbsError: 1.03277e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.51440e-02\tAbsError: 2.58923e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:07\u001b[0m.\u001b[1;36m859\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.6\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.79000e-01\tAbsError: 6.23803e+13\n", - " Region: \"zone_1\"\tRelError: 1.22093e-01\tAbsError: 1.13359e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.22093e-01\tAbsError: 1.13359e-02\n", - " Region: \"zone_3\"\tRelError: 4.56906e-01\tAbsError: 6.23803e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.98027e-01\tAbsError: 2.99509e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.21690e-01\tAbsError: 3.24293e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.71902e-02\tAbsError: 1.13359e-02\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.06340e-01\tAbsError: 7.39211e+11\n", - " Region: \"zone_1\"\tRelError: 1.63325e-04\tAbsError: 7.71560e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.63325e-04\tAbsError: 7.71560e-06\n", - " Region: \"zone_3\"\tRelError: 1.06177e-01\tAbsError: 7.39211e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.05521e-01\tAbsError: 4.07148e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.31950e-04\tAbsError: 3.32064e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.43075e-05\tAbsError: 8.33799e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.97006e-01\tAbsError: 3.97798e+12\n", - " Region: \"zone_1\"\tRelError: 2.05644e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.05644e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.76441e-01\tAbsError: 3.97798e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88505e-01\tAbsError: 1.01871e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.71832e-02\tAbsError: 2.95927e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.07533e-02\tAbsError: 9.16534e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 4.25793e+02\tAbsError: 9.01354e+15\n", - " Region: \"zone_1\"\tRelError: 4.23991e+02\tAbsError: 4.26142e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.23991e+02\tAbsError: 4.26142e-02\n", - " Region: \"zone_3\"\tRelError: 1.80182e+00\tAbsError: 9.01354e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.07310e-01\tAbsError: 5.29382e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.07259e-01\tAbsError: 3.71973e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87247e-01\tAbsError: 4.26142e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.29396e-01\tAbsError: 1.11086e+13\n", - " Region: \"zone_1\"\tRelError: 1.63271e-02\tAbsError: 7.10138e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.63271e-02\tAbsError: 7.10138e-05\n", - " Region: \"zone_3\"\tRelError: 1.13069e-01\tAbsError: 1.11086e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07610e-01\tAbsError: 5.70070e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.13801e-03\tAbsError: 5.40789e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.20942e-04\tAbsError: 7.85800e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.78346e-05\tAbsError: 2.12339e+07\n", - " Region: \"zone_1\"\tRelError: 2.08951e-09\tAbsError: 1.24570e-10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.08951e-09\tAbsError: 1.24570e-10\n", - " Region: \"zone_3\"\tRelError: 1.78325e-05\tAbsError: 2.12339e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.77106e-05\tAbsError: 9.80122e+06\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.21506e-07\tAbsError: 1.14326e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 4.37674e-10\tAbsError: 1.47768e-10\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:08\u001b[0m.\u001b[1;36m417\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.525\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.75905e-02\tAbsError: 6.14178e+11\n", - " Region: \"zone_1\"\tRelError: 1.87871e-04\tAbsError: 5.35919e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87871e-04\tAbsError: 5.35919e-06\n", - " Region: \"zone_3\"\tRelError: 8.74026e-02\tAbsError: 6.14178e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.70791e-02\tAbsError: 2.57149e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.08574e-04\tAbsError: 3.57029e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49985e-05\tAbsError: 5.65537e-06\n", - "number of equations 22602\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.45236e+01\tAbsError: 8.31884e+15\n", - " Region: \"zone_1\"\tRelError: 1.27753e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.27753e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.74827e+00\tAbsError: 8.31884e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94561e-01\tAbsError: 4.96691e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94525e-01\tAbsError: 3.35193e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.59186e-01\tAbsError: 4.09542e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.98520e-04\tAbsError: 1.42293e+10\n", - " Region: \"zone_1\"\tRelError: 2.60200e-05\tAbsError: 1.21066e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.60200e-05\tAbsError: 1.21066e-07\n", - " Region: \"zone_3\"\tRelError: 1.72500e-04\tAbsError: 1.42293e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.66144e-04\tAbsError: 9.64960e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.81290e-06\tAbsError: 4.57971e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 5.42901e-07\tAbsError: 1.32074e-07\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 4.09319e+00\tAbsError: 1.95003e+15\n", - " Region: \"zone_1\"\tRelError: 2.42608e+00\tAbsError: 3.27220e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.42608e+00\tAbsError: 3.27220e-02\n", - " Region: \"zone_3\"\tRelError: 1.66711e+00\tAbsError: 1.95003e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.14648e-01\tAbsError: 1.08906e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.00229e-01\tAbsError: 8.60967e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.52238e-01\tAbsError: 3.27220e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 9.95471e-06\tAbsError: 1.37438e+07\n", - " Region: \"zone_1\"\tRelError: 1.96050e-09\tAbsError: 6.30624e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.96050e-09\tAbsError: 6.30624e-11\n", - " Region: \"zone_3\"\tRelError: 9.95275e-06\tAbsError: 1.37438e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.91827e-06\tAbsError: 3.21255e+06\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.43047e-08\tAbsError: 1.05312e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.78389e-10\tAbsError: 6.72817e-11\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.91465e+00\tAbsError: 8.82588e+14\n", - " Region: \"zone_1\"\tRelError: 3.03324e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.03324e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.61133e+00\tAbsError: 8.82588e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91758e-01\tAbsError: 5.05615e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.83634e-01\tAbsError: 3.76973e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35939e-01\tAbsError: 3.07632e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.53033e+01\tAbsError: 8.86526e+15\n", - " Region: \"zone_1\"\tRelError: 1.35603e+01\tAbsError: 4.22091e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35603e+01\tAbsError: 4.22091e-02\n", - " Region: \"zone_3\"\tRelError: 1.74298e+00\tAbsError: 8.86526e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.04288e-01\tAbsError: 5.29650e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.04269e-01\tAbsError: 3.56876e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.34425e-01\tAbsError: 4.22091e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:08\u001b[0m.\u001b[1;36m931\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.5\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 4.55085e+00\tAbsError: 1.52020e+15\n", - " Region: \"zone_1\"\tRelError: 3.34328e+00\tAbsError: 2.57301e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.34328e+00\tAbsError: 2.57301e-02\n", - " Region: \"zone_3\"\tRelError: 1.20757e+00\tAbsError: 1.52020e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.57600e-01\tAbsError: 6.59311e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.06886e-01\tAbsError: 8.60885e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43086e-01\tAbsError: 2.58820e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.17968e-10\tAbsError: 3.68902e+04\n", - " Region: \"zone_1\"\tRelError: 4.10813e-11\tAbsError: 2.01096e-13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.10813e-11\tAbsError: 2.01096e-13\n", - " Region: \"zone_3\"\tRelError: 3.76886e-10\tAbsError: 3.68902e+04\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.64075e-10\tAbsError: 2.06737e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.19115e-11\tAbsError: 1.62165e+04\n", - " Equation: \"PotentialEquation\"\tRelError: 8.99293e-13\tAbsError: 2.18109e-13\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.95950e+00\tAbsError: 4.34971e+14\n", - " Region: \"zone_1\"\tRelError: 3.29888e-01\tAbsError: 3.22432e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.29888e-01\tAbsError: 3.22432e-02\n", - " Region: \"zone_3\"\tRelError: 1.62961e+00\tAbsError: 4.34971e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.09020e-01\tAbsError: 3.13542e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.04723e-01\tAbsError: 1.21429e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15866e-01\tAbsError: 3.22432e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.34467e+00\tAbsError: 5.44154e+14\n", - " Region: \"zone_1\"\tRelError: 2.20632e-01\tAbsError: 2.58931e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20632e-01\tAbsError: 2.58931e-02\n", - " Region: \"zone_3\"\tRelError: 1.12404e+00\tAbsError: 5.44154e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.17234e-01\tAbsError: 2.66383e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.89208e-01\tAbsError: 2.77771e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17596e-01\tAbsError: 2.58999e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:09\u001b[0m.\u001b[1;36m267\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:09\u001b[0m.\u001b[1;36m267\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6357142857142857\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 9.15949e-01\tAbsError: 7.10976e+14\n", - " Region: \"zone_1\"\tRelError: 3.77162e-01\tAbsError: 1.17190e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.77162e-01\tAbsError: 1.17190e-02\n", - " Region: \"zone_3\"\tRelError: 5.38787e-01\tAbsError: 7.10976e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.04705e-01\tAbsError: 3.54664e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.83282e-01\tAbsError: 3.56312e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.07995e-02\tAbsError: 1.17190e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.87556e+01\tAbsError: 8.34767e+15\n", - " Region: \"zone_1\"\tRelError: 6.70313e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.70313e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.72426e+00\tAbsError: 8.34767e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94570e-01\tAbsError: 4.96926e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94551e-01\tAbsError: 3.37841e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35138e-01\tAbsError: 4.09542e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.29903e+00\tAbsError: 1.28270e+14\n", - " Region: \"zone_1\"\tRelError: 1.15748e-01\tAbsError: 2.56301e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15748e-01\tAbsError: 2.56301e-02\n", - " Region: \"zone_3\"\tRelError: 1.18328e+00\tAbsError: 1.28270e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.44766e-01\tAbsError: 7.58073e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.39540e-01\tAbsError: 5.24626e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.89722e-02\tAbsError: 2.57921e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.58303e-01\tAbsError: 2.58889e+14\n", - " Region: \"zone_1\"\tRelError: 3.50075e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.50075e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 4.23296e-01\tAbsError: 2.58889e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.70968e-01\tAbsError: 1.16796e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.16540e-01\tAbsError: 1.42093e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.57873e-02\tAbsError: 9.16534e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.67979e+01\tAbsError: 8.91230e+15\n", - " Region: \"zone_1\"\tRelError: 2.50038e+01\tAbsError: 4.23835e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.50038e+01\tAbsError: 4.23835e-02\n", - " Region: \"zone_3\"\tRelError: 1.79419e+00\tAbsError: 8.91230e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.05587e-01\tAbsError: 5.25148e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.05539e-01\tAbsError: 3.66082e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.83062e-01\tAbsError: 4.23835e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.18244e+00\tAbsError: 3.45808e+14\n", - " Region: \"zone_1\"\tRelError: 5.95786e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95786e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.58666e+00\tAbsError: 3.45808e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91491e-01\tAbsError: 2.56450e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.87672e-01\tAbsError: 8.93573e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07491e-01\tAbsError: 3.07632e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 3.12901e-01\tAbsError: 1.51064e+14\n", - " Region: \"zone_1\"\tRelError: 1.87797e-01\tAbsError: 3.92494e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87797e-01\tAbsError: 3.92494e-04\n", - " Region: \"zone_3\"\tRelError: 1.25105e-01\tAbsError: 1.51064e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.02833e-01\tAbsError: 8.54481e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.00100e-02\tAbsError: 6.56163e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.26152e-03\tAbsError: 3.94188e-04\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.00758e-01\tAbsError: 5.64850e+13\n", - " Region: \"zone_1\"\tRelError: 5.60005e-02\tAbsError: 1.10525e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.60005e-02\tAbsError: 1.10525e-02\n", - " Region: \"zone_3\"\tRelError: 4.44758e-01\tAbsError: 5.64850e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.92751e-01\tAbsError: 2.72341e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.16145e-01\tAbsError: 2.92508e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.58616e-02\tAbsError: 1.10525e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.06225e-01\tAbsError: 3.99157e+13\n", - " Region: \"zone_1\"\tRelError: 1.41229e-02\tAbsError: 1.62376e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.41229e-02\tAbsError: 1.62376e-04\n", - " Region: \"zone_3\"\tRelError: 9.21025e-02\tAbsError: 3.99157e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.51238e-02\tAbsError: 2.25076e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.14819e-03\tAbsError: 1.74081e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.30563e-04\tAbsError: 1.67642e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.19247e+00\tAbsError: 8.54805e+13\n", - " Region: \"zone_1\"\tRelError: 9.12229e-02\tAbsError: 2.58978e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.12229e-02\tAbsError: 2.58978e-02\n", - " Region: \"zone_3\"\tRelError: 1.10125e+00\tAbsError: 8.54805e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14822e-01\tAbsError: 5.48784e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.98551e-01\tAbsError: 3.06021e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.78742e-02\tAbsError: 2.58989e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.16759e-01\tAbsError: 9.63744e+12\n", - " Region: \"zone_1\"\tRelError: 7.49074e-03\tAbsError: 6.25327e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.49074e-03\tAbsError: 6.25327e-05\n", - " Region: \"zone_3\"\tRelError: 1.09268e-01\tAbsError: 9.63744e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04636e-01\tAbsError: 4.92578e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.35150e-03\tAbsError: 4.71165e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.81133e-04\tAbsError: 6.96737e-05\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 9.91832e+00\tAbsError: 1.75141e+15\n", - " Region: \"zone_1\"\tRelError: 8.25926e+00\tAbsError: 3.24492e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.25926e+00\tAbsError: 3.24492e-02\n", - " Region: \"zone_3\"\tRelError: 1.65906e+00\tAbsError: 1.75141e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.11671e-01\tAbsError: 9.86267e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.98064e-01\tAbsError: 7.65145e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49326e-01\tAbsError: 3.24493e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.77778e-04\tAbsError: 4.11734e+10\n", - " Region: \"zone_1\"\tRelError: 2.64497e-05\tAbsError: 2.72288e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.64497e-05\tAbsError: 2.72288e-07\n", - " Region: \"zone_3\"\tRelError: 1.51329e-04\tAbsError: 4.11734e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.47345e-04\tAbsError: 2.82922e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.54557e-06\tAbsError: 1.28813e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43781e-06\tAbsError: 2.89039e-07\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.90192e-03\tAbsError: 5.23223e+11\n", - " Region: \"zone_1\"\tRelError: 1.45474e-03\tAbsError: 2.69983e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.45474e-03\tAbsError: 2.69983e-06\n", - " Region: \"zone_3\"\tRelError: 4.47183e-04\tAbsError: 5.23223e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.96135e-04\tAbsError: 3.92343e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.50366e-05\tAbsError: 1.30880e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.60123e-05\tAbsError: 2.77806e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.52183e-01\tAbsError: 2.83225e+13\n", - " Region: \"zone_1\"\tRelError: 5.95279e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95279e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.92655e-01\tAbsError: 2.83225e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.85164e-01\tAbsError: 1.34603e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.99920e-02\tAbsError: 1.48622e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.74993e-02\tAbsError: 9.16534e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.53636e-04\tAbsError: 1.02507e+10\n", - " Region: \"zone_1\"\tRelError: 1.02124e-05\tAbsError: 9.04311e-08\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02124e-05\tAbsError: 9.04311e-08\n", - " Region: \"zone_3\"\tRelError: 1.43423e-04\tAbsError: 1.02507e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.38889e-04\tAbsError: 7.00540e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.13077e-06\tAbsError: 3.24531e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 4.03096e-07\tAbsError: 9.92951e-08\n", - "Iteration: 4\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 9.52644e-02\tAbsError: 2.55837e+12\n", - " Region: \"zone_1\"\tRelError: 7.16041e-03\tAbsError: 2.30338e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.16041e-03\tAbsError: 2.30338e-05\n", - " Region: \"zone_3\"\tRelError: 8.81040e-02\tAbsError: 2.55837e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.71797e-02\tAbsError: 1.35830e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.38768e-04\tAbsError: 1.20006e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.54583e-05\tAbsError: 2.40500e-05\n", - " Device: \"device\"\tRelError: 1.94888e+00\tAbsError: 1.31586e+15\n", - " Region: \"zone_1\"\tRelError: 7.52860e-01\tAbsError: 2.57556e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.52860e-01\tAbsError: 2.57556e-02\n", - " Region: \"zone_3\"\tRelError: 1.19602e+00\tAbsError: 1.31586e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.52100e-01\tAbsError: 5.76348e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.05857e-01\tAbsError: 7.39516e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.38064e-01\tAbsError: 2.55829e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.06514e-10\tAbsError: 5.16648e+04\n", - " Region: \"zone_1\"\tRelError: 2.76360e-11\tAbsError: 2.68296e-13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.76360e-11\tAbsError: 2.68296e-13\n", - " Region: \"zone_3\"\tRelError: 1.78878e-10\tAbsError: 5.16648e+04\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.71768e-10\tAbsError: 3.00847e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.70903e-12\tAbsError: 2.15800e+04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40086e-12\tAbsError: 2.79958e-13\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:10\u001b[0m.\u001b[1;36m829\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.7000000000000001\u001b[0m\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Iteration: 6\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 3.03122e-08\tAbsError: 8.48023e+06\n", - " Region: \"zone_1\"\tRelError: 2.36894e-08\tAbsError: 4.35270e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.36894e-08\tAbsError: 4.35270e-11\n", - " Region: \"zone_3\"\tRelError: 6.62277e-09\tAbsError: 8.48023e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.47509e-09\tAbsError: 5.20890e+06\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.80542e-10\tAbsError: 3.27133e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.67134e-10\tAbsError: 4.62569e-11\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.30961e-10\tAbsError: 3.18796e+04\n", - " Region: \"zone_1\"\tRelError: 1.14293e-11\tAbsError: 1.05399e-13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14293e-11\tAbsError: 1.05399e-13\n", - " Region: \"zone_3\"\tRelError: 2.19532e-10\tAbsError: 3.18796e+04\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.13023e-10\tAbsError: 1.58426e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.04015e-12\tAbsError: 1.60370e+04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.68049e-13\tAbsError: 1.14963e-13\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:11\u001b[0m.\u001b[1;36m016\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: 0.75\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:11\u001b[0m.\u001b[1;36m071\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.63125\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Iteration: 3\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 6.21302e-01\tAbsError: 6.18803e+14\n", - " Region: \"zone_1\"\tRelError: 1.01501e-01\tAbsError: 1.13359e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01501e-01\tAbsError: 1.13359e-02\n", - " Region: \"zone_3\"\tRelError: 5.19801e-01\tAbsError: 6.18803e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.97738e-01\tAbsError: 3.04418e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.73552e-01\tAbsError: 3.14385e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.85106e-02\tAbsError: 1.13359e-02\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.58292e-05\tAbsError: 4.59514e+08\n", - " Region: \"zone_1\"\tRelError: 9.81723e-07\tAbsError: 3.18909e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 9.81723e-07\tAbsError: 3.18909e-09\n", - " Region: \"zone_3\"\tRelError: 3.48474e-05\tAbsError: 4.59514e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.45053e-05\tAbsError: 3.33895e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.30263e-07\tAbsError: 1.25619e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18628e-08\tAbsError: 3.31754e-09\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:11\u001b[0m.\u001b[1;36m201\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.6\u001b[0m \n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "number of equations 22602\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.22389e+00\tAbsError: 8.51989e+15\n", - " Region: \"zone_1\"\tRelError: 5.41698e+00\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.41698e+00\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.80691e+00\tAbsError: 8.51989e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94484e-01\tAbsError: 4.63675e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94370e-01\tAbsError: 3.88315e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.18056e-01\tAbsError: 4.09542e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.06329e-01\tAbsError: 1.29092e+14\n", - " Region: \"zone_1\"\tRelError: 8.73098e-02\tAbsError: 3.61435e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 8.73098e-02\tAbsError: 3.61435e-04\n", - " Region: \"zone_3\"\tRelError: 1.19019e-01\tAbsError: 1.29092e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.90943e-02\tAbsError: 7.25515e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.78743e-02\tAbsError: 5.65410e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.05040e-03\tAbsError: 3.64470e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 8.36839e+00\tAbsError: 1.17799e+16\n", - " Region: \"zone_1\"\tRelError: 6.49050e+00\tAbsError: 4.26142e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.49050e+00\tAbsError: 4.26142e-02\n", - " Region: \"zone_3\"\tRelError: 1.87789e+00\tAbsError: 1.17799e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.07111e-01\tAbsError: 6.02482e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.06929e-01\tAbsError: 5.75508e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.63853e-01\tAbsError: 4.26142e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.83930e+01\tAbsError: 8.83697e+15\n", - " Region: \"zone_1\"\tRelError: 3.66046e+01\tAbsError: 4.22091e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.66046e+01\tAbsError: 4.22091e-02\n", - " Region: \"zone_3\"\tRelError: 1.78846e+00\tAbsError: 8.83697e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.04274e-01\tAbsError: 5.21875e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.04228e-01\tAbsError: 3.61823e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.79960e-01\tAbsError: 4.22091e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.89109e+00\tAbsError: 5.48219e+15\n", - " Region: \"zone_1\"\tRelError: 2.49390e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49390e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.64170e+00\tAbsError: 5.48219e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90716e-01\tAbsError: 2.59543e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.66285e-01\tAbsError: 2.88675e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.84697e-01\tAbsError: 3.07632e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.45236e+01\tAbsError: 8.31884e+15\n", - " Region: \"zone_1\"\tRelError: 1.27753e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.27753e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.74827e+00\tAbsError: 8.31884e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94561e-01\tAbsError: 4.96691e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94525e-01\tAbsError: 3.35193e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.59186e-01\tAbsError: 4.09542e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.00380e-03\tAbsError: 4.00864e+11\n", - " Region: \"zone_1\"\tRelError: 6.01786e-04\tAbsError: 2.19773e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.01786e-04\tAbsError: 2.19773e-06\n", - " Region: \"zone_3\"\tRelError: 4.02017e-04\tAbsError: 4.00864e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.61344e-04\tAbsError: 3.02524e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.77744e-05\tAbsError: 9.83399e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28989e-05\tAbsError: 2.28510e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.27347e+00\tAbsError: 1.45254e+16\n", - " Region: \"zone_1\"\tRelError: 5.52729e-01\tAbsError: 3.27220e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.52729e-01\tAbsError: 3.27220e-02\n", - " Region: \"zone_3\"\tRelError: 1.72074e+00\tAbsError: 1.45254e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.12137e-01\tAbsError: 7.08362e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.83962e-01\tAbsError: 7.44180e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.24645e-01\tAbsError: 3.27220e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.31531e+00\tAbsError: 1.61409e+15\n", - " Region: \"zone_1\"\tRelError: 1.66184e+00\tAbsError: 3.22432e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66184e+00\tAbsError: 3.22432e-02\n", - " Region: \"zone_3\"\tRelError: 1.65347e+00\tAbsError: 1.61409e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.09389e-01\tAbsError: 9.13798e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.96380e-01\tAbsError: 7.00294e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.47701e-01\tAbsError: 3.22432e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.28809e+00\tAbsError: 4.35524e+15\n", - " Region: \"zone_1\"\tRelError: 1.47109e-01\tAbsError: 2.58916e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.47109e-01\tAbsError: 2.58916e-02\n", - " Region: \"zone_3\"\tRelError: 1.14098e+00\tAbsError: 4.35524e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.22693e-01\tAbsError: 2.04103e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.66769e-01\tAbsError: 2.31421e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51518e-01\tAbsError: 2.53379e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.91465e+00\tAbsError: 8.82588e+14\n", - " Region: \"zone_1\"\tRelError: 3.03324e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.03324e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.61133e+00\tAbsError: 8.82588e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91758e-01\tAbsError: 5.05615e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.83634e-01\tAbsError: 3.76973e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35939e-01\tAbsError: 3.07632e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.25937e-08\tAbsError: 5.25364e+06\n", - " Region: \"zone_1\"\tRelError: 7.69679e-09\tAbsError: 2.75782e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 7.69679e-09\tAbsError: 2.75782e-11\n", - " Region: \"zone_3\"\tRelError: 4.89691e-09\tAbsError: 5.25364e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.09704e-09\tAbsError: 3.18003e+06\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.32194e-10\tAbsError: 2.07360e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.67668e-10\tAbsError: 2.96314e-11\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:12\u001b[0m.\u001b[1;36m226\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:12\u001b[0m.\u001b[1;36m226\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7428571428571428\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.46941e+00\tAbsError: 1.18382e+16\n", - " Region: \"zone_1\"\tRelError: 1.96893e-01\tAbsError: 2.58653e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.96893e-01\tAbsError: 2.58653e-02\n", - " Region: \"zone_3\"\tRelError: 1.27252e+00\tAbsError: 1.18382e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.59625e-01\tAbsError: 5.91923e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.16005e-01\tAbsError: 5.91901e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.96893e-01\tAbsError: 2.54683e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.59444e+00\tAbsError: 1.17799e+15\n", - " Region: \"zone_1\"\tRelError: 4.05057e-01\tAbsError: 2.56335e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.05057e-01\tAbsError: 2.56335e-02\n", - " Region: \"zone_3\"\tRelError: 1.18938e+00\tAbsError: 1.17799e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.47890e-01\tAbsError: 5.20055e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.05564e-01\tAbsError: 6.57931e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35930e-01\tAbsError: 2.56335e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.61364e-01\tAbsError: 1.56107e+15\n", - " Region: \"zone_1\"\tRelError: 1.02187e-01\tAbsError: 9.16531e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02187e-01\tAbsError: 9.16531e-03\n", - " Region: \"zone_3\"\tRelError: 4.59177e-01\tAbsError: 1.56107e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52513e-01\tAbsError: 8.30423e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.62306e-01\tAbsError: 7.30643e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.43577e-02\tAbsError: 9.16534e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.34467e+00\tAbsError: 5.44154e+14\n", - " Region: \"zone_1\"\tRelError: 2.20632e-01\tAbsError: 2.58931e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20632e-01\tAbsError: 2.58931e-02\n", - " Region: \"zone_3\"\tRelError: 1.12404e+00\tAbsError: 5.44154e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.17234e-01\tAbsError: 2.66383e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.89208e-01\tAbsError: 2.77771e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17596e-01\tAbsError: 2.58999e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 8.75005e-01\tAbsError: 5.02949e+15\n", - " Region: \"zone_1\"\tRelError: 3.13766e-01\tAbsError: 1.17190e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.13766e-01\tAbsError: 1.17190e-02\n", - " Region: \"zone_3\"\tRelError: 5.61239e-01\tAbsError: 5.02949e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.93040e-01\tAbsError: 2.67220e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.02032e-01\tAbsError: 2.35729e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 6.61665e-02\tAbsError: 1.17190e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.50542e-01\tAbsError: 5.55015e+14\n", - " Region: \"zone_1\"\tRelError: 4.54885e-02\tAbsError: 1.10525e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.54885e-02\tAbsError: 1.10525e-02\n", - " Region: \"zone_3\"\tRelError: 5.05053e-01\tAbsError: 5.55015e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91973e-01\tAbsError: 2.69181e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.66277e-01\tAbsError: 2.85834e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.68029e-02\tAbsError: 1.10525e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.25460e+01\tAbsError: 1.05704e+16\n", - " Region: \"zone_1\"\tRelError: 1.06788e+01\tAbsError: 4.23835e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06788e+01\tAbsError: 4.23835e-02\n", - " Region: \"zone_3\"\tRelError: 1.86719e+00\tAbsError: 1.05704e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.05413e-01\tAbsError: 5.48694e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.05244e-01\tAbsError: 5.08345e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.56536e-01\tAbsError: 4.23835e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.58303e-01\tAbsError: 2.58889e+14\n", - " Region: \"zone_1\"\tRelError: 3.50075e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.50075e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 4.23296e-01\tAbsError: 2.58889e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.70968e-01\tAbsError: 1.16796e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.16540e-01\tAbsError: 1.42093e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.57873e-02\tAbsError: 9.16534e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.02751e-01\tAbsError: 2.88406e+14\n", - " Region: \"zone_1\"\tRelError: 3.60577e-03\tAbsError: 2.29628e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.60577e-03\tAbsError: 2.29628e-04\n", - " Region: \"zone_3\"\tRelError: 9.91456e-02\tAbsError: 2.88406e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.45252e-02\tAbsError: 1.12757e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.29594e-02\tAbsError: 1.75650e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66104e-03\tAbsError: 2.42032e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.51571e-01\tAbsError: 1.03733e+15\n", - " Region: \"zone_1\"\tRelError: 1.05569e-02\tAbsError: 3.64353e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.05569e-02\tAbsError: 3.64353e-04\n", - " Region: \"zone_3\"\tRelError: 1.41014e-01\tAbsError: 1.03733e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03208e-01\tAbsError: 5.91205e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.34455e-02\tAbsError: 4.46122e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43599e-02\tAbsError: 3.90053e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.53315e-01\tAbsError: 1.14074e+14\n", - " Region: \"zone_1\"\tRelError: 3.81468e-02\tAbsError: 3.36449e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.81468e-02\tAbsError: 3.36449e-04\n", - " Region: \"zone_3\"\tRelError: 1.15168e-01\tAbsError: 1.14074e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.71088e-02\tAbsError: 6.46008e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.61726e-02\tAbsError: 4.94737e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88681e-03\tAbsError: 3.40626e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.43197e+00\tAbsError: 1.27930e+16\n", - " Region: \"zone_1\"\tRelError: 1.72392e+00\tAbsError: 3.24492e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72392e+00\tAbsError: 3.24492e-02\n", - " Region: \"zone_3\"\tRelError: 1.70805e+00\tAbsError: 1.27930e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.09557e-01\tAbsError: 6.17279e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.80692e-01\tAbsError: 6.62016e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.17802e-01\tAbsError: 3.24492e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.06225e-01\tAbsError: 3.99157e+13\n", - " Region: \"zone_1\"\tRelError: 1.41229e-02\tAbsError: 1.62376e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.41229e-02\tAbsError: 1.62376e-04\n", - " Region: \"zone_3\"\tRelError: 9.21025e-02\tAbsError: 3.99157e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.51238e-02\tAbsError: 2.25076e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.14819e-03\tAbsError: 1.74081e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.30563e-04\tAbsError: 1.67642e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.04675e-04\tAbsError: 3.04021e+11\n", - " Region: \"zone_1\"\tRelError: 6.05493e-06\tAbsError: 5.20454e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 6.05493e-06\tAbsError: 5.20454e-07\n", - " Region: \"zone_3\"\tRelError: 2.98620e-04\tAbsError: 3.04021e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.67672e-04\tAbsError: 1.93910e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.70905e-05\tAbsError: 1.10111e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.85729e-06\tAbsError: 5.51479e-07\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.26215e-04\tAbsError: 3.47082e+12\n", - " Region: \"zone_1\"\tRelError: 1.68789e-05\tAbsError: 1.98685e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.68789e-05\tAbsError: 1.98685e-06\n", - " Region: \"zone_3\"\tRelError: 5.09336e-04\tAbsError: 3.47082e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.10584e-04\tAbsError: 2.32737e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.17851e-05\tAbsError: 1.14346e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.69672e-05\tAbsError: 2.13719e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.03561e-04\tAbsError: 3.24187e+11\n", - " Region: \"zone_1\"\tRelError: 2.35722e-04\tAbsError: 1.82349e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.35722e-04\tAbsError: 1.82349e-06\n", - " Region: \"zone_3\"\tRelError: 3.67839e-04\tAbsError: 3.24187e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.34888e-04\tAbsError: 2.42190e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.23647e-05\tAbsError: 8.19967e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.05865e-05\tAbsError: 1.90371e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.44621e+00\tAbsError: 1.02247e+16\n", - " Region: \"zone_1\"\tRelError: 1.89936e-01\tAbsError: 2.58588e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.89936e-01\tAbsError: 2.58588e-02\n", - " Region: \"zone_3\"\tRelError: 1.25627e+00\tAbsError: 1.02247e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.54587e-01\tAbsError: 5.05790e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.11749e-01\tAbsError: 5.16683e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.89936e-01\tAbsError: 2.56589e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.77778e-04\tAbsError: 4.11734e+10\n", - " Region: \"zone_1\"\tRelError: 2.64497e-05\tAbsError: 2.72288e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.64497e-05\tAbsError: 2.72288e-07\n", - " Region: \"zone_3\"\tRelError: 1.51329e-04\tAbsError: 4.11734e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.47345e-04\tAbsError: 2.82922e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.54557e-06\tAbsError: 1.28813e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43781e-06\tAbsError: 2.89039e-07\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.59425e-10\tAbsError: 1.22832e+06\n", - " Region: \"zone_1\"\tRelError: 9.68754e-11\tAbsError: 2.65442e-12\n", - " Equation: \"PotentialEquation\"\tRelError: 9.68754e-11\tAbsError: 2.65442e-12\n", - " Region: \"zone_3\"\tRelError: 6.62549e-10\tAbsError: 1.22832e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38517e-10\tAbsError: 7.28669e+05\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03770e-10\tAbsError: 4.99652e+05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.02616e-11\tAbsError: 2.83300e-12\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:13\u001b[0m.\u001b[1;36m777\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.8\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.03046e-08\tAbsError: 6.74445e+07\n", - " Region: \"zone_1\"\tRelError: 1.11183e-09\tAbsError: 1.07725e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11183e-09\tAbsError: 1.07725e-11\n", - " Region: \"zone_3\"\tRelError: 9.19276e-09\tAbsError: 6.74445e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.60782e-09\tAbsError: 4.48423e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.49946e-10\tAbsError: 2.26022e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 6.34993e-10\tAbsError: 1.07947e-11\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.10130e-09\tAbsError: 3.42919e+06\n", - " Region: \"zone_1\"\tRelError: 2.42570e-09\tAbsError: 1.82661e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.42570e-09\tAbsError: 1.82661e-11\n", - " Region: \"zone_3\"\tRelError: 3.67560e-09\tAbsError: 3.42919e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.12934e-09\tAbsError: 2.08088e+06\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.36715e-10\tAbsError: 1.34831e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09546e-10\tAbsError: 1.96712e-11\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.07504e+00\tAbsError: 4.26851e+15\n", - " Region: \"zone_1\"\tRelError: 5.30266e-01\tAbsError: 1.13358e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.30266e-01\tAbsError: 1.13358e-02\n", - " Region: \"zone_3\"\tRelError: 5.44776e-01\tAbsError: 4.26851e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.85152e-01\tAbsError: 2.27652e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.96788e-01\tAbsError: 1.99199e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 6.28352e-02\tAbsError: 1.13359e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:14\u001b[0m.\u001b[1;36m009\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:14\u001b[0m.\u001b[1;36m009\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7374999999999999\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.06529e-10\tAbsError: 4.94075e+04\n", - " Region: \"zone_1\"\tRelError: 2.76502e-11\tAbsError: 2.68329e-13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.76502e-11\tAbsError: 2.68329e-13\n", - " Region: \"zone_3\"\tRelError: 1.78878e-10\tAbsError: 4.94075e+04\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.71769e-10\tAbsError: 3.00848e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.70893e-12\tAbsError: 1.93227e+04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40075e-12\tAbsError: 2.79937e-13\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:14\u001b[0m.\u001b[1;36m140\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.7000000000000001\u001b[0m\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.06248e+01\tAbsError: 3.16044e+16\n", - " Region: \"zone_1\"\tRelError: 1.87257e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87257e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.89912e+00\tAbsError: 3.16044e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.93746e-01\tAbsError: 1.57387e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.93249e-01\tAbsError: 1.58657e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.12130e-01\tAbsError: 4.09543e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.49122e-01\tAbsError: 8.74518e+14\n", - " Region: \"zone_1\"\tRelError: 1.60013e-02\tAbsError: 3.43893e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.60013e-02\tAbsError: 3.43893e-04\n", - " Region: \"zone_3\"\tRelError: 1.33121e-01\tAbsError: 8.74518e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01241e-01\tAbsError: 4.86514e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.17497e-02\tAbsError: 3.88004e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01303e-02\tAbsError: 3.66897e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.25674e+01\tAbsError: 9.91926e+15\n", - " Region: \"zone_1\"\tRelError: 2.07081e+01\tAbsError: 4.22091e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.07081e+01\tAbsError: 4.22091e-02\n", - " Region: \"zone_3\"\tRelError: 1.85938e+00\tAbsError: 9.91926e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.04116e-01\tAbsError: 5.29079e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.03957e-01\tAbsError: 4.62846e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.51307e-01\tAbsError: 4.22091e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:14\u001b[0m.\u001b[1;36m805\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.45748e+00\tAbsError: 3.69441e+16\n", - " Region: \"zone_1\"\tRelError: 4.13331e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.13331e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 2.04415e+00\tAbsError: 3.69441e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.88321e-01\tAbsError: 1.86445e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.52684e-01\tAbsError: 1.82996e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.03145e-01\tAbsError: 3.07632e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.91660e-04\tAbsError: 2.54040e+12\n", - " Region: \"zone_1\"\tRelError: 1.35073e-05\tAbsError: 1.64927e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35073e-05\tAbsError: 1.64927e-06\n", - " Region: \"zone_3\"\tRelError: 4.78152e-04\tAbsError: 2.54040e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.93348e-04\tAbsError: 1.71253e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.78162e-05\tAbsError: 8.27868e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.69884e-05\tAbsError: 1.78053e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.22389e+00\tAbsError: 8.51989e+15\n", - " Region: \"zone_1\"\tRelError: 5.41698e+00\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.41698e+00\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.80691e+00\tAbsError: 8.51989e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94484e-01\tAbsError: 4.63675e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94370e-01\tAbsError: 3.88315e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.18056e-01\tAbsError: 4.09542e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:14\u001b[0m.\u001b[1;36m838\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.0 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:14\u001b[0m.\u001b[1;36m874\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 6.07101e+00\tAbsError: 1.14165e+16\n", - " Region: \"zone_1\"\tRelError: 4.37111e+00\tAbsError: 3.22431e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.37111e+00\tAbsError: 3.22431e-02\n", - " Region: \"zone_3\"\tRelError: 1.69990e+00\tAbsError: 1.14165e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.07074e-01\tAbsError: 5.53066e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.79620e-01\tAbsError: 5.88581e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.13207e-01\tAbsError: 3.22432e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 4.80876e+00\tAbsError: 2.48392e+16\n", - " Region: \"zone_1\"\tRelError: 2.08564e-01\tAbsError: 2.58396e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.08564e-01\tAbsError: 2.58396e-02\n", - " Region: \"zone_3\"\tRelError: 4.60020e+00\tAbsError: 2.48392e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.12756e-01\tAbsError: 1.24031e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.61077e-01\tAbsError: 1.24362e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.62637e+00\tAbsError: 2.33304e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.89109e+00\tAbsError: 5.48219e+15\n", - " Region: \"zone_1\"\tRelError: 2.49390e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49390e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.64170e+00\tAbsError: 5.48219e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90716e-01\tAbsError: 2.59543e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.66285e-01\tAbsError: 2.88675e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.84697e-01\tAbsError: 3.07632e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 8.13140e-09\tAbsError: 3.88209e+07\n", - " Region: \"zone_1\"\tRelError: 1.56368e-09\tAbsError: 8.49011e-12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.56368e-09\tAbsError: 8.49011e-12\n", - " Region: \"zone_3\"\tRelError: 6.56771e-09\tAbsError: 3.88209e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.49331e-09\tAbsError: 2.53073e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.15049e-10\tAbsError: 1.35136e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 3.59356e-10\tAbsError: 8.61252e-12\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:15\u001b[0m.\u001b[1;36m275\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: 0.85\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.98506e+00\tAbsError: 9.22482e+15\n", - " Region: \"zone_1\"\tRelError: 7.44294e-01\tAbsError: 2.58187e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.44294e-01\tAbsError: 2.58187e-02\n", - " Region: \"zone_3\"\tRelError: 1.24077e+00\tAbsError: 9.22482e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.51188e-01\tAbsError: 4.56555e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.04989e-01\tAbsError: 4.65926e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.84591e-01\tAbsError: 2.57518e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 4.82261e+02\tAbsError: 3.52167e+17\n", - " Region: \"zone_1\"\tRelError: 6.12444e+01\tAbsError: 8.44807e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.12444e+01\tAbsError: 8.44807e-02\n", - " Region: \"zone_3\"\tRelError: 4.21017e+02\tAbsError: 3.52167e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.77839e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.97707e+02\tAbsError: 1.74328e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43100e+01\tAbsError: 8.44807e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.55071e+00\tAbsError: 8.48657e+15\n", - " Region: \"zone_1\"\tRelError: 8.11805e-01\tAbsError: 9.16529e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 8.11805e-01\tAbsError: 9.16529e-03\n", - " Region: \"zone_3\"\tRelError: 2.73890e+00\tAbsError: 8.48657e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.34197e-01\tAbsError: 4.50158e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.40806e-01\tAbsError: 3.98499e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.36390e+00\tAbsError: 9.16533e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.28809e+00\tAbsError: 4.35524e+15\n", - " Region: \"zone_1\"\tRelError: 1.47109e-01\tAbsError: 2.58916e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.47109e-01\tAbsError: 2.58916e-02\n", - " Region: \"zone_3\"\tRelError: 1.14098e+00\tAbsError: 4.35524e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.22693e-01\tAbsError: 2.04103e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.66769e-01\tAbsError: 2.31421e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51518e-01\tAbsError: 2.53379e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.75902e+00\tAbsError: 3.77919e+15\n", - " Region: \"zone_1\"\tRelError: 1.22599e+00\tAbsError: 1.10525e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.22599e+00\tAbsError: 1.10525e-02\n", - " Region: \"zone_3\"\tRelError: 5.33038e-01\tAbsError: 3.77919e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.79636e-01\tAbsError: 2.01911e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.93051e-01\tAbsError: 1.76009e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 6.03505e-02\tAbsError: 1.10525e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.03144e+01\tAbsError: 2.22942e+17\n", - " Region: \"zone_1\"\tRelError: 4.58501e+00\tAbsError: 8.10225e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.58501e+00\tAbsError: 8.10225e-02\n", - " Region: \"zone_3\"\tRelError: 2.57294e+01\tAbsError: 2.22942e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.11571e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.31347e+01\tAbsError: 1.11371e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 3.59472e+00\tAbsError: 8.10225e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.42490e+01\tAbsError: 7.52592e+16\n", - " Region: \"zone_1\"\tRelError: 1.08478e+01\tAbsError: 4.23835e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08478e+01\tAbsError: 4.23835e-02\n", - " Region: \"zone_3\"\tRelError: 3.40120e+00\tAbsError: 7.52592e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.03566e-01\tAbsError: 3.76063e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.02485e-01\tAbsError: 3.76529e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.79515e+00\tAbsError: 4.23835e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 5.10055e-01\tAbsError: 1.79008e+15\n", - " Region: \"zone_1\"\tRelError: 7.10147e-02\tAbsError: 3.19256e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.10147e-02\tAbsError: 3.19256e-04\n", - " Region: \"zone_3\"\tRelError: 4.39040e-01\tAbsError: 1.79008e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39314e-02\tAbsError: 9.39738e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.81226e-02\tAbsError: 8.50345e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.56986e-01\tAbsError: 3.21663e-04\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.61364e-01\tAbsError: 1.56107e+15\n", - " Region: \"zone_1\"\tRelError: 1.02187e-01\tAbsError: 9.16531e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02187e-01\tAbsError: 9.16531e-03\n", - " Region: \"zone_3\"\tRelError: 4.59177e-01\tAbsError: 1.56107e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52513e-01\tAbsError: 8.30423e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.62306e-01\tAbsError: 7.30643e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.43577e-02\tAbsError: 9.16534e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.61775e-01\tAbsError: 7.66138e+14\n", - " Region: \"zone_1\"\tRelError: 3.36594e-02\tAbsError: 3.29572e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.36594e-02\tAbsError: 3.29572e-04\n", - " Region: \"zone_3\"\tRelError: 1.28116e-01\tAbsError: 7.66138e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.96948e-02\tAbsError: 4.16285e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.05597e-02\tAbsError: 3.49853e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.86134e-03\tAbsError: 3.48882e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.63152e+02\tAbsError: 9.44307e+16\n", - " Region: \"zone_1\"\tRelError: 6.85128e+00\tAbsError: 7.72065e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.85128e+00\tAbsError: 7.72065e-02\n", - " Region: \"zone_3\"\tRelError: 2.56301e+02\tAbsError: 9.44307e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.09414e+01\tAbsError: 5.77259e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.45135e+02\tAbsError: 3.67049e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.24279e-01\tAbsError: 7.72065e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 6.60752e+00\tAbsError: 8.84428e+16\n", - " Region: \"zone_1\"\tRelError: 3.94093e+00\tAbsError: 3.24492e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.94093e+00\tAbsError: 3.24492e-02\n", - " Region: \"zone_3\"\tRelError: 2.66659e+00\tAbsError: 8.84428e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.02377e-01\tAbsError: 4.49927e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.60258e-01\tAbsError: 4.34502e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20395e+00\tAbsError: 3.24492e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.33163e-03\tAbsError: 7.03544e+12\n", - " Region: \"zone_1\"\tRelError: 6.88994e-05\tAbsError: 8.74550e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 6.88994e-05\tAbsError: 8.74550e-07\n", - " Region: \"zone_3\"\tRelError: 1.26273e-03\tAbsError: 7.03544e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.78279e-04\tAbsError: 4.08452e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.87916e-05\tAbsError: 2.95092e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.95662e-04\tAbsError: 9.67670e-07\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.02751e-01\tAbsError: 2.88406e+14\n", - " Region: \"zone_1\"\tRelError: 3.60577e-03\tAbsError: 2.29628e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.60577e-03\tAbsError: 2.29628e-04\n", - " Region: \"zone_3\"\tRelError: 9.91456e-02\tAbsError: 2.88406e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.45252e-02\tAbsError: 1.12757e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.29594e-02\tAbsError: 1.75650e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66104e-03\tAbsError: 2.42032e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.91192e-04\tAbsError: 1.99218e+12\n", - " Region: \"zone_1\"\tRelError: 3.52940e-05\tAbsError: 1.42123e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.52940e-05\tAbsError: 1.42123e-06\n", - " Region: \"zone_3\"\tRelError: 4.55898e-04\tAbsError: 1.99218e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.79849e-04\tAbsError: 1.34746e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.47342e-05\tAbsError: 6.44716e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.13148e-05\tAbsError: 1.54165e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 7.45533e+02\tAbsError: 3.05911e+16\n", - " Region: \"zone_1\"\tRelError: 3.90969e+01\tAbsError: 7.29586e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.90969e+01\tAbsError: 7.29586e-02\n", - " Region: \"zone_3\"\tRelError: 7.06436e+02\tAbsError: 3.05911e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.79786e+01\tAbsError: 1.48185e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.88272e+02\tAbsError: 1.57727e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.85829e-01\tAbsError: 7.29586e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.09243e+01\tAbsError: 6.47175e+16\n", - " Region: \"zone_1\"\tRelError: 1.64997e+01\tAbsError: 2.57213e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.64997e+01\tAbsError: 2.57213e-02\n", - " Region: \"zone_3\"\tRelError: 4.42461e+00\tAbsError: 6.47175e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.25399e-01\tAbsError: 3.23288e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.61564e-01\tAbsError: 3.23887e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.43764e+00\tAbsError: 2.58341e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.48938e-08\tAbsError: 9.78087e+07\n", - " Region: \"zone_1\"\tRelError: 2.39367e-09\tAbsError: 9.98115e-12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.39367e-09\tAbsError: 9.98115e-12\n", - " Region: \"zone_3\"\tRelError: 1.25002e-08\tAbsError: 9.78087e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.82653e-09\tAbsError: 5.13414e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.35560e-10\tAbsError: 4.64673e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 9.13807e-09\tAbsError: 1.21236e-11\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.04675e-04\tAbsError: 3.04021e+11\n", - " Region: \"zone_1\"\tRelError: 6.05493e-06\tAbsError: 5.20454e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 6.05493e-06\tAbsError: 5.20454e-07\n", - " Region: \"zone_3\"\tRelError: 2.98620e-04\tAbsError: 3.04021e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.67672e-04\tAbsError: 1.93910e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.70905e-05\tAbsError: 1.10111e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.85729e-06\tAbsError: 5.51479e-07\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 8.14411e-09\tAbsError: 2.52751e+07\n", - " Region: \"zone_1\"\tRelError: 3.10247e-09\tAbsError: 7.66784e-12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.10247e-09\tAbsError: 7.66784e-12\n", - " Region: \"zone_3\"\tRelError: 5.04165e-09\tAbsError: 2.52751e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.24046e-09\tAbsError: 1.61978e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.68440e-10\tAbsError: 9.07731e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.32744e-10\tAbsError: 7.83237e-12\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:16\u001b[0m.\u001b[1;36m974\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.84375\u001b[0m \n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 3.52323e+04\tAbsError: 2.58880e+15\n", - " Region: \"zone_1\"\tRelError: 3.55607e+00\tAbsError: 6.81819e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.55607e+00\tAbsError: 6.81819e-02\n", - " Region: \"zone_3\"\tRelError: 3.52288e+04\tAbsError: 2.58880e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.44264e+04\tAbsError: 1.67252e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.02246e+02\tAbsError: 9.16280e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.46351e-01\tAbsError: 6.81819e-02\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 3\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 2.12792e+00\tAbsError: 2.83243e+16\n", - " Region: \"zone_1\"\tRelError: 1.14894e+00\tAbsError: 1.13358e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14894e+00\tAbsError: 1.13358e-02\n", - " Region: \"zone_3\"\tRelError: 9.78978e-01\tAbsError: 2.83243e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.37101e-01\tAbsError: 1.51418e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.37082e-01\tAbsError: 1.31825e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.04795e-01\tAbsError: 1.13359e-02\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.59430e-10\tAbsError: 1.22833e+06\n", - " Region: \"zone_1\"\tRelError: 9.68792e-11\tAbsError: 2.65442e-12\n", - " Equation: \"PotentialEquation\"\tRelError: 9.68792e-11\tAbsError: 2.65442e-12\n", - " Region: \"zone_3\"\tRelError: 6.62551e-10\tAbsError: 1.22833e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38518e-10\tAbsError: 7.28675e+05\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03772e-10\tAbsError: 4.99657e+05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.02617e-11\tAbsError: 2.83302e-12\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:17\u001b[0m.\u001b[1;36m250\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.8\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.83787e+01\tAbsError: 1.33604e+15\n", - " Region: \"zone_1\"\tRelError: 2.07590e+00\tAbsError: 6.27474e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.07590e+00\tAbsError: 6.27474e-02\n", - " Region: \"zone_3\"\tRelError: 5.63028e+01\tAbsError: 1.33604e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.22975e+01\tAbsError: 7.85057e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.38884e+01\tAbsError: 5.50987e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16846e-01\tAbsError: 6.27475e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 4.10994e-01\tAbsError: 6.33231e+15\n", - " Region: \"zone_1\"\tRelError: 2.03112e-01\tAbsError: 4.63625e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03112e-01\tAbsError: 4.63625e-04\n", - " Region: \"zone_3\"\tRelError: 2.07882e-01\tAbsError: 6.33231e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.54885e-02\tAbsError: 3.31801e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.90225e-02\tAbsError: 3.01430e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.23371e-01\tAbsError: 4.85010e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.18672e+01\tAbsError: 6.77330e+16\n", - " Region: \"zone_1\"\tRelError: 2.92339e+01\tAbsError: 4.22091e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.92339e+01\tAbsError: 4.22091e-02\n", - " Region: \"zone_3\"\tRelError: 2.63329e+00\tAbsError: 6.77330e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.02473e-01\tAbsError: 3.37687e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.01495e-01\tAbsError: 3.39643e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02932e+00\tAbsError: 4.22091e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.31378e+02\tAbsError: 7.60663e+14\n", - " Region: \"zone_1\"\tRelError: 7.71613e-01\tAbsError: 5.64827e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.71613e-01\tAbsError: 5.64827e-02\n", - " Region: \"zone_3\"\tRelError: 2.30606e+02\tAbsError: 7.60663e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52408e+02\tAbsError: 5.17768e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.81037e+01\tAbsError: 2.42894e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.43265e-02\tAbsError: 5.64827e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:17\u001b[0m.\u001b[1;36m819\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.06248e+01\tAbsError: 3.16044e+16\n", - " Region: \"zone_1\"\tRelError: 1.87257e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87257e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.89912e+00\tAbsError: 3.16044e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.93746e-01\tAbsError: 1.57387e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.93249e-01\tAbsError: 1.58657e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.12130e-01\tAbsError: 4.09543e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:17\u001b[0m.\u001b[1;36m852\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.05 bias\u001b[0m \n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.61528e-03\tAbsError: 4.57027e+13\n", - " Region: \"zone_1\"\tRelError: 6.59185e-04\tAbsError: 1.10622e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.59185e-04\tAbsError: 1.10622e-06\n", - " Region: \"zone_3\"\tRelError: 9.56097e-04\tAbsError: 4.57027e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.75674e-04\tAbsError: 2.40788e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.45396e-04\tAbsError: 2.16239e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.35027e-04\tAbsError: 1.16216e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:17\u001b[0m.\u001b[1;36m883\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 5.28950e+00\tAbsError: 7.92389e+16\n", - " Region: \"zone_1\"\tRelError: 2.40844e+00\tAbsError: 3.22431e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.40844e+00\tAbsError: 3.22431e-02\n", - " Region: \"zone_3\"\tRelError: 2.88106e+00\tAbsError: 7.92389e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.00584e-01\tAbsError: 4.07058e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.61442e-01\tAbsError: 3.85331e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.41903e+00\tAbsError: 3.22432e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.71787e+04\tAbsError: 1.75933e+14\n", - " Region: \"zone_1\"\tRelError: 7.47327e-02\tAbsError: 4.91583e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.47327e-02\tAbsError: 4.91583e-02\n", - " Region: \"zone_3\"\tRelError: 1.71786e+04\tAbsError: 1.75933e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.47883e+04\tAbsError: 8.79941e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.39026e+03\tAbsError: 8.79391e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.51412e-02\tAbsError: 4.91584e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.45748e+00\tAbsError: 3.69441e+16\n", - " Region: \"zone_1\"\tRelError: 4.13331e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.13331e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 2.04415e+00\tAbsError: 3.69441e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.88321e-01\tAbsError: 1.86445e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.52684e-01\tAbsError: 1.82996e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.03145e-01\tAbsError: 3.07632e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.14099e-08\tAbsError: 4.54906e+08\n", - " Region: \"zone_1\"\tRelError: 4.36669e-09\tAbsError: 5.33468e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.36669e-09\tAbsError: 5.33468e-11\n", - " Region: \"zone_3\"\tRelError: 7.04323e-09\tAbsError: 4.54906e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.71744e-09\tAbsError: 2.24456e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.78894e-10\tAbsError: 2.30450e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 2.74690e-09\tAbsError: 5.92822e-11\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.20466e+01\tAbsError: 5.52934e+16\n", - " Region: \"zone_1\"\tRelError: 2.16515e+00\tAbsError: 2.58803e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.16515e+00\tAbsError: 2.58803e-02\n", - " Region: \"zone_3\"\tRelError: 9.88145e+00\tAbsError: 5.52934e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.25644e-01\tAbsError: 2.74416e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.60760e-01\tAbsError: 2.78518e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 8.89504e+00\tAbsError: 2.54624e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.88372e+02\tAbsError: 9.95901e+17\n", - " Region: \"zone_1\"\tRelError: 9.83806e+01\tAbsError: 8.63290e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.83806e+01\tAbsError: 8.63290e-02\n", - " Region: \"zone_3\"\tRelError: 4.89991e+02\tAbsError: 9.95901e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.64932e+02\tAbsError: 4.41210e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.04095e+01\tAbsError: 5.54690e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 4.64997e+00\tAbsError: 8.63291e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 8.00464e+02\tAbsError: 1.76846e+14\n", - " Region: \"zone_1\"\tRelError: 1.51285e-01\tAbsError: 4.04895e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51285e-01\tAbsError: 4.04895e-02\n", - " Region: \"zone_3\"\tRelError: 8.00313e+02\tAbsError: 1.76846e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.76154e+02\tAbsError: 1.03150e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.41019e+01\tAbsError: 7.36963e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.75475e-02\tAbsError: 4.04896e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 4.80876e+00\tAbsError: 2.48392e+16\n", - " Region: \"zone_1\"\tRelError: 2.08564e-01\tAbsError: 2.58396e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.08564e-01\tAbsError: 2.58396e-02\n", - " Region: \"zone_3\"\tRelError: 4.60020e+00\tAbsError: 2.48392e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.12756e-01\tAbsError: 1.24031e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.61077e-01\tAbsError: 1.24362e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.62637e+00\tAbsError: 2.33304e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.43062e+00\tAbsError: 2.48503e+16\n", - " Region: \"zone_1\"\tRelError: 3.72922e+00\tAbsError: 1.10524e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.72922e+00\tAbsError: 1.10524e-02\n", - " Region: \"zone_3\"\tRelError: 1.70140e+00\tAbsError: 2.48503e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.43322e-01\tAbsError: 1.33123e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.40880e-01\tAbsError: 1.15380e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31720e+00\tAbsError: 1.10525e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.27833e+03\tAbsError: 7.47754e+17\n", - " Region: \"zone_1\"\tRelError: 2.20826e+01\tAbsError: 8.30497e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20826e+01\tAbsError: 8.30497e-02\n", - " Region: \"zone_3\"\tRelError: 1.25625e+03\tAbsError: 7.47754e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.20804e+01\tAbsError: 3.45452e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.21005e+03\tAbsError: 4.02302e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.41176e+01\tAbsError: 8.30498e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.98801e+02\tAbsError: 3.29823e+13\n", - " Region: \"zone_1\"\tRelError: 4.03852e-02\tAbsError: 3.02166e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.03852e-02\tAbsError: 3.02166e-02\n", - " Region: \"zone_3\"\tRelError: 2.98761e+02\tAbsError: 3.29823e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88198e+02\tAbsError: 2.12465e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.05220e+01\tAbsError: 1.17358e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.08123e-02\tAbsError: 3.02167e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.55071e+00\tAbsError: 8.48657e+15\n", - " Region: \"zone_1\"\tRelError: 8.11805e-01\tAbsError: 9.16529e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 8.11805e-01\tAbsError: 9.16529e-03\n", - " Region: \"zone_3\"\tRelError: 2.73890e+00\tAbsError: 8.48657e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.34197e-01\tAbsError: 4.50158e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.40806e-01\tAbsError: 3.98499e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.36390e+00\tAbsError: 9.16533e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 3.49152e+00\tAbsError: 5.38829e+15\n", - " Region: \"zone_1\"\tRelError: 3.18911e+00\tAbsError: 4.54221e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.18911e+00\tAbsError: 4.54221e-04\n", - " Region: \"zone_3\"\tRelError: 3.02408e-01\tAbsError: 5.38829e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.21294e-02\tAbsError: 2.89081e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.87533e-02\tAbsError: 2.49748e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.21525e-01\tAbsError: 4.70929e-04\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 4.88396e+00\tAbsError: 4.23056e+12\n", - " Region: \"zone_1\"\tRelError: 3.34297e-02\tAbsError: 2.58995e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.34297e-02\tAbsError: 2.58995e-02\n", - " Region: \"zone_3\"\tRelError: 4.85053e+00\tAbsError: 4.23056e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.29475e+00\tAbsError: 4.51961e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.21955e-01\tAbsError: 3.77860e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.38273e-02\tAbsError: 2.55819e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:19\u001b[0m.\u001b[1;36m285\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.40949e+03\tAbsError: 2.06202e+17\n", - " Region: \"zone_1\"\tRelError: 1.35262e+01\tAbsError: 7.94472e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35262e+01\tAbsError: 7.94472e-02\n", - " Region: \"zone_3\"\tRelError: 1.39597e+03\tAbsError: 2.06202e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.04789e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.38616e+03\tAbsError: 1.01413e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 8.03041e-01\tAbsError: 7.94473e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:19\u001b[0m.\u001b[1;36m314\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.1 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:19\u001b[0m.\u001b[1;36m341\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 5.10055e-01\tAbsError: 1.79008e+15\n", - " Region: \"zone_1\"\tRelError: 7.10147e-02\tAbsError: 3.19256e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.10147e-02\tAbsError: 3.19256e-04\n", - " Region: \"zone_3\"\tRelError: 4.39040e-01\tAbsError: 1.79008e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39314e-02\tAbsError: 9.39738e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.81226e-02\tAbsError: 8.50345e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.56986e-01\tAbsError: 3.21663e-04\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.35643e+00\tAbsError: 1.11855e+14\n", - " Region: \"zone_1\"\tRelError: 1.12239e-02\tAbsError: 8.53138e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12239e-02\tAbsError: 8.53138e-03\n", - " Region: \"zone_3\"\tRelError: 1.34521e+00\tAbsError: 1.11855e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.32958e+00\tAbsError: 4.27147e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.01792e-03\tAbsError: 1.07583e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06154e-02\tAbsError: 8.53144e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 9.62592e-03\tAbsError: 3.88409e+13\n", - " Region: \"zone_1\"\tRelError: 8.48628e-03\tAbsError: 1.12576e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.48628e-03\tAbsError: 1.12576e-06\n", - " Region: \"zone_3\"\tRelError: 1.13964e-03\tAbsError: 3.88409e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.87588e-04\tAbsError: 2.04690e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.11011e-04\tAbsError: 1.83719e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.41039e-04\tAbsError: 1.18470e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.95503e+02\tAbsError: 4.24862e+16\n", - " Region: \"zone_1\"\tRelError: 2.94334e+02\tAbsError: 7.54578e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.94334e+02\tAbsError: 7.54578e-02\n", - " Region: \"zone_3\"\tRelError: 1.01169e+02\tAbsError: 4.24862e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.38365e+01\tAbsError: 1.85875e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.71030e+01\tAbsError: 2.38987e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29656e-01\tAbsError: 7.54578e-02\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 3.20441e-01\tAbsError: 1.14285e+14\n", - " Region: \"zone_1\"\tRelError: 1.39310e-02\tAbsError: 1.62545e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39310e-02\tAbsError: 1.62545e-04\n", - " Region: \"zone_3\"\tRelError: 3.06510e-01\tAbsError: 1.14285e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.97341e-01\tAbsError: 5.84084e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.93145e-03\tAbsError: 1.08444e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.37145e-04\tAbsError: 1.67877e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.33163e-03\tAbsError: 7.03544e+12\n", - " Region: \"zone_1\"\tRelError: 6.88994e-05\tAbsError: 8.74550e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 6.88994e-05\tAbsError: 8.74550e-07\n", - " Region: \"zone_3\"\tRelError: 1.26273e-03\tAbsError: 7.03544e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.78279e-04\tAbsError: 4.08452e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.87916e-05\tAbsError: 2.95092e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.95662e-04\tAbsError: 9.67670e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 8.36114e+02\tAbsError: 2.84935e+18\n", - " Region: \"zone_1\"\tRelError: 8.09924e+01\tAbsError: 8.80542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.09924e+01\tAbsError: 8.80542e-02\n", - " Region: \"zone_3\"\tRelError: 7.55122e+02\tAbsError: 2.84935e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.43696e+02\tAbsError: 1.30907e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.47319e+00\tAbsError: 1.54028e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 2.01953e+02\tAbsError: 8.80543e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 8.88631e-08\tAbsError: 3.64677e+08\n", - " Region: \"zone_1\"\tRelError: 7.93721e-08\tAbsError: 3.00603e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 7.93721e-08\tAbsError: 3.00603e-11\n", - " Region: \"zone_3\"\tRelError: 9.49096e-09\tAbsError: 3.64677e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.13123e-09\tAbsError: 1.87502e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.36663e-10\tAbsError: 1.77175e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 5.72307e-09\tAbsError: 3.29037e-11\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 8.69833e-04\tAbsError: 5.99552e+10\n", - " Region: \"zone_1\"\tRelError: 6.49723e-06\tAbsError: 1.04391e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 6.49723e-06\tAbsError: 1.04391e-07\n", - " Region: \"zone_3\"\tRelError: 8.63335e-04\tAbsError: 5.99552e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.33783e-04\tAbsError: 2.55001e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.93958e-05\tAbsError: 5.74052e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.56229e-07\tAbsError: 1.10596e-07\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 4.94286e+02\tAbsError: 9.83428e+15\n", - " Region: \"zone_1\"\tRelError: 5.09637e+00\tAbsError: 7.09984e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.09637e+00\tAbsError: 7.09984e-02\n", - " Region: \"zone_3\"\tRelError: 4.89190e+02\tAbsError: 9.83428e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34021e+01\tAbsError: 5.67320e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.75629e+02\tAbsError: 4.16108e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.58896e-01\tAbsError: 7.09985e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:20\u001b[0m.\u001b[1;36m102\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.95\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 6\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 1.48929e-08\tAbsError: 9.78087e+07\n", - " Region: \"zone_1\"\tRelError: 2.39367e-09\tAbsError: 9.98115e-12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.39367e-09\tAbsError: 9.98115e-12\n", - " Region: \"zone_3\"\tRelError: 1.24992e-08\tAbsError: 9.78087e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.82653e-09\tAbsError: 5.13414e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.35561e-10\tAbsError: 4.64672e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 9.13709e-09\tAbsError: 1.21236e-11\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 2.93063e-10\tAbsError: 3.78900e+04\n", - " Region: \"zone_1\"\tRelError: 2.84034e-12\tAbsError: 4.64333e-14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.84034e-12\tAbsError: 4.64333e-14\n", - " Region: \"zone_3\"\tRelError: 2.90222e-10\tAbsError: 3.78900e+04\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.66433e-10\tAbsError: 1.60248e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.37165e-11\tAbsError: 2.18653e+04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.25207e-14\tAbsError: 4.91959e-14\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:20\u001b[0m.\u001b[1;36m352\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.9\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Iteration: 1\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 2.12599e+03\tAbsError: 2.38404e+18\n", - " Region: \"zone_1\"\tRelError: 3.81488e+02\tAbsError: 8.49344e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.81488e+02\tAbsError: 8.49344e-02\n", - " Region: \"zone_3\"\tRelError: 1.74450e+03\tAbsError: 2.38404e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.13077e+01\tAbsError: 1.11961e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.44770e+03\tAbsError: 1.26443e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 2.75501e+02\tAbsError: 8.49344e-02\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:20\u001b[0m.\u001b[1;36m390\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.2\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.12665e+04\tAbsError: 6.12458e+14\n", - " Region: \"zone_1\"\tRelError: 6.44959e-01\tAbsError: 6.59600e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.44959e-01\tAbsError: 6.59600e-02\n", - " Region: \"zone_3\"\tRelError: 5.12658e+04\tAbsError: 6.12458e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.80729e+04\tAbsError: 2.42664e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.31928e+04\tAbsError: 3.69795e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.27747e-01\tAbsError: 6.59600e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.78763e+01\tAbsError: 4.03409e+17\n", - " Region: \"zone_1\"\tRelError: 4.29478e+00\tAbsError: 8.15209e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.29478e+00\tAbsError: 8.15209e-02\n", - " Region: \"zone_3\"\tRelError: 2.35815e+01\tAbsError: 4.03409e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.06155e+01\tAbsError: 1.97169e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.06241e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 3.96600e+00\tAbsError: 8.15210e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.27822e+01\tAbsError: 4.38306e+17\n", - " Region: \"zone_1\"\tRelError: 2.71885e+01\tAbsError: 4.22090e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.71885e+01\tAbsError: 4.22090e-02\n", - " Region: \"zone_3\"\tRelError: 5.59377e+00\tAbsError: 4.38306e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83490e-01\tAbsError: 2.08688e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.75359e-01\tAbsError: 2.29619e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 4.03492e+00\tAbsError: 4.22091e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.20842e+03\tAbsError: 4.11496e+14\n", - " Region: \"zone_1\"\tRelError: 3.41372e-01\tAbsError: 6.01966e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.41372e-01\tAbsError: 6.01966e-02\n", - " Region: \"zone_3\"\tRelError: 1.20808e+03\tAbsError: 4.11496e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.72015e+02\tAbsError: 2.66199e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.35961e+02\tAbsError: 1.45297e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03148e-01\tAbsError: 6.01966e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.19725e+01\tAbsError: 1.92958e+17\n", - " Region: \"zone_1\"\tRelError: 2.64183e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.64183e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 5.55416e+00\tAbsError: 1.92958e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86635e-01\tAbsError: 9.77277e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.83108e-01\tAbsError: 9.52302e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.98441e+00\tAbsError: 4.09542e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.21485e+01\tAbsError: 8.61846e+15\n", - " Region: \"zone_1\"\tRelError: 3.04717e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.04717e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.67686e+00\tAbsError: 8.61846e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94516e-01\tAbsError: 4.66248e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94484e-01\tAbsError: 3.95598e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.78603e-02\tAbsError: 4.09542e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 6.15676e+01\tAbsError: 4.87835e+17\n", - " Region: \"zone_1\"\tRelError: 5.20397e+01\tAbsError: 3.22429e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.20397e+01\tAbsError: 3.22429e-02\n", - " Region: \"zone_3\"\tRelError: 9.52795e+00\tAbsError: 4.87835e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.21731e-01\tAbsError: 2.43628e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.25441e-01\tAbsError: 2.44207e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 8.28077e+00\tAbsError: 3.22432e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 8.30077e+02\tAbsError: 1.03233e+17\n", - " Region: \"zone_1\"\tRelError: 1.14748e+00\tAbsError: 7.77584e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14748e+00\tAbsError: 7.77584e-02\n", - " Region: \"zone_3\"\tRelError: 8.28930e+02\tAbsError: 1.03233e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.61472e+02\tAbsError: 6.58302e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.67005e+02\tAbsError: 3.74024e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 4.53792e-01\tAbsError: 7.77584e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.04768e+03\tAbsError: 1.13224e+14\n", - " Region: \"zone_1\"\tRelError: 8.26456e-02\tAbsError: 5.35128e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.26456e-02\tAbsError: 5.35128e-02\n", - " Region: \"zone_3\"\tRelError: 1.04760e+03\tAbsError: 1.13224e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.27525e+02\tAbsError: 4.98494e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.19988e+02\tAbsError: 6.33747e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.29780e-02\tAbsError: 5.35129e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 5.59678e+00\tAbsError: 2.20718e+17\n", - " Region: \"zone_1\"\tRelError: 8.54328e-01\tAbsError: 3.07631e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.54328e-01\tAbsError: 3.07631e-02\n", - " Region: \"zone_3\"\tRelError: 4.74245e+00\tAbsError: 2.20718e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.57165e-01\tAbsError: 1.09369e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.88364e-01\tAbsError: 1.11350e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 3.39692e+00\tAbsError: 3.07632e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.07800e+00\tAbsError: 3.45404e+14\n", - " Region: \"zone_1\"\tRelError: 5.44178e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.44178e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.53382e+00\tAbsError: 3.45404e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90662e-01\tAbsError: 1.56300e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.87478e-01\tAbsError: 1.89103e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.56802e-02\tAbsError: 3.07632e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.94701e+03\tAbsError: 3.51605e+16\n", - " Region: \"zone_1\"\tRelError: 2.32944e+01\tAbsError: 7.35755e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.32944e+01\tAbsError: 7.35755e-02\n", - " Region: \"zone_3\"\tRelError: 2.92372e+03\tAbsError: 3.51605e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04217e+01\tAbsError: 2.19896e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.91312e+03\tAbsError: 1.31709e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.76554e-01\tAbsError: 7.35755e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.23212e+01\tAbsError: 1.83511e+17\n", - " Region: \"zone_1\"\tRelError: 1.26811e+01\tAbsError: 2.58959e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.26811e+01\tAbsError: 2.58959e-02\n", - " Region: \"zone_3\"\tRelError: 9.64015e+00\tAbsError: 1.83511e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.40244e-01\tAbsError: 9.20472e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.21277e-01\tAbsError: 9.14639e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 9.07863e+00\tAbsError: 2.58031e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 5.61412e+03\tAbsError: 4.48404e+13\n", - " Region: \"zone_1\"\tRelError: 6.49958e-02\tAbsError: 4.56537e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.49958e-02\tAbsError: 4.56537e-02\n", - " Region: \"zone_3\"\tRelError: 5.61405e+03\tAbsError: 4.48404e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.22859e+03\tAbsError: 1.56495e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.38540e+03\tAbsError: 2.91909e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.52942e-02\tAbsError: 4.56538e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.11313e+00\tAbsError: 4.26791e+13\n", - " Region: \"zone_1\"\tRelError: 7.05940e-02\tAbsError: 2.58377e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.05940e-02\tAbsError: 2.58377e-02\n", - " Region: \"zone_3\"\tRelError: 1.04254e+00\tAbsError: 4.26791e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14646e-01\tAbsError: 2.38411e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.85599e-01\tAbsError: 1.88379e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.22941e-02\tAbsError: 2.58015e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 3.40459e+00\tAbsError: 1.40151e+17\n", - " Region: \"zone_1\"\tRelError: 9.91077e-01\tAbsError: 2.58298e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.91077e-01\tAbsError: 2.58298e-02\n", - " Region: \"zone_3\"\tRelError: 2.41351e+00\tAbsError: 1.40151e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.12962e-01\tAbsError: 7.03247e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.20637e-01\tAbsError: 6.98261e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.67991e+00\tAbsError: 2.58976e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 6.38842e+01\tAbsError: 2.01361e+16\n", - " Region: \"zone_1\"\tRelError: 2.27796e+00\tAbsError: 1.10520e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.27796e+00\tAbsError: 1.10520e-02\n", - " Region: \"zone_3\"\tRelError: 6.16063e+01\tAbsError: 2.01361e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78655e-02\tAbsError: 1.01092e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.72051e-02\tAbsError: 1.00269e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.15012e+01\tAbsError: 1.10525e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.69574e+03\tAbsError: 2.98489e+15\n", - " Region: \"zone_1\"\tRelError: 2.69436e+00\tAbsError: 6.88788e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.69436e+00\tAbsError: 6.88788e-02\n", - " Region: \"zone_3\"\tRelError: 1.69305e+03\tAbsError: 2.98489e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.37947e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.68391e+03\tAbsError: 1.60542e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40413e-01\tAbsError: 6.88788e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.87168e+02\tAbsError: 3.87608e+13\n", - " Region: \"zone_1\"\tRelError: 4.83851e-02\tAbsError: 3.63251e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.83851e-02\tAbsError: 3.63251e-02\n", - " Region: \"zone_3\"\tRelError: 2.87120e+02\tAbsError: 3.87608e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95625e+02\tAbsError: 2.20451e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.14461e+01\tAbsError: 1.67157e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.86857e-02\tAbsError: 3.63252e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.83480e-01\tAbsError: 2.88954e+12\n", - " Region: \"zone_1\"\tRelError: 1.35212e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35212e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.69958e-01\tAbsError: 2.88954e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88338e-01\tAbsError: 2.12977e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.78790e-02\tAbsError: 2.67656e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37417e-02\tAbsError: 9.16534e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.15760e+00\tAbsError: 3.46533e+16\n", - " Region: \"zone_1\"\tRelError: 4.44487e-01\tAbsError: 9.16511e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 4.44487e-01\tAbsError: 9.16511e-03\n", - " Region: \"zone_3\"\tRelError: 7.13113e-01\tAbsError: 3.46533e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34412e-01\tAbsError: 1.73980e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.38070e-02\tAbsError: 1.72552e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 5.24894e-01\tAbsError: 9.16533e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.32137e+02\tAbsError: 2.29730e+15\n", - " Region: \"zone_1\"\tRelError: 2.07460e+00\tAbsError: 6.35445e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.07460e+00\tAbsError: 6.35445e-02\n", - " Region: \"zone_3\"\tRelError: 4.30062e+02\tAbsError: 2.29730e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.80679e+02\tAbsError: 1.41594e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.92715e+01\tAbsError: 8.81358e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11655e-01\tAbsError: 6.35446e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.76114e+00\tAbsError: 3.11157e+15\n", - " Region: \"zone_1\"\tRelError: 1.46998e-01\tAbsError: 5.72926e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.46998e-01\tAbsError: 5.72926e-05\n", - " Region: \"zone_3\"\tRelError: 1.61414e+00\tAbsError: 3.11157e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.13906e-03\tAbsError: 1.60788e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.01418e-04\tAbsError: 1.50369e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.60610e+00\tAbsError: 5.72926e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.80174e+03\tAbsError: 1.56957e+13\n", - " Region: \"zone_1\"\tRelError: 3.66656e-02\tAbsError: 2.57139e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.66656e-02\tAbsError: 2.57139e-02\n", - " Region: \"zone_3\"\tRelError: 3.80170e+03\tAbsError: 1.56957e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.80091e+03\tAbsError: 6.65708e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.49117e-01\tAbsError: 1.50300e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.74641e-02\tAbsError: 2.58924e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 5.74119e-02\tAbsError: 3.00253e+15\n", - " Region: \"zone_1\"\tRelError: 1.72667e-02\tAbsError: 6.21206e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72667e-02\tAbsError: 6.21206e-05\n", - " Region: \"zone_3\"\tRelError: 4.01452e-02\tAbsError: 3.00253e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.04052e-02\tAbsError: 1.53972e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.58359e-03\tAbsError: 1.46281e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.81563e-02\tAbsError: 6.25380e-05\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.38444e-02\tAbsError: 3.70458e+12\n", - " Region: \"zone_1\"\tRelError: 3.59871e-03\tAbsError: 2.71390e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.59871e-03\tAbsError: 2.71390e-05\n", - " Region: \"zone_3\"\tRelError: 9.02457e-02\tAbsError: 3.70458e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.84320e-02\tAbsError: 1.19345e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.76575e-03\tAbsError: 2.51114e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.79561e-05\tAbsError: 2.71828e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 2.61238e+00\tAbsError: 1.11231e+13\n", - " Region: \"zone_1\"\tRelError: 2.12491e-02\tAbsError: 1.77022e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.12491e-02\tAbsError: 1.77022e-02\n", - " Region: \"zone_3\"\tRelError: 2.59113e+00\tAbsError: 1.11231e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.56346e+00\tAbsError: 5.43531e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.10503e-03\tAbsError: 1.05796e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.15668e-02\tAbsError: 1.77023e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.33375e+03\tAbsError: 3.70248e+14\n", - " Region: \"zone_1\"\tRelError: 8.99378e-02\tAbsError: 5.74069e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.99378e-02\tAbsError: 5.74069e-02\n", - " Region: \"zone_3\"\tRelError: 4.33366e+03\tAbsError: 3.70248e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.01982e+02\tAbsError: 1.56203e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.13159e+03\tAbsError: 2.14045e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.01902e-02\tAbsError: 5.74070e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.77034e-04\tAbsError: 8.73262e+11\n", - " Region: \"zone_1\"\tRelError: 7.70938e-06\tAbsError: 1.62726e-08\n", - " Equation: \"PotentialEquation\"\tRelError: 7.70938e-06\tAbsError: 1.62726e-08\n", - " Region: \"zone_3\"\tRelError: 1.69324e-04\tAbsError: 8.73262e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.91186e-06\tAbsError: 4.56387e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.48171e-07\tAbsError: 4.16875e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.67064e-04\tAbsError: 1.62726e-08\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 5.81678e-01\tAbsError: 8.11567e+12\n", - " Region: \"zone_1\"\tRelError: 2.44659e-03\tAbsError: 2.61873e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.44659e-03\tAbsError: 2.61873e-05\n", - " Region: \"zone_3\"\tRelError: 5.79232e-01\tAbsError: 8.11567e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.76787e-01\tAbsError: 1.13091e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.40509e-03\tAbsError: 6.98476e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.99008e-05\tAbsError: 2.64685e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.14148e-05\tAbsError: 7.36262e+11\n", - " Region: \"zone_1\"\tRelError: 4.55231e-07\tAbsError: 9.54534e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 4.55231e-07\tAbsError: 9.54534e-09\n", - " Region: \"zone_3\"\tRelError: 1.09596e-05\tAbsError: 7.36262e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.23017e-06\tAbsError: 3.79166e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.26674e-07\tAbsError: 3.57096e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00275e-06\tAbsError: 1.00816e-08\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.96038e-05\tAbsError: 5.27329e+08\n", - " Region: \"zone_1\"\tRelError: 3.38320e-07\tAbsError: 2.80513e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.38320e-07\tAbsError: 2.80513e-09\n", - " Region: \"zone_3\"\tRelError: 4.92654e-05\tAbsError: 5.27329e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.82203e-05\tAbsError: 1.20057e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.04006e-06\tAbsError: 4.07273e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 5.04648e-09\tAbsError: 2.84942e-09\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:23\u001b[0m.\u001b[1;36m231\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:23\u001b[0m.\u001b[1;36m231\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 4.35849e-04\tAbsError: 3.72621e+08\n", - " Region: \"zone_1\"\tRelError: 9.74733e-08\tAbsError: 1.39396e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 9.74733e-08\tAbsError: 1.39396e-09\n", - " Region: \"zone_3\"\tRelError: 4.35752e-04\tAbsError: 3.72621e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.34041e-04\tAbsError: 4.56136e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.70891e-06\tAbsError: 3.27007e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 2.16343e-09\tAbsError: 1.45042e-09\n", - "Iteration: 8\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 1.02608e+03\tAbsError: 1.57087e+14\n", - " Region: \"zone_1\"\tRelError: 1.57533e-01\tAbsError: 5.02452e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.57533e-01\tAbsError: 5.02452e-02\n", - " Region: \"zone_3\"\tRelError: 1.02593e+03\tAbsError: 1.57087e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.24945e+02\tAbsError: 5.51555e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.00908e+02\tAbsError: 1.01931e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.22342e-02\tAbsError: 5.02452e-02\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.46859e-12\tAbsError: 7.81503e+04\n", - " Region: \"zone_1\"\tRelError: 2.38783e-13\tAbsError: 1.16589e-15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.38783e-13\tAbsError: 1.16589e-15\n", - " Region: \"zone_3\"\tRelError: 2.22981e-12\tAbsError: 7.81503e+04\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.62269e-13\tAbsError: 3.99082e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.70018e-14\tAbsError: 3.82421e+04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.05054e-12\tAbsError: 1.16589e-15\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 6.63476e-12\tAbsError: 3.12455e+04\n", - " Region: \"zone_1\"\tRelError: 2.28845e-13\tAbsError: 1.11990e-16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.28845e-13\tAbsError: 1.11990e-16\n", - " Region: \"zone_3\"\tRelError: 6.40592e-12\tAbsError: 3.12455e+04\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.32925e-12\tAbsError: 1.56395e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.20403e-14\tAbsError: 1.56060e+04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.46296e-14\tAbsError: 1.15404e-16\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:23\u001b[0m.\u001b[1;36m696\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:23\u001b[0m.\u001b[1;36m696\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.20555555555555557\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 9\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 3.51162e+02\tAbsError: 1.51715e+14\n", - " Region: \"zone_1\"\tRelError: 1.16438e-01\tAbsError: 4.17804e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16438e-01\tAbsError: 4.17804e-02\n", - " Region: \"zone_3\"\tRelError: 3.51046e+02\tAbsError: 1.51715e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.03907e+02\tAbsError: 8.14342e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.70825e+01\tAbsError: 7.02811e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.60305e-02\tAbsError: 4.17805e-02\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.62677e+00\tAbsError: 8.55868e+15\n", - " Region: \"zone_1\"\tRelError: 3.93566e+00\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.93566e+00\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.69111e+00\tAbsError: 8.55868e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94568e-01\tAbsError: 4.83229e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94557e-01\tAbsError: 3.72639e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01989e-01\tAbsError: 4.09542e-02\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.46957e+02\tAbsError: 7.87014e+13\n", - " Region: \"zone_1\"\tRelError: 4.00573e-02\tAbsError: 3.17370e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.00573e-02\tAbsError: 3.17370e-02\n", - " Region: \"zone_3\"\tRelError: 1.46917e+02\tAbsError: 7.87014e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.42905e+02\tAbsError: 5.10431e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.97144e+00\tAbsError: 7.35971e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.02690e-02\tAbsError: 3.17371e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.68467e+00\tAbsError: 3.35446e+14\n", - " Region: \"zone_1\"\tRelError: 1.36557e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.36557e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.54812e+00\tAbsError: 3.35446e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90679e-01\tAbsError: 1.72457e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.87899e-01\tAbsError: 1.62989e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.95382e-02\tAbsError: 3.07632e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:24\u001b[0m.\u001b[1;36m280\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:24\u001b[0m.\u001b[1;36m313\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.15 bias\u001b[0m \n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 3.42199e+01\tAbsError: 6.33431e+13\n", - " Region: \"zone_1\"\tRelError: 3.22245e-02\tAbsError: 2.58704e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.22245e-02\tAbsError: 2.58704e-02\n", - " Region: \"zone_3\"\tRelError: 3.41876e+01\tAbsError: 6.33431e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.39955e+01\tAbsError: 1.79340e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.59887e-01\tAbsError: 6.15497e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.22245e-02\tAbsError: 2.46614e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:24\u001b[0m.\u001b[1;36m348\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: 0.1\u001b[0m \n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.36416e+01\tAbsError: 9.09726e+15\n", - " Region: \"zone_1\"\tRelError: 1.19443e+01\tAbsError: 4.20726e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19443e+01\tAbsError: 4.20726e-02\n", - " Region: \"zone_3\"\tRelError: 1.69727e+00\tAbsError: 9.09726e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.03202e-01\tAbsError: 4.92151e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.03171e-01\tAbsError: 4.17576e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.08998e-02\tAbsError: 4.20726e-02\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:24\u001b[0m.\u001b[1;36m417\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:24\u001b[0m.\u001b[1;36m449\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.2 bias\u001b[0m \n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:24\u001b[0m.\u001b[1;36m484\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.1\u001b[0m \n", - "number of equations 22602\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.58081e+00\tAbsError: 1.11842e+14\n", - " Region: \"zone_1\"\tRelError: 1.21721e-02\tAbsError: 1.03782e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21721e-02\tAbsError: 1.03782e-02\n", - " Region: \"zone_3\"\tRelError: 1.56863e+00\tAbsError: 1.11842e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.55004e+00\tAbsError: 4.08486e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.14119e-03\tAbsError: 1.07757e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.24479e-02\tAbsError: 1.03783e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.10405e+00\tAbsError: 2.84626e+13\n", - " Region: \"zone_1\"\tRelError: 5.09442e-02\tAbsError: 2.58970e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.09442e-02\tAbsError: 2.58970e-02\n", - " Region: \"zone_3\"\tRelError: 1.05311e+00\tAbsError: 2.84626e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14915e-01\tAbsError: 1.81960e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.86897e-01\tAbsError: 1.02666e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.12979e-02\tAbsError: 2.58565e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.89696e+00\tAbsError: 3.83121e+14\n", - " Region: \"zone_1\"\tRelError: 3.29440e-01\tAbsError: 3.20820e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.29440e-01\tAbsError: 3.20820e-02\n", - " Region: \"zone_3\"\tRelError: 1.56752e+00\tAbsError: 3.83121e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.06173e-01\tAbsError: 1.73741e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.02918e-01\tAbsError: 2.09380e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.84246e-02\tAbsError: 3.20820e-02\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 1.99331e-01\tAbsError: 1.43366e+14\n", - " Region: \"zone_1\"\tRelError: 1.64438e-02\tAbsError: 1.92112e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.64438e-02\tAbsError: 1.92112e-04\n", - " Region: \"zone_3\"\tRelError: 1.82888e-01\tAbsError: 1.43366e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.72124e-01\tAbsError: 6.88270e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.04833e-02\tAbsError: 1.36484e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.80128e-04\tAbsError: 1.98494e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.55178e+02\tAbsError: 4.19296e+18\n", - " Region: \"zone_1\"\tRelError: 9.46717e+01\tAbsError: 8.96715e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.46717e+01\tAbsError: 8.96715e-02\n", - " Region: \"zone_3\"\tRelError: 5.60506e+02\tAbsError: 4.19296e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.71840e+02\tAbsError: 2.09941e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.42818e+02\tAbsError: 2.09356e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 1.45848e+02\tAbsError: 8.96718e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.52899e+03\tAbsError: 5.52426e+18\n", - " Region: \"zone_1\"\tRelError: 1.19471e+02\tAbsError: 9.11937e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19471e+02\tAbsError: 9.11937e-02\n", - " Region: \"zone_3\"\tRelError: 1.40951e+03\tAbsError: 5.52426e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.00001e+03\tAbsError: 2.32297e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.07895e+02\tAbsError: 3.20129e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 3.01606e+02\tAbsError: 9.11941e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.87738e-01\tAbsError: 1.50257e+12\n", - " Region: \"zone_1\"\tRelError: 1.63299e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.63299e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.71408e-01\tAbsError: 1.50257e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88723e-01\tAbsError: 2.92089e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.61472e-02\tAbsError: 1.21048e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65380e-02\tAbsError: 9.16534e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.15294e+00\tAbsError: 5.01228e+13\n", - " Region: \"zone_1\"\tRelError: 4.66659e-02\tAbsError: 2.58180e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.66659e-02\tAbsError: 2.58180e-02\n", - " Region: \"zone_3\"\tRelError: 1.10628e+00\tAbsError: 5.01228e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.41002e-01\tAbsError: 2.79935e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.21167e-01\tAbsError: 2.21292e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.41094e-02\tAbsError: 2.57601e-02\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 6.38047e-04\tAbsError: 8.40237e+10\n", - " Region: \"zone_1\"\tRelError: 8.71093e-06\tAbsError: 1.41888e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 8.71093e-06\tAbsError: 1.41888e-07\n", - " Region: \"zone_3\"\tRelError: 6.29336e-04\tAbsError: 8.40237e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.88281e-04\tAbsError: 3.39539e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.08430e-05\tAbsError: 8.06283e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.12387e-07\tAbsError: 1.50351e-07\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 5.59128e+02\tAbsError: 3.70246e+18\n", - " Region: \"zone_1\"\tRelError: 7.27506e+01\tAbsError: 8.66949e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.27506e+01\tAbsError: 8.66949e-02\n", - " Region: \"zone_3\"\tRelError: 4.86377e+02\tAbsError: 3.70246e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.84555e+01\tAbsError: 1.87060e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.32939e+01\tAbsError: 1.83186e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 3.64628e+02\tAbsError: 8.66950e-02\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 3.36908e-10\tAbsError: 5.80084e+04\n", - " Region: \"zone_1\"\tRelError: 5.10232e-12\tAbsError: 8.55220e-14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.10232e-12\tAbsError: 8.55220e-14\n", - " Region: \"zone_3\"\tRelError: 3.31806e-10\tAbsError: 5.80084e+04\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.87749e-10\tAbsError: 1.56061e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.38210e-11\tAbsError: 4.24023e+04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.35487e-13\tAbsError: 9.08369e-14\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 7.99996e+02\tAbsError: 4.79855e+18\n", - " Region: \"zone_1\"\tRelError: 4.84124e+02\tAbsError: 8.83465e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.84124e+02\tAbsError: 8.83465e-02\n", - " Region: \"zone_3\"\tRelError: 3.15873e+02\tAbsError: 4.79855e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.69613e+01\tAbsError: 2.06031e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.73824e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 2.09911e+02\tAbsError: 8.83466e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.96849e-02\tAbsError: 2.07362e+12\n", - " Region: \"zone_1\"\tRelError: 7.02885e-04\tAbsError: 1.90198e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.02885e-04\tAbsError: 1.90198e-05\n", - " Region: \"zone_3\"\tRelError: 8.89820e-02\tAbsError: 2.07362e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.78375e-02\tAbsError: 8.90891e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10276e-03\tAbsError: 1.18273e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.17313e-05\tAbsError: 1.96984e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:25\u001b[0m.\u001b[1;36m555\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.2\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.15526e-01\tAbsError: 2.42634e+12\n", - " Region: \"zone_1\"\tRelError: 1.61579e-02\tAbsError: 1.08344e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.61579e-02\tAbsError: 1.08344e-02\n", - " Region: \"zone_3\"\tRelError: 3.99368e-01\tAbsError: 2.42634e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91128e-01\tAbsError: 1.32019e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.18221e-02\tAbsError: 1.10616e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.64183e-02\tAbsError: 1.08344e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 3.53516e+01\tAbsError: 7.53728e+17\n", - " Region: \"zone_1\"\tRelError: 9.71612e+00\tAbsError: 8.34500e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.71612e+00\tAbsError: 8.34500e-02\n", - " Region: \"zone_3\"\tRelError: 2.56355e+01\tAbsError: 7.53728e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.85616e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.68112e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 7.63549e+00\tAbsError: 8.34501e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.40982e-05\tAbsError: 1.92019e+08\n", - " Region: \"zone_1\"\tRelError: 4.03285e-08\tAbsError: 1.17477e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 4.03285e-08\tAbsError: 1.17477e-09\n", - " Region: \"zone_3\"\tRelError: 3.40579e-05\tAbsError: 1.92019e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.36060e-05\tAbsError: 5.55442e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.49187e-07\tAbsError: 1.36475e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 2.67835e-09\tAbsError: 1.26430e-09\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 6.11681e+02\tAbsError: 9.73831e+17\n", - " Region: \"zone_1\"\tRelError: 1.66118e+01\tAbsError: 8.52530e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66118e+01\tAbsError: 8.52530e-02\n", - " Region: \"zone_3\"\tRelError: 5.95070e+02\tAbsError: 9.73831e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 4.64637e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.45073e+02\tAbsError: 5.09194e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 4.40997e+02\tAbsError: 8.52530e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:26\u001b[0m.\u001b[1;36m006\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.4\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.04481e-01\tAbsError: 6.34896e+11\n", - " Region: \"zone_1\"\tRelError: 4.71054e-04\tAbsError: 5.88390e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.71054e-04\tAbsError: 5.88390e-06\n", - " Region: \"zone_3\"\tRelError: 1.04010e-01\tAbsError: 6.34896e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03474e-01\tAbsError: 2.77921e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.25244e-04\tAbsError: 3.56974e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10538e-05\tAbsError: 6.12131e-06\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.57138e+02\tAbsError: 1.91537e+17\n", - " Region: \"zone_1\"\tRelError: 2.14306e+01\tAbsError: 7.98885e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.14306e+01\tAbsError: 7.98885e-02\n", - " Region: \"zone_3\"\tRelError: 4.35707e+02\tAbsError: 1.91537e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.17395e+02\tAbsError: 1.23405e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.17404e+02\tAbsError: 6.81323e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 9.07859e-01\tAbsError: 7.98942e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.21485e+01\tAbsError: 8.61846e+15\n", - " Region: \"zone_1\"\tRelError: 3.04717e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.04717e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.67686e+00\tAbsError: 8.61846e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94516e-01\tAbsError: 4.66248e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94484e-01\tAbsError: 3.95598e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.78603e-02\tAbsError: 4.09542e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.53509e+03\tAbsError: 2.64355e+17\n", - " Region: \"zone_1\"\tRelError: 8.11560e+00\tAbsError: 8.18705e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.11560e+00\tAbsError: 8.18705e-02\n", - " Region: \"zone_3\"\tRelError: 1.52697e+03\tAbsError: 2.64355e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.51231e+03\tAbsError: 1.58326e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.19219e+01\tAbsError: 1.06029e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 2.73627e+00\tAbsError: 8.18706e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.34755e-05\tAbsError: 1.52606e+07\n", - " Region: \"zone_1\"\tRelError: 7.60373e-09\tAbsError: 1.04179e-10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.60373e-09\tAbsError: 1.04179e-10\n", - " Region: \"zone_3\"\tRelError: 1.34679e-05\tAbsError: 1.52606e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33958e-05\tAbsError: 4.82777e+06\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.19416e-08\tAbsError: 1.04328e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.01664e-10\tAbsError: 1.11640e-10\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:26\u001b[0m.\u001b[1;36m619\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:26\u001b[0m.\u001b[1;36m619\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.3111111111111111\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.31502e+02\tAbsError: 6.87028e+16\n", - " Region: \"zone_1\"\tRelError: 1.68094e+01\tAbsError: 7.59542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.68094e+01\tAbsError: 7.59542e-02\n", - " Region: \"zone_3\"\tRelError: 8.14692e+02\tAbsError: 6.87028e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.83334e+02\tAbsError: 4.38759e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.31160e+02\tAbsError: 2.48269e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.98992e-01\tAbsError: 7.59565e-02\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.07800e+00\tAbsError: 3.45404e+14\n", - " Region: \"zone_1\"\tRelError: 5.44178e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.44178e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.53382e+00\tAbsError: 3.45404e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90662e-01\tAbsError: 1.56300e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.87478e-01\tAbsError: 1.89103e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.56802e-02\tAbsError: 3.07632e-02\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.56244e+00\tAbsError: 8.45570e+15\n", - " Region: \"zone_1\"\tRelError: 3.85573e+00\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.85573e+00\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.70670e+00\tAbsError: 8.45570e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94571e-01\tAbsError: 4.92914e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94557e-01\tAbsError: 3.52655e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17574e-01\tAbsError: 4.09542e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.31694e+02\tAbsError: 8.22528e+16\n", - " Region: \"zone_1\"\tRelError: 1.67084e+02\tAbsError: 7.81452e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.67084e+02\tAbsError: 7.81452e-02\n", - " Region: \"zone_3\"\tRelError: 6.46099e+01\tAbsError: 8.22528e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.91409e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.53588e+01\tAbsError: 4.31119e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.51084e-01\tAbsError: 7.81452e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.51444e+02\tAbsError: 6.18288e+15\n", - " Region: \"zone_1\"\tRelError: 5.96684e+01\tAbsError: 7.15580e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.96684e+01\tAbsError: 7.15580e-02\n", - " Region: \"zone_3\"\tRelError: 4.91775e+02\tAbsError: 6.18288e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.96477e+01\tAbsError: 1.82578e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.51973e+02\tAbsError: 4.35710e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55063e-01\tAbsError: 7.15593e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.67739e+00\tAbsError: 3.26551e+14\n", - " Region: \"zone_1\"\tRelError: 1.13651e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13651e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.56374e+00\tAbsError: 3.26551e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91179e-01\tAbsError: 1.98410e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.87607e-01\tAbsError: 1.28141e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.49517e-02\tAbsError: 3.07632e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.11313e+00\tAbsError: 4.26791e+13\n", - " Region: \"zone_1\"\tRelError: 7.05940e-02\tAbsError: 2.58377e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.05940e-02\tAbsError: 2.58377e-02\n", - " Region: \"zone_3\"\tRelError: 1.04254e+00\tAbsError: 4.26791e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14646e-01\tAbsError: 2.38411e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.85599e-01\tAbsError: 1.88379e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.22941e-02\tAbsError: 2.58015e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.59844e+02\tAbsError: 1.24880e+16\n", - " Region: \"zone_1\"\tRelError: 1.03700e+01\tAbsError: 7.40072e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03700e+01\tAbsError: 7.40072e-02\n", - " Region: \"zone_3\"\tRelError: 4.49474e+02\tAbsError: 1.24880e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 4.24800e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.40305e+02\tAbsError: 8.23998e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.69842e-01\tAbsError: 7.40073e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.69894e+00\tAbsError: 9.02984e+15\n", - " Region: \"zone_1\"\tRelError: 4.98629e+00\tAbsError: 4.20726e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.98629e+00\tAbsError: 4.20726e-02\n", - " Region: \"zone_3\"\tRelError: 1.71265e+00\tAbsError: 9.02984e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.03254e-01\tAbsError: 5.10935e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.03243e-01\tAbsError: 3.92049e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06149e-01\tAbsError: 4.20726e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.49917e+02\tAbsError: 2.95788e+15\n", - " Region: \"zone_1\"\tRelError: 3.04492e+00\tAbsError: 6.65940e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.04492e+00\tAbsError: 6.65940e-02\n", - " Region: \"zone_3\"\tRelError: 1.46872e+02\tAbsError: 2.95788e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.68810e+01\tAbsError: 1.83594e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.19869e+02\tAbsError: 1.12194e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21422e-01\tAbsError: 6.65969e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.83480e-01\tAbsError: 2.88954e+12\n", - " Region: \"zone_1\"\tRelError: 1.35212e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35212e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.69958e-01\tAbsError: 2.88954e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88338e-01\tAbsError: 2.12977e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.78790e-02\tAbsError: 2.67656e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37417e-02\tAbsError: 9.16534e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.13583e+00\tAbsError: 3.35166e+13\n", - " Region: \"zone_1\"\tRelError: 6.49986e-02\tAbsError: 2.58787e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.49986e-02\tAbsError: 2.58787e-02\n", - " Region: \"zone_3\"\tRelError: 1.07083e+00\tAbsError: 3.35166e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14794e-01\tAbsError: 2.31889e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.90894e-01\tAbsError: 1.03277e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.51440e-02\tAbsError: 2.58923e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.11429e+03\tAbsError: 2.38864e+15\n", - " Region: \"zone_1\"\tRelError: 1.50596e+00\tAbsError: 6.93659e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.50596e+00\tAbsError: 6.93659e-02\n", - " Region: \"zone_3\"\tRelError: 2.11278e+03\tAbsError: 2.38864e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.71799e+01\tAbsError: 1.29149e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.07547e+03\tAbsError: 1.09714e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33696e-01\tAbsError: 6.93660e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.83976e+00\tAbsError: 3.73254e+14\n", - " Region: \"zone_1\"\tRelError: 2.58614e-01\tAbsError: 3.20820e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.58614e-01\tAbsError: 3.20820e-02\n", - " Region: \"zone_3\"\tRelError: 1.58115e+00\tAbsError: 3.73254e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.06515e-01\tAbsError: 1.94620e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.02868e-01\tAbsError: 1.78634e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.17646e-02\tAbsError: 3.20820e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.83585e+04\tAbsError: 7.32345e+14\n", - " Region: \"zone_1\"\tRelError: 4.44128e-01\tAbsError: 6.09260e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.44128e-01\tAbsError: 6.09260e-02\n", - " Region: \"zone_3\"\tRelError: 3.83580e+04\tAbsError: 7.32345e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.30599e+02\tAbsError: 3.72701e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.78273e+04\tAbsError: 3.59644e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.79120e-02\tAbsError: 6.09290e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.38444e-02\tAbsError: 3.70458e+12\n", - " Region: \"zone_1\"\tRelError: 3.59871e-03\tAbsError: 2.71390e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.59871e-03\tAbsError: 2.71390e-05\n", - " Region: \"zone_3\"\tRelError: 9.02457e-02\tAbsError: 3.70458e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.84320e-02\tAbsError: 1.19345e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.76575e-03\tAbsError: 2.51114e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.79561e-05\tAbsError: 2.71828e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.97006e-01\tAbsError: 3.97798e+12\n", - " Region: \"zone_1\"\tRelError: 2.05644e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.05644e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.76441e-01\tAbsError: 3.97798e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88505e-01\tAbsError: 1.01871e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.71832e-02\tAbsError: 2.95927e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.07533e-02\tAbsError: 9.16534e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.25231e+03\tAbsError: 9.03734e+14\n", - " Region: \"zone_1\"\tRelError: 8.82466e-01\tAbsError: 6.41008e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.82466e-01\tAbsError: 6.41008e-02\n", - " Region: \"zone_3\"\tRelError: 2.25143e+03\tAbsError: 9.03734e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.57304e+02\tAbsError: 4.07168e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.69402e+03\tAbsError: 4.96566e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07550e-01\tAbsError: 6.41009e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.17417e+00\tAbsError: 3.20760e+13\n", - " Region: \"zone_1\"\tRelError: 5.46381e-02\tAbsError: 2.58802e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.46381e-02\tAbsError: 2.58802e-02\n", - " Region: \"zone_3\"\tRelError: 1.11953e+00\tAbsError: 3.20760e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.41378e-01\tAbsError: 2.05221e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.23358e-01\tAbsError: 1.15539e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.47948e-02\tAbsError: 2.58959e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.25275e+04\tAbsError: 2.12614e+14\n", - " Region: \"zone_1\"\tRelError: 7.91343e-02\tAbsError: 5.43640e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.91343e-02\tAbsError: 5.43640e-02\n", - " Region: \"zone_3\"\tRelError: 2.25274e+04\tAbsError: 2.12614e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.66145e+03\tAbsError: 2.65979e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.98659e+04\tAbsError: 1.86016e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.93208e-02\tAbsError: 5.43673e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.96038e-05\tAbsError: 5.27330e+08\n", - " Region: \"zone_1\"\tRelError: 3.38320e-07\tAbsError: 2.80513e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.38320e-07\tAbsError: 2.80513e-09\n", - " Region: \"zone_3\"\tRelError: 4.92654e-05\tAbsError: 5.27330e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.82203e-05\tAbsError: 1.20057e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.04006e-06\tAbsError: 4.07273e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 5.04648e-09\tAbsError: 2.84942e-09\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.75905e-02\tAbsError: 6.14178e+11\n", - " Region: \"zone_1\"\tRelError: 1.87871e-04\tAbsError: 5.35919e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87871e-04\tAbsError: 5.35919e-06\n", - " Region: \"zone_3\"\tRelError: 8.74026e-02\tAbsError: 6.14178e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.70791e-02\tAbsError: 2.57149e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.08574e-04\tAbsError: 3.57029e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49985e-05\tAbsError: 5.65537e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:28\u001b[0m.\u001b[1;36m462\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:28\u001b[0m.\u001b[1;36m462\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.35767e+03\tAbsError: 4.38346e+14\n", - " Region: \"zone_1\"\tRelError: 1.72519e-01\tAbsError: 5.80509e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72519e-01\tAbsError: 5.80509e-02\n", - " Region: \"zone_3\"\tRelError: 3.35750e+03\tAbsError: 4.38346e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.54842e+03\tAbsError: 1.20412e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.80899e+03\tAbsError: 3.17935e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.54433e-02\tAbsError: 5.80510e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.20610e-01\tAbsError: 2.46367e+12\n", - " Region: \"zone_1\"\tRelError: 1.97787e-02\tAbsError: 1.08344e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.97787e-02\tAbsError: 1.08344e-02\n", - " Region: \"zone_3\"\tRelError: 4.00831e-01\tAbsError: 2.46367e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.90180e-01\tAbsError: 1.36067e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.06203e-02\tAbsError: 1.10300e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.00308e-02\tAbsError: 1.08344e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.83174e+03\tAbsError: 3.03017e+14\n", - " Region: \"zone_1\"\tRelError: 1.86561e-01\tAbsError: 4.66596e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86561e-01\tAbsError: 4.66596e-02\n", - " Region: \"zone_3\"\tRelError: 2.83156e+03\tAbsError: 3.03017e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.69901e+03\tAbsError: 1.18356e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.32487e+02\tAbsError: 1.84661e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.30157e-02\tAbsError: 4.66636e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 9.95471e-06\tAbsError: 1.37438e+07\n", - " Region: \"zone_1\"\tRelError: 1.96051e-09\tAbsError: 6.30623e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.96051e-09\tAbsError: 6.30623e-11\n", - " Region: \"zone_3\"\tRelError: 9.95275e-06\tAbsError: 1.37438e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.91827e-06\tAbsError: 3.21255e+06\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.43047e-08\tAbsError: 1.05312e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.78389e-10\tAbsError: 6.72816e-11\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:28\u001b[0m.\u001b[1;36m940\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.5\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 9.11329e+02\tAbsError: 3.55421e+14\n", - " Region: \"zone_1\"\tRelError: 6.92220e-02\tAbsError: 5.10012e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.92220e-02\tAbsError: 5.10012e-02\n", - " Region: \"zone_3\"\tRelError: 9.11259e+02\tAbsError: 3.55421e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28865e+02\tAbsError: 2.22302e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.82326e+02\tAbsError: 3.33191e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.90503e-02\tAbsError: 5.10013e-02\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.70427e+04\tAbsError: 2.02458e+14\n", - " Region: \"zone_1\"\tRelError: 4.75338e-02\tAbsError: 3.75199e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.75338e-02\tAbsError: 3.75199e-02\n", - " Region: \"zone_3\"\tRelError: 3.70426e+04\tAbsError: 2.02458e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.23519e+02\tAbsError: 1.48588e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.67191e+04\tAbsError: 1.87599e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.78377e-02\tAbsError: 3.75245e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.03169e-01\tAbsError: 1.09582e+11\n", - " Region: \"zone_1\"\tRelError: 5.27309e-05\tAbsError: 7.87175e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 5.27309e-05\tAbsError: 7.87175e-07\n", - " Region: \"zone_3\"\tRelError: 1.03117e-01\tAbsError: 1.09582e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.02996e-01\tAbsError: 3.80676e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.19243e-04\tAbsError: 7.15146e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.81215e-06\tAbsError: 8.31957e-07\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.62677e+00\tAbsError: 8.55868e+15\n", - " Region: \"zone_1\"\tRelError: 3.93566e+00\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.93566e+00\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.69111e+00\tAbsError: 8.55868e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94568e-01\tAbsError: 4.83229e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94557e-01\tAbsError: 3.72639e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01989e-01\tAbsError: 4.09542e-02\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.99508e+02\tAbsError: 3.56712e+14\n", - " Region: \"zone_1\"\tRelError: 5.37825e-02\tAbsError: 4.26778e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.37825e-02\tAbsError: 4.26778e-02\n", - " Region: \"zone_3\"\tRelError: 3.99454e+02\tAbsError: 3.56712e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.74733e+02\tAbsError: 9.45682e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.46668e+01\tAbsError: 3.47255e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.40853e-02\tAbsError: 4.26779e-02\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 4.97099e+01\tAbsError: 1.83373e+14\n", - " Region: \"zone_1\"\tRelError: 3.58093e-02\tAbsError: 2.67472e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.58093e-02\tAbsError: 2.67472e-02\n", - " Region: \"zone_3\"\tRelError: 4.96741e+01\tAbsError: 1.83373e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.86384e+01\tAbsError: 7.10112e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.99823e-01\tAbsError: 1.76272e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.58093e-02\tAbsError: 2.67523e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.18157e-06\tAbsError: 1.01458e+05\n", - " Region: \"zone_1\"\tRelError: 9.31729e-12\tAbsError: 3.59108e-13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.31729e-12\tAbsError: 3.59108e-13\n", - " Region: \"zone_3\"\tRelError: 2.18156e-06\tAbsError: 1.01458e+05\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.17993e-06\tAbsError: 1.94300e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.62794e-09\tAbsError: 8.20285e+04\n", - " Equation: \"PotentialEquation\"\tRelError: 8.91197e-13\tAbsError: 4.12009e-13\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.68467e+00\tAbsError: 3.35446e+14\n", - " Region: \"zone_1\"\tRelError: 1.36557e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.36557e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.54812e+00\tAbsError: 3.35446e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90679e-01\tAbsError: 1.72457e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.87899e-01\tAbsError: 1.62989e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.95382e-02\tAbsError: 3.07632e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:29\u001b[0m.\u001b[1;36m571\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:29\u001b[0m.\u001b[1;36m571\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.41666666666666674\u001b[0m \n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 2.12568e+01\tAbsError: 3.59469e+14\n", - " Region: \"zone_1\"\tRelError: 3.95899e-02\tAbsError: 3.27971e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.95899e-02\tAbsError: 3.27971e-02\n", - " Region: \"zone_3\"\tRelError: 2.12172e+01\tAbsError: 3.59469e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.09538e+01\tAbsError: 1.57655e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.23758e-01\tAbsError: 3.43704e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.96086e-02\tAbsError: 3.27973e-02\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 2.07093e+03\tAbsError: 1.48037e+14\n", - " Region: \"zone_1\"\tRelError: 2.37100e-02\tAbsError: 2.00969e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.37100e-02\tAbsError: 2.00969e-02\n", - " Region: \"zone_3\"\tRelError: 2.07090e+03\tAbsError: 1.48037e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07086e+03\tAbsError: 6.00698e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.31635e-02\tAbsError: 1.42030e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.38215e-02\tAbsError: 2.01053e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.87556e+01\tAbsError: 8.34767e+15\n", - " Region: \"zone_1\"\tRelError: 6.70313e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.70313e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.72426e+00\tAbsError: 8.34767e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94570e-01\tAbsError: 4.96926e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94551e-01\tAbsError: 3.37841e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35138e-01\tAbsError: 4.09542e-02\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.79606e+02\tAbsError: 3.17335e+14\n", - " Region: \"zone_1\"\tRelError: 3.16890e-02\tAbsError: 2.57088e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.16890e-02\tAbsError: 2.57088e-02\n", - " Region: \"zone_3\"\tRelError: 1.79574e+02\tAbsError: 3.17335e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.79511e+02\tAbsError: 1.15814e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.15584e-02\tAbsError: 3.05753e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.16890e-02\tAbsError: 2.54280e-02\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 1.01490e+00\tAbsError: 9.76040e+13\n", - " Region: \"zone_1\"\tRelError: 1.13824e-02\tAbsError: 1.29477e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13824e-02\tAbsError: 1.29477e-04\n", - " Region: \"zone_3\"\tRelError: 1.00352e+00\tAbsError: 9.76040e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.95736e-01\tAbsError: 4.79799e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.59601e-03\tAbsError: 9.28060e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.89534e-04\tAbsError: 1.32435e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.10405e+00\tAbsError: 2.84626e+13\n", - " Region: \"zone_1\"\tRelError: 5.09442e-02\tAbsError: 2.58970e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.09442e-02\tAbsError: 2.58970e-02\n", - " Region: \"zone_3\"\tRelError: 1.05311e+00\tAbsError: 2.84626e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14915e-01\tAbsError: 1.81960e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.86897e-01\tAbsError: 1.02666e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.12979e-02\tAbsError: 2.58565e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.18244e+00\tAbsError: 3.45808e+14\n", - " Region: \"zone_1\"\tRelError: 5.95786e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95786e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.58666e+00\tAbsError: 3.45808e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91491e-01\tAbsError: 2.56450e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.87672e-01\tAbsError: 8.93573e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07491e-01\tAbsError: 3.07632e-02\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 3.61611e+00\tAbsError: 7.63894e+14\n", - " Region: \"zone_1\"\tRelError: 2.06202e-02\tAbsError: 1.18262e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06202e-02\tAbsError: 1.18262e-02\n", - " Region: \"zone_3\"\tRelError: 3.59549e+00\tAbsError: 7.63894e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.56908e+00\tAbsError: 8.10617e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.26902e-02\tAbsError: 7.55788e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37185e-02\tAbsError: 1.18264e-02\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 2.81250e-03\tAbsError: 3.78042e+10\n", - " Region: \"zone_1\"\tRelError: 1.35215e-06\tAbsError: 3.48965e-08\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35215e-06\tAbsError: 3.48965e-08\n", - " Region: \"zone_3\"\tRelError: 2.81115e-03\tAbsError: 3.78042e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.78840e-03\tAbsError: 4.25724e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.26984e-05\tAbsError: 3.73784e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.25178e-08\tAbsError: 3.71778e-08\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 4.17123e+00\tAbsError: 8.90820e+15\n", - " Region: \"zone_1\"\tRelError: 2.44528e+00\tAbsError: 4.20726e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.44528e+00\tAbsError: 4.20726e-02\n", - " Region: \"zone_3\"\tRelError: 1.72594e+00\tAbsError: 8.90820e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.03256e-01\tAbsError: 5.20606e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.03242e-01\tAbsError: 3.70214e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19444e-01\tAbsError: 4.20726e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.87738e-01\tAbsError: 1.50257e+12\n", - " Region: \"zone_1\"\tRelError: 1.63299e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.63299e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.71408e-01\tAbsError: 1.50257e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88723e-01\tAbsError: 2.92089e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.61472e-02\tAbsError: 1.21048e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65380e-02\tAbsError: 9.16534e-03\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 1.80607e-01\tAbsError: 9.20974e+14\n", - " Region: \"zone_1\"\tRelError: 4.39208e-02\tAbsError: 5.29899e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.39208e-02\tAbsError: 5.29899e-04\n", - " Region: \"zone_3\"\tRelError: 1.36686e-01\tAbsError: 9.20974e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10840e-01\tAbsError: 1.78896e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.50927e-02\tAbsError: 9.03084e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.53382e-04\tAbsError: 5.45403e-04\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 9.46472e-10\tAbsError: 3.21542e+04\n", - " Region: \"zone_1\"\tRelError: 3.69710e-13\tAbsError: 4.70633e-15\n", - " Equation: \"PotentialEquation\"\tRelError: 3.69710e-13\tAbsError: 4.70633e-15\n", - " Region: \"zone_3\"\tRelError: 9.46103e-10\tAbsError: 3.21542e+04\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.44098e-10\tAbsError: 1.58432e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.90513e-12\tAbsError: 1.63110e+04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.95121e-14\tAbsError: 5.04159e-15\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.19247e+00\tAbsError: 8.54805e+13\n", - " Region: \"zone_1\"\tRelError: 9.12229e-02\tAbsError: 2.58978e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.12229e-02\tAbsError: 2.58978e-02\n", - " Region: \"zone_3\"\tRelError: 1.10125e+00\tAbsError: 8.54805e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14822e-01\tAbsError: 5.48784e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.98551e-01\tAbsError: 3.06021e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.78742e-02\tAbsError: 2.58989e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:30\u001b[0m.\u001b[1;36m583\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: 0.205\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.69773e+00\tAbsError: 3.65074e+14\n", - " Region: \"zone_1\"\tRelError: 9.74499e-02\tAbsError: 3.20820e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.74499e-02\tAbsError: 3.20820e-02\n", - " Region: \"zone_3\"\tRelError: 1.60028e+00\tAbsError: 3.65074e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.06609e-01\tAbsError: 2.28256e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.03263e-01\tAbsError: 1.36818e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.04094e-02\tAbsError: 3.20820e-02\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "Iteration: 15\n", - "number of equations 22602\n", - " Device: \"device\"\tRelError: 1.00868e-03\tAbsError: 6.59671e+11\n", - " Region: \"zone_1\"\tRelError: 1.82829e-06\tAbsError: 3.39387e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82829e-06\tAbsError: 3.39387e-07\n", - " Region: \"zone_3\"\tRelError: 1.00685e-03\tAbsError: 6.59671e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.19086e-04\tAbsError: 4.09834e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.87254e-04\tAbsError: 6.55573e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.11603e-07\tAbsError: 3.69091e-07\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.96849e-02\tAbsError: 2.07362e+12\n", - " Region: \"zone_1\"\tRelError: 7.02885e-04\tAbsError: 1.90198e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.02885e-04\tAbsError: 1.90198e-05\n", - " Region: \"zone_3\"\tRelError: 8.89820e-02\tAbsError: 2.07362e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.78375e-02\tAbsError: 8.90891e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10276e-03\tAbsError: 1.18273e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.17313e-05\tAbsError: 1.96984e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.52183e-01\tAbsError: 2.83225e+13\n", - " Region: \"zone_1\"\tRelError: 5.95279e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95279e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.92655e-01\tAbsError: 2.83225e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.85164e-01\tAbsError: 1.34603e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.99920e-02\tAbsError: 1.48622e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.74993e-02\tAbsError: 9.16534e-03\n", - "Iteration: 16\n", - " Device: \"device\"\tRelError: 3.24333e-09\tAbsError: 5.47448e+05\n", - " Region: \"zone_1\"\tRelError: 4.98786e-11\tAbsError: 5.80319e-13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.98786e-11\tAbsError: 5.80319e-13\n", - " Region: \"zone_3\"\tRelError: 3.19345e-09\tAbsError: 5.47448e+05\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.68401e-09\tAbsError: 2.45391e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.08574e-10\tAbsError: 5.22909e+05\n", - " Equation: \"PotentialEquation\"\tRelError: 8.69485e-13\tAbsError: 6.27282e-13\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.20926e+00\tAbsError: 4.96551e+13\n", - " Region: \"zone_1\"\tRelError: 7.04411e-02\tAbsError: 2.58711e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.04411e-02\tAbsError: 2.58711e-02\n", - " Region: \"zone_3\"\tRelError: 1.13882e+00\tAbsError: 4.96551e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.41311e-01\tAbsError: 3.63622e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.26374e-01\tAbsError: 1.32929e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.11331e-02\tAbsError: 2.59000e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:31\u001b[0m.\u001b[1;36m083\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.21\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.40982e-05\tAbsError: 1.92019e+08\n", - " Region: \"zone_1\"\tRelError: 4.03284e-08\tAbsError: 1.17477e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 4.03284e-08\tAbsError: 1.17477e-09\n", - " Region: \"zone_3\"\tRelError: 3.40579e-05\tAbsError: 1.92019e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.36060e-05\tAbsError: 5.55442e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.49187e-07\tAbsError: 1.36475e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 2.67835e-09\tAbsError: 1.26430e-09\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.43736e+01\tAbsError: 9.04938e+15\n", - " Region: \"zone_1\"\tRelError: 1.26785e+01\tAbsError: 4.19629e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.26785e+01\tAbsError: 4.19629e-02\n", - " Region: \"zone_3\"\tRelError: 1.69508e+00\tAbsError: 9.04938e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.02367e-01\tAbsError: 4.89560e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.02336e-01\tAbsError: 4.15378e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.03781e-02\tAbsError: 4.19629e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:31\u001b[0m.\u001b[1;36m325\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.4\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Iteration: 4\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 9.52644e-02\tAbsError: 2.55837e+12\n", - " Region: \"zone_1\"\tRelError: 7.16041e-03\tAbsError: 2.30338e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.16041e-03\tAbsError: 2.30338e-05\n", - " Region: \"zone_3\"\tRelError: 8.81040e-02\tAbsError: 2.55837e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.71797e-02\tAbsError: 1.35830e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.38768e-04\tAbsError: 1.20006e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.54583e-05\tAbsError: 2.40500e-05\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.31682e-01\tAbsError: 5.72438e+12\n", - " Region: \"zone_1\"\tRelError: 2.54263e-02\tAbsError: 1.08344e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.54263e-02\tAbsError: 1.08344e-02\n", - " Region: \"zone_3\"\tRelError: 4.06256e-01\tAbsError: 5.72438e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.89676e-01\tAbsError: 1.95965e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.09313e-02\tAbsError: 3.76473e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.56484e-02\tAbsError: 1.08344e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.90572e+00\tAbsError: 3.79278e+14\n", - " Region: \"zone_1\"\tRelError: 3.41688e-01\tAbsError: 3.19525e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.41688e-01\tAbsError: 3.19525e-02\n", - " Region: \"zone_3\"\tRelError: 1.56404e+00\tAbsError: 3.79278e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.04753e-01\tAbsError: 1.71966e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.01366e-01\tAbsError: 2.07313e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.79172e-02\tAbsError: 3.19525e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 9.99488e+00\tAbsError: 9.48030e+15\n", - " Region: \"zone_1\"\tRelError: 8.28205e+00\tAbsError: 4.29338e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.28205e+00\tAbsError: 4.29338e-02\n", - " Region: \"zone_3\"\tRelError: 1.71283e+00\tAbsError: 9.48030e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09640e-01\tAbsError: 5.12873e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.09610e-01\tAbsError: 4.35158e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.35761e-02\tAbsError: 4.29338e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.58292e-05\tAbsError: 4.59514e+08\n", - " Region: \"zone_1\"\tRelError: 9.81723e-07\tAbsError: 3.18909e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 9.81723e-07\tAbsError: 3.18909e-09\n", - " Region: \"zone_3\"\tRelError: 3.48474e-05\tAbsError: 4.59514e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.45053e-05\tAbsError: 3.33895e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.30263e-07\tAbsError: 1.25619e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18628e-08\tAbsError: 3.31754e-09\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:31\u001b[0m.\u001b[1;36m829\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.6\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.04268e-01\tAbsError: 7.37500e+11\n", - " Region: \"zone_1\"\tRelError: 1.67452e-04\tAbsError: 7.57989e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.67452e-04\tAbsError: 7.57989e-06\n", - " Region: \"zone_3\"\tRelError: 1.04100e-01\tAbsError: 7.37500e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03480e-01\tAbsError: 3.96342e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.96689e-04\tAbsError: 3.41157e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.35958e-05\tAbsError: 8.18114e-06\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.56244e+00\tAbsError: 8.45570e+15\n", - " Region: \"zone_1\"\tRelError: 3.85573e+00\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.85573e+00\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.70670e+00\tAbsError: 8.45570e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94571e-01\tAbsError: 4.92914e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94557e-01\tAbsError: 3.52655e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17574e-01\tAbsError: 4.09542e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.14844e+00\tAbsError: 4.93491e+13\n", - " Region: \"zone_1\"\tRelError: 4.80488e-02\tAbsError: 2.58683e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.80488e-02\tAbsError: 2.58683e-02\n", - " Region: \"zone_3\"\tRelError: 1.10039e+00\tAbsError: 4.93491e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38510e-01\tAbsError: 2.75600e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.17843e-01\tAbsError: 2.17891e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.40365e-02\tAbsError: 2.58683e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.85366e+00\tAbsError: 4.14640e+14\n", - " Region: \"zone_1\"\tRelError: 2.61180e-01\tAbsError: 3.31000e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.61180e-01\tAbsError: 3.31000e-02\n", - " Region: \"zone_3\"\tRelError: 1.59248e+00\tAbsError: 4.14640e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.17871e-01\tAbsError: 1.88389e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.13734e-01\tAbsError: 2.26251e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.08768e-02\tAbsError: 3.31000e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.71575e-05\tAbsError: 1.92506e+07\n", - " Region: \"zone_1\"\tRelError: 1.81976e-09\tAbsError: 1.03649e-10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.81976e-09\tAbsError: 1.03649e-10\n", - " Region: \"zone_3\"\tRelError: 1.71557e-05\tAbsError: 1.92506e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.70431e-05\tAbsError: 8.02160e+06\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.12167e-07\tAbsError: 1.12290e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 3.66593e-10\tAbsError: 1.24918e-10\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:32\u001b[0m.\u001b[1;36m376\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:32\u001b[0m.\u001b[1;36m376\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5222222222222223\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.67739e+00\tAbsError: 3.26551e+14\n", - " Region: \"zone_1\"\tRelError: 1.13651e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13651e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.56374e+00\tAbsError: 3.26551e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91179e-01\tAbsError: 1.98410e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.87607e-01\tAbsError: 1.28141e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.49517e-02\tAbsError: 3.07632e-02\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.45236e+01\tAbsError: 8.31884e+15\n", - " Region: \"zone_1\"\tRelError: 1.27753e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.27753e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.74827e+00\tAbsError: 8.31884e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94561e-01\tAbsError: 4.96691e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94525e-01\tAbsError: 3.35193e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.59186e-01\tAbsError: 4.09542e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.20078e+00\tAbsError: 5.64838e+13\n", - " Region: \"zone_1\"\tRelError: 4.55160e-02\tAbsError: 2.58865e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.55160e-02\tAbsError: 2.58865e-02\n", - " Region: \"zone_3\"\tRelError: 1.15526e+00\tAbsError: 5.64838e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.61025e-01\tAbsError: 3.15083e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.48693e-01\tAbsError: 2.49756e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.55410e-02\tAbsError: 2.58905e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.10615e-01\tAbsError: 2.38900e+12\n", - " Region: \"zone_1\"\tRelError: 1.58823e-02\tAbsError: 1.06614e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.58823e-02\tAbsError: 1.06614e-02\n", - " Region: \"zone_3\"\tRelError: 3.94733e-01\tAbsError: 2.38900e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.89596e-01\tAbsError: 9.05884e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.89979e-02\tAbsError: 1.48312e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.61387e-02\tAbsError: 1.06615e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.13583e+00\tAbsError: 3.35166e+13\n", - " Region: \"zone_1\"\tRelError: 6.49986e-02\tAbsError: 2.58787e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.49986e-02\tAbsError: 2.58787e-02\n", - " Region: \"zone_3\"\tRelError: 1.07083e+00\tAbsError: 3.35166e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14794e-01\tAbsError: 2.31889e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.90894e-01\tAbsError: 1.03277e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.51440e-02\tAbsError: 2.58923e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.91465e+00\tAbsError: 8.82588e+14\n", - " Region: \"zone_1\"\tRelError: 3.03324e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.03324e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.61133e+00\tAbsError: 8.82588e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91758e-01\tAbsError: 5.05615e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.83634e-01\tAbsError: 3.76973e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35939e-01\tAbsError: 3.07632e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.67195e-01\tAbsError: 2.99700e+12\n", - " Region: \"zone_1\"\tRelError: 1.84458e-02\tAbsError: 1.22654e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.84458e-02\tAbsError: 1.22654e-02\n", - " Region: \"zone_3\"\tRelError: 4.48750e-01\tAbsError: 2.99700e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.16869e-01\tAbsError: 1.89558e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.13140e-01\tAbsError: 1.10142e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87406e-02\tAbsError: 1.22654e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.67018e+01\tAbsError: 8.80781e+15\n", - " Region: \"zone_1\"\tRelError: 1.49620e+01\tAbsError: 4.20726e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49620e+01\tAbsError: 4.20726e-02\n", - " Region: \"zone_3\"\tRelError: 1.73978e+00\tAbsError: 8.80781e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.03254e-01\tAbsError: 5.26028e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.03235e-01\tAbsError: 3.54753e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33293e-01\tAbsError: 4.20726e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.05086e-01\tAbsError: 1.56249e+12\n", - " Region: \"zone_1\"\tRelError: 1.17716e-03\tAbsError: 1.41851e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17716e-03\tAbsError: 1.41851e-05\n", - " Region: \"zone_3\"\tRelError: 1.03909e-01\tAbsError: 1.56249e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.02758e-01\tAbsError: 6.64521e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.12394e-03\tAbsError: 8.97971e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.64584e-05\tAbsError: 1.46898e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.97006e-01\tAbsError: 3.97798e+12\n", - " Region: \"zone_1\"\tRelError: 2.05644e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.05644e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.76441e-01\tAbsError: 3.97798e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88505e-01\tAbsError: 1.01871e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.71832e-02\tAbsError: 2.95927e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.07533e-02\tAbsError: 9.16534e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.34467e+00\tAbsError: 5.44154e+14\n", - " Region: \"zone_1\"\tRelError: 2.20632e-01\tAbsError: 2.58931e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20632e-01\tAbsError: 2.58931e-02\n", - " Region: \"zone_3\"\tRelError: 1.12404e+00\tAbsError: 5.44154e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.17234e-01\tAbsError: 2.66383e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.89208e-01\tAbsError: 2.77771e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17596e-01\tAbsError: 2.58999e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.14814e-05\tAbsError: 9.59770e+07\n", - " Region: \"zone_1\"\tRelError: 4.93269e-08\tAbsError: 6.44093e-10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.93269e-08\tAbsError: 6.44093e-10\n", - " Region: \"zone_3\"\tRelError: 3.14321e-05\tAbsError: 9.59770e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.10500e-05\tAbsError: 2.98685e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.80832e-07\tAbsError: 6.61085e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.24009e-09\tAbsError: 6.87068e-10\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.18420e-01\tAbsError: 2.77452e+11\n", - " Region: \"zone_1\"\tRelError: 1.60281e-04\tAbsError: 2.62019e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.60281e-04\tAbsError: 2.62019e-06\n", - " Region: \"zone_3\"\tRelError: 1.18259e-01\tAbsError: 2.77452e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.18060e-01\tAbsError: 1.27601e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.94154e-04\tAbsError: 1.49851e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.08922e-06\tAbsError: 2.78229e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.85210e+00\tAbsError: 4.24275e+14\n", - " Region: \"zone_1\"\tRelError: 2.27335e-01\tAbsError: 3.20820e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.27335e-01\tAbsError: 3.20820e-02\n", - " Region: \"zone_3\"\tRelError: 1.62476e+00\tAbsError: 4.24275e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.07224e-01\tAbsError: 3.07050e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.02862e-01\tAbsError: 1.17225e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14677e-01\tAbsError: 3.20820e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:33\u001b[0m.\u001b[1;36m594\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:33\u001b[0m.\u001b[1;36m594\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30999999999999994\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.75905e-02\tAbsError: 6.14178e+11\n", - " Region: \"zone_1\"\tRelError: 1.87871e-04\tAbsError: 5.35919e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87871e-04\tAbsError: 5.35919e-06\n", - " Region: \"zone_3\"\tRelError: 8.74026e-02\tAbsError: 6.14178e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.70791e-02\tAbsError: 2.57149e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.08574e-04\tAbsError: 3.57029e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49985e-05\tAbsError: 5.65537e-06\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.58303e-01\tAbsError: 2.58889e+14\n", - " Region: \"zone_1\"\tRelError: 3.50075e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.50075e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 4.23296e-01\tAbsError: 2.58889e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.70968e-01\tAbsError: 1.16796e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.16540e-01\tAbsError: 1.42093e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.57873e-02\tAbsError: 9.16534e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.49173e-06\tAbsError: 2.80629e+06\n", - " Region: \"zone_1\"\tRelError: 5.46297e-10\tAbsError: 1.14586e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.46297e-10\tAbsError: 1.14586e-11\n", - " Region: \"zone_3\"\tRelError: 6.49119e-06\tAbsError: 2.80629e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.47826e-06\tAbsError: 4.87641e+05\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.29012e-08\tAbsError: 2.31865e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.30092e-11\tAbsError: 1.26062e-11\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.27177e+00\tAbsError: 1.21181e+14\n", - " Region: \"zone_1\"\tRelError: 9.69734e-02\tAbsError: 2.58832e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.69734e-02\tAbsError: 2.58832e-02\n", - " Region: \"zone_3\"\tRelError: 1.17480e+00\tAbsError: 1.21181e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.41539e-01\tAbsError: 7.18420e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.35304e-01\tAbsError: 4.93394e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.79587e-02\tAbsError: 2.58545e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:34\u001b[0m.\u001b[1;36m004\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:34\u001b[0m.\u001b[1;36m004\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.31999999999999995\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 9.95471e-06\tAbsError: 1.37437e+07\n", - " Region: \"zone_1\"\tRelError: 1.96051e-09\tAbsError: 6.30624e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.96051e-09\tAbsError: 6.30624e-11\n", - " Region: \"zone_3\"\tRelError: 9.95275e-06\tAbsError: 1.37437e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.91827e-06\tAbsError: 3.21250e+06\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.43047e-08\tAbsError: 1.05312e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.78389e-10\tAbsError: 6.72816e-11\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:34\u001b[0m.\u001b[1;36m170\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.5\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.06225e-01\tAbsError: 3.99157e+13\n", - " Region: \"zone_1\"\tRelError: 1.41229e-02\tAbsError: 1.62376e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.41229e-02\tAbsError: 1.62376e-04\n", - " Region: \"zone_3\"\tRelError: 9.21025e-02\tAbsError: 3.99157e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.51238e-02\tAbsError: 2.25076e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.14819e-03\tAbsError: 1.74081e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.30563e-04\tAbsError: 1.67642e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.40990e+00\tAbsError: 8.98276e+15\n", - " Region: \"zone_1\"\tRelError: 4.69964e+00\tAbsError: 4.19629e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.69964e+00\tAbsError: 4.19629e-02\n", - " Region: \"zone_3\"\tRelError: 1.71025e+00\tAbsError: 8.98276e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.02419e-01\tAbsError: 5.08161e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.02408e-01\tAbsError: 3.90114e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.05428e-01\tAbsError: 4.19629e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.72632e-01\tAbsError: 5.23306e+13\n", - " Region: \"zone_1\"\tRelError: 3.75087e-02\tAbsError: 1.08344e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.75087e-02\tAbsError: 1.08344e-02\n", - " Region: \"zone_3\"\tRelError: 4.35123e-01\tAbsError: 5.23306e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88539e-01\tAbsError: 2.52519e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.11733e-01\tAbsError: 2.70786e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.48516e-02\tAbsError: 1.08344e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.10506e+01\tAbsError: 9.40634e+15\n", - " Region: \"zone_1\"\tRelError: 9.32438e+00\tAbsError: 4.29338e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.32438e+00\tAbsError: 4.29338e-02\n", - " Region: \"zone_3\"\tRelError: 1.72626e+00\tAbsError: 9.40634e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09691e-01\tAbsError: 5.33144e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.09680e-01\tAbsError: 4.07489e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06894e-01\tAbsError: 4.29338e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.81693e+00\tAbsError: 3.69427e+14\n", - " Region: \"zone_1\"\tRelError: 2.39020e-01\tAbsError: 3.19525e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.39020e-01\tAbsError: 3.19525e-02\n", - " Region: \"zone_3\"\tRelError: 1.57791e+00\tAbsError: 3.69427e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.05098e-01\tAbsError: 1.92366e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.01312e-01\tAbsError: 1.77061e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.14993e-02\tAbsError: 3.19525e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.77778e-04\tAbsError: 4.11734e+10\n", - " Region: \"zone_1\"\tRelError: 2.64497e-05\tAbsError: 2.72288e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.64497e-05\tAbsError: 2.72288e-07\n", - " Region: \"zone_3\"\tRelError: 1.51329e-04\tAbsError: 4.11734e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.47345e-04\tAbsError: 2.82922e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.54557e-06\tAbsError: 1.28813e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43781e-06\tAbsError: 2.89039e-07\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.11582e-01\tAbsError: 8.77074e+12\n", - " Region: \"zone_1\"\tRelError: 5.05586e-03\tAbsError: 5.73412e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.05586e-03\tAbsError: 5.73412e-05\n", - " Region: \"zone_3\"\tRelError: 1.06526e-01\tAbsError: 8.77074e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.02463e-01\tAbsError: 4.39984e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.81050e-03\tAbsError: 4.37090e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.53363e-04\tAbsError: 6.35227e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.87556e+01\tAbsError: 8.34767e+15\n", - " Region: \"zone_1\"\tRelError: 6.70313e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.70313e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.72426e+00\tAbsError: 8.34767e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94570e-01\tAbsError: 4.96926e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94551e-01\tAbsError: 3.37841e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35138e-01\tAbsError: 4.09542e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.26294e+00\tAbsError: 4.04710e+14\n", - " Region: \"zone_1\"\tRelError: 6.55990e-01\tAbsError: 3.31000e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.55990e-01\tAbsError: 3.31000e-02\n", - " Region: \"zone_3\"\tRelError: 1.60695e+00\tAbsError: 4.04710e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.17961e-01\tAbsError: 2.13363e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.14153e-01\tAbsError: 1.91347e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.48377e-02\tAbsError: 3.31000e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.16790e+00\tAbsError: 3.16667e+13\n", - " Region: \"zone_1\"\tRelError: 5.44268e-02\tAbsError: 2.58977e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.44268e-02\tAbsError: 2.58977e-02\n", - " Region: \"zone_3\"\tRelError: 1.11347e+00\tAbsError: 3.16667e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38800e-01\tAbsError: 2.02461e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.20184e-01\tAbsError: 1.14205e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.44904e-02\tAbsError: 2.58987e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.06505e-10\tAbsError: 5.44918e+04\n", - " Region: \"zone_1\"\tRelError: 2.76262e-11\tAbsError: 2.68307e-13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.76262e-11\tAbsError: 2.68307e-13\n", - " Region: \"zone_3\"\tRelError: 1.78879e-10\tAbsError: 5.44918e+04\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.71769e-10\tAbsError: 3.00849e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.70882e-12\tAbsError: 2.44069e+04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40078e-12\tAbsError: 2.79942e-13\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:35\u001b[0m.\u001b[1;36m212\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.7000000000000001\u001b[0m\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.29405e-04\tAbsError: 7.84013e+09\n", - " Region: \"zone_1\"\tRelError: 6.03171e-06\tAbsError: 7.09418e-08\n", - " Equation: \"PotentialEquation\"\tRelError: 6.03171e-06\tAbsError: 7.09418e-08\n", - " Region: \"zone_3\"\tRelError: 1.23373e-04\tAbsError: 7.84013e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.19968e-04\tAbsError: 5.39909e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.09006e-06\tAbsError: 2.44103e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.14964e-07\tAbsError: 7.84794e-08\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.18244e+00\tAbsError: 3.45808e+14\n", - " Region: \"zone_1\"\tRelError: 5.95786e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95786e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.58666e+00\tAbsError: 3.45808e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91491e-01\tAbsError: 2.56450e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.87672e-01\tAbsError: 8.93573e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07491e-01\tAbsError: 3.07632e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.24212e+00\tAbsError: 3.49826e+13\n", - " Region: \"zone_1\"\tRelError: 7.44892e-02\tAbsError: 2.58685e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.44892e-02\tAbsError: 2.58685e-02\n", - " Region: \"zone_3\"\tRelError: 1.16763e+00\tAbsError: 3.49826e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.61171e-01\tAbsError: 2.23843e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.49557e-01\tAbsError: 1.25983e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.68989e-02\tAbsError: 2.58685e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.16139e-01\tAbsError: 2.41248e+12\n", - " Region: \"zone_1\"\tRelError: 1.94138e-02\tAbsError: 1.06615e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.94138e-02\tAbsError: 1.06615e-02\n", - " Region: \"zone_3\"\tRelError: 3.96725e-01\tAbsError: 2.41248e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.89038e-01\tAbsError: 1.30547e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.80237e-02\tAbsError: 1.10701e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.96629e-02\tAbsError: 1.06615e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.44758e-10\tAbsError: 3.08183e+04\n", - " Region: \"zone_1\"\tRelError: 5.02762e-12\tAbsError: 6.09584e-14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.02762e-12\tAbsError: 6.09584e-14\n", - " Region: \"zone_3\"\tRelError: 1.39731e-10\tAbsError: 3.08183e+04\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.36093e-10\tAbsError: 1.55261e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.36741e-12\tAbsError: 1.52922e+04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.69928e-13\tAbsError: 6.69430e-14\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.19247e+00\tAbsError: 8.54805e+13\n", - " Region: \"zone_1\"\tRelError: 9.12229e-02\tAbsError: 2.58978e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.12229e-02\tAbsError: 2.58978e-02\n", - " Region: \"zone_3\"\tRelError: 1.10125e+00\tAbsError: 8.54805e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.14822e-01\tAbsError: 5.48784e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.98551e-01\tAbsError: 3.06021e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.78742e-02\tAbsError: 2.58989e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:35\u001b[0m.\u001b[1;36m811\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:35\u001b[0m.\u001b[1;36m811\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6277777777777779\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.22389e+00\tAbsError: 8.51989e+15\n", - " Region: \"zone_1\"\tRelError: 5.41698e+00\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.41698e+00\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.80691e+00\tAbsError: 8.51989e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94484e-01\tAbsError: 4.63675e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94370e-01\tAbsError: 3.88315e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.18056e-01\tAbsError: 4.09542e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.74278e-01\tAbsError: 2.59384e+12\n", - " Region: \"zone_1\"\tRelError: 2.28487e-02\tAbsError: 1.22654e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.28487e-02\tAbsError: 1.22654e-02\n", - " Region: \"zone_3\"\tRelError: 4.51429e-01\tAbsError: 2.59384e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.16516e-01\tAbsError: 1.52691e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.11789e-01\tAbsError: 1.06693e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.31245e-02\tAbsError: 1.22654e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.01451e-01\tAbsError: 1.52289e+11\n", - " Region: \"zone_1\"\tRelError: 8.04598e-05\tAbsError: 1.28794e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.04598e-05\tAbsError: 1.28794e-06\n", - " Region: \"zone_3\"\tRelError: 1.01371e-01\tAbsError: 1.52289e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01221e-01\tAbsError: 6.25880e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.46825e-04\tAbsError: 8.97009e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.96577e-06\tAbsError: 1.36312e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.52183e-01\tAbsError: 2.83225e+13\n", - " Region: \"zone_1\"\tRelError: 5.95279e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95279e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 3.92655e-01\tAbsError: 2.83225e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.85164e-01\tAbsError: 1.34603e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.99920e-02\tAbsError: 1.48622e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.74993e-02\tAbsError: 9.16534e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.89109e+00\tAbsError: 5.48219e+15\n", - " Region: \"zone_1\"\tRelError: 2.49390e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49390e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.64170e+00\tAbsError: 5.48219e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90716e-01\tAbsError: 2.59543e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.66285e-01\tAbsError: 2.88675e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.84697e-01\tAbsError: 3.07632e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.19005e-01\tAbsError: 5.46470e+11\n", - " Region: \"zone_1\"\tRelError: 5.19598e-04\tAbsError: 3.00981e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.19598e-04\tAbsError: 3.00981e-06\n", - " Region: \"zone_3\"\tRelError: 1.18486e-01\tAbsError: 5.46470e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.18069e-01\tAbsError: 1.59389e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.09405e-04\tAbsError: 3.87081e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 7.48302e-06\tAbsError: 3.25953e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.30106e-06\tAbsError: 3.61693e+05\n", - " Region: \"zone_1\"\tRelError: 1.77604e-11\tAbsError: 1.24341e-12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77604e-11\tAbsError: 1.24341e-12\n", - " Region: \"zone_3\"\tRelError: 3.30104e-06\tAbsError: 3.61693e+05\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.29735e-06\tAbsError: 3.78118e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.68160e-09\tAbsError: 3.23881e+05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.70978e-12\tAbsError: 1.30380e-12\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 4.24195e+02\tAbsError: 8.77870e+15\n", - " Region: \"zone_1\"\tRelError: 4.22411e+02\tAbsError: 4.20726e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.22411e+02\tAbsError: 4.20726e-02\n", - " Region: \"zone_3\"\tRelError: 1.78400e+00\tAbsError: 8.77870e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.03241e-01\tAbsError: 5.19271e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.03196e-01\tAbsError: 3.58599e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77564e-01\tAbsError: 4.20726e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:36\u001b[0m.\u001b[1;36m577\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:36\u001b[0m.\u001b[1;36m577\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.4149999999999999\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Iteration: 4\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 9.52644e-02\tAbsError: 2.55837e+12\n", - " Region: \"zone_1\"\tRelError: 7.16041e-03\tAbsError: 2.30338e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.16041e-03\tAbsError: 2.30338e-05\n", - " Region: \"zone_3\"\tRelError: 8.81040e-02\tAbsError: 2.55837e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.71797e-02\tAbsError: 1.35830e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.38768e-04\tAbsError: 1.20006e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.54583e-05\tAbsError: 2.40500e-05\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.28809e+00\tAbsError: 4.35524e+15\n", - " Region: \"zone_1\"\tRelError: 1.47109e-01\tAbsError: 2.58916e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.47109e-01\tAbsError: 2.58916e-02\n", - " Region: \"zone_3\"\tRelError: 1.14098e+00\tAbsError: 4.35524e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.22693e-01\tAbsError: 2.04103e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.66769e-01\tAbsError: 2.31421e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51518e-01\tAbsError: 2.53379e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 8.63620e-06\tAbsError: 2.24160e+06\n", - " Region: \"zone_1\"\tRelError: 2.53878e-09\tAbsError: 2.37681e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.53878e-09\tAbsError: 2.37681e-11\n", - " Region: \"zone_3\"\tRelError: 8.63366e-06\tAbsError: 2.24160e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.60416e-06\tAbsError: 5.89307e+05\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.94484e-08\tAbsError: 1.65229e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.35025e-11\tAbsError: 2.45711e-11\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:36\u001b[0m.\u001b[1;36m928\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:36\u001b[0m.\u001b[1;36m928\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.42999999999999994\u001b[0m \n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.61293e+00\tAbsError: 1.51368e+15\n", - " Region: \"zone_1\"\tRelError: 9.64682e-01\tAbsError: 3.20820e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.64682e-01\tAbsError: 3.20820e-02\n", - " Region: \"zone_3\"\tRelError: 1.64825e+00\tAbsError: 1.51368e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.07584e-01\tAbsError: 8.60067e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.95031e-01\tAbsError: 6.53616e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.45637e-01\tAbsError: 3.20820e-02\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.58292e-05\tAbsError: 4.59514e+08\n", - " Region: \"zone_1\"\tRelError: 9.81723e-07\tAbsError: 3.18909e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 9.81723e-07\tAbsError: 3.18909e-09\n", - " Region: \"zone_3\"\tRelError: 3.48474e-05\tAbsError: 4.59514e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.45053e-05\tAbsError: 3.33895e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.30263e-07\tAbsError: 1.25619e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18628e-08\tAbsError: 3.31754e-09\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:37\u001b[0m.\u001b[1;36m097\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.6\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 4.25664e+00\tAbsError: 8.86308e+15\n", - " Region: \"zone_1\"\tRelError: 2.53325e+00\tAbsError: 4.19629e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.53325e+00\tAbsError: 4.19629e-02\n", - " Region: \"zone_3\"\tRelError: 1.72338e+00\tAbsError: 8.86308e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.02421e-01\tAbsError: 5.17844e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.02407e-01\tAbsError: 3.68465e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18556e-01\tAbsError: 4.19629e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.61364e-01\tAbsError: 1.56107e+15\n", - " Region: \"zone_1\"\tRelError: 1.02187e-01\tAbsError: 9.16531e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02187e-01\tAbsError: 9.16531e-03\n", - " Region: \"zone_3\"\tRelError: 4.59177e-01\tAbsError: 1.56107e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52513e-01\tAbsError: 8.30423e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.62306e-01\tAbsError: 7.30643e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.43577e-02\tAbsError: 9.16534e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.63185e+00\tAbsError: 1.07904e+15\n", - " Region: \"zone_1\"\tRelError: 4.48144e-01\tAbsError: 2.58591e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.48144e-01\tAbsError: 2.58591e-02\n", - " Region: \"zone_3\"\tRelError: 1.18371e+00\tAbsError: 1.07904e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.44602e-01\tAbsError: 4.79426e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.04977e-01\tAbsError: 5.99614e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.34128e-01\tAbsError: 2.56444e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 4.57466e+00\tAbsError: 9.26788e+15\n", - " Region: \"zone_1\"\tRelError: 2.82864e+00\tAbsError: 4.29338e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.82864e+00\tAbsError: 4.29338e-02\n", - " Region: \"zone_3\"\tRelError: 1.74602e+00\tAbsError: 9.26788e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09693e-01\tAbsError: 5.42632e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.09679e-01\tAbsError: 3.84156e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.26649e-01\tAbsError: 4.29338e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.69296e+00\tAbsError: 3.61186e+14\n", - " Region: \"zone_1\"\tRelError: 9.62143e-02\tAbsError: 3.19525e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.62143e-02\tAbsError: 3.19525e-02\n", - " Region: \"zone_3\"\tRelError: 1.59674e+00\tAbsError: 3.61186e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.05187e-01\tAbsError: 2.25213e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.01705e-01\tAbsError: 1.35974e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.98519e-02\tAbsError: 3.19525e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.02751e-01\tAbsError: 2.88406e+14\n", - " Region: \"zone_1\"\tRelError: 3.60577e-03\tAbsError: 2.29628e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.60577e-03\tAbsError: 2.29628e-04\n", - " Region: \"zone_3\"\tRelError: 9.91456e-02\tAbsError: 2.88406e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.45252e-02\tAbsError: 1.12757e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.29594e-02\tAbsError: 1.75650e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66104e-03\tAbsError: 2.42032e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.45236e+01\tAbsError: 8.31884e+15\n", - " Region: \"zone_1\"\tRelError: 1.27753e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.27753e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.74827e+00\tAbsError: 8.31884e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94561e-01\tAbsError: 4.96691e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94525e-01\tAbsError: 3.35193e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.59186e-01\tAbsError: 4.09542e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.37855e-01\tAbsError: 5.10221e+14\n", - " Region: \"zone_1\"\tRelError: 4.41958e-02\tAbsError: 1.08344e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.41958e-02\tAbsError: 1.08344e-02\n", - " Region: \"zone_3\"\tRelError: 4.93659e-01\tAbsError: 5.10221e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.87521e-01\tAbsError: 2.44419e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.60651e-01\tAbsError: 2.65802e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.54875e-02\tAbsError: 1.08344e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.73313e+00\tAbsError: 3.96589e+14\n", - " Region: \"zone_1\"\tRelError: 1.05624e-01\tAbsError: 3.31000e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.05624e-01\tAbsError: 3.31000e-02\n", - " Region: \"zone_3\"\tRelError: 1.62751e+00\tAbsError: 3.96589e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.17540e-01\tAbsError: 2.53211e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.15147e-01\tAbsError: 1.43378e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.48212e-02\tAbsError: 3.31000e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.20232e+00\tAbsError: 4.82858e+13\n", - " Region: \"zone_1\"\tRelError: 7.00808e-02\tAbsError: 2.58538e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.00808e-02\tAbsError: 2.58538e-02\n", - " Region: \"zone_3\"\tRelError: 1.13224e+00\tAbsError: 4.82858e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38719e-01\tAbsError: 3.53290e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.23098e-01\tAbsError: 1.29568e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.04208e-02\tAbsError: 2.58937e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.04675e-04\tAbsError: 3.04021e+11\n", - " Region: \"zone_1\"\tRelError: 6.05493e-06\tAbsError: 5.20454e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 6.05493e-06\tAbsError: 5.20454e-07\n", - " Region: \"zone_3\"\tRelError: 2.98620e-04\tAbsError: 3.04021e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.67672e-04\tAbsError: 1.93910e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.70905e-05\tAbsError: 1.10111e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.85729e-06\tAbsError: 5.51479e-07\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.91465e+00\tAbsError: 8.82588e+14\n", - " Region: \"zone_1\"\tRelError: 3.03324e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.03324e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.61133e+00\tAbsError: 8.82588e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91758e-01\tAbsError: 5.05615e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.83634e-01\tAbsError: 3.76973e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35939e-01\tAbsError: 3.07632e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.46514e-01\tAbsError: 1.03219e+14\n", - " Region: \"zone_1\"\tRelError: 3.43169e-02\tAbsError: 3.16852e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.43169e-02\tAbsError: 3.16852e-04\n", - " Region: \"zone_3\"\tRelError: 1.12197e-01\tAbsError: 1.03219e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.55228e-02\tAbsError: 5.87205e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.49125e-02\tAbsError: 4.44984e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.76215e-03\tAbsError: 3.21983e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.26176e+00\tAbsError: 6.17820e+13\n", - " Region: \"zone_1\"\tRelError: 7.36238e-02\tAbsError: 2.56439e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.36238e-02\tAbsError: 2.56439e-02\n", - " Region: \"zone_3\"\tRelError: 1.18814e+00\tAbsError: 6.17820e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.61240e-01\tAbsError: 4.55005e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.51872e-01\tAbsError: 1.62815e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.50269e-02\tAbsError: 2.58894e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.27072e-01\tAbsError: 5.50903e+12\n", - " Region: \"zone_1\"\tRelError: 2.49046e-02\tAbsError: 1.06615e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49046e-02\tAbsError: 1.06615e-02\n", - " Region: \"zone_3\"\tRelError: 4.02167e-01\tAbsError: 5.50903e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.88687e-01\tAbsError: 1.84640e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.83541e-02\tAbsError: 3.66263e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.51259e-02\tAbsError: 1.06615e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.59434e-10\tAbsError: 1.22832e+06\n", - " Region: \"zone_1\"\tRelError: 9.68844e-11\tAbsError: 2.65442e-12\n", - " Equation: \"PotentialEquation\"\tRelError: 9.68844e-11\tAbsError: 2.65442e-12\n", - " Region: \"zone_3\"\tRelError: 6.62549e-10\tAbsError: 1.22832e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38517e-10\tAbsError: 7.28670e+05\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03771e-10\tAbsError: 4.99651e+05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.02616e-11\tAbsError: 2.83300e-12\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.35346e-04\tAbsError: 2.72676e+11\n", - " Region: \"zone_1\"\tRelError: 1.93851e-04\tAbsError: 1.56442e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.93851e-04\tAbsError: 1.56442e-06\n", - " Region: \"zone_3\"\tRelError: 3.41495e-04\tAbsError: 2.72676e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.13735e-04\tAbsError: 2.02047e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.87537e-05\tAbsError: 7.06297e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 9.00571e-06\tAbsError: 1.63938e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.34467e+00\tAbsError: 5.44154e+14\n", - " Region: \"zone_1\"\tRelError: 2.20632e-01\tAbsError: 2.58931e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20632e-01\tAbsError: 2.58931e-02\n", - " Region: \"zone_3\"\tRelError: 1.12404e+00\tAbsError: 5.44154e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.17234e-01\tAbsError: 2.66383e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.89208e-01\tAbsError: 2.77771e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17596e-01\tAbsError: 2.58999e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:38\u001b[0m.\u001b[1;36m705\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.8\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.89862e-01\tAbsError: 7.99664e+12\n", - " Region: \"zone_1\"\tRelError: 2.98842e-02\tAbsError: 1.22654e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.98842e-02\tAbsError: 1.22654e-02\n", - " Region: \"zone_3\"\tRelError: 4.59978e-01\tAbsError: 7.99664e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.16917e-01\tAbsError: 3.30963e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.12949e-01\tAbsError: 4.68701e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.01113e-02\tAbsError: 1.22654e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.02165e-01\tAbsError: 9.37234e+11\n", - " Region: \"zone_1\"\tRelError: 1.61822e-04\tAbsError: 7.03019e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.61822e-04\tAbsError: 7.03019e-06\n", - " Region: \"zone_3\"\tRelError: 1.02004e-01\tAbsError: 9.37234e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01441e-01\tAbsError: 3.65419e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.41199e-04\tAbsError: 5.71815e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.16745e-05\tAbsError: 7.56571e-06\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.57251e-09\tAbsError: 2.43009e+06\n", - " Region: \"zone_1\"\tRelError: 1.66994e-09\tAbsError: 1.30733e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66994e-09\tAbsError: 1.30733e-11\n", - " Region: \"zone_3\"\tRelError: 2.90256e-09\tAbsError: 2.43009e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.50630e-09\tAbsError: 1.47608e+06\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.18993e-10\tAbsError: 9.54012e+05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.72705e-11\tAbsError: 1.40492e-11\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.58303e-01\tAbsError: 2.58889e+14\n", - " Region: \"zone_1\"\tRelError: 3.50075e-02\tAbsError: 9.16532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.50075e-02\tAbsError: 9.16532e-03\n", - " Region: \"zone_3\"\tRelError: 4.23296e-01\tAbsError: 2.58889e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.70968e-01\tAbsError: 1.16796e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.16540e-01\tAbsError: 1.42093e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.57873e-02\tAbsError: 9.16534e-03\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:39\u001b[0m.\u001b[1;36m168\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:39\u001b[0m.\u001b[1;36m168\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7333333333333334\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.19535e-01\tAbsError: 7.67511e+11\n", - " Region: \"zone_1\"\tRelError: 1.02132e-04\tAbsError: 6.40339e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02132e-04\tAbsError: 6.40339e-06\n", - " Region: \"zone_3\"\tRelError: 1.19432e-01\tAbsError: 7.67511e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.18713e-01\tAbsError: 3.47334e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.98127e-04\tAbsError: 4.20177e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.17746e-05\tAbsError: 7.06173e-06\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.06248e+01\tAbsError: 3.16044e+16\n", - " Region: \"zone_1\"\tRelError: 1.87257e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87257e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.89912e+00\tAbsError: 3.16044e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.93746e-01\tAbsError: 1.57387e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.93249e-01\tAbsError: 1.58657e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.12130e-01\tAbsError: 4.09543e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.56445e-05\tAbsError: 1.51528e+07\n", - " Region: \"zone_1\"\tRelError: 1.06669e-09\tAbsError: 8.91987e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06669e-09\tAbsError: 8.91987e-11\n", - " Region: \"zone_3\"\tRelError: 1.56435e-05\tAbsError: 1.51528e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.55486e-05\tAbsError: 6.58261e+06\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.46298e-08\tAbsError: 8.57017e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.39891e-10\tAbsError: 8.97859e-11\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:39\u001b[0m.\u001b[1;36m454\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:39\u001b[0m.\u001b[1;36m454\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5199999999999999\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.06225e-01\tAbsError: 3.99157e+13\n", - " Region: \"zone_1\"\tRelError: 1.41229e-02\tAbsError: 1.62376e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.41229e-02\tAbsError: 1.62376e-04\n", - " Region: \"zone_3\"\tRelError: 9.21025e-02\tAbsError: 3.99157e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.51238e-02\tAbsError: 2.25076e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.14819e-03\tAbsError: 1.74081e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.30563e-04\tAbsError: 1.67642e-04\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.39115e-05\tAbsError: 3.56195e+07\n", - " Region: \"zone_1\"\tRelError: 4.59619e-09\tAbsError: 3.23674e-10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.59619e-09\tAbsError: 3.23674e-10\n", - " Region: \"zone_3\"\tRelError: 1.39069e-05\tAbsError: 3.56195e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.38108e-05\tAbsError: 1.93540e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.49639e-08\tAbsError: 1.62655e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15594e-09\tAbsError: 3.70759e-10\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.45748e+00\tAbsError: 3.69441e+16\n", - " Region: \"zone_1\"\tRelError: 4.13331e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.13331e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 2.04415e+00\tAbsError: 3.69441e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.88321e-01\tAbsError: 1.86445e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.52684e-01\tAbsError: 1.82996e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.03145e-01\tAbsError: 3.07632e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:39\u001b[0m.\u001b[1;36m779\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.5399999999999999\u001b[0m\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.85767e+01\tAbsError: 9.53342e+15\n", - " Region: \"zone_1\"\tRelError: 7.67234e+01\tAbsError: 4.20726e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.67234e+01\tAbsError: 4.20726e-02\n", - " Region: \"zone_3\"\tRelError: 1.85327e+00\tAbsError: 9.53342e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.03095e-01\tAbsError: 5.14999e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.02942e-01\tAbsError: 4.38343e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.47235e-01\tAbsError: 4.20726e-02\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.77778e-04\tAbsError: 4.11734e+10\n", - " Region: \"zone_1\"\tRelError: 2.64497e-05\tAbsError: 2.72288e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.64497e-05\tAbsError: 2.72288e-07\n", - " Region: \"zone_3\"\tRelError: 1.51329e-04\tAbsError: 4.11734e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.47345e-04\tAbsError: 2.82922e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.54557e-06\tAbsError: 1.28813e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43781e-06\tAbsError: 2.89039e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.35778e+01\tAbsError: 8.76184e+15\n", - " Region: \"zone_1\"\tRelError: 2.18316e+01\tAbsError: 4.19629e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.18316e+01\tAbsError: 4.19629e-02\n", - " Region: \"zone_3\"\tRelError: 1.74625e+00\tAbsError: 8.76184e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.02419e-01\tAbsError: 5.23127e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.02400e-01\tAbsError: 3.53057e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.41432e-01\tAbsError: 4.19629e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 4.80876e+00\tAbsError: 2.48392e+16\n", - " Region: \"zone_1\"\tRelError: 2.08564e-01\tAbsError: 2.58396e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.08564e-01\tAbsError: 2.58396e-02\n", - " Region: \"zone_3\"\tRelError: 4.60020e+00\tAbsError: 2.48392e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.12756e-01\tAbsError: 1.24031e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.61077e-01\tAbsError: 1.24362e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.62637e+00\tAbsError: 2.33304e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 5.04143e+00\tAbsError: 1.05556e+16\n", - " Region: \"zone_1\"\tRelError: 3.34872e+00\tAbsError: 3.20820e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.34872e+00\tAbsError: 3.20820e-02\n", - " Region: \"zone_3\"\tRelError: 1.69271e+00\tAbsError: 1.05556e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.05643e-01\tAbsError: 5.09390e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.77441e-01\tAbsError: 5.46173e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.09625e-01\tAbsError: 3.20820e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.06530e-10\tAbsError: 5.12697e+04\n", - " Region: \"zone_1\"\tRelError: 2.76520e-11\tAbsError: 2.68299e-13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.76520e-11\tAbsError: 2.68299e-13\n", - " Region: \"zone_3\"\tRelError: 1.78878e-10\tAbsError: 5.12697e+04\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.71768e-10\tAbsError: 3.00847e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.70892e-12\tAbsError: 2.11850e+04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40088e-12\tAbsError: 2.79933e-13\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:40\u001b[0m.\u001b[1;36m423\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.7000000000000001\u001b[0m\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.50411e+01\tAbsError: 9.17516e+15\n", - " Region: \"zone_1\"\tRelError: 2.32813e+01\tAbsError: 4.29338e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.32813e+01\tAbsError: 4.29338e-02\n", - " Region: \"zone_3\"\tRelError: 1.75981e+00\tAbsError: 9.17516e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09690e-01\tAbsError: 5.49119e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.09670e-01\tAbsError: 3.68397e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40449e-01\tAbsError: 4.29338e-02\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.80496e+00\tAbsError: 4.20326e+14\n", - " Region: \"zone_1\"\tRelError: 1.83409e-01\tAbsError: 3.19525e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.83409e-01\tAbsError: 3.19525e-02\n", - " Region: \"zone_3\"\tRelError: 1.62155e+00\tAbsError: 4.20326e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.05409e-01\tAbsError: 3.06370e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.01733e-01\tAbsError: 1.13956e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14413e-01\tAbsError: 3.19525e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.55071e+00\tAbsError: 8.48657e+15\n", - " Region: \"zone_1\"\tRelError: 8.11805e-01\tAbsError: 9.16529e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 8.11805e-01\tAbsError: 9.16529e-03\n", - " Region: \"zone_3\"\tRelError: 2.73890e+00\tAbsError: 8.48657e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.34197e-01\tAbsError: 4.50158e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.40806e-01\tAbsError: 3.98499e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.36390e+00\tAbsError: 9.16533e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.41161e+00\tAbsError: 8.47971e+15\n", - " Region: \"zone_1\"\tRelError: 1.80410e-01\tAbsError: 2.58842e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.80410e-01\tAbsError: 2.58842e-02\n", - " Region: \"zone_3\"\tRelError: 1.23120e+00\tAbsError: 8.47971e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.48016e-01\tAbsError: 4.18892e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.02777e-01\tAbsError: 4.29078e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.80410e-01\tAbsError: 2.57972e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.82843e+00\tAbsError: 4.96905e+14\n", - " Region: \"zone_1\"\tRelError: 1.74894e-01\tAbsError: 3.31000e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74894e-01\tAbsError: 3.31000e-02\n", - " Region: \"zone_3\"\tRelError: 1.65354e+00\tAbsError: 4.96905e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.18406e-01\tAbsError: 3.48442e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.14285e-01\tAbsError: 1.48463e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20848e-01\tAbsError: 3.31000e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.26282e+00\tAbsError: 1.16685e+14\n", - " Region: \"zone_1\"\tRelError: 9.53101e-02\tAbsError: 2.58525e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.53101e-02\tAbsError: 2.58525e-02\n", - " Region: \"zone_3\"\tRelError: 1.16751e+00\tAbsError: 1.16685e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.39099e-01\tAbsError: 6.97086e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.31203e-01\tAbsError: 4.69768e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.72093e-02\tAbsError: 2.58966e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 5.10055e-01\tAbsError: 1.79008e+15\n", - " Region: \"zone_1\"\tRelError: 7.10147e-02\tAbsError: 3.19256e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.10147e-02\tAbsError: 3.19256e-04\n", - " Region: \"zone_3\"\tRelError: 4.39040e-01\tAbsError: 1.79008e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39314e-02\tAbsError: 9.39738e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.81226e-02\tAbsError: 8.50345e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.56986e-01\tAbsError: 3.21663e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.22389e+00\tAbsError: 8.51989e+15\n", - " Region: \"zone_1\"\tRelError: 5.41698e+00\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.41698e+00\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.80691e+00\tAbsError: 8.51989e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94484e-01\tAbsError: 4.63675e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94370e-01\tAbsError: 3.88315e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.18056e-01\tAbsError: 4.09542e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.38247e+01\tAbsError: 3.42646e+15\n", - " Region: \"zone_1\"\tRelError: 1.33015e+01\tAbsError: 1.08344e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33015e+01\tAbsError: 1.08344e-02\n", - " Region: \"zone_3\"\tRelError: 5.23208e-01\tAbsError: 3.42646e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.74976e-01\tAbsError: 1.82876e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.89790e-01\tAbsError: 1.59771e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.84420e-02\tAbsError: 1.08344e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.37737e+00\tAbsError: 1.78105e+14\n", - " Region: \"zone_1\"\tRelError: 1.48634e-01\tAbsError: 2.57619e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.48634e-01\tAbsError: 2.57619e-02\n", - " Region: \"zone_3\"\tRelError: 1.22873e+00\tAbsError: 1.78105e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.61703e-01\tAbsError: 1.04558e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.61460e-01\tAbsError: 7.35471e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.05569e-01\tAbsError: 2.58968e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.33163e-03\tAbsError: 7.03544e+12\n", - " Region: \"zone_1\"\tRelError: 6.88994e-05\tAbsError: 8.74550e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 6.88994e-05\tAbsError: 8.74550e-07\n", - " Region: \"zone_3\"\tRelError: 1.26273e-03\tAbsError: 7.03544e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.78279e-04\tAbsError: 4.08452e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.87916e-05\tAbsError: 2.95092e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.95662e-04\tAbsError: 9.67670e-07\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.61927e-01\tAbsError: 4.92934e+13\n", - " Region: \"zone_1\"\tRelError: 3.38141e-02\tAbsError: 1.06615e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.38141e-02\tAbsError: 1.06615e-02\n", - " Region: \"zone_3\"\tRelError: 4.28113e-01\tAbsError: 4.92934e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.85411e-01\tAbsError: 2.38523e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.08645e-01\tAbsError: 2.54412e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.40579e-02\tAbsError: 1.06615e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.89109e+00\tAbsError: 5.48219e+15\n", - " Region: \"zone_1\"\tRelError: 2.49390e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49390e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 1.64170e+00\tAbsError: 5.48219e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90716e-01\tAbsError: 2.59543e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.66285e-01\tAbsError: 2.88675e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.84697e-01\tAbsError: 3.07632e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.00885e-01\tAbsError: 6.88542e+14\n", - " Region: \"zone_1\"\tRelError: 5.76573e-01\tAbsError: 3.18704e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.76573e-01\tAbsError: 3.18704e-04\n", - " Region: \"zone_3\"\tRelError: 1.24312e-01\tAbsError: 6.88542e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.82071e-02\tAbsError: 3.65909e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.96440e-02\tAbsError: 3.22633e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.46133e-03\tAbsError: 3.35790e-04\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.72011e-01\tAbsError: 8.49829e+13\n", - " Region: \"zone_1\"\tRelError: 7.44559e-02\tAbsError: 1.22654e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.44559e-02\tAbsError: 1.22654e-02\n", - " Region: \"zone_3\"\tRelError: 4.97555e-01\tAbsError: 8.49829e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.15246e-01\tAbsError: 4.00907e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.40638e-01\tAbsError: 4.48922e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.16711e-02\tAbsError: 1.22654e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.08779e-01\tAbsError: 7.86412e+12\n", - " Region: \"zone_1\"\tRelError: 3.94315e-03\tAbsError: 5.37617e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.94315e-03\tAbsError: 5.37617e-05\n", - " Region: \"zone_3\"\tRelError: 1.04836e-01\tAbsError: 7.86412e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01239e-01\tAbsError: 4.02502e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.36279e-03\tAbsError: 3.83909e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.34183e-04\tAbsError: 5.93697e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.48913e-08\tAbsError: 9.78087e+07\n", - " Region: \"zone_1\"\tRelError: 2.39366e-09\tAbsError: 9.98116e-12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.39366e-09\tAbsError: 9.98116e-12\n", - " Region: \"zone_3\"\tRelError: 1.24976e-08\tAbsError: 9.78087e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.82653e-09\tAbsError: 5.13414e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.35560e-10\tAbsError: 4.64672e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 9.13552e-09\tAbsError: 1.21236e-11\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:41\u001b[0m.\u001b[1;36m913\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.9\u001b[0m \n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.28809e+00\tAbsError: 4.35524e+15\n", - " Region: \"zone_1\"\tRelError: 1.47109e-01\tAbsError: 2.58916e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.47109e-01\tAbsError: 2.58916e-02\n", - " Region: \"zone_3\"\tRelError: 1.14098e+00\tAbsError: 4.35524e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.22693e-01\tAbsError: 2.04103e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.66769e-01\tAbsError: 2.31421e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51518e-01\tAbsError: 2.53379e-02\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 5\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 1.26639e-03\tAbsError: 1.63175e+12\n", - " Region: \"zone_1\"\tRelError: 8.28809e-04\tAbsError: 1.27507e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.28809e-04\tAbsError: 1.27507e-06\n", - " Region: \"zone_3\"\tRelError: 4.37586e-04\tAbsError: 1.63175e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.67912e-04\tAbsError: 1.10540e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.19952e-05\tAbsError: 5.26349e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.76786e-05\tAbsError: 1.38379e-06\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.35620e-01\tAbsError: 1.72712e+13\n", - " Region: \"zone_1\"\tRelError: 9.74579e-03\tAbsError: 1.05058e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.74579e-03\tAbsError: 1.05058e-04\n", - " Region: \"zone_3\"\tRelError: 1.25874e-01\tAbsError: 1.72712e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.17031e-01\tAbsError: 8.70382e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.35880e-03\tAbsError: 8.56740e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.84384e-04\tAbsError: 1.13804e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.12912e-04\tAbsError: 6.22497e+09\n", - " Region: \"zone_1\"\tRelError: 4.19318e-06\tAbsError: 5.80483e-08\n", - " Equation: \"PotentialEquation\"\tRelError: 4.19318e-06\tAbsError: 5.80483e-08\n", - " Region: \"zone_3\"\tRelError: 1.08718e-04\tAbsError: 6.22497e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.06088e-04\tAbsError: 4.32375e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.37301e-06\tAbsError: 1.90122e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.57558e-07\tAbsError: 6.47718e-08\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.61364e-01\tAbsError: 1.56107e+15\n", - " Region: \"zone_1\"\tRelError: 1.02187e-01\tAbsError: 9.16531e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02187e-01\tAbsError: 9.16531e-03\n", - " Region: \"zone_3\"\tRelError: 4.59177e-01\tAbsError: 1.56107e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52513e-01\tAbsError: 8.30423e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.62306e-01\tAbsError: 7.30643e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.43577e-02\tAbsError: 9.16534e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 5.38910e-08\tAbsError: 1.78449e+07\n", - " Region: \"zone_1\"\tRelError: 4.98436e-08\tAbsError: 7.02794e-12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.98436e-08\tAbsError: 7.02794e-12\n", - " Region: \"zone_3\"\tRelError: 4.04737e-09\tAbsError: 1.78449e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.41581e-09\tAbsError: 1.12628e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.67215e-10\tAbsError: 6.58204e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.64338e-10\tAbsError: 7.21610e-12\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:42\u001b[0m.\u001b[1;36m479\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:42\u001b[0m.\u001b[1;36m479\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.8388888888888889\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.15889e-04\tAbsError: 3.71681e+10\n", - " Region: \"zone_1\"\tRelError: 2.41579e-05\tAbsError: 2.90587e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.41579e-05\tAbsError: 2.90587e-07\n", - " Region: \"zone_3\"\tRelError: 2.91731e-04\tAbsError: 3.71681e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.74902e-04\tAbsError: 2.46870e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.54957e-05\tAbsError: 1.24811e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33364e-06\tAbsError: 3.11133e-07\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.19725e+01\tAbsError: 1.92958e+17\n", - " Region: \"zone_1\"\tRelError: 2.64183e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.64183e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 5.55416e+00\tAbsError: 1.92958e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86635e-01\tAbsError: 9.77277e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.83108e-01\tAbsError: 9.52302e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.98441e+00\tAbsError: 4.09542e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 9.68479e-11\tAbsError: 3.24994e+04\n", - " Region: \"zone_1\"\tRelError: 2.67602e-12\tAbsError: 3.81036e-14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.67602e-12\tAbsError: 3.81036e-14\n", - " Region: \"zone_3\"\tRelError: 9.41719e-11\tAbsError: 3.24994e+04\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.20056e-11\tAbsError: 1.65668e+04\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.99791e-12\tAbsError: 1.59326e+04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.68351e-13\tAbsError: 4.22123e-14\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.02751e-01\tAbsError: 2.88406e+14\n", - " Region: \"zone_1\"\tRelError: 3.60577e-03\tAbsError: 2.29628e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.60577e-03\tAbsError: 2.29628e-04\n", - " Region: \"zone_3\"\tRelError: 9.91456e-02\tAbsError: 2.88406e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.45252e-02\tAbsError: 1.12757e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.29594e-02\tAbsError: 1.75650e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66104e-03\tAbsError: 2.42032e-04\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:42\u001b[0m.\u001b[1;36m766\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:42\u001b[0m.\u001b[1;36m766\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6249999999999999\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.90381e-09\tAbsError: 2.12026e+05\n", - " Region: \"zone_1\"\tRelError: 1.00312e-10\tAbsError: 1.55136e-12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00312e-10\tAbsError: 1.55136e-12\n", - " Region: \"zone_3\"\tRelError: 1.80350e-09\tAbsError: 2.12026e+05\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.71088e-09\tAbsError: 1.50477e+05\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.62946e-11\tAbsError: 6.15487e+04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.32889e-12\tAbsError: 1.60667e-12\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:43\u001b[0m.\u001b[1;36m054\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.6499999999999999\u001b[0m\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 5.59678e+00\tAbsError: 2.20718e+17\n", - " Region: \"zone_1\"\tRelError: 8.54328e-01\tAbsError: 3.07631e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.54328e-01\tAbsError: 3.07631e-02\n", - " Region: \"zone_3\"\tRelError: 4.74245e+00\tAbsError: 2.20718e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.57165e-01\tAbsError: 1.09369e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.88364e-01\tAbsError: 1.11350e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 3.39692e+00\tAbsError: 3.07632e-02\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.44083e+02\tAbsError: 6.23143e+16\n", - " Region: \"zone_1\"\tRelError: 1.41746e+02\tAbsError: 4.20726e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.41746e+02\tAbsError: 4.20726e-02\n", - " Region: \"zone_3\"\tRelError: 2.33769e+00\tAbsError: 6.23143e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.01593e-01\tAbsError: 3.10038e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.00688e-01\tAbsError: 3.13105e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 7.35405e-01\tAbsError: 4.20726e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.04675e-04\tAbsError: 3.04021e+11\n", - " Region: \"zone_1\"\tRelError: 6.05493e-06\tAbsError: 5.20454e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 6.05493e-06\tAbsError: 5.20454e-07\n", - " Region: \"zone_3\"\tRelError: 2.98620e-04\tAbsError: 3.04021e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.67672e-04\tAbsError: 1.93910e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.70905e-05\tAbsError: 1.10111e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.85729e-06\tAbsError: 5.51479e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.95055e+01\tAbsError: 8.73225e+15\n", - " Region: \"zone_1\"\tRelError: 3.77251e+01\tAbsError: 4.19629e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.77251e+01\tAbsError: 4.19629e-02\n", - " Region: \"zone_3\"\tRelError: 1.78043e+00\tAbsError: 8.73225e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.02406e-01\tAbsError: 5.17151e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.02362e-01\tAbsError: 3.56074e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.75661e-01\tAbsError: 4.19629e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 3.40459e+00\tAbsError: 1.40151e+17\n", - " Region: \"zone_1\"\tRelError: 9.91077e-01\tAbsError: 2.58298e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.91077e-01\tAbsError: 2.58298e-02\n", - " Region: \"zone_3\"\tRelError: 2.41351e+00\tAbsError: 1.40151e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.12962e-01\tAbsError: 7.03247e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.20637e-01\tAbsError: 6.98261e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.67991e+00\tAbsError: 2.58976e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 4.98434e+00\tAbsError: 7.37896e+16\n", - " Region: \"zone_1\"\tRelError: 1.81427e+00\tAbsError: 3.20820e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.81427e+00\tAbsError: 3.20820e-02\n", - " Region: \"zone_3\"\tRelError: 3.17007e+00\tAbsError: 7.37896e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.99909e-01\tAbsError: 3.77060e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.60109e-01\tAbsError: 3.60836e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.71005e+00\tAbsError: 3.20820e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.59422e-10\tAbsError: 1.22833e+06\n", - " Region: \"zone_1\"\tRelError: 9.68713e-11\tAbsError: 2.65442e-12\n", - " Equation: \"PotentialEquation\"\tRelError: 9.68713e-11\tAbsError: 2.65442e-12\n", - " Region: \"zone_3\"\tRelError: 6.62551e-10\tAbsError: 1.22833e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38518e-10\tAbsError: 7.28673e+05\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03771e-10\tAbsError: 4.99655e+05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.02615e-11\tAbsError: 2.83299e-12\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.04122e+01\tAbsError: 9.15719e+15\n", - " Region: \"zone_1\"\tRelError: 5.85997e+01\tAbsError: 4.29338e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.85997e+01\tAbsError: 4.29338e-02\n", - " Region: \"zone_3\"\tRelError: 1.81249e+00\tAbsError: 9.15719e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09671e-01\tAbsError: 5.35064e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.09616e-01\tAbsError: 3.80655e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.93207e-01\tAbsError: 4.29338e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:43\u001b[0m.\u001b[1;36m703\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.8\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.49752e+00\tAbsError: 1.43728e+15\n", - " Region: \"zone_1\"\tRelError: 8.52793e-01\tAbsError: 3.19525e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.52793e-01\tAbsError: 3.19525e-02\n", - " Region: \"zone_3\"\tRelError: 1.64473e+00\tAbsError: 1.43728e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.06123e-01\tAbsError: 8.18697e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.93926e-01\tAbsError: 6.18581e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.44679e-01\tAbsError: 3.19525e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.15760e+00\tAbsError: 3.46533e+16\n", - " Region: \"zone_1\"\tRelError: 4.44487e-01\tAbsError: 9.16511e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 4.44487e-01\tAbsError: 9.16511e-03\n", - " Region: \"zone_3\"\tRelError: 7.13113e-01\tAbsError: 3.46533e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34412e-01\tAbsError: 1.73980e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.38070e-02\tAbsError: 1.72552e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 5.24894e-01\tAbsError: 9.16533e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.12855e+01\tAbsError: 4.98281e+16\n", - " Region: \"zone_1\"\tRelError: 8.25173e+00\tAbsError: 2.57970e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.25173e+00\tAbsError: 2.57970e-02\n", - " Region: \"zone_3\"\tRelError: 3.03375e+00\tAbsError: 4.98281e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.24699e-01\tAbsError: 2.52260e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.64645e-01\tAbsError: 2.46021e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.04441e+00\tAbsError: 2.57091e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.66737e+00\tAbsError: 2.26108e+15\n", - " Region: \"zone_1\"\tRelError: 9.89112e-01\tAbsError: 3.31000e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.89112e-01\tAbsError: 3.31000e-02\n", - " Region: \"zone_3\"\tRelError: 1.67826e+00\tAbsError: 2.26108e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.18687e-01\tAbsError: 1.24573e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.03123e-01\tAbsError: 1.01535e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.56453e-01\tAbsError: 3.31000e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.85026e+00\tAbsError: 1.00498e+15\n", - " Region: \"zone_1\"\tRelError: 6.71376e-01\tAbsError: 2.56697e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.71376e-01\tAbsError: 2.56697e-02\n", - " Region: \"zone_3\"\tRelError: 1.17888e+00\tAbsError: 1.00498e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.41919e-01\tAbsError: 4.48768e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.04352e-01\tAbsError: 5.56214e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.32610e-01\tAbsError: 2.56412e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 5.74119e-02\tAbsError: 3.00253e+15\n", - " Region: \"zone_1\"\tRelError: 1.72667e-02\tAbsError: 6.21206e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72667e-02\tAbsError: 6.21206e-05\n", - " Region: \"zone_3\"\tRelError: 4.01452e-02\tAbsError: 3.00253e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.04052e-02\tAbsError: 1.53972e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.58359e-03\tAbsError: 1.46281e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.81563e-02\tAbsError: 6.25380e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.72164e+01\tAbsError: 2.27463e+16\n", - " Region: \"zone_1\"\tRelError: 1.85589e+00\tAbsError: 1.08343e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.85589e+00\tAbsError: 1.08343e-02\n", - " Region: \"zone_3\"\tRelError: 2.53605e+01\tAbsError: 2.27463e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.43070e-01\tAbsError: 1.22773e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.41963e-01\tAbsError: 1.04689e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49755e+01\tAbsError: 1.08344e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.06248e+01\tAbsError: 3.16044e+16\n", - " Region: \"zone_1\"\tRelError: 1.87257e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87257e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 1.89912e+00\tAbsError: 3.16044e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.93746e-01\tAbsError: 1.57387e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.93249e-01\tAbsError: 1.58657e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.12130e-01\tAbsError: 4.09543e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.57562e+00\tAbsError: 1.85067e+15\n", - " Region: \"zone_1\"\tRelError: 3.48899e-01\tAbsError: 2.58724e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.48899e-01\tAbsError: 2.58724e-02\n", - " Region: \"zone_3\"\tRelError: 1.22672e+00\tAbsError: 1.85067e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.65203e-01\tAbsError: 7.94760e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.14656e-01\tAbsError: 1.05591e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.46858e-01\tAbsError: 2.56646e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.27711e-01\tAbsError: 4.77267e+14\n", - " Region: \"zone_1\"\tRelError: 4.31745e-02\tAbsError: 1.06614e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.31745e-02\tAbsError: 1.06614e-02\n", - " Region: \"zone_3\"\tRelError: 4.84536e-01\tAbsError: 4.77267e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.84030e-01\tAbsError: 2.26718e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.56062e-01\tAbsError: 2.50549e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.44447e-02\tAbsError: 1.06615e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.14148e-05\tAbsError: 7.36262e+11\n", - " Region: \"zone_1\"\tRelError: 4.55231e-07\tAbsError: 9.54534e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 4.55231e-07\tAbsError: 9.54534e-09\n", - " Region: \"zone_3\"\tRelError: 1.09596e-05\tAbsError: 7.36262e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.23017e-06\tAbsError: 3.79166e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.26674e-07\tAbsError: 3.57096e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00275e-06\tAbsError: 1.00816e-08\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.53965e+00\tAbsError: 4.86692e+15\n", - " Region: \"zone_1\"\tRelError: 2.38392e-01\tAbsError: 4.52967e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.38392e-01\tAbsError: 4.52967e-04\n", - " Region: \"zone_3\"\tRelError: 1.30126e+00\tAbsError: 4.86692e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38553e-02\tAbsError: 2.62229e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.91289e-02\tAbsError: 2.24463e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21828e+00\tAbsError: 4.65426e-04\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:44\u001b[0m.\u001b[1;36m818\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 1.0\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Iteration: 1\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - " Device: \"device\"\tRelError: 2.45748e+00\tAbsError: 3.69441e+16\n", - " Region: \"zone_1\"\tRelError: 4.13331e-01\tAbsError: 3.07632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.13331e-01\tAbsError: 3.07632e-02\n", - " Region: \"zone_3\"\tRelError: 2.04415e+00\tAbsError: 3.69441e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.88321e-01\tAbsError: 1.86445e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.52684e-01\tAbsError: 1.82996e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.03145e-01\tAbsError: 3.07632e-02\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 6.62870e-01\tAbsError: 8.58491e+14\n", - " Region: \"zone_1\"\tRelError: 9.69362e-02\tAbsError: 1.22653e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.69362e-02\tAbsError: 1.22653e-02\n", - " Region: \"zone_3\"\tRelError: 5.65934e-01\tAbsError: 8.58491e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.14889e-01\tAbsError: 4.34973e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.96689e-01\tAbsError: 4.23518e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.43556e-02\tAbsError: 1.22654e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.57904e-01\tAbsError: 9.50853e+13\n", - " Region: \"zone_1\"\tRelError: 4.80473e-02\tAbsError: 3.01426e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.80473e-02\tAbsError: 3.01426e-04\n", - " Region: \"zone_3\"\tRelError: 1.09857e-01\tAbsError: 9.50853e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.42491e-02\tAbsError: 5.42455e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.39423e-02\tAbsError: 4.08397e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66512e-03\tAbsError: 3.07235e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.68644e-03\tAbsError: 3.48994e+13\n", - " Region: \"zone_1\"\tRelError: 5.21035e-04\tAbsError: 1.13321e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.21035e-04\tAbsError: 1.13321e-06\n", - " Region: \"zone_3\"\tRelError: 4.16540e-03\tAbsError: 3.48994e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.06545e-04\tAbsError: 1.84003e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.15394e-04\tAbsError: 1.64991e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.64346e-03\tAbsError: 1.18905e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 4.80876e+00\tAbsError: 2.48392e+16\n", - " Region: \"zone_1\"\tRelError: 2.08564e-01\tAbsError: 2.58396e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.08564e-01\tAbsError: 2.58396e-02\n", - " Region: \"zone_3\"\tRelError: 4.60020e+00\tAbsError: 2.48392e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.12756e-01\tAbsError: 1.24031e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.61077e-01\tAbsError: 1.24362e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.62637e+00\tAbsError: 2.33304e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.84400e-01\tAbsError: 1.84489e+14\n", - " Region: \"zone_1\"\tRelError: 5.08949e-02\tAbsError: 4.34577e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.08949e-02\tAbsError: 4.34577e-04\n", - " Region: \"zone_3\"\tRelError: 1.33505e-01\tAbsError: 1.84489e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07596e-01\tAbsError: 1.04840e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.33209e-02\tAbsError: 7.96491e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.58735e-03\tAbsError: 4.38742e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.46971e+03\tAbsError: 1.01752e+18\n", - " Region: \"zone_1\"\tRelError: 3.33693e+03\tAbsError: 4.09540e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.33693e+03\tAbsError: 4.09540e-02\n", - " Region: \"zone_3\"\tRelError: 1.32780e+02\tAbsError: 1.01752e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.36242e-01\tAbsError: 4.96799e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.16599e-01\tAbsError: 5.20717e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31327e+02\tAbsError: 4.09542e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.72801e-04\tAbsError: 2.36462e+11\n", - " Region: \"zone_1\"\tRelError: 2.51830e-04\tAbsError: 1.37797e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.51830e-04\tAbsError: 1.37797e-06\n", - " Region: \"zone_3\"\tRelError: 3.20970e-04\tAbsError: 2.36462e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.96882e-04\tAbsError: 1.74027e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.62102e-05\tAbsError: 6.24347e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.87814e-06\tAbsError: 1.44860e-06\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.18196e-08\tAbsError: 3.69718e+08\n", - " Region: \"zone_1\"\tRelError: 4.96905e-09\tAbsError: 3.01388e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.96905e-09\tAbsError: 3.01388e-11\n", - " Region: \"zone_3\"\tRelError: 3.68506e-08\tAbsError: 3.69718e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.36089e-09\tAbsError: 1.89656e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.03371e-10\tAbsError: 1.80062e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 3.27863e-08\tAbsError: 3.32598e-11\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:45\u001b[0m.\u001b[1;36m725\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:45\u001b[0m.\u001b[1;36m725\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.9444444444444445\u001b[0m \n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.55071e+00\tAbsError: 8.48657e+15\n", - " Region: \"zone_1\"\tRelError: 8.11805e-01\tAbsError: 9.16529e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 8.11805e-01\tAbsError: 9.16529e-03\n", - " Region: \"zone_3\"\tRelError: 2.73890e+00\tAbsError: 8.48657e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.34197e-01\tAbsError: 4.50158e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.40806e-01\tAbsError: 3.98499e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.36390e+00\tAbsError: 9.16533e-03\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 9.66432e-04\tAbsError: 7.61489e+11\n", - " Region: \"zone_1\"\tRelError: 4.42890e-04\tAbsError: 3.54702e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.42890e-04\tAbsError: 3.54702e-06\n", - " Region: \"zone_3\"\tRelError: 5.23542e-04\tAbsError: 7.61489e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.54885e-04\tAbsError: 5.60496e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.72654e-05\tAbsError: 2.00993e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.13918e-05\tAbsError: 3.60294e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 5.65180e+03\tAbsError: 5.72030e+17\n", - " Region: \"zone_1\"\tRelError: 4.78800e+03\tAbsError: 3.07628e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.78800e+03\tAbsError: 3.07628e-02\n", - " Region: \"zone_3\"\tRelError: 8.63794e+02\tAbsError: 5.72030e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.05958e-01\tAbsError: 2.86919e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.81098e-01\tAbsError: 2.85111e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 8.62807e+02\tAbsError: 3.07632e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.25906e-09\tAbsError: 1.82945e+06\n", - " Region: \"zone_1\"\tRelError: 1.87221e-09\tAbsError: 9.90777e-12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87221e-09\tAbsError: 9.90777e-12\n", - " Region: \"zone_3\"\tRelError: 2.38685e-09\tAbsError: 1.82945e+06\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.08433e-09\tAbsError: 1.11322e+06\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.44618e-10\tAbsError: 7.16226e+05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.79058e-11\tAbsError: 1.06265e-11\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:46\u001b[0m.\u001b[1;36m082\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:46\u001b[0m.\u001b[1;36m082\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7299999999999999\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 5.10055e-01\tAbsError: 1.79008e+15\n", - " Region: \"zone_1\"\tRelError: 7.10147e-02\tAbsError: 3.19256e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.10147e-02\tAbsError: 3.19256e-04\n", - " Region: \"zone_3\"\tRelError: 4.39040e-01\tAbsError: 1.79008e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39314e-02\tAbsError: 9.39738e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.81226e-02\tAbsError: 8.50345e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.56986e-01\tAbsError: 3.21663e-04\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.97260e-08\tAbsError: 1.61510e+07\n", - " Region: \"zone_1\"\tRelError: 9.39372e-09\tAbsError: 7.94516e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 9.39372e-09\tAbsError: 7.94516e-11\n", - " Region: \"zone_3\"\tRelError: 1.03323e-08\tAbsError: 1.61510e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.49613e-09\tAbsError: 1.01388e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.34197e-09\tAbsError: 6.01217e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.94202e-10\tAbsError: 8.30962e-11\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:46\u001b[0m.\u001b[1;36m350\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.7599999999999999\u001b[0m\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.88673e+01\tAbsError: 3.96845e+17\n", - " Region: \"zone_1\"\tRelError: 1.50825e+01\tAbsError: 4.20725e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.50825e+01\tAbsError: 4.20725e-02\n", - " Region: \"zone_3\"\tRelError: 1.37848e+01\tAbsError: 3.96845e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.84462e-01\tAbsError: 1.90025e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.77026e-01\tAbsError: 2.06820e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.22233e+01\tAbsError: 4.20726e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 4.89714e+02\tAbsError: 1.10434e+17\n", - " Region: \"zone_1\"\tRelError: 9.55845e+01\tAbsError: 2.58991e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.55845e+01\tAbsError: 2.58991e-02\n", - " Region: \"zone_3\"\tRelError: 3.94130e+02\tAbsError: 1.10434e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.85160e-01\tAbsError: 5.54007e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.05739e-01\tAbsError: 5.50328e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.93839e+02\tAbsError: 2.58972e-02\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.33163e-03\tAbsError: 7.03544e+12\n", - " Region: \"zone_1\"\tRelError: 6.88994e-05\tAbsError: 8.74550e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 6.88994e-05\tAbsError: 8.74550e-07\n", - " Region: \"zone_3\"\tRelError: 1.26273e-03\tAbsError: 7.03544e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.78279e-04\tAbsError: 4.08452e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.87916e-05\tAbsError: 2.95092e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.95662e-04\tAbsError: 9.67670e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.59297e+02\tAbsError: 9.37580e+15\n", - " Region: \"zone_1\"\tRelError: 1.57449e+02\tAbsError: 4.19629e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.57449e+02\tAbsError: 4.19629e-02\n", - " Region: \"zone_3\"\tRelError: 1.84837e+00\tAbsError: 9.37580e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.02269e-01\tAbsError: 5.04440e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.02121e-01\tAbsError: 4.33140e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.43978e-01\tAbsError: 4.19629e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.43213e+01\tAbsError: 4.51925e+17\n", - " Region: \"zone_1\"\tRelError: 9.72728e+00\tAbsError: 3.20817e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.72728e+00\tAbsError: 3.20817e-02\n", - " Region: \"zone_3\"\tRelError: 1.45940e+01\tAbsError: 4.51925e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.26127e-01\tAbsError: 2.25636e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.37098e-01\tAbsError: 2.26288e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33307e+01\tAbsError: 3.20820e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.66351e+02\tAbsError: 9.19252e+15\n", - " Region: \"zone_1\"\tRelError: 3.26361e+01\tAbsError: 9.16476e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.26361e+01\tAbsError: 9.16476e-03\n", - " Region: \"zone_3\"\tRelError: 1.33715e+02\tAbsError: 9.19252e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.93363e-02\tAbsError: 3.80375e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.29874e-03\tAbsError: 5.38877e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33687e+02\tAbsError: 9.16533e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.48935e-08\tAbsError: 9.78086e+07\n", - " Region: \"zone_1\"\tRelError: 2.39367e-09\tAbsError: 9.98117e-12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.39367e-09\tAbsError: 9.98117e-12\n", - " Region: \"zone_3\"\tRelError: 1.24998e-08\tAbsError: 9.78086e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.82653e-09\tAbsError: 5.13414e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.35560e-10\tAbsError: 4.64672e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 9.13775e-09\tAbsError: 1.21236e-11\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.46452e+01\tAbsError: 1.39214e+16\n", - " Region: \"zone_1\"\tRelError: 1.27520e+01\tAbsError: 4.29338e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.27520e+01\tAbsError: 4.29338e-02\n", - " Region: \"zone_3\"\tRelError: 1.89312e+00\tAbsError: 1.39214e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09433e-01\tAbsError: 7.08522e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.09229e-01\tAbsError: 6.83614e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.74457e-01\tAbsError: 4.29338e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:47\u001b[0m.\u001b[1;36m019\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.9\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.53037e+00\tAbsError: 9.91902e+15\n", - " Region: \"zone_1\"\tRelError: 8.43252e-01\tAbsError: 3.19524e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.43252e-01\tAbsError: 3.19524e-02\n", - " Region: \"zone_3\"\tRelError: 1.68712e+00\tAbsError: 9.91902e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.04474e-01\tAbsError: 4.77887e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.75728e-01\tAbsError: 5.14015e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06918e-01\tAbsError: 3.19525e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.95192e+01\tAbsError: 1.87367e+17\n", - " Region: \"zone_1\"\tRelError: 7.47528e+00\tAbsError: 2.58439e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.47528e+00\tAbsError: 2.58439e-02\n", - " Region: \"zone_3\"\tRelError: 1.20439e+01\tAbsError: 1.87367e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.50571e-01\tAbsError: 9.40532e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.24908e-01\tAbsError: 9.33136e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14684e+01\tAbsError: 2.58398e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.32987e-01\tAbsError: 2.66374e+15\n", - " Region: \"zone_1\"\tRelError: 3.15232e-01\tAbsError: 4.41461e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.15232e-01\tAbsError: 4.41461e-05\n", - " Region: \"zone_3\"\tRelError: 3.17755e-01\tAbsError: 2.66374e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.80897e-03\tAbsError: 4.60284e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.14468e-04\tAbsError: 2.20346e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 3.15232e-01\tAbsError: 4.48094e-05\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.03361e+00\tAbsError: 1.75457e+16\n", - " Region: \"zone_1\"\tRelError: 2.96801e-01\tAbsError: 3.31000e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.96801e-01\tAbsError: 3.31000e-02\n", - " Region: \"zone_3\"\tRelError: 1.73681e+00\tAbsError: 1.75457e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.16200e-01\tAbsError: 8.62297e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.86789e-01\tAbsError: 8.92275e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.33819e-01\tAbsError: 3.31000e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.40037e+00\tAbsError: 7.91855e+15\n", - " Region: \"zone_1\"\tRelError: 1.77050e-01\tAbsError: 2.58157e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77050e-01\tAbsError: 2.58157e-02\n", - " Region: \"zone_3\"\tRelError: 1.22332e+00\tAbsError: 7.91855e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.45454e-01\tAbsError: 3.90031e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.00819e-01\tAbsError: 4.01824e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77050e-01\tAbsError: 2.58157e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 8.75936e+00\tAbsError: 2.19100e+16\n", - " Region: \"zone_1\"\tRelError: 5.91836e-01\tAbsError: 1.08340e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.91836e-01\tAbsError: 1.08340e-02\n", - " Region: \"zone_3\"\tRelError: 8.16752e+00\tAbsError: 2.19100e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.41856e-02\tAbsError: 1.10284e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.95173e-02\tAbsError: 1.08816e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 8.05382e+00\tAbsError: 1.08344e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 9.38206e-06\tAbsError: 3.71586e+11\n", - " Region: \"zone_1\"\tRelError: 3.57211e-06\tAbsError: 1.32884e-09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.57211e-06\tAbsError: 1.32884e-09\n", - " Region: \"zone_3\"\tRelError: 5.80995e-06\tAbsError: 3.71586e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.88317e-07\tAbsError: 1.74877e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.86151e-07\tAbsError: 1.96709e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.03548e-06\tAbsError: 1.32977e-09\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.19725e+01\tAbsError: 1.92958e+17\n", - " Region: \"zone_1\"\tRelError: 2.64183e+01\tAbsError: 4.09542e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.64183e+01\tAbsError: 4.09542e-02\n", - " Region: \"zone_3\"\tRelError: 5.55416e+00\tAbsError: 1.92958e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86635e-01\tAbsError: 9.77277e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.83108e-01\tAbsError: 9.52302e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.98441e+00\tAbsError: 4.09542e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.50364e+00\tAbsError: 1.43673e+16\n", - " Region: \"zone_1\"\tRelError: 2.06229e-01\tAbsError: 2.57690e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06229e-01\tAbsError: 2.57690e-02\n", - " Region: \"zone_3\"\tRelError: 1.29741e+00\tAbsError: 1.43673e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.65900e-01\tAbsError: 7.23214e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.25278e-01\tAbsError: 7.13518e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06229e-01\tAbsError: 2.50728e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.70911e+00\tAbsError: 3.16280e+15\n", - " Region: \"zone_1\"\tRelError: 1.19373e+00\tAbsError: 1.06614e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19373e+00\tAbsError: 1.06614e-02\n", - " Region: \"zone_3\"\tRelError: 5.15380e-01\tAbsError: 3.16280e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.71283e-01\tAbsError: 1.68374e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.87166e-01\tAbsError: 1.47905e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.69319e-02\tAbsError: 1.06615e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 3.01804e-01\tAbsError: 3.36603e+15\n", - " Region: \"zone_1\"\tRelError: 2.65712e-02\tAbsError: 6.30769e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.65712e-02\tAbsError: 6.30769e-05\n", - " Region: \"zone_3\"\tRelError: 2.75233e-01\tAbsError: 3.36603e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.46142e-03\tAbsError: 1.73937e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.04193e-03\tAbsError: 1.62666e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.65729e-01\tAbsError: 6.31187e-05\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 5.59678e+00\tAbsError: 2.20718e+17\n", - " Region: \"zone_1\"\tRelError: 8.54328e-01\tAbsError: 3.07631e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.54328e-01\tAbsError: 3.07631e-02\n", - " Region: \"zone_3\"\tRelError: 4.74245e+00\tAbsError: 2.20718e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.57165e-01\tAbsError: 1.09369e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.88364e-01\tAbsError: 1.11350e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 3.39692e+00\tAbsError: 3.07632e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.10487e+00\tAbsError: 6.11018e+15\n", - " Region: \"zone_1\"\tRelError: 5.10621e-01\tAbsError: 1.22653e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.10621e-01\tAbsError: 1.22653e-02\n", - " Region: \"zone_3\"\tRelError: 5.94250e-01\tAbsError: 6.11018e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.03660e-01\tAbsError: 3.26136e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.08790e-01\tAbsError: 2.84882e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.17995e-02\tAbsError: 1.22654e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.54944e-01\tAbsError: 6.31247e+14\n", - " Region: \"zone_1\"\tRelError: 3.35277e-02\tAbsError: 3.09977e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.35277e-02\tAbsError: 3.09977e-04\n", - " Region: \"zone_3\"\tRelError: 1.21416e-01\tAbsError: 6.31247e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.69365e-02\tAbsError: 3.28792e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.89497e-02\tAbsError: 3.02454e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.53021e-03\tAbsError: 3.26964e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.16816e-05\tAbsError: 9.44595e+11\n", - " Region: \"zone_1\"\tRelError: 1.39205e-06\tAbsError: 1.83406e-08\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39205e-06\tAbsError: 1.83406e-08\n", - " Region: \"zone_3\"\tRelError: 3.02895e-05\tAbsError: 9.44595e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.64960e-06\tAbsError: 4.94394e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.51657e-07\tAbsError: 4.50201e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.71883e-05\tAbsError: 1.83406e-08\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 3.40459e+00\tAbsError: 1.40151e+17\n", - " Region: \"zone_1\"\tRelError: 9.91077e-01\tAbsError: 2.58298e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.91077e-01\tAbsError: 2.58298e-02\n", - " Region: \"zone_3\"\tRelError: 2.41351e+00\tAbsError: 1.40151e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.12962e-01\tAbsError: 7.03247e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.20637e-01\tAbsError: 6.98261e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.67991e+00\tAbsError: 2.58976e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:48\u001b[0m.\u001b[1;36m571\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: 1.05\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.81734e-01\tAbsError: 1.29397e+15\n", - " Region: \"zone_1\"\tRelError: 2.65607e-02\tAbsError: 4.00616e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.65607e-02\tAbsError: 4.00616e-04\n", - " Region: \"zone_3\"\tRelError: 1.55174e-01\tAbsError: 1.29397e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.05235e-01\tAbsError: 7.52366e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.59033e-02\tAbsError: 5.41606e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.40353e-02\tAbsError: 4.21669e-04\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:48\u001b[0m.\u001b[1;36m774\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:48\u001b[0m.\u001b[1;36m805\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.25 bias\u001b[0m \n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.77292e-04\tAbsError: 1.38473e+12\n", - " Region: \"zone_1\"\tRelError: 5.44385e-05\tAbsError: 1.16755e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.44385e-05\tAbsError: 1.16755e-06\n", - " Region: \"zone_3\"\tRelError: 4.22853e-04\tAbsError: 1.38473e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.57884e-04\tAbsError: 9.38758e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.97750e-05\tAbsError: 4.45977e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51936e-05\tAbsError: 1.26574e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:48\u001b[0m.\u001b[1;36m833\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.15760e+00\tAbsError: 3.46533e+16\n", - " Region: \"zone_1\"\tRelError: 4.44487e-01\tAbsError: 9.16511e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 4.44487e-01\tAbsError: 9.16511e-03\n", - " Region: \"zone_3\"\tRelError: 7.13113e-01\tAbsError: 3.46533e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34412e-01\tAbsError: 1.73980e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.38070e-02\tAbsError: 1.72552e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 5.24894e-01\tAbsError: 9.16533e-03\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.31774e-04\tAbsError: 5.24071e+12\n", - " Region: \"zone_1\"\tRelError: 7.43582e-05\tAbsError: 2.53146e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 7.43582e-05\tAbsError: 2.53146e-06\n", - " Region: \"zone_3\"\tRelError: 5.57416e-04\tAbsError: 5.24071e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.32902e-04\tAbsError: 3.49386e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.63617e-05\tAbsError: 1.74685e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.81517e-05\tAbsError: 2.70236e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.70323e+03\tAbsError: 1.65122e+18\n", - " Region: \"zone_1\"\tRelError: 3.32065e+02\tAbsError: 4.20723e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.32065e+02\tAbsError: 4.20723e-02\n", - " Region: \"zone_3\"\tRelError: 1.37117e+03\tAbsError: 1.65122e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.08593e-01\tAbsError: 8.18918e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.84678e-01\tAbsError: 8.32299e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.36977e+03\tAbsError: 4.20726e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.07328e-09\tAbsError: 1.34257e+07\n", - " Region: \"zone_1\"\tRelError: 2.69641e-09\tAbsError: 6.49962e-12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.69641e-09\tAbsError: 6.49962e-12\n", - " Region: \"zone_3\"\tRelError: 3.37687e-09\tAbsError: 1.34257e+07\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.85536e-09\tAbsError: 8.36283e+06\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.97808e-10\tAbsError: 5.06285e+06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.23706e-10\tAbsError: 6.69897e-12\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:49\u001b[0m.\u001b[1;36m341\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:49\u001b[0m.\u001b[1;36m341\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.8349999999999999\u001b[0m \n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Iteration: 4\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 5.74119e-02\tAbsError: 3.00253e+15\n", - " Region: \"zone_1\"\tRelError: 1.72667e-02\tAbsError: 6.21206e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72667e-02\tAbsError: 6.21206e-05\n", - " Region: \"zone_3\"\tRelError: 4.01452e-02\tAbsError: 3.00253e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.04052e-02\tAbsError: 1.53972e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.58359e-03\tAbsError: 1.46281e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.81563e-02\tAbsError: 6.25380e-05\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_3nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.02819e+04\tAbsError: 9.43628e+18\n", - " Region: \"zone_1\"\tRelError: 9.68046e+03\tAbsError: 9.26313e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.68046e+03\tAbsError: 9.26313e-02\n", - " Region: \"zone_3\"\tRelError: 1.06015e+04\tAbsError: 9.43628e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.25110e+02\tAbsError: 3.83433e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.95896e+02\tAbsError: 5.60195e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 9.68046e+03\tAbsError: 9.26320e-02\n", - "Replacing Node Model zone_3_bc_3nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: PotentialEquation\n", - "number of equations 22602\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.68177e-08\tAbsError: 1.37298e+08\n", - " Region: \"zone_1\"\tRelError: 2.83992e-09\tAbsError: 2.34907e-11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.83992e-09\tAbsError: 2.34907e-11\n", - " Region: \"zone_3\"\tRelError: 1.39778e-08\tAbsError: 1.37298e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12757e-08\tAbsError: 9.31515e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.32268e-09\tAbsError: 4.41463e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37946e-09\tAbsError: 2.41052e-11\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:22:49\u001b[0m.\u001b[1;36m631\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.8699999999999999\u001b[0m\n", - "Replacing Node Model zone_3_bc_2nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodeholes:Electrons in region zone_3 of material Si\n", - "Iteration: 1\n", - "Replacing Node Model zone_3_bc_2nodeholes:T in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 5.63649e+03\tAbsError: 5.73085e+17\n", - " Region: \"zone_1\"\tRelError: 1.94437e+03\tAbsError: 3.20814e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.94437e+03\tAbsError: 3.20814e-02\n", - " Region: \"zone_3\"\tRelError: 3.69212e+03\tAbsError: 5.73085e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.36268e-01\tAbsError: 2.87360e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.24144e-01\tAbsError: 2.85725e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 3.69126e+03\tAbsError: 3.20820e-02\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_2, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_3nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_3nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_3, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_2nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_2nodemodel:Potential in region zone_3 of material Si\n" - ] - } - ], + "outputs": [], "source": [ - "results_iso = run_heat_sim(sim=sim_iso, log_level=\"DEBUG\")\n", - "subprocess.run([\"cp\", \"-r\", \"tmp\", \"tmp_Ba_example_iso\"]) \n", - "subprocess.run([\"cp\", \"output/simulation_data.hdf5\", \"tmp_Ba_example_iso/\"]) " + "results_iso = run_heat_sim(sim=sim_iso) # , log_level=\"DEBUG\"\n", + "# subprocess.run([\"cp\", \"-r\", \"tmp\", \"tmp_Ba_example_iso\"])\n", + "# subprocess.run([\"cp\", \"output/simulation_data.hdf5\", \"tmp_Ba_example_iso/\"])" ] }, { "cell_type": "code", - "execution_count": 17, + "execution_count": null, "id": "04d6037a-adb9-4b8c-b319-64074b203f9c", - "metadata": { - "scrolled": true - }, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:24\u001b[0m.\u001b[1;36m801\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.55 V. Current applied bias: 0.55\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 8.69185e-05\tAbsError: 3.95954e+10\n", - " Region: \"zone_1\"\tRelError: 7.32516e-06\tAbsError: 6.15078e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 7.30759e-06\tAbsError: 3.68566e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75656e-08\tAbsError: 6.11392e-06\n", - " Region: \"zone_3\"\tRelError: 7.95933e-05\tAbsError: 3.95954e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.79841e-06\tAbsError: 1.32431e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.77435e-06\tAbsError: 2.63522e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.40030e-05\tAbsError: 3.69064e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75729e-08\tAbsError: 6.11658e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:25\u001b[0m.\u001b[1;36m081\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: 0.54\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.61549e-04\tAbsError: 5.47840e+10\n", - " Region: \"zone_1\"\tRelError: 1.81900e-05\tAbsError: 1.93945e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.81846e-05\tAbsError: 4.89694e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.43105e-09\tAbsError: 1.89048e-06\n", - " Region: \"zone_3\"\tRelError: 1.43359e-04\tAbsError: 5.47840e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.04114e-06\tAbsError: 2.20323e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.00674e-06\tAbsError: 3.27517e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35306e-04\tAbsError: 4.90033e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.43421e-09\tAbsError: 1.89162e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.14452e-04\tAbsError: 7.30289e+10\n", - " Region: \"zone_1\"\tRelError: 2.86940e-05\tAbsError: 6.36360e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.86759e-05\tAbsError: 5.89548e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.81140e-08\tAbsError: 6.30465e-06\n", - " Region: \"zone_3\"\tRelError: 1.85758e-04\tAbsError: 7.30289e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.82939e-06\tAbsError: 2.93609e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.78814e-06\tAbsError: 4.36680e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.76122e-04\tAbsError: 5.96153e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.81216e-08\tAbsError: 6.30740e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.42427e-04\tAbsError: 5.63748e+10\n", - " Region: \"zone_1\"\tRelError: 1.23755e-05\tAbsError: 6.53179e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.23569e-05\tAbsError: 4.83198e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.86277e-08\tAbsError: 6.48347e-06\n", - " Region: \"zone_3\"\tRelError: 1.30051e-04\tAbsError: 5.63748e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.81534e-06\tAbsError: 2.09516e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.78294e-06\tAbsError: 3.54232e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.22434e-04\tAbsError: 4.86777e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.86354e-08\tAbsError: 6.48630e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 4.17538e+01\tAbsError: 9.25847e+15\n", - " Region: \"zone_1\"\tRelError: 4.00213e+01\tAbsError: 4.34081e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.00213e+01\tAbsError: 4.34059e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.13543e-09\tAbsError: 2.13056e-06\n", - " Region: \"zone_3\"\tRelError: 1.73246e+00\tAbsError: 9.25847e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.89882e-01\tAbsError: 5.37570e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.89829e-01\tAbsError: 3.88277e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.52747e-01\tAbsError: 4.34059e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.13711e-09\tAbsError: 2.13108e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.55715e-06\tAbsError: 1.55373e+09\n", - " Region: \"zone_1\"\tRelError: 2.75443e-07\tAbsError: 3.15707e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.66361e-07\tAbsError: 7.16801e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.08162e-09\tAbsError: 3.15635e-06\n", - " Region: \"zone_3\"\tRelError: 2.28171e-06\tAbsError: 1.55373e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01860e-07\tAbsError: 1.23173e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.92720e-08\tAbsError: 3.21997e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 2.10150e-06\tAbsError: 7.37244e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.08225e-09\tAbsError: 3.15662e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.78742e+01\tAbsError: 9.05161e+15\n", - " Region: \"zone_1\"\tRelError: 1.61544e+01\tAbsError: 4.29358e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.61544e+01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.66407e-09\tAbsError: 1.96688e-06\n", - " Region: \"zone_3\"\tRelError: 1.71987e+00\tAbsError: 9.05161e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86128e-01\tAbsError: 5.27529e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.86079e-01\tAbsError: 3.77633e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.47659e-01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.66503e-09\tAbsError: 1.96717e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:26\u001b[0m.\u001b[1;36m827\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.5 V. Current applied bias: 0.5\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.22665e-05\tAbsError: 5.09033e+09\n", - " Region: \"zone_1\"\tRelError: 4.34074e-06\tAbsError: 3.93347e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.32944e-06\tAbsError: 3.33444e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13089e-08\tAbsError: 3.93013e-06\n", - " Region: \"zone_3\"\tRelError: 1.79258e-05\tAbsError: 5.09033e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.07491e-07\tAbsError: 3.86922e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.88310e-07\tAbsError: 1.22111e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.73186e-05\tAbsError: 3.47370e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13093e-08\tAbsError: 3.93031e-06\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:27\u001b[0m.\u001b[1;36m020\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.6 V. Current applied bias: 0.6\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Iteration: 8\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 2.23392e-05\tAbsError: 5.34475e+09\n", - " Region: \"zone_1\"\tRelError: 2.09068e-06\tAbsError: 2.89040e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.08236e-06\tAbsError: 3.49141e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.31400e-09\tAbsError: 2.88691e-06\n", - " Region: \"zone_3\"\tRelError: 2.02485e-05\tAbsError: 5.34475e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.20754e-07\tAbsError: 3.93870e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.15383e-07\tAbsError: 1.40605e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.96041e-05\tAbsError: 3.63779e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.31461e-09\tAbsError: 2.88716e-06\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:27\u001b[0m.\u001b[1;36m163\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: 0.58\u001b[0m \n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.07279e+01\tAbsError: 1.48541e+15\n", - " Region: \"zone_1\"\tRelError: 9.16669e+00\tAbsError: 7.57653e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.16657e+00\tAbsError: 3.36591e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.21167e-04\tAbsError: 4.21062e-02\n", - " Region: \"zone_3\"\tRelError: 1.56119e+00\tAbsError: 1.48541e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.76744e-01\tAbsError: 8.47073e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.60738e-01\tAbsError: 6.38333e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.23585e-01\tAbsError: 3.36593e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.21167e-04\tAbsError: 4.21062e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.83311e+00\tAbsError: 1.26455e+15\n", - " Region: \"zone_1\"\tRelError: 2.88937e-01\tAbsError: 7.51136e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88816e-01\tAbsError: 3.31003e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20899e-04\tAbsError: 4.20134e-02\n", - " Region: \"zone_3\"\tRelError: 1.54417e+00\tAbsError: 1.26455e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.70125e-01\tAbsError: 7.28712e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.54876e-01\tAbsError: 5.35842e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19050e-01\tAbsError: 3.31004e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20899e-04\tAbsError: 4.20134e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.44671e+02\tAbsError: 8.23352e+15\n", - " Region: \"zone_1\"\tRelError: 5.43003e+02\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.43003e+02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.11267e-10\tAbsError: 1.43080e-07\n", - " Region: \"zone_3\"\tRelError: 1.66763e+00\tAbsError: 8.23352e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.84587e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69628e-01\tAbsError: 3.38765e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28340e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.11422e-10\tAbsError: 1.43134e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.88271e+01\tAbsError: 1.03297e+16\n", - " Region: \"zone_1\"\tRelError: 1.70343e+01\tAbsError: 4.56456e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.70343e+01\tAbsError: 4.56455e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.07702e-10\tAbsError: 1.41907e-07\n", - " Region: \"zone_3\"\tRelError: 1.79279e+00\tAbsError: 1.03297e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.06826e-01\tAbsError: 5.83689e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.06752e-01\tAbsError: 4.49285e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.79207e-01\tAbsError: 4.56455e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.07906e-10\tAbsError: 1.41981e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.41492e+01\tAbsError: 9.89143e+15\n", - " Region: \"zone_1\"\tRelError: 2.23800e+01\tAbsError: 4.47730e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.23800e+01\tAbsError: 4.47728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.25599e-10\tAbsError: 2.17748e-07\n", - " Region: \"zone_3\"\tRelError: 1.76921e+00\tAbsError: 9.89143e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.00389e-01\tAbsError: 5.65978e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.00325e-01\tAbsError: 4.23166e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.68492e-01\tAbsError: 4.47728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.25887e-10\tAbsError: 2.17851e-07\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.78585e+00\tAbsError: 9.41451e+14\n", - " Region: \"zone_1\"\tRelError: 7.13109e-01\tAbsError: 3.44571e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.13084e-01\tAbsError: 2.58762e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.46922e-05\tAbsError: 8.58088e-03\n", - " Region: \"zone_3\"\tRelError: 1.07274e+00\tAbsError: 9.41451e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.00333e-01\tAbsError: 4.29385e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.58044e-01\tAbsError: 5.12066e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14338e-01\tAbsError: 2.58947e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.46922e-05\tAbsError: 8.58088e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.16142e+00\tAbsError: 7.46156e+14\n", - " Region: \"zone_1\"\tRelError: 1.09872e-01\tAbsError: 3.44018e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09847e-01\tAbsError: 2.58558e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.45917e-05\tAbsError: 8.54603e-03\n", - " Region: \"zone_3\"\tRelError: 1.05155e+00\tAbsError: 7.46156e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.89433e-01\tAbsError: 3.46738e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.51496e-01\tAbsError: 3.99417e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10596e-01\tAbsError: 2.58925e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.45917e-05\tAbsError: 8.54603e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 4.93663e+00\tAbsError: 6.37428e+14\n", - " Region: \"zone_1\"\tRelError: 3.46019e+00\tAbsError: 7.21476e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.46007e+00\tAbsError: 3.07635e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", - " Region: \"zone_3\"\tRelError: 1.47644e+00\tAbsError: 6.37428e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.40577e-01\tAbsError: 3.72575e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.27797e-01\tAbsError: 2.64853e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07947e-01\tAbsError: 3.07638e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 4.78493e+01\tAbsError: 3.20100e+15\n", - " Region: \"zone_1\"\tRelError: 4.62100e+01\tAbsError: 7.94945e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.62099e+01\tAbsError: 3.63156e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.24260e-04\tAbsError: 4.31789e-02\n", - " Region: \"zone_3\"\tRelError: 1.63930e+00\tAbsError: 3.20100e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.06426e-01\tAbsError: 1.69245e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.84342e-01\tAbsError: 1.50855e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.48412e-01\tAbsError: 3.63156e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.24260e-04\tAbsError: 4.31789e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.49591e+00\tAbsError: 2.36630e+15\n", - " Region: \"zone_1\"\tRelError: 1.88679e+00\tAbsError: 7.78202e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88667e+00\tAbsError: 3.52795e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22421e-04\tAbsError: 4.25407e-02\n", - " Region: \"zone_3\"\tRelError: 1.60912e+00\tAbsError: 2.36630e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.95285e-01\tAbsError: 1.29391e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.75748e-01\tAbsError: 1.07240e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37963e-01\tAbsError: 3.52796e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22421e-04\tAbsError: 4.25407e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.97805e-01\tAbsError: 4.22171e+14\n", - " Region: \"zone_1\"\tRelError: 1.57599e-01\tAbsError: 1.98078e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.57580e-01\tAbsError: 1.31068e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.92831e-05\tAbsError: 6.70102e-03\n", - " Region: \"zone_3\"\tRelError: 4.40206e-01\tAbsError: 4.22171e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.55362e-01\tAbsError: 2.02981e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.39059e-01\tAbsError: 2.19190e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.57657e-02\tAbsError: 1.31068e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.92831e-05\tAbsError: 6.70102e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.49598e-01\tAbsError: 3.37443e+14\n", - " Region: \"zone_1\"\tRelError: 4.08488e-02\tAbsError: 1.80805e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.08321e-02\tAbsError: 1.22656e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67328e-05\tAbsError: 5.81483e-03\n", - " Region: \"zone_3\"\tRelError: 4.08750e-01\tAbsError: 3.37443e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.41863e-01\tAbsError: 1.59086e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.25055e-01\tAbsError: 1.78357e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.18148e-02\tAbsError: 1.22657e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67328e-05\tAbsError: 5.81483e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.95431e+00\tAbsError: 2.96317e+14\n", - " Region: \"zone_1\"\tRelError: 2.00902e+00\tAbsError: 3.34445e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.00900e+00\tAbsError: 2.58782e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", - " Region: \"zone_3\"\tRelError: 9.45295e-01\tAbsError: 2.96317e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42034e-01\tAbsError: 1.59420e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.10683e-01\tAbsError: 1.36896e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.25558e-02\tAbsError: 2.58843e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.99450e+00\tAbsError: 2.69783e+15\n", - " Region: \"zone_1\"\tRelError: 8.00609e-01\tAbsError: 3.34477e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.00587e-01\tAbsError: 2.57631e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.21384e-05\tAbsError: 7.68460e-03\n", - " Region: \"zone_3\"\tRelError: 1.19389e+00\tAbsError: 2.69783e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.49930e-01\tAbsError: 1.16830e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.12020e-01\tAbsError: 1.52953e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31922e-01\tAbsError: 2.56133e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.21545e-05\tAbsError: 7.69038e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.67527e+00\tAbsError: 1.79984e+15\n", - " Region: \"zone_1\"\tRelError: 5.30726e-01\tAbsError: 3.40936e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.30702e-01\tAbsError: 2.58093e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.38662e-05\tAbsError: 8.28427e-03\n", - " Region: \"zone_3\"\tRelError: 1.14454e+00\tAbsError: 1.79984e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.31015e-01\tAbsError: 7.86562e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.87926e-01\tAbsError: 1.01328e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.25580e-01\tAbsError: 2.58205e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.38792e-05\tAbsError: 8.28883e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.62335e-01\tAbsError: 8.52607e+13\n", - " Region: \"zone_1\"\tRelError: 1.60436e-01\tAbsError: 8.47864e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.60413e-01\tAbsError: 3.10853e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.35349e-05\tAbsError: 8.16779e-03\n", - " Region: \"zone_3\"\tRelError: 1.01899e-01\tAbsError: 8.52607e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.58516e-02\tAbsError: 4.50523e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.50106e-02\tAbsError: 4.02084e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10135e-02\tAbsError: 3.29324e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.35395e-05\tAbsError: 8.16938e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.04059e-01\tAbsError: 6.56185e+13\n", - " Region: \"zone_1\"\tRelError: 1.13333e-02\tAbsError: 6.89729e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13142e-02\tAbsError: 2.55833e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91291e-05\tAbsError: 6.64145e-03\n", - " Region: \"zone_3\"\tRelError: 9.27262e-02\tAbsError: 6.56185e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.04845e-02\tAbsError: 3.55492e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.18771e-02\tAbsError: 3.00692e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03455e-02\tAbsError: 2.71121e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91291e-05\tAbsError: 6.64145e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.90232e-01\tAbsError: 1.27257e+14\n", - " Region: \"zone_1\"\tRelError: 2.88169e-01\tAbsError: 1.34324e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88157e-01\tAbsError: 9.16559e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22923e-05\tAbsError: 4.26682e-03\n", - " Region: \"zone_3\"\tRelError: 3.02062e-01\tAbsError: 1.27257e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98145e-01\tAbsError: 5.59682e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.53461e-02\tAbsError: 7.12890e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.85587e-02\tAbsError: 9.16563e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22942e-05\tAbsError: 4.26755e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.00720e+00\tAbsError: 1.15188e+15\n", - " Region: \"zone_1\"\tRelError: 4.40654e+00\tAbsError: 3.68300e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.40649e+00\tAbsError: 1.76841e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.50999e-05\tAbsError: 1.91459e-02\n", - " Region: \"zone_3\"\tRelError: 6.00656e-01\tAbsError: 1.15188e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.20391e-01\tAbsError: 5.67234e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.11129e-01\tAbsError: 5.84644e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.90811e-02\tAbsError: 1.76842e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.51005e-05\tAbsError: 1.91459e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 6.92102e-01\tAbsError: 7.85625e+14\n", - " Region: \"zone_1\"\tRelError: 1.55937e-01\tAbsError: 2.88894e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55899e-01\tAbsError: 1.57809e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.77234e-05\tAbsError: 1.31085e-02\n", - " Region: \"zone_3\"\tRelError: 5.36165e-01\tAbsError: 7.85625e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.94721e-01\tAbsError: 3.88094e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.82672e-01\tAbsError: 3.97531e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.87349e-02\tAbsError: 1.57810e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.77234e-05\tAbsError: 1.31085e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.22238e-02\tAbsError: 4.20049e+12\n", - " Region: \"zone_1\"\tRelError: 9.02002e-04\tAbsError: 2.21541e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.01377e-04\tAbsError: 4.51852e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.24524e-07\tAbsError: 2.17023e-04\n", - " Region: \"zone_3\"\tRelError: 1.13218e-02\tAbsError: 4.20049e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.21631e-04\tAbsError: 1.57143e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.43383e-04\tAbsError: 2.62907e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04561e-02\tAbsError: 4.55127e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.24524e-07\tAbsError: 2.17023e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 9.70535e-03\tAbsError: 3.37743e+12\n", - " Region: \"zone_1\"\tRelError: 8.78757e-04\tAbsError: 1.91107e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 8.78217e-04\tAbsError: 3.61781e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.39528e-07\tAbsError: 1.87489e-04\n", - " Region: \"zone_3\"\tRelError: 8.82659e-03\tAbsError: 3.37743e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.29951e-04\tAbsError: 1.23275e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.83501e-04\tAbsError: 2.14468e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.11260e-03\tAbsError: 3.63680e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.39528e-07\tAbsError: 1.87489e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.81369e-01\tAbsError: 1.65118e+13\n", - " Region: \"zone_1\"\tRelError: 1.13683e-01\tAbsError: 2.48930e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13676e-01\tAbsError: 7.97182e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", - " Region: \"zone_3\"\tRelError: 6.76863e-02\tAbsError: 1.65118e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.50220e-02\tAbsError: 9.05581e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.84537e-03\tAbsError: 7.45604e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 9.81196e-03\tAbsError: 8.36703e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 5.04216e+00\tAbsError: 2.77132e+14\n", - " Region: \"zone_1\"\tRelError: 4.86460e+00\tAbsError: 1.64874e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.86456e+00\tAbsError: 6.36021e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.56571e-05\tAbsError: 1.58514e-02\n", - " Region: \"zone_3\"\tRelError: 1.77555e-01\tAbsError: 2.77132e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10831e-01\tAbsError: 1.40024e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.52740e-02\tAbsError: 1.37108e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.14041e-02\tAbsError: 6.44948e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.56571e-05\tAbsError: 1.58514e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.46538e-01\tAbsError: 1.72857e+14\n", - " Region: \"zone_1\"\tRelError: 1.03351e-01\tAbsError: 1.21126e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03317e-01\tAbsError: 4.92001e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.34699e-05\tAbsError: 1.16206e-02\n", - " Region: \"zone_3\"\tRelError: 1.43187e-01\tAbsError: 1.72857e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.52949e-02\tAbsError: 8.65648e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.61175e-02\tAbsError: 8.62923e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.17415e-02\tAbsError: 5.11595e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.34699e-05\tAbsError: 1.16206e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.26071e-04\tAbsError: 1.28152e+11\n", - " Region: \"zone_1\"\tRelError: 1.75841e-05\tAbsError: 2.73744e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.67966e-05\tAbsError: 8.67708e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.87521e-07\tAbsError: 2.73657e-04\n", - " Region: \"zone_3\"\tRelError: 2.08487e-04\tAbsError: 1.28152e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03318e-05\tAbsError: 1.00310e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.04880e-06\tAbsError: 2.78416e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.89318e-04\tAbsError: 9.08068e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.87521e-07\tAbsError: 2.73657e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.74946e-04\tAbsError: 1.17170e+11\n", - " Region: \"zone_1\"\tRelError: 2.69263e-05\tAbsError: 2.18382e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.62981e-05\tAbsError: 8.01643e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.28213e-07\tAbsError: 2.18302e-04\n", - " Region: \"zone_3\"\tRelError: 2.48020e-04\tAbsError: 1.17170e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.02611e-06\tAbsError: 9.22316e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.05400e-06\tAbsError: 2.49383e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.31311e-04\tAbsError: 8.38265e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.28213e-07\tAbsError: 2.18302e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 7.11615e-03\tAbsError: 1.08851e+12\n", - " Region: \"zone_1\"\tRelError: 5.30759e-03\tAbsError: 1.67972e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.30711e-03\tAbsError: 1.45981e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", - " Region: \"zone_3\"\tRelError: 1.80856e-03\tAbsError: 1.08851e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43945e-04\tAbsError: 2.92186e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.94756e-05\tAbsError: 7.96320e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.56466e-03\tAbsError: 1.47422e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.71729e-02\tAbsError: 5.98603e+12\n", - " Region: \"zone_1\"\tRelError: 9.52337e-04\tAbsError: 6.34742e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.50533e-04\tAbsError: 7.76974e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.80433e-06\tAbsError: 6.26972e-04\n", - " Region: \"zone_3\"\tRelError: 1.62206e-02\tAbsError: 5.98603e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.52054e-04\tAbsError: 2.22170e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.46515e-04\tAbsError: 3.76433e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.50202e-02\tAbsError: 7.87871e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.80433e-06\tAbsError: 6.26972e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 8.58310e-02\tAbsError: 8.39317e+12\n", - " Region: \"zone_1\"\tRelError: 6.31932e-02\tAbsError: 1.05953e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.31902e-02\tAbsError: 1.15729e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.01602e-06\tAbsError: 1.04796e-03\n", - " Region: \"zone_3\"\tRelError: 2.26378e-02\tAbsError: 8.39317e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.85729e-04\tAbsError: 3.23963e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.66097e-04\tAbsError: 5.15354e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.10829e-02\tAbsError: 1.17300e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.01602e-06\tAbsError: 1.04796e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.12260e-03\tAbsError: 2.61827e+11\n", - " Region: \"zone_1\"\tRelError: 2.35312e-04\tAbsError: 8.30379e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.35289e-04\tAbsError: 1.63368e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.33999e-08\tAbsError: 8.14042e-06\n", - " Region: \"zone_3\"\tRelError: 8.87286e-04\tAbsError: 2.61827e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.54593e-05\tAbsError: 1.30676e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.53483e-05\tAbsError: 1.31151e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 8.56455e-04\tAbsError: 1.68252e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.34097e-08\tAbsError: 8.14375e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 7.74042e-04\tAbsError: 2.09517e+11\n", - " Region: \"zone_1\"\tRelError: 7.83547e-05\tAbsError: 6.01138e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 7.83378e-05\tAbsError: 1.34565e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.68927e-08\tAbsError: 5.87682e-06\n", - " Region: \"zone_3\"\tRelError: 6.95687e-04\tAbsError: 2.09517e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.25872e-05\tAbsError: 1.03107e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.24933e-05\tAbsError: 1.06409e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 6.70590e-04\tAbsError: 1.38390e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69000e-08\tAbsError: 5.87933e-06\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.59900e-03\tAbsError: 1.40711e+11\n", - " Region: \"zone_1\"\tRelError: 2.06948e-03\tAbsError: 6.41578e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06929e-03\tAbsError: 9.09489e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84503e-07\tAbsError: 6.40668e-05\n", - " Region: \"zone_3\"\tRelError: 5.29527e-04\tAbsError: 1.40711e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.39801e-06\tAbsError: 9.47438e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.30618e-06\tAbsError: 4.59674e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.12638e-04\tAbsError: 9.48359e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84568e-07\tAbsError: 6.40878e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.24434e-03\tAbsError: 3.91752e+11\n", - " Region: \"zone_1\"\tRelError: 7.67299e-05\tAbsError: 3.70354e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.56648e-05\tAbsError: 2.52102e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06512e-06\tAbsError: 3.70102e-04\n", - " Region: \"zone_3\"\tRelError: 1.16761e-03\tAbsError: 3.91752e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.51504e-05\tAbsError: 2.67283e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.33744e-05\tAbsError: 1.24469e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11802e-03\tAbsError: 2.65527e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06512e-06\tAbsError: 3.70104e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.66865e-02\tAbsError: 6.43390e+11\n", - " Region: \"zone_1\"\tRelError: 1.46089e-02\tAbsError: 4.93091e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.46075e-02\tAbsError: 4.06773e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41798e-06\tAbsError: 4.92684e-04\n", - " Region: \"zone_3\"\tRelError: 2.07764e-03\tAbsError: 6.43390e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.90233e-05\tAbsError: 4.29245e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.79244e-05\tAbsError: 2.14145e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.99927e-03\tAbsError: 4.25329e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41801e-06\tAbsError: 4.92703e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.95239e-05\tAbsError: 7.21340e+09\n", - " Region: \"zone_1\"\tRelError: 1.93321e-05\tAbsError: 1.67318e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.92840e-05\tAbsError: 6.44594e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.81287e-08\tAbsError: 1.67253e-05\n", - " Region: \"zone_3\"\tRelError: 5.01918e-05\tAbsError: 7.21340e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.16012e-07\tAbsError: 2.75283e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.25510e-07\tAbsError: 4.46057e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 4.91021e-05\tAbsError: 6.58815e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.81495e-08\tAbsError: 1.67326e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.88635e-05\tAbsError: 4.66862e+09\n", - " Region: \"zone_1\"\tRelError: 4.12564e-06\tAbsError: 1.32768e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.08745e-06\tAbsError: 4.74361e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.81931e-08\tAbsError: 1.32720e-05\n", - " Region: \"zone_3\"\tRelError: 3.47379e-05\tAbsError: 4.66862e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.57140e-07\tAbsError: 1.44736e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.64945e-07\tAbsError: 3.22126e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.39776e-05\tAbsError: 4.85044e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.82079e-08\tAbsError: 1.32779e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:37\u001b[0m.\u001b[1;36m811\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: 0.65\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 6.84757e-04\tAbsError: 5.79872e+10\n", - " Region: \"zone_1\"\tRelError: 5.39232e-04\tAbsError: 6.69464e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.39213e-04\tAbsError: 4.49143e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91058e-08\tAbsError: 6.64972e-06\n", - " Region: \"zone_3\"\tRelError: 1.45525e-04\tAbsError: 5.79872e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.71562e-06\tAbsError: 2.34463e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.68397e-06\tAbsError: 3.45410e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.38106e-04\tAbsError: 4.56915e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91137e-08\tAbsError: 6.65261e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.27709e-03\tAbsError: 3.55210e+11\n", - " Region: \"zone_1\"\tRelError: 7.75140e-05\tAbsError: 7.68347e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 7.74925e-05\tAbsError: 2.05171e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.14878e-08\tAbsError: 7.47830e-06\n", - " Region: \"zone_3\"\tRelError: 1.19957e-03\tAbsError: 3.55210e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.97584e-05\tAbsError: 1.77993e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.96259e-05\tAbsError: 1.77217e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16017e-03\tAbsError: 2.13005e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.14968e-08\tAbsError: 7.48159e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.28600e-02\tAbsError: 4.74877e+11\n", - " Region: \"zone_1\"\tRelError: 1.12352e-02\tAbsError: 1.84675e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12351e-02\tAbsError: 2.62164e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.23931e-08\tAbsError: 1.82053e-05\n", - " Region: \"zone_3\"\tRelError: 1.62483e-03\tAbsError: 4.74877e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52780e-05\tAbsError: 2.39181e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.51249e-05\tAbsError: 2.35695e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.57437e-03\tAbsError: 2.67665e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.23931e-08\tAbsError: 1.82053e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.20708e+01\tAbsError: 9.38375e+15\n", - " Region: \"zone_1\"\tRelError: 1.03034e+01\tAbsError: 4.29349e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03034e+01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.20208e-09\tAbsError: 1.11278e-06\n", - " Region: \"zone_3\"\tRelError: 1.76735e+00\tAbsError: 9.38375e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86030e-01\tAbsError: 4.95036e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.85888e-01\tAbsError: 4.43339e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.95437e-01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.20329e-09\tAbsError: 1.11320e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.02364e-04\tAbsError: 5.62247e+09\n", - " Region: \"zone_1\"\tRelError: 8.15379e-05\tAbsError: 3.03368e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.15291e-05\tAbsError: 3.57289e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.71937e-09\tAbsError: 3.03011e-06\n", - " Region: \"zone_3\"\tRelError: 2.08260e-05\tAbsError: 5.62247e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.14319e-07\tAbsError: 4.05600e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.09034e-07\tAbsError: 1.56647e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.01939e-05\tAbsError: 3.71851e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.71944e-09\tAbsError: 3.03019e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 9.67016e-06\tAbsError: 5.74516e+09\n", - " Region: \"zone_1\"\tRelError: 6.60113e-07\tAbsError: 2.15591e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.98078e-07\tAbsError: 2.63279e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.20343e-08\tAbsError: 2.15565e-05\n", - " Region: \"zone_3\"\tRelError: 9.01005e-06\tAbsError: 5.74516e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.59313e-07\tAbsError: 5.10906e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.57242e-07\tAbsError: 6.36096e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 8.13143e-06\tAbsError: 2.71356e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.20615e-08\tAbsError: 2.15660e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.69643e-04\tAbsError: 1.47420e+10\n", - " Region: \"zone_1\"\tRelError: 1.45495e-04\tAbsError: 2.80955e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.45414e-04\tAbsError: 7.53367e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.08344e-08\tAbsError: 2.80880e-05\n", - " Region: \"zone_3\"\tRelError: 2.41485e-05\tAbsError: 1.47420e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.10279e-07\tAbsError: 1.16771e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.44925e-07\tAbsError: 3.06488e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.24124e-05\tAbsError: 7.88086e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.08691e-08\tAbsError: 2.81001e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:39\u001b[0m.\u001b[1;36m876\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: 0.7\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:39\u001b[0m.\u001b[1;36m964\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:40\u001b[0m.\u001b[1;36m013\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.75 bias\u001b[0m \n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:40\u001b[0m.\u001b[1;36m060\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.75513e+00\tAbsError: 7.04878e+15\n", - " Region: \"zone_1\"\tRelError: 1.90080e-01\tAbsError: 7.81805e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.89950e-01\tAbsError: 3.31001e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.29742e-04\tAbsError: 4.50804e-02\n", - " Region: \"zone_3\"\tRelError: 1.56505e+00\tAbsError: 7.04878e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67981e-01\tAbsError: 3.36624e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.39518e-01\tAbsError: 3.68255e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.57423e-01\tAbsError: 3.31002e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.29742e-04\tAbsError: 4.50804e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.62671e-05\tAbsError: 3.10482e+09\n", - " Region: \"zone_1\"\tRelError: 3.66806e-05\tAbsError: 2.21724e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 3.66799e-05\tAbsError: 2.06476e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.31104e-10\tAbsError: 2.19659e-07\n", - " Region: \"zone_3\"\tRelError: 9.58659e-06\tAbsError: 3.10482e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88628e-07\tAbsError: 1.51765e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.86687e-07\tAbsError: 1.58718e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 9.21065e-06\tAbsError: 2.10348e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.31398e-10\tAbsError: 2.19764e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.08650e+01\tAbsError: 3.91395e+16\n", - " Region: \"zone_1\"\tRelError: 2.64221e+01\tAbsError: 7.53955e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.64221e+01\tAbsError: 7.53940e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.29236e-09\tAbsError: 1.49165e-06\n", - " Region: \"zone_3\"\tRelError: 3.44429e+01\tAbsError: 3.91395e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.38671e+01\tAbsError: 2.06460e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.03435e+01\tAbsError: 1.84936e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.32357e-01\tAbsError: 7.53940e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.29383e-09\tAbsError: 1.49216e-06\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 8.80001e-04\tAbsError: 2.77064e+10\n", - " Region: \"zone_1\"\tRelError: 7.72213e-04\tAbsError: 7.92012e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 7.72211e-04\tAbsError: 1.37821e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.24149e-09\tAbsError: 7.78230e-07\n", - " Region: \"zone_3\"\tRelError: 1.07787e-04\tAbsError: 2.77064e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.42447e-06\tAbsError: 1.54677e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.41534e-06\tAbsError: 1.22386e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04945e-04\tAbsError: 1.43316e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.24213e-09\tAbsError: 7.78437e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.11831e+01\tAbsError: 1.42484e+16\n", - " Region: \"zone_1\"\tRelError: 2.93524e+01\tAbsError: 4.47737e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.93524e+01\tAbsError: 4.47728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.83682e-09\tAbsError: 9.85742e-07\n", - " Region: \"zone_3\"\tRelError: 1.83065e+00\tAbsError: 1.42484e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.00155e-01\tAbsError: 7.24354e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.99947e-01\tAbsError: 7.00487e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.30545e-01\tAbsError: 4.47728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.83682e-09\tAbsError: 9.85743e-07\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.21630e+00\tAbsError: 5.18264e+15\n", - " Region: \"zone_1\"\tRelError: 1.31236e-01\tAbsError: 3.17671e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31218e-01\tAbsError: 2.57644e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72758e-05\tAbsError: 6.00278e-03\n", - " Region: \"zone_3\"\tRelError: 1.08506e+00\tAbsError: 5.18264e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.91482e-01\tAbsError: 2.47681e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.47298e-01\tAbsError: 2.70583e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.46263e-01\tAbsError: 2.58377e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72758e-05\tAbsError: 6.00278e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 5.08889e-05\tAbsError: 7.24317e+08\n", - " Region: \"zone_1\"\tRelError: 4.50261e-05\tAbsError: 1.77627e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.50210e-05\tAbsError: 5.70798e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.11028e-09\tAbsError: 1.77570e-06\n", - " Region: \"zone_3\"\tRelError: 5.86272e-06\tAbsError: 7.24317e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.93674e-08\tAbsError: 3.18976e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.07369e-08\tAbsError: 4.05341e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 5.75751e-06\tAbsError: 5.85488e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.11142e-09\tAbsError: 1.77610e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.74440e+03\tAbsError: 9.91965e+15\n", - " Region: \"zone_1\"\tRelError: 1.07784e+00\tAbsError: 2.35444e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07737e+00\tAbsError: 7.09269e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73206e-04\tAbsError: 1.64517e-01\n", - " Region: \"zone_3\"\tRelError: 3.74333e+03\tAbsError: 9.91965e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.37749e+01\tAbsError: 5.01980e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.68934e+03\tAbsError: 4.89985e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06276e-01\tAbsError: 7.09271e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73206e-04\tAbsError: 1.64517e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 4.45723e+00\tAbsError: 1.63266e+16\n", - " Region: \"zone_1\"\tRelError: 2.81667e+00\tAbsError: 1.05674e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.81646e+00\tAbsError: 3.52793e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.02626e-04\tAbsError: 7.03945e-02\n", - " Region: \"zone_3\"\tRelError: 1.64056e+00\tAbsError: 1.63266e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91761e-01\tAbsError: 8.00317e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.61788e-01\tAbsError: 8.32341e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86811e-01\tAbsError: 3.52793e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.02626e-04\tAbsError: 7.03945e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:43\u001b[0m.\u001b[1;36m408\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:43\u001b[0m.\u001b[1;36m440\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.8 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:43\u001b[0m.\u001b[1;36m468\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 3\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 5.70365e-01\tAbsError: 1.98816e+15\n", - " Region: \"zone_1\"\tRelError: 1.29557e-01\tAbsError: 5.07227e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29446e-01\tAbsError: 1.22662e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10816e-04\tAbsError: 3.84565e-02\n", - " Region: \"zone_3\"\tRelError: 4.40808e-01\tAbsError: 1.98816e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.36802e-01\tAbsError: 1.06250e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.52219e-01\tAbsError: 9.25662e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.16747e-02\tAbsError: 1.22663e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11508e-04\tAbsError: 3.86954e-02\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 5.58930e+02\tAbsError: 7.27584e+15\n", - " Region: \"zone_1\"\tRelError: 7.93812e-01\tAbsError: 8.13553e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.93768e-01\tAbsError: 6.58787e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.45635e-05\tAbsError: 1.54766e-02\n", - " Region: \"zone_3\"\tRelError: 5.58137e+02\tAbsError: 7.27584e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.07952e+01\tAbsError: 2.69436e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.17061e+02\tAbsError: 4.58148e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.80139e-01\tAbsError: 6.58787e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.45635e-05\tAbsError: 1.54766e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.61395e+00\tAbsError: 1.26801e+16\n", - " Region: \"zone_1\"\tRelError: 4.05768e-01\tAbsError: 5.54621e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.05683e-01\tAbsError: 2.56990e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.56785e-05\tAbsError: 2.97631e-02\n", - " Region: \"zone_3\"\tRelError: 1.20818e+00\tAbsError: 1.26801e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.30811e-01\tAbsError: 6.31874e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.95490e-01\tAbsError: 6.36135e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.81798e-01\tAbsError: 2.45098e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.57611e-05\tAbsError: 2.97924e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.85348e+01\tAbsError: 3.33183e+16\n", - " Region: \"zone_1\"\tRelError: 1.40835e+01\tAbsError: 7.25192e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40835e+01\tAbsError: 7.25190e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.06764e-10\tAbsError: 1.76108e-07\n", - " Region: \"zone_3\"\tRelError: 5.44513e+01\tAbsError: 3.33183e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.58563e+01\tAbsError: 1.83639e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.83884e+01\tAbsError: 1.49544e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06615e-01\tAbsError: 7.25190e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.06930e-10\tAbsError: 1.76171e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:44\u001b[0m.\u001b[1;36m695\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:44\u001b[0m.\u001b[1;36m731\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.85 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:44\u001b[0m.\u001b[1;36m763\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.63797e-01\tAbsError: 3.64765e+14\n", - " Region: \"zone_1\"\tRelError: 1.74354e-02\tAbsError: 3.39678e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.73383e-02\tAbsError: 2.51825e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.71283e-05\tAbsError: 3.37160e-02\n", - " Region: \"zone_3\"\tRelError: 1.46362e-01\tAbsError: 3.64765e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.05471e-02\tAbsError: 2.16352e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.33909e-02\tAbsError: 1.48413e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.23269e-02\tAbsError: 2.62821e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.71283e-05\tAbsError: 3.37160e-02\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 7.39784e+01\tAbsError: 4.25646e+14\n", - " Region: \"zone_1\"\tRelError: 1.20510e-01\tAbsError: 9.75069e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20403e-01\tAbsError: 6.01031e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.07573e-04\tAbsError: 3.74038e-02\n", - " Region: \"zone_3\"\tRelError: 7.38579e+01\tAbsError: 4.25646e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.71227e+01\tAbsError: 2.73214e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.66147e+01\tAbsError: 1.52432e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20428e-01\tAbsError: 6.01031e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.07573e-04\tAbsError: 3.74038e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 9.54736e-01\tAbsError: 5.35441e+15\n", - " Region: \"zone_1\"\tRelError: 3.96144e-01\tAbsError: 8.53966e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.95944e-01\tAbsError: 1.57805e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.00443e-04\tAbsError: 6.96161e-02\n", - " Region: \"zone_3\"\tRelError: 5.58592e-01\tAbsError: 5.35441e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.89869e-01\tAbsError: 2.68572e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.92706e-01\tAbsError: 2.66870e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.58172e-02\tAbsError: 1.57805e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.00499e-04\tAbsError: 6.96306e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 8.06708e+01\tAbsError: 6.27680e+16\n", - " Region: \"zone_1\"\tRelError: 4.86663e+01\tAbsError: 7.79816e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.86663e+01\tAbsError: 7.79815e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.55907e-10\tAbsError: 1.58416e-07\n", - " Region: \"zone_3\"\tRelError: 3.20045e+01\tAbsError: 6.27680e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.14175e+01\tAbsError: 3.43987e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.03250e+01\tAbsError: 2.83694e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.62020e-01\tAbsError: 7.79815e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.56011e-10\tAbsError: 1.58453e-07\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 5.86885e+02\tAbsError: 3.75531e+15\n", - " Region: \"zone_1\"\tRelError: 2.91550e-01\tAbsError: 1.88467e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.91202e-01\tAbsError: 6.76847e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.47432e-04\tAbsError: 1.20783e-01\n", - " Region: \"zone_3\"\tRelError: 5.86593e+02\tAbsError: 3.75531e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.80952e+01\tAbsError: 1.94186e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.58338e+02\tAbsError: 1.81345e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.59709e-01\tAbsError: 6.76849e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.47432e-04\tAbsError: 1.20783e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.80286e-02\tAbsError: 1.80043e+13\n", - " Region: \"zone_1\"\tRelError: 5.97130e-03\tAbsError: 5.99908e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.96961e-03\tAbsError: 1.31746e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.68890e-06\tAbsError: 5.86733e-04\n", - " Region: \"zone_3\"\tRelError: 5.20573e-02\tAbsError: 1.80043e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.22256e-03\tAbsError: 7.89900e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.11166e-03\tAbsError: 1.01053e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.97214e-02\tAbsError: 1.37677e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.68890e-06\tAbsError: 5.86733e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.88537e+02\tAbsError: 5.54056e+14\n", - " Region: \"zone_1\"\tRelError: 9.55706e-02\tAbsError: 5.68586e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.55607e-02\tAbsError: 5.34036e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.94226e-06\tAbsError: 3.45499e-03\n", - " Region: \"zone_3\"\tRelError: 2.88441e+02\tAbsError: 5.54056e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01149e+02\tAbsError: 4.03929e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.87196e+02\tAbsError: 1.50127e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.56736e-02\tAbsError: 5.34036e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.94326e-06\tAbsError: 3.45537e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 3.44525e-01\tAbsError: 1.06041e+15\n", - " Region: \"zone_1\"\tRelError: 9.75460e-02\tAbsError: 7.81452e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.73221e-02\tAbsError: 4.45656e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.23905e-04\tAbsError: 7.76995e-02\n", - " Region: \"zone_3\"\tRelError: 2.46979e-01\tAbsError: 1.06041e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.07506e-02\tAbsError: 5.91244e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.56972e-02\tAbsError: 4.69170e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.30307e-01\tAbsError: 4.58663e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.23905e-04\tAbsError: 7.76995e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 6.64004e+02\tAbsError: 3.19562e+16\n", - " Region: \"zone_1\"\tRelError: 1.02711e+01\tAbsError: 3.71341e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02703e+01\tAbsError: 7.38247e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.55520e-04\tAbsError: 2.97517e-01\n", - " Region: \"zone_3\"\tRelError: 6.53733e+02\tAbsError: 3.19562e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.97454e+01\tAbsError: 1.62663e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.33455e+02\tAbsError: 1.56900e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 5.31683e-01\tAbsError: 7.38249e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.55520e-04\tAbsError: 2.97517e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 9.19464e+02\tAbsError: 4.04524e+15\n", - " Region: \"zone_1\"\tRelError: 4.46837e-01\tAbsError: 1.06447e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.46710e-01\tAbsError: 6.21780e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27338e-04\tAbsError: 4.42687e-02\n", - " Region: \"zone_3\"\tRelError: 9.19017e+02\tAbsError: 4.04524e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.57418e+01\tAbsError: 2.06871e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.03094e+02\tAbsError: 1.97653e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.80848e-01\tAbsError: 6.21780e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27373e-04\tAbsError: 4.42827e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.25730e-04\tAbsError: 4.09198e+11\n", - " Region: \"zone_1\"\tRelError: 8.09639e-05\tAbsError: 1.05680e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.79223e-05\tAbsError: 2.31215e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.04151e-06\tAbsError: 1.05657e-03\n", - " Region: \"zone_3\"\tRelError: 6.44766e-04\tAbsError: 4.09198e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.69437e-05\tAbsError: 3.66831e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.46261e-05\tAbsError: 4.23676e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 6.00155e-04\tAbsError: 2.35772e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.04158e-06\tAbsError: 1.05661e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.61612e+04\tAbsError: 1.37906e+14\n", - " Region: \"zone_1\"\tRelError: 7.41751e-02\tAbsError: 5.38905e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.41510e-02\tAbsError: 4.55245e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.40596e-05\tAbsError: 8.36596e-03\n", - " Region: \"zone_3\"\tRelError: 4.61611e+04\tAbsError: 1.37906e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.25911e+04\tAbsError: 9.87600e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.56996e+03\tAbsError: 3.91463e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.43675e-02\tAbsError: 4.55246e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.40596e-05\tAbsError: 8.36596e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.36002e-01\tAbsError: 6.07978e+13\n", - " Region: \"zone_1\"\tRelError: 6.95111e-02\tAbsError: 9.25006e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.95086e-02\tAbsError: 2.72112e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.58714e-06\tAbsError: 8.97795e-04\n", - " Region: \"zone_3\"\tRelError: 1.66491e-01\tAbsError: 6.07978e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.38802e-03\tAbsError: 2.95297e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.19525e-03\tAbsError: 3.12681e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.61905e-01\tAbsError: 2.72112e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.58878e-06\tAbsError: 8.98338e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 3.77528e+02\tAbsError: 1.23430e+16\n", - " Region: \"zone_1\"\tRelError: 1.29894e+00\tAbsError: 1.91163e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29859e+00\tAbsError: 6.91599e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.50937e-04\tAbsError: 1.22003e-01\n", - " Region: \"zone_3\"\tRelError: 3.76229e+02\tAbsError: 1.23430e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.27510e+02\tAbsError: 2.69801e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.48205e+02\tAbsError: 9.64500e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.13796e-01\tAbsError: 6.91599e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.50937e-04\tAbsError: 1.22003e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 8.02047e+01\tAbsError: 4.76727e+14\n", - " Region: \"zone_1\"\tRelError: 1.04826e-01\tAbsError: 8.34367e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04746e-01\tAbsError: 5.58213e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.94195e-05\tAbsError: 2.76154e-02\n", - " Region: \"zone_3\"\tRelError: 8.00998e+01\tAbsError: 4.76727e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.85718e+01\tAbsError: 3.07028e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.14232e+01\tAbsError: 1.69700e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04769e-01\tAbsError: 5.58213e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.94195e-05\tAbsError: 2.76154e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.50762e-03\tAbsError: 1.02667e+12\n", - " Region: \"zone_1\"\tRelError: 4.77667e-04\tAbsError: 4.19184e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.77548e-04\tAbsError: 5.13940e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19272e-07\tAbsError: 4.14045e-05\n", - " Region: \"zone_3\"\tRelError: 4.02995e-03\tAbsError: 1.02667e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.92271e-05\tAbsError: 5.17713e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.89991e-05\tAbsError: 5.08953e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.93161e-03\tAbsError: 5.31847e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19272e-07\tAbsError: 4.14045e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.46711e+02\tAbsError: 5.06500e+13\n", - " Region: \"zone_1\"\tRelError: 5.45390e-02\tAbsError: 3.77284e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.45345e-02\tAbsError: 3.61717e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.48202e-06\tAbsError: 1.55673e-03\n", - " Region: \"zone_3\"\tRelError: 1.46656e+02\tAbsError: 5.06500e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.45480e+02\tAbsError: 2.85847e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.12174e+00\tAbsError: 2.20653e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.48383e-02\tAbsError: 3.61718e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.48202e-06\tAbsError: 1.55673e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.92621e+03\tAbsError: 3.52155e+15\n", - " Region: \"zone_1\"\tRelError: 3.93767e-01\tAbsError: 1.13500e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.93624e-01\tAbsError: 6.38659e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42910e-04\tAbsError: 4.96339e-02\n", - " Region: \"zone_3\"\tRelError: 1.92581e+03\tAbsError: 3.52155e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17500e+01\tAbsError: 2.11357e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.86377e+03\tAbsError: 1.40799e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.90752e-01\tAbsError: 6.38659e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42910e-04\tAbsError: 4.96339e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.46362e-03\tAbsError: 8.86968e+11\n", - " Region: \"zone_1\"\tRelError: 6.90137e-04\tAbsError: 2.34211e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.83394e-04\tAbsError: 6.31008e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.74299e-06\tAbsError: 2.34148e-03\n", - " Region: \"zone_3\"\tRelError: 1.77348e-03\tAbsError: 8.86968e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.15266e-05\tAbsError: 4.91411e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.00836e-05\tAbsError: 3.95557e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.70513e-03\tAbsError: 6.41498e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.74370e-06\tAbsError: 2.34177e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.92390e+03\tAbsError: 8.33185e+13\n", - " Region: \"zone_1\"\tRelError: 8.16755e-02\tAbsError: 4.91163e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.16734e-02\tAbsError: 4.83794e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.11914e-06\tAbsError: 7.36892e-04\n", - " Region: \"zone_3\"\tRelError: 6.92382e+03\tAbsError: 8.33185e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.79886e+03\tAbsError: 3.08110e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.24871e+02\tAbsError: 5.25076e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.18178e-02\tAbsError: 4.83795e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.11914e-06\tAbsError: 7.36892e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.87878e-04\tAbsError: 3.71113e+10\n", - " Region: \"zone_1\"\tRelError: 3.08061e-05\tAbsError: 6.36156e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.06230e-05\tAbsError: 2.65699e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83040e-07\tAbsError: 6.35890e-05\n", - " Region: \"zone_3\"\tRelError: 2.57072e-04\tAbsError: 3.71113e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.17303e-06\tAbsError: 1.49809e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.20928e-06\tAbsError: 2.21304e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.52507e-04\tAbsError: 2.72049e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83108e-07\tAbsError: 6.36126e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.26686e+00\tAbsError: 1.15324e+13\n", - " Region: \"zone_1\"\tRelError: 4.20255e-02\tAbsError: 2.90045e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.20165e-02\tAbsError: 2.58850e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.98143e-06\tAbsError: 3.11954e-03\n", - " Region: \"zone_3\"\tRelError: 1.22484e+00\tAbsError: 1.15324e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99994e-01\tAbsError: 7.07820e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.82489e-01\tAbsError: 4.45424e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.23455e-02\tAbsError: 2.58807e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.98143e-06\tAbsError: 3.11954e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 4.93407e+02\tAbsError: 4.86622e+14\n", - " Region: \"zone_1\"\tRelError: 1.09282e-01\tAbsError: 8.57972e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09202e-01\tAbsError: 5.77790e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.05790e-05\tAbsError: 2.80182e-02\n", - " Region: \"zone_3\"\tRelError: 4.93298e+02\tAbsError: 4.86622e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07506e+02\tAbsError: 1.60245e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.85683e+02\tAbsError: 3.26377e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09279e-01\tAbsError: 5.77791e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.05790e-05\tAbsError: 2.80182e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.80479e-02\tAbsError: 2.50346e+12\n", - " Region: \"zone_1\"\tRelError: 5.40374e-03\tAbsError: 1.30048e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.40337e-03\tAbsError: 1.04735e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.71722e-07\tAbsError: 1.29001e-04\n", - " Region: \"zone_3\"\tRelError: 1.26441e-02\tAbsError: 2.50346e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.73060e-05\tAbsError: 1.25473e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.65146e-05\tAbsError: 1.24873e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.24499e-02\tAbsError: 1.06992e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.71735e-07\tAbsError: 1.29002e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.47740e+03\tAbsError: 2.32331e+13\n", - " Region: \"zone_1\"\tRelError: 6.14540e-02\tAbsError: 4.24419e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.14457e-02\tAbsError: 3.95640e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.28570e-06\tAbsError: 2.87786e-03\n", - " Region: \"zone_3\"\tRelError: 3.47734e+03\tAbsError: 2.32331e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.47473e+03\tAbsError: 7.88349e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.54397e+00\tAbsError: 1.53496e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.16827e-02\tAbsError: 3.95641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.28570e-06\tAbsError: 2.87786e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 3.15874e-04\tAbsError: 6.29995e+10\n", - " Region: \"zone_1\"\tRelError: 3.36655e-05\tAbsError: 6.22152e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.36476e-05\tAbsError: 2.89646e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.78252e-08\tAbsError: 6.19255e-06\n", - " Region: \"zone_3\"\tRelError: 2.82208e-04\tAbsError: 6.29995e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.92738e-06\tAbsError: 3.54342e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.90850e-06\tAbsError: 2.75653e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.76354e-04\tAbsError: 2.97673e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.78310e-08\tAbsError: 6.19458e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.49568e+06\tAbsError: 2.62728e+12\n", - " Region: \"zone_1\"\tRelError: 2.30462e-02\tAbsError: 2.12762e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.30351e-02\tAbsError: 1.74104e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11298e-05\tAbsError: 3.86578e-03\n", - " Region: \"zone_3\"\tRelError: 1.49568e+06\tAbsError: 2.62728e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.49568e+06\tAbsError: 1.23253e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.03928e-02\tAbsError: 1.39475e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.34298e-02\tAbsError: 1.74105e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11298e-05\tAbsError: 3.86578e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.25727e+02\tAbsError: 4.16178e+14\n", - " Region: \"zone_1\"\tRelError: 8.59757e-02\tAbsError: 5.54955e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.59618e-02\tAbsError: 5.06821e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.38444e-05\tAbsError: 4.81334e-03\n", - " Region: \"zone_3\"\tRelError: 4.25641e+02\tAbsError: 4.16178e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.19904e+02\tAbsError: 2.66373e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.65014e+00\tAbsError: 1.49805e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.62548e-02\tAbsError: 5.06822e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.38449e-05\tAbsError: 4.81369e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.45380e-03\tAbsError: 1.53142e+11\n", - " Region: \"zone_1\"\tRelError: 4.36448e-04\tAbsError: 1.39694e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.36046e-04\tAbsError: 7.04413e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.02062e-07\tAbsError: 1.39623e-04\n", - " Region: \"zone_3\"\tRelError: 1.01735e-03\tAbsError: 1.53142e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.93160e-06\tAbsError: 7.62931e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.97976e-06\tAbsError: 7.68486e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00504e-03\tAbsError: 7.23938e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.02172e-07\tAbsError: 1.39662e-04\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.92670e-05\tAbsError: 5.95028e+09\n", - " Region: \"zone_1\"\tRelError: 4.20495e-06\tAbsError: 4.23098e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.19278e-06\tAbsError: 3.10942e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.21699e-08\tAbsError: 4.22787e-06\n", - " Region: \"zone_3\"\tRelError: 3.50620e-05\tAbsError: 5.95028e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.01282e-07\tAbsError: 3.34784e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.02333e-07\tAbsError: 2.60243e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.44462e-05\tAbsError: 3.17149e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.21718e-08\tAbsError: 4.22856e-06\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.23060e+03\tAbsError: 1.13927e+13\n", - " Region: \"zone_1\"\tRelError: 4.39038e-02\tAbsError: 3.18697e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.38959e-02\tAbsError: 2.91306e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.88625e-06\tAbsError: 2.73914e-03\n", - " Region: \"zone_3\"\tRelError: 2.23056e+03\tAbsError: 1.13927e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.23014e+03\tAbsError: 6.81734e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.75883e-01\tAbsError: 4.57539e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.44473e-02\tAbsError: 2.91306e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.88625e-06\tAbsError: 2.73914e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.00227e+00\tAbsError: 2.54667e+12\n", - " Region: \"zone_1\"\tRelError: 1.21369e-04\tAbsError: 6.00683e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04100e-04\tAbsError: 8.81970e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72683e-05\tAbsError: 5.99801e-03\n", - " Region: \"zone_3\"\tRelError: 1.00214e+00\tAbsError: 2.54667e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99998e-01\tAbsError: 8.50699e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.16160e-03\tAbsError: 1.69597e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 9.67964e-04\tAbsError: 9.25856e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72683e-05\tAbsError: 5.99801e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.47587e+03\tAbsError: 1.37021e+14\n", - " Region: \"zone_1\"\tRelError: 6.58552e-02\tAbsError: 4.40073e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.58503e-02\tAbsError: 4.22991e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.91268e-06\tAbsError: 1.70821e-03\n", - " Region: \"zone_3\"\tRelError: 1.47580e+03\tAbsError: 1.37021e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.37201e+03\tAbsError: 9.48995e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03732e+02\tAbsError: 4.21217e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.61976e-02\tAbsError: 4.22992e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.91268e-06\tAbsError: 1.70821e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.24475e-03\tAbsError: 1.53017e+11\n", - " Region: \"zone_1\"\tRelError: 3.73962e-04\tAbsError: 1.57755e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.73917e-04\tAbsError: 5.81035e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.52602e-08\tAbsError: 1.57174e-05\n", - " Region: \"zone_3\"\tRelError: 8.70784e-04\tAbsError: 1.53017e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.73394e-06\tAbsError: 7.95928e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.67445e-06\tAbsError: 7.34246e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 8.59331e-04\tAbsError: 6.03244e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.52710e-08\tAbsError: 1.57212e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.11435e+00\tAbsError: 2.56027e+12\n", - " Region: \"zone_1\"\tRelError: 3.31148e-02\tAbsError: 2.80077e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.31053e-02\tAbsError: 2.47258e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.44895e-06\tAbsError: 3.28195e-03\n", - " Region: \"zone_3\"\tRelError: 1.08123e+00\tAbsError: 2.56027e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99686e-01\tAbsError: 1.22484e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.79624e-02\tAbsError: 1.33543e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.35769e-02\tAbsError: 2.47260e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.44895e-06\tAbsError: 3.28195e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 7.30356e-03\tAbsError: 3.16323e+12\n", - " Region: \"zone_1\"\tRelError: 7.06000e-04\tAbsError: 8.08571e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.05779e-04\tAbsError: 3.89462e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.21331e-07\tAbsError: 7.69624e-05\n", - " Region: \"zone_3\"\tRelError: 6.59756e-03\tAbsError: 3.16323e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.65369e-04\tAbsError: 9.98710e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.29064e-04\tAbsError: 2.16452e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.80290e-03\tAbsError: 3.94132e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.21331e-07\tAbsError: 7.69624e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.70866e-04\tAbsError: 1.74039e+10\n", - " Region: \"zone_1\"\tRelError: 5.14065e-05\tAbsError: 9.22102e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.13801e-05\tAbsError: 7.07909e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.64848e-08\tAbsError: 9.21394e-06\n", - " Region: \"zone_3\"\tRelError: 1.19459e-04\tAbsError: 1.74039e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.74477e-07\tAbsError: 8.71301e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.73252e-07\tAbsError: 8.69090e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18085e-04\tAbsError: 7.35517e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.64949e-08\tAbsError: 9.21749e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:55\u001b[0m.\u001b[1;36m243\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.08407e+00\tAbsError: 2.56590e+13\n", - " Region: \"zone_1\"\tRelError: 4.70180e-02\tAbsError: 3.66279e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.70057e-02\tAbsError: 3.23496e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.23179e-05\tAbsError: 4.27834e-03\n", - " Region: \"zone_3\"\tRelError: 2.03705e+00\tAbsError: 2.56590e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.97938e-01\tAbsError: 1.32544e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.91702e-01\tAbsError: 1.24046e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.74027e-02\tAbsError: 3.23497e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.23179e-05\tAbsError: 4.27834e-03\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:55\u001b[0m.\u001b[1;36m288\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.9 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:55\u001b[0m.\u001b[1;36m340\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 7.92908e-01\tAbsError: 1.90893e+12\n", - " Region: \"zone_1\"\tRelError: 7.45423e-05\tAbsError: 6.94713e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.45496e-05\tAbsError: 2.82529e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.99927e-05\tAbsError: 6.94431e-03\n", - " Region: \"zone_3\"\tRelError: 7.92833e-01\tAbsError: 1.90893e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.92004e-01\tAbsError: 5.67421e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.73647e-04\tAbsError: 1.34151e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.52663e-05\tAbsError: 2.88056e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.99927e-05\tAbsError: 6.94431e-03\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 5.00128e-04\tAbsError: 6.52866e+10\n", - " Region: \"zone_1\"\tRelError: 5.30193e-05\tAbsError: 2.05211e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.24288e-05\tAbsError: 6.99366e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.90586e-07\tAbsError: 2.05141e-04\n", - " Region: \"zone_3\"\tRelError: 4.47108e-04\tAbsError: 6.52866e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.25702e-05\tAbsError: 2.98698e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03058e-05\tAbsError: 3.54167e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.23642e-04\tAbsError: 7.09351e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.90608e-07\tAbsError: 2.05151e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 8.44361e+01\tAbsError: 1.41106e+17\n", - " Region: \"zone_1\"\tRelError: 6.61097e+01\tAbsError: 8.03344e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.61097e+01\tAbsError: 8.03338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83834e-09\tAbsError: 6.38649e-07\n", - " Region: \"zone_3\"\tRelError: 1.83264e+01\tAbsError: 1.41106e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 7.30985e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 6.80079e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.26430e-01\tAbsError: 8.03338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83857e-09\tAbsError: 6.38730e-07\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 8.65993e-05\tAbsError: 1.01653e+10\n", - " Region: \"zone_1\"\tRelError: 2.60547e-05\tAbsError: 1.49793e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.60504e-05\tAbsError: 3.97229e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.29429e-09\tAbsError: 1.49396e-06\n", - " Region: \"zone_3\"\tRelError: 6.05446e-05\tAbsError: 1.01653e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.70719e-07\tAbsError: 5.41900e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.66709e-07\tAbsError: 4.74632e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 5.98029e-05\tAbsError: 4.11440e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.29592e-09\tAbsError: 1.49454e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.30668e+04\tAbsError: 7.46291e+12\n", - " Region: \"zone_1\"\tRelError: 3.83242e-02\tAbsError: 2.95562e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.83134e-02\tAbsError: 2.58125e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.07783e-05\tAbsError: 3.74364e-03\n", - " Region: \"zone_3\"\tRelError: 6.30668e+04\tAbsError: 7.46291e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.30664e+04\tAbsError: 3.45167e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.28904e-01\tAbsError: 4.01125e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.90005e-02\tAbsError: 2.57582e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.07783e-05\tAbsError: 3.74364e-03\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 6.28603e-04\tAbsError: 1.99882e+11\n", - " Region: \"zone_1\"\tRelError: 6.39992e-05\tAbsError: 1.73295e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.39498e-05\tAbsError: 1.52893e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.93979e-08\tAbsError: 1.71766e-05\n", - " Region: \"zone_3\"\tRelError: 5.64604e-04\tAbsError: 1.99882e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.04492e-05\tAbsError: 9.24222e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.03161e-05\tAbsError: 1.07460e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.23789e-04\tAbsError: 1.55021e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.94093e-08\tAbsError: 1.71812e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 8.76682e-03\tAbsError: 3.66905e+12\n", - " Region: \"zone_1\"\tRelError: 8.36399e-04\tAbsError: 1.31358e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 8.36034e-04\tAbsError: 4.50885e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.64798e-07\tAbsError: 1.26849e-04\n", - " Region: \"zone_3\"\tRelError: 7.93042e-03\tAbsError: 3.66905e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.57300e-04\tAbsError: 1.17649e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.01683e-04\tAbsError: 2.49256e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 6.87107e-03\tAbsError: 4.56272e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.64798e-07\tAbsError: 1.26849e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 8.37365e+01\tAbsError: 7.67421e+16\n", - " Region: \"zone_1\"\tRelError: 4.53781e+00\tAbsError: 5.57061e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.53643e+00\tAbsError: 7.64430e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.38154e-03\tAbsError: 4.80618e-01\n", - " Region: \"zone_3\"\tRelError: 7.91987e+01\tAbsError: 7.67421e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 4.02016e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.82528e+01\tAbsError: 3.65405e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.94456e+00\tAbsError: 7.64430e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.38154e-03\tAbsError: 4.80618e-01\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 7.78051e-05\tAbsError: 1.62693e+10\n", - " Region: \"zone_1\"\tRelError: 8.16648e-06\tAbsError: 1.33984e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 8.12799e-06\tAbsError: 1.21676e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.84977e-08\tAbsError: 1.33863e-05\n", - " Region: \"zone_3\"\tRelError: 6.96386e-05\tAbsError: 1.62693e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.72931e-06\tAbsError: 8.65618e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.72298e-06\tAbsError: 7.61314e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 6.61478e-05\tAbsError: 1.23316e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.85089e-08\tAbsError: 1.33905e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.03853e+00\tAbsError: 3.18028e+12\n", - " Region: \"zone_1\"\tRelError: 1.44918e-02\tAbsError: 1.58284e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.44785e-02\tAbsError: 1.11984e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.33301e-05\tAbsError: 4.63001e-03\n", - " Region: \"zone_3\"\tRelError: 1.02404e+00\tAbsError: 3.18028e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99981e-01\tAbsError: 1.55439e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.22099e-03\tAbsError: 1.62589e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.48224e-02\tAbsError: 1.11985e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.33301e-05\tAbsError: 4.63001e-03\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:58\u001b[0m.\u001b[1;36m093\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:58\u001b[0m.\u001b[1;36m093\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.20833333333333334\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 10\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 6.96843e-04\tAbsError: 1.13577e+11\n", - " Region: \"zone_1\"\tRelError: 7.40041e-05\tAbsError: 2.40654e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.33116e-05\tAbsError: 1.09664e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.92510e-07\tAbsError: 2.40545e-04\n", - " Region: \"zone_3\"\tRelError: 6.22838e-04\tAbsError: 1.13577e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.45499e-05\tAbsError: 5.24533e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.37560e-05\tAbsError: 6.11233e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.93840e-04\tAbsError: 1.11237e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.92510e-07\tAbsError: 2.40545e-04\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:58\u001b[0m.\u001b[1;36m844\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:58\u001b[0m.\u001b[1;36m875\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.95 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:25:58\u001b[0m.\u001b[1;36m905\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 4.67971e+03\tAbsError: 3.01461e+16\n", - " Region: \"zone_1\"\tRelError: 4.04216e+01\tAbsError: 2.77713e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.04210e+01\tAbsError: 7.21037e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.91375e-04\tAbsError: 2.05609e-01\n", - " Region: \"zone_3\"\tRelError: 4.63929e+03\tAbsError: 3.01461e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.26446e+03\tAbsError: 1.32531e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.37410e+03\tAbsError: 1.68930e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 7.25285e-01\tAbsError: 7.21037e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.91375e-04\tAbsError: 2.05609e-01\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.78033e-01\tAbsError: 3.70628e+12\n", - " Region: \"zone_1\"\tRelError: 2.47988e-04\tAbsError: 5.43708e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.32390e-04\tAbsError: 1.92962e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.55978e-05\tAbsError: 5.41778e-03\n", - " Region: \"zone_3\"\tRelError: 3.77785e-01\tAbsError: 3.70628e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.74214e-01\tAbsError: 1.32572e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.40773e-03\tAbsError: 2.38056e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.14798e-03\tAbsError: 1.94593e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.55978e-05\tAbsError: 5.41778e-03\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 7.47471e-04\tAbsError: 2.34931e+11\n", - " Region: \"zone_1\"\tRelError: 7.61699e-05\tAbsError: 2.26699e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.61052e-05\tAbsError: 1.79159e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.46815e-08\tAbsError: 2.24908e-05\n", - " Region: \"zone_3\"\tRelError: 6.71301e-04\tAbsError: 2.34931e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.40726e-05\tAbsError: 1.09456e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.39157e-05\tAbsError: 1.25476e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 6.23248e-04\tAbsError: 1.81660e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.46979e-08\tAbsError: 2.24974e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.26592e+01\tAbsError: 9.07666e+15\n", - " Region: \"zone_1\"\tRelError: 6.10008e+01\tAbsError: 4.26161e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.10008e+01\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.53966e-09\tAbsError: 1.92633e-06\n", - " Region: \"zone_3\"\tRelError: 1.65838e+00\tAbsError: 9.07666e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83421e-01\tAbsError: 5.02255e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.83353e-01\tAbsError: 4.05411e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.16036e-02\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.54116e-09\tAbsError: 1.92686e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.45051e+02\tAbsError: 3.22525e+17\n", - " Region: \"zone_1\"\tRelError: 6.54094e+01\tAbsError: 8.24908e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.54094e+01\tAbsError: 8.24901e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.85102e-09\tAbsError: 6.43964e-07\n", - " Region: \"zone_3\"\tRelError: 7.96416e+01\tAbsError: 3.22525e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.35911e+01\tAbsError: 1.62303e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.52689e+01\tAbsError: 1.60222e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 7.81616e-01\tAbsError: 8.24901e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.85177e-09\tAbsError: 6.44234e-07\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 6.72475e-03\tAbsError: 2.85913e+12\n", - " Region: \"zone_1\"\tRelError: 6.31779e-04\tAbsError: 3.90493e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.31676e-04\tAbsError: 3.51587e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.02188e-07\tAbsError: 3.55335e-05\n", - " Region: \"zone_3\"\tRelError: 6.09297e-03\tAbsError: 2.85913e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.08369e-04\tAbsError: 9.02566e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.89143e-04\tAbsError: 1.95656e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.19536e-03\tAbsError: 3.55808e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.02188e-07\tAbsError: 3.55335e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.67873e+03\tAbsError: 1.05528e+16\n", - " Region: \"zone_1\"\tRelError: 1.00757e+00\tAbsError: 1.20375e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00742e+00\tAbsError: 6.72143e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52930e-04\tAbsError: 5.31609e-02\n", - " Region: \"zone_3\"\tRelError: 5.67772e+03\tAbsError: 1.05528e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.39587e+01\tAbsError: 5.79006e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.64342e+03\tAbsError: 4.76271e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 3.37998e-01\tAbsError: 6.72143e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52930e-04\tAbsError: 5.31609e-02\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 9.96706e-05\tAbsError: 2.13761e+10\n", - " Region: \"zone_1\"\tRelError: 1.04456e-05\tAbsError: 1.59397e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03998e-05\tAbsError: 1.57890e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.57957e-08\tAbsError: 1.59239e-05\n", - " Region: \"zone_3\"\tRelError: 8.92250e-05\tAbsError: 2.13761e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.25511e-06\tAbsError: 1.14120e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.24614e-06\tAbsError: 9.96404e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 8.46780e-05\tAbsError: 1.60006e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.58100e-08\tAbsError: 1.59294e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:00\u001b[0m.\u001b[1;36m602\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.2\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.27969e+00\tAbsError: 3.48721e+14\n", - " Region: \"zone_1\"\tRelError: 1.79507e+00\tAbsError: 9.78465e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.79489e+00\tAbsError: 3.27224e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.87321e-04\tAbsError: 6.51242e-02\n", - " Region: \"zone_3\"\tRelError: 1.48462e+00\tAbsError: 3.48721e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.62890e-01\tAbsError: 1.71311e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.57486e-01\tAbsError: 1.77410e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.40543e-02\tAbsError: 3.27228e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.87321e-04\tAbsError: 6.51242e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.82544e+01\tAbsError: 2.10291e+17\n", - " Region: \"zone_1\"\tRelError: 1.04168e+01\tAbsError: 4.87343e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04157e+01\tAbsError: 7.88298e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.17496e-03\tAbsError: 4.08513e-01\n", - " Region: \"zone_3\"\tRelError: 2.78375e+01\tAbsError: 2.10291e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.09352e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.29716e+01\tAbsError: 1.00939e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 5.86472e+00\tAbsError: 7.88298e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.17496e-03\tAbsError: 4.08513e-01\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 3.44573e-04\tAbsError: 2.22312e+10\n", - " Region: \"zone_1\"\tRelError: 3.62300e-05\tAbsError: 1.83529e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.57017e-05\tAbsError: 3.53910e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.28265e-07\tAbsError: 1.83494e-04\n", - " Region: \"zone_3\"\tRelError: 3.08343e-04\tAbsError: 2.22312e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.13840e-05\tAbsError: 9.98484e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.35525e-06\tAbsError: 1.22464e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.87075e-04\tAbsError: 3.58808e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.28288e-07\tAbsError: 1.83504e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.34034e+03\tAbsError: 1.20343e+15\n", - " Region: \"zone_1\"\tRelError: 1.22444e-01\tAbsError: 1.58781e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.22165e-01\tAbsError: 6.16386e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.79375e-04\tAbsError: 9.71428e-02\n", - " Region: \"zone_3\"\tRelError: 1.34022e+03\tAbsError: 1.20343e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.83041e+02\tAbsError: 6.78262e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.57032e+02\tAbsError: 5.25172e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.46551e-01\tAbsError: 6.16387e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.79375e-04\tAbsError: 9.71428e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.15185e+01\tAbsError: 8.37846e+15\n", - " Region: \"zone_1\"\tRelError: 9.89193e+00\tAbsError: 4.09567e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.89193e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.96045e-09\tAbsError: 2.42039e-06\n", - " Region: \"zone_3\"\tRelError: 1.62652e+00\tAbsError: 8.37846e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69532e-01\tAbsError: 4.63620e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69461e-01\tAbsError: 3.74226e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.75319e-02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.96229e-09\tAbsError: 2.42104e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.29078e+00\tAbsError: 4.47109e+13\n", - " Region: \"zone_1\"\tRelError: 2.42382e-01\tAbsError: 3.11434e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.42367e-01\tAbsError: 2.58832e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.51300e-05\tAbsError: 5.26019e-03\n", - " Region: \"zone_3\"\tRelError: 1.04840e+00\tAbsError: 4.47109e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.78941e-01\tAbsError: 3.21718e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.51761e-01\tAbsError: 1.25392e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17681e-01\tAbsError: 2.58952e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.51300e-05\tAbsError: 5.26019e-03\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 5.57184e-04\tAbsError: 1.78594e+11\n", - " Region: \"zone_1\"\tRelError: 5.66836e-05\tAbsError: 1.33048e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.66457e-05\tAbsError: 1.36613e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.78695e-08\tAbsError: 1.31682e-05\n", - " Region: \"zone_3\"\tRelError: 5.00501e-04\tAbsError: 1.78594e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.82685e-05\tAbsError: 8.24428e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.81485e-05\tAbsError: 9.61515e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.64046e-04\tAbsError: 1.38512e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.78774e-08\tAbsError: 1.31711e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 6.93966e+02\tAbsError: 8.18852e+16\n", - " Region: \"zone_1\"\tRelError: 1.61185e+01\tAbsError: 4.86099e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.61173e+01\tAbsError: 7.47713e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18190e-03\tAbsError: 4.11328e-01\n", - " Region: \"zone_3\"\tRelError: 6.77847e+02\tAbsError: 8.18852e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.08584e+02\tAbsError: 4.73922e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.68793e+02\tAbsError: 3.44930e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 4.68594e-01\tAbsError: 7.47714e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18560e-03\tAbsError: 4.12638e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.95686e+02\tAbsError: 6.28264e+14\n", - " Region: \"zone_1\"\tRelError: 9.69104e-02\tAbsError: 6.14111e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.68925e-02\tAbsError: 5.51938e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.78804e-05\tAbsError: 6.21733e-03\n", - " Region: \"zone_3\"\tRelError: 3.95589e+02\tAbsError: 6.28264e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.54891e+02\tAbsError: 3.72710e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.05420e+01\tAbsError: 2.55554e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55752e-01\tAbsError: 5.51939e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.78804e-05\tAbsError: 6.21733e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.94648e+00\tAbsError: 2.98429e+14\n", - " Region: \"zone_1\"\tRelError: 5.14531e-01\tAbsError: 9.09002e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.14358e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72973e-04\tAbsError: 6.01365e-02\n", - " Region: \"zone_3\"\tRelError: 1.43195e+00\tAbsError: 2.98429e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37879e-01\tAbsError: 1.45713e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32394e-01\tAbsError: 1.52715e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.15050e-02\tAbsError: 3.07641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72973e-04\tAbsError: 6.01365e-02\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 6.18426e-05\tAbsError: 1.23605e+10\n", - " Region: \"zone_1\"\tRelError: 6.50735e-06\tAbsError: 1.18225e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.47337e-06\tAbsError: 9.41299e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.39733e-08\tAbsError: 1.18131e-05\n", - " Region: \"zone_3\"\tRelError: 5.53353e-05\tAbsError: 1.23605e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33181e-06\tAbsError: 6.56801e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.32777e-06\tAbsError: 5.79248e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 5.26417e-05\tAbsError: 9.54137e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.39830e-08\tAbsError: 1.18168e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.41241e-01\tAbsError: 2.92135e+12\n", - " Region: \"zone_1\"\tRelError: 1.87261e-02\tAbsError: 1.52077e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87161e-02\tAbsError: 1.17194e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00337e-05\tAbsError: 3.48833e-03\n", - " Region: \"zone_3\"\tRelError: 3.22515e-01\tAbsError: 2.92135e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.35811e-01\tAbsError: 2.03287e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.77298e-02\tAbsError: 8.88478e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.89640e-02\tAbsError: 1.17194e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00341e-05\tAbsError: 3.48852e-03\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:03\u001b[0m.\u001b[1;36m816\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:03\u001b[0m.\u001b[1;36m816\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.20714285714285713\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.62856e+03\tAbsError: 2.33966e+16\n", - " Region: \"zone_1\"\tRelError: 1.79222e+00\tAbsError: 6.25008e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.79062e+00\tAbsError: 7.02256e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59642e-03\tAbsError: 5.54782e-01\n", - " Region: \"zone_3\"\tRelError: 3.62677e+03\tAbsError: 2.33966e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68602e+01\tAbsError: 1.20119e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.54928e+03\tAbsError: 1.13847e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.22038e-01\tAbsError: 7.02257e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59642e-03\tAbsError: 5.54782e-01\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.23312e+02\tAbsError: 1.77523e+14\n", - " Region: \"zone_1\"\tRelError: 7.60374e-02\tAbsError: 4.96944e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.60314e-02\tAbsError: 4.76396e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.91597e-06\tAbsError: 2.05477e-03\n", - " Region: \"zone_3\"\tRelError: 7.23236e+02\tAbsError: 1.77523e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.57278e+02\tAbsError: 1.33374e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.65882e+02\tAbsError: 4.41496e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.64860e-02\tAbsError: 4.76397e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.91597e-06\tAbsError: 2.05477e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.04599e+00\tAbsError: 3.86283e+13\n", - " Region: \"zone_1\"\tRelError: 9.93293e-02\tAbsError: 3.04735e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.93161e-02\tAbsError: 2.58731e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32322e-05\tAbsError: 4.60043e-03\n", - " Region: \"zone_3\"\tRelError: 9.46661e-01\tAbsError: 3.86283e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39749e-01\tAbsError: 2.78664e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.98990e-01\tAbsError: 1.07619e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07909e-01\tAbsError: 2.56750e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32322e-05\tAbsError: 4.60043e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.91289e-02\tAbsError: 2.88158e+12\n", - " Region: \"zone_1\"\tRelError: 6.81446e-03\tAbsError: 2.78526e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.80644e-03\tAbsError: 1.86670e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.01434e-06\tAbsError: 2.78339e-03\n", - " Region: \"zone_3\"\tRelError: 8.23144e-02\tAbsError: 2.88158e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.35009e-02\tAbsError: 1.71236e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.35888e-04\tAbsError: 1.16922e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.56961e-03\tAbsError: 1.86733e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.01434e-06\tAbsError: 2.78339e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.31027e+02\tAbsError: 3.00458e+15\n", - " Region: \"zone_1\"\tRelError: 3.24992e-01\tAbsError: 2.59747e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.24433e-01\tAbsError: 6.50815e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.59832e-04\tAbsError: 1.94665e-01\n", - " Region: \"zone_3\"\tRelError: 6.30702e+02\tAbsError: 3.00458e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.67501e+02\tAbsError: 2.00631e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.61532e+02\tAbsError: 9.98272e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66880e+00\tAbsError: 6.50816e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.59832e-04\tAbsError: 1.94665e-01\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.77748e+01\tAbsError: 8.97693e+15\n", - " Region: \"zone_1\"\tRelError: 3.61197e+01\tAbsError: 4.23851e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.61197e+01\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.52655e-09\tAbsError: 1.57404e-06\n", - " Region: \"zone_3\"\tRelError: 1.65511e+00\tAbsError: 8.97693e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.81540e-01\tAbsError: 4.96736e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.81472e-01\tAbsError: 4.00957e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.21013e-02\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.52778e-09\tAbsError: 1.57447e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.14650e+00\tAbsError: 4.20836e+13\n", - " Region: \"zone_1\"\tRelError: 5.72071e-02\tAbsError: 4.38145e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.71923e-02\tAbsError: 3.86848e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47693e-05\tAbsError: 5.12967e-03\n", - " Region: \"zone_3\"\tRelError: 3.08929e+00\tAbsError: 4.20836e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.97813e-01\tAbsError: 2.36968e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.03383e+00\tAbsError: 1.83868e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.76355e-02\tAbsError: 3.86849e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47693e-05\tAbsError: 5.12967e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.81931e-01\tAbsError: 3.51173e+12\n", - " Region: \"zone_1\"\tRelError: 1.43962e-02\tAbsError: 1.26242e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43863e-02\tAbsError: 9.16567e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.94788e-06\tAbsError: 3.45854e-03\n", - " Region: \"zone_3\"\tRelError: 2.67534e-01\tAbsError: 3.51173e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.10366e-01\tAbsError: 2.07267e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.20559e-02\tAbsError: 1.43906e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51023e-02\tAbsError: 9.16572e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.94788e-06\tAbsError: 3.45854e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.23983e-03\tAbsError: 1.36792e+12\n", - " Region: \"zone_1\"\tRelError: 1.01079e-03\tAbsError: 1.28339e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01043e-03\tAbsError: 1.92525e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.63132e-07\tAbsError: 1.26414e-04\n", - " Region: \"zone_3\"\tRelError: 2.22904e-03\tAbsError: 1.36792e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.74133e-04\tAbsError: 3.74390e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.76038e-04\tAbsError: 9.93532e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87850e-03\tAbsError: 1.92892e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.63295e-07\tAbsError: 1.26474e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.88819e+03\tAbsError: 9.32942e+14\n", - " Region: \"zone_1\"\tRelError: 1.18425e-01\tAbsError: 9.22039e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18330e-01\tAbsError: 5.91837e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.49690e-05\tAbsError: 3.30202e-02\n", - " Region: \"zone_3\"\tRelError: 2.88807e+03\tAbsError: 9.32942e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.43139e+03\tAbsError: 6.31743e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.56293e+02\tAbsError: 3.01199e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.87206e-01\tAbsError: 5.91838e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.49690e-05\tAbsError: 3.30202e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 5.57520e+00\tAbsError: 3.41172e+14\n", - " Region: \"zone_1\"\tRelError: 4.09766e+00\tAbsError: 9.68705e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.09747e+00\tAbsError: 3.24496e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.85298e-04\tAbsError: 6.44208e-02\n", - " Region: \"zone_3\"\tRelError: 1.47755e+00\tAbsError: 3.41172e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.59180e-01\tAbsError: 1.67399e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.54624e-01\tAbsError: 1.73772e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.35588e-02\tAbsError: 3.24501e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.85298e-04\tAbsError: 6.44208e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 8.92264e+02\tAbsError: 1.46420e+13\n", - " Region: \"zone_1\"\tRelError: 4.21097e-02\tAbsError: 3.28380e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.20961e-02\tAbsError: 2.81027e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36338e-05\tAbsError: 4.73535e-03\n", - " Region: \"zone_3\"\tRelError: 8.92222e+02\tAbsError: 1.46420e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.91554e+02\tAbsError: 6.91559e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.25440e-01\tAbsError: 7.72638e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.23139e-02\tAbsError: 2.81028e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36338e-05\tAbsError: 4.73535e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.22418e-02\tAbsError: 3.50272e+12\n", - " Region: \"zone_1\"\tRelError: 6.27955e-03\tAbsError: 2.19287e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.27328e-03\tAbsError: 1.50746e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.27058e-06\tAbsError: 2.17780e-03\n", - " Region: \"zone_3\"\tRelError: 6.59622e-02\tAbsError: 3.50272e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.67826e-02\tAbsError: 2.11762e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.14388e-04\tAbsError: 1.38509e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.55902e-03\tAbsError: 1.55696e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.27058e-06\tAbsError: 2.17780e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.09066e-04\tAbsError: 1.04921e+11\n", - " Region: \"zone_1\"\tRelError: 2.62531e-04\tAbsError: 8.16597e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.62297e-04\tAbsError: 5.98558e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.34939e-07\tAbsError: 8.15998e-05\n", - " Region: \"zone_3\"\tRelError: 3.46534e-04\tAbsError: 1.04921e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.33554e-06\tAbsError: 7.61208e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.25715e-06\tAbsError: 2.87997e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.29706e-04\tAbsError: 6.29349e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.35038e-07\tAbsError: 8.16321e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.13880e+02\tAbsError: 1.57052e+14\n", - " Region: \"zone_1\"\tRelError: 8.55413e-02\tAbsError: 7.29682e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.54820e-02\tAbsError: 5.23288e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.93599e-05\tAbsError: 2.06393e-02\n", - " Region: \"zone_3\"\tRelError: 1.13794e+02\tAbsError: 1.57052e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.49330e+01\tAbsError: 4.83658e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.87403e+01\tAbsError: 1.08686e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20863e-01\tAbsError: 5.23289e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.93599e-05\tAbsError: 2.06393e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.45566e+00\tAbsError: 4.38834e+13\n", - " Region: \"zone_1\"\tRelError: 4.22260e-01\tAbsError: 3.10654e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.22245e-01\tAbsError: 2.58856e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.48986e-05\tAbsError: 5.17974e-03\n", - " Region: \"zone_3\"\tRelError: 1.03340e+00\tAbsError: 4.38834e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73706e-01\tAbsError: 3.15931e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.43368e-01\tAbsError: 1.22903e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16309e-01\tAbsError: 2.58965e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.48986e-05\tAbsError: 5.17974e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.08957e+00\tAbsError: 4.67918e+12\n", - " Region: \"zone_1\"\tRelError: 2.91985e-02\tAbsError: 2.86891e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.91811e-02\tAbsError: 2.26505e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73858e-05\tAbsError: 6.03862e-03\n", - " Region: \"zone_3\"\tRelError: 1.06038e+00\tAbsError: 4.67918e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.96820e-01\tAbsError: 1.64471e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.38070e-02\tAbsError: 3.03447e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.97307e-02\tAbsError: 2.26508e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73858e-05\tAbsError: 6.03862e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.61553e-03\tAbsError: 1.05148e+12\n", - " Region: \"zone_1\"\tRelError: 2.24360e-04\tAbsError: 1.45741e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.23946e-04\tAbsError: 1.49308e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14364e-07\tAbsError: 1.44248e-04\n", - " Region: \"zone_3\"\tRelError: 1.39117e-03\tAbsError: 1.05148e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46575e-04\tAbsError: 2.71194e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.31745e-04\tAbsError: 7.80282e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11244e-03\tAbsError: 1.49720e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14525e-07\tAbsError: 1.44306e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.18323e-04\tAbsError: 7.54503e+10\n", - " Region: \"zone_1\"\tRelError: 1.32414e-04\tAbsError: 3.51021e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.32404e-04\tAbsError: 6.46082e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.89739e-09\tAbsError: 3.44561e-06\n", - " Region: \"zone_3\"\tRelError: 1.85909e-04\tAbsError: 7.54503e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.96290e-06\tAbsError: 3.07843e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.90608e-06\tAbsError: 4.46660e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72030e-04\tAbsError: 6.49049e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.90251e-09\tAbsError: 3.44747e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.32840e-01\tAbsError: 2.84312e+12\n", - " Region: \"zone_1\"\tRelError: 2.06699e-02\tAbsError: 1.48305e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06599e-02\tAbsError: 1.13363e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00507e-05\tAbsError: 3.49425e-03\n", - " Region: \"zone_3\"\tRelError: 3.12170e-01\tAbsError: 2.84312e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.30160e-01\tAbsError: 1.94377e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.36988e-02\tAbsError: 8.99360e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.83008e-02\tAbsError: 1.13363e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00507e-05\tAbsError: 3.49425e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.48129e+04\tAbsError: 1.20564e+14\n", - " Region: \"zone_1\"\tRelError: 6.63227e-02\tAbsError: 4.87508e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.63097e-02\tAbsError: 4.42519e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.29540e-05\tAbsError: 4.49889e-03\n", - " Region: \"zone_3\"\tRelError: 5.48128e+04\tAbsError: 1.20564e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.93615e+02\tAbsError: 6.52648e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.46192e+04\tAbsError: 5.52991e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.67437e-02\tAbsError: 4.42520e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.29540e-05\tAbsError: 4.49889e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 5.82249e-01\tAbsError: 3.89306e+12\n", - " Region: \"zone_1\"\tRelError: 1.15390e-04\tAbsError: 1.16461e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.18796e-05\tAbsError: 6.35138e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.35108e-05\tAbsError: 1.16397e-02\n", - " Region: \"zone_3\"\tRelError: 5.82134e-01\tAbsError: 3.89306e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.80954e-01\tAbsError: 1.04210e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.18447e-04\tAbsError: 2.85096e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.27764e-04\tAbsError: 6.51921e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.35108e-05\tAbsError: 1.16397e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.04474e-04\tAbsError: 1.25302e+11\n", - " Region: \"zone_1\"\tRelError: 1.66223e-04\tAbsError: 5.88340e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66054e-04\tAbsError: 7.31627e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69180e-07\tAbsError: 5.87608e-05\n", - " Region: \"zone_3\"\tRelError: 4.38251e-04\tAbsError: 1.25302e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07347e-05\tAbsError: 8.57551e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.06392e-05\tAbsError: 3.95471e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.16708e-04\tAbsError: 7.69543e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69180e-07\tAbsError: 5.87608e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 9.48378e-06\tAbsError: 2.45281e+09\n", - " Region: \"zone_1\"\tRelError: 3.59744e-06\tAbsError: 4.31703e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.58502e-06\tAbsError: 1.36333e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.24138e-08\tAbsError: 4.31567e-06\n", - " Region: \"zone_3\"\tRelError: 5.88634e-06\tAbsError: 2.45281e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.31749e-07\tAbsError: 2.17401e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.05660e-07\tAbsError: 2.78792e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 5.43652e-06\tAbsError: 1.42292e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.24148e-08\tAbsError: 4.31610e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:10\u001b[0m.\u001b[1;36m903\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:10\u001b[0m.\u001b[1;36m903\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.31666666666666665\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.45241e-02\tAbsError: 6.08779e+12\n", - " Region: \"zone_1\"\tRelError: 1.38533e-03\tAbsError: 1.93904e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.38480e-03\tAbsError: 7.53521e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.35967e-07\tAbsError: 1.86369e-04\n", - " Region: \"zone_3\"\tRelError: 1.31387e-02\tAbsError: 6.08779e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.19346e-04\tAbsError: 1.95279e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.35855e-04\tAbsError: 4.13500e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13830e-02\tAbsError: 7.62534e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.35967e-07\tAbsError: 1.86369e-04\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.24302e-02\tAbsError: 2.86262e+12\n", - " Region: \"zone_1\"\tRelError: 1.27117e-02\tAbsError: 2.69830e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.27040e-02\tAbsError: 1.65367e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.76457e-06\tAbsError: 2.69665e-03\n", - " Region: \"zone_3\"\tRelError: 7.97185e-02\tAbsError: 2.86262e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.09232e-02\tAbsError: 1.72387e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.97977e-04\tAbsError: 1.13875e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.58955e-03\tAbsError: 1.70416e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.76457e-06\tAbsError: 2.69665e-03\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.70703e+02\tAbsError: 2.82032e+13\n", - " Region: \"zone_1\"\tRelError: 4.84371e-02\tAbsError: 4.21872e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.84154e-02\tAbsError: 3.46615e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.16687e-05\tAbsError: 7.52567e-03\n", - " Region: \"zone_3\"\tRelError: 3.70655e+02\tAbsError: 2.82032e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.69606e+02\tAbsError: 1.64213e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.99820e-01\tAbsError: 1.17818e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.88175e-02\tAbsError: 3.46617e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.16687e-05\tAbsError: 7.52567e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.49534e-04\tAbsError: 5.25628e+10\n", - " Region: \"zone_1\"\tRelError: 3.67429e-05\tAbsError: 6.09081e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.67256e-05\tAbsError: 4.65389e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73624e-08\tAbsError: 6.04427e-06\n", - " Region: \"zone_3\"\tRelError: 1.12791e-04\tAbsError: 5.25628e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.87822e-06\tAbsError: 1.95393e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.83754e-06\tAbsError: 3.30235e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03058e-04\tAbsError: 4.67667e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73702e-08\tAbsError: 6.04712e-06\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.08965e-03\tAbsError: 1.66126e+11\n", - " Region: \"zone_1\"\tRelError: 1.15781e-04\tAbsError: 3.98908e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14633e-04\tAbsError: 1.63463e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.14796e-06\tAbsError: 3.98745e-04\n", - " Region: \"zone_3\"\tRelError: 9.73866e-04\tAbsError: 1.66126e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.41675e-05\tAbsError: 7.66761e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.03134e-05\tAbsError: 8.94495e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 9.28237e-04\tAbsError: 1.65873e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.14796e-06\tAbsError: 3.98745e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.46753e+00\tAbsError: 8.85142e+12\n", - " Region: \"zone_1\"\tRelError: 3.80736e-02\tAbsError: 3.50731e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.80472e-02\tAbsError: 2.58955e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.64244e-05\tAbsError: 9.17760e-03\n", - " Region: \"zone_3\"\tRelError: 1.42945e+00\tAbsError: 8.85142e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.13018e+00\tAbsError: 2.66676e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.60374e-01\tAbsError: 6.18465e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.88771e-02\tAbsError: 2.58916e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.64244e-05\tAbsError: 9.17760e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.75500e-03\tAbsError: 1.32204e+12\n", - " Region: \"zone_1\"\tRelError: 1.65378e-03\tAbsError: 1.30948e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65340e-03\tAbsError: 1.86320e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.70805e-07\tAbsError: 1.29085e-04\n", - " Region: \"zone_3\"\tRelError: 2.10123e-03\tAbsError: 1.32204e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.68767e-04\tAbsError: 3.59146e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.69627e-04\tAbsError: 9.62892e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.76246e-03\tAbsError: 1.86697e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.70964e-07\tAbsError: 1.29144e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.66636e+01\tAbsError: 8.97630e+15\n", - " Region: \"zone_1\"\tRelError: 2.49916e+01\tAbsError: 4.26144e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49916e+01\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.33059e-10\tAbsError: 1.50679e-07\n", - " Region: \"zone_3\"\tRelError: 1.67196e+00\tAbsError: 8.97630e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83514e-01\tAbsError: 5.13521e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.83497e-01\tAbsError: 3.84109e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04945e-01\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.33239e-10\tAbsError: 1.50741e-07\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.34617e-05\tAbsError: 4.93078e+09\n", - " Region: \"zone_1\"\tRelError: 6.39658e-06\tAbsError: 2.70504e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.38880e-06\tAbsError: 2.92925e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.78001e-09\tAbsError: 2.70211e-06\n", - " Region: \"zone_3\"\tRelError: 1.70651e-05\tAbsError: 4.93078e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.08409e-07\tAbsError: 3.64055e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.02771e-07\tAbsError: 1.29023e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.62462e-05\tAbsError: 3.07627e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.78042e-09\tAbsError: 2.70228e-06\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 1.23496e-03\tAbsError: 3.88937e+11\n", - " Region: \"zone_1\"\tRelError: 1.25820e-04\tAbsError: 3.61467e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.25717e-04\tAbsError: 2.96756e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.03101e-07\tAbsError: 3.58499e-05\n", - " Region: \"zone_3\"\tRelError: 1.10914e-03\tAbsError: 3.88937e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.98691e-05\tAbsError: 1.81164e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.96088e-05\tAbsError: 2.07773e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02956e-03\tAbsError: 3.00897e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.03128e-07\tAbsError: 3.58606e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:13\u001b[0m.\u001b[1;36m398\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:13\u001b[0m.\u001b[1;36m398\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 5.89664e-01\tAbsError: 7.12933e+12\n", - " Region: \"zone_1\"\tRelError: 1.82370e-02\tAbsError: 2.54424e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82061e-02\tAbsError: 1.47192e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.08737e-05\tAbsError: 1.07232e-02\n", - " Region: \"zone_3\"\tRelError: 5.71427e-01\tAbsError: 7.12933e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.46019e-01\tAbsError: 1.65823e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.76669e-03\tAbsError: 5.47110e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86105e-02\tAbsError: 1.47194e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.08737e-05\tAbsError: 1.07232e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 8.49928e-04\tAbsError: 1.08021e+11\n", - " Region: \"zone_1\"\tRelError: 4.89613e-04\tAbsError: 7.83192e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.89388e-04\tAbsError: 6.17623e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.25315e-07\tAbsError: 7.82574e-05\n", - " Region: \"zone_3\"\tRelError: 3.60315e-04\tAbsError: 1.08021e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.68128e-06\tAbsError: 7.75669e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.60123e-06\tAbsError: 3.04546e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.42807e-04\tAbsError: 6.49402e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.25391e-07\tAbsError: 7.82820e-05\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.64103e+00\tAbsError: 3.38547e+14\n", - " Region: \"zone_1\"\tRelError: 1.41318e-01\tAbsError: 9.34351e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.41143e-01\tAbsError: 3.27224e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.74663e-04\tAbsError: 6.07127e-02\n", - " Region: \"zone_3\"\tRelError: 1.49971e+00\tAbsError: 3.38547e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.63048e-01\tAbsError: 1.99221e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.58072e-01\tAbsError: 1.39326e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.84139e-02\tAbsError: 3.27228e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.74663e-04\tAbsError: 6.07127e-02\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 1.60246e-04\tAbsError: 3.40369e+10\n", - " Region: \"zone_1\"\tRelError: 1.68034e-05\tAbsError: 2.63003e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.67278e-05\tAbsError: 2.52237e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.55647e-08\tAbsError: 2.62751e-05\n", - " Region: \"zone_3\"\tRelError: 1.43443e-04\tAbsError: 3.40369e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.59868e-06\tAbsError: 1.81685e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.58484e-06\tAbsError: 1.58684e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.36183e-04\tAbsError: 2.55624e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.55881e-08\tAbsError: 2.62841e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 2.88205e-01\tAbsError: 8.63940e+12\n", - " Region: \"zone_1\"\tRelError: 4.35098e-04\tAbsError: 1.57759e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.89774e-04\tAbsError: 3.29820e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.53240e-05\tAbsError: 1.57429e-02\n", - " Region: \"zone_3\"\tRelError: 2.87770e-01\tAbsError: 8.63940e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.82323e-01\tAbsError: 2.51161e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.35683e-03\tAbsError: 6.12779e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.04524e-03\tAbsError: 3.30252e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.53240e-05\tAbsError: 1.57429e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 9.54016e+00\tAbsError: 8.28773e+15\n", - " Region: \"zone_1\"\tRelError: 7.90066e+00\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.90066e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.70870e-10\tAbsError: 1.98737e-07\n", - " Region: \"zone_3\"\tRelError: 1.63951e+00\tAbsError: 8.28773e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69626e-01\tAbsError: 4.72857e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69607e-01\tAbsError: 3.55916e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00272e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.71133e-10\tAbsError: 1.98833e-07\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.96126e-04\tAbsError: 7.20782e+10\n", - " Region: \"zone_1\"\tRelError: 2.21127e-04\tAbsError: 3.89252e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.21116e-04\tAbsError: 6.19595e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10031e-08\tAbsError: 3.83056e-06\n", - " Region: \"zone_3\"\tRelError: 1.74999e-04\tAbsError: 7.20782e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.65804e-06\tAbsError: 2.91079e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.60364e-06\tAbsError: 4.29703e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.61727e-04\tAbsError: 6.22469e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10087e-08\tAbsError: 3.83256e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.28948e+00\tAbsError: 4.14353e+13\n", - " Region: \"zone_1\"\tRelError: 2.38341e-01\tAbsError: 3.22323e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.38323e-01\tAbsError: 2.58129e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84675e-05\tAbsError: 6.41942e-03\n", - " Region: \"zone_3\"\tRelError: 1.05113e+00\tAbsError: 4.14353e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.79303e-01\tAbsError: 3.03763e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.54468e-01\tAbsError: 1.10590e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17345e-01\tAbsError: 2.58893e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84675e-05\tAbsError: 6.41942e-03\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 9.49376e-05\tAbsError: 2.57660e+10\n", - " Region: \"zone_1\"\tRelError: 9.79246e-06\tAbsError: 3.93277e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 9.78120e-06\tAbsError: 1.74738e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12594e-08\tAbsError: 3.91529e-06\n", - " Region: \"zone_3\"\tRelError: 8.51451e-05\tAbsError: 2.57660e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.56549e-06\tAbsError: 1.38663e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.54725e-06\tAbsError: 1.18996e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 8.00211e-05\tAbsError: 1.77235e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12624e-08\tAbsError: 3.91634e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:15\u001b[0m.\u001b[1;36m767\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.2\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 12\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 1.96714e-02\tAbsError: 8.16211e+12\n", - " Region: \"zone_1\"\tRelError: 1.87172e-03\tAbsError: 1.88005e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87121e-03\tAbsError: 1.01416e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.11506e-07\tAbsError: 1.77863e-04\n", - " Region: \"zone_3\"\tRelError: 1.77997e-02\tAbsError: 8.16211e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28006e-03\tAbsError: 2.65961e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.13272e-03\tAbsError: 5.50249e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.53864e-02\tAbsError: 1.02631e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.11506e-07\tAbsError: 1.77863e-04\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.57084e+00\tAbsError: 2.89575e+14\n", - " Region: \"zone_1\"\tRelError: 1.26543e-01\tAbsError: 8.72430e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.26381e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62480e-04\tAbsError: 5.64794e-02\n", - " Region: \"zone_3\"\tRelError: 1.44430e+00\tAbsError: 2.89575e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37983e-01\tAbsError: 1.66847e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32917e-01\tAbsError: 1.22728e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.32359e-02\tAbsError: 3.07641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62480e-04\tAbsError: 5.64794e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.64462e-05\tAbsError: 2.76462e+09\n", - " Region: \"zone_1\"\tRelError: 8.94814e-06\tAbsError: 4.07812e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.93642e-06\tAbsError: 1.58768e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.17259e-08\tAbsError: 4.07653e-06\n", - " Region: \"zone_3\"\tRelError: 7.49807e-06\tAbsError: 2.76462e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.34484e-07\tAbsError: 2.39149e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.06254e-07\tAbsError: 3.73129e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 7.04561e-06\tAbsError: 1.66770e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.17267e-08\tAbsError: 4.07688e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:16\u001b[0m.\u001b[1;36m743\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:16\u001b[0m.\u001b[1;36m743\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.3142857142857143\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Iteration: 3\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 3.68972e-01\tAbsError: 5.93574e+12\n", - " Region: \"zone_1\"\tRelError: 4.08424e-02\tAbsError: 1.48565e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.08334e-02\tAbsError: 1.17194e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.02522e-06\tAbsError: 3.13711e-03\n", - " Region: \"zone_3\"\tRelError: 3.28129e-01\tAbsError: 5.93574e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.35893e-01\tAbsError: 3.04330e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.85715e-02\tAbsError: 2.89244e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.36552e-02\tAbsError: 1.17194e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.02730e-06\tAbsError: 3.13793e-03\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 1.25625e-03\tAbsError: 1.44271e+11\n", - " Region: \"zone_1\"\tRelError: 1.32976e-04\tAbsError: 5.31943e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31445e-04\tAbsError: 1.55231e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.53098e-06\tAbsError: 5.31788e-04\n", - " Region: \"zone_3\"\tRelError: 1.12327e-03\tAbsError: 1.44271e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.23384e-05\tAbsError: 6.93544e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.72047e-05\tAbsError: 7.49163e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06220e-03\tAbsError: 1.57379e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.53098e-06\tAbsError: 5.31788e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.15185e+01\tAbsError: 8.37847e+15\n", - " Region: \"zone_1\"\tRelError: 9.89198e+00\tAbsError: 4.09561e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.89198e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.44792e-09\tAbsError: 1.89443e-06\n", - " Region: \"zone_3\"\tRelError: 1.62652e+00\tAbsError: 8.37847e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69532e-01\tAbsError: 4.63620e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69461e-01\tAbsError: 3.74227e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.75319e-02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.44931e-09\tAbsError: 1.89492e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.08933e+00\tAbsError: 3.08258e+13\n", - " Region: \"zone_1\"\tRelError: 1.39766e-01\tAbsError: 3.14532e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39750e-01\tAbsError: 2.58726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60540e-05\tAbsError: 5.58058e-03\n", - " Region: \"zone_3\"\tRelError: 9.49568e-01\tAbsError: 3.08258e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40223e-01\tAbsError: 2.27975e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.01508e-01\tAbsError: 8.02831e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07820e-01\tAbsError: 2.58966e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60540e-05\tAbsError: 5.58058e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.00828e-01\tAbsError: 2.58321e+12\n", - " Region: \"zone_1\"\tRelError: 1.80463e-02\tAbsError: 1.94095e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.80407e-02\tAbsError: 5.43828e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.57358e-06\tAbsError: 1.93551e-03\n", - " Region: \"zone_3\"\tRelError: 8.27815e-02\tAbsError: 2.58321e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.36586e-02\tAbsError: 1.73538e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.57188e-04\tAbsError: 8.47840e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 8.76020e-03\tAbsError: 5.92018e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.57358e-06\tAbsError: 1.93551e-03\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 1.64697e-03\tAbsError: 5.18786e+11\n", - " Region: \"zone_1\"\tRelError: 1.67763e-04\tAbsError: 4.37003e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.67639e-04\tAbsError: 3.94746e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.24542e-07\tAbsError: 4.33055e-05\n", - " Region: \"zone_3\"\tRelError: 1.47920e-03\tAbsError: 5.18786e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.32202e-05\tAbsError: 2.42889e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.28692e-05\tAbsError: 2.75896e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37299e-03\tAbsError: 4.00256e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.24579e-07\tAbsError: 4.33199e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.77904e+01\tAbsError: 8.87794e+15\n", - " Region: \"zone_1\"\tRelError: 5.61221e+01\tAbsError: 4.23836e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.61221e+01\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.50661e-10\tAbsError: 1.22012e-07\n", - " Region: \"zone_3\"\tRelError: 1.66827e+00\tAbsError: 8.87794e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.81634e-01\tAbsError: 5.07701e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.81616e-01\tAbsError: 3.80093e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.05019e-01\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.50819e-10\tAbsError: 1.22067e-07\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.94647e+00\tAbsError: 2.98429e+14\n", - " Region: \"zone_1\"\tRelError: 5.14524e-01\tAbsError: 9.09015e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.14351e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72976e-04\tAbsError: 6.01378e-02\n", - " Region: \"zone_3\"\tRelError: 1.43195e+00\tAbsError: 2.98429e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37879e-01\tAbsError: 1.45714e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32394e-01\tAbsError: 1.52716e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.15050e-02\tAbsError: 3.07641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72976e-04\tAbsError: 6.01378e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.94758e-01\tAbsError: 4.98642e+12\n", - " Region: \"zone_1\"\tRelError: 2.19383e-02\tAbsError: 1.22221e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.19295e-02\tAbsError: 9.16564e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.79291e-06\tAbsError: 3.05651e-03\n", - " Region: \"zone_3\"\tRelError: 2.72820e-01\tAbsError: 4.98642e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12699e-01\tAbsError: 2.77867e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.23181e-02\tAbsError: 2.20775e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77940e-02\tAbsError: 9.16568e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.79389e-06\tAbsError: 3.05683e-03\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 1.98584e-04\tAbsError: 4.08166e+10\n", - " Region: \"zone_1\"\tRelError: 2.08608e-05\tAbsError: 3.48398e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.07607e-05\tAbsError: 3.04350e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00109e-07\tAbsError: 3.48094e-05\n", - " Region: \"zone_3\"\tRelError: 1.77724e-04\tAbsError: 4.08166e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.34980e-06\tAbsError: 2.19178e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.33496e-06\tAbsError: 1.88988e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.68939e-04\tAbsError: 3.08478e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00140e-07\tAbsError: 3.48217e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.70741e-03\tAbsError: 9.43014e+11\n", - " Region: \"zone_1\"\tRelError: 1.62358e-03\tAbsError: 1.39491e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.62318e-03\tAbsError: 1.40436e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.96704e-07\tAbsError: 1.38086e-04\n", - " Region: \"zone_3\"\tRelError: 1.08383e-03\tAbsError: 9.43014e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.09769e-04\tAbsError: 2.31971e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.02599e-04\tAbsError: 7.11044e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 8.71070e-04\tAbsError: 1.40908e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.96869e-07\tAbsError: 1.38147e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.75967e+00\tAbsError: 3.31374e+14\n", - " Region: \"zone_1\"\tRelError: 2.67484e-01\tAbsError: 9.25755e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.67311e-01\tAbsError: 3.24496e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72974e-04\tAbsError: 6.01259e-02\n", - " Region: \"zone_3\"\tRelError: 1.49219e+00\tAbsError: 3.31374e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.59591e-01\tAbsError: 1.94436e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.54784e-01\tAbsError: 1.36938e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.76418e-02\tAbsError: 3.24500e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72974e-04\tAbsError: 6.01259e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.04600e+00\tAbsError: 3.86292e+13\n", - " Region: \"zone_1\"\tRelError: 9.93314e-02\tAbsError: 3.04738e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.93181e-02\tAbsError: 2.58731e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32329e-05\tAbsError: 4.60067e-03\n", - " Region: \"zone_3\"\tRelError: 9.46666e-01\tAbsError: 3.86292e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39748e-01\tAbsError: 2.78671e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.98990e-01\tAbsError: 1.07621e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07914e-01\tAbsError: 2.56750e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32329e-05\tAbsError: 4.60067e-03\n", - "Iteration: 16\n", - " Device: \"device\"\tRelError: 1.25453e-04\tAbsError: 3.41182e+10\n", - " Region: \"zone_1\"\tRelError: 1.29374e-05\tAbsError: 4.94542e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29233e-05\tAbsError: 2.30857e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41554e-08\tAbsError: 4.92233e-06\n", - " Region: \"zone_3\"\tRelError: 1.12515e-04\tAbsError: 3.41182e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.39538e-06\tAbsError: 1.83959e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.37099e-06\tAbsError: 1.57223e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.05735e-04\tAbsError: 2.34162e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41591e-08\tAbsError: 4.92361e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.73338e-02\tAbsError: 3.09182e+12\n", - " Region: \"zone_1\"\tRelError: 1.11598e-02\tAbsError: 1.65988e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11551e-02\tAbsError: 1.42279e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73882e-06\tAbsError: 1.64565e-03\n", - " Region: \"zone_3\"\tRelError: 6.61739e-02\tAbsError: 3.09182e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.71921e-02\tAbsError: 1.98622e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.49402e-04\tAbsError: 1.10560e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.42774e-03\tAbsError: 1.50865e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73882e-06\tAbsError: 1.64565e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.30730e-03\tAbsError: 1.19612e+11\n", - " Region: \"zone_1\"\tRelError: 8.58744e-04\tAbsError: 5.14180e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 8.58596e-04\tAbsError: 7.13446e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47850e-07\tAbsError: 5.13467e-05\n", - " Region: \"zone_3\"\tRelError: 4.48561e-04\tAbsError: 1.19612e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.84494e-06\tAbsError: 8.20842e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.76493e-06\tAbsError: 3.75278e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.30803e-04\tAbsError: 7.51545e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47850e-07\tAbsError: 5.13467e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.41236e+00\tAbsError: 3.74251e+13\n", - " Region: \"zone_1\"\tRelError: 3.75384e-01\tAbsError: 3.22046e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.75366e-01\tAbsError: 2.58960e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.81486e-05\tAbsError: 6.30858e-03\n", - " Region: \"zone_3\"\tRelError: 1.03697e+00\tAbsError: 3.74251e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73965e-01\tAbsError: 2.68550e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.46971e-01\tAbsError: 1.05700e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16017e-01\tAbsError: 2.58965e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.81486e-05\tAbsError: 6.30858e-03\n", - "Iteration: 17\n", - " Device: \"device\"\tRelError: 2.11687e-05\tAbsError: 4.65217e+09\n", - " Region: \"zone_1\"\tRelError: 2.21392e-06\tAbsError: 2.49552e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20676e-06\tAbsError: 3.16709e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.16739e-09\tAbsError: 2.49235e-06\n", - " Region: \"zone_3\"\tRelError: 1.89547e-05\tAbsError: 4.65217e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.78662e-07\tAbsError: 2.65424e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.76615e-07\tAbsError: 1.99793e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.79923e-05\tAbsError: 3.21147e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.16920e-09\tAbsError: 2.49299e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.81932e-01\tAbsError: 3.51191e+12\n", - " Region: \"zone_1\"\tRelError: 1.43962e-02\tAbsError: 1.26244e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43862e-02\tAbsError: 9.16567e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.94829e-06\tAbsError: 3.45869e-03\n", - " Region: \"zone_3\"\tRelError: 2.67535e-01\tAbsError: 3.51191e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.10366e-01\tAbsError: 2.07283e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.20558e-02\tAbsError: 1.43908e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51034e-02\tAbsError: 9.16572e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.94829e-06\tAbsError: 3.45869e-03\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:21\u001b[0m.\u001b[1;36m692\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.20625\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.35940e-03\tAbsError: 7.91644e+11\n", - " Region: \"zone_1\"\tRelError: 6.17001e-04\tAbsError: 1.42075e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.16596e-04\tAbsError: 1.18665e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.04748e-07\tAbsError: 1.40888e-04\n", - " Region: \"zone_3\"\tRelError: 7.42401e-04\tAbsError: 7.91644e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.00211e-04\tAbsError: 1.88344e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.60094e-05\tAbsError: 6.03301e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.55776e-04\tAbsError: 1.18974e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.04912e-07\tAbsError: 1.40947e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.64377e-04\tAbsError: 4.52414e+10\n", - " Region: \"zone_1\"\tRelError: 1.70304e-04\tAbsError: 6.12495e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.70287e-04\tAbsError: 4.29528e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.74725e-08\tAbsError: 6.08200e-06\n", - " Region: \"zone_3\"\tRelError: 9.40730e-05\tAbsError: 4.52414e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.68905e-06\tAbsError: 1.57870e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.65669e-06\tAbsError: 2.94544e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 8.67098e-05\tAbsError: 4.29962e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.74802e-08\tAbsError: 6.08483e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.82063e-01\tAbsError: 5.70563e+12\n", - " Region: \"zone_1\"\tRelError: 6.50909e-02\tAbsError: 1.43712e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.50822e-02\tAbsError: 1.13362e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.73140e-06\tAbsError: 3.03499e-03\n", - " Region: \"zone_3\"\tRelError: 3.16972e-01\tAbsError: 5.70563e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.29746e-01\tAbsError: 2.94606e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.44628e-02\tAbsError: 2.75958e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.27548e-02\tAbsError: 1.13363e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.73488e-06\tAbsError: 3.03633e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.22423e-02\tAbsError: 3.50280e+12\n", - " Region: \"zone_1\"\tRelError: 6.27969e-03\tAbsError: 2.19297e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.27342e-03\tAbsError: 1.50745e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.27086e-06\tAbsError: 2.17790e-03\n", - " Region: \"zone_3\"\tRelError: 6.59626e-02\tAbsError: 3.50280e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.67825e-02\tAbsError: 2.11769e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.14375e-04\tAbsError: 1.38511e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.55940e-03\tAbsError: 1.55695e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.27086e-06\tAbsError: 2.17790e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.02141e-03\tAbsError: 1.23957e+11\n", - " Region: \"zone_1\"\tRelError: 5.52143e-04\tAbsError: 4.11028e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.52024e-04\tAbsError: 7.43261e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18138e-07\tAbsError: 4.10285e-05\n", - " Region: \"zone_3\"\tRelError: 4.69263e-04\tAbsError: 1.23957e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.58109e-06\tAbsError: 8.33431e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.49437e-06\tAbsError: 4.06143e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.50070e-04\tAbsError: 7.83274e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18138e-07\tAbsError: 4.10285e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.91829e+01\tAbsError: 8.90212e+15\n", - " Region: \"zone_1\"\tRelError: 2.75315e+01\tAbsError: 4.22096e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.75315e+01\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.34515e-09\tAbsError: 4.67755e-07\n", - " Region: \"zone_3\"\tRelError: 1.65141e+00\tAbsError: 8.90212e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80108e-01\tAbsError: 4.92596e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.80039e-01\tAbsError: 3.97616e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.12637e-02\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.34538e-09\tAbsError: 4.67835e-07\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 5.47022e-05\tAbsError: 5.00638e+09\n", - " Region: \"zone_1\"\tRelError: 3.59259e-05\tAbsError: 2.28996e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.59193e-05\tAbsError: 3.06179e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.58527e-09\tAbsError: 2.28690e-06\n", - " Region: \"zone_3\"\tRelError: 1.87763e-05\tAbsError: 5.00638e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.63684e-07\tAbsError: 3.65206e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.58517e-07\tAbsError: 1.35432e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.80475e-05\tAbsError: 3.21633e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.58713e-09\tAbsError: 2.28757e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:23\u001b[0m.\u001b[1;36m653\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:23\u001b[0m.\u001b[1;36m653\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.42500000000000004\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.08168e-01\tAbsError: 2.50771e+12\n", - " Region: \"zone_1\"\tRelError: 2.80959e-02\tAbsError: 1.99697e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.80902e-02\tAbsError: 5.40237e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.73499e-06\tAbsError: 1.99156e-03\n", - " Region: \"zone_3\"\tRelError: 8.00718e-02\tAbsError: 2.50771e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.11633e-02\tAbsError: 1.69868e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.42315e-04\tAbsError: 8.09036e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 8.46039e-03\tAbsError: 5.79510e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.73499e-06\tAbsError: 1.99156e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.61557e-03\tAbsError: 1.05156e+12\n", - " Region: \"zone_1\"\tRelError: 2.24358e-04\tAbsError: 1.45747e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.23943e-04\tAbsError: 1.49317e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14383e-07\tAbsError: 1.44254e-04\n", - " Region: \"zone_3\"\tRelError: 1.39121e-03\tAbsError: 1.05156e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46581e-04\tAbsError: 2.71206e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.31751e-04\tAbsError: 7.80353e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11247e-03\tAbsError: 1.49728e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14543e-07\tAbsError: 1.44312e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.30911e-04\tAbsError: 3.51442e+10\n", - " Region: \"zone_1\"\tRelError: 6.81885e-05\tAbsError: 6.92614e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.81687e-05\tAbsError: 3.42472e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.97989e-08\tAbsError: 6.89189e-06\n", - " Region: \"zone_3\"\tRelError: 6.27220e-05\tAbsError: 3.51442e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91737e-06\tAbsError: 1.11617e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.89123e-06\tAbsError: 2.39825e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.68936e-05\tAbsError: 3.42673e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.98072e-08\tAbsError: 6.89488e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.71568e+03\tAbsError: 3.35717e+14\n", - " Region: \"zone_1\"\tRelError: 1.71420e+03\tAbsError: 9.61254e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.71420e+03\tAbsError: 3.22436e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83747e-04\tAbsError: 6.38819e-02\n", - " Region: \"zone_3\"\tRelError: 1.47181e+00\tAbsError: 3.35717e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.56735e-01\tAbsError: 1.64637e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.51848e-01\tAbsError: 1.71080e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.30478e-02\tAbsError: 3.22440e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83747e-04\tAbsError: 6.38819e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 4.48312e+02\tAbsError: 8.94911e+15\n", - " Region: \"zone_1\"\tRelError: 4.46630e+02\tAbsError: 4.26144e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.46630e+02\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.62615e-10\tAbsError: 2.30654e-07\n", - " Region: \"zone_3\"\tRelError: 1.68233e+00\tAbsError: 8.94911e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83539e-01\tAbsError: 5.26125e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.83518e-01\tAbsError: 3.68785e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15269e-01\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.62924e-10\tAbsError: 2.30765e-07\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.33228e-03\tAbsError: 9.74742e+11\n", - " Region: \"zone_1\"\tRelError: 3.08967e-03\tAbsError: 1.32041e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.08930e-03\tAbsError: 1.44698e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.75173e-07\tAbsError: 1.30594e-04\n", - " Region: \"zone_3\"\tRelError: 1.24261e-03\tAbsError: 9.74742e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.15122e-04\tAbsError: 2.46318e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.07963e-04\tAbsError: 7.28424e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01915e-03\tAbsError: 1.45186e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.75331e-07\tAbsError: 1.30651e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.04500e-04\tAbsError: 1.25308e+11\n", - " Region: \"zone_1\"\tRelError: 1.66230e-04\tAbsError: 5.88380e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66061e-04\tAbsError: 7.31659e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69192e-07\tAbsError: 5.87648e-05\n", - " Region: \"zone_3\"\tRelError: 4.38270e-04\tAbsError: 1.25308e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07352e-05\tAbsError: 8.57589e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.06397e-05\tAbsError: 3.95489e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.16726e-04\tAbsError: 7.69576e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69192e-07\tAbsError: 5.87648e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 4.91977e-05\tAbsError: 5.89587e+09\n", - " Region: \"zone_1\"\tRelError: 2.66095e-05\tAbsError: 1.68142e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.66047e-05\tAbsError: 3.56714e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.83123e-09\tAbsError: 1.67785e-06\n", - " Region: \"zone_3\"\tRelError: 2.25882e-05\tAbsError: 5.89587e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.48785e-07\tAbsError: 4.10022e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.43251e-07\tAbsError: 1.79565e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.16913e-05\tAbsError: 3.75397e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.83123e-09\tAbsError: 1.67785e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.01989e+00\tAbsError: 4.31984e+13\n", - " Region: \"zone_1\"\tRelError: 9.96747e-01\tAbsError: 3.09938e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.96733e-01\tAbsError: 2.58940e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.46688e-05\tAbsError: 5.09985e-03\n", - " Region: \"zone_3\"\tRelError: 1.02314e+00\tAbsError: 4.31984e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.69533e-01\tAbsError: 3.11070e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.38351e-01\tAbsError: 1.20915e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15242e-01\tAbsError: 2.58944e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.46688e-05\tAbsError: 5.09985e-03\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:26\u001b[0m.\u001b[1;36m225\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.4\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.40232e+00\tAbsError: 3.73139e+14\n", - " Region: \"zone_1\"\tRelError: 8.85228e-01\tAbsError: 8.59449e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.85075e-01\tAbsError: 3.27223e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.53137e-04\tAbsError: 5.32226e-02\n", - " Region: \"zone_3\"\tRelError: 1.51710e+00\tAbsError: 3.73139e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.64079e-01\tAbsError: 2.70317e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.57262e-01\tAbsError: 1.02822e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.56017e-02\tAbsError: 3.27227e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.53137e-04\tAbsError: 5.32226e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.69414e-03\tAbsError: 1.12063e+11\n", - " Region: \"zone_1\"\tRelError: 1.27847e-03\tAbsError: 5.43584e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.27831e-03\tAbsError: 6.67185e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.56330e-07\tAbsError: 5.42917e-05\n", - " Region: \"zone_3\"\tRelError: 4.15667e-04\tAbsError: 1.12063e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.22862e-06\tAbsError: 7.78226e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.15163e-06\tAbsError: 3.42401e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.99131e-04\tAbsError: 7.02554e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.56330e-07\tAbsError: 5.42917e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.49541e-04\tAbsError: 5.25664e+10\n", - " Region: \"zone_1\"\tRelError: 3.67446e-05\tAbsError: 6.09105e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.67272e-05\tAbsError: 4.65423e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73631e-08\tAbsError: 6.04451e-06\n", - " Region: \"zone_3\"\tRelError: 1.12797e-04\tAbsError: 5.25664e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.87853e-06\tAbsError: 1.95402e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.83785e-06\tAbsError: 3.30262e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03063e-04\tAbsError: 4.67701e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73709e-08\tAbsError: 6.04735e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.55312e-01\tAbsError: 2.79981e+12\n", - " Region: \"zone_1\"\tRelError: 5.12467e-02\tAbsError: 1.44746e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.12369e-02\tAbsError: 1.10529e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.84208e-06\tAbsError: 3.42173e-03\n", - " Region: \"zone_3\"\tRelError: 3.04065e-01\tAbsError: 2.79981e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.25490e-01\tAbsError: 1.88988e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.07536e-02\tAbsError: 9.09929e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.78116e-02\tAbsError: 1.10529e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.84244e-06\tAbsError: 3.42191e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 8.62552e+00\tAbsError: 8.26510e+15\n", - " Region: \"zone_1\"\tRelError: 6.97719e+00\tAbsError: 4.09546e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.97719e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.33437e-10\tAbsError: 3.24924e-07\n", - " Region: \"zone_3\"\tRelError: 1.64833e+00\tAbsError: 8.26510e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69652e-01\tAbsError: 4.84454e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69632e-01\tAbsError: 3.42056e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09044e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.33825e-10\tAbsError: 3.25065e-07\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.49580e+00\tAbsError: 9.39285e+13\n", - " Region: \"zone_1\"\tRelError: 4.42602e-01\tAbsError: 3.34520e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.42580e-01\tAbsError: 2.58963e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17396e-05\tAbsError: 7.55574e-03\n", - " Region: \"zone_3\"\tRelError: 1.05320e+00\tAbsError: 9.39285e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.80080e-01\tAbsError: 5.56726e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.63197e-01\tAbsError: 3.82559e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09902e-01\tAbsError: 2.58951e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17396e-05\tAbsError: 7.55574e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.20550e-04\tAbsError: 4.84741e+10\n", - " Region: \"zone_1\"\tRelError: 3.13594e-04\tAbsError: 5.43528e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.13579e-04\tAbsError: 4.52935e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54842e-08\tAbsError: 5.38998e-06\n", - " Region: \"zone_3\"\tRelError: 1.06955e-04\tAbsError: 4.84741e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.96786e-06\tAbsError: 1.76724e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.93306e-06\tAbsError: 3.08016e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 9.90390e-05\tAbsError: 4.53361e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54915e-08\tAbsError: 5.39262e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.34625e-05\tAbsError: 4.93094e+09\n", - " Region: \"zone_1\"\tRelError: 6.39679e-06\tAbsError: 2.70523e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.38901e-06\tAbsError: 2.92935e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.78057e-09\tAbsError: 2.70230e-06\n", - " Region: \"zone_3\"\tRelError: 1.70657e-05\tAbsError: 4.93094e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.08421e-07\tAbsError: 3.64070e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.02783e-07\tAbsError: 1.29024e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.62467e-05\tAbsError: 3.07637e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.78097e-09\tAbsError: 2.70247e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:28\u001b[0m.\u001b[1;36m663\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:28\u001b[0m.\u001b[1;36m663\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.08284e-01\tAbsError: 2.80262e+12\n", - " Region: \"zone_1\"\tRelError: 3.07855e-02\tAbsError: 2.71657e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.07777e-02\tAbsError: 1.59621e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.81732e-06\tAbsError: 2.71497e-03\n", - " Region: \"zone_3\"\tRelError: 7.74984e-02\tAbsError: 2.80262e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.89088e-02\tAbsError: 1.70510e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.75146e-04\tAbsError: 1.09751e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.40665e-03\tAbsError: 1.68287e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.81732e-06\tAbsError: 2.71497e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.56210e+00\tAbsError: 2.88655e+14\n", - " Region: \"zone_1\"\tRelError: 1.01850e-01\tAbsError: 8.11752e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01705e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.45044e-04\tAbsError: 5.04116e-02\n", - " Region: \"zone_3\"\tRelError: 1.46025e+00\tAbsError: 2.88655e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39145e-01\tAbsError: 2.10222e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.31918e-01\tAbsError: 7.84329e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.90395e-02\tAbsError: 3.07640e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.45044e-04\tAbsError: 5.04116e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.83522e-01\tAbsError: 3.54933e+13\n", - " Region: \"zone_1\"\tRelError: 2.33507e-01\tAbsError: 1.43725e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.33499e-01\tAbsError: 1.17193e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.63430e-06\tAbsError: 2.65326e-03\n", - " Region: \"zone_3\"\tRelError: 3.50016e-01\tAbsError: 3.54933e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.34133e-01\tAbsError: 1.71908e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.49655e-02\tAbsError: 1.83026e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.09091e-02\tAbsError: 1.17193e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.63720e-06\tAbsError: 2.65431e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.44773e-05\tAbsError: 4.32661e+09\n", - " Region: \"zone_1\"\tRelError: 4.86330e-05\tAbsError: 2.50407e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.86258e-05\tAbsError: 2.65675e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.20296e-09\tAbsError: 2.50141e-06\n", - " Region: \"zone_3\"\tRelError: 1.58443e-05\tAbsError: 4.32661e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.09737e-07\tAbsError: 3.25544e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.04907e-07\tAbsError: 1.07118e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.52224e-05\tAbsError: 2.78624e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.20356e-09\tAbsError: 2.50165e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:29\u001b[0m.\u001b[1;36m772\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:29\u001b[0m.\u001b[1;36m772\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.4214285714285714\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 9.54016e+00\tAbsError: 8.28773e+15\n", - " Region: \"zone_1\"\tRelError: 7.90066e+00\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.90066e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.70878e-10\tAbsError: 1.98740e-07\n", - " Region: \"zone_3\"\tRelError: 1.63951e+00\tAbsError: 8.28773e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69626e-01\tAbsError: 4.72857e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69607e-01\tAbsError: 3.55916e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00272e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.71142e-10\tAbsError: 1.98836e-07\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.36717e-03\tAbsError: 1.33167e+12\n", - " Region: \"zone_1\"\tRelError: 4.20849e-03\tAbsError: 1.26692e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.20813e-03\tAbsError: 1.87616e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.58541e-07\tAbsError: 1.24816e-04\n", - " Region: \"zone_3\"\tRelError: 2.15868e-03\tAbsError: 1.33167e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.71347e-04\tAbsError: 3.63972e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.71719e-04\tAbsError: 9.67699e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.81526e-03\tAbsError: 1.88004e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.58699e-07\tAbsError: 1.24874e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.02466e+00\tAbsError: 6.04267e+13\n", - " Region: \"zone_1\"\tRelError: 7.18592e-02\tAbsError: 3.22577e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.18409e-02\tAbsError: 2.58878e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83272e-05\tAbsError: 6.36990e-03\n", - " Region: \"zone_3\"\tRelError: 9.52804e-01\tAbsError: 6.04267e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40508e-01\tAbsError: 3.80417e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.10167e-01\tAbsError: 2.23851e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02110e-01\tAbsError: 2.58991e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83272e-05\tAbsError: 6.36990e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.10471e-01\tAbsError: 5.30987e+12\n", - " Region: \"zone_1\"\tRelError: 2.72318e-02\tAbsError: 1.77544e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.72268e-02\tAbsError: 3.65311e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.00788e-06\tAbsError: 1.73891e-03\n", - " Region: \"zone_3\"\tRelError: 8.32389e-02\tAbsError: 5.30987e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.27195e-02\tAbsError: 2.71759e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.48665e-03\tAbsError: 2.59228e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.02772e-03\tAbsError: 4.07396e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.00788e-06\tAbsError: 1.73891e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.28164e+01\tAbsError: 8.85147e+15\n", - " Region: \"zone_1\"\tRelError: 3.11365e+01\tAbsError: 4.23837e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.11365e+01\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.91236e-10\tAbsError: 1.70998e-07\n", - " Region: \"zone_3\"\tRelError: 1.67985e+00\tAbsError: 8.85147e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.81658e-01\tAbsError: 5.20181e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.81638e-01\tAbsError: 3.64966e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16552e-01\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.91480e-10\tAbsError: 1.71086e-07\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.57084e+00\tAbsError: 2.89575e+14\n", - " Region: \"zone_1\"\tRelError: 1.26543e-01\tAbsError: 8.72430e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.26381e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62480e-04\tAbsError: 5.64794e-02\n", - " Region: \"zone_3\"\tRelError: 1.44430e+00\tAbsError: 2.89575e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37983e-01\tAbsError: 1.66847e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32917e-01\tAbsError: 1.22728e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.32359e-02\tAbsError: 3.07641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62480e-04\tAbsError: 5.64794e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.47046e-03\tAbsError: 1.03678e+11\n", - " Region: \"zone_1\"\tRelError: 1.12698e-03\tAbsError: 7.93760e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12675e-03\tAbsError: 5.92781e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28365e-07\tAbsError: 7.93168e-05\n", - " Region: \"zone_3\"\tRelError: 3.43475e-04\tAbsError: 1.03678e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.28615e-06\tAbsError: 7.51228e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.20842e-06\tAbsError: 2.85551e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.26752e-04\tAbsError: 6.23260e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28457e-07\tAbsError: 7.93466e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.07050e-01\tAbsError: 1.83634e+13\n", - " Region: \"zone_1\"\tRelError: 2.24108e-02\tAbsError: 1.12606e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.24048e-02\tAbsError: 9.16557e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.02744e-06\tAbsError: 2.09499e-03\n", - " Region: \"zone_3\"\tRelError: 2.84640e-01\tAbsError: 1.83634e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.09245e-01\tAbsError: 8.86934e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.28005e-02\tAbsError: 9.49405e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.25878e-02\tAbsError: 9.16561e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.02994e-06\tAbsError: 2.09586e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.64532e-03\tAbsError: 8.16897e+11\n", - " Region: \"zone_1\"\tRelError: 7.82382e-04\tAbsError: 1.31169e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.82008e-04\tAbsError: 1.21129e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.73904e-07\tAbsError: 1.29958e-04\n", - " Region: \"zone_3\"\tRelError: 8.62936e-04\tAbsError: 8.16897e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.19497e-04\tAbsError: 1.88712e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.83220e-05\tAbsError: 6.28185e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 6.64743e-04\tAbsError: 1.21360e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.73904e-07\tAbsError: 1.29958e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.74151e+00\tAbsError: 3.58703e+14\n", - " Region: \"zone_1\"\tRelError: 1.23207e+00\tAbsError: 8.53073e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.23192e+00\tAbsError: 3.24496e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52087e-04\tAbsError: 5.28578e-02\n", - " Region: \"zone_3\"\tRelError: 1.50944e+00\tAbsError: 3.58703e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.60563e-01\tAbsError: 2.60371e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.54059e-01\tAbsError: 9.83320e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.46637e-02\tAbsError: 3.24500e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52087e-04\tAbsError: 5.28578e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.08933e+00\tAbsError: 3.08258e+13\n", - " Region: \"zone_1\"\tRelError: 1.39766e-01\tAbsError: 3.14532e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39750e-01\tAbsError: 2.58726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60540e-05\tAbsError: 5.58058e-03\n", - " Region: \"zone_3\"\tRelError: 9.49568e-01\tAbsError: 3.08258e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40223e-01\tAbsError: 2.27975e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.01508e-01\tAbsError: 8.02831e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07820e-01\tAbsError: 2.58966e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60540e-05\tAbsError: 5.58058e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 7.32841e-04\tAbsError: 7.32581e+10\n", - " Region: \"zone_1\"\tRelError: 5.53070e-04\tAbsError: 3.54075e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.53060e-04\tAbsError: 6.27391e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.99046e-09\tAbsError: 3.47801e-06\n", - " Region: \"zone_3\"\tRelError: 1.79771e-04\tAbsError: 7.32581e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.77544e-06\tAbsError: 2.98226e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.72018e-06\tAbsError: 4.34355e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66266e-04\tAbsError: 6.30335e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.99552e-09\tAbsError: 3.47985e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.39650e-02\tAbsError: 2.30731e+12\n", - " Region: \"zone_1\"\tRelError: 9.33244e-04\tAbsError: 2.05118e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 9.27371e-04\tAbsError: 1.17101e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.87337e-06\tAbsError: 2.03947e-03\n", - " Region: \"zone_3\"\tRelError: 6.30318e-02\tAbsError: 2.30731e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.63237e-02\tAbsError: 1.57438e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.61914e-04\tAbsError: 7.32926e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 6.34034e-03\tAbsError: 1.22701e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.87337e-06\tAbsError: 2.03947e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.94127e-04\tAbsError: 1.13091e+11\n", - " Region: \"zone_1\"\tRelError: 5.03283e-05\tAbsError: 4.43145e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.02009e-05\tAbsError: 7.27026e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27403e-07\tAbsError: 4.42417e-05\n", - " Region: \"zone_3\"\tRelError: 4.43799e-04\tAbsError: 1.13091e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.49594e-06\tAbsError: 7.71052e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.42465e-06\tAbsError: 3.59861e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.28751e-04\tAbsError: 7.59369e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27403e-07\tAbsError: 4.42417e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.31343e+00\tAbsError: 8.70893e+13\n", - " Region: \"zone_1\"\tRelError: 2.74195e-01\tAbsError: 3.32768e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.74174e-01\tAbsError: 2.58913e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.12496e-05\tAbsError: 7.38544e-03\n", - " Region: \"zone_3\"\tRelError: 1.03923e+00\tAbsError: 8.70893e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.74714e-01\tAbsError: 5.16570e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.55644e-01\tAbsError: 3.54323e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08852e-01\tAbsError: 2.58666e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.12496e-05\tAbsError: 7.38544e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.94758e-01\tAbsError: 4.98642e+12\n", - " Region: \"zone_1\"\tRelError: 2.19383e-02\tAbsError: 1.22221e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.19295e-02\tAbsError: 9.16564e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.79291e-06\tAbsError: 3.05651e-03\n", - " Region: \"zone_3\"\tRelError: 2.72820e-01\tAbsError: 4.98642e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12699e-01\tAbsError: 2.77867e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.23181e-02\tAbsError: 2.20775e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77940e-02\tAbsError: 9.16568e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.79389e-06\tAbsError: 3.05683e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.29111e-05\tAbsError: 2.48408e+09\n", - " Region: \"zone_1\"\tRelError: 1.67401e-05\tAbsError: 4.18088e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.67281e-05\tAbsError: 1.39314e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20220e-08\tAbsError: 4.17948e-06\n", - " Region: \"zone_3\"\tRelError: 6.17105e-06\tAbsError: 2.48408e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.28362e-07\tAbsError: 2.18835e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.02485e-07\tAbsError: 2.95729e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 5.72818e-06\tAbsError: 1.45679e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20230e-08\tAbsError: 4.17988e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:34\u001b[0m.\u001b[1;36m739\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.3125\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.79721e-03\tAbsError: 9.76589e+11\n", - " Region: \"zone_1\"\tRelError: 1.82738e-04\tAbsError: 8.39323e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82502e-04\tAbsError: 1.48235e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36874e-07\tAbsError: 8.24499e-05\n", - " Region: \"zone_3\"\tRelError: 1.61447e-03\tAbsError: 9.76589e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10820e-04\tAbsError: 2.51654e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.02342e-04\tAbsError: 7.24935e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40107e-03\tAbsError: 1.48793e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36983e-07\tAbsError: 8.24891e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 8.73659e-05\tAbsError: 3.83017e+10\n", - " Region: \"zone_1\"\tRelError: 1.09448e-05\tAbsError: 6.06568e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09275e-05\tAbsError: 3.59235e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73237e-08\tAbsError: 6.02976e-06\n", - " Region: \"zone_3\"\tRelError: 7.64211e-05\tAbsError: 3.83017e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.72621e-06\tAbsError: 1.27553e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.70260e-06\tAbsError: 2.55464e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.09750e-05\tAbsError: 3.59448e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73309e-08\tAbsError: 6.03238e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:35\u001b[0m.\u001b[1;36m159\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:35\u001b[0m.\u001b[1;36m159\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5333333333333333\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.44912e-01\tAbsError: 3.23386e+13\n", - " Region: \"zone_1\"\tRelError: 1.07085e-01\tAbsError: 1.39233e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07077e-01\tAbsError: 1.13362e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.44390e-06\tAbsError: 2.58710e-03\n", - " Region: \"zone_3\"\tRelError: 3.37827e-01\tAbsError: 3.23386e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.28282e-01\tAbsError: 1.57182e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.99266e-02\tAbsError: 1.66204e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.96108e-02\tAbsError: 1.13362e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.44711e-06\tAbsError: 2.58826e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.73338e-02\tAbsError: 3.09182e+12\n", - " Region: \"zone_1\"\tRelError: 1.11598e-02\tAbsError: 1.65988e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11551e-02\tAbsError: 1.42279e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73882e-06\tAbsError: 1.64565e-03\n", - " Region: \"zone_3\"\tRelError: 6.61739e-02\tAbsError: 3.09182e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.71921e-02\tAbsError: 1.98622e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.49402e-04\tAbsError: 1.10560e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.42774e-03\tAbsError: 1.50865e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73882e-06\tAbsError: 1.64565e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.68582e-04\tAbsError: 6.39514e+10\n", - " Region: \"zone_1\"\tRelError: 3.10151e-05\tAbsError: 5.94800e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.08440e-05\tAbsError: 4.08298e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71164e-07\tAbsError: 5.94392e-05\n", - " Region: \"zone_3\"\tRelError: 2.37567e-04\tAbsError: 6.39514e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16150e-06\tAbsError: 5.01904e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.80228e-06\tAbsError: 1.37610e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29432e-04\tAbsError: 4.25523e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71229e-07\tAbsError: 5.94601e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.18878e+03\tAbsError: 8.80418e+15\n", - " Region: \"zone_1\"\tRelError: 1.18711e+03\tAbsError: 4.22092e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18711e+03\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.05757e-10\tAbsError: 1.41181e-07\n", - " Region: \"zone_3\"\tRelError: 1.66432e+00\tAbsError: 8.80418e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80202e-01\tAbsError: 5.03339e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.80184e-01\tAbsError: 3.77079e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03936e-01\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.05935e-10\tAbsError: 1.41242e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 9.89628e+00\tAbsError: 8.91444e+15\n", - " Region: \"zone_1\"\tRelError: 8.18490e+00\tAbsError: 4.26161e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.18490e+00\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.46480e-09\tAbsError: 1.89769e-06\n", - " Region: \"zone_3\"\tRelError: 1.71138e+00\tAbsError: 8.91444e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83550e-01\tAbsError: 5.20673e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.83503e-01\tAbsError: 3.70771e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.44328e-01\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.46563e-09\tAbsError: 1.89793e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.32808e-02\tAbsError: 4.75699e+12\n", - " Region: \"zone_1\"\tRelError: 1.32874e-02\tAbsError: 1.76357e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.32824e-02\tAbsError: 3.29582e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.98398e-06\tAbsError: 1.73061e-03\n", - " Region: \"zone_3\"\tRelError: 7.99934e-02\tAbsError: 4.75699e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.00834e-02\tAbsError: 2.45657e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.06171e-03\tAbsError: 2.30042e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.84329e-03\tAbsError: 3.64116e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.98398e-06\tAbsError: 1.73061e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.35940e-03\tAbsError: 7.91644e+11\n", - " Region: \"zone_1\"\tRelError: 6.17001e-04\tAbsError: 1.42075e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.16596e-04\tAbsError: 1.18665e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.04748e-07\tAbsError: 1.40888e-04\n", - " Region: \"zone_3\"\tRelError: 7.42401e-04\tAbsError: 7.91644e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.00211e-04\tAbsError: 1.88344e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.60094e-05\tAbsError: 6.03301e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.55776e-04\tAbsError: 1.18974e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.04912e-07\tAbsError: 1.40947e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.61549e-04\tAbsError: 5.47840e+10\n", - " Region: \"zone_1\"\tRelError: 1.81900e-05\tAbsError: 1.93945e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.81846e-05\tAbsError: 4.89694e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.43105e-09\tAbsError: 1.89048e-06\n", - " Region: \"zone_3\"\tRelError: 1.43359e-04\tAbsError: 5.47840e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.04114e-06\tAbsError: 2.20323e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.00674e-06\tAbsError: 3.27517e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35306e-04\tAbsError: 4.90033e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.43421e-09\tAbsError: 1.89162e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.37089e+00\tAbsError: 3.26099e+14\n", - " Region: \"zone_1\"\tRelError: 8.84636e-01\tAbsError: 9.19122e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.84464e-01\tAbsError: 3.22435e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71658e-04\tAbsError: 5.96687e-02\n", - " Region: \"zone_3\"\tRelError: 1.48626e+00\tAbsError: 3.26099e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.57141e-01\tAbsError: 1.90943e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.52007e-01\tAbsError: 1.35156e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.69369e-02\tAbsError: 3.22440e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71658e-04\tAbsError: 5.96687e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.74553e+00\tAbsError: 1.13341e+15\n", - " Region: \"zone_1\"\tRelError: 2.12627e-01\tAbsError: 7.46675e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.12506e-01\tAbsError: 3.27222e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20702e-04\tAbsError: 4.19453e-02\n", - " Region: \"zone_3\"\tRelError: 1.53291e+00\tAbsError: 1.13341e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.65557e-01\tAbsError: 6.56816e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.50766e-01\tAbsError: 4.76590e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16464e-01\tAbsError: 3.27224e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20702e-04\tAbsError: 4.19453e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.30006e-03\tAbsError: 8.16150e+11\n", - " Region: \"zone_1\"\tRelError: 3.99821e-04\tAbsError: 1.25932e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.99463e-04\tAbsError: 1.21699e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.58320e-07\tAbsError: 1.24715e-04\n", - " Region: \"zone_3\"\tRelError: 9.00235e-04\tAbsError: 8.16150e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12573e-04\tAbsError: 1.90859e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.90086e-05\tAbsError: 6.25291e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 7.08294e-04\tAbsError: 1.22015e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.58458e-07\tAbsError: 1.24765e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.02141e-03\tAbsError: 1.23957e+11\n", - " Region: \"zone_1\"\tRelError: 5.52143e-04\tAbsError: 4.11028e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.52024e-04\tAbsError: 7.43261e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18138e-07\tAbsError: 4.10285e-05\n", - " Region: \"zone_3\"\tRelError: 4.69263e-04\tAbsError: 1.23957e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.58109e-06\tAbsError: 8.33431e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.49437e-06\tAbsError: 4.06143e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.50070e-04\tAbsError: 7.83274e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18138e-07\tAbsError: 4.10285e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.55715e-06\tAbsError: 1.55371e+09\n", - " Region: \"zone_1\"\tRelError: 2.75443e-07\tAbsError: 3.15707e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.66361e-07\tAbsError: 7.16801e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.08162e-09\tAbsError: 3.15635e-06\n", - " Region: \"zone_3\"\tRelError: 2.28171e-06\tAbsError: 1.55371e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01860e-07\tAbsError: 1.23171e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.92720e-08\tAbsError: 3.21996e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 2.10150e-06\tAbsError: 7.37244e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.08225e-09\tAbsError: 3.15662e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.69411e+00\tAbsError: 3.60477e+13\n", - " Region: \"zone_1\"\tRelError: 6.67424e-01\tAbsError: 3.21034e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.67406e-01\tAbsError: 2.58975e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.78531e-05\tAbsError: 6.20590e-03\n", - " Region: \"zone_3\"\tRelError: 1.02669e+00\tAbsError: 3.60477e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.69875e-01\tAbsError: 2.58324e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.41824e-01\tAbsError: 1.02153e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14971e-01\tAbsError: 2.58997e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.78531e-05\tAbsError: 6.20590e-03\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:39\u001b[0m.\u001b[1;36m223\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.5\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.14650e+00\tAbsError: 6.35932e+14\n", - " Region: \"zone_1\"\tRelError: 1.10371e-01\tAbsError: 3.43387e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10347e-01\tAbsError: 2.58939e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.43003e-05\tAbsError: 8.44480e-03\n", - " Region: \"zone_3\"\tRelError: 1.03613e+00\tAbsError: 6.35932e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.81867e-01\tAbsError: 2.98873e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.46371e-01\tAbsError: 3.37059e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07870e-01\tAbsError: 2.58834e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.43003e-05\tAbsError: 8.44480e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.68812e-04\tAbsError: 1.08478e+11\n", - " Region: \"zone_1\"\tRelError: 4.45604e-05\tAbsError: 4.47049e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.44318e-05\tAbsError: 6.94824e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.28536e-07\tAbsError: 4.46354e-05\n", - " Region: \"zone_3\"\tRelError: 4.24252e-04\tAbsError: 1.08478e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.17207e-06\tAbsError: 7.43642e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.10313e-06\tAbsError: 3.41139e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.09848e-04\tAbsError: 7.25698e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.28536e-07\tAbsError: 4.46354e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.30911e-04\tAbsError: 3.51442e+10\n", - " Region: \"zone_1\"\tRelError: 6.81885e-05\tAbsError: 6.92614e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.81687e-05\tAbsError: 3.42472e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.97989e-08\tAbsError: 6.89189e-06\n", - " Region: \"zone_3\"\tRelError: 6.27220e-05\tAbsError: 3.51442e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91737e-06\tAbsError: 1.11617e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.89123e-06\tAbsError: 2.39825e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.68936e-05\tAbsError: 3.42673e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.98072e-08\tAbsError: 6.89488e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.28405e-01\tAbsError: 5.49587e+12\n", - " Region: \"zone_1\"\tRelError: 1.19521e-01\tAbsError: 1.39329e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19513e-01\tAbsError: 1.10528e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.28535e-06\tAbsError: 2.88012e-03\n", - " Region: \"zone_3\"\tRelError: 3.08884e-01\tAbsError: 5.49587e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.25115e-01\tAbsError: 2.79766e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.16660e-02\tAbsError: 2.69821e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20941e-02\tAbsError: 1.10529e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.28980e-06\tAbsError: 2.88167e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.44671e+02\tAbsError: 8.23352e+15\n", - " Region: \"zone_1\"\tRelError: 5.43003e+02\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.43003e+02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.11266e-10\tAbsError: 1.43080e-07\n", - " Region: \"zone_3\"\tRelError: 1.66763e+00\tAbsError: 8.23352e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.84587e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69628e-01\tAbsError: 3.38765e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28340e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.11422e-10\tAbsError: 1.43134e-07\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.26564e-01\tAbsError: 2.88431e+14\n", - " Region: \"zone_1\"\tRelError: 3.85183e-02\tAbsError: 1.72171e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.85025e-02\tAbsError: 1.17193e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.58221e-05\tAbsError: 5.49778e-03\n", - " Region: \"zone_3\"\tRelError: 3.88046e-01\tAbsError: 2.88431e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.32962e-01\tAbsError: 1.33696e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.15669e-01\tAbsError: 1.54734e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.93993e-02\tAbsError: 1.17193e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.58309e-05\tAbsError: 5.50105e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 8.79838e-05\tAbsError: 3.88886e+10\n", - " Region: \"zone_1\"\tRelError: 7.96260e-06\tAbsError: 5.71318e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 7.94629e-06\tAbsError: 3.63581e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.63097e-08\tAbsError: 5.67682e-06\n", - " Region: \"zone_3\"\tRelError: 8.00212e-05\tAbsError: 3.88886e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.78253e-06\tAbsError: 1.32297e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.75836e-06\tAbsError: 2.56589e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.44640e-05\tAbsError: 3.63668e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.63165e-08\tAbsError: 5.67931e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:41\u001b[0m.\u001b[1;36m291\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:41\u001b[0m.\u001b[1;36m291\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5285714285714286\u001b[0m \n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 4.91977e-05\tAbsError: 5.89585e+09\n", - " Region: \"zone_1\"\tRelError: 2.66095e-05\tAbsError: 1.68142e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.66047e-05\tAbsError: 3.56714e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.83123e-09\tAbsError: 1.67785e-06\n", - " Region: \"zone_3\"\tRelError: 2.25882e-05\tAbsError: 5.89585e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.48785e-07\tAbsError: 4.10022e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.43251e-07\tAbsError: 1.79564e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.16913e-05\tAbsError: 3.75397e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.83123e-09\tAbsError: 1.67785e-06\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:41\u001b[0m.\u001b[1;36m412\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.4\u001b[0m \n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "number of equations 31816\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.25936e-01\tAbsError: 2.39001e+12\n", - " Region: \"zone_1\"\tRelError: 4.86940e-02\tAbsError: 2.12649e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 4.86879e-02\tAbsError: 3.66551e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.11296e-06\tAbsError: 2.12282e-03\n", - " Region: \"zone_3\"\tRelError: 7.72419e-02\tAbsError: 2.39001e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.89638e-02\tAbsError: 1.60154e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.54757e-04\tAbsError: 7.88466e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 8.01716e-03\tAbsError: 3.86019e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.11296e-06\tAbsError: 2.12282e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 4.93663e+00\tAbsError: 6.37428e+14\n", - " Region: \"zone_1\"\tRelError: 3.46019e+00\tAbsError: 7.21476e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.46007e+00\tAbsError: 3.07635e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", - " Region: \"zone_3\"\tRelError: 1.47644e+00\tAbsError: 6.37428e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.40577e-01\tAbsError: 3.72575e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.27797e-01\tAbsError: 2.64853e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07947e-01\tAbsError: 3.07638e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.68261e-02\tAbsError: 5.43663e+13\n", - " Region: \"zone_1\"\tRelError: 9.06245e-03\tAbsError: 5.74468e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 9.04655e-03\tAbsError: 2.21279e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59082e-05\tAbsError: 5.52340e-03\n", - " Region: \"zone_3\"\tRelError: 8.77637e-02\tAbsError: 5.43663e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.72497e-02\tAbsError: 3.00106e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.95974e-03\tAbsError: 2.43557e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.05383e-02\tAbsError: 2.34603e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59082e-05\tAbsError: 5.52340e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.71321e+00\tAbsError: 8.81673e+15\n", - " Region: \"zone_1\"\tRelError: 6.00794e+00\tAbsError: 4.23854e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.00794e+00\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.60595e-09\tAbsError: 1.94672e-06\n", - " Region: \"zone_3\"\tRelError: 1.70527e+00\tAbsError: 8.81673e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.81670e-01\tAbsError: 5.15698e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.81625e-01\tAbsError: 3.65975e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.41972e-01\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.60753e-09\tAbsError: 1.94721e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 8.62552e+00\tAbsError: 8.26510e+15\n", - " Region: \"zone_1\"\tRelError: 6.97719e+00\tAbsError: 4.09546e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.97719e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.33437e-10\tAbsError: 3.24924e-07\n", - " Region: \"zone_3\"\tRelError: 1.64833e+00\tAbsError: 8.26510e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69652e-01\tAbsError: 4.84454e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69632e-01\tAbsError: 3.42056e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09044e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.33825e-10\tAbsError: 3.25065e-07\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 8.80926e-03\tAbsError: 1.04555e+12\n", - " Region: \"zone_1\"\tRelError: 7.27674e-03\tAbsError: 1.19488e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.27640e-03\tAbsError: 1.54619e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.38826e-07\tAbsError: 1.17942e-04\n", - " Region: \"zone_3\"\tRelError: 1.53252e-03\tAbsError: 1.04555e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.23053e-04\tAbsError: 2.74165e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.18573e-04\tAbsError: 7.71385e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29055e-03\tAbsError: 1.55151e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.38967e-07\tAbsError: 1.17994e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.95431e+00\tAbsError: 2.96317e+14\n", - " Region: \"zone_1\"\tRelError: 2.00902e+00\tAbsError: 3.34445e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.00900e+00\tAbsError: 2.58782e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", - " Region: \"zone_3\"\tRelError: 9.45295e-01\tAbsError: 2.96317e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42034e-01\tAbsError: 1.59420e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.10683e-01\tAbsError: 1.36896e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.25558e-02\tAbsError: 2.58843e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 7.75776e-03\tAbsError: 2.76446e+12\n", - " Region: \"zone_1\"\tRelError: 8.22210e-04\tAbsError: 1.95288e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 8.21657e-04\tAbsError: 3.02703e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.53255e-07\tAbsError: 1.92261e-04\n", - " Region: \"zone_3\"\tRelError: 6.93555e-03\tAbsError: 2.76446e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.63616e-04\tAbsError: 9.74964e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.36190e-04\tAbsError: 1.78949e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 6.33519e-03\tAbsError: 3.03888e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.53255e-07\tAbsError: 1.92261e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.75729e+00\tAbsError: 1.04697e+15\n", - " Region: \"zone_1\"\tRelError: 2.31703e-01\tAbsError: 7.43403e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.31582e-01\tAbsError: 3.24495e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20545e-04\tAbsError: 4.18908e-02\n", - " Region: \"zone_3\"\tRelError: 1.52558e+00\tAbsError: 1.04697e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.62218e-01\tAbsError: 6.08738e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.47724e-01\tAbsError: 4.38234e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15521e-01\tAbsError: 3.24497e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20545e-04\tAbsError: 4.18908e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.56210e+00\tAbsError: 2.88655e+14\n", - " Region: \"zone_1\"\tRelError: 1.01850e-01\tAbsError: 8.11752e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01705e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.45044e-04\tAbsError: 5.04116e-02\n", - " Region: \"zone_3\"\tRelError: 1.46025e+00\tAbsError: 2.88655e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39145e-01\tAbsError: 2.10222e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.31918e-01\tAbsError: 7.84329e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.90395e-02\tAbsError: 3.07640e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.45044e-04\tAbsError: 5.04116e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.38465e-03\tAbsError: 9.89941e+10\n", - " Region: \"zone_1\"\tRelError: 2.02526e-03\tAbsError: 6.04134e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.02509e-03\tAbsError: 5.87660e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73788e-07\tAbsError: 6.03547e-05\n", - " Region: \"zone_3\"\tRelError: 3.59392e-04\tAbsError: 9.89941e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.10601e-06\tAbsError: 7.06670e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.03564e-06\tAbsError: 2.83270e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.45076e-04\tAbsError: 6.17837e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73818e-07\tAbsError: 6.03636e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.90232e-01\tAbsError: 1.27257e+14\n", - " Region: \"zone_1\"\tRelError: 2.88169e-01\tAbsError: 1.34324e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88157e-01\tAbsError: 9.16559e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22923e-05\tAbsError: 4.26682e-03\n", - " Region: \"zone_3\"\tRelError: 3.02062e-01\tAbsError: 1.27257e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98145e-01\tAbsError: 5.59682e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.53461e-02\tAbsError: 7.12890e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.85587e-02\tAbsError: 9.16563e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22942e-05\tAbsError: 4.26755e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.03450e-04\tAbsError: 1.30819e+11\n", - " Region: \"zone_1\"\tRelError: 4.77036e-05\tAbsError: 1.75374e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.71992e-05\tAbsError: 8.81101e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.04420e-07\tAbsError: 1.75286e-04\n", - " Region: \"zone_3\"\tRelError: 3.55747e-04\tAbsError: 1.30819e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.08527e-06\tAbsError: 9.76850e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.48031e-06\tAbsError: 3.31340e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.38677e-04\tAbsError: 9.20454e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.04420e-07\tAbsError: 1.75286e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.15658e+00\tAbsError: 5.66055e+14\n", - " Region: \"zone_1\"\tRelError: 1.31850e-01\tAbsError: 3.41253e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31826e-01\tAbsError: 2.58364e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.38517e-05\tAbsError: 8.28893e-03\n", - " Region: \"zone_3\"\tRelError: 1.02473e+00\tAbsError: 5.66055e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.76444e-01\tAbsError: 2.68305e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.42329e-01\tAbsError: 2.97750e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.05937e-01\tAbsError: 2.58885e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.38517e-05\tAbsError: 8.28893e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.02466e+00\tAbsError: 6.04267e+13\n", - " Region: \"zone_1\"\tRelError: 7.18592e-02\tAbsError: 3.22577e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.18409e-02\tAbsError: 2.58878e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83272e-05\tAbsError: 6.36990e-03\n", - " Region: \"zone_3\"\tRelError: 9.52804e-01\tAbsError: 6.04267e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40508e-01\tAbsError: 3.80417e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.10167e-01\tAbsError: 2.23851e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02110e-01\tAbsError: 2.58991e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83272e-05\tAbsError: 6.36990e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 8.44431e-04\tAbsError: 5.49302e+10\n", - " Region: \"zone_1\"\tRelError: 7.13090e-04\tAbsError: 4.21004e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 7.13078e-04\tAbsError: 5.01862e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19503e-08\tAbsError: 4.15985e-06\n", - " Region: \"zone_3\"\tRelError: 1.31342e-04\tAbsError: 5.49302e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.51186e-06\tAbsError: 2.12338e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.47250e-06\tAbsError: 3.36964e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.22345e-04\tAbsError: 5.02300e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19561e-08\tAbsError: 4.16197e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 6.19343e-04\tAbsError: 1.68979e+11\n", - " Region: \"zone_1\"\tRelError: 7.37376e-05\tAbsError: 3.31699e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 7.37284e-05\tAbsError: 1.11458e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.21362e-09\tAbsError: 3.20553e-06\n", - " Region: \"zone_3\"\tRelError: 5.45605e-04\tAbsError: 1.68979e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.02630e-05\tAbsError: 8.16562e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.01840e-05\tAbsError: 8.73224e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.25149e-04\tAbsError: 1.14194e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.21831e-09\tAbsError: 3.20711e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.81369e-01\tAbsError: 1.65118e+13\n", - " Region: \"zone_1\"\tRelError: 1.13683e-01\tAbsError: 2.48930e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13676e-01\tAbsError: 7.97182e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", - " Region: \"zone_3\"\tRelError: 6.76863e-02\tAbsError: 1.65118e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.50220e-02\tAbsError: 9.05581e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.84537e-03\tAbsError: 7.45604e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 9.81196e-03\tAbsError: 8.36703e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.10445e-01\tAbsError: 2.57026e+14\n", - " Region: \"zone_1\"\tRelError: 3.68944e-02\tAbsError: 1.67806e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.68788e-02\tAbsError: 1.13361e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.56850e-05\tAbsError: 5.44447e-03\n", - " Region: \"zone_3\"\tRelError: 3.73550e-01\tAbsError: 2.57026e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.26469e-01\tAbsError: 1.17749e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.09349e-01\tAbsError: 1.39277e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.77163e-02\tAbsError: 1.13362e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.56976e-05\tAbsError: 5.44890e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.07050e-01\tAbsError: 1.83634e+13\n", - " Region: \"zone_1\"\tRelError: 2.24108e-02\tAbsError: 1.12606e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.24048e-02\tAbsError: 9.16557e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.02744e-06\tAbsError: 2.09499e-03\n", - " Region: \"zone_3\"\tRelError: 2.84640e-01\tAbsError: 1.83634e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.09245e-01\tAbsError: 8.86934e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.28005e-02\tAbsError: 9.49405e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.25878e-02\tAbsError: 9.16561e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.02994e-06\tAbsError: 2.09586e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.98804e-05\tAbsError: 3.09962e+09\n", - " Region: \"zone_1\"\tRelError: 5.92720e-05\tAbsError: 2.99292e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.92634e-05\tAbsError: 1.93476e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.60480e-09\tAbsError: 2.99098e-06\n", - " Region: \"zone_3\"\tRelError: 1.06085e-05\tAbsError: 3.09962e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.21372e-07\tAbsError: 2.55195e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.06164e-07\tAbsError: 5.47662e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01723e-05\tAbsError: 2.01719e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.60488e-09\tAbsError: 2.99106e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:47\u001b[0m.\u001b[1;36m454\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:47\u001b[0m.\u001b[1;36m454\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.41874999999999996\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.00650e-05\tAbsError: 2.07855e+09\n", - " Region: \"zone_1\"\tRelError: 2.54140e-06\tAbsError: 1.04982e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.51119e-06\tAbsError: 2.66080e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.02028e-08\tAbsError: 1.04955e-05\n", - " Region: \"zone_3\"\tRelError: 1.75236e-05\tAbsError: 2.07855e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52303e-07\tAbsError: 3.52420e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.59594e-07\tAbsError: 1.72613e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.71815e-05\tAbsError: 2.70902e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.02126e-08\tAbsError: 1.04992e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 7.11615e-03\tAbsError: 1.08851e+12\n", - " Region: \"zone_1\"\tRelError: 5.30759e-03\tAbsError: 1.67972e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.30711e-03\tAbsError: 1.45981e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", - " Region: \"zone_3\"\tRelError: 1.80856e-03\tAbsError: 1.08851e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43945e-04\tAbsError: 2.92186e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.94756e-05\tAbsError: 7.96320e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.56466e-03\tAbsError: 1.47422e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:47\u001b[0m.\u001b[1;36m958\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:47\u001b[0m.\u001b[1;36m958\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6416666666666667\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.39650e-02\tAbsError: 2.30731e+12\n", - " Region: \"zone_1\"\tRelError: 9.33244e-04\tAbsError: 2.05118e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 9.27371e-04\tAbsError: 1.17101e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.87337e-06\tAbsError: 2.03947e-03\n", - " Region: \"zone_3\"\tRelError: 6.30318e-02\tAbsError: 2.30731e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.63237e-02\tAbsError: 1.57438e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.61914e-04\tAbsError: 7.32926e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 6.34034e-03\tAbsError: 1.22701e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.87337e-06\tAbsError: 2.03947e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.45294e-02\tAbsError: 4.75798e+13\n", - " Region: \"zone_1\"\tRelError: 9.83113e-03\tAbsError: 4.84305e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 9.81775e-03\tAbsError: 1.96851e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.33816e-05\tAbsError: 4.64620e-03\n", - " Region: \"zone_3\"\tRelError: 8.46983e-02\tAbsError: 4.75798e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.50937e-02\tAbsError: 2.64070e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.66534e-03\tAbsError: 2.11728e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09259e-02\tAbsError: 2.08766e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.33816e-05\tAbsError: 4.64620e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.87927e+01\tAbsError: 8.77821e+15\n", - " Region: \"zone_1\"\tRelError: 1.71169e+01\tAbsError: 4.22091e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.71169e+01\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.79161e-10\tAbsError: 6.23688e-08\n", - " Region: \"zone_3\"\tRelError: 1.67579e+00\tAbsError: 8.77821e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80226e-01\tAbsError: 5.15720e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.80206e-01\tAbsError: 3.62102e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15353e-01\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.79280e-10\tAbsError: 6.24114e-08\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.59900e-03\tAbsError: 1.40711e+11\n", - " Region: \"zone_1\"\tRelError: 2.06948e-03\tAbsError: 6.41578e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06929e-03\tAbsError: 9.09489e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84503e-07\tAbsError: 6.40668e-05\n", - " Region: \"zone_3\"\tRelError: 5.29527e-04\tAbsError: 1.40711e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.39801e-06\tAbsError: 9.47438e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.30618e-06\tAbsError: 4.59673e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.12638e-04\tAbsError: 9.48359e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84568e-07\tAbsError: 6.40878e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.54404e+00\tAbsError: 9.19653e+15\n", - " Region: \"zone_1\"\tRelError: 5.78704e+00\tAbsError: 4.26149e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.78704e+00\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.09033e-09\tAbsError: 7.26390e-07\n", - " Region: \"zone_3\"\tRelError: 1.75700e+00\tAbsError: 9.19653e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83468e-01\tAbsError: 4.88666e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.83333e-01\tAbsError: 4.30987e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.90195e-01\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.09072e-09\tAbsError: 7.26556e-07\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.79721e-03\tAbsError: 9.76589e+11\n", - " Region: \"zone_1\"\tRelError: 1.82738e-04\tAbsError: 8.39323e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82502e-04\tAbsError: 1.48235e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36874e-07\tAbsError: 8.24499e-05\n", - " Region: \"zone_3\"\tRelError: 1.61447e-03\tAbsError: 9.76589e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10820e-04\tAbsError: 2.51654e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.02342e-04\tAbsError: 7.24935e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40107e-03\tAbsError: 1.48793e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36983e-07\tAbsError: 8.24891e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.18118e-03\tAbsError: 2.28028e+12\n", - " Region: \"zone_1\"\tRelError: 7.42289e-04\tAbsError: 2.07979e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.41698e-04\tAbsError: 2.57621e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.91069e-07\tAbsError: 2.05403e-04\n", - " Region: \"zone_3\"\tRelError: 5.43889e-03\tAbsError: 2.28028e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.11866e-04\tAbsError: 7.70443e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.97347e-04\tAbsError: 1.50984e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.92909e-03\tAbsError: 2.58602e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.91069e-07\tAbsError: 2.05403e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.95137e+00\tAbsError: 3.48893e+14\n", - " Region: \"zone_1\"\tRelError: 4.47469e-01\tAbsError: 8.48100e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.47317e-01\tAbsError: 3.22435e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.51248e-04\tAbsError: 5.25665e-02\n", - " Region: \"zone_3\"\tRelError: 1.50390e+00\tAbsError: 3.48893e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.58073e-01\tAbsError: 2.53777e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.51336e-01\tAbsError: 9.51163e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.43386e-02\tAbsError: 3.22439e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.51248e-04\tAbsError: 5.25665e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 6.84757e-04\tAbsError: 5.79872e+10\n", - " Region: \"zone_1\"\tRelError: 5.39232e-04\tAbsError: 6.69464e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.39213e-04\tAbsError: 4.49143e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91058e-08\tAbsError: 6.64972e-06\n", - " Region: \"zone_3\"\tRelError: 1.45525e-04\tAbsError: 5.79872e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.71562e-06\tAbsError: 2.34463e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.68397e-06\tAbsError: 3.45410e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.38106e-04\tAbsError: 4.56915e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91137e-08\tAbsError: 6.65261e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.76152e+00\tAbsError: 6.12661e+15\n", - " Region: \"zone_1\"\tRelError: 2.09395e-01\tAbsError: 7.53205e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.09272e-01\tAbsError: 3.27221e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22597e-04\tAbsError: 4.25984e-02\n", - " Region: \"zone_3\"\tRelError: 1.55213e+00\tAbsError: 6.12661e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.63853e-01\tAbsError: 2.91068e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.34999e-01\tAbsError: 3.21593e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.53154e-01\tAbsError: 3.27222e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22597e-04\tAbsError: 4.25984e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.68582e-04\tAbsError: 6.39514e+10\n", - " Region: \"zone_1\"\tRelError: 3.10151e-05\tAbsError: 5.94800e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.08440e-05\tAbsError: 4.08298e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71164e-07\tAbsError: 5.94392e-05\n", - " Region: \"zone_3\"\tRelError: 2.37567e-04\tAbsError: 6.39514e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16150e-06\tAbsError: 5.01904e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.80228e-06\tAbsError: 1.37610e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29432e-04\tAbsError: 4.25523e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71229e-07\tAbsError: 5.94601e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 5.42428e-04\tAbsError: 1.49895e+11\n", - " Region: \"zone_1\"\tRelError: 7.43693e-05\tAbsError: 1.42149e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.39602e-05\tAbsError: 9.90020e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.09109e-07\tAbsError: 1.42050e-04\n", - " Region: \"zone_3\"\tRelError: 4.68059e-04\tAbsError: 1.49895e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.53557e-06\tAbsError: 1.05959e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.74851e-06\tAbsError: 4.39358e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.49366e-04\tAbsError: 1.03361e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.09109e-07\tAbsError: 1.42050e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.14013e+00\tAbsError: 8.25371e+13\n", - " Region: \"zone_1\"\tRelError: 1.11172e-01\tAbsError: 3.30262e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11151e-01\tAbsError: 2.57853e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.08335e-05\tAbsError: 7.24085e-03\n", - " Region: \"zone_3\"\tRelError: 1.02896e+00\tAbsError: 8.25371e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.70525e-01\tAbsError: 4.90867e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.50397e-01\tAbsError: 3.34505e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08014e-01\tAbsError: 2.58239e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.08335e-05\tAbsError: 7.24085e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.02364e-04\tAbsError: 5.62248e+09\n", - " Region: \"zone_1\"\tRelError: 8.15379e-05\tAbsError: 3.03368e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.15291e-05\tAbsError: 3.57289e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.71937e-09\tAbsError: 3.03011e-06\n", - " Region: \"zone_3\"\tRelError: 2.08260e-05\tAbsError: 5.62248e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.14319e-07\tAbsError: 4.05602e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.09034e-07\tAbsError: 1.56647e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.01939e-05\tAbsError: 3.71851e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.71944e-09\tAbsError: 3.03019e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.19309e+00\tAbsError: 4.43505e+15\n", - " Region: \"zone_1\"\tRelError: 1.28635e-01\tAbsError: 3.41725e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28609e-01\tAbsError: 2.52181e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.57713e-05\tAbsError: 8.95443e-03\n", - " Region: \"zone_3\"\tRelError: 1.06446e+00\tAbsError: 4.43505e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.84044e-01\tAbsError: 2.10617e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.39432e-01\tAbsError: 2.32888e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40955e-01\tAbsError: 2.56263e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.57981e-05\tAbsError: 8.96393e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.61549e-04\tAbsError: 5.47840e+10\n", - " Region: \"zone_1\"\tRelError: 1.81900e-05\tAbsError: 1.93945e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.81846e-05\tAbsError: 4.89694e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.43105e-09\tAbsError: 1.89048e-06\n", - " Region: \"zone_3\"\tRelError: 1.43359e-04\tAbsError: 5.47840e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.04114e-06\tAbsError: 2.20323e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.00674e-06\tAbsError: 3.27517e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35306e-04\tAbsError: 4.90033e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.43421e-09\tAbsError: 1.89162e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.91927e-04\tAbsError: 1.36404e+11\n", - " Region: \"zone_1\"\tRelError: 6.69713e-05\tAbsError: 3.11592e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.69626e-05\tAbsError: 9.20653e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.68788e-09\tAbsError: 3.02386e-06\n", - " Region: \"zone_3\"\tRelError: 4.24956e-04\tAbsError: 1.36404e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.34577e-06\tAbsError: 6.44393e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.27955e-06\tAbsError: 7.19643e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.08322e-04\tAbsError: 9.42720e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.69229e-09\tAbsError: 3.02544e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.75588e-01\tAbsError: 3.01123e+13\n", - " Region: \"zone_1\"\tRelError: 4.71817e-02\tAbsError: 1.36022e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.71744e-02\tAbsError: 1.10528e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.33552e-06\tAbsError: 2.54944e-03\n", - " Region: \"zone_3\"\tRelError: 3.28406e-01\tAbsError: 3.01123e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.23669e-01\tAbsError: 1.46557e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.60685e-02\tAbsError: 1.54566e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.86615e-02\tAbsError: 1.10528e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.33882e-06\tAbsError: 2.55063e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.62672e-05\tAbsError: 3.10481e+09\n", - " Region: \"zone_1\"\tRelError: 3.66806e-05\tAbsError: 2.21724e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 3.66799e-05\tAbsError: 2.06476e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.31104e-10\tAbsError: 2.19659e-07\n", - " Region: \"zone_3\"\tRelError: 9.58660e-06\tAbsError: 3.10481e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88628e-07\tAbsError: 1.51763e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.86687e-07\tAbsError: 1.58718e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 9.21065e-06\tAbsError: 2.10348e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.31398e-10\tAbsError: 2.19764e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:53\u001b[0m.\u001b[1;36m530\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.6\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.92644e-01\tAbsError: 1.63079e+15\n", - " Region: \"zone_1\"\tRelError: 7.03148e-02\tAbsError: 4.00940e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.02331e-02\tAbsError: 1.17197e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.16694e-05\tAbsError: 2.83743e-02\n", - " Region: \"zone_3\"\tRelError: 4.22329e-01\tAbsError: 1.63079e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.29131e-01\tAbsError: 8.82419e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.44724e-01\tAbsError: 7.48376e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.83927e-02\tAbsError: 1.17198e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.16694e-05\tAbsError: 2.83743e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.55715e-06\tAbsError: 1.55372e+09\n", - " Region: \"zone_1\"\tRelError: 2.75443e-07\tAbsError: 3.15707e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.66361e-07\tAbsError: 7.16801e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.08162e-09\tAbsError: 3.15635e-06\n", - " Region: \"zone_3\"\tRelError: 2.28171e-06\tAbsError: 1.55372e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01860e-07\tAbsError: 1.23173e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.92720e-08\tAbsError: 3.21996e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 2.10150e-06\tAbsError: 7.37244e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.08225e-09\tAbsError: 3.15662e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.79676e-06\tAbsError: 2.40078e+09\n", - " Region: \"zone_1\"\tRelError: 4.23223e-07\tAbsError: 8.23258e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.99535e-07\tAbsError: 1.09967e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36875e-08\tAbsError: 8.23148e-06\n", - " Region: \"zone_3\"\tRelError: 2.37354e-06\tAbsError: 2.40078e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.77442e-07\tAbsError: 2.05901e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.23886e-07\tAbsError: 3.41766e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 2.04852e-06\tAbsError: 1.12122e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36936e-08\tAbsError: 8.23382e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:54\u001b[0m.\u001b[1;36m139\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.5\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:54\u001b[0m.\u001b[1;36m244\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:54\u001b[0m.\u001b[1;36m244\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6357142857142857\u001b[0m \n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "number of equations 31816\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.36867e-02\tAbsError: 4.49639e+12\n", - " Region: \"zone_1\"\tRelError: 6.00906e-03\tAbsError: 1.73862e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.00414e-03\tAbsError: 3.08269e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.91824e-06\tAbsError: 1.70779e-03\n", - " Region: \"zone_3\"\tRelError: 7.76776e-02\tAbsError: 4.49639e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.81380e-02\tAbsError: 2.39823e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.79324e-03\tAbsError: 2.09816e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.74142e-03\tAbsError: 3.38601e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.91824e-06\tAbsError: 1.70779e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.29483e-01\tAbsError: 3.05068e+14\n", - " Region: \"zone_1\"\tRelError: 8.16545e-03\tAbsError: 2.91905e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.08201e-03\tAbsError: 2.25848e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.34378e-05\tAbsError: 2.89646e-02\n", - " Region: \"zone_3\"\tRelError: 1.21317e-01\tAbsError: 3.05068e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.58578e-02\tAbsError: 1.79486e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.20322e-02\tAbsError: 1.25582e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.33440e-02\tAbsError: 2.36235e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.34378e-05\tAbsError: 2.89646e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.94073e+01\tAbsError: 8.32958e+15\n", - " Region: \"zone_1\"\tRelError: 1.77016e+01\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77016e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.06764e-10\tAbsError: 1.76108e-07\n", - " Region: \"zone_3\"\tRelError: 1.70569e+00\tAbsError: 8.32958e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69637e-01\tAbsError: 4.59097e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69532e-01\tAbsError: 3.73860e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66519e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.06930e-10\tAbsError: 1.76171e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.44671e+02\tAbsError: 8.23352e+15\n", - " Region: \"zone_1\"\tRelError: 5.43003e+02\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.43003e+02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.11267e-10\tAbsError: 1.43080e-07\n", - " Region: \"zone_3\"\tRelError: 1.66763e+00\tAbsError: 8.23352e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.84587e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69628e-01\tAbsError: 3.38765e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28340e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.11422e-10\tAbsError: 1.43134e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.13690e+00\tAbsError: 9.06564e+15\n", - " Region: \"zone_1\"\tRelError: 4.38729e+00\tAbsError: 4.23839e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.38729e+00\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10788e-09\tAbsError: 3.85000e-07\n", - " Region: \"zone_3\"\tRelError: 1.74961e+00\tAbsError: 9.06564e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.81598e-01\tAbsError: 4.84230e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.81467e-01\tAbsError: 4.22333e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86547e-01\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10788e-09\tAbsError: 3.85000e-07\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.07855e-03\tAbsError: 8.06829e+11\n", - " Region: \"zone_1\"\tRelError: 1.84429e-04\tAbsError: 1.23665e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.84077e-04\tAbsError: 1.20782e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.51834e-07\tAbsError: 1.22457e-04\n", - " Region: \"zone_3\"\tRelError: 8.94125e-04\tAbsError: 8.06829e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07774e-04\tAbsError: 1.89260e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.83970e-05\tAbsError: 6.17569e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 7.07602e-04\tAbsError: 1.21142e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.51972e-07\tAbsError: 1.22508e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.96602e-02\tAbsError: 1.51748e+13\n", - " Region: \"zone_1\"\tRelError: 4.68184e-03\tAbsError: 3.54680e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.68086e-03\tAbsError: 1.17136e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.87176e-07\tAbsError: 3.42966e-04\n", - " Region: \"zone_3\"\tRelError: 4.49784e-02\tAbsError: 1.51748e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07526e-03\tAbsError: 6.43367e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.83883e-04\tAbsError: 8.74109e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.29183e-02\tAbsError: 1.21270e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.87176e-07\tAbsError: 3.42966e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.07616e+01\tAbsError: 3.02291e+15\n", - " Region: \"zone_1\"\tRelError: 9.27113e+00\tAbsError: 6.52674e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.27103e+00\tAbsError: 3.07634e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.92954e-05\tAbsError: 3.45040e-02\n", - " Region: \"zone_3\"\tRelError: 1.49044e+00\tAbsError: 3.02291e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.40308e-01\tAbsError: 1.49698e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.14159e-01\tAbsError: 1.52592e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35875e-01\tAbsError: 3.07635e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.92954e-05\tAbsError: 3.45040e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 4.93663e+00\tAbsError: 6.37428e+14\n", - " Region: \"zone_1\"\tRelError: 3.46019e+00\tAbsError: 7.21476e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.46007e+00\tAbsError: 3.07635e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", - " Region: \"zone_3\"\tRelError: 1.47644e+00\tAbsError: 6.37428e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.40577e-01\tAbsError: 3.72575e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.27797e-01\tAbsError: 2.64853e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07947e-01\tAbsError: 3.07638e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.79485e+00\tAbsError: 5.47603e+15\n", - " Region: \"zone_1\"\tRelError: 2.51138e-01\tAbsError: 7.31255e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.51021e-01\tAbsError: 3.24494e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.17064e-04\tAbsError: 4.06761e-02\n", - " Region: \"zone_3\"\tRelError: 1.54371e+00\tAbsError: 5.47603e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.60529e-01\tAbsError: 2.61823e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32596e-01\tAbsError: 2.85780e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.50466e-01\tAbsError: 3.24494e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.17064e-04\tAbsError: 4.06761e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.60447e-04\tAbsError: 1.06355e+11\n", - " Region: \"zone_1\"\tRelError: 4.47681e-05\tAbsError: 4.42560e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.46408e-05\tAbsError: 6.79569e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27248e-07\tAbsError: 4.41881e-05\n", - " Region: \"zone_3\"\tRelError: 4.15679e-04\tAbsError: 1.06355e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.03322e-06\tAbsError: 7.30303e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.96546e-06\tAbsError: 3.33242e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.01553e-04\tAbsError: 7.09759e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27248e-07\tAbsError: 4.41881e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.52996e-04\tAbsError: 2.81948e+11\n", - " Region: \"zone_1\"\tRelError: 2.18342e-05\tAbsError: 9.35229e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.91426e-05\tAbsError: 1.70183e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69160e-06\tAbsError: 9.35059e-04\n", - " Region: \"zone_3\"\tRelError: 2.31162e-04\tAbsError: 2.81948e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.87484e-05\tAbsError: 2.24250e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.27443e-06\tAbsError: 5.76984e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.00448e-04\tAbsError: 1.70517e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69168e-06\tAbsError: 9.35104e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.22732e+00\tAbsError: 2.06865e+15\n", - " Region: \"zone_1\"\tRelError: 2.78568e-01\tAbsError: 2.74627e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78563e-01\tAbsError: 2.58185e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73142e-06\tAbsError: 1.64416e-03\n", - " Region: \"zone_3\"\tRelError: 9.48751e-01\tAbsError: 2.06865e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.44918e-01\tAbsError: 9.02348e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.89155e-01\tAbsError: 1.16630e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14673e-01\tAbsError: 2.51147e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73142e-06\tAbsError: 1.64416e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.95431e+00\tAbsError: 2.96317e+14\n", - " Region: \"zone_1\"\tRelError: 2.00902e+00\tAbsError: 3.34445e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.00900e+00\tAbsError: 2.58782e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", - " Region: \"zone_3\"\tRelError: 9.45295e-01\tAbsError: 2.96317e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42034e-01\tAbsError: 1.59420e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.10683e-01\tAbsError: 1.36896e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.25558e-02\tAbsError: 2.58843e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.17461e+00\tAbsError: 4.04065e+15\n", - " Region: \"zone_1\"\tRelError: 1.26446e-01\tAbsError: 3.40013e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.26423e-01\tAbsError: 2.57765e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36708e-05\tAbsError: 8.22472e-03\n", - " Region: \"zone_3\"\tRelError: 1.04817e+00\tAbsError: 4.04065e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.78908e-01\tAbsError: 1.87301e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.31622e-01\tAbsError: 2.16764e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37612e-01\tAbsError: 2.56811e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36844e-05\tAbsError: 8.22958e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 8.78515e-05\tAbsError: 3.85456e+10\n", - " Region: \"zone_1\"\tRelError: 8.13611e-06\tAbsError: 5.58107e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.12018e-06\tAbsError: 3.60972e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59308e-08\tAbsError: 5.54497e-06\n", - " Region: \"zone_3\"\tRelError: 7.97153e-05\tAbsError: 3.85456e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.76828e-06\tAbsError: 1.31596e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.74419e-06\tAbsError: 2.53860e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.41869e-05\tAbsError: 3.60990e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59375e-08\tAbsError: 5.54742e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:26:58\u001b[0m.\u001b[1;36m865\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.525\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.89158e-03\tAbsError: 9.05298e+11\n", - " Region: \"zone_1\"\tRelError: 3.78207e-04\tAbsError: 4.44628e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.78080e-04\tAbsError: 4.56527e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26768e-07\tAbsError: 4.40063e-05\n", - " Region: \"zone_3\"\tRelError: 3.51337e-03\tAbsError: 9.05298e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42984e-05\tAbsError: 4.59366e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.41399e-05\tAbsError: 4.45932e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.42481e-03\tAbsError: 4.75231e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26809e-07\tAbsError: 4.40212e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 7.18897e+00\tAbsError: 6.29402e+14\n", - " Region: \"zone_1\"\tRelError: 6.86170e+00\tAbsError: 2.22868e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.86166e+00\tAbsError: 9.16572e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.77613e-05\tAbsError: 1.31211e-02\n", - " Region: \"zone_3\"\tRelError: 3.27267e-01\tAbsError: 6.29402e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84319e-01\tAbsError: 3.28649e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.08857e-01\tAbsError: 3.00753e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.40527e-02\tAbsError: 9.16579e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.77613e-05\tAbsError: 1.31211e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.90232e-01\tAbsError: 1.27257e+14\n", - " Region: \"zone_1\"\tRelError: 2.88169e-01\tAbsError: 1.34324e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88157e-01\tAbsError: 9.16559e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22923e-05\tAbsError: 4.26682e-03\n", - " Region: \"zone_3\"\tRelError: 3.02062e-01\tAbsError: 1.27257e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98145e-01\tAbsError: 5.59682e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.53461e-02\tAbsError: 7.12890e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.85587e-02\tAbsError: 9.16563e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22942e-05\tAbsError: 4.26755e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.86737e-01\tAbsError: 1.42449e+15\n", - " Region: \"zone_1\"\tRelError: 7.79806e-02\tAbsError: 3.66548e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.79077e-02\tAbsError: 1.13365e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.28716e-05\tAbsError: 2.53183e-02\n", - " Region: \"zone_3\"\tRelError: 4.08757e-01\tAbsError: 1.42449e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.22785e-01\tAbsError: 7.62606e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.39761e-01\tAbsError: 6.61889e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.61373e-02\tAbsError: 1.13366e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.28716e-05\tAbsError: 2.53183e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.69212e+00\tAbsError: 8.74359e+15\n", - " Region: \"zone_1\"\tRelError: 4.99147e+00\tAbsError: 4.22110e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.99147e+00\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.56758e-09\tAbsError: 1.93339e-06\n", - " Region: \"zone_3\"\tRelError: 1.70065e+00\tAbsError: 8.74359e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80239e-01\tAbsError: 5.11926e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.80194e-01\tAbsError: 3.62433e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40220e-01\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.56931e-09\tAbsError: 1.93394e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.97153e-04\tAbsError: 4.19543e+10\n", - " Region: \"zone_1\"\tRelError: 2.91864e-05\tAbsError: 5.71878e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.90219e-05\tAbsError: 2.71119e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.64529e-07\tAbsError: 5.71607e-05\n", - " Region: \"zone_3\"\tRelError: 2.67967e-04\tAbsError: 4.19543e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.38035e-06\tAbsError: 1.92714e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.40994e-06\tAbsError: 2.26829e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.63012e-04\tAbsError: 2.79421e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.64589e-07\tAbsError: 5.71816e-05\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.42105e-01\tAbsError: 9.57843e+13\n", - " Region: \"zone_1\"\tRelError: 5.64317e-01\tAbsError: 1.44974e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.64276e-01\tAbsError: 1.24104e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14024e-05\tAbsError: 1.43733e-02\n", - " Region: \"zone_3\"\tRelError: 7.77880e-02\tAbsError: 9.57843e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.25473e-02\tAbsError: 4.71405e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.65020e-03\tAbsError: 4.86438e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.95491e-02\tAbsError: 1.28397e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14024e-05\tAbsError: 1.43733e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.81369e-01\tAbsError: 1.65118e+13\n", - " Region: \"zone_1\"\tRelError: 1.13683e-01\tAbsError: 2.48930e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13676e-01\tAbsError: 7.97182e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", - " Region: \"zone_3\"\tRelError: 6.76863e-02\tAbsError: 1.65118e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.50220e-02\tAbsError: 9.05581e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.84537e-03\tAbsError: 7.45604e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 9.81196e-03\tAbsError: 8.36703e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.19037e-01\tAbsError: 2.65162e+14\n", - " Region: \"zone_1\"\tRelError: 5.99790e-03\tAbsError: 2.62748e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.92282e-03\tAbsError: 2.08974e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.50856e-05\tAbsError: 2.60658e-02\n", - " Region: \"zone_3\"\tRelError: 1.13040e-01\tAbsError: 2.65162e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38024e-02\tAbsError: 1.56704e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.09425e-02\tAbsError: 1.08458e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.82196e-02\tAbsError: 2.18158e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.50856e-05\tAbsError: 2.60658e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.77192e+00\tAbsError: 9.85877e+14\n", - " Region: \"zone_1\"\tRelError: 2.52573e-01\tAbsError: 7.40894e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.52452e-01\tAbsError: 3.22434e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20416e-04\tAbsError: 4.18460e-02\n", - " Region: \"zone_3\"\tRelError: 1.51935e+00\tAbsError: 9.85877e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.59672e-01\tAbsError: 5.74420e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.45383e-01\tAbsError: 4.11458e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14171e-01\tAbsError: 3.22436e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20416e-04\tAbsError: 4.18460e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.75864e-04\tAbsError: 5.63886e+10\n", - " Region: \"zone_1\"\tRelError: 2.69666e-05\tAbsError: 6.16583e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.69489e-05\tAbsError: 2.63967e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.76715e-08\tAbsError: 6.13943e-06\n", - " Region: \"zone_3\"\tRelError: 2.48898e-04\tAbsError: 5.63886e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.67515e-06\tAbsError: 3.18401e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.66080e-06\tAbsError: 2.45485e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.43544e-04\tAbsError: 2.74388e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.76766e-08\tAbsError: 6.14120e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.36557e-01\tAbsError: 7.18470e+12\n", - " Region: \"zone_1\"\tRelError: 1.16158e-01\tAbsError: 1.78279e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16157e-01\tAbsError: 6.59165e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.94530e-07\tAbsError: 1.71687e-04\n", - " Region: \"zone_3\"\tRelError: 2.03993e-02\tAbsError: 7.18470e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.98223e-04\tAbsError: 2.78831e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.37326e-04\tAbsError: 4.39639e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.92632e-02\tAbsError: 6.83641e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.94530e-07\tAbsError: 1.71687e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 7.11615e-03\tAbsError: 1.08851e+12\n", - " Region: \"zone_1\"\tRelError: 5.30759e-03\tAbsError: 1.67972e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.30711e-03\tAbsError: 1.45981e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", - " Region: \"zone_3\"\tRelError: 1.80856e-03\tAbsError: 1.08851e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43945e-04\tAbsError: 2.92186e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.94756e-05\tAbsError: 7.96320e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.56466e-03\tAbsError: 1.47422e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.38825e-02\tAbsError: 1.34352e+13\n", - " Region: \"zone_1\"\tRelError: 3.90365e-03\tAbsError: 2.91296e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.90285e-03\tAbsError: 1.07704e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.07428e-07\tAbsError: 2.80526e-04\n", - " Region: \"zone_3\"\tRelError: 3.99789e-02\tAbsError: 1.34352e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.86559e-04\tAbsError: 5.55385e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.99792e-04\tAbsError: 7.88132e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.80917e-02\tAbsError: 1.10910e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.07428e-07\tAbsError: 2.80526e-04\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.70615e-05\tAbsError: 5.88164e+09\n", - " Region: \"zone_1\"\tRelError: 3.64088e-06\tAbsError: 3.85278e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.62980e-06\tAbsError: 3.10674e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10807e-08\tAbsError: 3.84967e-06\n", - " Region: \"zone_3\"\tRelError: 3.34206e-05\tAbsError: 5.88164e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.00628e-07\tAbsError: 3.35788e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.01512e-07\tAbsError: 2.52376e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.28074e-05\tAbsError: 3.20733e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10825e-08\tAbsError: 3.85030e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.17046e+00\tAbsError: 5.18157e+14\n", - " Region: \"zone_1\"\tRelError: 1.54680e-01\tAbsError: 3.40645e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.54656e-01\tAbsError: 2.58448e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36523e-05\tAbsError: 8.21968e-03\n", - " Region: \"zone_3\"\tRelError: 1.01578e+00\tAbsError: 5.18157e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.72316e-01\tAbsError: 2.47147e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.39064e-01\tAbsError: 2.71010e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04375e-01\tAbsError: 2.57967e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36523e-05\tAbsError: 8.21968e-03\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:03\u001b[0m.\u001b[1;36m346\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: 0.75\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.13498e-03\tAbsError: 1.41105e+11\n", - " Region: \"zone_1\"\tRelError: 2.73398e-03\tAbsError: 4.76357e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.73260e-03\tAbsError: 1.35633e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37060e-06\tAbsError: 4.76221e-04\n", - " Region: \"zone_3\"\tRelError: 4.01007e-04\tAbsError: 1.41105e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.96062e-06\tAbsError: 6.85210e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.81427e-06\tAbsError: 7.25836e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.87862e-04\tAbsError: 1.38229e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37060e-06\tAbsError: 4.76221e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.59900e-03\tAbsError: 1.40711e+11\n", - " Region: \"zone_1\"\tRelError: 2.06948e-03\tAbsError: 6.41578e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06929e-03\tAbsError: 9.09489e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84503e-07\tAbsError: 6.40668e-05\n", - " Region: \"zone_3\"\tRelError: 5.29527e-04\tAbsError: 1.40711e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.39801e-06\tAbsError: 9.47438e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.30618e-06\tAbsError: 4.59673e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.12638e-04\tAbsError: 9.48359e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84568e-07\tAbsError: 6.40878e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.10085e-04\tAbsError: 2.49978e+11\n", - " Region: \"zone_1\"\tRelError: 2.66948e-05\tAbsError: 8.47545e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.42556e-05\tAbsError: 1.53478e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.43917e-06\tAbsError: 8.47391e-04\n", - " Region: \"zone_3\"\tRelError: 2.83390e-04\tAbsError: 2.49978e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.62105e-05\tAbsError: 1.91658e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.80553e-06\tAbsError: 5.83197e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.56935e-04\tAbsError: 1.54001e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.43923e-06\tAbsError: 8.47427e-04\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.98481e-01\tAbsError: 2.35572e+14\n", - " Region: \"zone_1\"\tRelError: 3.57005e-02\tAbsError: 1.65805e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.56846e-02\tAbsError: 1.10528e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59248e-05\tAbsError: 5.52768e-03\n", - " Region: \"zone_3\"\tRelError: 3.62780e-01\tAbsError: 2.35572e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.21638e-01\tAbsError: 1.07223e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.04647e-01\tAbsError: 1.28348e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.64794e-02\tAbsError: 1.10528e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59361e-05\tAbsError: 5.53170e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.09784e+02\tAbsError: 3.38352e+16\n", - " Region: \"zone_1\"\tRelError: 1.07958e+02\tAbsError: 4.26148e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07958e+02\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.76616e-09\tAbsError: 6.13601e-07\n", - " Region: \"zone_3\"\tRelError: 1.82645e+00\tAbsError: 3.38352e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.82692e-01\tAbsError: 1.68867e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.82173e-01\tAbsError: 1.69485e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.61588e-01\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.76638e-09\tAbsError: 6.13676e-07\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.31814e-02\tAbsError: 4.58362e+11\n", - " Region: \"zone_1\"\tRelError: 1.15315e-02\tAbsError: 2.80900e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15314e-02\tAbsError: 2.57528e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.01667e-08\tAbsError: 2.78324e-05\n", - " Region: \"zone_3\"\tRelError: 1.64997e-03\tAbsError: 4.58362e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47024e-05\tAbsError: 2.30121e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.45967e-05\tAbsError: 2.28241e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.60059e-03\tAbsError: 2.62890e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.01667e-08\tAbsError: 2.78324e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 6.84757e-04\tAbsError: 5.79873e+10\n", - " Region: \"zone_1\"\tRelError: 5.39232e-04\tAbsError: 6.69464e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.39213e-04\tAbsError: 4.49143e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91058e-08\tAbsError: 6.64972e-06\n", - " Region: \"zone_3\"\tRelError: 1.45525e-04\tAbsError: 5.79873e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.71562e-06\tAbsError: 2.34463e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.68397e-06\tAbsError: 3.45410e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.38106e-04\tAbsError: 4.56915e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91137e-08\tAbsError: 6.65261e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.45230e-03\tAbsError: 8.19006e+11\n", - " Region: \"zone_1\"\tRelError: 3.16929e-04\tAbsError: 4.12787e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.16811e-04\tAbsError: 4.16156e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.17710e-07\tAbsError: 4.08626e-05\n", - " Region: \"zone_3\"\tRelError: 3.13537e-03\tAbsError: 8.19006e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.06413e-05\tAbsError: 4.15540e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.05304e-05\tAbsError: 4.03467e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.05408e-03\tAbsError: 4.34810e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.17738e-07\tAbsError: 4.08731e-05\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.34957e-02\tAbsError: 4.23641e+13\n", - " Region: \"zone_1\"\tRelError: 1.07688e-02\tAbsError: 4.16936e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07573e-02\tAbsError: 1.79758e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.14905e-05\tAbsError: 3.98960e-03\n", - " Region: \"zone_3\"\tRelError: 8.27269e-02\tAbsError: 4.23641e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.35207e-02\tAbsError: 2.38732e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.77445e-03\tAbsError: 1.84909e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14203e-02\tAbsError: 1.90667e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.14905e-05\tAbsError: 3.98960e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.24383e+00\tAbsError: 3.59726e+16\n", - " Region: \"zone_1\"\tRelError: 6.31680e-01\tAbsError: 1.71583e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 6.31280e-01\tAbsError: 3.27219e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.99867e-04\tAbsError: 1.38861e-01\n", - " Region: \"zone_3\"\tRelError: 1.61215e+00\tAbsError: 3.59726e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.60313e-01\tAbsError: 1.81432e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.24896e-01\tAbsError: 1.78294e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.26543e-01\tAbsError: 3.27220e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.99867e-04\tAbsError: 1.38861e-01\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.25913e-03\tAbsError: 2.71128e+10\n", - " Region: \"zone_1\"\tRelError: 1.10973e-03\tAbsError: 2.99279e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10965e-03\tAbsError: 1.77983e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.60783e-08\tAbsError: 2.99101e-05\n", - " Region: \"zone_3\"\tRelError: 1.49391e-04\tAbsError: 2.71128e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.61984e-06\tAbsError: 1.29863e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.63350e-06\tAbsError: 1.41265e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.46052e-04\tAbsError: 1.82225e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.61134e-08\tAbsError: 2.99224e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.02364e-04\tAbsError: 5.62247e+09\n", - " Region: \"zone_1\"\tRelError: 8.15379e-05\tAbsError: 3.03368e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.15291e-05\tAbsError: 3.57289e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.71937e-09\tAbsError: 3.03011e-06\n", - " Region: \"zone_3\"\tRelError: 2.08260e-05\tAbsError: 5.62247e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.14319e-07\tAbsError: 4.05602e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.09034e-07\tAbsError: 1.56645e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.01939e-05\tAbsError: 3.71851e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.71944e-09\tAbsError: 3.03019e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.69782e-04\tAbsError: 3.91534e+10\n", - " Region: \"zone_1\"\tRelError: 2.50455e-05\tAbsError: 5.20353e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.48958e-05\tAbsError: 2.51864e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.49699e-07\tAbsError: 5.20101e-05\n", - " Region: \"zone_3\"\tRelError: 2.44736e-04\tAbsError: 3.91534e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.23816e-06\tAbsError: 1.81837e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.26547e-06\tAbsError: 2.09697e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.40083e-04\tAbsError: 2.60525e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.49755e-07\tAbsError: 5.20295e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.96199e-03\tAbsError: 1.91554e+12\n", - " Region: \"zone_1\"\tRelError: 6.58625e-04\tAbsError: 2.23948e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.57987e-04\tAbsError: 2.24579e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.37961e-07\tAbsError: 2.21702e-04\n", - " Region: \"zone_3\"\tRelError: 4.30337e-03\tAbsError: 1.91554e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.72509e-04\tAbsError: 6.15591e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.67636e-04\tAbsError: 1.29995e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.86259e-03\tAbsError: 2.25284e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.37961e-07\tAbsError: 2.21702e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 9.89584e-04\tAbsError: 2.93050e+10\n", - " Region: \"zone_1\"\tRelError: 8.69289e-04\tAbsError: 3.58476e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.69279e-04\tAbsError: 1.49163e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.02736e-08\tAbsError: 3.56984e-06\n", - " Region: \"zone_3\"\tRelError: 1.20295e-04\tAbsError: 2.93050e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52554e-06\tAbsError: 1.64489e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.51838e-06\tAbsError: 1.28561e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17241e-04\tAbsError: 1.55101e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.02768e-08\tAbsError: 3.57094e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.12505e+00\tAbsError: 2.31531e+16\n", - " Region: \"zone_1\"\tRelError: 1.58868e-01\tAbsError: 1.05142e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.58639e-01\tAbsError: 2.56126e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.29065e-04\tAbsError: 7.95290e-02\n", - " Region: \"zone_3\"\tRelError: 1.96618e+00\tAbsError: 2.31531e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.75933e-01\tAbsError: 1.14785e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.26157e-01\tAbsError: 1.16746e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06386e+00\tAbsError: 2.48349e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.29065e-04\tAbsError: 7.95290e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.62672e-05\tAbsError: 3.10482e+09\n", - " Region: \"zone_1\"\tRelError: 3.66806e-05\tAbsError: 2.21724e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 3.66799e-05\tAbsError: 2.06476e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.31104e-10\tAbsError: 2.19659e-07\n", - " Region: \"zone_3\"\tRelError: 9.58660e-06\tAbsError: 3.10482e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88628e-07\tAbsError: 1.51763e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.86687e-07\tAbsError: 1.58719e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 9.21065e-06\tAbsError: 2.10348e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.31398e-10\tAbsError: 2.19764e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:08\u001b[0m.\u001b[1;36m397\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.6\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.45670e-04\tAbsError: 5.12227e+10\n", - " Region: \"zone_1\"\tRelError: 2.26882e-05\tAbsError: 5.68447e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.26719e-05\tAbsError: 2.41814e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62919e-08\tAbsError: 5.66029e-06\n", - " Region: \"zone_3\"\tRelError: 2.22982e-04\tAbsError: 5.12227e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.46355e-06\tAbsError: 2.89207e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.45248e-06\tAbsError: 2.23020e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.18049e-04\tAbsError: 2.53174e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62965e-08\tAbsError: 5.66192e-06\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.77277e-04\tAbsError: 1.69406e+11\n", - " Region: \"zone_1\"\tRelError: 1.04989e-04\tAbsError: 1.17617e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04650e-04\tAbsError: 1.10516e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.38424e-07\tAbsError: 1.17507e-04\n", - " Region: \"zone_3\"\tRelError: 5.72288e-04\tAbsError: 1.69406e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01879e-05\tAbsError: 1.15108e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.00498e-05\tAbsError: 5.42984e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.51712e-04\tAbsError: 1.15347e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.38451e-07\tAbsError: 1.17518e-04\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.48739e-04\tAbsError: 3.41314e+09\n", - " Region: \"zone_1\"\tRelError: 1.31134e-04\tAbsError: 2.06494e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31128e-04\tAbsError: 1.91971e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.93716e-09\tAbsError: 2.06302e-06\n", - " Region: \"zone_3\"\tRelError: 1.76048e-05\tAbsError: 3.41314e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88514e-07\tAbsError: 1.94837e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.89063e-07\tAbsError: 1.46477e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72213e-05\tAbsError: 1.99642e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.93836e-09\tAbsError: 2.06344e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 7.92425e+00\tAbsError: 7.57393e+15\n", - " Region: \"zone_1\"\tRelError: 6.50438e+00\tAbsError: 5.67741e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.50425e+00\tAbsError: 1.17189e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.29791e-04\tAbsError: 4.50552e-02\n", - " Region: \"zone_3\"\tRelError: 1.41987e+00\tAbsError: 7.57393e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12287e-01\tAbsError: 4.15774e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.27964e-01\tAbsError: 3.41619e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07949e+00\tAbsError: 1.17190e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.29791e-04\tAbsError: 4.50552e-02\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.33744e-05\tAbsError: 5.41736e+09\n", - " Region: \"zone_1\"\tRelError: 3.09836e-06\tAbsError: 3.51825e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.08825e-06\tAbsError: 2.88215e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.01182e-08\tAbsError: 3.51537e-06\n", - " Region: \"zone_3\"\tRelError: 3.02760e-05\tAbsError: 5.41736e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.80133e-07\tAbsError: 3.09626e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.81126e-07\tAbsError: 2.32110e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.97047e-05\tAbsError: 2.99667e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.01199e-08\tAbsError: 3.51597e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:09\u001b[0m.\u001b[1;36m880\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:09\u001b[0m.\u001b[1;36m880\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7428571428571428\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.94073e+01\tAbsError: 8.32958e+15\n", - " Region: \"zone_1\"\tRelError: 1.77016e+01\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77016e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.06764e-10\tAbsError: 1.76108e-07\n", - " Region: \"zone_3\"\tRelError: 1.70569e+00\tAbsError: 8.32958e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69637e-01\tAbsError: 4.59097e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69532e-01\tAbsError: 3.73860e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66519e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.06930e-10\tAbsError: 1.76171e-07\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 7.33109e-05\tAbsError: 1.99171e+09\n", - " Region: \"zone_1\"\tRelError: 6.45108e-05\tAbsError: 3.50573e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 6.45098e-05\tAbsError: 1.06453e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00585e-09\tAbsError: 3.49509e-07\n", - " Region: \"zone_3\"\tRelError: 8.80008e-06\tAbsError: 1.99171e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03719e-07\tAbsError: 1.17952e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03272e-07\tAbsError: 8.12185e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 8.59208e-06\tAbsError: 1.10473e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00600e-09\tAbsError: 3.49562e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:10\u001b[0m.\u001b[1;36m234\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.7000000000000001\u001b[0m\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.92207e-04\tAbsError: 1.11515e+11\n", - " Region: \"zone_1\"\tRelError: 5.98028e-05\tAbsError: 5.69528e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.97866e-05\tAbsError: 7.69182e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.61427e-08\tAbsError: 5.61837e-06\n", - " Region: \"zone_3\"\tRelError: 3.32405e-04\tAbsError: 1.11515e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.85875e-06\tAbsError: 5.12772e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.80258e-06\tAbsError: 6.02373e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.18727e-04\tAbsError: 7.87224e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.61498e-08\tAbsError: 5.62096e-06\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.79873e+00\tAbsError: 1.72669e+15\n", - " Region: \"zone_1\"\tRelError: 1.69883e+00\tAbsError: 1.92473e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.69827e+00\tAbsError: 3.36867e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.53976e-04\tAbsError: 1.92136e-01\n", - " Region: \"zone_3\"\tRelError: 9.99032e-02\tAbsError: 1.72669e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.09613e-02\tAbsError: 8.58572e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.79843e-02\tAbsError: 8.68118e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.04024e-02\tAbsError: 3.67321e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.55146e-04\tAbsError: 1.92536e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.07616e+01\tAbsError: 3.02291e+15\n", - " Region: \"zone_1\"\tRelError: 9.27113e+00\tAbsError: 6.52674e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.27103e+00\tAbsError: 3.07634e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.92954e-05\tAbsError: 3.45040e-02\n", - " Region: \"zone_3\"\tRelError: 1.49044e+00\tAbsError: 3.02291e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.40308e-01\tAbsError: 1.49698e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.14159e-01\tAbsError: 1.52592e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35875e-01\tAbsError: 3.07635e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.92954e-05\tAbsError: 3.45040e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.44971e+01\tAbsError: 3.04084e+16\n", - " Region: \"zone_1\"\tRelError: 3.26810e+01\tAbsError: 4.23840e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.26810e+01\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62519e-09\tAbsError: 5.64640e-07\n", - " Region: \"zone_3\"\tRelError: 1.81608e+00\tAbsError: 3.04084e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80898e-01\tAbsError: 1.52254e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.80422e-01\tAbsError: 1.51830e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.54761e-01\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62539e-09\tAbsError: 5.64711e-07\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.32281e-05\tAbsError: 4.39719e+09\n", - " Region: \"zone_1\"\tRelError: 2.01633e-06\tAbsError: 6.48161e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.99769e-06\tAbsError: 2.67095e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.86442e-08\tAbsError: 6.47894e-06\n", - " Region: \"zone_3\"\tRelError: 1.12117e-05\tAbsError: 4.39719e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.71767e-07\tAbsError: 3.55045e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.15277e-07\tAbsError: 8.46742e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07060e-05\tAbsError: 2.77920e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.86479e-08\tAbsError: 6.48033e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:11\u001b[0m.\u001b[1;36m773\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.63125\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.94222e+01\tAbsError: 1.62190e+16\n", - " Region: \"zone_1\"\tRelError: 2.76662e+01\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.76662e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.29578e-10\tAbsError: 1.49268e-07\n", - " Region: \"zone_3\"\tRelError: 1.75598e+00\tAbsError: 1.62190e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69267e-01\tAbsError: 8.18784e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.68971e-01\tAbsError: 8.03117e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.17740e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.29628e-10\tAbsError: 1.49286e-07\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.95883e+00\tAbsError: 2.59839e+14\n", - " Region: \"zone_1\"\tRelError: 1.13863e-01\tAbsError: 1.16709e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13830e-01\tAbsError: 5.73242e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.34838e-05\tAbsError: 1.16136e-02\n", - " Region: \"zone_3\"\tRelError: 3.84497e+00\tAbsError: 2.59839e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.47446e-03\tAbsError: 1.31141e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.26729e-03\tAbsError: 1.28698e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.83620e+00\tAbsError: 5.93737e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.35121e-05\tAbsError: 1.16231e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.22732e+00\tAbsError: 2.06865e+15\n", - " Region: \"zone_1\"\tRelError: 2.78568e-01\tAbsError: 2.74627e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78563e-01\tAbsError: 2.58185e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73142e-06\tAbsError: 1.64416e-03\n", - " Region: \"zone_3\"\tRelError: 9.48751e-01\tAbsError: 2.06865e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.44918e-01\tAbsError: 9.02348e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.89155e-01\tAbsError: 1.16630e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14673e-01\tAbsError: 2.51147e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73142e-06\tAbsError: 1.64416e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.21062e+00\tAbsError: 3.24117e+16\n", - " Region: \"zone_1\"\tRelError: 1.60959e+00\tAbsError: 1.60634e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.60922e+00\tAbsError: 3.24492e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.69101e-04\tAbsError: 1.28185e-01\n", - " Region: \"zone_3\"\tRelError: 1.60102e+00\tAbsError: 3.24117e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.57897e-01\tAbsError: 1.62735e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.20964e-01\tAbsError: 1.61383e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.21796e-01\tAbsError: 3.24492e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.69101e-04\tAbsError: 1.28185e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.57455e+00\tAbsError: 1.59389e+16\n", - " Region: \"zone_1\"\tRelError: 1.04759e+00\tAbsError: 1.06162e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04737e+00\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17045e-04\tAbsError: 7.53990e-02\n", - " Region: \"zone_3\"\tRelError: 1.52696e+00\tAbsError: 1.59389e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37511e-01\tAbsError: 7.87332e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.04735e-01\tAbsError: 8.06553e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.84502e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17045e-04\tAbsError: 7.53990e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.44977e+00\tAbsError: 8.96903e+15\n", - " Region: \"zone_1\"\tRelError: 3.70568e+00\tAbsError: 4.22092e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.70568e+00\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.36239e-10\tAbsError: 1.51767e-07\n", - " Region: \"zone_3\"\tRelError: 1.74409e+00\tAbsError: 8.96903e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80173e-01\tAbsError: 4.80961e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.80046e-01\tAbsError: 4.15942e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.83872e-01\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.36414e-10\tAbsError: 1.51827e-07\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.57963e-01\tAbsError: 1.91072e+13\n", - " Region: \"zone_1\"\tRelError: 2.78504e-02\tAbsError: 5.69747e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78339e-02\tAbsError: 4.27049e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.64146e-05\tAbsError: 5.69320e-03\n", - " Region: \"zone_3\"\tRelError: 7.30113e-01\tAbsError: 1.91072e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.16966e-04\tAbsError: 9.66509e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.22761e-04\tAbsError: 9.44216e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.29456e-01\tAbsError: 4.53717e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.64194e-05\tAbsError: 5.69496e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 7.18897e+00\tAbsError: 6.29402e+14\n", - " Region: \"zone_1\"\tRelError: 6.86170e+00\tAbsError: 2.22868e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.86166e+00\tAbsError: 9.16572e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.77613e-05\tAbsError: 1.31211e-02\n", - " Region: \"zone_3\"\tRelError: 3.27267e-01\tAbsError: 6.29402e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84319e-01\tAbsError: 3.28649e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.08857e-01\tAbsError: 3.00753e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.40527e-02\tAbsError: 9.16579e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.77613e-05\tAbsError: 1.31211e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.77741e+00\tAbsError: 2.06093e+16\n", - " Region: \"zone_1\"\tRelError: 1.65058e-01\tAbsError: 9.97024e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.64845e-01\tAbsError: 2.55931e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.13439e-04\tAbsError: 7.41092e-02\n", - " Region: \"zone_3\"\tRelError: 1.61236e+00\tAbsError: 2.06093e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.71347e-01\tAbsError: 1.02911e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.25181e-01\tAbsError: 1.03182e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 7.15614e-01\tAbsError: 2.50412e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.13439e-04\tAbsError: 7.41092e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.14822e+00\tAbsError: 9.83178e+15\n", - " Region: \"zone_1\"\tRelError: 1.39457e-01\tAbsError: 7.32841e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39320e-01\tAbsError: 2.58400e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36592e-04\tAbsError: 4.74441e-02\n", - " Region: \"zone_3\"\tRelError: 1.00877e+00\tAbsError: 9.83178e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43427e-01\tAbsError: 4.83336e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.90483e-01\tAbsError: 4.99841e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74720e-01\tAbsError: 2.58193e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36592e-04\tAbsError: 4.74441e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.82964e+00\tAbsError: 5.08570e+15\n", - " Region: \"zone_1\"\tRelError: 2.92321e-01\tAbsError: 7.19255e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.92207e-01\tAbsError: 3.22433e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.14202e-04\tAbsError: 3.96822e-02\n", - " Region: \"zone_3\"\tRelError: 1.53731e+00\tAbsError: 5.08570e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.57973e-01\tAbsError: 2.41919e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.30808e-01\tAbsError: 2.66650e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.48419e-01\tAbsError: 3.22434e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.14202e-04\tAbsError: 3.96822e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.70944e-01\tAbsError: 1.19240e+13\n", - " Region: \"zone_1\"\tRelError: 2.58368e-02\tAbsError: 7.03989e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.58348e-02\tAbsError: 2.13236e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.02254e-06\tAbsError: 7.01857e-04\n", - " Region: \"zone_3\"\tRelError: 3.45107e-01\tAbsError: 1.19240e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.00810e-04\tAbsError: 6.03241e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.97504e-04\tAbsError: 5.89158e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.44707e-01\tAbsError: 2.37149e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.02313e-06\tAbsError: 7.02082e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.42105e-01\tAbsError: 9.57843e+13\n", - " Region: \"zone_1\"\tRelError: 5.64317e-01\tAbsError: 1.44974e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.64276e-01\tAbsError: 1.24104e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14024e-05\tAbsError: 1.43733e-02\n", - " Region: \"zone_3\"\tRelError: 7.77880e-02\tAbsError: 9.57843e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.25473e-02\tAbsError: 4.71405e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.65020e-03\tAbsError: 4.86438e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.95491e-02\tAbsError: 1.28397e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14024e-05\tAbsError: 1.43733e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.45845e+00\tAbsError: 6.57748e+15\n", - " Region: \"zone_1\"\tRelError: 5.68646e-01\tAbsError: 4.93656e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.68537e-01\tAbsError: 1.13358e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.09536e-04\tAbsError: 3.80298e-02\n", - " Region: \"zone_3\"\tRelError: 8.89808e-01\tAbsError: 6.57748e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07117e-01\tAbsError: 3.60805e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.24797e-01\tAbsError: 2.96943e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.57785e-01\tAbsError: 1.13359e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.09601e-04\tAbsError: 3.80526e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 9.17087e-01\tAbsError: 2.70112e+15\n", - " Region: \"zone_1\"\tRelError: 4.13278e-01\tAbsError: 1.18036e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.12964e-01\tAbsError: 9.16529e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.13541e-04\tAbsError: 1.08871e-01\n", - " Region: \"zone_3\"\tRelError: 5.03809e-01\tAbsError: 2.70112e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.83333e-01\tAbsError: 1.43386e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03452e-01\tAbsError: 1.26726e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.16711e-01\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.13541e-04\tAbsError: 1.08871e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.16025e+00\tAbsError: 3.70042e+15\n", - " Region: \"zone_1\"\tRelError: 1.24653e-01\tAbsError: 3.31998e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.24632e-01\tAbsError: 2.58287e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.12139e-05\tAbsError: 7.37111e-03\n", - " Region: \"zone_3\"\tRelError: 1.03560e+00\tAbsError: 3.70042e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.75009e-01\tAbsError: 1.71136e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.25597e-01\tAbsError: 1.98907e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.34975e-01\tAbsError: 2.56848e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.12245e-05\tAbsError: 7.37495e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.15873e-02\tAbsError: 1.55712e+12\n", - " Region: \"zone_1\"\tRelError: 4.62135e-03\tAbsError: 3.47131e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.62035e-03\tAbsError: 2.68329e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.98917e-07\tAbsError: 3.46863e-04\n", - " Region: \"zone_3\"\tRelError: 5.69659e-02\tAbsError: 1.55712e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.63013e-05\tAbsError: 7.86152e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.59055e-05\tAbsError: 7.70966e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.69127e-02\tAbsError: 3.00469e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.99081e-07\tAbsError: 3.46996e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.36557e-01\tAbsError: 7.18470e+12\n", - " Region: \"zone_1\"\tRelError: 1.16158e-01\tAbsError: 1.78279e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16157e-01\tAbsError: 6.59165e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.94530e-07\tAbsError: 1.71687e-04\n", - " Region: \"zone_3\"\tRelError: 2.03993e-02\tAbsError: 7.18470e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.98223e-04\tAbsError: 2.78831e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.37326e-04\tAbsError: 4.39639e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.92632e-02\tAbsError: 6.83641e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.94530e-07\tAbsError: 1.71687e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.87235e-01\tAbsError: 1.50716e+15\n", - " Region: \"zone_1\"\tRelError: 5.41370e-02\tAbsError: 1.84184e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.36069e-02\tAbsError: 3.24655e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.30067e-04\tAbsError: 1.83860e-01\n", - " Region: \"zone_3\"\tRelError: 1.33098e-01\tAbsError: 1.50716e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.05112e-02\tAbsError: 7.09659e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.73893e-02\tAbsError: 7.97504e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.46658e-02\tAbsError: 3.54468e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.31323e-04\tAbsError: 1.84290e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 4.27279e-01\tAbsError: 8.17053e+14\n", - " Region: \"zone_1\"\tRelError: 1.09940e-01\tAbsError: 2.21034e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09304e-01\tAbsError: 3.29075e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.36020e-04\tAbsError: 2.20705e-01\n", - " Region: \"zone_3\"\tRelError: 3.17339e-01\tAbsError: 8.17053e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.72653e-02\tAbsError: 1.99598e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.68899e-02\tAbsError: 6.17455e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.42547e-01\tAbsError: 3.29140e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.36020e-04\tAbsError: 2.20705e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.84371e-01\tAbsError: 1.29148e+15\n", - " Region: \"zone_1\"\tRelError: 8.57081e-02\tAbsError: 3.42913e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.56412e-02\tAbsError: 1.10531e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.68838e-05\tAbsError: 2.32383e-02\n", - " Region: \"zone_3\"\tRelError: 3.98663e-01\tAbsError: 1.29148e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.18101e-01\tAbsError: 6.87691e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.36005e-01\tAbsError: 6.03794e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.44889e-02\tAbsError: 1.10532e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.68838e-05\tAbsError: 2.32383e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.74137e-02\tAbsError: 7.24736e+11\n", - " Region: \"zone_1\"\tRelError: 2.11554e-03\tAbsError: 6.11484e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.11537e-03\tAbsError: 1.19465e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75486e-07\tAbsError: 6.10289e-05\n", - " Region: \"zone_3\"\tRelError: 2.52982e-02\tAbsError: 7.24736e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.22609e-05\tAbsError: 3.66403e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.20047e-05\tAbsError: 3.58333e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.52738e-02\tAbsError: 1.35544e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75553e-07\tAbsError: 6.10532e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.13498e-03\tAbsError: 1.41105e+11\n", - " Region: \"zone_1\"\tRelError: 2.73398e-03\tAbsError: 4.76357e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.73260e-03\tAbsError: 1.35633e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37060e-06\tAbsError: 4.76221e-04\n", - " Region: \"zone_3\"\tRelError: 4.01007e-04\tAbsError: 1.41105e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.96062e-06\tAbsError: 6.85210e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.81427e-06\tAbsError: 7.25836e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.87862e-04\tAbsError: 1.38229e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37060e-06\tAbsError: 4.76221e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.84987e+00\tAbsError: 2.28445e+14\n", - " Region: \"zone_1\"\tRelError: 5.95418e-02\tAbsError: 1.11721e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95098e-02\tAbsError: 5.68051e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.20442e-05\tAbsError: 1.11153e-02\n", - " Region: \"zone_3\"\tRelError: 2.79033e+00\tAbsError: 2.28445e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43841e-03\tAbsError: 1.14936e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.24161e-03\tAbsError: 1.13509e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78161e+00\tAbsError: 5.82573e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.20714e-05\tAbsError: 1.11244e-02\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 5.34536e-03\tAbsError: 1.27222e+11\n", - " Region: \"zone_1\"\tRelError: 4.35109e-04\tAbsError: 2.41289e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.35040e-04\tAbsError: 2.19915e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.93177e-08\tAbsError: 2.41070e-05\n", - " Region: \"zone_3\"\tRelError: 4.91025e-03\tAbsError: 1.27222e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.15267e-06\tAbsError: 6.42044e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.11288e-06\tAbsError: 6.30181e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.90592e-03\tAbsError: 2.48653e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.93443e-08\tAbsError: 2.41166e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 7.01035e-01\tAbsError: 1.64733e+14\n", - " Region: \"zone_1\"\tRelError: 2.03094e-01\tAbsError: 1.60100e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03048e-01\tAbsError: 7.96658e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.59052e-05\tAbsError: 1.59303e-02\n", - " Region: \"zone_3\"\tRelError: 4.97941e-01\tAbsError: 1.64733e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17881e-03\tAbsError: 7.88164e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.07895e-03\tAbsError: 8.59168e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.85637e-01\tAbsError: 8.00849e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.59052e-05\tAbsError: 1.59303e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.12960e-01\tAbsError: 2.37713e+14\n", - " Region: \"zone_1\"\tRelError: 5.59460e-03\tAbsError: 2.42560e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.52529e-03\tAbsError: 1.96929e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.93040e-05\tAbsError: 2.40591e-02\n", - " Region: \"zone_3\"\tRelError: 1.07365e-01\tAbsError: 2.37713e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.22456e-02\tAbsError: 1.40642e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.01600e-02\tAbsError: 9.70713e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.48903e-02\tAbsError: 2.04946e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.93040e-05\tAbsError: 2.40591e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.31814e-02\tAbsError: 4.58362e+11\n", - " Region: \"zone_1\"\tRelError: 1.15315e-02\tAbsError: 2.80900e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15314e-02\tAbsError: 2.57528e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.01667e-08\tAbsError: 2.78324e-05\n", - " Region: \"zone_3\"\tRelError: 1.64997e-03\tAbsError: 4.58362e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47024e-05\tAbsError: 2.30121e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.45967e-05\tAbsError: 2.28241e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.60059e-03\tAbsError: 2.62890e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.01667e-08\tAbsError: 2.78324e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.45765e-01\tAbsError: 1.69493e+13\n", - " Region: \"zone_1\"\tRelError: 6.80757e-03\tAbsError: 5.51469e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.79169e-03\tAbsError: 4.23796e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.58863e-05\tAbsError: 5.51045e-03\n", - " Region: \"zone_3\"\tRelError: 2.38957e-01\tAbsError: 1.69493e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.17749e-04\tAbsError: 8.55131e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.22485e-04\tAbsError: 8.39799e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.38301e-01\tAbsError: 4.46238e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.58903e-05\tAbsError: 5.51193e-03\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.94906e-03\tAbsError: 4.76686e+10\n", - " Region: \"zone_1\"\tRelError: 1.58013e-04\tAbsError: 5.01989e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.57999e-04\tAbsError: 8.43998e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.44100e-08\tAbsError: 5.01145e-06\n", - " Region: \"zone_3\"\tRelError: 1.79105e-03\tAbsError: 4.76686e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.07419e-07\tAbsError: 2.40867e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.89452e-07\tAbsError: 2.35820e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.78944e-03\tAbsError: 9.47662e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.44155e-08\tAbsError: 5.01349e-06\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.04323e-01\tAbsError: 1.53102e+13\n", - " Region: \"zone_1\"\tRelError: 3.15774e-02\tAbsError: 7.15567e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.15568e-02\tAbsError: 7.10876e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.05999e-05\tAbsError: 7.14856e-03\n", - " Region: \"zone_3\"\tRelError: 7.27454e-02\tAbsError: 1.53102e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.94207e-04\tAbsError: 7.65839e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.98721e-04\tAbsError: 7.65181e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.15319e-02\tAbsError: 7.17354e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.06009e-05\tAbsError: 7.14900e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.99564e-02\tAbsError: 1.22577e+13\n", - " Region: \"zone_1\"\tRelError: 3.41063e-03\tAbsError: 2.57675e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.40992e-03\tAbsError: 1.00926e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.11464e-07\tAbsError: 2.47582e-04\n", - " Region: \"zone_3\"\tRelError: 3.65458e-02\tAbsError: 1.22577e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.23239e-04\tAbsError: 4.97251e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.40102e-04\tAbsError: 7.28515e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.47817e-02\tAbsError: 1.03524e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.11760e-07\tAbsError: 2.47692e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.25913e-03\tAbsError: 2.71128e+10\n", - " Region: \"zone_1\"\tRelError: 1.10973e-03\tAbsError: 2.99279e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10965e-03\tAbsError: 1.77983e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.60783e-08\tAbsError: 2.99101e-05\n", - " Region: \"zone_3\"\tRelError: 1.49391e-04\tAbsError: 2.71128e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.61984e-06\tAbsError: 1.29863e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.63350e-06\tAbsError: 1.41265e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.46052e-04\tAbsError: 1.82225e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.61134e-08\tAbsError: 2.99224e-05\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 4.29595e-04\tAbsError: 9.92758e+09\n", - " Region: \"zone_1\"\tRelError: 3.58438e-05\tAbsError: 1.69659e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.58389e-05\tAbsError: 1.80123e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.87324e-09\tAbsError: 1.69479e-06\n", - " Region: \"zone_3\"\tRelError: 3.93751e-04\tAbsError: 9.92758e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.68110e-07\tAbsError: 5.00991e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.64709e-07\tAbsError: 4.91766e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.93414e-04\tAbsError: 2.01959e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.87521e-09\tAbsError: 1.69552e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.08991e-01\tAbsError: 1.05549e+13\n", - " Region: \"zone_1\"\tRelError: 4.83463e-03\tAbsError: 6.90627e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.83265e-03\tAbsError: 2.14369e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.98379e-06\tAbsError: 6.88484e-04\n", - " Region: \"zone_3\"\tRelError: 2.04156e-01\tAbsError: 1.05549e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.00089e-04\tAbsError: 5.32743e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.97434e-04\tAbsError: 5.22743e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03757e-01\tAbsError: 2.35062e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.98435e-06\tAbsError: 6.88703e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.82885e-02\tAbsError: 7.75343e+12\n", - " Region: \"zone_1\"\tRelError: 1.74263e-02\tAbsError: 1.11082e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74231e-02\tAbsError: 3.27682e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.18949e-06\tAbsError: 1.10754e-03\n", - " Region: \"zone_3\"\tRelError: 4.08622e-02\tAbsError: 7.75343e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.01160e-04\tAbsError: 3.88269e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.99390e-04\tAbsError: 3.87074e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.02585e-02\tAbsError: 3.34987e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.19059e-06\tAbsError: 1.10796e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.30988e-04\tAbsError: 2.29044e+11\n", - " Region: \"zone_1\"\tRelError: 2.79478e-05\tAbsError: 7.85541e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.56871e-05\tAbsError: 1.43357e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.26068e-06\tAbsError: 7.85398e-04\n", - " Region: \"zone_3\"\tRelError: 3.03040e-04\tAbsError: 2.29044e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.45448e-05\tAbsError: 1.71014e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.83903e-06\tAbsError: 5.80300e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.79396e-04\tAbsError: 1.44178e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.26072e-06\tAbsError: 7.85427e-04\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 1.38753e-04\tAbsError: 3.26741e+09\n", - " Region: \"zone_1\"\tRelError: 1.15196e-05\tAbsError: 3.90487e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15185e-05\tAbsError: 5.98873e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12109e-09\tAbsError: 3.89888e-07\n", - " Region: \"zone_3\"\tRelError: 1.27233e-04\tAbsError: 3.26741e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.53697e-08\tAbsError: 1.65038e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.41124e-08\tAbsError: 1.61704e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.27122e-04\tAbsError: 6.69167e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12155e-09\tAbsError: 3.90056e-07\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 9.89584e-04\tAbsError: 2.93050e+10\n", - " Region: \"zone_1\"\tRelError: 8.69289e-04\tAbsError: 3.58476e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.69279e-04\tAbsError: 1.49163e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.02736e-08\tAbsError: 3.56984e-06\n", - " Region: \"zone_3\"\tRelError: 1.20295e-04\tAbsError: 2.93050e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52554e-06\tAbsError: 1.64489e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.51838e-06\tAbsError: 1.28561e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17241e-04\tAbsError: 1.55101e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.02768e-08\tAbsError: 3.57094e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.20041e-02\tAbsError: 1.39093e+12\n", - " Region: \"zone_1\"\tRelError: 7.66248e-04\tAbsError: 3.38842e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.65272e-04\tAbsError: 2.70408e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.75473e-07\tAbsError: 3.38572e-04\n", - " Region: \"zone_3\"\tRelError: 3.12378e-02\tAbsError: 1.39093e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.64460e-05\tAbsError: 7.00708e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.61310e-05\tAbsError: 6.90221e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.11843e-02\tAbsError: 3.00354e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.75637e-07\tAbsError: 3.38624e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.09210e-02\tAbsError: 1.22286e+12\n", - " Region: \"zone_1\"\tRelError: 3.28469e-03\tAbsError: 4.72819e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.28333e-03\tAbsError: 4.87030e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36013e-06\tAbsError: 4.72332e-04\n", - " Region: \"zone_3\"\tRelError: 7.63634e-03\tAbsError: 1.22286e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.75678e-05\tAbsError: 6.11672e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.73305e-05\tAbsError: 6.11193e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 7.54008e-03\tAbsError: 5.02425e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36049e-06\tAbsError: 4.72455e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.15307e-03\tAbsError: 7.58272e+11\n", - " Region: \"zone_1\"\tRelError: 2.77988e-04\tAbsError: 3.88732e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.77877e-04\tAbsError: 3.87449e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10861e-07\tAbsError: 3.84857e-05\n", - " Region: \"zone_3\"\tRelError: 2.87508e-03\tAbsError: 7.58272e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.80273e-05\tAbsError: 3.84531e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.79342e-05\tAbsError: 3.73741e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.79901e-03\tAbsError: 4.06154e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10883e-07\tAbsError: 3.84939e-05\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 3.30599e-05\tAbsError: 7.54140e+08\n", - " Region: \"zone_1\"\tRelError: 2.78667e-06\tAbsError: 1.20638e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78633e-06\tAbsError: 1.39905e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.46482e-10\tAbsError: 1.20498e-07\n", - " Region: \"zone_3\"\tRelError: 3.02733e-05\tAbsError: 7.54140e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.27759e-08\tAbsError: 3.80597e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.25046e-08\tAbsError: 3.73543e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 3.02476e-05\tAbsError: 1.56263e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.46627e-10\tAbsError: 1.20551e-07\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.48739e-04\tAbsError: 3.41314e+09\n", - " Region: \"zone_1\"\tRelError: 1.31134e-04\tAbsError: 2.06494e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31128e-04\tAbsError: 1.91971e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.93716e-09\tAbsError: 2.06302e-06\n", - " Region: \"zone_3\"\tRelError: 1.76048e-05\tAbsError: 3.41314e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88514e-07\tAbsError: 1.94837e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.89063e-07\tAbsError: 1.46477e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72213e-05\tAbsError: 1.99642e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.93836e-09\tAbsError: 2.06344e-06\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.47103e-02\tAbsError: 6.45496e+11\n", - " Region: \"zone_1\"\tRelError: 3.47376e-04\tAbsError: 5.99802e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.47204e-04\tAbsError: 1.21236e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72111e-07\tAbsError: 5.98589e-05\n", - " Region: \"zone_3\"\tRelError: 1.43629e-02\tAbsError: 6.45496e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.22916e-05\tAbsError: 3.25623e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.20745e-05\tAbsError: 3.19873e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43383e-02\tAbsError: 1.35138e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72176e-07\tAbsError: 5.98823e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.38843e-03\tAbsError: 5.18838e+11\n", - " Region: \"zone_1\"\tRelError: 1.31867e-03\tAbsError: 9.39018e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31840e-03\tAbsError: 1.99779e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69826e-07\tAbsError: 9.37020e-05\n", - " Region: \"zone_3\"\tRelError: 3.06976e-03\tAbsError: 5.18838e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95362e-05\tAbsError: 2.68345e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.93671e-05\tAbsError: 2.50493e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.03058e-03\tAbsError: 2.07424e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69859e-07\tAbsError: 9.37138e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 7.33109e-05\tAbsError: 1.99171e+09\n", - " Region: \"zone_1\"\tRelError: 6.45108e-05\tAbsError: 3.50573e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 6.45098e-05\tAbsError: 1.06453e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00585e-09\tAbsError: 3.49509e-07\n", - " Region: \"zone_3\"\tRelError: 8.80008e-06\tAbsError: 1.99171e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03719e-07\tAbsError: 1.17952e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03272e-07\tAbsError: 8.12185e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 8.59208e-06\tAbsError: 1.10473e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00600e-09\tAbsError: 3.49562e-07\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.50049e-04\tAbsError: 3.69775e+10\n", - " Region: \"zone_1\"\tRelError: 2.23036e-05\tAbsError: 4.83607e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.21645e-05\tAbsError: 2.37427e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39124e-07\tAbsError: 4.83369e-05\n", - " Region: \"zone_3\"\tRelError: 2.27745e-04\tAbsError: 3.69775e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12670e-06\tAbsError: 1.72736e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.15245e-06\tAbsError: 1.97039e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.23327e-04\tAbsError: 2.46197e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39176e-07\tAbsError: 4.83551e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:24\u001b[0m.\u001b[1;36m900\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.7000000000000001\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.85426e-03\tAbsError: 1.14136e+11\n", - " Region: \"zone_1\"\tRelError: 6.76752e-05\tAbsError: 2.36054e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.76074e-05\tAbsError: 2.24599e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.78070e-08\tAbsError: 2.35829e-05\n", - " Region: \"zone_3\"\tRelError: 2.78659e-03\tAbsError: 1.14136e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.17375e-06\tAbsError: 5.74776e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.14053e-06\tAbsError: 5.66581e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78221e-03\tAbsError: 2.49675e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.78330e-08\tAbsError: 2.35924e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 9.50080e-04\tAbsError: 1.03863e+11\n", - " Region: \"zone_1\"\tRelError: 2.85910e-04\tAbsError: 3.37412e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.85814e-04\tAbsError: 4.14946e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.68675e-08\tAbsError: 3.36997e-05\n", - " Region: \"zone_3\"\tRelError: 6.64170e-04\tAbsError: 1.03863e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.88184e-06\tAbsError: 5.40187e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.85553e-06\tAbsError: 4.98443e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 6.56335e-04\tAbsError: 4.30256e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.69043e-08\tAbsError: 3.37128e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:26\u001b[0m.\u001b[1;36m048\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:26\u001b[0m.\u001b[1;36m080\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.0 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:26\u001b[0m.\u001b[1;36m119\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.25000e-04\tAbsError: 4.75549e+10\n", - " Region: \"zone_1\"\tRelError: 1.99583e-05\tAbsError: 5.32788e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.99431e-05\tAbsError: 2.25774e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52698e-08\tAbsError: 5.30530e-06\n", - " Region: \"zone_3\"\tRelError: 2.05042e-04\tAbsError: 4.75549e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.31012e-06\tAbsError: 2.68418e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.30114e-06\tAbsError: 2.07131e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.00415e-04\tAbsError: 2.37542e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52742e-08\tAbsError: 5.30684e-06\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.94222e+01\tAbsError: 1.62190e+16\n", - " Region: \"zone_1\"\tRelError: 2.76662e+01\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.76662e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.29578e-10\tAbsError: 1.49268e-07\n", - " Region: \"zone_3\"\tRelError: 1.75598e+00\tAbsError: 1.62190e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69267e-01\tAbsError: 8.18784e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.68971e-01\tAbsError: 8.03117e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.17740e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.29628e-10\tAbsError: 1.49286e-07\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.04232e-03\tAbsError: 4.27220e+10\n", - " Region: \"zone_1\"\tRelError: 2.46914e-05\tAbsError: 4.94110e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.46772e-05\tAbsError: 8.59123e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41822e-08\tAbsError: 4.93251e-06\n", - " Region: \"zone_3\"\tRelError: 1.01763e-03\tAbsError: 4.27220e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.14485e-07\tAbsError: 2.15406e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.99005e-07\tAbsError: 2.11814e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01600e-03\tAbsError: 9.49058e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41877e-08\tAbsError: 4.93449e-06\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 3.25927e-04\tAbsError: 3.72018e+10\n", - " Region: \"zone_1\"\tRelError: 9.80813e-05\tAbsError: 7.68282e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 9.80593e-05\tAbsError: 1.46928e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.20415e-08\tAbsError: 7.66812e-06\n", - " Region: \"zone_3\"\tRelError: 2.27846e-04\tAbsError: 3.72018e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.36089e-06\tAbsError: 1.97599e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.34801e-06\tAbsError: 1.74420e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.25115e-04\tAbsError: 1.52180e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.20501e-08\tAbsError: 7.67121e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.14608e+03\tAbsError: 7.70037e+17\n", - " Region: \"zone_1\"\tRelError: 3.19069e+01\tAbsError: 8.44807e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.19069e+01\tAbsError: 8.44806e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.48266e-11\tAbsError: 2.95006e-08\n", - " Region: \"zone_3\"\tRelError: 1.11417e+03\tAbsError: 7.70037e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.48445e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10104e+03\tAbsError: 4.21592e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 4.13482e+00\tAbsError: 8.44807e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.48621e-11\tAbsError: 2.95137e-08\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.07877e-05\tAbsError: 5.07473e+09\n", - " Region: \"zone_1\"\tRelError: 2.74585e-06\tAbsError: 3.27783e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.73642e-06\tAbsError: 2.71292e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.42651e-09\tAbsError: 3.27512e-06\n", - " Region: \"zone_3\"\tRelError: 2.80418e-05\tAbsError: 5.07473e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.64686e-07\tAbsError: 2.90165e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.65753e-07\tAbsError: 2.17308e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.75020e-05\tAbsError: 2.83440e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.42815e-09\tAbsError: 3.27570e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:27\u001b[0m.\u001b[1;36m453\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:27\u001b[0m.\u001b[1;36m453\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7374999999999999\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 2.30254e-04\tAbsError: 8.94840e+09\n", - " Region: \"zone_1\"\tRelError: 5.45902e-06\tAbsError: 1.66915e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.45423e-06\tAbsError: 1.84279e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.79393e-09\tAbsError: 1.66731e-06\n", - " Region: \"zone_3\"\tRelError: 2.24795e-04\tAbsError: 8.94840e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.70555e-07\tAbsError: 4.50630e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.67655e-07\tAbsError: 4.44210e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.24452e-04\tAbsError: 2.03358e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.79583e-09\tAbsError: 1.66801e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.57455e+00\tAbsError: 1.59389e+16\n", - " Region: \"zone_1\"\tRelError: 1.04759e+00\tAbsError: 1.06162e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04737e+00\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17045e-04\tAbsError: 7.53990e-02\n", - " Region: \"zone_3\"\tRelError: 1.52696e+00\tAbsError: 1.59389e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37511e-01\tAbsError: 7.87332e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.04735e-01\tAbsError: 8.06553e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.84502e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17045e-04\tAbsError: 7.53990e-02\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 7.72661e-05\tAbsError: 8.43440e+09\n", - " Region: \"zone_1\"\tRelError: 2.32650e-05\tAbsError: 2.49052e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.32578e-05\tAbsError: 3.39814e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.14902e-09\tAbsError: 2.48712e-06\n", - " Region: \"zone_3\"\tRelError: 5.40011e-05\tAbsError: 8.43440e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.08161e-07\tAbsError: 4.47974e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.05735e-07\tAbsError: 3.95466e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 5.33800e-05\tAbsError: 3.51782e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.15190e-09\tAbsError: 2.48816e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:28\u001b[0m.\u001b[1;36m160\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.8\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 7.84156e+01\tAbsError: 5.47936e+17\n", - " Region: \"zone_1\"\tRelError: 4.40326e+01\tAbsError: 3.51503e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.40318e+01\tAbsError: 8.10225e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.80415e-04\tAbsError: 2.70481e-01\n", - " Region: \"zone_3\"\tRelError: 3.43830e+01\tAbsError: 5.47936e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.48014e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.23022e+01\tAbsError: 2.99922e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.30800e+01\tAbsError: 8.10225e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.81664e-04\tAbsError: 2.70911e-01\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 7.44231e-05\tAbsError: 2.94597e+09\n", - " Region: \"zone_1\"\tRelError: 1.76441e-06\tAbsError: 3.86023e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.76330e-06\tAbsError: 6.12245e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10815e-09\tAbsError: 3.85411e-07\n", - " Region: \"zone_3\"\tRelError: 7.26587e-05\tAbsError: 2.94597e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.61898e-08\tAbsError: 1.48485e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.50971e-08\tAbsError: 1.46112e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 7.25463e-05\tAbsError: 6.73509e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10859e-09\tAbsError: 3.85574e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:28\u001b[0m.\u001b[1;36m964\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: 0.85\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.37306e+01\tAbsError: 2.80943e+16\n", - " Region: \"zone_1\"\tRelError: 5.19223e+01\tAbsError: 4.22096e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.19223e+01\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52166e-09\tAbsError: 5.28680e-07\n", - " Region: \"zone_3\"\tRelError: 1.80829e+00\tAbsError: 2.80943e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.79526e-01\tAbsError: 1.40876e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.79080e-01\tAbsError: 1.40066e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49679e-01\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52185e-09\tAbsError: 5.28749e-07\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.14822e+00\tAbsError: 9.83178e+15\n", - " Region: \"zone_1\"\tRelError: 1.39457e-01\tAbsError: 7.32841e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39320e-01\tAbsError: 2.58400e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36592e-04\tAbsError: 4.74441e-02\n", - " Region: \"zone_3\"\tRelError: 1.00877e+00\tAbsError: 9.83178e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43427e-01\tAbsError: 4.83336e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.90483e-01\tAbsError: 4.99841e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74720e-01\tAbsError: 2.58193e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36592e-04\tAbsError: 4.74441e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.91796e+01\tAbsError: 8.00136e+16\n", - " Region: \"zone_1\"\tRelError: 1.61687e+01\tAbsError: 4.09548e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.61687e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75011e-09\tAbsError: 6.08861e-07\n", - " Region: \"zone_3\"\tRelError: 3.01093e+00\tAbsError: 8.00136e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.66958e-01\tAbsError: 4.00295e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.65547e-01\tAbsError: 3.99841e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.47843e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75082e-09\tAbsError: 6.09112e-07\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.27390e+04\tAbsError: 1.60623e+17\n", - " Region: \"zone_1\"\tRelError: 7.10484e+00\tAbsError: 2.18687e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 7.09880e+00\tAbsError: 7.72092e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.04153e-03\tAbsError: 2.10967e+00\n", - " Region: \"zone_3\"\tRelError: 1.27319e+04\tAbsError: 1.60623e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.56840e+03\tAbsError: 8.48442e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.78850e+03\tAbsError: 7.57789e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.74960e+02\tAbsError: 7.72115e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.04153e-03\tAbsError: 2.10967e+00\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.07467e+00\tAbsError: 2.93721e+16\n", - " Region: \"zone_1\"\tRelError: 4.84260e-01\tAbsError: 1.51192e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.83918e-01\tAbsError: 3.22431e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.42489e-04\tAbsError: 1.18949e-01\n", - " Region: \"zone_3\"\tRelError: 1.59041e+00\tAbsError: 2.93721e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.54708e-01\tAbsError: 1.48386e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.21421e-01\tAbsError: 1.45335e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.13935e-01\tAbsError: 3.22432e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.42489e-04\tAbsError: 1.18949e-01\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.87370e+01\tAbsError: 1.65062e+17\n", - " Region: \"zone_1\"\tRelError: 2.01385e+01\tAbsError: 4.23836e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.01385e+01\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.42729e-10\tAbsError: 1.19199e-07\n", - " Region: \"zone_3\"\tRelError: 3.85984e+01\tAbsError: 1.65062e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.75626e-01\tAbsError: 8.33506e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.72789e-01\tAbsError: 8.17119e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.70500e+01\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.42869e-10\tAbsError: 1.19251e-07\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 9.17087e-01\tAbsError: 2.70112e+15\n", - " Region: \"zone_1\"\tRelError: 4.13278e-01\tAbsError: 1.18036e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.12964e-01\tAbsError: 9.16529e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.13541e-04\tAbsError: 1.08871e-01\n", - " Region: \"zone_3\"\tRelError: 5.03809e-01\tAbsError: 2.70112e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.83333e-01\tAbsError: 1.43386e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03452e-01\tAbsError: 1.26726e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.16711e-01\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.13541e-04\tAbsError: 1.08871e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.23024e+00\tAbsError: 7.24788e+16\n", - " Region: \"zone_1\"\tRelError: 2.89301e-01\tAbsError: 2.81842e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88577e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.23562e-04\tAbsError: 2.51079e-01\n", - " Region: \"zone_3\"\tRelError: 2.94094e+00\tAbsError: 7.24788e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.29061e-01\tAbsError: 3.72143e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.83761e-01\tAbsError: 3.52645e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.62740e+00\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.23562e-04\tAbsError: 2.51079e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.19207e+03\tAbsError: 3.54754e+16\n", - " Region: \"zone_1\"\tRelError: 2.44560e+00\tAbsError: 1.38996e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 2.44181e+00\tAbsError: 7.29586e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.78597e-03\tAbsError: 1.31700e+00\n", - " Region: \"zone_3\"\tRelError: 2.18963e+03\tAbsError: 3.54754e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.53288e+01\tAbsError: 1.56750e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.11148e+03\tAbsError: 1.98005e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.81772e+00\tAbsError: 7.29586e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.78597e-03\tAbsError: 1.31700e+00\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.60243e+00\tAbsError: 1.89495e+16\n", - " Region: \"zone_1\"\tRelError: 1.77181e-01\tAbsError: 1.01034e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.76965e-01\tAbsError: 2.58752e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.16453e-04\tAbsError: 7.51590e-02\n", - " Region: \"zone_3\"\tRelError: 1.42525e+00\tAbsError: 1.89495e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.69075e-01\tAbsError: 9.52361e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.16569e-01\tAbsError: 9.42585e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.39388e-01\tAbsError: 2.51407e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.16453e-04\tAbsError: 7.51590e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.58947e+01\tAbsError: 1.57768e+17\n", - " Region: \"zone_1\"\tRelError: 2.28018e+01\tAbsError: 3.32976e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.28010e+01\tAbsError: 3.24492e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.66627e-04\tAbsError: 3.00527e-01\n", - " Region: \"zone_3\"\tRelError: 3.09290e+00\tAbsError: 1.57768e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.36113e-01\tAbsError: 7.69438e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.76306e-01\tAbsError: 8.08240e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77961e+00\tAbsError: 3.24492e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.66953e-04\tAbsError: 3.00640e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 4.27279e-01\tAbsError: 8.17053e+14\n", - " Region: \"zone_1\"\tRelError: 1.09940e-01\tAbsError: 2.21034e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09304e-01\tAbsError: 3.29075e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.36020e-04\tAbsError: 2.20705e-01\n", - " Region: \"zone_3\"\tRelError: 3.17339e-01\tAbsError: 8.17053e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.72653e-02\tAbsError: 1.99598e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.68899e-02\tAbsError: 6.17455e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.42547e-01\tAbsError: 3.29140e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.36020e-04\tAbsError: 2.20705e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 5.71850e+00\tAbsError: 4.10464e+16\n", - " Region: \"zone_1\"\tRelError: 1.82923e-01\tAbsError: 1.08958e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82684e-01\tAbsError: 2.58969e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.39429e-04\tAbsError: 8.30609e-02\n", - " Region: \"zone_3\"\tRelError: 5.53558e+00\tAbsError: 4.10464e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16071e-01\tAbsError: 2.08924e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.47287e-01\tAbsError: 2.01540e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 4.77198e+00\tAbsError: 2.46271e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.39429e-04\tAbsError: 8.30609e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.51342e+03\tAbsError: 5.86099e+15\n", - " Region: \"zone_1\"\tRelError: 3.62107e-01\tAbsError: 3.26424e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.61364e-01\tAbsError: 6.81820e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.42885e-04\tAbsError: 2.58242e-01\n", - " Region: \"zone_3\"\tRelError: 1.51306e+03\tAbsError: 5.86099e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.13144e+01\tAbsError: 3.40516e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.48998e+03\tAbsError: 2.45583e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.76054e+00\tAbsError: 6.81820e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.42885e-04\tAbsError: 2.58242e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.55040e+00\tAbsError: 5.89714e+15\n", - " Region: \"zone_1\"\tRelError: 7.75093e-01\tAbsError: 4.04644e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.75009e-01\tAbsError: 1.10524e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.47082e-05\tAbsError: 2.94120e-02\n", - " Region: \"zone_3\"\tRelError: 7.75306e-01\tAbsError: 5.89714e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.03985e-01\tAbsError: 3.29311e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.22727e-01\tAbsError: 2.60404e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 4.48510e-01\tAbsError: 1.10525e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.47183e-05\tAbsError: 2.94155e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.17180e+01\tAbsError: 9.85875e+16\n", - " Region: \"zone_1\"\tRelError: 8.81208e+00\tAbsError: 6.64188e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.81197e+00\tAbsError: 2.58840e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.16908e-04\tAbsError: 4.05347e-02\n", - " Region: \"zone_3\"\tRelError: 2.90588e+00\tAbsError: 9.85875e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.07353e-01\tAbsError: 5.11756e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.24050e-01\tAbsError: 4.74119e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.17436e+00\tAbsError: 2.25833e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.16908e-04\tAbsError: 4.05347e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 7.01035e-01\tAbsError: 1.64733e+14\n", - " Region: \"zone_1\"\tRelError: 2.03094e-01\tAbsError: 1.60100e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03048e-01\tAbsError: 7.96658e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.59052e-05\tAbsError: 1.59303e-02\n", - " Region: \"zone_3\"\tRelError: 4.97941e-01\tAbsError: 1.64733e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17881e-03\tAbsError: 7.88164e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.07895e-03\tAbsError: 8.59168e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.85637e-01\tAbsError: 8.00849e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.59052e-05\tAbsError: 1.59303e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.06773e+00\tAbsError: 1.32751e+16\n", - " Region: \"zone_1\"\tRelError: 2.27618e-01\tAbsError: 5.11022e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.27498e-01\tAbsError: 9.16524e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20880e-04\tAbsError: 4.19369e-02\n", - " Region: \"zone_3\"\tRelError: 8.40108e-01\tAbsError: 1.32751e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.49254e-01\tAbsError: 7.44002e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.85993e-02\tAbsError: 5.83511e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 6.12131e-01\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.23429e-04\tAbsError: 4.28226e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.31683e+02\tAbsError: 3.11077e+15\n", - " Region: \"zone_1\"\tRelError: 3.18041e-01\tAbsError: 8.94605e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.17964e-01\tAbsError: 6.27478e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.68524e-05\tAbsError: 2.67127e-02\n", - " Region: \"zone_3\"\tRelError: 6.31365e+02\tAbsError: 3.11077e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.81123e+02\tAbsError: 2.01746e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.49993e+02\tAbsError: 1.09331e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49281e-01\tAbsError: 6.27479e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.72517e-05\tAbsError: 2.68546e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.44266e-01\tAbsError: 1.36430e+15\n", - " Region: \"zone_1\"\tRelError: 8.15698e-02\tAbsError: 1.78334e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 8.10566e-02\tAbsError: 3.17930e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.13188e-04\tAbsError: 1.78016e-01\n", - " Region: \"zone_3\"\tRelError: 1.62696e-01\tAbsError: 1.36430e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.03044e-02\tAbsError: 6.13669e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.70709e-02\tAbsError: 7.50632e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.48059e-02\tAbsError: 3.46308e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.14497e-04\tAbsError: 1.78466e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.74758e+00\tAbsError: 2.57576e+16\n", - " Region: \"zone_1\"\tRelError: 1.88051e+00\tAbsError: 5.94876e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88037e+00\tAbsError: 1.13357e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.38878e-04\tAbsError: 4.81519e-02\n", - " Region: \"zone_3\"\tRelError: 8.67068e-01\tAbsError: 2.57576e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.39441e-01\tAbsError: 1.28707e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.19210e-02\tAbsError: 1.28870e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.65567e-01\tAbsError: 1.13359e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39063e-04\tAbsError: 4.82151e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.04323e-01\tAbsError: 1.53102e+13\n", - " Region: \"zone_1\"\tRelError: 3.15774e-02\tAbsError: 7.15567e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.15568e-02\tAbsError: 7.10876e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.05999e-05\tAbsError: 7.14856e-03\n", - " Region: \"zone_3\"\tRelError: 7.27454e-02\tAbsError: 1.53102e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.94207e-04\tAbsError: 7.65839e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.98721e-04\tAbsError: 7.65181e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.15319e-02\tAbsError: 7.17354e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.06009e-05\tAbsError: 7.14900e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.91937e-01\tAbsError: 2.33353e+15\n", - " Region: \"zone_1\"\tRelError: 2.61363e-02\tAbsError: 3.15290e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.52274e-02\tAbsError: 2.65917e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.08859e-04\tAbsError: 3.15024e-01\n", - " Region: \"zone_3\"\tRelError: 2.65801e-01\tAbsError: 2.33353e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.40034e-02\tAbsError: 1.23195e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.91867e-03\tAbsError: 1.10158e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20969e-01\tAbsError: 2.95967e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.10098e-04\tAbsError: 3.15450e-01\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.10441e+03\tAbsError: 5.35337e+14\n", - " Region: \"zone_1\"\tRelError: 9.42351e-02\tAbsError: 8.38676e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.41563e-02\tAbsError: 5.64831e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.87648e-05\tAbsError: 2.73845e-02\n", - " Region: \"zone_3\"\tRelError: 1.10432e+03\tAbsError: 5.35337e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.93453e+01\tAbsError: 2.95909e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03488e+03\tAbsError: 2.39428e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.44823e-02\tAbsError: 5.64832e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.87648e-05\tAbsError: 2.73845e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.35503e+00\tAbsError: 2.07480e+14\n", - " Region: \"zone_1\"\tRelError: 7.11098e-02\tAbsError: 1.10133e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.10782e-02\tAbsError: 5.63937e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.15856e-05\tAbsError: 1.09569e-02\n", - " Region: \"zone_3\"\tRelError: 1.28392e+00\tAbsError: 2.07480e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.41215e-03\tAbsError: 1.04257e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.22201e-03\tAbsError: 1.03223e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.27526e+00\tAbsError: 5.74799e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.16113e-05\tAbsError: 1.09655e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.47364e-02\tAbsError: 3.87371e+15\n", - " Region: \"zone_1\"\tRelError: 3.75014e-02\tAbsError: 2.89882e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.66654e-02\tAbsError: 2.01080e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.36024e-04\tAbsError: 2.89680e-01\n", - " Region: \"zone_3\"\tRelError: 3.72350e-02\tAbsError: 3.87371e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.20691e-02\tAbsError: 2.03069e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.52489e-03\tAbsError: 1.84303e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.80346e-03\tAbsError: 2.27636e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.37600e-04\tAbsError: 2.90215e-01\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.82885e-02\tAbsError: 7.75343e+12\n", - " Region: \"zone_1\"\tRelError: 1.74263e-02\tAbsError: 1.11082e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74231e-02\tAbsError: 3.27682e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.18949e-06\tAbsError: 1.10754e-03\n", - " Region: \"zone_3\"\tRelError: 4.08622e-02\tAbsError: 7.75343e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.01160e-04\tAbsError: 3.88269e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.99390e-04\tAbsError: 3.87074e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.02585e-02\tAbsError: 3.34987e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.19059e-06\tAbsError: 1.10796e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.68338e-01\tAbsError: 7.28836e+14\n", - " Region: \"zone_1\"\tRelError: 4.44613e-02\tAbsError: 2.04423e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.44025e-02\tAbsError: 6.98557e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.87704e-05\tAbsError: 2.03724e-02\n", - " Region: \"zone_3\"\tRelError: 4.23877e-01\tAbsError: 7.28836e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.89975e-03\tAbsError: 3.57624e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.06394e-03\tAbsError: 3.71212e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.13854e-01\tAbsError: 7.63149e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.87832e-05\tAbsError: 2.03761e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.58513e+03\tAbsError: 4.66560e+14\n", - " Region: \"zone_1\"\tRelError: 7.45378e-02\tAbsError: 5.71757e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.45147e-02\tAbsError: 4.91589e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.30854e-05\tAbsError: 8.01676e-03\n", - " Region: \"zone_3\"\tRelError: 4.58505e+03\tAbsError: 4.66560e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.41603e+03\tAbsError: 2.81976e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.68952e+02\tAbsError: 1.84584e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.49020e-02\tAbsError: 4.91590e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.30885e-05\tAbsError: 8.01786e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.38704e-01\tAbsError: 1.58138e+13\n", - " Region: \"zone_1\"\tRelError: 8.45115e-03\tAbsError: 5.40315e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 8.43558e-03\tAbsError: 4.28698e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.55636e-05\tAbsError: 5.39886e-03\n", - " Region: \"zone_3\"\tRelError: 1.30253e-01\tAbsError: 1.58138e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.25100e-04\tAbsError: 7.95923e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.29664e-04\tAbsError: 7.85456e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29583e-01\tAbsError: 4.48645e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.55670e-05\tAbsError: 5.40013e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 7.85689e-01\tAbsError: 1.00717e+15\n", - " Region: \"zone_1\"\tRelError: 3.82557e-01\tAbsError: 1.71364e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.82508e-01\tAbsError: 5.45957e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.92961e-05\tAbsError: 1.70818e-02\n", - " Region: \"zone_3\"\tRelError: 4.03132e-01\tAbsError: 1.00717e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.85041e-03\tAbsError: 4.92208e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.97229e-03\tAbsError: 5.14960e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.97260e-01\tAbsError: 5.50253e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.93058e-05\tAbsError: 1.70845e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.09210e-02\tAbsError: 1.22286e+12\n", - " Region: \"zone_1\"\tRelError: 3.28469e-03\tAbsError: 4.72819e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.28333e-03\tAbsError: 4.87030e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36013e-06\tAbsError: 4.72332e-04\n", - " Region: \"zone_3\"\tRelError: 7.63634e-03\tAbsError: 1.22286e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.75678e-05\tAbsError: 6.11672e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.73305e-05\tAbsError: 6.11193e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 7.54008e-03\tAbsError: 5.02425e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36049e-06\tAbsError: 4.72455e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.64410e-02\tAbsError: 6.34524e+13\n", - " Region: \"zone_1\"\tRelError: 6.01943e-03\tAbsError: 8.87148e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.99386e-03\tAbsError: 6.06051e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.55757e-05\tAbsError: 8.86542e-03\n", - " Region: \"zone_3\"\tRelError: 6.04216e-02\tAbsError: 6.34524e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43427e-04\tAbsError: 3.11581e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.51084e-04\tAbsError: 3.22943e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95015e-02\tAbsError: 6.26485e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.55822e-05\tAbsError: 8.86737e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 4.24154e+02\tAbsError: 1.03613e+14\n", - " Region: \"zone_1\"\tRelError: 5.67613e-02\tAbsError: 5.05890e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.67322e-02\tAbsError: 4.04903e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.90799e-05\tAbsError: 1.00988e-02\n", - " Region: \"zone_3\"\tRelError: 4.24097e+02\tAbsError: 1.03613e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.35907e+02\tAbsError: 6.68265e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.88132e+02\tAbsError: 3.67861e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.71504e-02\tAbsError: 4.04904e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.90803e-05\tAbsError: 1.00989e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.01928e-01\tAbsError: 8.46773e+13\n", - " Region: \"zone_1\"\tRelError: 5.24736e-02\tAbsError: 7.99199e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.24506e-02\tAbsError: 4.86695e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.30504e-05\tAbsError: 7.98712e-03\n", - " Region: \"zone_3\"\tRelError: 4.94541e-02\tAbsError: 8.46773e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.53589e-04\tAbsError: 4.13669e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.44812e-04\tAbsError: 4.33105e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.89326e-02\tAbsError: 4.90616e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.30517e-05\tAbsError: 7.98725e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.04270e-01\tAbsError: 9.65405e+12\n", - " Region: \"zone_1\"\tRelError: 5.81690e-03\tAbsError: 6.92855e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.81491e-03\tAbsError: 2.15570e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.99001e-06\tAbsError: 6.90699e-04\n", - " Region: \"zone_3\"\tRelError: 9.84527e-02\tAbsError: 9.65405e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.00209e-04\tAbsError: 4.86351e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.97989e-04\tAbsError: 4.79053e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 9.80525e-02\tAbsError: 2.33977e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.99059e-06\tAbsError: 6.90923e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.38843e-03\tAbsError: 5.18838e+11\n", - " Region: \"zone_1\"\tRelError: 1.31867e-03\tAbsError: 9.39018e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31840e-03\tAbsError: 1.99779e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69826e-07\tAbsError: 9.37020e-05\n", - " Region: \"zone_3\"\tRelError: 3.06976e-03\tAbsError: 5.18838e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95362e-05\tAbsError: 2.68345e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.93671e-05\tAbsError: 2.50493e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.03058e-03\tAbsError: 2.07424e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69859e-07\tAbsError: 9.37138e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.75673e-02\tAbsError: 3.32993e+13\n", - " Region: \"zone_1\"\tRelError: 3.52548e-03\tAbsError: 1.20689e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.52200e-03\tAbsError: 3.09455e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.47154e-06\tAbsError: 1.20380e-03\n", - " Region: \"zone_3\"\tRelError: 3.40418e-02\tAbsError: 3.32993e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47698e-04\tAbsError: 1.63796e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.38649e-04\tAbsError: 1.69197e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.35520e-02\tAbsError: 3.11273e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.47235e-06\tAbsError: 1.20402e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.03697e+00\tAbsError: 2.30736e+13\n", - " Region: \"zone_1\"\tRelError: 4.14534e-02\tAbsError: 4.56411e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.14090e-02\tAbsError: 3.02176e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.44109e-05\tAbsError: 1.54235e-02\n", - " Region: \"zone_3\"\tRelError: 1.99551e+00\tAbsError: 2.30736e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.82589e-01\tAbsError: 5.66552e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.71463e-01\tAbsError: 1.74081e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.14155e-02\tAbsError: 3.02178e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.44109e-05\tAbsError: 1.54235e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.65318e-02\tAbsError: 1.29680e+12\n", - " Region: \"zone_1\"\tRelError: 9.39367e-04\tAbsError: 3.35060e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.38402e-04\tAbsError: 2.76893e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.64479e-07\tAbsError: 3.34783e-04\n", - " Region: \"zone_3\"\tRelError: 1.55924e-02\tAbsError: 1.29680e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.69684e-05\tAbsError: 6.52102e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.67030e-05\tAbsError: 6.44698e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55378e-02\tAbsError: 3.04330e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.64659e-07\tAbsError: 3.34839e-04\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 9.50080e-04\tAbsError: 1.03863e+11\n", - " Region: \"zone_1\"\tRelError: 2.85910e-04\tAbsError: 3.37412e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.85814e-04\tAbsError: 4.14946e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.68675e-08\tAbsError: 3.36997e-05\n", - " Region: \"zone_3\"\tRelError: 6.64170e-04\tAbsError: 1.03863e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.88184e-06\tAbsError: 5.40187e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.85553e-06\tAbsError: 4.98443e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 6.56335e-04\tAbsError: 4.30256e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.69043e-08\tAbsError: 3.37128e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 6.29267e-02\tAbsError: 4.93318e+13\n", - " Region: \"zone_1\"\tRelError: 3.14335e-02\tAbsError: 1.02095e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.14305e-02\tAbsError: 2.65530e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.93828e-06\tAbsError: 1.01830e-03\n", - " Region: \"zone_3\"\tRelError: 3.14932e-02\tAbsError: 4.93318e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.61086e-04\tAbsError: 2.40538e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.48388e-04\tAbsError: 2.52780e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.11808e-02\tAbsError: 2.67923e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.93884e-06\tAbsError: 1.01846e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.71378e+00\tAbsError: 2.54547e+13\n", - " Region: \"zone_1\"\tRelError: 3.31338e-02\tAbsError: 4.41787e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.30812e-02\tAbsError: 2.58991e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.26319e-05\tAbsError: 1.82796e-02\n", - " Region: \"zone_3\"\tRelError: 2.68064e+00\tAbsError: 2.54547e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.62813e+00\tAbsError: 5.74020e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.89886e-02\tAbsError: 1.97145e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.34704e-02\tAbsError: 2.58028e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.26319e-05\tAbsError: 1.82796e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.47008e-03\tAbsError: 4.77215e+12\n", - " Region: \"zone_1\"\tRelError: 6.05494e-04\tAbsError: 5.38691e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.03946e-04\tAbsError: 4.25617e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54844e-06\tAbsError: 5.38265e-04\n", - " Region: \"zone_3\"\tRelError: 5.86458e-03\tAbsError: 4.77215e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.53153e-05\tAbsError: 2.34800e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.40122e-05\tAbsError: 2.42415e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.79371e-03\tAbsError: 4.28072e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54906e-06\tAbsError: 5.38488e-04\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 3.25927e-04\tAbsError: 3.72019e+10\n", - " Region: \"zone_1\"\tRelError: 9.80813e-05\tAbsError: 7.68282e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 9.80593e-05\tAbsError: 1.46928e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.20415e-08\tAbsError: 7.66812e-06\n", - " Region: \"zone_3\"\tRelError: 2.27846e-04\tAbsError: 3.72019e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.36089e-06\tAbsError: 1.97599e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.34801e-06\tAbsError: 1.74420e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.25115e-04\tAbsError: 1.52180e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.20501e-08\tAbsError: 7.67121e-06\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 7.44715e-03\tAbsError: 5.94316e+11\n", - " Region: \"zone_1\"\tRelError: 4.20439e-04\tAbsError: 5.99657e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.20267e-04\tAbsError: 1.23145e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72057e-07\tAbsError: 5.98426e-05\n", - " Region: \"zone_3\"\tRelError: 7.02671e-03\tAbsError: 5.94316e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.23784e-05\tAbsError: 2.99276e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.21874e-05\tAbsError: 2.95040e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 7.00197e-03\tAbsError: 1.35494e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72122e-07\tAbsError: 5.98657e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.04281e-02\tAbsError: 6.78073e+12\n", - " Region: \"zone_1\"\tRelError: 5.24513e-03\tAbsError: 4.79333e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.24375e-03\tAbsError: 3.45168e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37832e-06\tAbsError: 4.78987e-04\n", - " Region: \"zone_3\"\tRelError: 5.18295e-03\tAbsError: 6.78073e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.17447e-05\tAbsError: 3.30909e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.00474e-05\tAbsError: 3.47164e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.13977e-03\tAbsError: 3.48155e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37885e-06\tAbsError: 4.79177e-04\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 6.40087e-01\tAbsError: 4.64252e+14\n", - " Region: \"zone_1\"\tRelError: 1.04847e-02\tAbsError: 1.27444e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01422e-02\tAbsError: 8.53133e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.42498e-04\tAbsError: 1.18912e-01\n", - " Region: \"zone_3\"\tRelError: 6.29603e-01\tAbsError: 4.64252e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.48953e-01\tAbsError: 1.12241e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.29352e-03\tAbsError: 4.53028e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.10140e-02\tAbsError: 8.53143e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.42498e-04\tAbsError: 1.18912e-01\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.65398e-03\tAbsError: 2.00158e+12\n", - " Region: \"zone_1\"\tRelError: 2.48909e-04\tAbsError: 1.00808e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.48620e-04\tAbsError: 1.66964e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.89512e-07\tAbsError: 1.00641e-04\n", - " Region: \"zone_3\"\tRelError: 2.40507e-03\tAbsError: 2.00158e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50347e-05\tAbsError: 9.84888e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.44145e-05\tAbsError: 1.01669e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.37533e-03\tAbsError: 1.67974e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.89623e-07\tAbsError: 1.00681e-04\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 7.72661e-05\tAbsError: 8.43440e+09\n", - " Region: \"zone_1\"\tRelError: 2.32650e-05\tAbsError: 2.49052e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.32578e-05\tAbsError: 3.39814e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.14902e-09\tAbsError: 2.48712e-06\n", - " Region: \"zone_3\"\tRelError: 5.40011e-05\tAbsError: 8.43440e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.08161e-07\tAbsError: 4.47974e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.05735e-07\tAbsError: 3.95466e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 5.33800e-05\tAbsError: 3.51782e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.15190e-09\tAbsError: 2.48816e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:42\u001b[0m.\u001b[1;36m814\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.8\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.46366e-03\tAbsError: 1.06422e+11\n", - " Region: \"zone_1\"\tRelError: 8.28492e-05\tAbsError: 2.34015e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 8.27820e-05\tAbsError: 2.30847e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.72160e-08\tAbsError: 2.33784e-05\n", - " Region: \"zone_3\"\tRelError: 1.38081e-03\tAbsError: 1.06422e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.21682e-06\tAbsError: 5.35020e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.18773e-06\tAbsError: 5.29201e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37634e-03\tAbsError: 2.53433e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.72421e-08\tAbsError: 2.33878e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.44129e-03\tAbsError: 2.98553e+12\n", - " Region: \"zone_1\"\tRelError: 2.22864e-03\tAbsError: 8.64925e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.22839e-03\tAbsError: 1.41665e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.48478e-07\tAbsError: 8.63509e-05\n", - " Region: \"zone_3\"\tRelError: 2.21265e-03\tAbsError: 2.98553e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.76851e-06\tAbsError: 1.45688e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.99704e-06\tAbsError: 1.52864e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.19363e-03\tAbsError: 1.42960e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.48573e-07\tAbsError: 8.63857e-05\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 4.02180e-01\tAbsError: 4.61203e+14\n", - " Region: \"zone_1\"\tRelError: 2.40938e-02\tAbsError: 1.58654e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.36377e-02\tAbsError: 2.27164e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.56101e-04\tAbsError: 1.58426e-01\n", - " Region: \"zone_3\"\tRelError: 3.78087e-01\tAbsError: 4.61203e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43391e-01\tAbsError: 2.70194e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.07294e-03\tAbsError: 4.34183e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29167e-01\tAbsError: 2.34103e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.56101e-04\tAbsError: 1.58426e-01\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 5.36228e-04\tAbsError: 3.67963e+11\n", - " Region: \"zone_1\"\tRelError: 5.03370e-05\tAbsError: 3.69568e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.02308e-05\tAbsError: 3.27141e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06219e-07\tAbsError: 3.69241e-05\n", - " Region: \"zone_3\"\tRelError: 4.85891e-04\tAbsError: 3.67963e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.74381e-06\tAbsError: 1.81082e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.63918e-06\tAbsError: 1.86881e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.80402e-04\tAbsError: 3.29054e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06263e-07\tAbsError: 3.69404e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 5.30904e-04\tAbsError: 3.95714e+10\n", - " Region: \"zone_1\"\tRelError: 3.00411e-05\tAbsError: 4.94346e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.00269e-05\tAbsError: 8.75793e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41879e-08\tAbsError: 4.93470e-06\n", - " Region: \"zone_3\"\tRelError: 5.00863e-04\tAbsError: 3.95714e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.25148e-07\tAbsError: 1.99182e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.11326e-07\tAbsError: 1.96532e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.99212e-04\tAbsError: 9.55948e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41934e-08\tAbsError: 4.93667e-06\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 8.74059e-04\tAbsError: 5.30655e+11\n", - " Region: \"zone_1\"\tRelError: 4.39153e-04\tAbsError: 3.27217e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.39059e-04\tAbsError: 2.68115e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.40808e-08\tAbsError: 3.26949e-05\n", - " Region: \"zone_3\"\tRelError: 4.34906e-04\tAbsError: 5.30655e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.71117e-06\tAbsError: 2.59051e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.58373e-06\tAbsError: 2.71604e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.31517e-04\tAbsError: 2.70335e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.41189e-08\tAbsError: 3.27090e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.91796e+01\tAbsError: 8.00136e+16\n", - " Region: \"zone_1\"\tRelError: 1.61687e+01\tAbsError: 4.09548e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.61687e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75011e-09\tAbsError: 6.08861e-07\n", - " Region: \"zone_3\"\tRelError: 3.01093e+00\tAbsError: 8.00136e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.66958e-01\tAbsError: 4.00295e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.65547e-01\tAbsError: 3.99841e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.47843e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75082e-09\tAbsError: 6.09112e-07\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 2.10193e-01\tAbsError: 7.99688e+13\n", - " Region: \"zone_1\"\tRelError: 2.05561e-02\tAbsError: 5.86602e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.05395e-02\tAbsError: 9.98920e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.65822e-05\tAbsError: 5.76613e-03\n", - " Region: \"zone_3\"\tRelError: 1.89637e-01\tAbsError: 7.99688e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.16339e-02\tAbsError: 2.81452e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.13621e-02\tAbsError: 5.18236e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66624e-01\tAbsError: 1.01086e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.65822e-05\tAbsError: 5.76613e-03\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.84514e-04\tAbsError: 1.29331e+11\n", - " Region: \"zone_1\"\tRelError: 1.73204e-05\tAbsError: 7.90813e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72976e-05\tAbsError: 1.15361e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.27155e-08\tAbsError: 7.89660e-06\n", - " Region: \"zone_3\"\tRelError: 1.67193e-04\tAbsError: 1.29331e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.72276e-07\tAbsError: 6.36462e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.31421e-07\tAbsError: 6.56851e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65267e-04\tAbsError: 1.16052e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.27252e-08\tAbsError: 7.90006e-06\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.18197e-04\tAbsError: 8.36035e+09\n", - " Region: \"zone_1\"\tRelError: 6.69283e-06\tAbsError: 1.66315e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.68805e-06\tAbsError: 1.89367e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.77633e-09\tAbsError: 1.66126e-06\n", - " Region: \"zone_3\"\tRelError: 1.11504e-04\tAbsError: 8.36035e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.74281e-07\tAbsError: 4.20320e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.71702e-07\tAbsError: 4.15715e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11154e-04\tAbsError: 2.06535e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.77819e-09\tAbsError: 1.66195e-06\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 3.08060e-04\tAbsError: 1.92461e+11\n", - " Region: \"zone_1\"\tRelError: 1.54735e-04\tAbsError: 6.82159e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.54716e-04\tAbsError: 9.70786e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.96010e-08\tAbsError: 6.81188e-06\n", - " Region: \"zone_3\"\tRelError: 1.53325e-04\tAbsError: 1.92461e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.27921e-07\tAbsError: 9.39467e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.79266e-07\tAbsError: 9.85140e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.52098e-04\tAbsError: 9.78772e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.96093e-08\tAbsError: 6.81486e-06\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 2.86064e-02\tAbsError: 5.75937e+12\n", - " Region: \"zone_1\"\tRelError: 2.99410e-03\tAbsError: 5.58282e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.97805e-03\tAbsError: 3.44900e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60457e-05\tAbsError: 5.57937e-03\n", - " Region: \"zone_3\"\tRelError: 2.56123e-02\tAbsError: 5.75937e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.09545e-04\tAbsError: 3.17341e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.91803e-04\tAbsError: 2.58597e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.45949e-02\tAbsError: 3.59667e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60457e-05\tAbsError: 5.57937e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.23024e+00\tAbsError: 7.24788e+16\n", - " Region: \"zone_1\"\tRelError: 2.89301e-01\tAbsError: 2.81842e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88577e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.23562e-04\tAbsError: 2.51079e-01\n", - " Region: \"zone_3\"\tRelError: 2.94094e+00\tAbsError: 7.24788e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.29061e-01\tAbsError: 3.72143e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.83761e-01\tAbsError: 3.52645e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.62740e+00\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.23562e-04\tAbsError: 2.51079e-01\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 4.13464e-05\tAbsError: 2.75069e+10\n", - " Region: \"zone_1\"\tRelError: 3.88379e-06\tAbsError: 2.55222e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.87646e-06\tAbsError: 2.54121e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.33447e-09\tAbsError: 2.54968e-06\n", - " Region: \"zone_3\"\tRelError: 3.74626e-05\tAbsError: 2.75069e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05752e-07\tAbsError: 1.35376e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.97692e-07\tAbsError: 1.39693e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.70518e-05\tAbsError: 2.55608e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.33751e-09\tAbsError: 2.55078e-06\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 3.80937e-05\tAbsError: 2.74353e+09\n", - " Region: \"zone_1\"\tRelError: 2.15708e-06\tAbsError: 3.87099e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.15597e-06\tAbsError: 6.26710e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11116e-09\tAbsError: 3.86473e-07\n", - " Region: \"zone_3\"\tRelError: 3.59366e-05\tAbsError: 2.74353e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.72335e-08\tAbsError: 1.38052e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.62500e-08\tAbsError: 1.36301e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.58220e-05\tAbsError: 6.81530e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11160e-09\tAbsError: 3.86634e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:46\u001b[0m.\u001b[1;36m619\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.84375\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 6.77016e-05\tAbsError: 3.99340e+10\n", - " Region: \"zone_1\"\tRelError: 3.40211e-05\tAbsError: 2.24822e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.40146e-05\tAbsError: 2.09384e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.46316e-09\tAbsError: 2.24613e-06\n", - " Region: \"zone_3\"\tRelError: 3.36805e-05\tAbsError: 3.99340e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.29073e-07\tAbsError: 1.94974e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.19573e-07\tAbsError: 2.04367e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.34254e-05\tAbsError: 2.11075e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.46585e-09\tAbsError: 2.24710e-06\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 1.82614e-02\tAbsError: 5.42297e+12\n", - " Region: \"zone_1\"\tRelError: 1.87149e-03\tAbsError: 7.19384e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86944e-03\tAbsError: 4.05300e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.05712e-06\tAbsError: 7.15331e-04\n", - " Region: \"zone_3\"\tRelError: 1.63899e-02\tAbsError: 5.42297e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.58853e-04\tAbsError: 2.64128e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.55286e-04\tAbsError: 2.78170e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.52737e-02\tAbsError: 4.11046e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.05769e-06\tAbsError: 7.15531e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 5.71850e+00\tAbsError: 4.10464e+16\n", - " Region: \"zone_1\"\tRelError: 1.82923e-01\tAbsError: 1.08958e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82684e-01\tAbsError: 2.58969e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.39429e-04\tAbsError: 8.30609e-02\n", - " Region: \"zone_3\"\tRelError: 5.53558e+00\tAbsError: 4.10464e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16071e-01\tAbsError: 2.08924e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.47287e-01\tAbsError: 2.01540e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 4.77198e+00\tAbsError: 2.46271e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.39429e-04\tAbsError: 8.30609e-02\n", - "Iteration: 16\n", - " Device: \"device\"\tRelError: 3.08921e-03\tAbsError: 6.82153e+11\n", - " Region: \"zone_1\"\tRelError: 3.22828e-04\tAbsError: 3.86240e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.21718e-04\tAbsError: 4.69129e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10938e-06\tAbsError: 3.85770e-04\n", - " Region: \"zone_3\"\tRelError: 2.76638e-03\tAbsError: 6.82153e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.99591e-05\tAbsError: 3.83463e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.96052e-05\tAbsError: 2.98691e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.62571e-03\tAbsError: 4.75594e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10983e-06\tAbsError: 3.85927e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.65151e+01\tAbsError: 1.51212e+17\n", - " Region: \"zone_1\"\tRelError: 1.06619e+01\tAbsError: 4.22092e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06619e+01\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.43092e-10\tAbsError: 1.19331e-07\n", - " Region: \"zone_3\"\tRelError: 5.85318e+00\tAbsError: 1.51212e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.74780e-01\tAbsError: 7.62193e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.72183e-01\tAbsError: 7.49931e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 4.30622e+00\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.43230e-10\tAbsError: 1.19382e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:48\u001b[0m.\u001b[1;36m483\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:48\u001b[0m.\u001b[1;36m515\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.05 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:48\u001b[0m.\u001b[1;36m554\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.06773e+00\tAbsError: 1.32751e+16\n", - " Region: \"zone_1\"\tRelError: 2.27618e-01\tAbsError: 5.11022e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.27498e-01\tAbsError: 9.16524e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20880e-04\tAbsError: 4.19369e-02\n", - " Region: \"zone_3\"\tRelError: 8.40108e-01\tAbsError: 1.32751e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.49254e-01\tAbsError: 7.44002e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.85993e-02\tAbsError: 5.83511e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 6.12131e-01\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.23429e-04\tAbsError: 4.28226e-02\n", - "Iteration: 17\n", - " Device: \"device\"\tRelError: 1.43003e-03\tAbsError: 3.74747e+11\n", - " Region: \"zone_1\"\tRelError: 1.47866e-04\tAbsError: 6.98200e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.47666e-04\tAbsError: 2.50990e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.00063e-07\tAbsError: 6.95690e-05\n", - " Region: \"zone_3\"\tRelError: 1.28216e-03\tAbsError: 3.74747e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.74306e-05\tAbsError: 2.06228e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.71733e-05\tAbsError: 1.68519e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20736e-03\tAbsError: 2.54594e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.00104e-07\tAbsError: 6.95833e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:49\u001b[0m.\u001b[1;36m255\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:49\u001b[0m.\u001b[1;36m296\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.1 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:49\u001b[0m.\u001b[1;36m342\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 4.90454e+02\tAbsError: 2.04840e+18\n", - " Region: \"zone_1\"\tRelError: 1.53646e+02\tAbsError: 8.63296e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.53646e+02\tAbsError: 8.63290e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70509e-09\tAbsError: 5.92742e-07\n", - " Region: \"zone_3\"\tRelError: 3.36809e+02\tAbsError: 2.04840e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 9.87637e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.22507e+02\tAbsError: 1.06076e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 5.30214e+00\tAbsError: 8.63291e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70580e-09\tAbsError: 5.92998e-07\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.62901e+00\tAbsError: 1.40999e+17\n", - " Region: \"zone_1\"\tRelError: 1.19110e+00\tAbsError: 3.28133e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19025e+00\tAbsError: 3.22431e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.53177e-04\tAbsError: 2.95890e-01\n", - " Region: \"zone_3\"\tRelError: 2.43791e+00\tAbsError: 1.40999e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.36448e-01\tAbsError: 6.92767e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.77757e-01\tAbsError: 7.17220e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12285e+00\tAbsError: 3.22432e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.53551e-04\tAbsError: 2.96020e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.91937e-01\tAbsError: 2.33353e+15\n", - " Region: \"zone_1\"\tRelError: 2.61363e-02\tAbsError: 3.15290e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.52274e-02\tAbsError: 2.65917e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.08859e-04\tAbsError: 3.15024e-01\n", - " Region: \"zone_3\"\tRelError: 2.65801e-01\tAbsError: 2.33353e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.40034e-02\tAbsError: 1.23195e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.91867e-03\tAbsError: 1.10158e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20969e-01\tAbsError: 2.95967e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.10098e-04\tAbsError: 3.15450e-01\n", - "Iteration: 18\n", - " Device: \"device\"\tRelError: 2.91465e-04\tAbsError: 6.57879e+10\n", - " Region: \"zone_1\"\tRelError: 3.04241e-05\tAbsError: 2.86234e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.03419e-05\tAbsError: 4.35410e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.21885e-08\tAbsError: 2.85798e-05\n", - " Region: \"zone_3\"\tRelError: 2.61040e-04\tAbsError: 6.57879e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.69838e-06\tAbsError: 3.81906e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.66414e-06\tAbsError: 2.75972e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.47596e-04\tAbsError: 4.41612e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.22066e-08\tAbsError: 2.85862e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.26061e+02\tAbsError: 4.05670e+18\n", - " Region: \"zone_1\"\tRelError: 3.13098e+02\tAbsError: 8.80546e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.13098e+02\tAbsError: 8.80541e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47483e-09\tAbsError: 5.12545e-07\n", - " Region: \"zone_3\"\tRelError: 2.12963e+02\tAbsError: 4.05670e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43587e+01\tAbsError: 1.96046e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.68409e+01\tAbsError: 2.09624e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21763e+02\tAbsError: 8.80543e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47544e-09\tAbsError: 5.12766e-07\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.00694e+02\tAbsError: 1.60088e+18\n", - " Region: \"zone_1\"\tRelError: 5.26463e+01\tAbsError: 6.03766e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.26448e+01\tAbsError: 8.30497e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.50446e-03\tAbsError: 5.20716e-01\n", - " Region: \"zone_3\"\tRelError: 4.80481e+01\tAbsError: 1.60088e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.37446e+00\tAbsError: 7.93354e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.97778e+01\tAbsError: 8.07530e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88943e+01\tAbsError: 8.30498e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.50569e-03\tAbsError: 5.21124e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.29329e+01\tAbsError: 8.98534e+16\n", - " Region: \"zone_1\"\tRelError: 3.00500e+00\tAbsError: 8.37435e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.00483e+00\tAbsError: 2.57434e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67274e-04\tAbsError: 5.80001e-02\n", - " Region: \"zone_3\"\tRelError: 9.92794e+00\tAbsError: 8.98534e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.09711e-01\tAbsError: 4.68434e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.31259e-01\tAbsError: 4.30101e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 9.18680e+00\tAbsError: 2.30390e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67274e-04\tAbsError: 5.80001e-02\n", - "Iteration: 19\n", - " Device: \"device\"\tRelError: 1.10900e-04\tAbsError: 2.73373e+10\n", - " Region: \"zone_1\"\tRelError: 1.15094e-05\tAbsError: 6.20610e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14916e-05\tAbsError: 1.76149e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77965e-08\tAbsError: 6.18848e-06\n", - " Region: \"zone_3\"\tRelError: 9.93909e-05\tAbsError: 2.73373e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.73043e-06\tAbsError: 1.58419e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.71188e-06\tAbsError: 1.14954e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 9.39308e-05\tAbsError: 1.78713e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77992e-08\tAbsError: 6.18941e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.68338e-01\tAbsError: 7.28836e+14\n", - " Region: \"zone_1\"\tRelError: 4.44613e-02\tAbsError: 2.04423e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.44025e-02\tAbsError: 6.98557e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.87704e-05\tAbsError: 2.03724e-02\n", - " Region: \"zone_3\"\tRelError: 4.23877e-01\tAbsError: 7.28836e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.89975e-03\tAbsError: 3.57624e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.06394e-03\tAbsError: 3.71212e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.13854e-01\tAbsError: 7.63149e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.87832e-05\tAbsError: 2.03761e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 6.47092e+02\tAbsError: 3.51922e+18\n", - " Region: \"zone_1\"\tRelError: 2.63451e+02\tAbsError: 5.86890e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.63450e+02\tAbsError: 8.49344e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.44670e-03\tAbsError: 5.01956e-01\n", - " Region: \"zone_3\"\tRelError: 3.83641e+02\tAbsError: 3.51922e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.70089e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.81832e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 3.65639e+02\tAbsError: 8.49344e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.44736e-03\tAbsError: 5.02196e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 3.07342e+03\tAbsError: 2.97837e+17\n", - " Region: \"zone_1\"\tRelError: 2.56011e+01\tAbsError: 5.04749e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 2.55870e+01\tAbsError: 7.94526e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41420e-02\tAbsError: 4.96804e+00\n", - " Region: \"zone_3\"\tRelError: 3.04782e+03\tAbsError: 2.97837e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.25861e+01\tAbsError: 1.52164e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.03129e+03\tAbsError: 1.45673e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 3.92837e+00\tAbsError: 7.94551e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41420e-02\tAbsError: 4.96804e+00\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.76566e+00\tAbsError: 2.43207e+16\n", - " Region: \"zone_1\"\tRelError: 2.86332e+00\tAbsError: 4.95127e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.86321e+00\tAbsError: 1.10523e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10923e-04\tAbsError: 3.84604e-02\n", - " Region: \"zone_3\"\tRelError: 9.02346e-01\tAbsError: 2.43207e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.42087e-01\tAbsError: 1.21709e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.47178e-02\tAbsError: 1.21498e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.95430e-01\tAbsError: 1.10525e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11265e-04\tAbsError: 3.85782e-02\n", - "Iteration: 20\n", - " Device: \"device\"\tRelError: 2.56210e-05\tAbsError: 5.83108e+09\n", - " Region: \"zone_1\"\tRelError: 2.67249e-06\tAbsError: 2.19120e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.66620e-06\tAbsError: 3.76776e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.29052e-09\tAbsError: 2.18743e-06\n", - " Region: \"zone_3\"\tRelError: 2.29485e-05\tAbsError: 5.83108e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.90368e-07\tAbsError: 3.44839e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.87141e-07\tAbsError: 2.38269e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.17647e-05\tAbsError: 3.82222e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.29144e-09\tAbsError: 2.18776e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:27:52\u001b[0m.\u001b[1;36m734\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.2\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.64410e-02\tAbsError: 6.34524e+13\n", - " Region: \"zone_1\"\tRelError: 6.01943e-03\tAbsError: 8.87148e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.99386e-03\tAbsError: 6.06051e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.55757e-05\tAbsError: 8.86542e-03\n", - " Region: \"zone_3\"\tRelError: 6.04216e-02\tAbsError: 6.34524e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43427e-04\tAbsError: 3.11581e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.51084e-04\tAbsError: 3.22943e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95015e-02\tAbsError: 6.26485e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.55822e-05\tAbsError: 8.86737e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.28415e+02\tAbsError: 4.82050e+17\n", - " Region: \"zone_1\"\tRelError: 9.93520e+01\tAbsError: 5.45600e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 9.93367e+01\tAbsError: 8.15209e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52835e-02\tAbsError: 5.37448e+00\n", - " Region: \"zone_3\"\tRelError: 2.90632e+01\tAbsError: 4.82050e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.38294e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.43888e+01\tAbsError: 2.43756e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 5.65902e+00\tAbsError: 8.15218e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52835e-02\tAbsError: 5.37448e+00\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.49278e+01\tAbsError: 7.81245e+16\n", - " Region: \"zone_1\"\tRelError: 3.54128e+00\tAbsError: 2.67358e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 3.53383e+00\tAbsError: 7.54578e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.45093e-03\tAbsError: 2.59812e+00\n", - " Region: \"zone_3\"\tRelError: 5.13865e+01\tAbsError: 7.81245e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.20613e+01\tAbsError: 4.02344e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.93310e+01\tAbsError: 3.78901e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 9.98674e+00\tAbsError: 7.54578e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.46007e-03\tAbsError: 2.60144e+00\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 3.33470e-01\tAbsError: 3.90416e+15\n", - " Region: \"zone_1\"\tRelError: 2.76645e-01\tAbsError: 2.96561e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.75790e-01\tAbsError: 2.14183e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.55252e-04\tAbsError: 2.96347e-01\n", - " Region: \"zone_3\"\tRelError: 5.68250e-02\tAbsError: 3.90416e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.39131e-02\tAbsError: 2.04896e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.08999e-03\tAbsError: 1.85520e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49651e-02\tAbsError: 2.43298e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.56812e-04\tAbsError: 2.96876e-01\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.75673e-02\tAbsError: 3.32993e+13\n", - " Region: \"zone_1\"\tRelError: 3.52548e-03\tAbsError: 1.20689e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.52200e-03\tAbsError: 3.09455e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.47154e-06\tAbsError: 1.20380e-03\n", - " Region: \"zone_3\"\tRelError: 3.40418e-02\tAbsError: 3.32993e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47698e-04\tAbsError: 1.63796e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.38649e-04\tAbsError: 1.69197e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.35520e-02\tAbsError: 3.11273e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.47235e-06\tAbsError: 1.20402e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.15185e+01\tAbsError: 8.37847e+15\n", - " Region: \"zone_1\"\tRelError: 9.89196e+00\tAbsError: 4.09548e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.89196e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.51739e-09\tAbsError: 5.27651e-07\n", - " Region: \"zone_3\"\tRelError: 1.62652e+00\tAbsError: 8.37847e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69532e-01\tAbsError: 4.63620e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69461e-01\tAbsError: 3.74226e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.75319e-02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.51758e-09\tAbsError: 5.27715e-07\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.18889e+02\tAbsError: 1.14552e+17\n", - " Region: \"zone_1\"\tRelError: 5.40599e+00\tAbsError: 1.94512e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.40065e+00\tAbsError: 7.77584e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.33822e-03\tAbsError: 1.86737e+00\n", - " Region: \"zone_3\"\tRelError: 1.13483e+02\tAbsError: 1.14552e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.90797e+01\tAbsError: 7.79767e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.64811e+00\tAbsError: 3.65758e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 8.74990e+00\tAbsError: 7.77584e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.33822e-03\tAbsError: 1.86737e+00\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.25625e+03\tAbsError: 1.22730e+16\n", - " Region: \"zone_1\"\tRelError: 5.23435e-01\tAbsError: 1.23727e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.20080e-01\tAbsError: 7.09984e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.35587e-03\tAbsError: 1.16627e+00\n", - " Region: \"zone_3\"\tRelError: 1.25572e+03\tAbsError: 1.22730e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.14061e+02\tAbsError: 7.22075e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.14013e+03\tAbsError: 5.05229e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.52613e+00\tAbsError: 7.09985e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.35587e-03\tAbsError: 1.16627e+00\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.12245e+00\tAbsError: 9.91584e+14\n", - " Region: \"zone_1\"\tRelError: 8.68623e-01\tAbsError: 1.80881e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.68571e-01\tAbsError: 5.61289e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.20373e-05\tAbsError: 1.80320e-02\n", - " Region: \"zone_3\"\tRelError: 2.53825e-01\tAbsError: 9.91584e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.10989e-03\tAbsError: 4.83044e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.24305e-03\tAbsError: 5.08540e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.47420e-01\tAbsError: 5.65576e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.20483e-05\tAbsError: 1.80351e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.47008e-03\tAbsError: 4.77215e+12\n", - " Region: \"zone_1\"\tRelError: 6.05494e-04\tAbsError: 5.38691e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.03946e-04\tAbsError: 4.25617e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54844e-06\tAbsError: 5.38265e-04\n", - " Region: \"zone_3\"\tRelError: 5.86458e-03\tAbsError: 4.77215e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.53153e-05\tAbsError: 2.34800e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.40122e-05\tAbsError: 2.42415e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.79371e-03\tAbsError: 4.28072e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54906e-06\tAbsError: 5.38488e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.94648e+00\tAbsError: 2.98429e+14\n", - " Region: \"zone_1\"\tRelError: 5.14527e-01\tAbsError: 9.09010e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.14354e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72975e-04\tAbsError: 6.01374e-02\n", - " Region: \"zone_3\"\tRelError: 1.43195e+00\tAbsError: 2.98429e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37879e-01\tAbsError: 1.45713e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32394e-01\tAbsError: 1.52715e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.15050e-02\tAbsError: 3.07641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72975e-04\tAbsError: 6.01374e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.95684e+02\tAbsError: 5.60954e+16\n", - " Region: \"zone_1\"\tRelError: 3.13909e+00\tAbsError: 2.03306e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 3.13346e+00\tAbsError: 7.35754e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.63340e-03\tAbsError: 1.95948e+00\n", - " Region: \"zone_3\"\tRelError: 9.92545e+02\tAbsError: 5.60954e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.47342e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.81191e+02\tAbsError: 2.13612e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.34805e+00\tAbsError: 7.35755e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.63450e-03\tAbsError: 1.95990e+00\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.11329e+02\tAbsError: 6.64526e+15\n", - " Region: \"zone_1\"\tRelError: 5.94437e-01\tAbsError: 1.17140e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.94290e-01\tAbsError: 6.59600e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47237e-04\tAbsError: 5.11801e-02\n", - " Region: \"zone_3\"\tRelError: 5.10735e+02\tAbsError: 6.64526e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.43214e+01\tAbsError: 4.35598e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.34749e+02\tAbsError: 2.28927e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66411e+00\tAbsError: 6.59600e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47237e-04\tAbsError: 5.11801e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.42634e-01\tAbsError: 8.50303e+13\n", - " Region: \"zone_1\"\tRelError: 1.08407e-01\tAbsError: 8.19922e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08383e-01\tAbsError: 5.12930e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36473e-05\tAbsError: 8.19409e-03\n", - " Region: \"zone_3\"\tRelError: 3.42278e-02\tAbsError: 8.50303e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.81155e-04\tAbsError: 4.15550e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.73729e-04\tAbsError: 4.34753e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.36493e-02\tAbsError: 5.16851e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36494e-05\tAbsError: 8.19449e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.65398e-03\tAbsError: 2.00158e+12\n", - " Region: \"zone_1\"\tRelError: 2.48909e-04\tAbsError: 1.00808e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.48620e-04\tAbsError: 1.66964e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.89512e-07\tAbsError: 1.00641e-04\n", - " Region: \"zone_3\"\tRelError: 2.40507e-03\tAbsError: 2.00158e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50347e-05\tAbsError: 9.84888e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.44145e-05\tAbsError: 1.01669e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.37533e-03\tAbsError: 1.67974e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.89623e-07\tAbsError: 1.00681e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.04599e+00\tAbsError: 3.86289e+13\n", - " Region: \"zone_1\"\tRelError: 9.93306e-02\tAbsError: 3.04736e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.93173e-02\tAbsError: 2.58731e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32325e-05\tAbsError: 4.60053e-03\n", - " Region: \"zone_3\"\tRelError: 9.46664e-01\tAbsError: 3.86289e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39748e-01\tAbsError: 2.78668e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.98990e-01\tAbsError: 1.07620e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07912e-01\tAbsError: 2.56750e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32325e-05\tAbsError: 4.60053e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.05572e+02\tAbsError: 7.27616e+15\n", - " Region: \"zone_1\"\tRelError: 3.62859e-01\tAbsError: 2.71746e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.62276e-01\tAbsError: 6.88787e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.83532e-04\tAbsError: 2.02867e-01\n", - " Region: \"zone_3\"\tRelError: 3.05209e+02\tAbsError: 7.27616e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.70310e+01\tAbsError: 3.37941e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.76142e+02\tAbsError: 3.89675e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03530e+00\tAbsError: 6.88788e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.85168e-04\tAbsError: 2.03436e-01\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.19404e+03\tAbsError: 1.14702e+15\n", - " Region: \"zone_1\"\tRelError: 1.02333e-01\tAbsError: 9.32654e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02238e-01\tAbsError: 6.01966e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.51279e-05\tAbsError: 3.30688e-02\n", - " Region: \"zone_3\"\tRelError: 3.19394e+03\tAbsError: 1.14702e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.04031e+02\tAbsError: 6.26640e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.98981e+03\tAbsError: 5.20382e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02437e-01\tAbsError: 6.01966e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.51279e-05\tAbsError: 3.30688e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 9.22389e-02\tAbsError: 4.82158e+13\n", - " Region: \"zone_1\"\tRelError: 7.18973e-02\tAbsError: 1.06561e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.18942e-02\tAbsError: 2.74508e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.06675e-06\tAbsError: 1.06286e-03\n", - " Region: \"zone_3\"\tRelError: 2.03416e-02\tAbsError: 4.82158e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.73371e-04\tAbsError: 2.34911e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.60750e-04\tAbsError: 2.47247e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.00044e-02\tAbsError: 2.76855e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.06732e-06\tAbsError: 1.06303e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 5.36228e-04\tAbsError: 3.67963e+11\n", - " Region: \"zone_1\"\tRelError: 5.03370e-05\tAbsError: 3.69568e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.02308e-05\tAbsError: 3.27141e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06219e-07\tAbsError: 3.69241e-05\n", - " Region: \"zone_3\"\tRelError: 4.85891e-04\tAbsError: 3.67963e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.74381e-06\tAbsError: 1.81082e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.63918e-06\tAbsError: 1.86881e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.80402e-04\tAbsError: 3.29054e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06263e-07\tAbsError: 3.69404e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.81931e-01\tAbsError: 3.51181e+12\n", - " Region: \"zone_1\"\tRelError: 1.43962e-02\tAbsError: 1.26243e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43862e-02\tAbsError: 9.16567e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.94816e-06\tAbsError: 3.45864e-03\n", - " Region: \"zone_3\"\tRelError: 2.67535e-01\tAbsError: 3.51181e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.10366e-01\tAbsError: 2.07274e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.20558e-02\tAbsError: 1.43906e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51029e-02\tAbsError: 9.16572e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.94816e-06\tAbsError: 3.45864e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.52143e+04\tAbsError: 8.85256e+14\n", - " Region: \"zone_1\"\tRelError: 1.13431e-01\tAbsError: 1.63012e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13145e-01\tAbsError: 6.35445e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.86193e-04\tAbsError: 9.94676e-02\n", - " Region: \"zone_3\"\tRelError: 1.52142e+04\tAbsError: 8.85256e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88796e+02\tAbsError: 3.04095e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.50252e+04\tAbsError: 5.81161e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.15776e-01\tAbsError: 6.35445e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.86193e-04\tAbsError: 9.94676e-02\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.84514e-04\tAbsError: 1.29331e+11\n", - " Region: \"zone_1\"\tRelError: 1.73204e-05\tAbsError: 7.90813e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72976e-05\tAbsError: 1.15361e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.27155e-08\tAbsError: 7.89660e-06\n", - " Region: \"zone_3\"\tRelError: 1.67193e-04\tAbsError: 1.29331e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.72276e-07\tAbsError: 6.36462e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.31421e-07\tAbsError: 6.56851e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65267e-04\tAbsError: 1.16052e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.27252e-08\tAbsError: 7.90006e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.37784e+03\tAbsError: 8.93258e+14\n", - " Region: \"zone_1\"\tRelError: 1.00933e-01\tAbsError: 6.73054e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00893e-01\tAbsError: 5.35128e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.97271e-05\tAbsError: 1.37925e-02\n", - " Region: \"zone_3\"\tRelError: 3.37774e+03\tAbsError: 8.93258e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.00117e+03\tAbsError: 5.58869e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.76480e+02\tAbsError: 3.34389e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.23077e-02\tAbsError: 5.35129e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.97519e-05\tAbsError: 1.38013e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.54653e-02\tAbsError: 6.70800e+12\n", - " Region: \"zone_1\"\tRelError: 1.20581e-02\tAbsError: 4.93668e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20566e-02\tAbsError: 3.62019e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41950e-06\tAbsError: 4.93306e-04\n", - " Region: \"zone_3\"\tRelError: 3.40728e-03\tAbsError: 6.70800e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.37608e-05\tAbsError: 3.26486e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.20449e-05\tAbsError: 3.44314e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.36006e-03\tAbsError: 3.65152e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42005e-06\tAbsError: 4.93504e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.22421e-02\tAbsError: 3.50277e+12\n", - " Region: \"zone_1\"\tRelError: 6.27963e-03\tAbsError: 2.19296e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.27336e-03\tAbsError: 1.50745e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.27082e-06\tAbsError: 2.17788e-03\n", - " Region: \"zone_3\"\tRelError: 6.59624e-02\tAbsError: 3.50277e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.67825e-02\tAbsError: 2.11767e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.14378e-04\tAbsError: 1.38511e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.55925e-03\tAbsError: 1.55695e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.27082e-06\tAbsError: 2.17788e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.55754e+03\tAbsError: 5.40333e+14\n", - " Region: \"zone_1\"\tRelError: 8.98251e-02\tAbsError: 7.71339e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.97682e-02\tAbsError: 5.74069e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.68415e-05\tAbsError: 1.97270e-02\n", - " Region: \"zone_3\"\tRelError: 1.55745e+03\tAbsError: 5.40333e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.24902e+02\tAbsError: 2.78996e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.43226e+03\tAbsError: 2.61337e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.83203e-01\tAbsError: 5.74070e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.68971e-05\tAbsError: 1.97465e-02\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 4.13464e-05\tAbsError: 2.75069e+10\n", - " Region: \"zone_1\"\tRelError: 3.88379e-06\tAbsError: 2.55222e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.87646e-06\tAbsError: 2.54121e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.33447e-09\tAbsError: 2.54968e-06\n", - " Region: \"zone_3\"\tRelError: 3.74626e-05\tAbsError: 2.75069e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05752e-07\tAbsError: 1.35376e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.97692e-07\tAbsError: 1.39693e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.70518e-05\tAbsError: 2.55608e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.33751e-09\tAbsError: 2.55078e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:00\u001b[0m.\u001b[1;36m827\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.9\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 8.34579e+02\tAbsError: 1.94708e+14\n", - " Region: \"zone_1\"\tRelError: 6.43873e-02\tAbsError: 6.04633e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.43446e-02\tAbsError: 4.56537e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.26547e-05\tAbsError: 1.48096e-02\n", - " Region: \"zone_3\"\tRelError: 8.34515e+02\tAbsError: 1.94708e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.23533e+02\tAbsError: 9.15286e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.10917e+02\tAbsError: 1.03179e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.46435e-02\tAbsError: 4.56538e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.27063e-05\tAbsError: 1.48277e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 6.56223e-03\tAbsError: 2.91406e+12\n", - " Region: \"zone_1\"\tRelError: 5.12823e-03\tAbsError: 8.98940e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.12798e-03\tAbsError: 1.46733e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.58246e-07\tAbsError: 8.97473e-05\n", - " Region: \"zone_3\"\tRelError: 1.43400e-03\tAbsError: 2.91406e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.05194e-05\tAbsError: 1.41848e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.74304e-06\tAbsError: 1.49558e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.41348e-03\tAbsError: 1.48063e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.58345e-07\tAbsError: 8.97837e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.61560e-03\tAbsError: 1.05155e+12\n", - " Region: \"zone_1\"\tRelError: 2.24368e-04\tAbsError: 1.45744e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.23954e-04\tAbsError: 1.49315e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14375e-07\tAbsError: 1.44251e-04\n", - " Region: \"zone_3\"\tRelError: 1.39123e-03\tAbsError: 1.05155e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46580e-04\tAbsError: 2.71205e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.31750e-04\tAbsError: 7.80341e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11248e-03\tAbsError: 1.49727e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14536e-07\tAbsError: 1.44309e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.11509e+03\tAbsError: 2.08027e+14\n", - " Region: \"zone_1\"\tRelError: 7.16225e-02\tAbsError: 7.72640e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.15447e-02\tAbsError: 5.02451e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.78461e-05\tAbsError: 2.70188e-02\n", - " Region: \"zone_3\"\tRelError: 6.11502e+03\tAbsError: 2.08027e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.36809e+03\tAbsError: 4.84261e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.46858e+02\tAbsError: 1.59601e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.19331e-02\tAbsError: 5.02452e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.78461e-05\tAbsError: 2.70188e-02\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.30459e-03\tAbsError: 5.22309e+11\n", - " Region: \"zone_1\"\tRelError: 1.02073e-03\tAbsError: 3.37124e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02063e-03\tAbsError: 2.80533e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.69262e-08\tAbsError: 3.36844e-05\n", - " Region: \"zone_3\"\tRelError: 2.83861e-04\tAbsError: 5.22309e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.86127e-06\tAbsError: 2.54142e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.73182e-06\tAbsError: 2.68167e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.80171e-04\tAbsError: 2.82699e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.69658e-08\tAbsError: 3.36990e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.24775e+05\tAbsError: 7.99849e+13\n", - " Region: \"zone_1\"\tRelError: 4.78059e-02\tAbsError: 6.12680e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.77341e-02\tAbsError: 3.63251e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.18354e-05\tAbsError: 2.49428e-02\n", - " Region: \"zone_3\"\tRelError: 2.24775e+05\tAbsError: 7.99849e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.24772e+05\tAbsError: 1.00992e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.14841e+00\tAbsError: 6.98857e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.81352e-02\tAbsError: 3.63252e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.18354e-05\tAbsError: 2.49428e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.18618e+01\tAbsError: 3.43486e+17\n", - " Region: \"zone_1\"\tRelError: 4.68734e+01\tAbsError: 4.09548e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.68734e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70509e-09\tAbsError: 5.92742e-07\n", - " Region: \"zone_3\"\tRelError: 1.49884e+01\tAbsError: 3.43486e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.50361e-01\tAbsError: 1.67687e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.42491e-01\tAbsError: 1.75799e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.34955e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70580e-09\tAbsError: 5.92998e-07\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.04487e-04\tAbsError: 1.25305e+11\n", - " Region: \"zone_1\"\tRelError: 1.66226e-04\tAbsError: 5.88375e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66057e-04\tAbsError: 7.31644e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69190e-07\tAbsError: 5.87644e-05\n", - " Region: \"zone_3\"\tRelError: 4.38261e-04\tAbsError: 1.25305e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07350e-05\tAbsError: 8.57573e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.06395e-05\tAbsError: 3.95481e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.16717e-04\tAbsError: 7.69561e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69190e-07\tAbsError: 5.87644e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.83105e+01\tAbsError: 1.95329e+14\n", - " Region: \"zone_1\"\tRelError: 5.56071e-02\tAbsError: 7.46696e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.55124e-02\tAbsError: 4.17804e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.47508e-05\tAbsError: 3.28892e-02\n", - " Region: \"zone_3\"\tRelError: 2.82549e+01\tAbsError: 1.95329e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.94244e+01\tAbsError: 7.65409e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.77485e+00\tAbsError: 1.87675e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.55752e-02\tAbsError: 4.17805e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.47508e-05\tAbsError: 3.28892e-02\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 4.57494e-04\tAbsError: 1.87851e+11\n", - " Region: \"zone_1\"\tRelError: 3.58124e-04\tAbsError: 7.07024e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.58104e-04\tAbsError: 1.00823e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.03150e-08\tAbsError: 7.06016e-06\n", - " Region: \"zone_3\"\tRelError: 9.93700e-05\tAbsError: 1.87851e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.76736e-07\tAbsError: 9.14150e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.27531e-07\tAbsError: 9.64360e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 9.80454e-05\tAbsError: 1.01596e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.03236e-08\tAbsError: 7.06323e-06\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.21405e+00\tAbsError: 7.36648e+13\n", - " Region: \"zone_1\"\tRelError: 3.59171e-02\tAbsError: 5.52897e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.58309e-02\tAbsError: 2.53668e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.61705e-05\tAbsError: 2.99229e-02\n", - " Region: \"zone_3\"\tRelError: 1.17813e+00\tAbsError: 7.36648e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99994e-01\tAbsError: 9.79700e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.41280e-01\tAbsError: 6.38678e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.67735e-02\tAbsError: 2.54466e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.61705e-05\tAbsError: 2.99229e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 6.59116e+00\tAbsError: 3.05940e+17\n", - " Region: \"zone_1\"\tRelError: 1.06162e+00\tAbsError: 1.92710e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06116e+00\tAbsError: 3.07630e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.67257e-04\tAbsError: 1.61947e-01\n", - " Region: \"zone_3\"\tRelError: 5.52954e+00\tAbsError: 3.05940e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.66708e-01\tAbsError: 1.53394e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.75609e-01\tAbsError: 1.52546e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 4.38676e+00\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.67257e-04\tAbsError: 1.61947e-01\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.49542e-04\tAbsError: 5.25661e+10\n", - " Region: \"zone_1\"\tRelError: 3.67450e-05\tAbsError: 6.09088e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.67276e-05\tAbsError: 4.65419e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73626e-08\tAbsError: 6.04434e-06\n", - " Region: \"zone_3\"\tRelError: 1.12797e-04\tAbsError: 5.25661e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.87851e-06\tAbsError: 1.95403e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.83782e-06\tAbsError: 3.30258e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03064e-04\tAbsError: 4.67697e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73704e-08\tAbsError: 6.04719e-06\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.17347e+02\tAbsError: 2.00590e+14\n", - " Region: \"zone_1\"\tRelError: 4.02790e-02\tAbsError: 7.42617e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.01565e-02\tAbsError: 3.17370e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22495e-04\tAbsError: 4.25247e-02\n", - " Region: \"zone_3\"\tRelError: 2.17306e+02\tAbsError: 2.00590e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.16792e+02\tAbsError: 1.28080e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.74248e-01\tAbsError: 1.87782e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.02289e-02\tAbsError: 3.17371e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22495e-04\tAbsError: 4.25247e-02\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.01166e-04\tAbsError: 3.91946e+10\n", - " Region: \"zone_1\"\tRelError: 7.92415e-05\tAbsError: 2.31694e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 7.92348e-05\tAbsError: 2.18517e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.66050e-09\tAbsError: 2.31475e-06\n", - " Region: \"zone_3\"\tRelError: 2.19241e-05\tAbsError: 3.91946e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.40019e-07\tAbsError: 1.90694e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.30355e-07\tAbsError: 2.01253e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.16471e-05\tAbsError: 2.20162e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.66326e-09\tAbsError: 2.31575e-06\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 6.63713e+04\tAbsError: 5.22530e+13\n", - " Region: \"zone_1\"\tRelError: 2.10634e-02\tAbsError: 5.42181e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.09583e-02\tAbsError: 1.77022e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.05146e-04\tAbsError: 3.65159e-02\n", - " Region: \"zone_3\"\tRelError: 6.63712e+04\tAbsError: 5.22530e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.63712e+04\tAbsError: 5.18134e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.77454e-03\tAbsError: 4.70717e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.12693e-02\tAbsError: 1.77023e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.05146e-04\tAbsError: 3.65159e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 3.39017e+01\tAbsError: 1.15461e+17\n", - " Region: \"zone_1\"\tRelError: 6.40052e-01\tAbsError: 2.51200e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 6.39402e-01\tAbsError: 2.58690e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.49519e-04\tAbsError: 2.25331e-01\n", - " Region: \"zone_3\"\tRelError: 3.32617e+01\tAbsError: 1.15461e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.89584e-01\tAbsError: 5.80157e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.82182e-01\tAbsError: 5.74450e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.27893e+01\tAbsError: 2.58944e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.51823e-04\tAbsError: 2.26124e-01\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.06804e+00\tAbsError: 1.79281e+14\n", - " Region: \"zone_1\"\tRelError: 3.16228e-02\tAbsError: 8.06229e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.14652e-02\tAbsError: 2.58829e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.57657e-04\tAbsError: 5.47400e-02\n", - " Region: \"zone_3\"\tRelError: 1.03642e+00\tAbsError: 1.79281e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.86597e-01\tAbsError: 1.34599e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.78837e-02\tAbsError: 1.65821e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.17792e-02\tAbsError: 2.43086e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.57657e-04\tAbsError: 5.47400e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.34617e-05\tAbsError: 4.93079e+09\n", - " Region: \"zone_1\"\tRelError: 6.39656e-06\tAbsError: 2.70522e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.38878e-06\tAbsError: 2.92927e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.78054e-09\tAbsError: 2.70229e-06\n", - " Region: \"zone_3\"\tRelError: 1.70651e-05\tAbsError: 4.93079e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.08409e-07\tAbsError: 3.64060e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.02770e-07\tAbsError: 1.29019e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.62462e-05\tAbsError: 3.07628e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.78095e-09\tAbsError: 2.70246e-06\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 3.18341e-05\tAbsError: 1.25603e+10\n", - " Region: \"zone_1\"\tRelError: 2.49404e-05\tAbsError: 5.30965e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49389e-05\tAbsError: 6.97982e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52580e-09\tAbsError: 5.30267e-07\n", - " Region: \"zone_3\"\tRelError: 6.89370e-06\tAbsError: 1.25603e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.51738e-08\tAbsError: 6.11147e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.19302e-08\tAbsError: 6.44887e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 6.80507e-06\tAbsError: 7.03236e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52643e-09\tAbsError: 5.30496e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:05\u001b[0m.\u001b[1;36m757\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:05\u001b[0m.\u001b[1;36m757\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 12\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 1.01474e+00\tAbsError: 4.61335e+13\n", - " Region: \"zone_1\"\tRelError: 1.47150e-03\tAbsError: 6.17553e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29402e-03\tAbsError: 1.05400e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77486e-04\tAbsError: 6.16499e-02\n", - " Region: \"zone_3\"\tRelError: 1.01327e+00\tAbsError: 4.61335e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99952e-01\tAbsError: 7.91524e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.57670e-03\tAbsError: 3.82183e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.56216e-03\tAbsError: 1.06870e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77486e-04\tAbsError: 6.16499e-02\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:05\u001b[0m.\u001b[1;36m864\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.95\u001b[0m \n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "number of equations 31816\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.68712e+00\tAbsError: 3.62564e+14\n", - " Region: \"zone_1\"\tRelError: 1.22207e-02\tAbsError: 1.54507e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.22061e-02\tAbsError: 1.03781e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.46093e-05\tAbsError: 5.07262e-03\n", - " Region: \"zone_3\"\tRelError: 1.67490e+00\tAbsError: 3.62564e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.61422e+00\tAbsError: 1.33857e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.90388e-03\tAbsError: 3.49178e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.47664e-02\tAbsError: 1.03783e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.46093e-05\tAbsError: 5.07262e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.34480e+00\tAbsError: 1.48853e+16\n", - " Region: \"zone_1\"\tRelError: 1.80604e-01\tAbsError: 1.59400e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.80172e-01\tAbsError: 9.16501e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.31839e-04\tAbsError: 1.50235e-01\n", - " Region: \"zone_3\"\tRelError: 3.16419e+00\tAbsError: 1.48853e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.34401e-02\tAbsError: 7.53366e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.19569e-02\tAbsError: 7.35164e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 3.07837e+00\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.31839e-04\tAbsError: 1.50235e-01\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 7.62884e-02\tAbsError: 3.11279e+13\n", - " Region: \"zone_1\"\tRelError: 7.32639e-03\tAbsError: 6.71228e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.32458e-03\tAbsError: 3.92163e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.81752e-06\tAbsError: 6.32012e-04\n", - " Region: \"zone_3\"\tRelError: 6.89620e-02\tAbsError: 3.11279e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.28301e-03\tAbsError: 1.04211e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.41417e-03\tAbsError: 2.07069e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.02630e-02\tAbsError: 3.96840e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.81752e-06\tAbsError: 6.32012e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 9.54016e+00\tAbsError: 8.28773e+15\n", - " Region: \"zone_1\"\tRelError: 7.90066e+00\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.90066e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.70848e-10\tAbsError: 1.98729e-07\n", - " Region: \"zone_3\"\tRelError: 1.63951e+00\tAbsError: 8.28773e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69626e-01\tAbsError: 4.72857e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69607e-01\tAbsError: 3.55916e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00272e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.71112e-10\tAbsError: 1.98826e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.74449e+01\tAbsError: 6.96689e+17\n", - " Region: \"zone_1\"\tRelError: 2.96607e+01\tAbsError: 4.22091e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.96607e+01\tAbsError: 4.22089e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.61425e-10\tAbsError: 1.60361e-07\n", - " Region: \"zone_3\"\tRelError: 7.78417e+00\tAbsError: 6.96689e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.41055e-01\tAbsError: 3.41021e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.26169e-01\tAbsError: 3.55668e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 6.31694e+00\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.61615e-10\tAbsError: 1.60430e-07\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 3.79888e-01\tAbsError: 4.76646e+14\n", - " Region: \"zone_1\"\tRelError: 8.18570e-03\tAbsError: 1.32227e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 7.80599e-03\tAbsError: 3.37742e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.79705e-04\tAbsError: 1.31889e-01\n", - " Region: \"zone_3\"\tRelError: 3.71702e-01\tAbsError: 4.76646e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.87565e-01\tAbsError: 1.19019e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.42254e-02\tAbsError: 4.64744e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.95315e-02\tAbsError: 3.47242e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.80503e-04\tAbsError: 1.32163e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 3.42204e-01\tAbsError: 1.90329e+15\n", - " Region: \"zone_1\"\tRelError: 2.01983e-02\tAbsError: 3.47392e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.91990e-02\tAbsError: 1.15001e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.99221e-04\tAbsError: 3.47277e-01\n", - " Region: \"zone_3\"\tRelError: 3.22006e-01\tAbsError: 1.90329e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.20950e-03\tAbsError: 1.00831e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03234e-03\tAbsError: 8.94978e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.11765e-01\tAbsError: 1.16357e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.99221e-04\tAbsError: 3.47277e-01\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 4.97160e-03\tAbsError: 5.38954e+11\n", - " Region: \"zone_1\"\tRelError: 5.24807e-04\tAbsError: 2.04317e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.18927e-04\tAbsError: 4.87701e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.88073e-06\tAbsError: 2.04268e-03\n", - " Region: \"zone_3\"\tRelError: 4.44679e-03\tAbsError: 5.38954e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.23342e-04\tAbsError: 2.85836e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.06330e-04\tAbsError: 2.53118e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.21124e-03\tAbsError: 4.94546e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.88073e-06\tAbsError: 2.04268e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.57084e+00\tAbsError: 2.89575e+14\n", - " Region: \"zone_1\"\tRelError: 1.26543e-01\tAbsError: 8.72430e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.26381e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62480e-04\tAbsError: 5.64794e-02\n", - " Region: \"zone_3\"\tRelError: 1.44430e+00\tAbsError: 2.89575e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37983e-01\tAbsError: 1.66847e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32917e-01\tAbsError: 1.22728e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.32359e-02\tAbsError: 3.07641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62480e-04\tAbsError: 5.64794e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.96671e+01\tAbsError: 4.78725e+17\n", - " Region: \"zone_1\"\tRelError: 1.56062e+01\tAbsError: 6.48524e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.56044e+01\tAbsError: 3.22428e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77540e-03\tAbsError: 6.16281e-01\n", - " Region: \"zone_3\"\tRelError: 2.40609e+01\tAbsError: 4.78725e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.32526e-01\tAbsError: 2.39421e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.11429e-01\tAbsError: 2.39304e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 2.30152e+01\tAbsError: 3.22432e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77768e-03\tAbsError: 6.17061e-01\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 1.68812e-01\tAbsError: 6.68290e+13\n", - " Region: \"zone_1\"\tRelError: 1.62757e-02\tAbsError: 2.11428e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.62698e-02\tAbsError: 8.34201e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.83306e-06\tAbsError: 2.03086e-03\n", - " Region: \"zone_3\"\tRelError: 1.52537e-01\tAbsError: 6.68290e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.43740e-03\tAbsError: 2.29738e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.52401e-03\tAbsError: 4.38552e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33569e-01\tAbsError: 8.44016e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.83624e-06\tAbsError: 2.03199e-03\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 6.39289e-03\tAbsError: 1.99417e+12\n", - " Region: \"zone_1\"\tRelError: 6.51668e-04\tAbsError: 1.66997e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.51192e-04\tAbsError: 1.51055e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.75922e-07\tAbsError: 1.65487e-04\n", - " Region: \"zone_3\"\tRelError: 5.74122e-03\tAbsError: 1.99417e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05094e-04\tAbsError: 9.44377e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.03732e-04\tAbsError: 1.04979e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.33192e-03\tAbsError: 1.53169e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.76123e-07\tAbsError: 1.65562e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 7.26159e-01\tAbsError: 1.60368e+15\n", - " Region: \"zone_1\"\tRelError: 2.39971e-02\tAbsError: 1.68797e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.39489e-02\tAbsError: 1.07820e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.82419e-05\tAbsError: 1.67718e-02\n", - " Region: \"zone_3\"\tRelError: 7.02162e-01\tAbsError: 1.60368e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.86883e-03\tAbsError: 7.94204e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.42424e-03\tAbsError: 8.09476e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.96821e-01\tAbsError: 1.08766e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.82636e-05\tAbsError: 1.67793e-02\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 1.38481e-02\tAbsError: 1.68702e+12\n", - " Region: \"zone_1\"\tRelError: 1.46213e-03\tAbsError: 4.42925e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.44939e-03\tAbsError: 1.36850e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27342e-05\tAbsError: 4.42788e-03\n", - " Region: \"zone_3\"\tRelError: 1.23859e-02\tAbsError: 1.68702e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.64650e-04\tAbsError: 1.13427e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.36099e-04\tAbsError: 5.52747e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18725e-02\tAbsError: 1.41163e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27342e-05\tAbsError: 4.42788e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.08933e+00\tAbsError: 3.08258e+13\n", - " Region: \"zone_1\"\tRelError: 1.39766e-01\tAbsError: 3.14532e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39750e-01\tAbsError: 2.58726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60540e-05\tAbsError: 5.58058e-03\n", - " Region: \"zone_3\"\tRelError: 9.49568e-01\tAbsError: 3.08258e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40223e-01\tAbsError: 2.27975e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.01508e-01\tAbsError: 8.02831e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07820e-01\tAbsError: 2.58966e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60540e-05\tAbsError: 5.58058e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.58934e+01\tAbsError: 1.08929e+17\n", - " Region: \"zone_1\"\tRelError: 7.76222e+00\tAbsError: 2.03869e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 7.76171e+00\tAbsError: 2.58965e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.13002e-04\tAbsError: 1.77973e-01\n", - " Region: \"zone_3\"\tRelError: 8.13122e+00\tAbsError: 1.08929e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.31874e-01\tAbsError: 5.46655e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.37122e-01\tAbsError: 5.42631e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 7.76171e+00\tAbsError: 2.58965e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.15508e-04\tAbsError: 1.78843e-01\n", - "Iteration: 16\n", - " Device: \"device\"\tRelError: 7.67318e-04\tAbsError: 1.55738e+11\n", - " Region: \"zone_1\"\tRelError: 8.06401e-05\tAbsError: 1.34410e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 8.02538e-05\tAbsError: 1.14844e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.86221e-07\tAbsError: 1.34295e-04\n", - " Region: \"zone_3\"\tRelError: 6.86678e-04\tAbsError: 1.55738e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.65553e-05\tAbsError: 8.47722e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.64999e-05\tAbsError: 7.09653e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 6.53236e-04\tAbsError: 1.16414e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.86355e-07\tAbsError: 1.34349e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.12346e-01\tAbsError: 1.08123e+14\n", - " Region: \"zone_1\"\tRelError: 3.56238e-03\tAbsError: 1.31451e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.52458e-03\tAbsError: 6.36043e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.77942e-05\tAbsError: 1.31387e-02\n", - " Region: \"zone_3\"\tRelError: 1.08784e-01\tAbsError: 1.08123e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.76703e-04\tAbsError: 5.36465e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.39449e-04\tAbsError: 5.44763e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08330e-01\tAbsError: 6.41381e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.78094e-05\tAbsError: 1.31440e-02\n", - "Iteration: 16\n", - " Device: \"device\"\tRelError: 1.41016e-02\tAbsError: 4.32538e+12\n", - " Region: \"zone_1\"\tRelError: 1.44009e-03\tAbsError: 3.91787e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43897e-03\tAbsError: 3.24685e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11735e-06\tAbsError: 3.88540e-04\n", - " Region: \"zone_3\"\tRelError: 1.26615e-02\tAbsError: 4.32538e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.44521e-04\tAbsError: 2.07782e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.41617e-04\tAbsError: 2.24755e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17742e-02\tAbsError: 3.29253e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11758e-06\tAbsError: 3.88622e-04\n", - "Iteration: 17\n", - " Device: \"device\"\tRelError: 4.85089e-04\tAbsError: 1.31358e+11\n", - " Region: \"zone_1\"\tRelError: 5.00385e-05\tAbsError: 1.89992e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.99841e-05\tAbsError: 8.85529e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.43823e-08\tAbsError: 1.89106e-05\n", - " Region: \"zone_3\"\tRelError: 4.35051e-04\tAbsError: 1.31358e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.30758e-05\tAbsError: 7.11941e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.29816e-05\tAbsError: 6.01635e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.08939e-04\tAbsError: 8.98229e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.43956e-08\tAbsError: 1.89153e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.94758e-01\tAbsError: 4.98642e+12\n", - " Region: \"zone_1\"\tRelError: 2.19383e-02\tAbsError: 1.22221e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.19295e-02\tAbsError: 9.16564e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.79291e-06\tAbsError: 3.05651e-03\n", - " Region: \"zone_3\"\tRelError: 2.72820e-01\tAbsError: 4.98642e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12699e-01\tAbsError: 2.77867e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.23181e-02\tAbsError: 2.20775e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77940e-02\tAbsError: 9.16568e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.79389e-06\tAbsError: 3.05683e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.09090e+02\tAbsError: 1.19633e+16\n", - " Region: \"zone_1\"\tRelError: 1.29631e+01\tAbsError: 2.31122e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29625e+01\tAbsError: 1.10519e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.34257e-04\tAbsError: 2.20070e-01\n", - " Region: \"zone_3\"\tRelError: 1.96127e+02\tAbsError: 1.19633e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.51181e-02\tAbsError: 6.00863e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.25304e-02\tAbsError: 5.95469e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.96079e+02\tAbsError: 1.10525e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.35003e-04\tAbsError: 2.20329e-01\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 8.36096e-02\tAbsError: 8.44228e+13\n", - " Region: \"zone_1\"\tRelError: 2.87350e-03\tAbsError: 1.23009e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.86998e-03\tAbsError: 4.23325e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.52636e-06\tAbsError: 1.22586e-03\n", - " Region: \"zone_3\"\tRelError: 8.07361e-02\tAbsError: 8.44228e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46087e-04\tAbsError: 4.18513e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.25646e-04\tAbsError: 4.25715e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.04608e-02\tAbsError: 4.27186e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.52783e-06\tAbsError: 1.22636e-03\n", - "Iteration: 17\n", - " Device: \"device\"\tRelError: 1.81980e-03\tAbsError: 3.66024e+11\n", - " Region: \"zone_1\"\tRelError: 1.91275e-04\tAbsError: 2.94745e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.90428e-04\tAbsError: 2.56341e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.46877e-07\tAbsError: 2.94489e-04\n", - " Region: \"zone_3\"\tRelError: 1.62852e-03\tAbsError: 3.66024e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.82060e-05\tAbsError: 2.08266e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.80575e-05\tAbsError: 1.57759e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55141e-03\tAbsError: 2.59920e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.47241e-07\tAbsError: 2.94616e-04\n", - "Iteration: 18\n", - " Device: \"device\"\tRelError: 8.15689e-05\tAbsError: 1.78459e+10\n", - " Region: \"zone_1\"\tRelError: 8.53265e-06\tAbsError: 9.62031e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.50502e-06\tAbsError: 1.21079e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.76308e-08\tAbsError: 9.60820e-06\n", - " Region: \"zone_3\"\tRelError: 7.30363e-05\tAbsError: 1.78459e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.83620e-06\tAbsError: 1.02277e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.82841e-06\tAbsError: 7.61829e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 6.93440e-05\tAbsError: 1.22778e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.76376e-08\tAbsError: 9.61058e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:13\u001b[0m.\u001b[1;36m069\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:13\u001b[0m.\u001b[1;36m069\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.20555555555555557\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.73338e-02\tAbsError: 3.09182e+12\n", - " Region: \"zone_1\"\tRelError: 1.11598e-02\tAbsError: 1.65988e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11551e-02\tAbsError: 1.42279e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73882e-06\tAbsError: 1.64565e-03\n", - " Region: \"zone_3\"\tRelError: 6.61739e-02\tAbsError: 3.09182e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.71921e-02\tAbsError: 1.98622e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.49402e-04\tAbsError: 1.10560e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.42774e-03\tAbsError: 1.50865e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73882e-06\tAbsError: 1.64565e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 3.05334e-02\tAbsError: 1.11116e+15\n", - " Region: \"zone_1\"\tRelError: 1.31572e-02\tAbsError: 1.15650e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28247e-02\tAbsError: 1.19112e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.32502e-04\tAbsError: 1.15639e-01\n", - " Region: \"zone_3\"\tRelError: 1.73762e-02\tAbsError: 1.11116e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.08419e-03\tAbsError: 5.81267e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.14070e-04\tAbsError: 5.29897e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.44454e-02\tAbsError: 1.22279e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.32502e-04\tAbsError: 1.15639e-01\n", - "Iteration: 18\n", - " Device: \"device\"\tRelError: 1.07179e-03\tAbsError: 2.87267e+11\n", - " Region: \"zone_1\"\tRelError: 1.10640e-04\tAbsError: 4.34533e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10516e-04\tAbsError: 1.92607e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.24407e-07\tAbsError: 4.32607e-05\n", - " Region: \"zone_3\"\tRelError: 9.61153e-04\tAbsError: 2.87267e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.86040e-05\tAbsError: 1.56933e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.83999e-05\tAbsError: 1.30334e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 9.04024e-04\tAbsError: 1.95375e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.24432e-07\tAbsError: 4.32693e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.36875e-02\tAbsError: 9.69294e+12\n", - " Region: \"zone_1\"\tRelError: 4.70501e-04\tAbsError: 6.20216e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.68718e-04\tAbsError: 4.28680e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.78298e-06\tAbsError: 6.19787e-04\n", - " Region: \"zone_3\"\tRelError: 1.32170e-02\tAbsError: 9.69294e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.60935e-05\tAbsError: 4.80983e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.36870e-05\tAbsError: 4.88312e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31854e-02\tAbsError: 4.32490e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.78363e-06\tAbsError: 6.20008e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.35940e-03\tAbsError: 7.91644e+11\n", - " Region: \"zone_1\"\tRelError: 6.17001e-04\tAbsError: 1.42075e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.16596e-04\tAbsError: 1.18665e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.04748e-07\tAbsError: 1.40888e-04\n", - " Region: \"zone_3\"\tRelError: 7.42401e-04\tAbsError: 7.91644e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.00211e-04\tAbsError: 1.88344e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.60094e-05\tAbsError: 6.03301e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.55776e-04\tAbsError: 1.18974e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.04912e-07\tAbsError: 1.40947e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.48290e+01\tAbsError: 8.84394e+15\n", - " Region: \"zone_1\"\tRelError: 2.31805e+01\tAbsError: 4.20744e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.31805e+01\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.17390e-09\tAbsError: 1.79915e-06\n", - " Region: \"zone_3\"\tRelError: 1.64851e+00\tAbsError: 8.84394e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78981e-01\tAbsError: 4.89377e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.78912e-01\tAbsError: 3.95017e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.06132e-02\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.17475e-09\tAbsError: 1.79945e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.13709e-02\tAbsError: 5.67404e+14\n", - " Region: \"zone_1\"\tRelError: 2.78016e-02\tAbsError: 1.90673e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.77962e-02\tAbsError: 3.34161e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.38355e-06\tAbsError: 1.87332e-03\n", - " Region: \"zone_3\"\tRelError: 2.35693e-02\tAbsError: 5.67404e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.43611e-04\tAbsError: 2.82078e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.73004e-04\tAbsError: 2.85326e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.23473e-02\tAbsError: 3.37111e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.38683e-06\tAbsError: 1.87446e-03\n", - "Iteration: 19\n", - " Device: \"device\"\tRelError: 1.86653e-04\tAbsError: 4.07183e+10\n", - " Region: \"zone_1\"\tRelError: 1.95254e-05\tAbsError: 2.12148e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.94645e-05\tAbsError: 2.72481e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.09302e-08\tAbsError: 2.11876e-05\n", - " Region: \"zone_3\"\tRelError: 1.67128e-04\tAbsError: 4.07183e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.17871e-06\tAbsError: 2.36500e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.16021e-06\tAbsError: 1.70683e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.58728e-04\tAbsError: 2.76329e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.09443e-08\tAbsError: 2.11925e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 6.63798e-03\tAbsError: 4.90503e+12\n", - " Region: \"zone_1\"\tRelError: 2.29406e-04\tAbsError: 9.25474e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29140e-04\tAbsError: 1.97212e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.66464e-07\tAbsError: 9.23502e-05\n", - " Region: \"zone_3\"\tRelError: 6.40857e-03\tAbsError: 4.90503e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.34900e-06\tAbsError: 2.43347e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32522e-06\tAbsError: 2.47155e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 6.39263e-03\tAbsError: 1.99078e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.66498e-07\tAbsError: 9.23593e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.02141e-03\tAbsError: 1.23957e+11\n", - " Region: \"zone_1\"\tRelError: 5.52143e-04\tAbsError: 4.11028e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.52024e-04\tAbsError: 7.43261e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18138e-07\tAbsError: 4.10285e-05\n", - " Region: \"zone_3\"\tRelError: 4.69263e-04\tAbsError: 1.23957e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.58109e-06\tAbsError: 8.33431e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.49437e-06\tAbsError: 4.06143e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.50070e-04\tAbsError: 7.83274e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18138e-07\tAbsError: 4.10285e-05\n", - "Iteration: 20\n", - " Device: \"device\"\tRelError: 8.12376e-05\tAbsError: 2.03207e+10\n", - " Region: \"zone_1\"\tRelError: 8.42267e-06\tAbsError: 4.07956e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.41098e-06\tAbsError: 1.30852e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.16942e-08\tAbsError: 4.06647e-06\n", - " Region: \"zone_3\"\tRelError: 7.28149e-05\tAbsError: 2.03207e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.02463e-06\tAbsError: 1.17351e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.01039e-06\tAbsError: 8.58558e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 6.87682e-05\tAbsError: 1.32758e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.16959e-08\tAbsError: 4.06708e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 6.61737e+00\tAbsError: 3.31502e+14\n", - " Region: \"zone_1\"\tRelError: 5.14990e+00\tAbsError: 9.55443e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.14972e+00\tAbsError: 3.20824e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.82539e-04\tAbsError: 6.34619e-02\n", - " Region: \"zone_3\"\tRelError: 1.46747e+00\tAbsError: 3.31502e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.54810e-01\tAbsError: 1.62504e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.49659e-01\tAbsError: 1.68998e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.28163e-02\tAbsError: 3.20829e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.82539e-04\tAbsError: 6.34619e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:16\u001b[0m.\u001b[1;36m292\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.2\u001b[0m \n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.28947e-03\tAbsError: 1.46573e+13\n", - " Region: \"zone_1\"\tRelError: 7.23740e-04\tAbsError: 4.27408e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.11459e-04\tAbsError: 8.86431e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22814e-05\tAbsError: 4.27319e-03\n", - " Region: \"zone_3\"\tRelError: 1.56573e-03\tAbsError: 1.46573e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.92902e-05\tAbsError: 7.30178e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.04396e-05\tAbsError: 7.35548e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.42371e-03\tAbsError: 8.92429e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22868e-05\tAbsError: 4.27500e-03\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.25648e-03\tAbsError: 7.75715e+11\n", - " Region: \"zone_1\"\tRelError: 4.35799e-05\tAbsError: 3.84452e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.34694e-05\tAbsError: 2.84735e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10539e-07\tAbsError: 3.84167e-05\n", - " Region: \"zone_3\"\tRelError: 1.21290e-03\tAbsError: 7.75715e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28473e-06\tAbsError: 3.85060e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.13479e-06\tAbsError: 3.90655e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21037e-03\tAbsError: 2.87358e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10581e-07\tAbsError: 3.84313e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.30911e-04\tAbsError: 3.51442e+10\n", - " Region: \"zone_1\"\tRelError: 6.81885e-05\tAbsError: 6.92614e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.81687e-05\tAbsError: 3.42472e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.97989e-08\tAbsError: 6.89189e-06\n", - " Region: \"zone_3\"\tRelError: 6.27220e-05\tAbsError: 3.51442e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91737e-06\tAbsError: 1.11617e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.89123e-06\tAbsError: 2.39825e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.68936e-05\tAbsError: 3.42673e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.98072e-08\tAbsError: 6.89488e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.17677e+01\tAbsError: 4.26742e+13\n", - " Region: \"zone_1\"\tRelError: 1.07525e+01\tAbsError: 3.09210e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07525e+01\tAbsError: 2.58825e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.44922e-05\tAbsError: 5.03846e-03\n", - " Region: \"zone_3\"\tRelError: 1.01514e+00\tAbsError: 4.26742e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.66369e-01\tAbsError: 3.07350e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.34345e-01\tAbsError: 1.19392e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14412e-01\tAbsError: 2.58985e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.44922e-05\tAbsError: 5.03846e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.41093e-03\tAbsError: 2.89275e+13\n", - " Region: \"zone_1\"\tRelError: 1.11675e-03\tAbsError: 2.49108e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11604e-03\tAbsError: 1.27087e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.12326e-07\tAbsError: 2.47837e-04\n", - " Region: \"zone_3\"\tRelError: 2.29418e-03\tAbsError: 2.89275e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.03893e-05\tAbsError: 1.43939e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.44517e-05\tAbsError: 1.45336e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.23862e-03\tAbsError: 1.28225e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.12611e-07\tAbsError: 2.47936e-04\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 4.79935e-04\tAbsError: 3.06765e+11\n", - " Region: \"zone_1\"\tRelError: 1.66486e-05\tAbsError: 7.60779e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66267e-05\tAbsError: 1.06336e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18595e-08\tAbsError: 7.59715e-06\n", - " Region: \"zone_3\"\tRelError: 4.63286e-04\tAbsError: 3.06765e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.16909e-07\tAbsError: 1.52260e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.59699e-07\tAbsError: 1.54505e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.62288e-04\tAbsError: 1.07353e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18679e-08\tAbsError: 7.60017e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.15185e+01\tAbsError: 8.37847e+15\n", - " Region: \"zone_1\"\tRelError: 9.89198e+00\tAbsError: 4.09558e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.89198e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.56805e-09\tAbsError: 1.58847e-06\n", - " Region: \"zone_3\"\tRelError: 1.62652e+00\tAbsError: 8.37847e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69532e-01\tAbsError: 4.63620e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69461e-01\tAbsError: 3.74227e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.75319e-02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.56875e-09\tAbsError: 1.58872e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 4.91977e-05\tAbsError: 5.89586e+09\n", - " Region: \"zone_1\"\tRelError: 2.66095e-05\tAbsError: 1.68142e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.66047e-05\tAbsError: 3.56714e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.83123e-09\tAbsError: 1.67785e-06\n", - " Region: \"zone_3\"\tRelError: 2.25882e-05\tAbsError: 5.89586e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.48785e-07\tAbsError: 4.10020e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.43251e-07\tAbsError: 1.79565e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.16913e-05\tAbsError: 3.75397e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.83123e-09\tAbsError: 1.67785e-06\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.01824e-04\tAbsError: 5.91028e+10\n", - " Region: \"zone_1\"\tRelError: 3.53926e-06\tAbsError: 2.67115e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.53158e-06\tAbsError: 2.19844e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.67947e-09\tAbsError: 2.66896e-06\n", - " Region: \"zone_3\"\tRelError: 9.82849e-05\tAbsError: 5.91028e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.78782e-08\tAbsError: 2.93440e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.77169e-08\tAbsError: 2.97588e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 9.80917e-05\tAbsError: 2.22202e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.68243e-09\tAbsError: 2.67005e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:19\u001b[0m.\u001b[1;36m098\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.4\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Iteration: 3\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 6.47042e-01\tAbsError: 2.75951e+12\n", - " Region: \"zone_1\"\tRelError: 3.49194e-01\tAbsError: 1.42105e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.49185e-01\tAbsError: 1.08348e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.70970e-06\tAbsError: 3.37571e-03\n", - " Region: \"zone_3\"\tRelError: 2.97847e-01\tAbsError: 2.75951e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.21768e-01\tAbsError: 1.84052e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.86333e-02\tAbsError: 9.18991e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74362e-02\tAbsError: 1.08349e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.71049e-06\tAbsError: 3.37604e-03\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.90184e-04\tAbsError: 2.11388e+12\n", - " Region: \"zone_1\"\tRelError: 1.29224e-04\tAbsError: 1.96202e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28659e-04\tAbsError: 8.67060e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.64262e-07\tAbsError: 1.96115e-04\n", - " Region: \"zone_3\"\tRelError: 2.60960e-04\tAbsError: 2.11388e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.64631e-06\tAbsError: 1.05289e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.62600e-06\tAbsError: 1.06099e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.52124e-04\tAbsError: 8.74089e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.64306e-07\tAbsError: 1.96180e-04\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.94648e+00\tAbsError: 2.98429e+14\n", - " Region: \"zone_1\"\tRelError: 5.14524e-01\tAbsError: 9.09014e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.14351e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72976e-04\tAbsError: 6.01378e-02\n", - " Region: \"zone_3\"\tRelError: 1.43195e+00\tAbsError: 2.98429e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37879e-01\tAbsError: 1.45714e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32394e-01\tAbsError: 1.52716e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.15050e-02\tAbsError: 3.07641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72976e-04\tAbsError: 6.01378e-02\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 3.38300e-05\tAbsError: 2.01418e+10\n", - " Region: \"zone_1\"\tRelError: 1.17571e-06\tAbsError: 5.87640e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17402e-06\tAbsError: 7.44968e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.68869e-09\tAbsError: 5.86895e-07\n", - " Region: \"zone_3\"\tRelError: 3.26543e-05\tAbsError: 2.01418e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.37367e-08\tAbsError: 9.99956e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.02428e-08\tAbsError: 1.01422e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.25886e-05\tAbsError: 7.53080e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.68939e-09\tAbsError: 5.87154e-07\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 3.50846e-01\tAbsError: 2.76167e+12\n", - " Region: \"zone_1\"\tRelError: 2.75094e-01\tAbsError: 2.71980e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.75086e-01\tAbsError: 1.59945e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.82662e-06\tAbsError: 2.71820e-03\n", - " Region: \"zone_3\"\tRelError: 7.57513e-02\tAbsError: 2.76167e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.72956e-02\tAbsError: 1.69461e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.56368e-04\tAbsError: 1.06706e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.29152e-03\tAbsError: 1.67315e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.82662e-06\tAbsError: 2.71820e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.54222e-04\tAbsError: 1.61841e+12\n", - " Region: \"zone_1\"\tRelError: 8.49561e-05\tAbsError: 2.28110e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 8.48905e-05\tAbsError: 5.74698e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.56084e-08\tAbsError: 2.27536e-05\n", - " Region: \"zone_3\"\tRelError: 1.69266e-04\tAbsError: 1.61841e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.63777e-06\tAbsError: 8.05797e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.40478e-06\tAbsError: 8.12616e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66158e-04\tAbsError: 5.79789e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.56151e-08\tAbsError: 2.27557e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 8.62552e+00\tAbsError: 8.26510e+15\n", - " Region: \"zone_1\"\tRelError: 6.97719e+00\tAbsError: 4.09546e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.97719e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.33437e-10\tAbsError: 3.24924e-07\n", - " Region: \"zone_3\"\tRelError: 1.64833e+00\tAbsError: 8.26510e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69652e-01\tAbsError: 4.84454e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69632e-01\tAbsError: 3.42056e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09044e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.33825e-10\tAbsError: 3.25065e-07\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.04600e+00\tAbsError: 3.86292e+13\n", - " Region: \"zone_1\"\tRelError: 9.93313e-02\tAbsError: 3.04737e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.93181e-02\tAbsError: 2.58731e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32328e-05\tAbsError: 4.60065e-03\n", - " Region: \"zone_3\"\tRelError: 9.46666e-01\tAbsError: 3.86292e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39748e-01\tAbsError: 2.78671e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.98990e-01\tAbsError: 1.07621e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07914e-01\tAbsError: 2.56750e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32328e-05\tAbsError: 4.60065e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.89863e-05\tAbsError: 1.96107e+11\n", - " Region: \"zone_1\"\tRelError: 1.30703e-05\tAbsError: 1.19874e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.30359e-05\tAbsError: 6.55029e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.44566e-08\tAbsError: 1.19809e-05\n", - " Region: \"zone_3\"\tRelError: 2.59160e-05\tAbsError: 1.96107e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.50307e-07\tAbsError: 9.76926e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.96535e-07\tAbsError: 9.84147e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.53347e-05\tAbsError: 6.60584e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.44696e-08\tAbsError: 1.19854e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.21540e-02\tAbsError: 1.33312e+12\n", - " Region: \"zone_1\"\tRelError: 3.99726e-02\tAbsError: 1.24237e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.99723e-02\tAbsError: 1.87829e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.51481e-07\tAbsError: 1.22358e-04\n", - " Region: \"zone_3\"\tRelError: 2.18136e-03\tAbsError: 1.33312e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.72391e-04\tAbsError: 3.65392e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.72373e-04\tAbsError: 9.67731e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.83624e-03\tAbsError: 1.88227e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.51639e-07\tAbsError: 1.22416e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.56210e+00\tAbsError: 2.88655e+14\n", - " Region: \"zone_1\"\tRelError: 1.01850e-01\tAbsError: 8.11752e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01705e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.45044e-04\tAbsError: 5.04116e-02\n", - " Region: \"zone_3\"\tRelError: 1.46025e+00\tAbsError: 2.88655e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39145e-01\tAbsError: 2.10222e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.31918e-01\tAbsError: 7.84329e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.90395e-02\tAbsError: 3.07640e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.45044e-04\tAbsError: 5.04116e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.81932e-01\tAbsError: 3.51190e+12\n", - " Region: \"zone_1\"\tRelError: 1.43962e-02\tAbsError: 1.26244e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43862e-02\tAbsError: 9.16567e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.94829e-06\tAbsError: 3.45869e-03\n", - " Region: \"zone_3\"\tRelError: 2.67535e-01\tAbsError: 3.51190e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.10366e-01\tAbsError: 2.07282e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.20558e-02\tAbsError: 1.43908e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51034e-02\tAbsError: 9.16572e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.94829e-06\tAbsError: 3.45869e-03\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:22\u001b[0m.\u001b[1;36m730\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:22\u001b[0m.\u001b[1;36m762\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.15 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:22\u001b[0m.\u001b[1;36m807\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.06372e-02\tAbsError: 1.01202e+11\n", - " Region: \"zone_1\"\tRelError: 1.03031e-02\tAbsError: 7.97062e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03028e-02\tAbsError: 5.78857e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.29320e-07\tAbsError: 7.96483e-05\n", - " Region: \"zone_3\"\tRelError: 3.34143e-04\tAbsError: 1.01202e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.06734e-06\tAbsError: 7.37076e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.99097e-06\tAbsError: 2.74944e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.17855e-04\tAbsError: 6.08606e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.29419e-07\tAbsError: 7.96808e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.02466e+00\tAbsError: 6.04267e+13\n", - " Region: \"zone_1\"\tRelError: 7.18592e-02\tAbsError: 3.22577e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.18409e-02\tAbsError: 2.58878e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83272e-05\tAbsError: 6.36990e-03\n", - " Region: \"zone_3\"\tRelError: 9.52804e-01\tAbsError: 6.04267e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40508e-01\tAbsError: 3.80417e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.10167e-01\tAbsError: 2.23851e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02110e-01\tAbsError: 2.58991e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83272e-05\tAbsError: 6.36990e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.22422e-02\tAbsError: 3.50280e+12\n", - " Region: \"zone_1\"\tRelError: 6.27969e-03\tAbsError: 2.19297e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.27342e-03\tAbsError: 1.50745e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.27087e-06\tAbsError: 2.17790e-03\n", - " Region: \"zone_3\"\tRelError: 6.59626e-02\tAbsError: 3.50280e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.67825e-02\tAbsError: 2.11769e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.14375e-04\tAbsError: 1.38511e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.55939e-03\tAbsError: 1.55695e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.27087e-06\tAbsError: 2.17790e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.93466e+03\tAbsError: 4.31846e+18\n", - " Region: \"zone_1\"\tRelError: 4.28785e+01\tAbsError: 8.96716e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.28785e+01\tAbsError: 8.96714e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.33797e-10\tAbsError: 1.85521e-07\n", - " Region: \"zone_3\"\tRelError: 1.89179e+03\tAbsError: 4.31846e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.97606e+01\tAbsError: 2.12744e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.67832e+03\tAbsError: 2.19102e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 1.23706e+02\tAbsError: 8.96718e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.34021e-10\tAbsError: 1.85602e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:24\u001b[0m.\u001b[1;36m306\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:24\u001b[0m.\u001b[1;36m340\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.2 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:24\u001b[0m.\u001b[1;36m374\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.48710e-03\tAbsError: 7.36590e+10\n", - " Region: \"zone_1\"\tRelError: 5.30545e-03\tAbsError: 3.35547e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.30544e-03\tAbsError: 6.29646e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.45758e-09\tAbsError: 3.29250e-06\n", - " Region: \"zone_3\"\tRelError: 1.81652e-04\tAbsError: 7.36590e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.81848e-06\tAbsError: 3.00987e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.76295e-06\tAbsError: 4.35602e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.68061e-04\tAbsError: 6.32627e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.46257e-09\tAbsError: 3.29432e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.07050e-01\tAbsError: 1.83634e+13\n", - " Region: \"zone_1\"\tRelError: 2.24108e-02\tAbsError: 1.12606e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.24048e-02\tAbsError: 9.16557e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.02744e-06\tAbsError: 2.09499e-03\n", - " Region: \"zone_3\"\tRelError: 2.84640e-01\tAbsError: 1.83634e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.09245e-01\tAbsError: 8.86934e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.28005e-02\tAbsError: 9.49405e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.25878e-02\tAbsError: 9.16561e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.02994e-06\tAbsError: 2.09586e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.61558e-03\tAbsError: 1.05156e+12\n", - " Region: \"zone_1\"\tRelError: 2.24360e-04\tAbsError: 1.45747e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.23945e-04\tAbsError: 1.49317e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14382e-07\tAbsError: 1.44254e-04\n", - " Region: \"zone_3\"\tRelError: 1.39122e-03\tAbsError: 1.05156e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46581e-04\tAbsError: 2.71207e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.31751e-04\tAbsError: 7.80355e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11247e-03\tAbsError: 1.49728e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14543e-07\tAbsError: 1.44312e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.50213e+03\tAbsError: 3.74135e+18\n", - " Region: \"zone_1\"\tRelError: 7.43071e+02\tAbsError: 1.38094e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 7.43067e+02\tAbsError: 8.66949e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.73736e-03\tAbsError: 1.29425e+00\n", - " Region: \"zone_3\"\tRelError: 7.59056e+02\tAbsError: 3.74135e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.17794e+01\tAbsError: 1.84767e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.22112e+02\tAbsError: 1.89368e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 5.05161e+02\tAbsError: 8.66950e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.73959e-03\tAbsError: 1.29503e+00\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.17355e+03\tAbsError: 6.59676e+18\n", - " Region: \"zone_1\"\tRelError: 6.64406e+01\tAbsError: 9.11956e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.64406e+01\tAbsError: 9.11936e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.73494e-09\tAbsError: 1.99410e-06\n", - " Region: \"zone_3\"\tRelError: 3.10711e+03\tAbsError: 6.59676e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.29981e+03\tAbsError: 2.72828e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.70071e+02\tAbsError: 3.86847e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 2.37228e+02\tAbsError: 9.11941e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.73711e-09\tAbsError: 1.99490e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.40237e-04\tAbsError: 2.33681e+09\n", - " Region: \"zone_1\"\tRelError: 1.34744e-04\tAbsError: 4.22136e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.34732e-04\tAbsError: 1.29205e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.21388e-08\tAbsError: 4.22007e-06\n", - " Region: \"zone_3\"\tRelError: 5.49356e-06\tAbsError: 2.33681e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.26121e-07\tAbsError: 2.08101e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.01255e-07\tAbsError: 2.55800e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 5.05404e-06\tAbsError: 1.34731e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.21398e-08\tAbsError: 4.22050e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.39650e-02\tAbsError: 2.30731e+12\n", - " Region: \"zone_1\"\tRelError: 9.33244e-04\tAbsError: 2.05118e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 9.27371e-04\tAbsError: 1.17101e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.87337e-06\tAbsError: 2.03947e-03\n", - " Region: \"zone_3\"\tRelError: 6.30318e-02\tAbsError: 2.30731e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.63237e-02\tAbsError: 1.57438e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.61914e-04\tAbsError: 7.32926e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 6.34034e-03\tAbsError: 1.22701e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.87337e-06\tAbsError: 2.03947e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.04499e-04\tAbsError: 1.25308e+11\n", - " Region: \"zone_1\"\tRelError: 1.66230e-04\tAbsError: 5.88382e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66060e-04\tAbsError: 7.31658e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69192e-07\tAbsError: 5.87650e-05\n", - " Region: \"zone_3\"\tRelError: 4.38270e-04\tAbsError: 1.25308e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07352e-05\tAbsError: 8.57588e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.06397e-05\tAbsError: 3.95488e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.16726e-04\tAbsError: 7.69575e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69192e-07\tAbsError: 5.87650e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 8.70313e+02\tAbsError: 6.98288e+17\n", - " Region: \"zone_1\"\tRelError: 7.13997e+00\tAbsError: 4.22170e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 7.12815e+00\tAbsError: 8.34500e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18194e-02\tAbsError: 4.13825e+00\n", - " Region: \"zone_3\"\tRelError: 8.63173e+02\tAbsError: 6.98288e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.32959e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.43790e+02\tAbsError: 3.65329e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03717e+01\tAbsError: 8.34501e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18393e-02\tAbsError: 4.14504e+00\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.01380e+03\tAbsError: 5.64204e+18\n", - " Region: \"zone_1\"\tRelError: 6.11831e+02\tAbsError: 2.66745e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 6.11823e+02\tAbsError: 8.83465e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.46831e-03\tAbsError: 2.57910e+00\n", - " Region: \"zone_3\"\tRelError: 2.40196e+03\tAbsError: 5.64204e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.12311e+01\tAbsError: 2.38950e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.15827e+03\tAbsError: 3.25254e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 2.12453e+02\tAbsError: 8.83466e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.47165e-03\tAbsError: 2.58021e+00\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.18681e-04\tAbsError: 4.27046e+09\n", - " Region: \"zone_1\"\tRelError: 4.05794e-04\tAbsError: 1.53696e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 4.05793e-04\tAbsError: 3.17325e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.32608e-10\tAbsError: 1.50523e-07\n", - " Region: \"zone_3\"\tRelError: 1.28868e-05\tAbsError: 4.27046e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.78504e-07\tAbsError: 2.11621e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.75078e-07\tAbsError: 2.15425e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21327e-05\tAbsError: 3.18974e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.32784e-10\tAbsError: 1.50583e-07\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.79721e-03\tAbsError: 9.76589e+11\n", - " Region: \"zone_1\"\tRelError: 1.82738e-04\tAbsError: 8.39323e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82502e-04\tAbsError: 1.48235e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36874e-07\tAbsError: 8.24499e-05\n", - " Region: \"zone_3\"\tRelError: 1.61447e-03\tAbsError: 9.76589e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10820e-04\tAbsError: 2.51654e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.02342e-04\tAbsError: 7.24935e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40107e-03\tAbsError: 1.48793e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36983e-07\tAbsError: 8.24891e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.49542e-04\tAbsError: 5.25665e+10\n", - " Region: \"zone_1\"\tRelError: 3.67448e-05\tAbsError: 6.09103e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.67274e-05\tAbsError: 4.65424e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73630e-08\tAbsError: 6.04449e-06\n", - " Region: \"zone_3\"\tRelError: 1.12797e-04\tAbsError: 5.25665e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.87855e-06\tAbsError: 1.95403e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.83786e-06\tAbsError: 3.30263e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03063e-04\tAbsError: 4.67703e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73708e-08\tAbsError: 6.04733e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 9.68427e+01\tAbsError: 1.86271e+17\n", - " Region: \"zone_1\"\tRelError: 3.19685e+01\tAbsError: 7.04871e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.19667e+01\tAbsError: 7.98884e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.79029e-03\tAbsError: 6.24983e-01\n", - " Region: \"zone_3\"\tRelError: 6.48742e+01\tAbsError: 1.86271e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.17407e+01\tAbsError: 1.20464e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.64556e+00\tAbsError: 6.58076e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14861e+01\tAbsError: 7.98885e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.79151e-03\tAbsError: 6.25414e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 8.53782e+01\tAbsError: 6.84374e+17\n", - " Region: \"zone_1\"\tRelError: 8.96834e+00\tAbsError: 2.10334e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 8.96253e+00\tAbsError: 8.52529e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.81623e-03\tAbsError: 2.01809e+00\n", - " Region: \"zone_3\"\tRelError: 7.64098e+01\tAbsError: 6.84374e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.05667e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.42655e+01\tAbsError: 3.78707e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 3.31385e+01\tAbsError: 8.52530e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.81888e-03\tAbsError: 2.01893e+00\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.52688e-05\tAbsError: 1.17670e+08\n", - " Region: \"zone_1\"\tRelError: 2.46158e-05\tAbsError: 2.70500e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.46150e-05\tAbsError: 1.36432e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.77640e-10\tAbsError: 2.70364e-07\n", - " Region: \"zone_3\"\tRelError: 6.53080e-07\tAbsError: 1.17670e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28285e-08\tAbsError: 3.19578e+07\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.29513e-08\tAbsError: 8.57119e+07\n", - " Equation: \"PotentialEquation\"\tRelError: 6.26522e-07\tAbsError: 1.37295e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.77947e-10\tAbsError: 2.70471e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:29\u001b[0m.\u001b[1;36m061\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:29\u001b[0m.\u001b[1;36m061\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.3111111111111111\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.68582e-04\tAbsError: 6.39514e+10\n", - " Region: \"zone_1\"\tRelError: 3.10151e-05\tAbsError: 5.94800e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.08440e-05\tAbsError: 4.08298e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71164e-07\tAbsError: 5.94392e-05\n", - " Region: \"zone_3\"\tRelError: 2.37567e-04\tAbsError: 6.39514e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16150e-06\tAbsError: 5.01904e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.80228e-06\tAbsError: 1.37610e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29432e-04\tAbsError: 4.25523e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71229e-07\tAbsError: 5.94601e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.34624e-05\tAbsError: 4.93091e+09\n", - " Region: \"zone_1\"\tRelError: 6.39676e-06\tAbsError: 2.70524e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.38897e-06\tAbsError: 2.92934e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.78060e-09\tAbsError: 2.70231e-06\n", - " Region: \"zone_3\"\tRelError: 1.70656e-05\tAbsError: 4.93091e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.08419e-07\tAbsError: 3.64067e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.02781e-07\tAbsError: 1.29024e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.62466e-05\tAbsError: 3.07636e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.78100e-09\tAbsError: 2.70248e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:29\u001b[0m.\u001b[1;36m854\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:29\u001b[0m.\u001b[1;36m854\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.24667e+02\tAbsError: 9.36869e+16\n", - " Region: \"zone_1\"\tRelError: 3.44931e+01\tAbsError: 1.92933e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 3.44878e+01\tAbsError: 7.59482e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.32955e-03\tAbsError: 1.85338e+00\n", - " Region: \"zone_3\"\tRelError: 9.01736e+01\tAbsError: 9.36869e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 5.68542e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.07385e+01\tAbsError: 3.68327e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 4.29792e-01\tAbsError: 7.59483e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.33491e-03\tAbsError: 1.85518e+00\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Iteration: 3\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 3.86267e+01\tAbsError: 4.06209e+17\n", - " Region: \"zone_1\"\tRelError: 2.78038e+01\tAbsError: 4.45349e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78027e+01\tAbsError: 8.18705e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.04531e-03\tAbsError: 3.63478e-01\n", - " Region: \"zone_3\"\tRelError: 1.08229e+01\tAbsError: 4.06209e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.41059e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.98604e-01\tAbsError: 1.65150e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 8.23283e-01\tAbsError: 8.18706e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.04717e-03\tAbsError: 3.64135e-01\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.61549e-04\tAbsError: 5.47840e+10\n", - " Region: \"zone_1\"\tRelError: 1.81900e-05\tAbsError: 1.93945e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.81846e-05\tAbsError: 4.89694e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.43105e-09\tAbsError: 1.89048e-06\n", - " Region: \"zone_3\"\tRelError: 1.43359e-04\tAbsError: 5.47840e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.04114e-06\tAbsError: 2.20323e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.00674e-06\tAbsError: 3.27517e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35306e-04\tAbsError: 4.90033e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.43421e-09\tAbsError: 1.89162e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 8.12632e+01\tAbsError: 8.74680e+15\n", - " Region: \"zone_1\"\tRelError: 7.96020e+01\tAbsError: 4.20726e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.96020e+01\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.00346e-11\tAbsError: 2.43477e-08\n", - " Region: \"zone_3\"\tRelError: 1.66123e+00\tAbsError: 8.74680e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.79075e-01\tAbsError: 4.99947e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.79057e-01\tAbsError: 3.74732e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03096e-01\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.00563e-11\tAbsError: 2.43563e-08\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.28223e+02\tAbsError: 1.62795e+16\n", - " Region: \"zone_1\"\tRelError: 8.61338e-01\tAbsError: 1.70935e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 8.61052e-01\tAbsError: 7.15491e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.85874e-04\tAbsError: 9.93859e-02\n", - " Region: \"zone_3\"\tRelError: 4.27361e+02\tAbsError: 1.62795e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.54493e+01\tAbsError: 8.35436e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.99426e+02\tAbsError: 7.92518e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.48589e+00\tAbsError: 7.15491e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.88789e-04\tAbsError: 1.00396e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.06257e+02\tAbsError: 1.29604e+17\n", - " Region: \"zone_1\"\tRelError: 8.27554e+00\tAbsError: 8.69496e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 8.27327e+00\tAbsError: 7.81451e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.27537e-03\tAbsError: 7.91351e-01\n", - " Region: \"zone_3\"\tRelError: 9.79817e+01\tAbsError: 1.29604e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 6.52819e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.97255e+01\tAbsError: 6.43224e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 9.25384e+00\tAbsError: 7.81452e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.29060e-03\tAbsError: 7.96682e-01\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 9.54016e+00\tAbsError: 8.28773e+15\n", - " Region: \"zone_1\"\tRelError: 7.90066e+00\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.90066e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.70872e-10\tAbsError: 1.98738e-07\n", - " Region: \"zone_3\"\tRelError: 1.63951e+00\tAbsError: 8.28773e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69626e-01\tAbsError: 4.72857e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69607e-01\tAbsError: 3.55916e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00272e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.71136e-10\tAbsError: 1.98834e-07\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.55715e-06\tAbsError: 1.55371e+09\n", - " Region: \"zone_1\"\tRelError: 2.75443e-07\tAbsError: 3.15707e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.66361e-07\tAbsError: 7.16801e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.08162e-09\tAbsError: 3.15635e-06\n", - " Region: \"zone_3\"\tRelError: 2.28171e-06\tAbsError: 1.55371e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01860e-07\tAbsError: 1.23171e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.92720e-08\tAbsError: 3.21996e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 2.10150e-06\tAbsError: 7.37244e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.08225e-09\tAbsError: 3.15662e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.52304e+00\tAbsError: 3.22018e+14\n", - " Region: \"zone_1\"\tRelError: 1.04116e+00\tAbsError: 9.13945e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04099e+00\tAbsError: 3.20823e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70632e-04\tAbsError: 5.93121e-02\n", - " Region: \"zone_3\"\tRelError: 1.48187e+00\tAbsError: 3.22018e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.55212e-01\tAbsError: 1.88246e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.49817e-01\tAbsError: 1.33772e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.66716e-02\tAbsError: 3.20828e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70632e-04\tAbsError: 5.93121e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:32\u001b[0m.\u001b[1;36m265\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.5\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.86745e+03\tAbsError: 2.87021e+15\n", - " Region: \"zone_1\"\tRelError: 3.03999e-01\tAbsError: 2.78978e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.03388e-01\tAbsError: 6.65853e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.11336e-04\tAbsError: 2.12392e-01\n", - " Region: \"zone_3\"\tRelError: 1.86715e+03\tAbsError: 2.87021e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.52631e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.85800e+03\tAbsError: 1.34390e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.48187e-01\tAbsError: 6.65854e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.11343e-04\tAbsError: 2.12399e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.25853e+03\tAbsError: 3.72486e+16\n", - " Region: \"zone_1\"\tRelError: 3.40834e+01\tAbsError: 2.39711e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.40829e+01\tAbsError: 7.40072e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.76619e-04\tAbsError: 1.65703e-01\n", - " Region: \"zone_3\"\tRelError: 1.22445e+03\tAbsError: 3.72486e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.78015e+01\tAbsError: 2.61006e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.17550e+03\tAbsError: 1.11480e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15080e+00\tAbsError: 7.40073e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.80200e-04\tAbsError: 1.66948e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.57084e+00\tAbsError: 2.89575e+14\n", - " Region: \"zone_1\"\tRelError: 1.26543e-01\tAbsError: 8.72430e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.26381e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62480e-04\tAbsError: 5.64794e-02\n", - " Region: \"zone_3\"\tRelError: 1.44430e+00\tAbsError: 2.89575e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37983e-01\tAbsError: 1.66847e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32917e-01\tAbsError: 1.22728e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.32359e-02\tAbsError: 3.07641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62480e-04\tAbsError: 5.64794e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.74375e+00\tAbsError: 3.50039e+13\n", - " Region: \"zone_1\"\tRelError: 1.72509e+00\tAbsError: 3.20212e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72508e+00\tAbsError: 2.58927e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.76304e-05\tAbsError: 6.12847e-03\n", - " Region: \"zone_3\"\tRelError: 1.01866e+00\tAbsError: 3.50039e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.66614e-01\tAbsError: 2.50578e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.37869e-01\tAbsError: 9.94603e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14160e-01\tAbsError: 2.58952e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.76304e-05\tAbsError: 6.12847e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.44671e+02\tAbsError: 8.23352e+15\n", - " Region: \"zone_1\"\tRelError: 5.43003e+02\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.43003e+02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.11266e-10\tAbsError: 1.43080e-07\n", - " Region: \"zone_3\"\tRelError: 1.66763e+00\tAbsError: 8.23352e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.84587e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69628e-01\tAbsError: 3.38765e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28340e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.11422e-10\tAbsError: 1.43134e-07\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.36319e+03\tAbsError: 1.41269e+15\n", - " Region: \"zone_1\"\tRelError: 1.28924e-01\tAbsError: 8.79199e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28846e-01\tAbsError: 6.09159e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.78481e-05\tAbsError: 2.70040e-02\n", - " Region: \"zone_3\"\tRelError: 5.36306e+03\tAbsError: 1.41269e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.92653e+01\tAbsError: 8.02764e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.34320e+03\tAbsError: 6.09927e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.90596e-01\tAbsError: 6.09160e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.79397e-05\tAbsError: 2.70349e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.81425e+03\tAbsError: 1.18091e+16\n", - " Region: \"zone_1\"\tRelError: 1.10058e+00\tAbsError: 3.95698e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09964e+00\tAbsError: 6.93658e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.39571e-04\tAbsError: 3.26332e-01\n", - " Region: \"zone_3\"\tRelError: 4.81315e+03\tAbsError: 1.18091e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01697e+03\tAbsError: 7.05124e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.79600e+03\tAbsError: 4.75788e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.79744e-01\tAbsError: 6.93660e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.39571e-04\tAbsError: 3.26332e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.08933e+00\tAbsError: 3.08258e+13\n", - " Region: \"zone_1\"\tRelError: 1.39766e-01\tAbsError: 3.14532e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39750e-01\tAbsError: 2.58726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60540e-05\tAbsError: 5.58058e-03\n", - " Region: \"zone_3\"\tRelError: 9.49568e-01\tAbsError: 3.08258e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40223e-01\tAbsError: 2.27975e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.01508e-01\tAbsError: 8.02831e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07820e-01\tAbsError: 2.58966e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60540e-05\tAbsError: 5.58058e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 6.75308e-01\tAbsError: 5.34944e+12\n", - " Region: \"zone_1\"\tRelError: 3.72814e-01\tAbsError: 1.35368e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.72806e-01\tAbsError: 1.08347e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.77327e-06\tAbsError: 2.70212e-03\n", - " Region: \"zone_3\"\tRelError: 3.02494e-01\tAbsError: 5.34944e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.21510e-01\tAbsError: 2.69650e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.93876e-02\tAbsError: 2.65294e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.15883e-02\tAbsError: 1.08348e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.77635e-06\tAbsError: 2.70319e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 4.93663e+00\tAbsError: 6.37428e+14\n", - " Region: \"zone_1\"\tRelError: 3.46019e+00\tAbsError: 7.21476e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.46007e+00\tAbsError: 3.07635e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", - " Region: \"zone_3\"\tRelError: 1.47644e+00\tAbsError: 6.37428e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.40577e-01\tAbsError: 3.72575e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.27797e-01\tAbsError: 2.64853e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07947e-01\tAbsError: 3.07638e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 5.84846e+03\tAbsError: 3.44554e+14\n", - " Region: \"zone_1\"\tRelError: 8.59110e-02\tAbsError: 9.29740e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.57997e-02\tAbsError: 5.43522e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11333e-04\tAbsError: 3.86218e-02\n", - " Region: \"zone_3\"\tRelError: 5.84837e+03\tAbsError: 3.44554e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.83124e+01\tAbsError: 2.76436e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.77997e+03\tAbsError: 3.16910e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.03843e-02\tAbsError: 5.43523e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11353e-04\tAbsError: 3.86287e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.67664e+03\tAbsError: 3.86757e+15\n", - " Region: \"zone_1\"\tRelError: 2.88309e-01\tAbsError: 8.78439e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88240e-01\tAbsError: 6.41007e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.84844e-05\tAbsError: 2.37431e-02\n", - " Region: \"zone_3\"\tRelError: 3.67636e+03\tAbsError: 3.86757e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.51609e+03\tAbsError: 1.51784e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.15956e+03\tAbsError: 2.34973e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.09194e-01\tAbsError: 6.41009e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.84844e-05\tAbsError: 2.37431e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.94758e-01\tAbsError: 4.98642e+12\n", - " Region: \"zone_1\"\tRelError: 2.19383e-02\tAbsError: 1.22221e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.19295e-02\tAbsError: 9.16564e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.79291e-06\tAbsError: 3.05651e-03\n", - " Region: \"zone_3\"\tRelError: 2.72820e-01\tAbsError: 4.98642e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12699e-01\tAbsError: 2.77867e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.23181e-02\tAbsError: 2.20775e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77940e-02\tAbsError: 9.16568e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.79389e-06\tAbsError: 3.05683e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.07127e-01\tAbsError: 2.27621e+12\n", - " Region: \"zone_1\"\tRelError: 1.32025e-01\tAbsError: 2.29999e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.32018e-01\tAbsError: 2.64450e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.61552e-06\tAbsError: 2.29735e-03\n", - " Region: \"zone_3\"\tRelError: 7.51022e-02\tAbsError: 2.27621e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.73929e-02\tAbsError: 1.51862e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.96700e-04\tAbsError: 7.57587e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 7.50600e-03\tAbsError: 2.76514e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.61552e-06\tAbsError: 2.29735e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.95431e+00\tAbsError: 2.96317e+14\n", - " Region: \"zone_1\"\tRelError: 2.00902e+00\tAbsError: 3.34445e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.00900e+00\tAbsError: 2.58782e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", - " Region: \"zone_3\"\tRelError: 9.45295e-01\tAbsError: 2.96317e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42034e-01\tAbsError: 1.59420e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.10683e-01\tAbsError: 1.36896e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.25558e-02\tAbsError: 2.58843e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 3.07717e+02\tAbsError: 3.41972e+14\n", - " Region: \"zone_1\"\tRelError: 6.25182e-02\tAbsError: 9.04306e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.23920e-02\tAbsError: 4.66459e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26199e-04\tAbsError: 4.37847e-02\n", - " Region: \"zone_3\"\tRelError: 3.07654e+02\tAbsError: 3.41972e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.13248e+01\tAbsError: 9.78065e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.26263e+02\tAbsError: 3.32191e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.61212e-02\tAbsError: 4.66461e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26284e-04\tAbsError: 4.38139e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.45779e+02\tAbsError: 4.88724e+14\n", - " Region: \"zone_1\"\tRelError: 1.11637e-01\tAbsError: 1.12494e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11480e-01\tAbsError: 5.80508e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.57017e-04\tAbsError: 5.44434e-02\n", - " Region: \"zone_3\"\tRelError: 3.45668e+02\tAbsError: 4.88724e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.41490e+02\tAbsError: 7.86476e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.04063e+02\tAbsError: 4.10076e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14659e-01\tAbsError: 5.80510e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.57017e-04\tAbsError: 5.44434e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.73338e-02\tAbsError: 3.09182e+12\n", - " Region: \"zone_1\"\tRelError: 1.11598e-02\tAbsError: 1.65988e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11551e-02\tAbsError: 1.42279e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73882e-06\tAbsError: 1.64565e-03\n", - " Region: \"zone_3\"\tRelError: 6.61739e-02\tAbsError: 3.09182e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.71921e-02\tAbsError: 1.98622e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.49402e-04\tAbsError: 1.10560e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.42774e-03\tAbsError: 1.50865e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73882e-06\tAbsError: 1.64565e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.83620e-02\tAbsError: 1.13870e+12\n", - " Region: \"zone_1\"\tRelError: 2.64653e-02\tAbsError: 1.04782e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.64650e-02\tAbsError: 1.67776e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.96193e-07\tAbsError: 1.03104e-04\n", - " Region: \"zone_3\"\tRelError: 1.89667e-03\tAbsError: 1.13870e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.35343e-04\tAbsError: 3.09668e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.32169e-04\tAbsError: 8.29034e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.62887e-03\tAbsError: 1.68368e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.96330e-07\tAbsError: 1.03153e-04\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.90232e-01\tAbsError: 1.27257e+14\n", - " Region: \"zone_1\"\tRelError: 2.88169e-01\tAbsError: 1.34324e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88157e-01\tAbsError: 9.16559e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22923e-05\tAbsError: 4.26682e-03\n", - " Region: \"zone_3\"\tRelError: 3.02062e-01\tAbsError: 1.27257e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98145e-01\tAbsError: 5.59682e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.53461e-02\tAbsError: 7.12890e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.85587e-02\tAbsError: 9.16563e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22942e-05\tAbsError: 4.26755e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.39393e+02\tAbsError: 3.64933e+14\n", - " Region: \"zone_1\"\tRelError: 4.82703e-02\tAbsError: 9.42476e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.81068e-02\tAbsError: 3.75039e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.63524e-04\tAbsError: 5.67437e-02\n", - " Region: \"zone_3\"\tRelError: 3.39345e+02\tAbsError: 3.64933e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.35286e+02\tAbsError: 1.87521e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.00945e+00\tAbsError: 3.46181e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.85698e-02\tAbsError: 3.75040e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.63606e-04\tAbsError: 5.67717e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.63763e+03\tAbsError: 7.31087e+14\n", - " Region: \"zone_1\"\tRelError: 8.64629e-02\tAbsError: 1.00303e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 8.63208e-02\tAbsError: 5.10011e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42170e-04\tAbsError: 4.93021e-02\n", - " Region: \"zone_3\"\tRelError: 1.63754e+03\tAbsError: 7.31087e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52841e+03\tAbsError: 1.45596e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.09042e+02\tAbsError: 5.85492e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.90210e-02\tAbsError: 5.10013e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42351e-04\tAbsError: 4.93655e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.35940e-03\tAbsError: 7.91644e+11\n", - " Region: \"zone_1\"\tRelError: 6.17001e-04\tAbsError: 1.42075e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.16596e-04\tAbsError: 1.18665e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.04748e-07\tAbsError: 1.40888e-04\n", - " Region: \"zone_3\"\tRelError: 7.42401e-04\tAbsError: 7.91644e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.00211e-04\tAbsError: 1.88344e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.60094e-05\tAbsError: 6.03301e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.55776e-04\tAbsError: 1.18974e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.04912e-07\tAbsError: 1.40947e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.97427e-03\tAbsError: 8.34481e+10\n", - " Region: \"zone_1\"\tRelError: 4.68156e-03\tAbsError: 6.81964e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.68136e-03\tAbsError: 4.94587e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.96225e-07\tAbsError: 6.81469e-05\n", - " Region: \"zone_3\"\tRelError: 2.92716e-04\tAbsError: 8.34481e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.82298e-06\tAbsError: 6.22948e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.70009e-06\tAbsError: 2.11533e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.80996e-04\tAbsError: 5.18395e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.96320e-07\tAbsError: 6.81781e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.38373e+00\tAbsError: 3.54714e+14\n", - " Region: \"zone_1\"\tRelError: 3.50043e-02\tAbsError: 1.00946e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.47904e-02\tAbsError: 2.67289e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.13833e-04\tAbsError: 7.42170e-02\n", - " Region: \"zone_3\"\tRelError: 1.34873e+00\tAbsError: 3.54714e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.91995e-01\tAbsError: 2.17117e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.20831e-01\tAbsError: 3.33002e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.56862e-02\tAbsError: 2.67290e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.13916e-04\tAbsError: 7.42453e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.81369e-01\tAbsError: 1.65118e+13\n", - " Region: \"zone_1\"\tRelError: 1.13683e-01\tAbsError: 2.48930e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13676e-01\tAbsError: 7.97182e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", - " Region: \"zone_3\"\tRelError: 6.76863e-02\tAbsError: 1.65118e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.50220e-02\tAbsError: 9.05581e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.84537e-03\tAbsError: 7.45604e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 9.81196e-03\tAbsError: 8.36703e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 5.75527e+03\tAbsError: 5.86973e+14\n", - " Region: \"zone_1\"\tRelError: 6.49389e-02\tAbsError: 1.06630e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 6.47545e-02\tAbsError: 4.26777e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84381e-04\tAbsError: 6.39523e-02\n", - " Region: \"zone_3\"\tRelError: 5.75521e+03\tAbsError: 5.86973e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.71637e+01\tAbsError: 2.47136e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.72798e+03\tAbsError: 5.62259e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.66210e-02\tAbsError: 4.26779e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84600e-04\tAbsError: 6.40289e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.02141e-03\tAbsError: 1.23957e+11\n", - " Region: \"zone_1\"\tRelError: 5.52143e-04\tAbsError: 4.11028e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.52024e-04\tAbsError: 7.43261e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18138e-07\tAbsError: 4.10285e-05\n", - " Region: \"zone_3\"\tRelError: 4.69263e-04\tAbsError: 1.23957e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.58109e-06\tAbsError: 8.33431e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.49437e-06\tAbsError: 4.06142e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.50070e-04\tAbsError: 7.83274e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18138e-07\tAbsError: 4.10285e-05\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 4.33255e+03\tAbsError: 2.74718e+14\n", - " Region: \"zone_1\"\tRelError: 2.38298e-02\tAbsError: 1.14096e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.35589e-02\tAbsError: 2.00642e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.70849e-04\tAbsError: 9.40316e-02\n", - " Region: \"zone_3\"\tRelError: 4.33253e+03\tAbsError: 2.74718e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.33248e+03\tAbsError: 1.69273e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.25127e-02\tAbsError: 2.57791e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.29273e-02\tAbsError: 2.00645e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.70968e-04\tAbsError: 9.40723e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.67864e-03\tAbsError: 6.31615e+10\n", - " Region: \"zone_1\"\tRelError: 2.51673e-03\tAbsError: 2.73456e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.51673e-03\tAbsError: 5.64919e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.69330e-09\tAbsError: 2.67806e-06\n", - " Region: \"zone_3\"\tRelError: 1.61905e-04\tAbsError: 6.31615e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.20270e-06\tAbsError: 2.57065e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.15754e-06\tAbsError: 3.74550e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51537e-04\tAbsError: 5.65377e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.69772e-09\tAbsError: 2.67968e-06\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 5.40516e+00\tAbsError: 6.10838e+14\n", - " Region: \"zone_1\"\tRelError: 4.60821e-02\tAbsError: 1.19505e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.58322e-02\tAbsError: 3.27970e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.49925e-04\tAbsError: 8.67077e-02\n", - " Region: \"zone_3\"\tRelError: 5.35908e+00\tAbsError: 6.10838e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.31178e+00\tAbsError: 4.37441e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.99602e-01\tAbsError: 5.67094e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.74406e-02\tAbsError: 3.27973e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.50164e-04\tAbsError: 8.67915e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 7.11615e-03\tAbsError: 1.08851e+12\n", - " Region: \"zone_1\"\tRelError: 5.30759e-03\tAbsError: 1.67972e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.30711e-03\tAbsError: 1.45981e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", - " Region: \"zone_3\"\tRelError: 1.80856e-03\tAbsError: 1.08851e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43945e-04\tAbsError: 2.92186e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.94756e-05\tAbsError: 7.96320e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.56466e-03\tAbsError: 1.47422e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.30911e-04\tAbsError: 3.51442e+10\n", - " Region: \"zone_1\"\tRelError: 6.81885e-05\tAbsError: 6.92614e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.81687e-05\tAbsError: 3.42472e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.97989e-08\tAbsError: 6.89189e-06\n", - " Region: \"zone_3\"\tRelError: 6.27220e-05\tAbsError: 3.51442e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91737e-06\tAbsError: 1.11617e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.89123e-06\tAbsError: 2.39825e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.68936e-05\tAbsError: 3.42673e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.98072e-08\tAbsError: 6.89488e-06\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 1.03113e+00\tAbsError: 2.11035e+14\n", - " Region: \"zone_1\"\tRelError: 4.04265e-03\tAbsError: 1.72589e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.54660e-03\tAbsError: 2.89536e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.96045e-04\tAbsError: 1.72299e-01\n", - " Region: \"zone_3\"\tRelError: 1.02709e+00\tAbsError: 2.11035e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99308e-01\tAbsError: 2.04510e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.65242e-02\tAbsError: 1.90584e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07609e-02\tAbsError: 2.94824e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.96237e-04\tAbsError: 1.72365e-01\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 4.64188e+00\tAbsError: 5.33011e+14\n", - " Region: \"zone_1\"\tRelError: 3.16465e-02\tAbsError: 1.40911e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.13151e-02\tAbsError: 2.58757e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.31467e-04\tAbsError: 1.15036e-01\n", - " Region: \"zone_3\"\tRelError: 4.61023e+00\tAbsError: 5.33011e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.05862e+00\tAbsError: 2.76173e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.10894e-01\tAbsError: 5.05394e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.03797e-02\tAbsError: 2.47844e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.31761e-04\tAbsError: 1.15139e-01\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.97090e-05\tAbsError: 1.87629e+09\n", - " Region: \"zone_1\"\tRelError: 6.53617e-05\tAbsError: 3.62362e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.53512e-05\tAbsError: 1.06367e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.04217e-08\tAbsError: 3.62255e-06\n", - " Region: \"zone_3\"\tRelError: 4.34737e-06\tAbsError: 1.87629e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.54714e-07\tAbsError: 1.70496e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.24511e-07\tAbsError: 1.71327e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 4.05772e-06\tAbsError: 1.10499e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.04226e-08\tAbsError: 3.62292e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:42\u001b[0m.\u001b[1;36m078\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:42\u001b[0m.\u001b[1;36m078\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.41666666666666674\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.59900e-03\tAbsError: 1.40711e+11\n", - " Region: \"zone_1\"\tRelError: 2.06948e-03\tAbsError: 6.41578e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06929e-03\tAbsError: 9.09489e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84503e-07\tAbsError: 6.40668e-05\n", - " Region: \"zone_3\"\tRelError: 5.29527e-04\tAbsError: 1.40711e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.39801e-06\tAbsError: 9.47438e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.30618e-06\tAbsError: 4.59674e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.12638e-04\tAbsError: 9.48359e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84568e-07\tAbsError: 6.40878e-05\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 2.12961e-01\tAbsError: 8.84450e+13\n", - " Region: \"zone_1\"\tRelError: 2.03827e-02\tAbsError: 1.35383e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03791e-02\tAbsError: 1.10127e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.57224e-06\tAbsError: 1.24370e-03\n", - " Region: \"zone_3\"\tRelError: 1.92578e-01\tAbsError: 8.84450e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.20762e-02\tAbsError: 2.90584e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.23302e-02\tAbsError: 5.93866e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.68168e-01\tAbsError: 1.11435e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.57397e-06\tAbsError: 1.24433e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 4.91977e-05\tAbsError: 5.89586e+09\n", - " Region: \"zone_1\"\tRelError: 2.66095e-05\tAbsError: 1.68142e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.66047e-05\tAbsError: 3.56714e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.83123e-09\tAbsError: 1.67785e-06\n", - " Region: \"zone_3\"\tRelError: 2.25882e-05\tAbsError: 5.89586e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.48785e-07\tAbsError: 4.10020e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.43251e-07\tAbsError: 1.79565e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.16913e-05\tAbsError: 3.75397e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.83123e-09\tAbsError: 1.67785e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:42\u001b[0m.\u001b[1;36m945\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.4\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 8.88594e-01\tAbsError: 7.19301e+14\n", - " Region: \"zone_1\"\tRelError: 1.39066e-02\tAbsError: 2.06684e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.38812e-02\tAbsError: 1.18261e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.54789e-05\tAbsError: 8.84230e-03\n", - " Region: \"zone_3\"\tRelError: 8.74688e-01\tAbsError: 7.19301e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.37645e-01\tAbsError: 1.89617e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.54753e-03\tAbsError: 7.00339e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33469e-01\tAbsError: 1.18264e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.54789e-05\tAbsError: 8.84230e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 6.84757e-04\tAbsError: 5.79873e+10\n", - " Region: \"zone_1\"\tRelError: 5.39232e-04\tAbsError: 6.69464e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.39213e-04\tAbsError: 4.49143e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91058e-08\tAbsError: 6.64972e-06\n", - " Region: \"zone_3\"\tRelError: 1.45525e-04\tAbsError: 5.79873e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.71562e-06\tAbsError: 2.34463e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.68397e-06\tAbsError: 3.45410e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.38106e-04\tAbsError: 4.56915e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91137e-08\tAbsError: 6.65261e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.42976e+01\tAbsError: 8.72124e+15\n", - " Region: \"zone_1\"\tRelError: 1.26250e+01\tAbsError: 4.20728e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.26250e+01\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.97298e-10\tAbsError: 1.38229e-07\n", - " Region: \"zone_3\"\tRelError: 1.67260e+00\tAbsError: 8.72124e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.79100e-01\tAbsError: 5.12249e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.79079e-01\tAbsError: 3.59874e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14421e-01\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.97458e-10\tAbsError: 1.38283e-07\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 1.29054e-02\tAbsError: 9.55991e+11\n", - " Region: \"zone_1\"\tRelError: 1.34678e-03\tAbsError: 5.73063e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33028e-03\tAbsError: 1.08229e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.64949e-05\tAbsError: 5.72955e-03\n", - " Region: \"zone_3\"\tRelError: 1.15586e-02\tAbsError: 9.55991e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.52563e-04\tAbsError: 6.37238e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.02234e-04\tAbsError: 3.18753e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08873e-02\tAbsError: 1.11346e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.64949e-05\tAbsError: 5.72955e-03\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 4.48439e-01\tAbsError: 7.38740e+14\n", - " Region: \"zone_1\"\tRelError: 1.96172e-02\tAbsError: 2.97738e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87611e-02\tAbsError: 3.63461e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.56135e-04\tAbsError: 2.97374e-01\n", - " Region: \"zone_3\"\tRelError: 4.28822e-01\tAbsError: 7.38740e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.97195e-01\tAbsError: 1.33763e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.37804e-02\tAbsError: 7.25364e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.16989e-01\tAbsError: 3.77506e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.57649e-04\tAbsError: 2.97894e-01\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 8.62552e+00\tAbsError: 8.26510e+15\n", - " Region: \"zone_1\"\tRelError: 6.97719e+00\tAbsError: 4.09546e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.97719e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.33437e-10\tAbsError: 3.24924e-07\n", - " Region: \"zone_3\"\tRelError: 1.64833e+00\tAbsError: 8.26510e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69652e-01\tAbsError: 4.84454e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69632e-01\tAbsError: 3.42056e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09044e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.33825e-10\tAbsError: 3.25065e-07\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.02364e-04\tAbsError: 5.62247e+09\n", - " Region: \"zone_1\"\tRelError: 8.15379e-05\tAbsError: 3.03368e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.15291e-05\tAbsError: 3.57289e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.71937e-09\tAbsError: 3.03011e-06\n", - " Region: \"zone_3\"\tRelError: 2.08260e-05\tAbsError: 5.62247e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.14319e-07\tAbsError: 4.05600e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.09034e-07\tAbsError: 1.56647e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.01939e-05\tAbsError: 3.71851e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.71944e-09\tAbsError: 3.03019e-06\n", - "Iteration: 16\n", - " Device: \"device\"\tRelError: 1.77629e-02\tAbsError: 5.59565e+12\n", - " Region: \"zone_1\"\tRelError: 1.81038e-03\tAbsError: 4.29761e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.80916e-03\tAbsError: 4.24509e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22368e-06\tAbsError: 4.25516e-04\n", - " Region: \"zone_3\"\tRelError: 1.59525e-02\tAbsError: 5.59565e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.73694e-04\tAbsError: 2.63052e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.69913e-04\tAbsError: 2.96513e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.48076e-02\tAbsError: 4.30437e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22409e-06\tAbsError: 4.25659e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.79975e+00\tAbsError: 3.41396e+14\n", - " Region: \"zone_1\"\tRelError: 3.00576e-01\tAbsError: 8.44197e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.00425e-01\tAbsError: 3.20823e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.50589e-04\tAbsError: 5.23374e-02\n", - " Region: \"zone_3\"\tRelError: 1.49918e+00\tAbsError: 3.41396e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.56115e-01\tAbsError: 2.48707e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.49187e-01\tAbsError: 9.26885e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.37238e-02\tAbsError: 3.20827e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.50589e-04\tAbsError: 5.23374e-02\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 3.78632e-01\tAbsError: 1.54781e+14\n", - " Region: \"zone_1\"\tRelError: 3.64972e-02\tAbsError: 4.47239e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.64849e-02\tAbsError: 1.90602e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22982e-05\tAbsError: 4.28179e-03\n", - " Region: \"zone_3\"\tRelError: 3.42135e-01\tAbsError: 1.54781e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.13118e-02\tAbsError: 5.14808e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.12130e-02\tAbsError: 1.03300e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.99598e-01\tAbsError: 1.92876e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.23055e-05\tAbsError: 4.28442e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.56210e+00\tAbsError: 2.88655e+14\n", - " Region: \"zone_1\"\tRelError: 1.01850e-01\tAbsError: 8.11752e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01705e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.45044e-04\tAbsError: 5.04116e-02\n", - " Region: \"zone_3\"\tRelError: 1.46025e+00\tAbsError: 2.88655e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39145e-01\tAbsError: 2.10222e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.31918e-01\tAbsError: 7.84329e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.90395e-02\tAbsError: 3.07640e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.45044e-04\tAbsError: 5.04116e-02\n", - "Iteration: 17\n", - " Device: \"device\"\tRelError: 2.03335e-03\tAbsError: 3.99942e+11\n", - " Region: \"zone_1\"\tRelError: 2.13959e-04\tAbsError: 3.73601e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.12885e-04\tAbsError: 2.93620e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.07360e-06\tAbsError: 3.73308e-04\n", - " Region: \"zone_3\"\tRelError: 1.81940e-03\tAbsError: 3.99942e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.25123e-05\tAbsError: 2.20324e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.23710e-05\tAbsError: 1.79618e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.73344e-03\tAbsError: 2.97698e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.07395e-06\tAbsError: 3.73446e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.62672e-05\tAbsError: 3.10481e+09\n", - " Region: \"zone_1\"\tRelError: 3.66806e-05\tAbsError: 2.21724e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 3.66799e-05\tAbsError: 2.06476e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.31104e-10\tAbsError: 2.19659e-07\n", - " Region: \"zone_3\"\tRelError: 9.58660e-06\tAbsError: 3.10481e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88628e-07\tAbsError: 1.51763e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.86687e-07\tAbsError: 1.58718e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 9.21065e-06\tAbsError: 2.10348e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.31398e-10\tAbsError: 2.19764e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:46\u001b[0m.\u001b[1;36m504\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.6\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 16\n", - " Device: \"device\"\tRelError: 3.05940e-02\tAbsError: 3.26270e+12\n", - " Region: \"zone_1\"\tRelError: 3.18240e-03\tAbsError: 1.00464e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.15349e-03\tAbsError: 2.83329e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.89147e-05\tAbsError: 1.00436e-02\n", - " Region: \"zone_3\"\tRelError: 2.74116e-02\tAbsError: 3.26270e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.15392e-04\tAbsError: 2.40672e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.40622e-04\tAbsError: 8.55981e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.62267e-02\tAbsError: 2.91021e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.89147e-05\tAbsError: 1.00436e-02\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.09917e+00\tAbsError: 7.91798e+13\n", - " Region: \"zone_1\"\tRelError: 7.82475e-02\tAbsError: 3.30055e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.82269e-02\tAbsError: 2.58549e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.05740e-05\tAbsError: 7.15067e-03\n", - " Region: \"zone_3\"\tRelError: 1.02092e+00\tAbsError: 7.91798e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.67275e-01\tAbsError: 4.71969e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.46242e-01\tAbsError: 3.19828e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07381e-01\tAbsError: 2.58736e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.05740e-05\tAbsError: 7.15067e-03\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 18\n", - " Device: \"device\"\tRelError: 1.34362e-03\tAbsError: 3.65764e+11\n", - " Region: \"zone_1\"\tRelError: 1.38561e-04\tAbsError: 5.07671e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.38416e-04\tAbsError: 2.46873e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.45284e-07\tAbsError: 5.05202e-05\n", - " Region: \"zone_3\"\tRelError: 1.20506e-03\tAbsError: 3.65764e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.63771e-05\tAbsError: 1.97641e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.61145e-05\tAbsError: 1.68123e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13242e-03\tAbsError: 2.50412e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.45318e-07\tAbsError: 5.05322e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.02466e+00\tAbsError: 6.04267e+13\n", - " Region: \"zone_1\"\tRelError: 7.18592e-02\tAbsError: 3.22577e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.18409e-02\tAbsError: 2.58878e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83272e-05\tAbsError: 6.36990e-03\n", - " Region: \"zone_3\"\tRelError: 9.52804e-01\tAbsError: 6.04267e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40508e-01\tAbsError: 3.80417e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.10167e-01\tAbsError: 2.23851e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02110e-01\tAbsError: 2.58991e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83272e-05\tAbsError: 6.36990e-03\n", - "Iteration: 17\n", - " Device: \"device\"\tRelError: 3.17501e-02\tAbsError: 9.87378e+12\n", - " Region: \"zone_1\"\tRelError: 3.24279e-03\tAbsError: 8.49203e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.24037e-03\tAbsError: 7.44208e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.42070e-06\tAbsError: 8.41761e-04\n", - " Region: \"zone_3\"\tRelError: 2.85073e-02\tAbsError: 9.87378e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01026e-03\tAbsError: 4.68266e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.00374e-03\tAbsError: 5.19113e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.64909e-02\tAbsError: 7.54644e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.42111e-06\tAbsError: 8.41906e-04\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.53006e-01\tAbsError: 2.85325e+13\n", - " Region: \"zone_1\"\tRelError: 3.17735e-02\tAbsError: 1.33835e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.17662e-02\tAbsError: 1.08347e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.33375e-06\tAbsError: 2.54883e-03\n", - " Region: \"zone_3\"\tRelError: 3.21233e-01\tAbsError: 2.85325e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.19887e-01\tAbsError: 1.38532e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.34008e-02\tAbsError: 1.46793e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.79373e-02\tAbsError: 1.08348e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.33696e-06\tAbsError: 2.54999e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.94073e+01\tAbsError: 8.32958e+15\n", - " Region: \"zone_1\"\tRelError: 1.77016e+01\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77016e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.06764e-10\tAbsError: 1.76108e-07\n", - " Region: \"zone_3\"\tRelError: 1.70569e+00\tAbsError: 8.32958e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69637e-01\tAbsError: 4.59097e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69532e-01\tAbsError: 3.73860e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66519e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.06930e-10\tAbsError: 1.76171e-07\n", - "Iteration: 19\n", - " Device: \"device\"\tRelError: 2.19620e-04\tAbsError: 4.76128e+10\n", - " Region: \"zone_1\"\tRelError: 2.29852e-05\tAbsError: 2.66177e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29088e-05\tAbsError: 3.23281e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.64529e-08\tAbsError: 2.65853e-05\n", - " Region: \"zone_3\"\tRelError: 1.96635e-04\tAbsError: 4.76128e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.90619e-06\tAbsError: 2.73453e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.88596e-06\tAbsError: 2.02674e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86766e-04\tAbsError: 3.27811e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.64720e-08\tAbsError: 2.65920e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.07050e-01\tAbsError: 1.83634e+13\n", - " Region: \"zone_1\"\tRelError: 2.24108e-02\tAbsError: 1.12606e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.24048e-02\tAbsError: 9.16557e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.02744e-06\tAbsError: 2.09499e-03\n", - " Region: \"zone_3\"\tRelError: 2.84640e-01\tAbsError: 1.83634e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.09245e-01\tAbsError: 8.86934e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.28005e-02\tAbsError: 9.49405e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.25878e-02\tAbsError: 9.16561e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.02994e-06\tAbsError: 2.09586e-03\n", - "Iteration: 18\n", - " Device: \"device\"\tRelError: 4.00791e-03\tAbsError: 7.94469e+11\n", - " Region: \"zone_1\"\tRelError: 4.21254e-04\tAbsError: 6.66722e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.19338e-04\tAbsError: 5.54818e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91582e-06\tAbsError: 6.66167e-04\n", - " Region: \"zone_3\"\tRelError: 3.58666e-03\tAbsError: 7.94469e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.27304e-05\tAbsError: 4.54237e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.23889e-05\tAbsError: 3.40232e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.41962e-03\tAbsError: 5.62636e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91658e-06\tAbsError: 6.66464e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.03807e-02\tAbsError: 4.31916e+12\n", - " Region: \"zone_1\"\tRelError: 4.20953e-03\tAbsError: 1.71332e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 4.20469e-03\tAbsError: 2.96488e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.84876e-06\tAbsError: 1.68367e-03\n", - " Region: \"zone_3\"\tRelError: 7.61712e-02\tAbsError: 4.31916e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.68288e-02\tAbsError: 2.37964e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.61116e-03\tAbsError: 1.93953e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.72641e-03\tAbsError: 3.23070e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.84876e-06\tAbsError: 1.68367e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.07616e+01\tAbsError: 3.02291e+15\n", - " Region: \"zone_1\"\tRelError: 9.27113e+00\tAbsError: 6.52674e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.27103e+00\tAbsError: 3.07634e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.92954e-05\tAbsError: 3.45040e-02\n", - " Region: \"zone_3\"\tRelError: 1.49044e+00\tAbsError: 3.02291e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.40308e-01\tAbsError: 1.49698e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.14159e-01\tAbsError: 1.52592e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35875e-01\tAbsError: 3.07635e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.92954e-05\tAbsError: 3.45040e-02\n", - "Iteration: 20\n", - " Device: \"device\"\tRelError: 1.01270e-04\tAbsError: 2.55605e+10\n", - " Region: \"zone_1\"\tRelError: 1.04938e-05\tAbsError: 4.88254e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04798e-05\tAbsError: 1.65111e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39935e-08\tAbsError: 4.86603e-06\n", - " Region: \"zone_3\"\tRelError: 9.07764e-05\tAbsError: 2.55605e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.54439e-06\tAbsError: 1.46826e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.52628e-06\tAbsError: 1.08779e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 8.56917e-05\tAbsError: 1.67514e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39958e-08\tAbsError: 4.86682e-06\n", - "Iteration: 19\n", - " Device: \"device\"\tRelError: 2.41571e-03\tAbsError: 6.51578e+11\n", - " Region: \"zone_1\"\tRelError: 2.49310e-04\tAbsError: 9.61601e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49035e-04\tAbsError: 4.38276e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.75272e-07\tAbsError: 9.57218e-05\n", - " Region: \"zone_3\"\tRelError: 2.16640e-03\tAbsError: 6.51578e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.48244e-05\tAbsError: 3.54039e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.43631e-05\tAbsError: 2.97539e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03694e-03\tAbsError: 4.44564e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.75326e-07\tAbsError: 9.57408e-05\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.39650e-02\tAbsError: 2.30731e+12\n", - " Region: \"zone_1\"\tRelError: 9.33244e-04\tAbsError: 2.05118e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 9.27371e-04\tAbsError: 1.17101e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.87337e-06\tAbsError: 2.03947e-03\n", - " Region: \"zone_3\"\tRelError: 6.30318e-02\tAbsError: 2.30731e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.63237e-02\tAbsError: 1.57438e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.61914e-04\tAbsError: 7.32926e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 6.34034e-03\tAbsError: 1.22701e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.87337e-06\tAbsError: 2.03947e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 9.97676e-04\tAbsError: 7.95668e+11\n", - " Region: \"zone_1\"\tRelError: 1.29401e-04\tAbsError: 1.23466e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29049e-04\tAbsError: 1.19542e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.51297e-07\tAbsError: 1.22271e-04\n", - " Region: \"zone_3\"\tRelError: 8.68275e-04\tAbsError: 7.95668e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04248e-04\tAbsError: 1.86473e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.74128e-05\tAbsError: 6.09196e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 6.86263e-04\tAbsError: 1.19935e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.51436e-07\tAbsError: 1.22321e-04\n", - "Iteration: 21\n", - " Device: \"device\"\tRelError: 2.05070e-05\tAbsError: 4.57864e+09\n", - " Region: \"zone_1\"\tRelError: 2.14180e-06\tAbsError: 1.98128e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.13612e-06\tAbsError: 2.99420e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.68907e-09\tAbsError: 1.97829e-06\n", - " Region: \"zone_3\"\tRelError: 1.83652e-05\tAbsError: 4.57864e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.66063e-07\tAbsError: 2.69416e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.63768e-07\tAbsError: 1.88448e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74296e-05\tAbsError: 3.03713e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.68998e-09\tAbsError: 1.97861e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.22732e+00\tAbsError: 2.06865e+15\n", - " Region: \"zone_1\"\tRelError: 2.78568e-01\tAbsError: 2.74627e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78563e-01\tAbsError: 2.58185e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73142e-06\tAbsError: 1.64416e-03\n", - " Region: \"zone_3\"\tRelError: 9.48751e-01\tAbsError: 2.06865e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.44918e-01\tAbsError: 9.02348e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.89155e-01\tAbsError: 1.16630e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14673e-01\tAbsError: 2.51147e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73142e-06\tAbsError: 1.64416e-03\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:50\u001b[0m.\u001b[1;36m917\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: 0.205\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 20\n", - " Device: \"device\"\tRelError: 4.14530e-04\tAbsError: 9.00878e+10\n", - " Region: \"zone_1\"\tRelError: 4.33708e-05\tAbsError: 4.78767e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.32333e-05\tAbsError: 6.03673e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37508e-07\tAbsError: 4.78163e-05\n", - " Region: \"zone_3\"\tRelError: 3.71159e-04\tAbsError: 9.00878e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.25135e-06\tAbsError: 5.23202e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.21072e-06\tAbsError: 3.77677e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.52560e-04\tAbsError: 6.12186e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37541e-07\tAbsError: 4.78278e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.79721e-03\tAbsError: 9.76589e+11\n", - " Region: \"zone_1\"\tRelError: 1.82738e-04\tAbsError: 8.39323e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82502e-04\tAbsError: 1.48235e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36874e-07\tAbsError: 8.24499e-05\n", - " Region: \"zone_3\"\tRelError: 1.61447e-03\tAbsError: 9.76589e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10820e-04\tAbsError: 2.51654e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.02342e-04\tAbsError: 7.24935e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40107e-03\tAbsError: 1.48793e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36983e-07\tAbsError: 8.24891e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.61330e-04\tAbsError: 1.06282e+11\n", - " Region: \"zone_1\"\tRelError: 4.56683e-05\tAbsError: 4.35026e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.55433e-05\tAbsError: 6.77792e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.25079e-07\tAbsError: 4.34348e-05\n", - " Region: \"zone_3\"\tRelError: 4.15662e-04\tAbsError: 1.06282e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.04343e-06\tAbsError: 7.28947e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.97562e-06\tAbsError: 3.33874e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.01518e-04\tAbsError: 7.07926e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.25079e-07\tAbsError: 4.34348e-05\n", - "Iteration: 21\n", - " Device: \"device\"\tRelError: 1.82957e-04\tAbsError: 4.59083e+10\n", - " Region: \"zone_1\"\tRelError: 1.89657e-05\tAbsError: 9.08920e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.89396e-05\tAbsError: 2.96048e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.60532e-08\tAbsError: 9.05960e-06\n", - " Region: \"zone_3\"\tRelError: 1.63992e-04\tAbsError: 4.59083e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.57251e-06\tAbsError: 2.64519e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.54031e-06\tAbsError: 1.94565e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.54853e-04\tAbsError: 3.00359e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.60571e-08\tAbsError: 9.06097e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 7.18897e+00\tAbsError: 6.29402e+14\n", - " Region: \"zone_1\"\tRelError: 6.86170e+00\tAbsError: 2.22868e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.86166e+00\tAbsError: 9.16572e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.77613e-05\tAbsError: 1.31211e-02\n", - " Region: \"zone_3\"\tRelError: 3.27267e-01\tAbsError: 6.29402e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84319e-01\tAbsError: 3.28649e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.08857e-01\tAbsError: 3.00753e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.40527e-02\tAbsError: 9.16579e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.77613e-05\tAbsError: 1.31211e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.21972e+01\tAbsError: 8.79739e+15\n", - " Region: \"zone_1\"\tRelError: 2.05511e+01\tAbsError: 4.19634e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.05511e+01\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.24058e-09\tAbsError: 4.31395e-07\n", - " Region: \"zone_3\"\tRelError: 1.64617e+00\tAbsError: 8.79739e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78071e-01\tAbsError: 4.86801e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.78002e-01\tAbsError: 3.92938e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.00933e-02\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.24074e-09\tAbsError: 4.31450e-07\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.68582e-04\tAbsError: 6.39514e+10\n", - " Region: \"zone_1\"\tRelError: 3.10151e-05\tAbsError: 5.94800e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.08440e-05\tAbsError: 4.08298e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71164e-07\tAbsError: 5.94392e-05\n", - " Region: \"zone_3\"\tRelError: 2.37567e-04\tAbsError: 6.39514e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16150e-06\tAbsError: 5.01904e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.80228e-06\tAbsError: 1.37610e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29432e-04\tAbsError: 4.25523e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71229e-07\tAbsError: 5.94601e-05\n", - "Iteration: 22\n", - " Device: \"device\"\tRelError: 3.80865e-05\tAbsError: 8.51875e+09\n", - " Region: \"zone_1\"\tRelError: 3.97720e-06\tAbsError: 3.58327e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.96691e-06\tAbsError: 5.54273e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.02887e-08\tAbsError: 3.57772e-06\n", - " Region: \"zone_3\"\tRelError: 3.41093e-05\tAbsError: 8.51875e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.66086e-07\tAbsError: 5.03274e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.61710e-07\tAbsError: 3.48600e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.23712e-05\tAbsError: 5.62244e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.02903e-08\tAbsError: 3.57829e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:53\u001b[0m.\u001b[1;36m452\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.21\u001b[0m \n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 8.56296e-05\tAbsError: 3.78286e+10\n", - " Region: \"zone_1\"\tRelError: 8.06637e-06\tAbsError: 5.60804e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.05036e-06\tAbsError: 3.55674e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60098e-08\tAbsError: 5.57247e-06\n", - " Region: \"zone_3\"\tRelError: 7.75632e-05\tAbsError: 3.78286e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.72451e-06\tAbsError: 1.28450e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.70072e-06\tAbsError: 2.49837e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.21220e-05\tAbsError: 3.55685e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60165e-08\tAbsError: 5.57492e-06\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:53\u001b[0m.\u001b[1;36m570\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:53\u001b[0m.\u001b[1;36m570\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5222222222222223\u001b[0m \n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "number of equations 31816\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.42105e-01\tAbsError: 9.57843e+13\n", - " Region: \"zone_1\"\tRelError: 5.64317e-01\tAbsError: 1.44974e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.64276e-01\tAbsError: 1.24104e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14024e-05\tAbsError: 1.43733e-02\n", - " Region: \"zone_3\"\tRelError: 7.77880e-02\tAbsError: 9.57843e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.25473e-02\tAbsError: 4.71405e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.65020e-03\tAbsError: 4.86438e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.95491e-02\tAbsError: 1.28397e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14024e-05\tAbsError: 1.43733e-02\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 4.29261e+00\tAbsError: 3.28148e+14\n", - " Region: \"zone_1\"\tRelError: 2.82868e+00\tAbsError: 9.50796e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.82849e+00\tAbsError: 3.19529e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.81575e-04\tAbsError: 6.31268e-02\n", - " Region: \"zone_3\"\tRelError: 1.46393e+00\tAbsError: 3.28148e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.53256e-01\tAbsError: 1.60807e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.47889e-01\tAbsError: 1.67341e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.26077e-02\tAbsError: 3.19533e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.81575e-04\tAbsError: 6.31268e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.61549e-04\tAbsError: 5.47840e+10\n", - " Region: \"zone_1\"\tRelError: 1.81900e-05\tAbsError: 1.93945e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.81846e-05\tAbsError: 4.89694e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.43105e-09\tAbsError: 1.89048e-06\n", - " Region: \"zone_3\"\tRelError: 1.43359e-04\tAbsError: 5.47840e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.04114e-06\tAbsError: 2.20323e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.00674e-06\tAbsError: 3.27517e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35306e-04\tAbsError: 4.90033e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.43421e-09\tAbsError: 1.89162e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.36557e-01\tAbsError: 7.18470e+12\n", - " Region: \"zone_1\"\tRelError: 1.16158e-01\tAbsError: 1.78279e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16157e-01\tAbsError: 6.59165e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.94530e-07\tAbsError: 1.71687e-04\n", - " Region: \"zone_3\"\tRelError: 2.03993e-02\tAbsError: 7.18470e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.98223e-04\tAbsError: 2.78831e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.37326e-04\tAbsError: 4.39639e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.92632e-02\tAbsError: 6.83641e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.94530e-07\tAbsError: 1.71687e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.00879e+03\tAbsError: 9.21631e+15\n", - " Region: \"zone_1\"\tRelError: 1.00712e+03\tAbsError: 4.29346e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00712e+03\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.29034e-09\tAbsError: 7.96432e-07\n", - " Region: \"zone_3\"\tRelError: 1.66508e+00\tAbsError: 9.21631e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86000e-01\tAbsError: 5.09982e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.85932e-01\tAbsError: 4.11649e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.31442e-02\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.29062e-09\tAbsError: 7.96530e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.03787e+00\tAbsError: 8.68675e+15\n", - " Region: \"zone_1\"\tRelError: 5.34083e+00\tAbsError: 4.20745e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.34083e+00\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.44746e-09\tAbsError: 1.89168e-06\n", - " Region: \"zone_3\"\tRelError: 1.69705e+00\tAbsError: 8.68675e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.79112e-01\tAbsError: 5.08967e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.79068e-01\tAbsError: 3.59708e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.38867e-01\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.44892e-09\tAbsError: 1.89214e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.01561e+00\tAbsError: 4.22498e+13\n", - " Region: \"zone_1\"\tRelError: 1.00695e+00\tAbsError: 3.08676e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00693e+00\tAbsError: 2.58780e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43517e-05\tAbsError: 4.98963e-03\n", - " Region: \"zone_3\"\tRelError: 1.00866e+00\tAbsError: 4.22498e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.63696e-01\tAbsError: 3.04335e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.31201e-01\tAbsError: 1.18163e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13751e-01\tAbsError: 2.58956e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43517e-05\tAbsError: 4.98963e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.55715e-06\tAbsError: 1.55371e+09\n", - " Region: \"zone_1\"\tRelError: 2.75443e-07\tAbsError: 3.15707e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.66361e-07\tAbsError: 7.16801e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.08162e-09\tAbsError: 3.15635e-06\n", - " Region: \"zone_3\"\tRelError: 2.28171e-06\tAbsError: 1.55371e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01860e-07\tAbsError: 1.23171e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.92720e-08\tAbsError: 3.21996e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 2.10150e-06\tAbsError: 7.37244e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.08225e-09\tAbsError: 3.15662e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:28:55\u001b[0m.\u001b[1;36m580\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.5\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.13498e-03\tAbsError: 1.41105e+11\n", - " Region: \"zone_1\"\tRelError: 2.73398e-03\tAbsError: 4.76357e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.73260e-03\tAbsError: 1.35633e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37060e-06\tAbsError: 4.76221e-04\n", - " Region: \"zone_3\"\tRelError: 4.01007e-04\tAbsError: 1.41105e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.96062e-06\tAbsError: 6.85210e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.81427e-06\tAbsError: 7.25836e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.87862e-04\tAbsError: 1.38229e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37060e-06\tAbsError: 4.76221e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.52211e+00\tAbsError: 3.59125e+14\n", - " Region: \"zone_1\"\tRelError: 1.02736e+00\tAbsError: 9.92324e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02717e+00\tAbsError: 3.31004e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.90221e-04\tAbsError: 6.61320e-02\n", - " Region: \"zone_3\"\tRelError: 1.49475e+00\tAbsError: 3.59125e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67298e-01\tAbsError: 1.76595e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.62445e-01\tAbsError: 1.82530e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.48202e-02\tAbsError: 3.31009e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.90221e-04\tAbsError: 6.61320e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.79028e+00\tAbsError: 9.40544e+14\n", - " Region: \"zone_1\"\tRelError: 2.75190e-01\tAbsError: 7.38905e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.75070e-01\tAbsError: 3.20822e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20307e-04\tAbsError: 4.18083e-02\n", - " Region: \"zone_3\"\tRelError: 1.51509e+00\tAbsError: 9.40544e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.57667e-01\tAbsError: 5.48737e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.43526e-01\tAbsError: 3.91807e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13778e-01\tAbsError: 3.20825e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20307e-04\tAbsError: 4.18083e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.40953e-01\tAbsError: 2.74084e+12\n", - " Region: \"zone_1\"\tRelError: 4.80746e-02\tAbsError: 1.39556e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.80651e-02\tAbsError: 1.06618e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.47399e-06\tAbsError: 3.29377e-03\n", - " Region: \"zone_3\"\tRelError: 2.92878e-01\tAbsError: 2.74084e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.18891e-01\tAbsError: 1.82408e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.68392e-02\tAbsError: 9.16762e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.71388e-02\tAbsError: 1.06619e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.47605e-06\tAbsError: 3.29454e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.44671e+02\tAbsError: 8.23352e+15\n", - " Region: \"zone_1\"\tRelError: 5.43003e+02\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.43003e+02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.11266e-10\tAbsError: 1.43080e-07\n", - " Region: \"zone_3\"\tRelError: 1.66763e+00\tAbsError: 8.23352e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.84587e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69628e-01\tAbsError: 3.38765e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28340e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.11422e-10\tAbsError: 1.43134e-07\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.31814e-02\tAbsError: 4.58362e+11\n", - " Region: \"zone_1\"\tRelError: 1.15315e-02\tAbsError: 2.80900e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15314e-02\tAbsError: 2.57528e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.01667e-08\tAbsError: 2.78324e-05\n", - " Region: \"zone_3\"\tRelError: 1.64997e-03\tAbsError: 4.58362e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47024e-05\tAbsError: 2.30121e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.45967e-05\tAbsError: 2.28241e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.60059e-03\tAbsError: 2.62890e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.01667e-08\tAbsError: 2.78324e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.22235e+00\tAbsError: 4.60128e+13\n", - " Region: \"zone_1\"\tRelError: 1.55292e-01\tAbsError: 3.12944e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55276e-01\tAbsError: 2.58827e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.55659e-05\tAbsError: 5.41171e-03\n", - " Region: \"zone_3\"\tRelError: 1.06706e+00\tAbsError: 4.60128e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.86396e-01\tAbsError: 3.30945e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.60965e-01\tAbsError: 1.29183e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19685e-01\tAbsError: 2.58997e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.55659e-05\tAbsError: 5.41171e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.04706e-01\tAbsError: 2.69889e+12\n", - " Region: \"zone_1\"\tRelError: 3.03473e-02\tAbsError: 2.78065e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.03393e-02\tAbsError: 1.57814e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.00188e-06\tAbsError: 2.77907e-03\n", - " Region: \"zone_3\"\tRelError: 7.43586e-02\tAbsError: 2.69889e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.61302e-02\tAbsError: 1.67218e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.39676e-04\tAbsError: 1.02671e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.08064e-03\tAbsError: 1.64723e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.00188e-06\tAbsError: 2.77907e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.18789e+00\tAbsError: 4.83732e+14\n", - " Region: \"zone_1\"\tRelError: 1.79190e-01\tAbsError: 3.41802e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.79166e-01\tAbsError: 2.58395e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.40007e-05\tAbsError: 8.34077e-03\n", - " Region: \"zone_3\"\tRelError: 1.00870e+00\tAbsError: 4.83732e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.69011e-01\tAbsError: 2.31920e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.36472e-01\tAbsError: 2.51812e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03191e-01\tAbsError: 2.58327e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.40007e-05\tAbsError: 8.34077e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 4.93663e+00\tAbsError: 6.37428e+14\n", - " Region: \"zone_1\"\tRelError: 3.46019e+00\tAbsError: 7.21476e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.46007e+00\tAbsError: 3.07635e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", - " Region: \"zone_3\"\tRelError: 1.47644e+00\tAbsError: 6.37428e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.40577e-01\tAbsError: 3.72575e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.27797e-01\tAbsError: 2.64853e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07947e-01\tAbsError: 3.07638e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.25913e-03\tAbsError: 2.71128e+10\n", - " Region: \"zone_1\"\tRelError: 1.10973e-03\tAbsError: 2.99279e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10965e-03\tAbsError: 1.77983e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.60783e-08\tAbsError: 2.99101e-05\n", - " Region: \"zone_3\"\tRelError: 1.49391e-04\tAbsError: 2.71128e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.61984e-06\tAbsError: 1.29863e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.63350e-06\tAbsError: 1.41265e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.46052e-04\tAbsError: 1.82225e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.61134e-08\tAbsError: 2.99224e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.57693e-01\tAbsError: 3.02154e+12\n", - " Region: \"zone_1\"\tRelError: 1.96652e-02\tAbsError: 1.57882e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.96551e-02\tAbsError: 1.22658e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.01318e-05\tAbsError: 3.52244e-03\n", - " Region: \"zone_3\"\tRelError: 3.38028e-01\tAbsError: 3.02154e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.44609e-01\tAbsError: 2.12319e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.34946e-02\tAbsError: 8.98343e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.99137e-02\tAbsError: 1.22658e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.01327e-05\tAbsError: 3.52280e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.89232e-01\tAbsError: 2.20799e+14\n", - " Region: \"zone_1\"\tRelError: 3.47859e-02\tAbsError: 1.63666e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.47699e-02\tAbsError: 1.08347e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59370e-05\tAbsError: 5.53193e-03\n", - " Region: \"zone_3\"\tRelError: 3.54446e-01\tAbsError: 2.20799e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.17998e-01\tAbsError: 9.98034e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.00900e-01\tAbsError: 1.20996e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.55324e-02\tAbsError: 1.08347e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59483e-05\tAbsError: 5.53592e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.99368e-03\tAbsError: 1.36436e+12\n", - " Region: \"zone_1\"\tRelError: 4.69498e-03\tAbsError: 1.18416e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.69465e-03\tAbsError: 1.92140e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.34635e-07\tAbsError: 1.16495e-04\n", - " Region: \"zone_3\"\tRelError: 2.29869e-03\tAbsError: 1.36436e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.77818e-04\tAbsError: 3.77261e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.77531e-04\tAbsError: 9.87102e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.94301e-03\tAbsError: 1.92550e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.34793e-07\tAbsError: 1.16552e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.95431e+00\tAbsError: 2.96317e+14\n", - " Region: \"zone_1\"\tRelError: 2.00902e+00\tAbsError: 3.34445e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.00900e+00\tAbsError: 2.58782e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", - " Region: \"zone_3\"\tRelError: 9.45295e-01\tAbsError: 2.96317e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42034e-01\tAbsError: 1.59420e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.10683e-01\tAbsError: 1.36896e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.25558e-02\tAbsError: 2.58843e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 9.89584e-04\tAbsError: 2.93050e+10\n", - " Region: \"zone_1\"\tRelError: 8.69289e-04\tAbsError: 3.58476e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.69279e-04\tAbsError: 1.49163e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.02736e-08\tAbsError: 3.56984e-06\n", - " Region: \"zone_3\"\tRelError: 1.20295e-04\tAbsError: 2.93050e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52554e-06\tAbsError: 1.64489e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.51838e-06\tAbsError: 1.28561e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17241e-04\tAbsError: 1.55101e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.02768e-08\tAbsError: 3.57094e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.07862e-02\tAbsError: 2.91329e+12\n", - " Region: \"zone_1\"\tRelError: 4.25198e-03\tAbsError: 2.87694e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 4.24370e-03\tAbsError: 1.98745e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.27799e-06\tAbsError: 2.87495e-03\n", - " Region: \"zone_3\"\tRelError: 8.65343e-02\tAbsError: 2.91329e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.76531e-02\tAbsError: 1.73373e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.28097e-04\tAbsError: 1.17955e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.64474e-03\tAbsError: 1.98943e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.27799e-06\tAbsError: 2.87495e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.27705e-02\tAbsError: 3.92143e+13\n", - " Region: \"zone_1\"\tRelError: 1.18444e-02\tAbsError: 3.97274e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18335e-02\tAbsError: 1.67051e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.09608e-05\tAbsError: 3.80569e-03\n", - " Region: \"zone_3\"\tRelError: 8.09261e-02\tAbsError: 3.92143e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.23262e-02\tAbsError: 2.18276e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.11384e-03\tAbsError: 1.73866e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14751e-02\tAbsError: 1.77220e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.09608e-05\tAbsError: 3.80569e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.32584e-03\tAbsError: 9.49817e+10\n", - " Region: \"zone_1\"\tRelError: 1.01622e-03\tAbsError: 8.23598e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01599e-03\tAbsError: 5.43240e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36970e-07\tAbsError: 8.23055e-05\n", - " Region: \"zone_3\"\tRelError: 3.09622e-04\tAbsError: 9.49817e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.47531e-06\tAbsError: 7.03893e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.40231e-06\tAbsError: 2.45924e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.94507e-04\tAbsError: 5.71127e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.37095e-07\tAbsError: 8.23471e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.90232e-01\tAbsError: 1.27257e+14\n", - " Region: \"zone_1\"\tRelError: 2.88169e-01\tAbsError: 1.34324e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88157e-01\tAbsError: 9.16559e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22923e-05\tAbsError: 4.26682e-03\n", - " Region: \"zone_3\"\tRelError: 3.02062e-01\tAbsError: 1.27257e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98145e-01\tAbsError: 5.59682e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.53461e-02\tAbsError: 7.12890e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.85587e-02\tAbsError: 9.16563e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22942e-05\tAbsError: 4.26755e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.48739e-04\tAbsError: 3.41314e+09\n", - " Region: \"zone_1\"\tRelError: 1.31134e-04\tAbsError: 2.06494e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31128e-04\tAbsError: 1.91971e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.93716e-09\tAbsError: 2.06302e-06\n", - " Region: \"zone_3\"\tRelError: 1.76048e-05\tAbsError: 3.41314e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88514e-07\tAbsError: 1.94837e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.89063e-07\tAbsError: 1.46477e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72213e-05\tAbsError: 1.99642e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.93836e-09\tAbsError: 2.06344e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.01174e-03\tAbsError: 1.41556e+12\n", - " Region: \"zone_1\"\tRelError: 6.68071e-04\tAbsError: 1.27918e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.67709e-04\tAbsError: 1.99067e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.61735e-07\tAbsError: 1.25927e-04\n", - " Region: \"zone_3\"\tRelError: 2.34367e-03\tAbsError: 1.41556e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.80161e-04\tAbsError: 3.89187e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.82303e-04\tAbsError: 1.02637e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.98085e-03\tAbsError: 1.99421e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.61901e-07\tAbsError: 1.25988e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.66013e-03\tAbsError: 1.81030e+12\n", - " Region: \"zone_1\"\tRelError: 6.83848e-04\tAbsError: 2.20908e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.83218e-04\tAbsError: 2.13698e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.29499e-07\tAbsError: 2.18771e-04\n", - " Region: \"zone_3\"\tRelError: 3.97628e-03\tAbsError: 1.81030e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.57910e-04\tAbsError: 5.71047e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.59751e-04\tAbsError: 1.23926e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.55799e-03\tAbsError: 2.13935e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.29499e-07\tAbsError: 2.18771e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 7.92825e-04\tAbsError: 7.64423e+10\n", - " Region: \"zone_1\"\tRelError: 6.01230e-04\tAbsError: 2.80077e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.01222e-04\tAbsError: 6.50022e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.85825e-09\tAbsError: 2.73577e-06\n", - " Region: \"zone_3\"\tRelError: 1.91595e-04\tAbsError: 7.64423e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.08323e-06\tAbsError: 3.16055e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.02571e-06\tAbsError: 4.48368e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77478e-04\tAbsError: 6.53128e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.86287e-09\tAbsError: 2.73743e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.81369e-01\tAbsError: 1.65118e+13\n", - " Region: \"zone_1\"\tRelError: 1.13683e-01\tAbsError: 2.48930e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13676e-01\tAbsError: 7.97182e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", - " Region: \"zone_3\"\tRelError: 6.76863e-02\tAbsError: 1.65118e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.50220e-02\tAbsError: 9.05581e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.84537e-03\tAbsError: 7.45604e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 9.81196e-03\tAbsError: 8.36703e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 7.33109e-05\tAbsError: 1.99171e+09\n", - " Region: \"zone_1\"\tRelError: 6.45108e-05\tAbsError: 3.50573e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 6.45098e-05\tAbsError: 1.06453e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00585e-09\tAbsError: 3.49509e-07\n", - " Region: \"zone_3\"\tRelError: 8.80007e-06\tAbsError: 1.99171e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03719e-07\tAbsError: 1.17952e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03272e-07\tAbsError: 8.12185e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 8.59208e-06\tAbsError: 1.10473e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00600e-09\tAbsError: 3.49562e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:02\u001b[0m.\u001b[1;36m982\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.7000000000000001\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.99885e-04\tAbsError: 1.03856e+11\n", - " Region: \"zone_1\"\tRelError: 1.59108e-04\tAbsError: 8.49171e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.58864e-04\tAbsError: 5.92152e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.44320e-07\tAbsError: 8.48579e-05\n", - " Region: \"zone_3\"\tRelError: 3.40778e-04\tAbsError: 1.03856e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.18070e-06\tAbsError: 7.59415e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.10237e-06\tAbsError: 2.79147e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.24250e-04\tAbsError: 6.22638e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.44435e-07\tAbsError: 8.48959e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.04302e-04\tAbsError: 1.69873e+11\n", - " Region: \"zone_1\"\tRelError: 1.21025e-04\tAbsError: 1.10965e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20706e-04\tAbsError: 1.10497e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.19264e-07\tAbsError: 1.10854e-04\n", - " Region: \"zone_3\"\tRelError: 5.83276e-04\tAbsError: 1.69873e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01956e-05\tAbsError: 1.15007e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.00614e-05\tAbsError: 5.48653e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.62700e-04\tAbsError: 1.15313e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.19307e-07\tAbsError: 1.10871e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 9.53700e-06\tAbsError: 1.98539e+09\n", - " Region: \"zone_1\"\tRelError: 6.19364e-06\tAbsError: 4.43903e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.18087e-06\tAbsError: 9.79483e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27657e-08\tAbsError: 4.43805e-06\n", - " Region: \"zone_3\"\tRelError: 3.34336e-06\tAbsError: 1.98539e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.26061e-07\tAbsError: 1.76204e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.03253e-07\tAbsError: 2.23352e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 2.90128e-06\tAbsError: 1.01624e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27671e-08\tAbsError: 4.43858e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:03\u001b[0m.\u001b[1;36m664\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:03\u001b[0m.\u001b[1;36m664\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30999999999999994\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 7.11615e-03\tAbsError: 1.08851e+12\n", - " Region: \"zone_1\"\tRelError: 5.30759e-03\tAbsError: 1.67972e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.30711e-03\tAbsError: 1.45981e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", - " Region: \"zone_3\"\tRelError: 1.80856e-03\tAbsError: 1.08851e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43945e-04\tAbsError: 2.92186e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.94756e-05\tAbsError: 7.96320e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.56466e-03\tAbsError: 1.47422e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.94222e+01\tAbsError: 1.62190e+16\n", - " Region: \"zone_1\"\tRelError: 2.76662e+01\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.76662e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.29578e-10\tAbsError: 1.49268e-07\n", - " Region: \"zone_3\"\tRelError: 1.75598e+00\tAbsError: 1.62190e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69267e-01\tAbsError: 8.18784e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.68971e-01\tAbsError: 8.03117e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.17740e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.29628e-10\tAbsError: 1.49286e-07\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.82167e-04\tAbsError: 7.86600e+10\n", - " Region: \"zone_1\"\tRelError: 8.64932e-05\tAbsError: 3.28075e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.64839e-05\tAbsError: 6.72220e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.23076e-09\tAbsError: 3.21353e-06\n", - " Region: \"zone_3\"\tRelError: 1.95674e-04\tAbsError: 7.86600e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.24753e-06\tAbsError: 3.22967e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.18839e-06\tAbsError: 4.63633e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.81229e-04\tAbsError: 6.75257e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.23600e-09\tAbsError: 3.21543e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.69952e-04\tAbsError: 1.04746e+11\n", - " Region: \"zone_1\"\tRelError: 6.23923e-05\tAbsError: 6.08693e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.23750e-05\tAbsError: 7.30344e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72792e-08\tAbsError: 6.01389e-06\n", - " Region: \"zone_3\"\tRelError: 3.07560e-04\tAbsError: 1.04746e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.47306e-06\tAbsError: 4.76665e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.41953e-06\tAbsError: 5.70795e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.94650e-04\tAbsError: 7.47231e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72864e-08\tAbsError: 6.01657e-06\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.59900e-03\tAbsError: 1.40711e+11\n", - " Region: \"zone_1\"\tRelError: 2.06948e-03\tAbsError: 6.41578e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06929e-03\tAbsError: 9.09489e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84503e-07\tAbsError: 6.40668e-05\n", - " Region: \"zone_3\"\tRelError: 5.29527e-04\tAbsError: 1.40711e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.39801e-06\tAbsError: 9.47438e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.30618e-06\tAbsError: 4.59673e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.12638e-04\tAbsError: 9.48359e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84568e-07\tAbsError: 6.40878e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 4.43666e+01\tAbsError: 8.70090e+15\n", - " Region: \"zone_1\"\tRelError: 4.27079e+01\tAbsError: 4.19631e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.27079e+01\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.30451e-10\tAbsError: 1.84559e-07\n", - " Region: \"zone_3\"\tRelError: 1.65874e+00\tAbsError: 8.70090e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78165e-01\tAbsError: 4.97235e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.78147e-01\tAbsError: 3.72855e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02426e-01\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.30651e-10\tAbsError: 1.84628e-07\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.57455e+00\tAbsError: 1.59389e+16\n", - " Region: \"zone_1\"\tRelError: 1.04759e+00\tAbsError: 1.06162e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04737e+00\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17045e-04\tAbsError: 7.53990e-02\n", - " Region: \"zone_3\"\tRelError: 1.52696e+00\tAbsError: 1.59389e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37511e-01\tAbsError: 7.87332e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.04735e-01\tAbsError: 8.06553e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.84502e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17045e-04\tAbsError: 7.53990e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.46289e-06\tAbsError: 2.26082e+09\n", - " Region: \"zone_1\"\tRelError: 1.63757e-06\tAbsError: 4.53256e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.62453e-06\tAbsError: 1.22136e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.30342e-08\tAbsError: 4.53134e-06\n", - " Region: \"zone_3\"\tRelError: 4.82532e-06\tAbsError: 2.26082e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.34861e-07\tAbsError: 2.04550e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.09305e-07\tAbsError: 2.15318e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 4.36812e-06\tAbsError: 1.26903e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.30354e-08\tAbsError: 4.53183e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.62562e-05\tAbsError: 4.80597e+09\n", - " Region: \"zone_1\"\tRelError: 2.76618e-06\tAbsError: 6.02701e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.74884e-06\tAbsError: 2.93870e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73352e-08\tAbsError: 6.02407e-06\n", - " Region: \"zone_3\"\tRelError: 1.34900e-05\tAbsError: 4.80597e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.86829e-07\tAbsError: 3.77211e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.31164e-07\tAbsError: 1.03387e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29547e-05\tAbsError: 3.05777e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73383e-08\tAbsError: 6.02527e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:06\u001b[0m.\u001b[1;36m206\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:06\u001b[0m.\u001b[1;36m206\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.31999999999999995\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:06\u001b[0m.\u001b[1;36m279\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:06\u001b[0m.\u001b[1;36m279\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6277777777777779\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 6.84757e-04\tAbsError: 5.79873e+10\n", - " Region: \"zone_1\"\tRelError: 5.39232e-04\tAbsError: 6.69464e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.39213e-04\tAbsError: 4.49143e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91058e-08\tAbsError: 6.64972e-06\n", - " Region: \"zone_3\"\tRelError: 1.45525e-04\tAbsError: 5.79873e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.71562e-06\tAbsError: 2.34463e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.68397e-06\tAbsError: 3.45410e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.38106e-04\tAbsError: 4.56915e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91137e-08\tAbsError: 6.65261e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.85241e+00\tAbsError: 3.18768e+14\n", - " Region: \"zone_1\"\tRelError: 3.74188e-01\tAbsError: 9.09797e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.74018e-01\tAbsError: 3.19528e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69811e-04\tAbsError: 5.90269e-02\n", - " Region: \"zone_3\"\tRelError: 1.47822e+00\tAbsError: 3.18768e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.53655e-01\tAbsError: 1.86103e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.48046e-01\tAbsError: 1.32665e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.63467e-02\tAbsError: 3.19533e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69811e-04\tAbsError: 5.90269e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.14822e+00\tAbsError: 9.83178e+15\n", - " Region: \"zone_1\"\tRelError: 1.39457e-01\tAbsError: 7.32841e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39320e-01\tAbsError: 2.58400e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36592e-04\tAbsError: 4.74441e-02\n", - " Region: \"zone_3\"\tRelError: 1.00877e+00\tAbsError: 9.83178e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43427e-01\tAbsError: 4.83336e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.90483e-01\tAbsError: 4.99841e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74720e-01\tAbsError: 2.58193e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36592e-04\tAbsError: 4.74441e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.59100e+01\tAbsError: 9.11397e+15\n", - " Region: \"zone_1\"\tRelError: 1.42309e+01\tAbsError: 4.29340e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.42309e+01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.96085e-10\tAbsError: 1.72605e-07\n", - " Region: \"zone_3\"\tRelError: 1.67911e+00\tAbsError: 9.11397e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86093e-01\tAbsError: 5.21673e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.86076e-01\tAbsError: 3.89724e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06942e-01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.96287e-10\tAbsError: 1.72675e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.18088e+00\tAbsError: 8.89482e+15\n", - " Region: \"zone_1\"\tRelError: 3.44104e+00\tAbsError: 4.20727e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.44104e+00\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.26342e-10\tAbsError: 1.13537e-07\n", - " Region: \"zone_3\"\tRelError: 1.73984e+00\tAbsError: 8.89482e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.79052e-01\tAbsError: 4.78450e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.78927e-01\tAbsError: 4.11032e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.81864e-01\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.26495e-10\tAbsError: 1.13589e-07\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.02364e-04\tAbsError: 5.62247e+09\n", - " Region: \"zone_1\"\tRelError: 8.15379e-05\tAbsError: 3.03368e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.15291e-05\tAbsError: 3.57289e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.71937e-09\tAbsError: 3.03011e-06\n", - " Region: \"zone_3\"\tRelError: 2.08260e-05\tAbsError: 5.62247e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.14319e-07\tAbsError: 4.05602e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.09034e-07\tAbsError: 1.56645e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.01939e-05\tAbsError: 3.71851e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.71944e-09\tAbsError: 3.03019e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 7.14483e+00\tAbsError: 3.41864e+13\n", - " Region: \"zone_1\"\tRelError: 6.13267e+00\tAbsError: 3.19414e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.13265e+00\tAbsError: 2.58787e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.74411e-05\tAbsError: 6.06270e-03\n", - " Region: \"zone_3\"\tRelError: 1.01216e+00\tAbsError: 3.41864e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.64045e-01\tAbsError: 2.44518e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.34593e-01\tAbsError: 9.73459e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13508e-01\tAbsError: 2.58986e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.74411e-05\tAbsError: 6.06270e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 9.17087e-01\tAbsError: 2.70112e+15\n", - " Region: \"zone_1\"\tRelError: 4.13278e-01\tAbsError: 1.18036e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.12964e-01\tAbsError: 9.16529e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.13541e-04\tAbsError: 1.08871e-01\n", - " Region: \"zone_3\"\tRelError: 5.03809e-01\tAbsError: 2.70112e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.83333e-01\tAbsError: 1.43386e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03452e-01\tAbsError: 1.26726e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.16711e-01\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.13541e-04\tAbsError: 1.08871e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.59689e+00\tAbsError: 3.48565e+14\n", - " Region: \"zone_1\"\tRelError: 8.68274e-02\tAbsError: 9.46608e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.66503e-02\tAbsError: 3.31004e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77102e-04\tAbsError: 6.15604e-02\n", - " Region: \"zone_3\"\tRelError: 1.51007e+00\tAbsError: 3.48565e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67462e-01\tAbsError: 2.05903e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.63037e-01\tAbsError: 1.42662e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.93898e-02\tAbsError: 3.31008e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77102e-04\tAbsError: 6.15604e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.86658e+00\tAbsError: 4.79765e+15\n", - " Region: \"zone_1\"\tRelError: 3.33843e-01\tAbsError: 7.09823e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.33731e-01\tAbsError: 3.20821e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11951e-04\tAbsError: 3.89002e-02\n", - " Region: \"zone_3\"\tRelError: 1.53274e+00\tAbsError: 4.79765e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.55885e-01\tAbsError: 2.27341e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.29604e-01\tAbsError: 2.52424e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.47140e-01\tAbsError: 3.20822e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11951e-04\tAbsError: 3.89002e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.62672e-05\tAbsError: 3.10482e+09\n", - " Region: \"zone_1\"\tRelError: 3.66806e-05\tAbsError: 2.21724e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 3.66799e-05\tAbsError: 2.06476e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.31104e-10\tAbsError: 2.19659e-07\n", - " Region: \"zone_3\"\tRelError: 9.58660e-06\tAbsError: 3.10482e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88628e-07\tAbsError: 1.51763e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.86687e-07\tAbsError: 1.58719e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 9.21065e-06\tAbsError: 2.10348e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.31398e-10\tAbsError: 2.19764e-07\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 7.86366e-01\tAbsError: 5.21058e+12\n", - " Region: \"zone_1\"\tRelError: 4.88854e-01\tAbsError: 1.32754e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.88846e-01\tAbsError: 1.06618e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.51860e-06\tAbsError: 2.61359e-03\n", - " Region: \"zone_3\"\tRelError: 2.97512e-01\tAbsError: 5.21058e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.18585e-01\tAbsError: 2.63420e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.77304e-02\tAbsError: 2.57639e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.11889e-02\tAbsError: 1.06618e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.52103e-06\tAbsError: 2.61444e-03\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:09\u001b[0m.\u001b[1;36m494\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.6\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 4.27279e-01\tAbsError: 8.17053e+14\n", - " Region: \"zone_1\"\tRelError: 1.09940e-01\tAbsError: 2.21034e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09304e-01\tAbsError: 3.29075e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.36020e-04\tAbsError: 2.20705e-01\n", - " Region: \"zone_3\"\tRelError: 3.17339e-01\tAbsError: 8.17053e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.72653e-02\tAbsError: 1.99598e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.68899e-02\tAbsError: 6.17455e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.42547e-01\tAbsError: 3.29140e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.36020e-04\tAbsError: 2.20705e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.22886e+00\tAbsError: 4.42708e+13\n", - " Region: \"zone_1\"\tRelError: 1.58984e-01\tAbsError: 3.21171e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.58965e-01\tAbsError: 2.55032e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.90270e-05\tAbsError: 6.61387e-03\n", - " Region: \"zone_3\"\tRelError: 1.06988e+00\tAbsError: 4.42708e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.86765e-01\tAbsError: 3.24991e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.63795e-01\tAbsError: 1.17717e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19299e-01\tAbsError: 2.58497e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.90270e-05\tAbsError: 6.61387e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.14845e+00\tAbsError: 3.47817e+15\n", - " Region: \"zone_1\"\tRelError: 1.23170e-01\tAbsError: 3.19890e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.23152e-01\tAbsError: 2.58241e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77415e-05\tAbsError: 6.16481e-03\n", - " Region: \"zone_3\"\tRelError: 1.02528e+00\tAbsError: 3.47817e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.72014e-01\tAbsError: 1.60123e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.20395e-01\tAbsError: 1.87695e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.32856e-01\tAbsError: 2.56660e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77630e-05\tAbsError: 6.17222e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 3.16100e-01\tAbsError: 2.21306e+12\n", - " Region: \"zone_1\"\tRelError: 2.42523e-01\tAbsError: 2.37532e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.42516e-01\tAbsError: 2.24934e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.83356e-06\tAbsError: 2.37307e-03\n", - " Region: \"zone_3\"\tRelError: 7.35763e-02\tAbsError: 2.21306e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.61069e-02\tAbsError: 1.47912e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.09117e-04\tAbsError: 7.33941e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 7.25338e-03\tAbsError: 2.33234e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.83356e-06\tAbsError: 2.37307e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.94073e+01\tAbsError: 8.32958e+15\n", - " Region: \"zone_1\"\tRelError: 1.77016e+01\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77016e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.06764e-10\tAbsError: 1.76108e-07\n", - " Region: \"zone_3\"\tRelError: 1.70569e+00\tAbsError: 8.32958e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69637e-01\tAbsError: 4.59097e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69532e-01\tAbsError: 3.73860e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66519e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.06930e-10\tAbsError: 1.76171e-07\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 7.01035e-01\tAbsError: 1.64733e+14\n", - " Region: \"zone_1\"\tRelError: 2.03094e-01\tAbsError: 1.60100e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03048e-01\tAbsError: 7.96658e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.59052e-05\tAbsError: 1.59303e-02\n", - " Region: \"zone_3\"\tRelError: 4.97941e-01\tAbsError: 1.64733e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17881e-03\tAbsError: 7.88164e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.07895e-03\tAbsError: 8.59168e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.85637e-01\tAbsError: 8.00849e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.59052e-05\tAbsError: 1.59303e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.71219e-01\tAbsError: 6.21215e+12\n", - " Region: \"zone_1\"\tRelError: 2.71681e-02\tAbsError: 1.54198e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.71591e-02\tAbsError: 1.22657e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.07418e-06\tAbsError: 3.15411e-03\n", - " Region: \"zone_3\"\tRelError: 3.44051e-01\tAbsError: 6.21215e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.44544e-01\tAbsError: 3.16237e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.45424e-02\tAbsError: 3.04979e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49548e-02\tAbsError: 1.22658e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.07667e-06\tAbsError: 3.15512e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.84622e-01\tAbsError: 1.19910e+15\n", - " Region: \"zone_1\"\tRelError: 9.36472e-02\tAbsError: 3.32184e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.35828e-02\tAbsError: 1.08350e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.44226e-05\tAbsError: 2.23834e-02\n", - " Region: \"zone_3\"\tRelError: 3.90975e-01\tAbsError: 1.19910e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.14567e-01\tAbsError: 6.37142e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.33113e-01\tAbsError: 5.61954e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.32306e-02\tAbsError: 1.08351e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.44226e-05\tAbsError: 2.23834e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.21034e-02\tAbsError: 1.17870e+12\n", - " Region: \"zone_1\"\tRelError: 6.00476e-02\tAbsError: 9.78333e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.00474e-02\tAbsError: 1.73477e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.76068e-07\tAbsError: 9.60986e-05\n", - " Region: \"zone_3\"\tRelError: 2.05571e-03\tAbsError: 1.17870e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.40860e-04\tAbsError: 3.24945e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.38116e-04\tAbsError: 8.53756e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77646e-03\tAbsError: 1.74090e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.76193e-07\tAbsError: 9.61438e-05\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.07616e+01\tAbsError: 3.02291e+15\n", - " Region: \"zone_1\"\tRelError: 9.27113e+00\tAbsError: 6.52674e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.27103e+00\tAbsError: 3.07634e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.92954e-05\tAbsError: 3.45040e-02\n", - " Region: \"zone_3\"\tRelError: 1.49044e+00\tAbsError: 3.02291e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.40308e-01\tAbsError: 1.49698e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.14159e-01\tAbsError: 1.52592e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35875e-01\tAbsError: 3.07635e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.92954e-05\tAbsError: 3.45040e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.04323e-01\tAbsError: 1.53102e+13\n", - " Region: \"zone_1\"\tRelError: 3.15774e-02\tAbsError: 7.15567e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.15568e-02\tAbsError: 7.10876e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.05999e-05\tAbsError: 7.14856e-03\n", - " Region: \"zone_3\"\tRelError: 7.27454e-02\tAbsError: 1.53102e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.94207e-04\tAbsError: 7.65839e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.98721e-04\tAbsError: 7.65181e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.15319e-02\tAbsError: 7.17354e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.06009e-05\tAbsError: 7.14900e-03\n", - "Iteration: 4\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.10597e-01\tAbsError: 2.17642e+14\n", - " Region: \"zone_1\"\tRelError: 5.93953e-03\tAbsError: 2.27414e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.87457e-03\tAbsError: 1.87837e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.49665e-05\tAbsError: 2.25536e-02\n", - " Region: \"zone_3\"\tRelError: 1.04658e-01\tAbsError: 2.17642e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.10024e-02\tAbsError: 1.28740e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.57541e-03\tAbsError: 8.89018e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.40148e-02\tAbsError: 1.94966e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.49665e-05\tAbsError: 2.25536e-02\n", - " Device: \"device\"\tRelError: 9.89806e-02\tAbsError: 2.63223e+12\n", - " Region: \"zone_1\"\tRelError: 1.18037e-02\tAbsError: 2.01002e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17979e-02\tAbsError: 4.44609e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.77536e-06\tAbsError: 2.00557e-03\n", - " Region: \"zone_3\"\tRelError: 8.71768e-02\tAbsError: 2.63223e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.79784e-02\tAbsError: 1.72107e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.64930e-04\tAbsError: 9.11160e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 8.82774e-03\tAbsError: 4.85959e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.77536e-06\tAbsError: 2.00557e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 9.04188e-03\tAbsError: 7.61005e+10\n", - " Region: \"zone_1\"\tRelError: 8.78012e-03\tAbsError: 7.15921e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 8.77992e-03\tAbsError: 4.50957e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.06023e-07\tAbsError: 7.15470e-05\n", - " Region: \"zone_3\"\tRelError: 2.61754e-04\tAbsError: 7.61005e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.33533e-06\tAbsError: 5.83295e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.07541e-06\tAbsError: 1.77711e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.51137e-04\tAbsError: 4.71800e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.06123e-07\tAbsError: 7.15827e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.22732e+00\tAbsError: 2.06865e+15\n", - " Region: \"zone_1\"\tRelError: 2.78568e-01\tAbsError: 2.74627e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78563e-01\tAbsError: 2.58185e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73142e-06\tAbsError: 1.64416e-03\n", - " Region: \"zone_3\"\tRelError: 9.48751e-01\tAbsError: 2.06865e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.44918e-01\tAbsError: 9.02348e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.89155e-01\tAbsError: 1.16630e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14673e-01\tAbsError: 2.51147e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73142e-06\tAbsError: 1.64416e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.82885e-02\tAbsError: 7.75343e+12\n", - " Region: \"zone_1\"\tRelError: 1.74263e-02\tAbsError: 1.11082e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74231e-02\tAbsError: 3.27682e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.18949e-06\tAbsError: 1.10754e-03\n", - " Region: \"zone_3\"\tRelError: 4.08622e-02\tAbsError: 7.75343e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.01160e-04\tAbsError: 3.88269e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.99390e-04\tAbsError: 3.87074e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.02585e-02\tAbsError: 3.34987e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.19059e-06\tAbsError: 1.10796e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.68793e-02\tAbsError: 1.13806e+13\n", - " Region: \"zone_1\"\tRelError: 3.05155e-03\tAbsError: 2.63465e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.05082e-03\tAbsError: 9.56254e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.29620e-07\tAbsError: 2.53902e-04\n", - " Region: \"zone_3\"\tRelError: 3.38277e-02\tAbsError: 1.13806e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.73812e-04\tAbsError: 4.54978e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.93557e-04\tAbsError: 6.83078e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.21596e-02\tAbsError: 9.77882e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.29928e-07\tAbsError: 2.54016e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.30530e-03\tAbsError: 9.78003e+11\n", - " Region: \"zone_1\"\tRelError: 1.14749e-03\tAbsError: 1.38882e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14710e-03\tAbsError: 1.45671e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.94799e-07\tAbsError: 1.37425e-04\n", - " Region: \"zone_3\"\tRelError: 1.15781e-03\tAbsError: 9.78003e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.11703e-04\tAbsError: 2.41528e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.06316e-04\tAbsError: 7.36475e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 9.39392e-04\tAbsError: 1.46178e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.94968e-07\tAbsError: 1.37486e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.96510e-03\tAbsError: 6.67503e+10\n", - " Region: \"zone_1\"\tRelError: 5.78981e-03\tAbsError: 2.05708e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.78981e-03\tAbsError: 5.92280e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.73914e-09\tAbsError: 1.99785e-06\n", - " Region: \"zone_3\"\tRelError: 1.75286e-04\tAbsError: 6.67503e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.50783e-06\tAbsError: 2.76624e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.46016e-06\tAbsError: 3.90878e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.64312e-04\tAbsError: 5.92735e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.74272e-09\tAbsError: 1.99915e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 7.18897e+00\tAbsError: 6.29402e+14\n", - " Region: \"zone_1\"\tRelError: 6.86170e+00\tAbsError: 2.22868e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.86166e+00\tAbsError: 9.16572e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.77613e-05\tAbsError: 1.31211e-02\n", - " Region: \"zone_3\"\tRelError: 3.27267e-01\tAbsError: 6.29402e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84319e-01\tAbsError: 3.28649e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.08857e-01\tAbsError: 3.00753e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.40527e-02\tAbsError: 9.16579e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.77613e-05\tAbsError: 1.31211e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.09210e-02\tAbsError: 1.22286e+12\n", - " Region: \"zone_1\"\tRelError: 3.28469e-03\tAbsError: 4.72819e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.28333e-03\tAbsError: 4.87030e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36013e-06\tAbsError: 4.72332e-04\n", - " Region: \"zone_3\"\tRelError: 7.63634e-03\tAbsError: 1.22286e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.75678e-05\tAbsError: 6.11672e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.73305e-05\tAbsError: 6.11193e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 7.54008e-03\tAbsError: 5.02425e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36049e-06\tAbsError: 4.72455e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.03979e-04\tAbsError: 2.18534e+11\n", - " Region: \"zone_1\"\tRelError: 1.60281e-05\tAbsError: 7.35130e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39125e-05\tAbsError: 1.32164e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.11558e-06\tAbsError: 7.34998e-04\n", - " Region: \"zone_3\"\tRelError: 1.87951e-04\tAbsError: 2.18534e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43155e-05\tAbsError: 1.73222e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.05806e-06\tAbsError: 4.53126e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.64462e-04\tAbsError: 1.32403e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.11561e-06\tAbsError: 7.35020e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 9.98595e-04\tAbsError: 1.18398e+11\n", - " Region: \"zone_1\"\tRelError: 5.54916e-04\tAbsError: 5.37957e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.54761e-04\tAbsError: 7.07360e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54699e-07\tAbsError: 5.37249e-05\n", - " Region: \"zone_3\"\tRelError: 4.43679e-04\tAbsError: 1.18398e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.67115e-06\tAbsError: 8.17908e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.59258e-06\tAbsError: 3.66073e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.26261e-04\tAbsError: 7.44323e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54699e-07\tAbsError: 5.37249e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 4.04179e-05\tAbsError: 1.70330e+09\n", - " Region: \"zone_1\"\tRelError: 3.88667e-05\tAbsError: 3.90113e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.88554e-05\tAbsError: 6.75226e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12212e-08\tAbsError: 3.90046e-06\n", - " Region: \"zone_3\"\tRelError: 1.55121e-06\tAbsError: 1.70330e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50666e-07\tAbsError: 1.31512e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.21755e-07\tAbsError: 3.88171e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 1.26756e-06\tAbsError: 6.93990e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12225e-08\tAbsError: 3.90096e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.42105e-01\tAbsError: 9.57843e+13\n", - " Region: \"zone_1\"\tRelError: 5.64317e-01\tAbsError: 1.44974e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.64276e-01\tAbsError: 1.24104e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14024e-05\tAbsError: 1.43733e-02\n", - " Region: \"zone_3\"\tRelError: 7.77880e-02\tAbsError: 9.57843e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.25473e-02\tAbsError: 4.71405e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.65020e-03\tAbsError: 4.86438e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.95491e-02\tAbsError: 1.28397e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14024e-05\tAbsError: 1.43733e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:16\u001b[0m.\u001b[1;36m499\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:16\u001b[0m.\u001b[1;36m499\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.4149999999999999\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.38843e-03\tAbsError: 5.18838e+11\n", - " Region: \"zone_1\"\tRelError: 1.31867e-03\tAbsError: 9.39018e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31840e-03\tAbsError: 1.99779e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69826e-07\tAbsError: 9.37020e-05\n", - " Region: \"zone_3\"\tRelError: 3.06976e-03\tAbsError: 5.18838e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95362e-05\tAbsError: 2.68345e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.93671e-05\tAbsError: 2.50493e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.03058e-03\tAbsError: 2.07424e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69859e-07\tAbsError: 9.37138e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.91239e-03\tAbsError: 7.09181e+11\n", - " Region: \"zone_1\"\tRelError: 2.49097e-04\tAbsError: 3.52425e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.48997e-04\tAbsError: 3.65197e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00466e-07\tAbsError: 3.48773e-05\n", - " Region: \"zone_3\"\tRelError: 2.66329e-03\tAbsError: 7.09181e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.58653e-05\tAbsError: 3.59049e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.57679e-05\tAbsError: 3.50132e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.59156e-03\tAbsError: 3.83392e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00492e-07\tAbsError: 3.48870e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.20992e-04\tAbsError: 4.75382e+10\n", - " Region: \"zone_1\"\tRelError: 1.19915e-04\tAbsError: 5.94017e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19898e-04\tAbsError: 4.49644e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69359e-08\tAbsError: 5.89520e-06\n", - " Region: \"zone_3\"\tRelError: 1.01077e-04\tAbsError: 4.75382e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.86193e-06\tAbsError: 1.68091e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.82821e-06\tAbsError: 3.07291e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 9.33703e-05\tAbsError: 4.50130e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69437e-08\tAbsError: 5.89805e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.36557e-01\tAbsError: 7.18470e+12\n", - " Region: \"zone_1\"\tRelError: 1.16158e-01\tAbsError: 1.78279e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16157e-01\tAbsError: 6.59165e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.94530e-07\tAbsError: 1.71687e-04\n", - " Region: \"zone_3\"\tRelError: 2.03993e-02\tAbsError: 7.18470e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.98223e-04\tAbsError: 2.78831e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.37326e-04\tAbsError: 4.39639e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.92632e-02\tAbsError: 6.83641e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.94530e-07\tAbsError: 1.71687e-04\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 9.50080e-04\tAbsError: 1.03863e+11\n", - " Region: \"zone_1\"\tRelError: 2.85910e-04\tAbsError: 3.37412e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.85814e-04\tAbsError: 4.14946e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.68675e-08\tAbsError: 3.36997e-05\n", - " Region: \"zone_3\"\tRelError: 6.64170e-04\tAbsError: 1.03863e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.88184e-06\tAbsError: 5.40187e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.85553e-06\tAbsError: 4.98443e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 6.56335e-04\tAbsError: 4.30256e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.69043e-08\tAbsError: 3.37128e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.20815e+01\tAbsError: 8.67564e+15\n", - " Region: \"zone_1\"\tRelError: 1.04115e+01\tAbsError: 4.19631e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04115e+01\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.25512e-10\tAbsError: 1.82505e-07\n", - " Region: \"zone_3\"\tRelError: 1.67004e+00\tAbsError: 8.67564e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78190e-01\tAbsError: 5.09472e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.78169e-01\tAbsError: 3.58092e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13676e-01\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.25512e-10\tAbsError: 1.82505e-07\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.24916e-04\tAbsError: 3.32660e+10\n", - " Region: \"zone_1\"\tRelError: 1.94731e-05\tAbsError: 4.52188e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.93431e-05\tAbsError: 2.17514e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.30085e-07\tAbsError: 4.51970e-05\n", - " Region: \"zone_3\"\tRelError: 2.05443e-04\tAbsError: 3.32660e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.93944e-06\tAbsError: 1.53287e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.96480e-06\tAbsError: 1.79373e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.01409e-04\tAbsError: 2.25864e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.30134e-07\tAbsError: 4.52143e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 4.02467e-05\tAbsError: 4.79398e+09\n", - " Region: \"zone_1\"\tRelError: 2.23553e-05\tAbsError: 2.42948e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.23483e-05\tAbsError: 2.94730e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.98740e-09\tAbsError: 2.42654e-06\n", - " Region: \"zone_3\"\tRelError: 1.78914e-05\tAbsError: 4.79398e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.44215e-07\tAbsError: 3.54889e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.39137e-07\tAbsError: 1.24509e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72010e-05\tAbsError: 3.09105e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.98888e-09\tAbsError: 2.42708e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:19\u001b[0m.\u001b[1;36m018\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:19\u001b[0m.\u001b[1;36m018\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.42999999999999994\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Iteration: 11\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - " Device: \"device\"\tRelError: 3.25927e-04\tAbsError: 3.72019e+10\n", - " Region: \"zone_1\"\tRelError: 9.80813e-05\tAbsError: 7.68282e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 9.80593e-05\tAbsError: 1.46928e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.20415e-08\tAbsError: 7.66812e-06\n", - " Region: \"zone_3\"\tRelError: 2.27846e-04\tAbsError: 3.72019e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.36089e-06\tAbsError: 1.97599e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.34801e-06\tAbsError: 1.74420e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.25115e-04\tAbsError: 1.52180e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.20501e-08\tAbsError: 7.67121e-06\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "Iteration: 6\n", - "number of equations 31816\n", - " Device: \"device\"\tRelError: 3.13498e-03\tAbsError: 1.41105e+11\n", - " Region: \"zone_1\"\tRelError: 2.73398e-03\tAbsError: 4.76357e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.73260e-03\tAbsError: 1.35633e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37060e-06\tAbsError: 4.76221e-04\n", - " Region: \"zone_3\"\tRelError: 4.01007e-04\tAbsError: 1.41105e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.96062e-06\tAbsError: 6.85210e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.81427e-06\tAbsError: 7.25836e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.87862e-04\tAbsError: 1.38229e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37060e-06\tAbsError: 4.76221e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.73360e+00\tAbsError: 3.35480e+14\n", - " Region: \"zone_1\"\tRelError: 2.38462e-01\tAbsError: 8.41052e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.38311e-01\tAbsError: 3.19528e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.50056e-04\tAbsError: 5.21524e-02\n", - " Region: \"zone_3\"\tRelError: 1.49514e+00\tAbsError: 3.35480e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.54534e-01\tAbsError: 2.44689e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.47448e-01\tAbsError: 9.07907e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.30055e-02\tAbsError: 3.19532e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.50056e-04\tAbsError: 5.21524e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.07837e-04\tAbsError: 4.44485e+10\n", - " Region: \"zone_1\"\tRelError: 1.78877e-05\tAbsError: 4.90272e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.78736e-05\tAbsError: 2.11659e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.40500e-08\tAbsError: 4.88155e-06\n", - " Region: \"zone_3\"\tRelError: 1.89950e-04\tAbsError: 4.44485e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.17511e-06\tAbsError: 2.50623e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.16753e-06\tAbsError: 1.93862e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.85593e-04\tAbsError: 2.23490e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.40541e-08\tAbsError: 4.88301e-06\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 7.72661e-05\tAbsError: 8.43440e+09\n", - " Region: \"zone_1\"\tRelError: 2.32650e-05\tAbsError: 2.49052e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.32578e-05\tAbsError: 3.39814e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.14902e-09\tAbsError: 2.48712e-06\n", - " Region: \"zone_3\"\tRelError: 5.40011e-05\tAbsError: 8.43440e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.08161e-07\tAbsError: 4.47974e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.05735e-07\tAbsError: 3.95466e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 5.33800e-05\tAbsError: 3.51782e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.15190e-09\tAbsError: 2.48816e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:20\u001b[0m.\u001b[1;36m339\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.8\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.31814e-02\tAbsError: 4.58362e+11\n", - " Region: \"zone_1\"\tRelError: 1.15315e-02\tAbsError: 2.80900e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15314e-02\tAbsError: 2.57528e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.01667e-08\tAbsError: 2.78324e-05\n", - " Region: \"zone_3\"\tRelError: 1.64997e-03\tAbsError: 4.58362e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47024e-05\tAbsError: 2.30121e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.45967e-05\tAbsError: 2.28241e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.60059e-03\tAbsError: 2.62890e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.01667e-08\tAbsError: 2.78324e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.20945e+01\tAbsError: 9.08577e+15\n", - " Region: \"zone_1\"\tRelError: 2.04049e+01\tAbsError: 4.29340e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.04049e+01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.00423e-10\tAbsError: 2.09004e-07\n", - " Region: \"zone_3\"\tRelError: 1.68962e+00\tAbsError: 9.08577e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86117e-01\tAbsError: 5.34441e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.86097e-01\tAbsError: 3.74136e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17405e-01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.00698e-10\tAbsError: 2.09103e-07\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.09215e+00\tAbsError: 7.66077e+13\n", - " Region: \"zone_1\"\tRelError: 7.77139e-02\tAbsError: 3.29192e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.76937e-02\tAbsError: 2.58684e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.02868e-05\tAbsError: 7.05086e-03\n", - " Region: \"zone_3\"\tRelError: 1.01444e+00\tAbsError: 7.66077e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.64635e-01\tAbsError: 4.57472e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.42937e-01\tAbsError: 3.08605e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06843e-01\tAbsError: 2.58845e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.02868e-05\tAbsError: 7.05086e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.81036e-05\tAbsError: 4.66807e+09\n", - " Region: \"zone_1\"\tRelError: 2.43253e-06\tAbsError: 3.06352e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.42372e-06\tAbsError: 2.50658e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.81013e-09\tAbsError: 3.06101e-06\n", - " Region: \"zone_3\"\tRelError: 2.56711e-05\tAbsError: 4.66807e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.45544e-07\tAbsError: 2.66353e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.46673e-07\tAbsError: 2.00454e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.51700e-05\tAbsError: 2.62757e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.81170e-09\tAbsError: 3.06156e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:21\u001b[0m.\u001b[1;36m434\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:21\u001b[0m.\u001b[1;36m434\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7333333333333334\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.25913e-03\tAbsError: 2.71128e+10\n", - " Region: \"zone_1\"\tRelError: 1.10973e-03\tAbsError: 2.99279e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10965e-03\tAbsError: 1.77983e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.60783e-08\tAbsError: 2.99101e-05\n", - " Region: \"zone_3\"\tRelError: 1.49391e-04\tAbsError: 2.71128e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.61984e-06\tAbsError: 1.29863e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.63350e-06\tAbsError: 1.41265e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.46052e-04\tAbsError: 1.82225e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.61134e-08\tAbsError: 2.99224e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.91796e+01\tAbsError: 8.00136e+16\n", - " Region: \"zone_1\"\tRelError: 1.61687e+01\tAbsError: 4.09548e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.61687e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75011e-09\tAbsError: 6.08861e-07\n", - " Region: \"zone_3\"\tRelError: 3.01093e+00\tAbsError: 8.00136e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.66958e-01\tAbsError: 4.00295e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.65547e-01\tAbsError: 3.99841e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.47843e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75082e-09\tAbsError: 6.09112e-07\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.77996e+00\tAbsError: 3.92703e+14\n", - " Region: \"zone_1\"\tRelError: 2.52242e-01\tAbsError: 8.68469e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.52087e-01\tAbsError: 3.31003e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54646e-04\tAbsError: 5.37466e-02\n", - " Region: \"zone_3\"\tRelError: 1.52772e+00\tAbsError: 3.92703e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.68572e-01\tAbsError: 2.83122e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.62116e-01\tAbsError: 1.09581e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.68743e-02\tAbsError: 3.31007e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54646e-04\tAbsError: 5.37466e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.42585e-01\tAbsError: 2.72886e+13\n", - " Region: \"zone_1\"\tRelError: 2.71416e-02\tAbsError: 1.31199e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.71346e-02\tAbsError: 1.06617e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.07272e-06\tAbsError: 2.45812e-03\n", - " Region: \"zone_3\"\tRelError: 3.15443e-01\tAbsError: 2.72886e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.17067e-01\tAbsError: 1.32533e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.10019e-02\tAbsError: 1.40354e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.73671e-02\tAbsError: 1.06618e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.07672e-06\tAbsError: 2.45957e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.88747e+01\tAbsError: 2.64080e+16\n", - " Region: \"zone_1\"\tRelError: 1.70725e+01\tAbsError: 4.20731e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.70725e+01\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.40999e-09\tAbsError: 4.89892e-07\n", - " Region: \"zone_3\"\tRelError: 1.80221e+00\tAbsError: 2.64080e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78443e-01\tAbsError: 1.32620e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.78018e-01\tAbsError: 1.31460e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.45750e-01\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41018e-09\tAbsError: 4.89958e-07\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 9.89584e-04\tAbsError: 2.93050e+10\n", - " Region: \"zone_1\"\tRelError: 8.69289e-04\tAbsError: 3.58476e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.69279e-04\tAbsError: 1.49163e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.02736e-08\tAbsError: 3.56984e-06\n", - " Region: \"zone_3\"\tRelError: 1.20295e-04\tAbsError: 2.93050e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52554e-06\tAbsError: 1.64489e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.51838e-06\tAbsError: 1.28561e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17241e-04\tAbsError: 1.55101e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.02768e-08\tAbsError: 3.57094e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.18761e+00\tAbsError: 1.05578e+14\n", - " Region: \"zone_1\"\tRelError: 1.15764e-01\tAbsError: 3.33783e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15742e-01\tAbsError: 2.55891e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.24115e-05\tAbsError: 7.78922e-03\n", - " Region: \"zone_3\"\tRelError: 1.07184e+00\tAbsError: 1.05578e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.87584e-01\tAbsError: 6.29656e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.72837e-01\tAbsError: 4.26125e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11399e-01\tAbsError: 2.58759e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.24115e-05\tAbsError: 7.78922e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.23024e+00\tAbsError: 7.24788e+16\n", - " Region: \"zone_1\"\tRelError: 2.89301e-01\tAbsError: 2.81842e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88577e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.23562e-04\tAbsError: 2.51079e-01\n", - " Region: \"zone_3\"\tRelError: 2.94094e+00\tAbsError: 7.24788e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.29061e-01\tAbsError: 3.72143e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.83761e-01\tAbsError: 3.52645e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.62740e+00\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.23562e-04\tAbsError: 2.51079e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.78641e-02\tAbsError: 3.94985e+12\n", - " Region: \"zone_1\"\tRelError: 3.30932e-03\tAbsError: 1.76151e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.30433e-03\tAbsError: 2.82510e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.99157e-06\tAbsError: 1.73326e-03\n", - " Region: \"zone_3\"\tRelError: 7.45548e-02\tAbsError: 3.94985e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.56024e-02\tAbsError: 2.31572e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.47093e-03\tAbsError: 1.63413e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.47641e-03\tAbsError: 3.06646e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.99157e-06\tAbsError: 1.73326e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.82088e+00\tAbsError: 2.75253e+16\n", - " Region: \"zone_1\"\tRelError: 2.37750e-01\tAbsError: 1.45747e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.37423e-01\tAbsError: 3.20819e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.27266e-04\tAbsError: 1.13665e-01\n", - " Region: \"zone_3\"\tRelError: 1.58313e+00\tAbsError: 2.75253e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.53221e-01\tAbsError: 1.38558e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.18941e-01\tAbsError: 1.36695e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.10644e-01\tAbsError: 3.20820e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.27266e-04\tAbsError: 1.13665e-01\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.48739e-04\tAbsError: 3.41314e+09\n", - " Region: \"zone_1\"\tRelError: 1.31134e-04\tAbsError: 2.06494e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31128e-04\tAbsError: 1.91971e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.93716e-09\tAbsError: 2.06302e-06\n", - " Region: \"zone_3\"\tRelError: 1.76048e-05\tAbsError: 3.41314e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88514e-07\tAbsError: 1.94837e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.89063e-07\tAbsError: 1.46477e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72213e-05\tAbsError: 1.99642e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.93836e-09\tAbsError: 2.06344e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.18721e-01\tAbsError: 4.05656e+13\n", - " Region: \"zone_1\"\tRelError: 5.06770e-02\tAbsError: 1.49437e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.06693e-02\tAbsError: 1.22657e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.70556e-06\tAbsError: 2.67801e-03\n", - " Region: \"zone_3\"\tRelError: 3.68044e-01\tAbsError: 4.05656e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.42993e-01\tAbsError: 1.95799e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.22533e-02\tAbsError: 2.09857e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.27901e-02\tAbsError: 1.22657e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.70854e-06\tAbsError: 2.67909e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 5.71850e+00\tAbsError: 4.10464e+16\n", - " Region: \"zone_1\"\tRelError: 1.82923e-01\tAbsError: 1.08958e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82684e-01\tAbsError: 2.58969e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.39429e-04\tAbsError: 8.30609e-02\n", - " Region: \"zone_3\"\tRelError: 5.53558e+00\tAbsError: 4.10464e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16071e-01\tAbsError: 2.08924e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.47287e-01\tAbsError: 2.01540e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 4.77198e+00\tAbsError: 2.46271e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.39429e-04\tAbsError: 8.30609e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.10513e-03\tAbsError: 8.23293e+11\n", - " Region: \"zone_1\"\tRelError: 1.04330e-04\tAbsError: 1.16877e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03998e-04\tAbsError: 1.23528e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.32247e-07\tAbsError: 1.15642e-04\n", - " Region: \"zone_3\"\tRelError: 1.00080e-03\tAbsError: 8.23293e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.05747e-04\tAbsError: 1.97507e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.12169e-05\tAbsError: 6.25787e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 8.13504e-04\tAbsError: 1.23947e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.32377e-07\tAbsError: 1.15689e-04\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 7.33109e-05\tAbsError: 1.99171e+09\n", - " Region: \"zone_1\"\tRelError: 6.45108e-05\tAbsError: 3.50573e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 6.45098e-05\tAbsError: 1.06453e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00585e-09\tAbsError: 3.49509e-07\n", - " Region: \"zone_3\"\tRelError: 8.80007e-06\tAbsError: 1.99171e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03719e-07\tAbsError: 1.17952e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03272e-07\tAbsError: 8.12184e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 8.59208e-06\tAbsError: 1.10473e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00600e-09\tAbsError: 3.49562e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:25\u001b[0m.\u001b[1;36m564\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.7000000000000001\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.55444e+00\tAbsError: 1.76419e+16\n", - " Region: \"zone_1\"\tRelError: 2.12177e-01\tAbsError: 9.72099e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.11971e-01\tAbsError: 2.57520e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.05785e-04\tAbsError: 7.14579e-02\n", - " Region: \"zone_3\"\tRelError: 1.34226e+00\tAbsError: 1.76419e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.66220e-01\tAbsError: 8.87623e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.15790e-01\tAbsError: 8.76568e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 4.60047e-01\tAbsError: 2.51951e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.05785e-04\tAbsError: 7.14579e-02\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.36553e-02\tAbsError: 6.47712e+12\n", - " Region: \"zone_1\"\tRelError: 5.76964e-03\tAbsError: 1.83664e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.76447e-03\tAbsError: 4.26587e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.16650e-06\tAbsError: 1.79398e-03\n", - " Region: \"zone_3\"\tRelError: 8.78857e-02\tAbsError: 6.47712e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.64913e-02\tAbsError: 3.28452e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.27207e-03\tAbsError: 3.19260e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.11716e-03\tAbsError: 4.70869e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.16650e-06\tAbsError: 1.79398e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.06773e+00\tAbsError: 1.32751e+16\n", - " Region: \"zone_1\"\tRelError: 2.27618e-01\tAbsError: 5.11022e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.27498e-01\tAbsError: 9.16524e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20880e-04\tAbsError: 4.19369e-02\n", - " Region: \"zone_3\"\tRelError: 8.40108e-01\tAbsError: 1.32751e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.49254e-01\tAbsError: 7.44002e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.85993e-02\tAbsError: 5.83511e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 6.12131e-01\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.23429e-04\tAbsError: 4.28226e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.28970e-04\tAbsError: 9.94655e+10\n", - " Region: \"zone_1\"\tRelError: 4.30793e-05\tAbsError: 4.60610e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.29469e-05\tAbsError: 6.33876e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32459e-07\tAbsError: 4.59976e-05\n", - " Region: \"zone_3\"\tRelError: 3.85891e-04\tAbsError: 9.94655e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.53699e-06\tAbsError: 6.91076e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.47213e-06\tAbsError: 3.03579e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.72749e-04\tAbsError: 6.61958e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32459e-07\tAbsError: 4.59976e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 9.48982e-01\tAbsError: 5.47232e+15\n", - " Region: \"zone_1\"\tRelError: 2.62221e-01\tAbsError: 3.66128e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.62147e-01\tAbsError: 1.08344e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.42397e-05\tAbsError: 2.57784e-02\n", - " Region: \"zone_3\"\tRelError: 6.86761e-01\tAbsError: 5.47232e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.00853e-01\tAbsError: 3.04385e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.20754e-01\tAbsError: 2.42847e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 3.65080e-01\tAbsError: 1.08344e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.42397e-05\tAbsError: 2.57784e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.94222e+01\tAbsError: 1.62190e+16\n", - " Region: \"zone_1\"\tRelError: 2.76662e+01\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.76662e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.29578e-10\tAbsError: 1.49268e-07\n", - " Region: \"zone_3\"\tRelError: 1.75598e+00\tAbsError: 1.62190e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69267e-01\tAbsError: 8.18784e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.68971e-01\tAbsError: 8.03117e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.17740e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.29628e-10\tAbsError: 1.49286e-07\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.06683e-03\tAbsError: 8.40765e+11\n", - " Region: \"zone_1\"\tRelError: 1.57719e-04\tAbsError: 1.34612e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.57335e-04\tAbsError: 1.22953e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.83760e-07\tAbsError: 1.33383e-04\n", - " Region: \"zone_3\"\tRelError: 9.09114e-04\tAbsError: 8.40765e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34420e-04\tAbsError: 1.93982e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.02092e-05\tAbsError: 6.46783e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 6.94101e-04\tAbsError: 1.22991e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.83760e-07\tAbsError: 1.33383e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.91937e-01\tAbsError: 2.33353e+15\n", - " Region: \"zone_1\"\tRelError: 2.61363e-02\tAbsError: 3.15290e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.52274e-02\tAbsError: 2.65917e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.08859e-04\tAbsError: 3.15024e-01\n", - " Region: \"zone_3\"\tRelError: 2.65801e-01\tAbsError: 2.33353e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.40034e-02\tAbsError: 1.23195e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.91867e-03\tAbsError: 1.10158e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20969e-01\tAbsError: 2.95967e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.10098e-04\tAbsError: 3.15450e-01\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 9.83107e-05\tAbsError: 4.06168e+10\n", - " Region: \"zone_1\"\tRelError: 9.45774e-06\tAbsError: 5.00143e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 9.44347e-06\tAbsError: 3.76448e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42610e-08\tAbsError: 4.96378e-06\n", - " Region: \"zone_3\"\tRelError: 8.88530e-05\tAbsError: 4.06168e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.93318e-06\tAbsError: 1.44271e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.90759e-06\tAbsError: 2.61897e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 8.29979e-05\tAbsError: 3.76467e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42674e-08\tAbsError: 4.96613e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:28\u001b[0m.\u001b[1;36m022\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:28\u001b[0m.\u001b[1;36m022\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5199999999999999\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.90750e-01\tAbsError: 1.25498e+15\n", - " Region: \"zone_1\"\tRelError: 2.65651e-02\tAbsError: 1.73575e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.60656e-02\tAbsError: 3.10437e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.99465e-04\tAbsError: 1.73265e-01\n", - " Region: \"zone_3\"\tRelError: 1.64185e-01\tAbsError: 1.25498e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.97354e-02\tAbsError: 5.42826e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.67090e-02\tAbsError: 7.12158e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.72396e-02\tAbsError: 3.38175e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.00813e-04\tAbsError: 1.73727e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.57455e+00\tAbsError: 1.59389e+16\n", - " Region: \"zone_1\"\tRelError: 1.04759e+00\tAbsError: 1.06162e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04737e+00\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17045e-04\tAbsError: 7.53990e-02\n", - " Region: \"zone_3\"\tRelError: 1.52696e+00\tAbsError: 1.59389e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37511e-01\tAbsError: 7.87332e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.04735e-01\tAbsError: 8.06553e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.84502e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17045e-04\tAbsError: 7.53990e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.95550e-04\tAbsError: 1.15056e+11\n", - " Region: \"zone_1\"\tRelError: 4.39510e-05\tAbsError: 4.57599e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.38194e-05\tAbsError: 7.44278e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.31561e-07\tAbsError: 4.56855e-05\n", - " Region: \"zone_3\"\tRelError: 4.51599e-04\tAbsError: 1.15056e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.61381e-06\tAbsError: 7.84993e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.54126e-06\tAbsError: 3.65570e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.36312e-04\tAbsError: 7.77366e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.31561e-07\tAbsError: 4.56855e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.68338e-01\tAbsError: 7.28836e+14\n", - " Region: \"zone_1\"\tRelError: 4.44613e-02\tAbsError: 2.04423e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.44025e-02\tAbsError: 6.98557e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.87704e-05\tAbsError: 2.03724e-02\n", - " Region: \"zone_3\"\tRelError: 4.23877e-01\tAbsError: 7.28836e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.89975e-03\tAbsError: 3.57624e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.06394e-03\tAbsError: 3.71212e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.13854e-01\tAbsError: 7.63149e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.87832e-05\tAbsError: 2.03761e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.65034e+00\tAbsError: 8.64133e+15\n", - " Region: \"zone_1\"\tRelError: 5.95619e+00\tAbsError: 4.19650e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95619e+00\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.98105e-09\tAbsError: 2.07690e-06\n", - " Region: \"zone_3\"\tRelError: 1.69415e+00\tAbsError: 8.64133e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78203e-01\tAbsError: 5.06586e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.78160e-01\tAbsError: 3.57547e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37789e-01\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.98227e-09\tAbsError: 2.07735e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 9.99296e-01\tAbsError: 1.91866e+14\n", - " Region: \"zone_1\"\tRelError: 8.35978e-02\tAbsError: 1.07328e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.35670e-02\tAbsError: 5.58708e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.07772e-05\tAbsError: 1.06770e-02\n", - " Region: \"zone_3\"\tRelError: 9.15698e-01\tAbsError: 1.91866e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.37367e-03\tAbsError: 9.64130e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.19215e-03\tAbsError: 9.54531e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.07102e-01\tAbsError: 5.66702e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.08019e-05\tAbsError: 1.06852e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.14822e+00\tAbsError: 9.83178e+15\n", - " Region: \"zone_1\"\tRelError: 1.39457e-01\tAbsError: 7.32841e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39320e-01\tAbsError: 2.58400e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36592e-04\tAbsError: 4.74441e-02\n", - " Region: \"zone_3\"\tRelError: 1.00877e+00\tAbsError: 9.83178e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43427e-01\tAbsError: 4.83336e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.90483e-01\tAbsError: 4.99841e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74720e-01\tAbsError: 2.58193e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36592e-04\tAbsError: 4.74441e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 8.69185e-05\tAbsError: 3.95954e+10\n", - " Region: \"zone_1\"\tRelError: 7.32516e-06\tAbsError: 6.15078e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 7.30759e-06\tAbsError: 3.68566e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75656e-08\tAbsError: 6.11392e-06\n", - " Region: \"zone_3\"\tRelError: 7.95933e-05\tAbsError: 3.95954e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.79841e-06\tAbsError: 1.32431e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.77435e-06\tAbsError: 2.63522e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.40030e-05\tAbsError: 3.69064e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75729e-08\tAbsError: 6.11658e-06\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.64410e-02\tAbsError: 6.34524e+13\n", - " Region: \"zone_1\"\tRelError: 6.01943e-03\tAbsError: 8.87148e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.99386e-03\tAbsError: 6.06051e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.55757e-05\tAbsError: 8.86542e-03\n", - " Region: \"zone_3\"\tRelError: 6.04216e-02\tAbsError: 6.34524e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43427e-04\tAbsError: 3.11581e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.51084e-04\tAbsError: 3.22943e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95015e-02\tAbsError: 6.26485e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.55822e-05\tAbsError: 8.86737e-03\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:30\u001b[0m.\u001b[1;36m308\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.5399999999999999\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.81068e+00\tAbsError: 9.05561e+14\n", - " Region: \"zone_1\"\tRelError: 2.99568e-01\tAbsError: 7.37289e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.99448e-01\tAbsError: 3.19527e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20214e-04\tAbsError: 4.17762e-02\n", - " Region: \"zone_3\"\tRelError: 1.51111e+00\tAbsError: 9.05561e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.56048e-01\tAbsError: 5.28816e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.42016e-01\tAbsError: 3.76745e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12929e-01\tAbsError: 3.19530e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20214e-04\tAbsError: 4.17762e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.07755e-01\tAbsError: 1.47113e+13\n", - " Region: \"zone_1\"\tRelError: 1.00932e-02\tAbsError: 5.29389e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00780e-02\tAbsError: 4.25637e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52480e-05\tAbsError: 5.28963e-03\n", - " Region: \"zone_3\"\tRelError: 9.76620e-02\tAbsError: 1.47113e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.24736e-04\tAbsError: 7.39880e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.29168e-04\tAbsError: 7.31253e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 9.69928e-02\tAbsError: 4.43112e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52510e-05\tAbsError: 5.29076e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 9.17087e-01\tAbsError: 2.70112e+15\n", - " Region: \"zone_1\"\tRelError: 4.13278e-01\tAbsError: 1.18036e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.12964e-01\tAbsError: 9.16529e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.13541e-04\tAbsError: 1.08871e-01\n", - " Region: \"zone_3\"\tRelError: 5.03809e-01\tAbsError: 2.70112e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.83333e-01\tAbsError: 1.43386e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03452e-01\tAbsError: 1.26726e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.16711e-01\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.13541e-04\tAbsError: 1.08871e-01\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.75673e-02\tAbsError: 3.32993e+13\n", - " Region: \"zone_1\"\tRelError: 3.52548e-03\tAbsError: 1.20689e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.52200e-03\tAbsError: 3.09455e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.47154e-06\tAbsError: 1.20380e-03\n", - " Region: \"zone_3\"\tRelError: 3.40418e-02\tAbsError: 3.32993e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47698e-04\tAbsError: 1.63796e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.38649e-04\tAbsError: 1.69197e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.35520e-02\tAbsError: 3.11273e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.47235e-06\tAbsError: 1.20402e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.78742e+01\tAbsError: 9.05161e+15\n", - " Region: \"zone_1\"\tRelError: 1.61544e+01\tAbsError: 4.29358e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.61544e+01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.66407e-09\tAbsError: 1.96688e-06\n", - " Region: \"zone_3\"\tRelError: 1.71987e+00\tAbsError: 9.05161e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86128e-01\tAbsError: 5.27529e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.86079e-01\tAbsError: 3.77633e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.47659e-01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.66503e-09\tAbsError: 1.96717e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.20896e+00\tAbsError: 4.60776e+14\n", - " Region: \"zone_1\"\tRelError: 2.06112e-01\tAbsError: 3.40032e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06089e-01\tAbsError: 2.58357e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.35020e-05\tAbsError: 8.16746e-03\n", - " Region: \"zone_3\"\tRelError: 1.00285e+00\tAbsError: 4.60776e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.66369e-01\tAbsError: 2.23470e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.34273e-01\tAbsError: 2.37306e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02181e-01\tAbsError: 2.58939e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.35020e-05\tAbsError: 8.16746e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 7.81873e-02\tAbsError: 8.95376e+12\n", - " Region: \"zone_1\"\tRelError: 6.87545e-03\tAbsError: 6.84613e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.87348e-03\tAbsError: 2.15237e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.96616e-06\tAbsError: 6.82460e-04\n", - " Region: \"zone_3\"\tRelError: 7.13119e-02\tAbsError: 8.95376e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.99157e-04\tAbsError: 4.50662e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.97267e-04\tAbsError: 4.44714e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.09135e-02\tAbsError: 2.31794e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.96673e-06\tAbsError: 6.82681e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 4.27279e-01\tAbsError: 8.17053e+14\n", - " Region: \"zone_1\"\tRelError: 1.09940e-01\tAbsError: 2.21034e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09304e-01\tAbsError: 3.29075e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.36020e-04\tAbsError: 2.20705e-01\n", - " Region: \"zone_3\"\tRelError: 3.17339e-01\tAbsError: 8.17053e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.72653e-02\tAbsError: 1.99598e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.68899e-02\tAbsError: 6.17455e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.42547e-01\tAbsError: 3.29140e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.36020e-04\tAbsError: 2.20705e-01\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.47008e-03\tAbsError: 4.77215e+12\n", - " Region: \"zone_1\"\tRelError: 6.05494e-04\tAbsError: 5.38691e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.03946e-04\tAbsError: 4.25617e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54844e-06\tAbsError: 5.38265e-04\n", - " Region: \"zone_3\"\tRelError: 5.86458e-03\tAbsError: 4.77215e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.53153e-05\tAbsError: 2.34800e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.40122e-05\tAbsError: 2.42415e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.79371e-03\tAbsError: 4.28072e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54906e-06\tAbsError: 5.38488e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.83311e+00\tAbsError: 1.26455e+15\n", - " Region: \"zone_1\"\tRelError: 2.88937e-01\tAbsError: 7.51136e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88816e-01\tAbsError: 3.31003e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20899e-04\tAbsError: 4.20134e-02\n", - " Region: \"zone_3\"\tRelError: 1.54417e+00\tAbsError: 1.26455e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.70125e-01\tAbsError: 7.28712e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.54876e-01\tAbsError: 5.35842e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19050e-01\tAbsError: 3.31004e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20899e-04\tAbsError: 4.20134e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.81762e-01\tAbsError: 2.09056e+14\n", - " Region: \"zone_1\"\tRelError: 3.40620e-02\tAbsError: 1.59640e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.40467e-02\tAbsError: 1.06617e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52754e-05\tAbsError: 5.30228e-03\n", - " Region: \"zone_3\"\tRelError: 3.47700e-01\tAbsError: 2.09056e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.14904e-01\tAbsError: 9.42359e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.79965e-02\tAbsError: 1.14820e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.47840e-02\tAbsError: 1.06618e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52847e-05\tAbsError: 5.30556e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.25385e-02\tAbsError: 1.20969e+12\n", - " Region: \"zone_1\"\tRelError: 1.11831e-03\tAbsError: 3.30063e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11736e-03\tAbsError: 2.78057e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.50037e-07\tAbsError: 3.29785e-04\n", - " Region: \"zone_3\"\tRelError: 1.14202e-02\tAbsError: 1.20969e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.69866e-05\tAbsError: 6.07592e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.67629e-05\tAbsError: 6.02095e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13655e-02\tAbsError: 3.03145e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.50221e-07\tAbsError: 3.29847e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 7.01035e-01\tAbsError: 1.64733e+14\n", - " Region: \"zone_1\"\tRelError: 2.03094e-01\tAbsError: 1.60100e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03048e-01\tAbsError: 7.96658e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.59052e-05\tAbsError: 1.59303e-02\n", - " Region: \"zone_3\"\tRelError: 4.97941e-01\tAbsError: 1.64733e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17881e-03\tAbsError: 7.88164e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.07895e-03\tAbsError: 8.59168e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.85637e-01\tAbsError: 8.00849e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.59052e-05\tAbsError: 1.59303e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.65398e-03\tAbsError: 2.00158e+12\n", - " Region: \"zone_1\"\tRelError: 2.48909e-04\tAbsError: 1.00808e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.48620e-04\tAbsError: 1.66964e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.89512e-07\tAbsError: 1.00641e-04\n", - " Region: \"zone_3\"\tRelError: 2.40507e-03\tAbsError: 2.00158e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50347e-05\tAbsError: 9.84888e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.44145e-05\tAbsError: 1.01669e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.37533e-03\tAbsError: 1.67974e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.89623e-07\tAbsError: 1.00681e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.16142e+00\tAbsError: 7.46156e+14\n", - " Region: \"zone_1\"\tRelError: 1.09872e-01\tAbsError: 3.44018e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09847e-01\tAbsError: 2.58558e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.45917e-05\tAbsError: 8.54603e-03\n", - " Region: \"zone_3\"\tRelError: 1.05155e+00\tAbsError: 7.46156e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.89433e-01\tAbsError: 3.46738e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.51496e-01\tAbsError: 3.99417e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10596e-01\tAbsError: 2.58925e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.45917e-05\tAbsError: 8.54603e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 5.61894e-03\tAbsError: 5.53183e+11\n", - " Region: \"zone_1\"\tRelError: 4.98888e-04\tAbsError: 5.92377e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.98718e-04\tAbsError: 1.23657e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69957e-07\tAbsError: 5.91141e-05\n", - " Region: \"zone_3\"\tRelError: 5.12005e-03\tAbsError: 5.53183e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.23601e-05\tAbsError: 2.78254e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.21894e-05\tAbsError: 2.74930e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.09533e-03\tAbsError: 1.34729e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70021e-07\tAbsError: 5.91367e-05\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.24336e-02\tAbsError: 3.60203e+13\n", - " Region: \"zone_1\"\tRelError: 1.30520e-02\tAbsError: 3.73274e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.30417e-02\tAbsError: 1.57108e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.02982e-05\tAbsError: 3.57563e-03\n", - " Region: \"zone_3\"\tRelError: 7.93816e-02\tAbsError: 3.60203e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.15745e-02\tAbsError: 2.04886e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.60979e-03\tAbsError: 1.55317e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11871e-02\tAbsError: 1.66755e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.02982e-05\tAbsError: 3.57563e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.04323e-01\tAbsError: 1.53102e+13\n", - " Region: \"zone_1\"\tRelError: 3.15774e-02\tAbsError: 7.15567e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.15568e-02\tAbsError: 7.10876e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.05999e-05\tAbsError: 7.14856e-03\n", - " Region: \"zone_3\"\tRelError: 7.27454e-02\tAbsError: 1.53102e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.94207e-04\tAbsError: 7.65839e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.98721e-04\tAbsError: 7.65181e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.15319e-02\tAbsError: 7.17354e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.06009e-05\tAbsError: 7.14900e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 5.36228e-04\tAbsError: 3.67963e+11\n", - " Region: \"zone_1\"\tRelError: 5.03370e-05\tAbsError: 3.69568e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.02308e-05\tAbsError: 3.27141e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06219e-07\tAbsError: 3.69241e-05\n", - " Region: \"zone_3\"\tRelError: 4.85891e-04\tAbsError: 3.67963e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.74381e-06\tAbsError: 1.81082e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.63918e-06\tAbsError: 1.86881e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.80402e-04\tAbsError: 3.29054e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06263e-07\tAbsError: 3.69404e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.49598e-01\tAbsError: 3.37443e+14\n", - " Region: \"zone_1\"\tRelError: 4.08488e-02\tAbsError: 1.80805e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.08321e-02\tAbsError: 1.22656e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67328e-05\tAbsError: 5.81483e-03\n", - " Region: \"zone_3\"\tRelError: 4.08750e-01\tAbsError: 3.37443e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.41863e-01\tAbsError: 1.59086e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.25055e-01\tAbsError: 1.78357e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.18148e-02\tAbsError: 1.22657e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67328e-05\tAbsError: 5.81483e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.10979e-03\tAbsError: 9.95031e+10\n", - " Region: \"zone_1\"\tRelError: 9.87539e-05\tAbsError: 2.30772e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 9.86876e-05\tAbsError: 2.32783e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.62809e-08\tAbsError: 2.30539e-05\n", - " Region: \"zone_3\"\tRelError: 1.01104e-03\tAbsError: 9.95031e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.22367e-06\tAbsError: 4.99642e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.19804e-06\tAbsError: 4.95389e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00655e-03\tAbsError: 2.53159e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.63071e-08\tAbsError: 2.30633e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.84514e-04\tAbsError: 1.29331e+11\n", - " Region: \"zone_1\"\tRelError: 1.73204e-05\tAbsError: 7.90813e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72976e-05\tAbsError: 1.15361e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.27155e-08\tAbsError: 7.89660e-06\n", - " Region: \"zone_3\"\tRelError: 1.67193e-04\tAbsError: 1.29331e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.72276e-07\tAbsError: 6.36462e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.31421e-07\tAbsError: 6.56851e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65267e-04\tAbsError: 1.16052e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.27252e-08\tAbsError: 7.90006e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.31903e-03\tAbsError: 1.68866e+12\n", - " Region: \"zone_1\"\tRelError: 6.91359e-04\tAbsError: 2.14092e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.90749e-04\tAbsError: 2.01876e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.10224e-07\tAbsError: 2.12073e-04\n", - " Region: \"zone_3\"\tRelError: 3.62767e-03\tAbsError: 1.68866e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.43300e-04\tAbsError: 5.21952e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.49521e-04\tAbsError: 1.16671e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.23424e-03\tAbsError: 2.02414e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.10224e-07\tAbsError: 2.12073e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.82885e-02\tAbsError: 7.75343e+12\n", - " Region: \"zone_1\"\tRelError: 1.74263e-02\tAbsError: 1.11082e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74231e-02\tAbsError: 3.27682e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.18949e-06\tAbsError: 1.10754e-03\n", - " Region: \"zone_3\"\tRelError: 4.08622e-02\tAbsError: 7.75343e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.01160e-04\tAbsError: 3.88269e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.99390e-04\tAbsError: 3.87074e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.02585e-02\tAbsError: 3.34987e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.19059e-06\tAbsError: 1.10796e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.04059e-01\tAbsError: 6.56185e+13\n", - " Region: \"zone_1\"\tRelError: 1.13333e-02\tAbsError: 6.89729e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13142e-02\tAbsError: 2.55833e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91291e-05\tAbsError: 6.64145e-03\n", - " Region: \"zone_3\"\tRelError: 9.27262e-02\tAbsError: 6.56185e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.04845e-02\tAbsError: 3.55492e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.18771e-02\tAbsError: 3.00692e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03455e-02\tAbsError: 2.71121e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91291e-05\tAbsError: 6.64145e-03\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 4.02059e-04\tAbsError: 3.69694e+10\n", - " Region: \"zone_1\"\tRelError: 3.57703e-05\tAbsError: 4.89345e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.57562e-05\tAbsError: 8.81422e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.40435e-08\tAbsError: 4.88463e-06\n", - " Region: \"zone_3\"\tRelError: 3.66288e-04\tAbsError: 3.69694e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.27052e-07\tAbsError: 1.85869e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.14548e-07\tAbsError: 1.83825e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.64633e-04\tAbsError: 9.53371e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.40489e-08\tAbsError: 4.88659e-06\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 4.13464e-05\tAbsError: 2.75069e+10\n", - " Region: \"zone_1\"\tRelError: 3.88379e-06\tAbsError: 2.55222e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.87646e-06\tAbsError: 2.54121e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.33447e-09\tAbsError: 2.54968e-06\n", - " Region: \"zone_3\"\tRelError: 3.74626e-05\tAbsError: 2.75069e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05752e-07\tAbsError: 1.35376e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.97692e-07\tAbsError: 1.39693e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.70518e-05\tAbsError: 2.55608e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.33751e-09\tAbsError: 2.55078e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:37\u001b[0m.\u001b[1;36m881\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.9\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.11841e-04\tAbsError: 1.66167e+11\n", - " Region: \"zone_1\"\tRelError: 1.33942e-04\tAbsError: 1.03262e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33645e-04\tAbsError: 1.08052e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.97084e-07\tAbsError: 1.03153e-04\n", - " Region: \"zone_3\"\tRelError: 5.77899e-04\tAbsError: 1.66167e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98830e-06\tAbsError: 1.12169e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.86071e-06\tAbsError: 5.39983e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.57753e-04\tAbsError: 1.12755e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.97142e-07\tAbsError: 1.03175e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.09210e-02\tAbsError: 1.22286e+12\n", - " Region: \"zone_1\"\tRelError: 3.28469e-03\tAbsError: 4.72819e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.28333e-03\tAbsError: 4.87030e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36013e-06\tAbsError: 4.72332e-04\n", - " Region: \"zone_3\"\tRelError: 7.63634e-03\tAbsError: 1.22286e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.75678e-05\tAbsError: 6.11672e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.73305e-05\tAbsError: 6.11193e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 7.54008e-03\tAbsError: 5.02425e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36049e-06\tAbsError: 4.72455e-04\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 8.98138e-05\tAbsError: 7.83801e+09\n", - " Region: \"zone_1\"\tRelError: 7.99573e-06\tAbsError: 1.64573e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 7.99100e-06\tAbsError: 1.91199e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.72605e-09\tAbsError: 1.64382e-06\n", - " Region: \"zone_3\"\tRelError: 8.18181e-05\tAbsError: 7.83801e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.75301e-07\tAbsError: 3.93589e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.72990e-07\tAbsError: 3.90212e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 8.14650e-05\tAbsError: 2.06683e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.72787e-09\tAbsError: 1.64450e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:38\u001b[0m.\u001b[1;36m653\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:38\u001b[0m.\u001b[1;36m653\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.8388888888888889\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 9.70535e-03\tAbsError: 3.37743e+12\n", - " Region: \"zone_1\"\tRelError: 8.78757e-04\tAbsError: 1.91107e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 8.78217e-04\tAbsError: 3.61781e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.39528e-07\tAbsError: 1.87489e-04\n", - " Region: \"zone_3\"\tRelError: 8.82659e-03\tAbsError: 3.37743e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.29951e-04\tAbsError: 1.23275e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.83501e-04\tAbsError: 2.14468e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.11260e-03\tAbsError: 3.63680e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.39528e-07\tAbsError: 1.87489e-04\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.44352e-04\tAbsError: 9.70804e+10\n", - " Region: \"zone_1\"\tRelError: 6.34748e-05\tAbsError: 6.25238e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.34570e-05\tAbsError: 6.83828e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77679e-08\tAbsError: 6.18400e-06\n", - " Region: \"zone_3\"\tRelError: 2.80877e-04\tAbsError: 9.70804e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.02045e-06\tAbsError: 4.37083e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.97041e-06\tAbsError: 5.33721e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.68869e-04\tAbsError: 6.99248e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77753e-08\tAbsError: 6.18669e-06\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.38843e-03\tAbsError: 5.18838e+11\n", - " Region: \"zone_1\"\tRelError: 1.31867e-03\tAbsError: 9.39018e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31840e-03\tAbsError: 1.99779e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69826e-07\tAbsError: 9.37020e-05\n", - " Region: \"zone_3\"\tRelError: 3.06976e-03\tAbsError: 5.18838e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95362e-05\tAbsError: 2.68345e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.93671e-05\tAbsError: 2.50493e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.03058e-03\tAbsError: 2.07424e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69859e-07\tAbsError: 9.37138e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.18618e+01\tAbsError: 3.43486e+17\n", - " Region: \"zone_1\"\tRelError: 4.68734e+01\tAbsError: 4.09548e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.68734e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70509e-09\tAbsError: 5.92742e-07\n", - " Region: \"zone_3\"\tRelError: 1.49884e+01\tAbsError: 3.43486e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.50361e-01\tAbsError: 1.67687e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.42491e-01\tAbsError: 1.75799e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.34955e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70580e-09\tAbsError: 5.92998e-07\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.74946e-04\tAbsError: 1.17170e+11\n", - " Region: \"zone_1\"\tRelError: 2.69263e-05\tAbsError: 2.18382e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.62981e-05\tAbsError: 8.01643e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.28213e-07\tAbsError: 2.18302e-04\n", - " Region: \"zone_3\"\tRelError: 2.48020e-04\tAbsError: 1.17170e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.02611e-06\tAbsError: 9.22316e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.05400e-06\tAbsError: 2.49383e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.31311e-04\tAbsError: 8.38265e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.28213e-07\tAbsError: 2.18302e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.53041e+01\tAbsError: 1.41055e+17\n", - " Region: \"zone_1\"\tRelError: 2.16347e+01\tAbsError: 4.20730e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.16347e+01\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10269e-09\tAbsError: 3.83540e-07\n", - " Region: \"zone_3\"\tRelError: 3.66939e+00\tAbsError: 1.41055e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.74068e-01\tAbsError: 7.09895e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.71643e-01\tAbsError: 7.00658e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.12368e+00\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10312e-09\tAbsError: 3.83698e-07\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 9.50080e-04\tAbsError: 1.03863e+11\n", - " Region: \"zone_1\"\tRelError: 2.85910e-04\tAbsError: 3.37412e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.85814e-04\tAbsError: 4.14946e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.68675e-08\tAbsError: 3.36997e-05\n", - " Region: \"zone_3\"\tRelError: 6.64170e-04\tAbsError: 1.03863e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.88184e-06\tAbsError: 5.40187e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.85553e-06\tAbsError: 4.98443e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 6.56335e-04\tAbsError: 4.30256e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.69043e-08\tAbsError: 3.37128e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.84100e-05\tAbsError: 5.01231e+09\n", - " Region: \"zone_1\"\tRelError: 3.44228e-06\tAbsError: 5.53190e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.42637e-06\tAbsError: 3.08245e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59100e-08\tAbsError: 5.52882e-06\n", - " Region: \"zone_3\"\tRelError: 1.49677e-05\tAbsError: 5.01231e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.92599e-07\tAbsError: 3.85792e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.47636e-07\tAbsError: 1.15439e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.44116e-05\tAbsError: 3.20740e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59126e-08\tAbsError: 5.52983e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 6.59116e+00\tAbsError: 3.05940e+17\n", - " Region: \"zone_1\"\tRelError: 1.06162e+00\tAbsError: 1.92710e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06116e+00\tAbsError: 3.07630e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.67257e-04\tAbsError: 1.61947e-01\n", - " Region: \"zone_3\"\tRelError: 5.52954e+00\tAbsError: 3.05940e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.66708e-01\tAbsError: 1.53394e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.75609e-01\tAbsError: 1.52546e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 4.38676e+00\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.67257e-04\tAbsError: 1.61947e-01\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:40\u001b[0m.\u001b[1;36m975\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:40\u001b[0m.\u001b[1;36m975\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6249999999999999\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 7.74042e-04\tAbsError: 2.09517e+11\n", - " Region: \"zone_1\"\tRelError: 7.83547e-05\tAbsError: 6.01138e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 7.83378e-05\tAbsError: 1.34565e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.68927e-08\tAbsError: 5.87682e-06\n", - " Region: \"zone_3\"\tRelError: 6.95687e-04\tAbsError: 2.09517e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.25872e-05\tAbsError: 1.03107e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.24933e-05\tAbsError: 1.06409e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 6.70590e-04\tAbsError: 1.38390e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69000e-08\tAbsError: 5.87933e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.20501e+00\tAbsError: 1.30894e+17\n", - " Region: \"zone_1\"\tRelError: 6.01862e-01\tAbsError: 3.22703e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 6.01024e-01\tAbsError: 3.20819e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.37922e-04\tAbsError: 2.90621e-01\n", - " Region: \"zone_3\"\tRelError: 2.60314e+00\tAbsError: 1.30894e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.36510e-01\tAbsError: 6.54938e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.78597e-01\tAbsError: 6.54001e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28720e+00\tAbsError: 3.20820e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.38321e-04\tAbsError: 2.90760e-01\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 3.25927e-04\tAbsError: 3.72019e+10\n", - " Region: \"zone_1\"\tRelError: 9.80813e-05\tAbsError: 7.68282e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 9.80593e-05\tAbsError: 1.46928e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.20415e-08\tAbsError: 7.66812e-06\n", - " Region: \"zone_3\"\tRelError: 2.27846e-04\tAbsError: 3.72019e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.36089e-06\tAbsError: 1.97599e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.34801e-06\tAbsError: 1.74420e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.25115e-04\tAbsError: 1.52180e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.20501e-08\tAbsError: 7.67121e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 3.39017e+01\tAbsError: 1.15461e+17\n", - " Region: \"zone_1\"\tRelError: 6.40052e-01\tAbsError: 2.51200e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 6.39402e-01\tAbsError: 2.58690e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.49519e-04\tAbsError: 2.25331e-01\n", - " Region: \"zone_3\"\tRelError: 3.32617e+01\tAbsError: 1.15461e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.89584e-01\tAbsError: 5.80157e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.82182e-01\tAbsError: 5.74450e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.27893e+01\tAbsError: 2.58944e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.51823e-04\tAbsError: 2.26124e-01\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.46441e+00\tAbsError: 8.83603e+15\n", - " Region: \"zone_1\"\tRelError: 3.72799e+00\tAbsError: 4.19630e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.72799e+00\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.33772e-10\tAbsError: 8.13325e-08\n", - " Region: \"zone_3\"\tRelError: 1.73642e+00\tAbsError: 8.83603e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78146e-01\tAbsError: 4.76459e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.78023e-01\tAbsError: 4.07144e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.80255e-01\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.33908e-10\tAbsError: 8.13805e-08\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 7.72661e-05\tAbsError: 8.43440e+09\n", - " Region: \"zone_1\"\tRelError: 2.32650e-05\tAbsError: 2.49052e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.32578e-05\tAbsError: 3.39814e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.14902e-09\tAbsError: 2.48712e-06\n", - " Region: \"zone_3\"\tRelError: 5.40011e-05\tAbsError: 8.43440e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.08161e-07\tAbsError: 4.47974e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.05735e-07\tAbsError: 3.95466e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 5.33800e-05\tAbsError: 3.51782e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.15190e-09\tAbsError: 2.48816e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:42\u001b[0m.\u001b[1;36m967\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.8\u001b[0m \n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.88635e-05\tAbsError: 4.66862e+09\n", - " Region: \"zone_1\"\tRelError: 4.12564e-06\tAbsError: 1.32768e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.08745e-06\tAbsError: 4.74361e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.81931e-08\tAbsError: 1.32720e-05\n", - " Region: \"zone_3\"\tRelError: 3.47379e-05\tAbsError: 4.66862e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.57140e-07\tAbsError: 1.44736e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.64945e-07\tAbsError: 3.22126e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.39776e-05\tAbsError: 4.85044e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.82079e-08\tAbsError: 1.32779e-05\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.03286e+01\tAbsError: 8.35371e+16\n", - " Region: \"zone_1\"\tRelError: 4.37153e+00\tAbsError: 9.54149e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.37133e+00\tAbsError: 2.56531e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.01186e-04\tAbsError: 6.97617e-02\n", - " Region: \"zone_3\"\tRelError: 5.95712e+00\tAbsError: 8.35371e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.11144e-01\tAbsError: 4.33513e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.36389e-01\tAbsError: 4.01858e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 5.20938e+00\tAbsError: 2.33619e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.01186e-04\tAbsError: 6.97617e-02\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:43\u001b[0m.\u001b[1;36m071\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.6499999999999999\u001b[0m\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.34480e+00\tAbsError: 1.48853e+16\n", - " Region: \"zone_1\"\tRelError: 1.80604e-01\tAbsError: 1.59400e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.80172e-01\tAbsError: 9.16501e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.31839e-04\tAbsError: 1.50235e-01\n", - " Region: \"zone_3\"\tRelError: 3.16419e+00\tAbsError: 1.48853e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.34401e-02\tAbsError: 7.53366e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.19569e-02\tAbsError: 7.35164e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 3.07837e+00\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.31839e-04\tAbsError: 1.50235e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.90553e+00\tAbsError: 4.57697e+15\n", - " Region: \"zone_1\"\tRelError: 3.76935e-01\tAbsError: 7.03446e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.76825e-01\tAbsError: 3.19526e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10488e-04\tAbsError: 3.83920e-02\n", - " Region: \"zone_3\"\tRelError: 1.52859e+00\tAbsError: 4.57697e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.54474e-01\tAbsError: 2.17150e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.27922e-01\tAbsError: 2.40547e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.46086e-01\tAbsError: 3.19527e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10488e-04\tAbsError: 3.83920e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 6.45087e+00\tAbsError: 2.30680e+16\n", - " Region: \"zone_1\"\tRelError: 2.57354e+00\tAbsError: 4.22735e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.57345e+00\tAbsError: 1.08343e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.06700e-05\tAbsError: 3.14392e-02\n", - " Region: \"zone_3\"\tRelError: 3.87733e+00\tAbsError: 2.30680e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43899e-01\tAbsError: 1.15701e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.67217e-02\tAbsError: 1.14979e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.66661e+00\tAbsError: 1.08344e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.11459e-05\tAbsError: 3.16036e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.91796e+01\tAbsError: 8.00136e+16\n", - " Region: \"zone_1\"\tRelError: 1.61687e+01\tAbsError: 4.09548e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.61687e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75011e-09\tAbsError: 6.08861e-07\n", - " Region: \"zone_3\"\tRelError: 3.01093e+00\tAbsError: 8.00136e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.66958e-01\tAbsError: 4.00295e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.65547e-01\tAbsError: 3.99841e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.47843e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75082e-09\tAbsError: 6.09112e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.20708e+01\tAbsError: 9.38375e+15\n", - " Region: \"zone_1\"\tRelError: 1.03034e+01\tAbsError: 4.29349e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03034e+01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.20208e-09\tAbsError: 1.11278e-06\n", - " Region: \"zone_3\"\tRelError: 1.76735e+00\tAbsError: 9.38375e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86030e-01\tAbsError: 4.95036e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.85888e-01\tAbsError: 4.43339e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.95437e-01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.20329e-09\tAbsError: 1.11320e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 3.42204e-01\tAbsError: 1.90329e+15\n", - " Region: \"zone_1\"\tRelError: 2.01983e-02\tAbsError: 3.47392e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.91990e-02\tAbsError: 1.15001e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.99221e-04\tAbsError: 3.47277e-01\n", - " Region: \"zone_3\"\tRelError: 3.22006e-01\tAbsError: 1.90329e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.20950e-03\tAbsError: 1.00831e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03234e-03\tAbsError: 8.94978e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.11765e-01\tAbsError: 1.16357e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.99221e-04\tAbsError: 3.47277e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.14033e+00\tAbsError: 3.30058e+15\n", - " Region: \"zone_1\"\tRelError: 1.21947e-01\tAbsError: 3.16391e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21930e-01\tAbsError: 2.58447e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.66760e-05\tAbsError: 5.79442e-03\n", - " Region: \"zone_3\"\tRelError: 1.01838e+00\tAbsError: 3.30058e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.69340e-01\tAbsError: 1.51432e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.17786e-01\tAbsError: 1.78626e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31236e-01\tAbsError: 2.58752e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.66940e-05\tAbsError: 5.80079e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 4.38806e-01\tAbsError: 3.87022e+15\n", - " Region: \"zone_1\"\tRelError: 1.63483e-01\tAbsError: 3.01219e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.62614e-01\tAbsError: 2.23807e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.68652e-04\tAbsError: 3.00995e-01\n", - " Region: \"zone_3\"\tRelError: 2.75324e-01\tAbsError: 3.87022e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.53410e-02\tAbsError: 2.03279e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.51471e-03\tAbsError: 1.83742e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.41598e-01\tAbsError: 2.54619e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.70193e-04\tAbsError: 3.01518e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.23024e+00\tAbsError: 7.24788e+16\n", - " Region: \"zone_1\"\tRelError: 2.89301e-01\tAbsError: 2.81842e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88577e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.23562e-04\tAbsError: 2.51079e-01\n", - " Region: \"zone_3\"\tRelError: 2.94094e+00\tAbsError: 7.24788e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.29061e-01\tAbsError: 3.72143e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.83761e-01\tAbsError: 3.52645e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.62740e+00\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.23562e-04\tAbsError: 2.51079e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.75513e+00\tAbsError: 7.04878e+15\n", - " Region: \"zone_1\"\tRelError: 1.90080e-01\tAbsError: 7.81805e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.89950e-01\tAbsError: 3.31001e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.29742e-04\tAbsError: 4.50804e-02\n", - " Region: \"zone_3\"\tRelError: 1.56505e+00\tAbsError: 7.04878e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67981e-01\tAbsError: 3.36624e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.39518e-01\tAbsError: 3.68255e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.57423e-01\tAbsError: 3.31002e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.29742e-04\tAbsError: 4.50804e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 7.26159e-01\tAbsError: 1.60368e+15\n", - " Region: \"zone_1\"\tRelError: 2.39971e-02\tAbsError: 1.68797e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.39489e-02\tAbsError: 1.07820e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.82419e-05\tAbsError: 1.67718e-02\n", - " Region: \"zone_3\"\tRelError: 7.02162e-01\tAbsError: 1.60368e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.86883e-03\tAbsError: 7.94204e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.42424e-03\tAbsError: 8.09476e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.96821e-01\tAbsError: 1.08766e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.82636e-05\tAbsError: 1.67793e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.85130e-01\tAbsError: 1.12037e+15\n", - " Region: \"zone_1\"\tRelError: 1.02020e-01\tAbsError: 3.15185e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01960e-01\tAbsError: 1.06620e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.00273e-05\tAbsError: 2.08565e-02\n", - " Region: \"zone_3\"\tRelError: 3.83110e-01\tAbsError: 1.12037e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.10094e-01\tAbsError: 5.96108e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.30728e-01\tAbsError: 5.24260e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.22285e-02\tAbsError: 1.06621e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.00273e-05\tAbsError: 2.08565e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 9.06928e-01\tAbsError: 9.73679e+14\n", - " Region: \"zone_1\"\tRelError: 2.09928e-01\tAbsError: 1.87261e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.09874e-01\tAbsError: 5.72449e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.38741e-05\tAbsError: 1.86688e-02\n", - " Region: \"zone_3\"\tRelError: 6.96999e-01\tAbsError: 9.73679e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.31559e-03\tAbsError: 4.72913e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.45755e-03\tAbsError: 5.00766e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.90172e-01\tAbsError: 5.76673e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.38857e-05\tAbsError: 1.86722e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.21630e+00\tAbsError: 5.18264e+15\n", - " Region: \"zone_1\"\tRelError: 1.31236e-01\tAbsError: 3.17671e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31218e-01\tAbsError: 2.57644e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72758e-05\tAbsError: 6.00278e-03\n", - " Region: \"zone_3\"\tRelError: 1.08506e+00\tAbsError: 5.18264e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.91482e-01\tAbsError: 2.47681e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.47298e-01\tAbsError: 2.70583e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.46263e-01\tAbsError: 2.58377e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72758e-05\tAbsError: 6.00278e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 5.71850e+00\tAbsError: 4.10464e+16\n", - " Region: \"zone_1\"\tRelError: 1.82923e-01\tAbsError: 1.08958e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82684e-01\tAbsError: 2.58969e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.39429e-04\tAbsError: 8.30609e-02\n", - " Region: \"zone_3\"\tRelError: 5.53558e+00\tAbsError: 4.10464e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16071e-01\tAbsError: 2.08924e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.47287e-01\tAbsError: 2.01540e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 4.77198e+00\tAbsError: 2.46271e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.39429e-04\tAbsError: 8.30609e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.12346e-01\tAbsError: 1.08123e+14\n", - " Region: \"zone_1\"\tRelError: 3.56238e-03\tAbsError: 1.31451e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.52458e-03\tAbsError: 6.36043e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.77942e-05\tAbsError: 1.31387e-02\n", - " Region: \"zone_3\"\tRelError: 1.08784e-01\tAbsError: 1.08123e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.76703e-04\tAbsError: 5.36465e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.39449e-04\tAbsError: 5.44763e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08330e-01\tAbsError: 6.41381e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.78094e-05\tAbsError: 1.31440e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.07843e-01\tAbsError: 1.90448e+14\n", - " Region: \"zone_1\"\tRelError: 6.11966e-03\tAbsError: 2.20754e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.05660e-03\tAbsError: 1.81593e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.30654e-05\tAbsError: 2.18938e-02\n", - " Region: \"zone_3\"\tRelError: 1.01724e-01\tAbsError: 1.90448e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.14668e-02\tAbsError: 1.08172e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.09051e-03\tAbsError: 8.22757e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.11035e-02\tAbsError: 1.89501e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.30654e-05\tAbsError: 2.18938e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.31957e-01\tAbsError: 8.43789e+13\n", - " Region: \"zone_1\"\tRelError: 3.05440e-02\tAbsError: 8.34398e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.05199e-02\tAbsError: 5.31132e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.40641e-05\tAbsError: 8.33867e-03\n", - " Region: \"zone_3\"\tRelError: 1.01413e-01\tAbsError: 8.43789e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.02209e-04\tAbsError: 4.12417e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.96030e-04\tAbsError: 4.31372e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00790e-01\tAbsError: 5.35042e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.40667e-05\tAbsError: 8.33926e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.06773e+00\tAbsError: 1.32751e+16\n", - " Region: \"zone_1\"\tRelError: 2.27618e-01\tAbsError: 5.11022e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.27498e-01\tAbsError: 9.16524e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20880e-04\tAbsError: 4.19369e-02\n", - " Region: \"zone_3\"\tRelError: 8.40108e-01\tAbsError: 1.32751e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.49254e-01\tAbsError: 7.44002e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.85993e-02\tAbsError: 5.83511e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 6.12131e-01\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.23429e-04\tAbsError: 4.28226e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.70365e-01\tAbsError: 1.98816e+15\n", - " Region: \"zone_1\"\tRelError: 1.29557e-01\tAbsError: 5.07227e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29446e-01\tAbsError: 1.22662e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10816e-04\tAbsError: 3.84565e-02\n", - " Region: \"zone_3\"\tRelError: 4.40808e-01\tAbsError: 1.98816e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.36802e-01\tAbsError: 1.06250e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.52219e-01\tAbsError: 9.25662e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.16747e-02\tAbsError: 1.22663e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11508e-04\tAbsError: 3.86954e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 8.36096e-02\tAbsError: 8.44228e+13\n", - " Region: \"zone_1\"\tRelError: 2.87350e-03\tAbsError: 1.23009e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.86998e-03\tAbsError: 4.23325e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.52636e-06\tAbsError: 1.22586e-03\n", - " Region: \"zone_3\"\tRelError: 8.07361e-02\tAbsError: 8.44228e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46087e-04\tAbsError: 4.18513e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.25646e-04\tAbsError: 4.25715e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.04608e-02\tAbsError: 4.27186e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.52783e-06\tAbsError: 1.22636e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.56387e-02\tAbsError: 1.09978e+13\n", - " Region: \"zone_1\"\tRelError: 2.87891e-03\tAbsError: 1.99562e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.87836e-03\tAbsError: 9.37283e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.46509e-07\tAbsError: 1.90190e-04\n", - " Region: \"zone_3\"\tRelError: 3.27598e-02\tAbsError: 1.09978e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.61573e-04\tAbsError: 4.35709e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.74651e-04\tAbsError: 6.64069e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.11230e-02\tAbsError: 9.56491e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.46810e-07\tAbsError: 1.90300e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 7.58172e-02\tAbsError: 4.70890e+13\n", - " Region: \"zone_1\"\tRelError: 1.84006e-02\tAbsError: 1.09588e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.83975e-02\tAbsError: 2.80956e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.15379e-06\tAbsError: 1.09307e-03\n", - " Region: \"zone_3\"\tRelError: 5.74166e-02\tAbsError: 4.70890e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.82887e-04\tAbsError: 2.29491e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.70413e-04\tAbsError: 2.41400e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.70602e-02\tAbsError: 2.83263e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.15436e-06\tAbsError: 1.09324e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.91937e-01\tAbsError: 2.33353e+15\n", - " Region: \"zone_1\"\tRelError: 2.61363e-02\tAbsError: 3.15290e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.52274e-02\tAbsError: 2.65917e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.08859e-04\tAbsError: 3.15024e-01\n", - " Region: \"zone_3\"\tRelError: 2.65801e-01\tAbsError: 2.33353e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.40034e-02\tAbsError: 1.23195e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.91867e-03\tAbsError: 1.10158e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20969e-01\tAbsError: 2.95967e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.10098e-04\tAbsError: 3.15450e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.63797e-01\tAbsError: 3.64765e+14\n", - " Region: \"zone_1\"\tRelError: 1.74354e-02\tAbsError: 3.39678e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.73383e-02\tAbsError: 2.51825e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.71283e-05\tAbsError: 3.37160e-02\n", - " Region: \"zone_3\"\tRelError: 1.46362e-01\tAbsError: 3.64765e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.05471e-02\tAbsError: 2.16352e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.33909e-02\tAbsError: 1.48413e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.23269e-02\tAbsError: 2.62821e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.71283e-05\tAbsError: 3.37160e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.36875e-02\tAbsError: 9.69294e+12\n", - " Region: \"zone_1\"\tRelError: 4.70501e-04\tAbsError: 6.20216e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.68718e-04\tAbsError: 4.28680e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.78298e-06\tAbsError: 6.19787e-04\n", - " Region: \"zone_3\"\tRelError: 1.32170e-02\tAbsError: 9.69294e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.60935e-05\tAbsError: 4.80983e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.36870e-05\tAbsError: 4.88312e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31854e-02\tAbsError: 4.32490e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.78363e-06\tAbsError: 6.20008e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.52637e-04\tAbsError: 2.13154e+11\n", - " Region: \"zone_1\"\tRelError: 3.74653e-05\tAbsError: 7.19007e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.53962e-05\tAbsError: 1.60128e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.06907e-06\tAbsError: 7.18847e-04\n", - " Region: \"zone_3\"\tRelError: 4.15172e-04\tAbsError: 2.13154e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.13844e-05\tAbsError: 1.35579e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.84410e-06\tAbsError: 7.75754e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.96874e-04\tAbsError: 1.62368e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.06909e-06\tAbsError: 7.18866e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.28991e-02\tAbsError: 6.60678e+12\n", - " Region: \"zone_1\"\tRelError: 3.14837e-03\tAbsError: 5.03566e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.14692e-03\tAbsError: 3.73976e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.44792e-06\tAbsError: 5.03192e-04\n", - " Region: \"zone_3\"\tRelError: 9.75070e-03\tAbsError: 6.60678e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52961e-05\tAbsError: 3.21691e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.35828e-05\tAbsError: 3.38987e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 9.70037e-03\tAbsError: 3.77067e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.44848e-06\tAbsError: 5.03396e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.68338e-01\tAbsError: 7.28836e+14\n", - " Region: \"zone_1\"\tRelError: 4.44613e-02\tAbsError: 2.04423e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.44025e-02\tAbsError: 6.98557e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.87704e-05\tAbsError: 2.03724e-02\n", - " Region: \"zone_3\"\tRelError: 4.23877e-01\tAbsError: 7.28836e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.89975e-03\tAbsError: 3.57624e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.06394e-03\tAbsError: 3.71212e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.13854e-01\tAbsError: 7.63149e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.87832e-05\tAbsError: 2.03761e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.80286e-02\tAbsError: 1.80043e+13\n", - " Region: \"zone_1\"\tRelError: 5.97130e-03\tAbsError: 5.99908e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.96961e-03\tAbsError: 1.31746e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.68890e-06\tAbsError: 5.86733e-04\n", - " Region: \"zone_3\"\tRelError: 5.20573e-02\tAbsError: 1.80043e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.22256e-03\tAbsError: 7.89900e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.11166e-03\tAbsError: 1.01053e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.97214e-02\tAbsError: 1.37677e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.68890e-06\tAbsError: 5.86733e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 6.63798e-03\tAbsError: 4.90503e+12\n", - " Region: \"zone_1\"\tRelError: 2.29406e-04\tAbsError: 9.25474e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29140e-04\tAbsError: 1.97212e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.66464e-07\tAbsError: 9.23502e-05\n", - " Region: \"zone_3\"\tRelError: 6.40857e-03\tAbsError: 4.90503e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.34900e-06\tAbsError: 2.43347e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32522e-06\tAbsError: 2.47155e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 6.39263e-03\tAbsError: 1.99078e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.66498e-07\tAbsError: 9.23593e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.83484e-03\tAbsError: 6.93273e+11\n", - " Region: \"zone_1\"\tRelError: 2.36858e-04\tAbsError: 3.83858e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.36749e-04\tAbsError: 3.60825e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.09532e-07\tAbsError: 3.80250e-05\n", - " Region: \"zone_3\"\tRelError: 2.59798e-03\tAbsError: 6.93273e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.53173e-05\tAbsError: 3.50881e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.52173e-05\tAbsError: 3.42392e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.52733e-03\tAbsError: 3.77534e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.09545e-07\tAbsError: 3.80301e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 5.38897e-03\tAbsError: 2.84599e+12\n", - " Region: \"zone_1\"\tRelError: 1.32294e-03\tAbsError: 9.22092e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.32267e-03\tAbsError: 1.50402e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.64893e-07\tAbsError: 9.20588e-05\n", - " Region: \"zone_3\"\tRelError: 4.06603e-03\tAbsError: 2.84599e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10980e-05\tAbsError: 1.38588e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03237e-05\tAbsError: 1.46010e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.04435e-03\tAbsError: 1.51704e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.64994e-07\tAbsError: 9.20962e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.64410e-02\tAbsError: 6.34524e+13\n", - " Region: \"zone_1\"\tRelError: 6.01943e-03\tAbsError: 8.87148e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.99386e-03\tAbsError: 6.06051e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.55757e-05\tAbsError: 8.86542e-03\n", - " Region: \"zone_3\"\tRelError: 6.04216e-02\tAbsError: 6.34524e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43427e-04\tAbsError: 3.11581e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.51084e-04\tAbsError: 3.22943e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95015e-02\tAbsError: 6.26485e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.55822e-05\tAbsError: 8.86737e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.25648e-03\tAbsError: 7.75715e+11\n", - " Region: \"zone_1\"\tRelError: 4.35799e-05\tAbsError: 3.84452e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.34694e-05\tAbsError: 2.84735e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10539e-07\tAbsError: 3.84167e-05\n", - " Region: \"zone_3\"\tRelError: 1.21290e-03\tAbsError: 7.75715e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28473e-06\tAbsError: 3.85060e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.13479e-06\tAbsError: 3.90655e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21037e-03\tAbsError: 2.87358e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10581e-07\tAbsError: 3.84313e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.25730e-04\tAbsError: 4.09198e+11\n", - " Region: \"zone_1\"\tRelError: 8.09639e-05\tAbsError: 1.05680e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.79223e-05\tAbsError: 2.31215e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.04151e-06\tAbsError: 1.05657e-03\n", - " Region: \"zone_3\"\tRelError: 6.44766e-04\tAbsError: 4.09198e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.69437e-05\tAbsError: 3.66831e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.46261e-05\tAbsError: 4.23676e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 6.00155e-04\tAbsError: 2.35772e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.04158e-06\tAbsError: 1.05661e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.07375e-03\tAbsError: 5.13009e+11\n", - " Region: \"zone_1\"\tRelError: 2.64555e-04\tAbsError: 3.43938e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.64456e-04\tAbsError: 2.89234e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.88826e-08\tAbsError: 3.43649e-05\n", - " Region: \"zone_3\"\tRelError: 8.09198e-04\tAbsError: 5.13009e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.97594e-06\tAbsError: 2.49726e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.84609e-06\tAbsError: 2.63282e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 8.05277e-04\tAbsError: 2.91353e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.89231e-08\tAbsError: 3.43800e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.37341e-04\tAbsError: 3.67215e+10\n", - " Region: \"zone_1\"\tRelError: 2.00671e-05\tAbsError: 4.45514e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.99390e-05\tAbsError: 2.32701e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.28158e-07\tAbsError: 4.45281e-05\n", - " Region: \"zone_3\"\tRelError: 2.17274e-04\tAbsError: 3.67215e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11511e-06\tAbsError: 1.73467e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.13991e-06\tAbsError: 1.93748e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.12891e-04\tAbsError: 2.42196e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.28207e-07\tAbsError: 4.45452e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 4.79935e-04\tAbsError: 3.06765e+11\n", - " Region: \"zone_1\"\tRelError: 1.66486e-05\tAbsError: 7.60779e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66267e-05\tAbsError: 1.06336e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18595e-08\tAbsError: 7.59715e-06\n", - " Region: \"zone_3\"\tRelError: 4.63286e-04\tAbsError: 3.06765e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.16909e-07\tAbsError: 1.52260e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.59699e-07\tAbsError: 1.54505e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.62288e-04\tAbsError: 1.07353e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18679e-08\tAbsError: 7.60017e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.75673e-02\tAbsError: 3.32993e+13\n", - " Region: \"zone_1\"\tRelError: 3.52548e-03\tAbsError: 1.20689e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.52200e-03\tAbsError: 3.09455e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.47154e-06\tAbsError: 1.20380e-03\n", - " Region: \"zone_3\"\tRelError: 3.40418e-02\tAbsError: 3.32993e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47698e-04\tAbsError: 1.63796e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.38649e-04\tAbsError: 1.69197e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.35520e-02\tAbsError: 3.11273e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.47235e-06\tAbsError: 1.20402e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.50762e-03\tAbsError: 1.02667e+12\n", - " Region: \"zone_1\"\tRelError: 4.77667e-04\tAbsError: 4.19184e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.77548e-04\tAbsError: 5.13940e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19272e-07\tAbsError: 4.14045e-05\n", - " Region: \"zone_3\"\tRelError: 4.02995e-03\tAbsError: 1.02667e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.92271e-05\tAbsError: 5.17713e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.89991e-05\tAbsError: 5.08953e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.93161e-03\tAbsError: 5.31847e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19272e-07\tAbsError: 4.14045e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 3.74423e-04\tAbsError: 1.83514e+11\n", - " Region: \"zone_1\"\tRelError: 9.24322e-05\tAbsError: 7.24007e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 9.24114e-05\tAbsError: 1.03473e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.08025e-08\tAbsError: 7.22972e-06\n", - " Region: \"zone_3\"\tRelError: 2.81991e-04\tAbsError: 1.83514e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.14280e-07\tAbsError: 8.93421e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.65006e-07\tAbsError: 9.41716e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.80591e-04\tAbsError: 1.04236e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.08113e-08\tAbsError: 7.23287e-06\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.03654e-04\tAbsError: 4.37520e+10\n", - " Region: \"zone_1\"\tRelError: 1.71235e-05\tAbsError: 5.08015e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.71089e-05\tAbsError: 2.09274e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.45611e-08\tAbsError: 5.05922e-06\n", - " Region: \"zone_3\"\tRelError: 1.86531e-04\tAbsError: 4.37520e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.15573e-06\tAbsError: 2.46704e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.14884e-06\tAbsError: 1.90816e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82212e-04\tAbsError: 2.21547e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.45654e-08\tAbsError: 5.06071e-06\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.01824e-04\tAbsError: 5.91028e+10\n", - " Region: \"zone_1\"\tRelError: 3.53926e-06\tAbsError: 2.67115e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.53158e-06\tAbsError: 2.19844e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.67947e-09\tAbsError: 2.66896e-06\n", - " Region: \"zone_3\"\tRelError: 9.82849e-05\tAbsError: 5.91028e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.78782e-08\tAbsError: 2.93440e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.77169e-08\tAbsError: 2.97588e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 9.80917e-05\tAbsError: 2.22202e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.68243e-09\tAbsError: 2.67005e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.47008e-03\tAbsError: 4.77215e+12\n", - " Region: \"zone_1\"\tRelError: 6.05494e-04\tAbsError: 5.38691e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.03946e-04\tAbsError: 4.25617e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54844e-06\tAbsError: 5.38265e-04\n", - " Region: \"zone_3\"\tRelError: 5.86458e-03\tAbsError: 4.77215e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.53153e-05\tAbsError: 2.34800e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.40122e-05\tAbsError: 2.42415e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.79371e-03\tAbsError: 4.28072e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54906e-06\tAbsError: 5.38488e-04\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 8.29193e-05\tAbsError: 3.84339e+10\n", - " Region: \"zone_1\"\tRelError: 2.05031e-05\tAbsError: 2.36410e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.04963e-05\tAbsError: 2.24932e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.79589e-09\tAbsError: 2.36186e-06\n", - " Region: \"zone_3\"\tRelError: 6.24162e-05\tAbsError: 3.84339e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.48397e-07\tAbsError: 1.87077e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.38686e-07\tAbsError: 1.97262e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 6.21223e-05\tAbsError: 2.26557e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.79872e-09\tAbsError: 2.36287e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.87878e-04\tAbsError: 3.71113e+10\n", - " Region: \"zone_1\"\tRelError: 3.08061e-05\tAbsError: 6.36156e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.06230e-05\tAbsError: 2.65699e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83040e-07\tAbsError: 6.35890e-05\n", - " Region: \"zone_3\"\tRelError: 2.57072e-04\tAbsError: 3.71113e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.17303e-06\tAbsError: 1.49809e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.20928e-06\tAbsError: 2.21304e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.52507e-04\tAbsError: 2.72049e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83108e-07\tAbsError: 6.36126e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:56\u001b[0m.\u001b[1;36m115\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:56\u001b[0m.\u001b[1;36m115\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.9444444444444445\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.86300e-05\tAbsError: 4.83981e+09\n", - " Region: \"zone_1\"\tRelError: 2.42070e-06\tAbsError: 3.03673e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.41197e-06\tAbsError: 2.59560e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.73266e-09\tAbsError: 3.03413e-06\n", - " Region: \"zone_3\"\tRelError: 2.62093e-05\tAbsError: 4.83981e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.54983e-07\tAbsError: 2.76736e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.56118e-07\tAbsError: 2.07245e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.56894e-05\tAbsError: 2.72893e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.73423e-09\tAbsError: 3.03468e-06\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 3.38300e-05\tAbsError: 2.01418e+10\n", - " Region: \"zone_1\"\tRelError: 1.17571e-06\tAbsError: 5.87640e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17402e-06\tAbsError: 7.44968e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.68869e-09\tAbsError: 5.86895e-07\n", - " Region: \"zone_3\"\tRelError: 3.26543e-05\tAbsError: 2.01418e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.37367e-08\tAbsError: 9.99956e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.02428e-08\tAbsError: 1.01422e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.25886e-05\tAbsError: 7.53080e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.68939e-09\tAbsError: 5.87154e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:56\u001b[0m.\u001b[1;36m557\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:56\u001b[0m.\u001b[1;36m557\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7299999999999999\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:56\u001b[0m.\u001b[1;36m645\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 1.0\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.65398e-03\tAbsError: 2.00158e+12\n", - " Region: \"zone_1\"\tRelError: 2.48909e-04\tAbsError: 1.00808e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.48620e-04\tAbsError: 1.66964e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.89512e-07\tAbsError: 1.00641e-04\n", - " Region: \"zone_3\"\tRelError: 2.40507e-03\tAbsError: 2.00158e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50347e-05\tAbsError: 9.84888e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.44145e-05\tAbsError: 1.01669e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.37533e-03\tAbsError: 1.67974e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.89623e-07\tAbsError: 1.00681e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 3.15874e-04\tAbsError: 6.29994e+10\n", - " Region: \"zone_1\"\tRelError: 3.36655e-05\tAbsError: 6.22152e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.36476e-05\tAbsError: 2.89646e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.78252e-08\tAbsError: 6.19255e-06\n", - " Region: \"zone_3\"\tRelError: 2.82208e-04\tAbsError: 6.29994e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.92738e-06\tAbsError: 3.54342e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.90850e-06\tAbsError: 2.75653e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.76354e-04\tAbsError: 2.97673e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.78310e-08\tAbsError: 6.19458e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.70881e+01\tAbsError: 6.50862e+17\n", - " Region: \"zone_1\"\tRelError: 2.91488e+01\tAbsError: 4.20730e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.91488e+01\tAbsError: 4.20725e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.56065e-09\tAbsError: 5.42392e-07\n", - " Region: \"zone_3\"\tRelError: 4.79392e+01\tAbsError: 6.50862e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.42560e-01\tAbsError: 3.17361e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.28573e-01\tAbsError: 3.33501e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 4.64681e+01\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.56130e-09\tAbsError: 5.42626e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.28636e+01\tAbsError: 2.51540e+16\n", - " Region: \"zone_1\"\tRelError: 1.10662e+01\tAbsError: 4.19634e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10662e+01\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43744e-09\tAbsError: 4.99432e-07\n", - " Region: \"zone_3\"\tRelError: 1.79735e+00\tAbsError: 2.51540e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77566e-01\tAbsError: 1.26366e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.77157e-01\tAbsError: 1.25173e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.42624e-01\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43763e-09\tAbsError: 4.99500e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.07845e+03\tAbsError: 1.16809e+18\n", - " Region: \"zone_1\"\tRelError: 2.98806e+02\tAbsError: 4.09541e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.98806e+02\tAbsError: 4.09540e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.33797e-10\tAbsError: 1.85521e-07\n", - " Region: \"zone_3\"\tRelError: 7.79646e+02\tAbsError: 1.16809e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90701e-01\tAbsError: 5.74604e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.65642e-01\tAbsError: 5.93489e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 7.78290e+02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.34021e-10\tAbsError: 1.85602e-07\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 5.36228e-04\tAbsError: 3.67963e+11\n", - " Region: \"zone_1\"\tRelError: 5.03370e-05\tAbsError: 3.69568e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.02308e-05\tAbsError: 3.27141e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06219e-07\tAbsError: 3.69241e-05\n", - " Region: \"zone_3\"\tRelError: 4.85891e-04\tAbsError: 3.67963e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.74381e-06\tAbsError: 1.81082e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.63918e-06\tAbsError: 1.86881e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.80402e-04\tAbsError: 3.29054e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06263e-07\tAbsError: 3.69404e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.92670e-05\tAbsError: 5.95026e+09\n", - " Region: \"zone_1\"\tRelError: 4.20495e-06\tAbsError: 4.23098e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.19278e-06\tAbsError: 3.10942e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.21699e-08\tAbsError: 4.22787e-06\n", - " Region: \"zone_3\"\tRelError: 3.50620e-05\tAbsError: 5.95026e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.01282e-07\tAbsError: 3.34783e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.02333e-07\tAbsError: 2.60243e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.44462e-05\tAbsError: 3.17149e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.21718e-08\tAbsError: 4.22856e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:29:58\u001b[0m.\u001b[1;36m698\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.7599999999999999\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.53936e+01\tAbsError: 4.63574e+17\n", - " Region: \"zone_1\"\tRelError: 1.68382e+01\tAbsError: 5.87381e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.68366e+01\tAbsError: 3.20816e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59994e-03\tAbsError: 5.55300e-01\n", - " Region: \"zone_3\"\tRelError: 8.55548e+00\tAbsError: 4.63574e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.36996e-01\tAbsError: 2.31508e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.17433e-01\tAbsError: 2.32066e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 7.49945e+00\tAbsError: 3.20820e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60182e-03\tAbsError: 5.55931e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.78042e+00\tAbsError: 2.62146e+16\n", - " Region: \"zone_1\"\tRelError: 2.05146e-01\tAbsError: 1.39912e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.04835e-01\tAbsError: 3.19524e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.10831e-04\tAbsError: 1.07960e-01\n", - " Region: \"zone_3\"\tRelError: 1.57527e+00\tAbsError: 2.62146e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.51357e-01\tAbsError: 1.30522e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.18341e-01\tAbsError: 1.31624e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.05264e-01\tAbsError: 3.19525e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.10831e-04\tAbsError: 1.07960e-01\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.84514e-04\tAbsError: 1.29331e+11\n", - " Region: \"zone_1\"\tRelError: 1.73204e-05\tAbsError: 7.90813e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72976e-05\tAbsError: 1.15361e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.27155e-08\tAbsError: 7.89660e-06\n", - " Region: \"zone_3\"\tRelError: 1.67193e-04\tAbsError: 1.29331e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.72276e-07\tAbsError: 6.36462e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.31421e-07\tAbsError: 6.56851e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65267e-04\tAbsError: 1.16052e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.27252e-08\tAbsError: 7.90006e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.95227e+03\tAbsError: 4.47180e+17\n", - " Region: \"zone_1\"\tRelError: 5.95735e+02\tAbsError: 1.32695e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95731e+02\tAbsError: 3.07627e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.72641e-03\tAbsError: 1.29619e+00\n", - " Region: \"zone_3\"\tRelError: 2.35653e+03\tAbsError: 4.47180e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.30389e-01\tAbsError: 2.23868e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.07870e-01\tAbsError: 2.23312e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 2.35569e+03\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.72703e-03\tAbsError: 1.29643e+00\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 9.31912e+00\tAbsError: 1.05474e+17\n", - " Region: \"zone_1\"\tRelError: 3.16376e+00\tAbsError: 1.80141e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.16331e+00\tAbsError: 2.58274e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.43672e-04\tAbsError: 1.54313e-01\n", - " Region: \"zone_3\"\tRelError: 6.15536e+00\tAbsError: 1.05474e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.38445e-01\tAbsError: 5.28833e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.41911e-01\tAbsError: 5.25905e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 5.77456e+00\tAbsError: 2.58274e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.43863e-04\tAbsError: 1.54374e-01\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 8.89989e+01\tAbsError: 3.92698e+16\n", - " Region: \"zone_1\"\tRelError: 8.71579e+01\tAbsError: 4.29344e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.71579e+01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83834e-09\tAbsError: 6.38649e-07\n", - " Region: \"zone_3\"\tRelError: 1.84091e+00\tAbsError: 3.92698e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.85132e-01\tAbsError: 1.95208e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.84546e-01\tAbsError: 1.97490e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.71236e-01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83857e-09\tAbsError: 6.38730e-07\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 4.13464e-05\tAbsError: 2.75069e+10\n", - " Region: \"zone_1\"\tRelError: 3.88379e-06\tAbsError: 2.55222e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.87646e-06\tAbsError: 2.54121e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.33447e-09\tAbsError: 2.54968e-06\n", - " Region: \"zone_3\"\tRelError: 3.74626e-05\tAbsError: 2.75069e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05752e-07\tAbsError: 1.35376e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.97692e-07\tAbsError: 1.39693e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.70518e-05\tAbsError: 2.55608e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.33751e-09\tAbsError: 2.55078e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:00\u001b[0m.\u001b[1;36m915\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.9\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.52969e+00\tAbsError: 1.69120e+16\n", - " Region: \"zone_1\"\tRelError: 2.50790e-01\tAbsError: 9.45900e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.50592e-01\tAbsError: 2.58713e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.97890e-04\tAbsError: 6.87187e-02\n", - " Region: \"zone_3\"\tRelError: 1.27890e+00\tAbsError: 1.69120e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.64432e-01\tAbsError: 8.40128e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.11936e-01\tAbsError: 8.51077e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 4.02336e-01\tAbsError: 2.52194e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.97890e-04\tAbsError: 6.87187e-02\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 8.37720e+02\tAbsError: 8.62713e+16\n", - " Region: \"zone_1\"\tRelError: 6.83172e+02\tAbsError: 5.09423e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 6.83170e+02\tAbsError: 2.58987e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39194e-03\tAbsError: 4.83524e-01\n", - " Region: \"zone_3\"\tRelError: 1.54548e+02\tAbsError: 8.62713e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.27446e-01\tAbsError: 4.32970e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.20316e-02\tAbsError: 4.29743e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.54357e+02\tAbsError: 2.58982e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39675e-03\tAbsError: 4.85195e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.33136e+00\tAbsError: 4.26102e+16\n", - " Region: \"zone_1\"\tRelError: 7.03868e-01\tAbsError: 1.89183e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 7.03418e-01\tAbsError: 3.31000e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.49500e-04\tAbsError: 1.56083e-01\n", - " Region: \"zone_3\"\tRelError: 1.62750e+00\tAbsError: 4.26102e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.64246e-01\tAbsError: 2.11454e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.28205e-01\tAbsError: 2.14648e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.34596e-01\tAbsError: 3.31000e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.49500e-04\tAbsError: 1.56083e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.00195e+02\tAbsError: 1.20830e+16\n", - " Region: \"zone_1\"\tRelError: 1.86371e+00\tAbsError: 2.42851e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86304e+00\tAbsError: 1.08339e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.68777e-04\tAbsError: 2.32017e-01\n", - " Region: \"zone_3\"\tRelError: 9.83312e+01\tAbsError: 1.20830e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.72462e-02\tAbsError: 6.06999e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.40219e-02\tAbsError: 6.01304e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.82793e+01\tAbsError: 1.08344e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.69062e-04\tAbsError: 2.32109e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 9.03245e-01\tAbsError: 5.18936e+15\n", - " Region: \"zone_1\"\tRelError: 2.71832e-01\tAbsError: 3.50455e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.71762e-01\tAbsError: 1.06614e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.02213e-05\tAbsError: 2.43841e-02\n", - " Region: \"zone_3\"\tRelError: 6.31413e-01\tAbsError: 5.18936e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98887e-01\tAbsError: 2.86107e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.19458e-01\tAbsError: 2.32829e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 3.12998e-01\tAbsError: 1.06615e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.02213e-05\tAbsError: 2.43841e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 6.13777e+02\tAbsError: 9.41150e+15\n", - " Region: \"zone_1\"\tRelError: 7.34943e+01\tAbsError: 1.74710e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 7.34894e+01\tAbsError: 9.16455e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.95952e-03\tAbsError: 1.73794e+00\n", - " Region: \"zone_3\"\tRelError: 5.40283e+02\tAbsError: 9.41150e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.82819e-02\tAbsError: 3.95531e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.70902e-02\tAbsError: 5.45619e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.40223e+02\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.96820e-03\tAbsError: 1.74101e+00\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.18618e+01\tAbsError: 3.43486e+17\n", - " Region: \"zone_1\"\tRelError: 4.68734e+01\tAbsError: 4.09548e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.68734e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70509e-09\tAbsError: 5.92742e-07\n", - " Region: \"zone_3\"\tRelError: 1.49884e+01\tAbsError: 3.43486e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.50361e-01\tAbsError: 1.67687e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.42491e-01\tAbsError: 1.75799e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.34955e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70580e-09\tAbsError: 5.92998e-07\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.45670e-01\tAbsError: 1.26540e+15\n", - " Region: \"zone_1\"\tRelError: 3.11411e-02\tAbsError: 1.07400e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.08323e-02\tAbsError: 1.56334e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.08810e-04\tAbsError: 1.07385e-01\n", - " Region: \"zone_3\"\tRelError: 9.14528e-01\tAbsError: 1.26540e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.37147e-03\tAbsError: 6.61259e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.87047e-04\tAbsError: 6.04144e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.11261e-01\tAbsError: 1.60143e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.08810e-04\tAbsError: 1.07385e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 3.78831e+00\tAbsError: 2.78341e+16\n", - " Region: \"zone_1\"\tRelError: 1.69902e-01\tAbsError: 1.09102e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.69661e-01\tAbsError: 2.55696e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.40621e-04\tAbsError: 8.35322e-02\n", - " Region: \"zone_3\"\tRelError: 3.61840e+00\tAbsError: 2.78341e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.81251e-01\tAbsError: 1.38039e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.31150e-01\tAbsError: 1.40303e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.70576e+00\tAbsError: 2.44241e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.40621e-04\tAbsError: 8.35322e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.76534e-01\tAbsError: 1.17369e+15\n", - " Region: \"zone_1\"\tRelError: 1.69600e-02\tAbsError: 1.69700e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.64717e-02\tAbsError: 3.03978e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.88294e-04\tAbsError: 1.69396e-01\n", - " Region: \"zone_3\"\tRelError: 1.59574e-01\tAbsError: 1.17369e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.93455e-02\tAbsError: 4.91766e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.63740e-02\tAbsError: 6.81925e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.33645e-02\tAbsError: 3.31356e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.89669e-04\tAbsError: 1.69868e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.16806e+01\tAbsError: 1.22386e+16\n", - " Region: \"zone_1\"\tRelError: 5.81165e+00\tAbsError: 2.01324e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.80588e+00\tAbsError: 6.99078e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.77633e-03\tAbsError: 2.01254e+00\n", - " Region: \"zone_3\"\tRelError: 5.86896e+00\tAbsError: 1.22386e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.88114e-02\tAbsError: 5.53671e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.06848e-02\tAbsError: 6.70184e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.80368e+00\tAbsError: 7.04147e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.78367e-03\tAbsError: 2.01512e+00\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 6.59116e+00\tAbsError: 3.05940e+17\n", - " Region: \"zone_1\"\tRelError: 1.06162e+00\tAbsError: 1.92710e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06116e+00\tAbsError: 3.07630e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.67257e-04\tAbsError: 1.61947e-01\n", - " Region: \"zone_3\"\tRelError: 5.52954e+00\tAbsError: 3.05940e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.66708e-01\tAbsError: 1.53394e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.75609e-01\tAbsError: 1.52546e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 4.38676e+00\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.67257e-04\tAbsError: 1.61947e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.55882e-01\tAbsError: 5.19874e+14\n", - " Region: \"zone_1\"\tRelError: 5.38620e-02\tAbsError: 1.20803e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.38586e-02\tAbsError: 3.11909e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.38226e-06\tAbsError: 1.17683e-03\n", - " Region: \"zone_3\"\tRelError: 5.02020e-01\tAbsError: 5.19874e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.56161e-04\tAbsError: 2.58405e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.64452e-04\tAbsError: 2.61469e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.00896e-01\tAbsError: 3.14682e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.38459e-06\tAbsError: 1.17764e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.38718e+01\tAbsError: 9.28637e+15\n", - " Region: \"zone_1\"\tRelError: 7.88025e+00\tAbsError: 6.96344e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.88008e+00\tAbsError: 1.22653e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.65287e-04\tAbsError: 5.73691e-02\n", - " Region: \"zone_3\"\tRelError: 5.99160e+00\tAbsError: 9.28637e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.18748e-01\tAbsError: 4.98903e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.31602e-01\tAbsError: 4.29734e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.64108e+00\tAbsError: 1.22654e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.65287e-04\tAbsError: 5.73691e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 8.46015e-01\tAbsError: 1.80032e+14\n", - " Region: \"zone_1\"\tRelError: 9.75495e-02\tAbsError: 1.04545e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.75195e-02\tAbsError: 5.53506e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.99752e-05\tAbsError: 1.03991e-02\n", - " Region: \"zone_3\"\tRelError: 7.48465e-01\tAbsError: 1.80032e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.33637e-03\tAbsError: 9.04288e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.16174e-03\tAbsError: 8.96033e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.39937e-01\tAbsError: 5.59249e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.99992e-05\tAbsError: 1.04072e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 8.44367e+01\tAbsError: 1.02259e+16\n", - " Region: \"zone_1\"\tRelError: 4.22055e+01\tAbsError: 1.45859e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.22051e+01\tAbsError: 5.71640e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.16833e-04\tAbsError: 1.45287e-01\n", - " Region: \"zone_3\"\tRelError: 4.22312e+01\tAbsError: 1.02259e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.97020e-02\tAbsError: 4.95775e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.96648e-03\tAbsError: 5.26817e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 4.22051e+01\tAbsError: 5.76213e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.17002e-04\tAbsError: 1.45346e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 3.39017e+01\tAbsError: 1.15461e+17\n", - " Region: \"zone_1\"\tRelError: 6.40052e-01\tAbsError: 2.51200e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 6.39402e-01\tAbsError: 2.58690e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.49519e-04\tAbsError: 2.25331e-01\n", - " Region: \"zone_3\"\tRelError: 3.32617e+01\tAbsError: 1.15461e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.89584e-01\tAbsError: 5.80157e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.82182e-01\tAbsError: 5.74450e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.27893e+01\tAbsError: 2.58944e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.51823e-04\tAbsError: 2.26124e-01\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.90203e-02\tAbsError: 8.57664e+12\n", - " Region: \"zone_1\"\tRelError: 6.51163e-04\tAbsError: 3.92189e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.39892e-04\tAbsError: 6.62870e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12712e-05\tAbsError: 3.92123e-03\n", - " Region: \"zone_3\"\tRelError: 1.83691e-02\tAbsError: 8.57664e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.99766e-05\tAbsError: 4.26406e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.25376e-05\tAbsError: 4.31258e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82453e-02\tAbsError: 6.67022e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12760e-05\tAbsError: 3.92281e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.77662e-01\tAbsError: 2.06585e+15\n", - " Region: \"zone_1\"\tRelError: 4.30114e-01\tAbsError: 2.03900e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.29527e-01\tAbsError: 3.53307e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.86951e-04\tAbsError: 2.03546e-01\n", - " Region: \"zone_3\"\tRelError: 4.47548e-01\tAbsError: 2.06585e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.13163e-02\tAbsError: 1.09818e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.86137e-02\tAbsError: 9.67666e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.67030e-01\tAbsError: 3.88113e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.87978e-04\tAbsError: 2.03897e-01\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 9.34138e-02\tAbsError: 1.37807e+13\n", - " Region: \"zone_1\"\tRelError: 1.18515e-02\tAbsError: 5.19856e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18366e-02\tAbsError: 4.20470e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.49728e-05\tAbsError: 5.19436e-03\n", - " Region: \"zone_3\"\tRelError: 8.15623e-02\tAbsError: 1.37807e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.21884e-04\tAbsError: 6.93208e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.26229e-04\tAbsError: 6.84861e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.08992e-02\tAbsError: 4.35810e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.49755e-05\tAbsError: 5.19537e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.49604e+00\tAbsError: 9.70392e+14\n", - " Region: \"zone_1\"\tRelError: 3.74605e+00\tAbsError: 7.97463e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.74582e+00\tAbsError: 4.64021e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28718e-04\tAbsError: 7.96999e-02\n", - " Region: \"zone_3\"\tRelError: 3.74999e+00\tAbsError: 9.70392e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.58316e-03\tAbsError: 4.83793e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.36045e-03\tAbsError: 4.86599e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.74582e+00\tAbsError: 4.67428e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28813e-04\tAbsError: 7.97327e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.34480e+00\tAbsError: 1.48853e+16\n", - " Region: \"zone_1\"\tRelError: 1.80604e-01\tAbsError: 1.59400e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.80172e-01\tAbsError: 9.16501e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.31839e-04\tAbsError: 1.50235e-01\n", - " Region: \"zone_3\"\tRelError: 3.16419e+00\tAbsError: 1.48853e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.34401e-02\tAbsError: 7.53366e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.19569e-02\tAbsError: 7.35164e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 3.07837e+00\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.31839e-04\tAbsError: 1.50235e-01\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.42229e-02\tAbsError: 2.62107e+13\n", - " Region: \"zone_1\"\tRelError: 9.63183e-04\tAbsError: 1.99796e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.62612e-04\tAbsError: 1.17402e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.70933e-07\tAbsError: 1.98622e-04\n", - " Region: \"zone_3\"\tRelError: 5.32597e-02\tAbsError: 2.62107e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91026e-05\tAbsError: 1.30391e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.35312e-05\tAbsError: 1.31716e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.32065e-02\tAbsError: 1.18451e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.71166e-07\tAbsError: 1.98702e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 8.53636e-01\tAbsError: 3.08501e+14\n", - " Region: \"zone_1\"\tRelError: 3.98620e-02\tAbsError: 1.23082e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.98267e-02\tAbsError: 5.75296e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.53250e-05\tAbsError: 1.22507e-02\n", - " Region: \"zone_3\"\tRelError: 8.13774e-01\tAbsError: 3.08501e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.49398e-03\tAbsError: 1.56170e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.26463e-03\tAbsError: 1.52331e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.04980e-01\tAbsError: 6.04070e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.53536e-05\tAbsError: 1.22608e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 6.68389e-02\tAbsError: 8.42161e+12\n", - " Region: \"zone_1\"\tRelError: 8.05486e-03\tAbsError: 6.74002e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 8.05293e-03\tAbsError: 2.14389e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93552e-06\tAbsError: 6.71858e-04\n", - " Region: \"zone_3\"\tRelError: 5.87840e-02\tAbsError: 8.42161e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.97849e-04\tAbsError: 4.23824e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.96209e-04\tAbsError: 4.18336e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.83880e-02\tAbsError: 2.29466e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93608e-06\tAbsError: 6.72072e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 9.26745e+00\tAbsError: 5.14481e+14\n", - " Region: \"zone_1\"\tRelError: 8.59152e+00\tAbsError: 9.35409e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 8.59150e+00\tAbsError: 2.29233e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.68516e-05\tAbsError: 9.33117e-03\n", - " Region: \"zone_3\"\tRelError: 6.75929e-01\tAbsError: 5.14481e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.99602e-04\tAbsError: 2.56366e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.52414e-04\tAbsError: 2.58114e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.74650e-01\tAbsError: 2.31041e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.68516e-05\tAbsError: 9.33117e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 3.42204e-01\tAbsError: 1.90329e+15\n", - " Region: \"zone_1\"\tRelError: 2.01983e-02\tAbsError: 3.47392e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.91990e-02\tAbsError: 1.15001e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.99221e-04\tAbsError: 3.47277e-01\n", - " Region: \"zone_3\"\tRelError: 3.22006e-01\tAbsError: 1.90329e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.20950e-03\tAbsError: 1.00831e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03234e-03\tAbsError: 8.94978e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.11765e-01\tAbsError: 1.16357e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.99221e-04\tAbsError: 3.47277e-01\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 5.30116e-03\tAbsError: 1.65033e+12\n", - " Region: \"zone_1\"\tRelError: 9.08964e-05\tAbsError: 1.77648e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.03860e-05\tAbsError: 7.18800e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.10472e-07\tAbsError: 1.77577e-04\n", - " Region: \"zone_3\"\tRelError: 5.21027e-03\tAbsError: 1.65033e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.07855e-06\tAbsError: 8.21862e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.94019e-06\tAbsError: 8.28472e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.20274e-03\tAbsError: 7.24579e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.10652e-07\tAbsError: 1.77639e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 9.89484e-02\tAbsError: 2.22861e+13\n", - " Region: \"zone_1\"\tRelError: 5.09435e-03\tAbsError: 5.93418e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.07725e-03\tAbsError: 4.26347e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70993e-05\tAbsError: 5.92992e-03\n", - " Region: \"zone_3\"\tRelError: 9.38540e-02\tAbsError: 2.22861e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.12518e-04\tAbsError: 1.13121e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.19708e-04\tAbsError: 1.09740e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.32047e-02\tAbsError: 4.58383e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71053e-05\tAbsError: 5.93209e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.07664e-02\tAbsError: 1.13884e+12\n", - " Region: \"zone_1\"\tRelError: 1.31333e-03\tAbsError: 3.25313e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31239e-03\tAbsError: 2.77300e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.36318e-07\tAbsError: 3.25036e-04\n", - " Region: \"zone_3\"\tRelError: 9.45302e-03\tAbsError: 1.13884e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.68360e-05\tAbsError: 5.72049e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.66458e-05\tAbsError: 5.66790e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 9.39861e-03\tAbsError: 3.00400e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.36507e-07\tAbsError: 3.25102e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.48030e+01\tAbsError: 7.19505e+13\n", - " Region: \"zone_1\"\tRelError: 1.40655e+01\tAbsError: 3.86191e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40655e+01\tAbsError: 2.84880e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11050e-05\tAbsError: 3.85906e-03\n", - " Region: \"zone_3\"\tRelError: 7.37529e-01\tAbsError: 7.19505e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.38672e-04\tAbsError: 3.58470e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.21484e-04\tAbsError: 3.61036e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.37257e-01\tAbsError: 2.87067e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11068e-05\tAbsError: 3.85947e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 7.26159e-01\tAbsError: 1.60368e+15\n", - " Region: \"zone_1\"\tRelError: 2.39971e-02\tAbsError: 1.68797e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.39489e-02\tAbsError: 1.07820e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.82419e-05\tAbsError: 1.67718e-02\n", - " Region: \"zone_3\"\tRelError: 7.02162e-01\tAbsError: 1.60368e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.86883e-03\tAbsError: 7.94204e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.42424e-03\tAbsError: 8.09476e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.96821e-01\tAbsError: 1.08766e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.82636e-05\tAbsError: 1.67793e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.02475e-03\tAbsError: 1.45063e+12\n", - " Region: \"zone_1\"\tRelError: 6.82332e-05\tAbsError: 1.85610e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.81798e-05\tAbsError: 5.23725e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.33733e-08\tAbsError: 1.85086e-05\n", - " Region: \"zone_3\"\tRelError: 3.95652e-03\tAbsError: 1.45063e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.55532e-06\tAbsError: 7.22108e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.33185e-06\tAbsError: 7.28517e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.95357e-03\tAbsError: 5.28441e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.33816e-08\tAbsError: 1.85110e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 7.00709e-02\tAbsError: 1.40239e+13\n", - " Region: \"zone_1\"\tRelError: 5.03970e-03\tAbsError: 7.16974e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.03764e-03\tAbsError: 2.12927e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.06030e-06\tAbsError: 7.14844e-04\n", - " Region: \"zone_3\"\tRelError: 6.50312e-02\tAbsError: 1.40239e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.99984e-04\tAbsError: 7.11157e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.96186e-04\tAbsError: 6.91232e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 6.46330e-02\tAbsError: 2.37452e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.06089e-06\tAbsError: 7.15072e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.82197e-03\tAbsError: 5.21696e+11\n", - " Region: \"zone_1\"\tRelError: 5.86077e-04\tAbsError: 5.83701e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.85910e-04\tAbsError: 1.23649e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67458e-07\tAbsError: 5.82464e-05\n", - " Region: \"zone_3\"\tRelError: 4.23589e-03\tAbsError: 5.21696e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.23100e-05\tAbsError: 2.62384e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.21550e-05\tAbsError: 2.59312e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.21126e-03\tAbsError: 1.33690e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67522e-07\tAbsError: 5.82688e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.47896e+00\tAbsError: 2.94682e+13\n", - " Region: \"zone_1\"\tRelError: 1.24509e+00\tAbsError: 6.95816e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.24509e+00\tAbsError: 1.07735e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.99937e-06\tAbsError: 6.94739e-04\n", - " Region: \"zone_3\"\tRelError: 2.33869e-01\tAbsError: 2.94682e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.81392e-05\tAbsError: 1.46808e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.76977e-05\tAbsError: 1.47873e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.33792e-01\tAbsError: 1.08579e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.99953e-06\tAbsError: 6.95001e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.12346e-01\tAbsError: 1.08123e+14\n", - " Region: \"zone_1\"\tRelError: 3.56238e-03\tAbsError: 1.31451e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.52458e-03\tAbsError: 6.36043e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.77942e-05\tAbsError: 1.31387e-02\n", - " Region: \"zone_3\"\tRelError: 1.08784e-01\tAbsError: 1.08123e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.76703e-04\tAbsError: 5.36465e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.39449e-04\tAbsError: 5.44763e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08330e-01\tAbsError: 6.41381e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.78094e-05\tAbsError: 1.31440e-02\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 5.73035e-04\tAbsError: 1.62179e+11\n", - " Region: \"zone_1\"\tRelError: 9.76105e-06\tAbsError: 1.05558e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 9.73070e-06\tAbsError: 5.56147e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.03448e-08\tAbsError: 1.05503e-05\n", - " Region: \"zone_3\"\tRelError: 5.63274e-04\tAbsError: 1.62179e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.13645e-07\tAbsError: 8.07775e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.43383e-07\tAbsError: 8.14013e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.62786e-04\tAbsError: 5.60872e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.03562e-08\tAbsError: 1.05543e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.09197e-02\tAbsError: 1.80216e+12\n", - " Region: \"zone_1\"\tRelError: 8.53563e-04\tAbsError: 3.58810e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 8.52532e-04\tAbsError: 2.71616e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.03105e-06\tAbsError: 3.58539e-04\n", - " Region: \"zone_3\"\tRelError: 1.00661e-02\tAbsError: 1.80216e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.57850e-05\tAbsError: 9.11943e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.53850e-05\tAbsError: 8.90217e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00139e-02\tAbsError: 2.97011e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.03144e-06\tAbsError: 3.58676e-04\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 9.54183e-04\tAbsError: 9.39667e+10\n", - " Region: \"zone_1\"\tRelError: 1.16209e-04\tAbsError: 2.27557e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16144e-04\tAbsError: 2.33029e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.53549e-08\tAbsError: 2.27324e-05\n", - " Region: \"zone_3\"\tRelError: 8.37974e-04\tAbsError: 9.39667e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.21772e-06\tAbsError: 4.71829e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.19489e-06\tAbsError: 4.67838e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 8.33496e-04\tAbsError: 2.51571e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.53810e-08\tAbsError: 2.27417e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.23148e-01\tAbsError: 5.24321e+12\n", - " Region: \"zone_1\"\tRelError: 2.61296e-01\tAbsError: 2.47766e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.61295e-01\tAbsError: 1.83418e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.11380e-07\tAbsError: 2.47583e-04\n", - " Region: \"zone_3\"\tRelError: 6.18518e-02\tAbsError: 5.24321e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94642e-06\tAbsError: 2.61290e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.40186e-06\tAbsError: 2.63031e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 6.18338e-02\tAbsError: 1.85316e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.11644e-07\tAbsError: 2.47677e-04\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 2.77942e-04\tAbsError: 8.68011e+10\n", - " Region: \"zone_1\"\tRelError: 4.71672e-06\tAbsError: 1.67033e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.71193e-06\tAbsError: 2.72076e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.79630e-09\tAbsError: 1.66761e-06\n", - " Region: \"zone_3\"\tRelError: 2.73225e-04\tAbsError: 8.68011e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.10687e-08\tAbsError: 4.32250e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.08382e-08\tAbsError: 4.35761e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.73048e-04\tAbsError: 2.75222e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.79812e-09\tAbsError: 1.66827e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 8.36096e-02\tAbsError: 8.44228e+13\n", - " Region: \"zone_1\"\tRelError: 2.87350e-03\tAbsError: 1.23009e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.86998e-03\tAbsError: 4.23325e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.52636e-06\tAbsError: 1.22586e-03\n", - " Region: \"zone_3\"\tRelError: 8.07361e-02\tAbsError: 8.44228e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46087e-04\tAbsError: 4.18513e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.25646e-04\tAbsError: 4.25715e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.04608e-02\tAbsError: 4.27186e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.52783e-06\tAbsError: 1.22636e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 5.01199e-03\tAbsError: 8.44881e+11\n", - " Region: \"zone_1\"\tRelError: 4.01242e-04\tAbsError: 6.23400e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.01063e-04\tAbsError: 1.18119e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.78932e-07\tAbsError: 6.22219e-05\n", - " Region: \"zone_3\"\tRelError: 4.61074e-03\tAbsError: 8.44881e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.21066e-05\tAbsError: 4.28039e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.18113e-05\tAbsError: 4.16842e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.58665e-03\tAbsError: 1.34568e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.79002e-07\tAbsError: 6.22472e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 3.45938e-04\tAbsError: 3.49606e+10\n", - " Region: \"zone_1\"\tRelError: 4.21268e-05\tAbsError: 4.83279e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.21129e-05\tAbsError: 8.82724e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.38687e-08\tAbsError: 4.82397e-06\n", - " Region: \"zone_3\"\tRelError: 3.03811e-04\tAbsError: 3.49606e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.25886e-07\tAbsError: 1.75745e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.14419e-07\tAbsError: 1.73861e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.02157e-04\tAbsError: 9.47988e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.38741e-08\tAbsError: 4.82591e-06\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 9.77270e-02\tAbsError: 1.82347e+12\n", - " Region: \"zone_1\"\tRelError: 7.65024e-02\tAbsError: 5.28468e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.65022e-02\tAbsError: 6.24160e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.51664e-07\tAbsError: 5.27844e-05\n", - " Region: \"zone_3\"\tRelError: 2.12246e-02\tAbsError: 1.82347e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11287e-06\tAbsError: 9.08701e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.75258e-06\tAbsError: 9.14773e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.12196e-02\tAbsError: 6.30788e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.51721e-07\tAbsError: 5.28055e-05\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 4.94184e-05\tAbsError: 1.34670e+10\n", - " Region: \"zone_1\"\tRelError: 8.40757e-07\tAbsError: 7.04798e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 8.38731e-07\tAbsError: 4.68512e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.02577e-09\tAbsError: 7.04330e-07\n", - " Region: \"zone_3\"\tRelError: 4.85777e-05\tAbsError: 1.34670e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.35642e-08\tAbsError: 6.71456e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.87779e-08\tAbsError: 6.75244e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 4.85433e-05\tAbsError: 4.73582e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.02653e-09\tAbsError: 7.04612e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:13\u001b[0m.\u001b[1;36m621\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: 1.05\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.36875e-02\tAbsError: 9.69294e+12\n", - " Region: \"zone_1\"\tRelError: 4.70501e-04\tAbsError: 6.20216e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.68718e-04\tAbsError: 4.28680e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.78298e-06\tAbsError: 6.19787e-04\n", - " Region: \"zone_3\"\tRelError: 1.32170e-02\tAbsError: 9.69294e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.60935e-05\tAbsError: 4.80983e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.36870e-05\tAbsError: 4.88312e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31854e-02\tAbsError: 4.32490e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.78363e-06\tAbsError: 6.20008e-04\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 9.60700e-04\tAbsError: 1.46526e+11\n", - " Region: \"zone_1\"\tRelError: 8.00160e-05\tAbsError: 2.47424e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.99449e-05\tAbsError: 2.16238e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.10889e-08\tAbsError: 2.47208e-05\n", - " Region: \"zone_3\"\tRelError: 8.80684e-04\tAbsError: 1.46526e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.10027e-06\tAbsError: 7.40950e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.05550e-06\tAbsError: 7.24314e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 8.76457e-04\tAbsError: 2.44043e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.11163e-08\tAbsError: 2.47310e-05\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 7.73949e-05\tAbsError: 7.42262e+09\n", - " Region: \"zone_1\"\tRelError: 9.43065e-06\tAbsError: 1.62687e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 9.42598e-06\tAbsError: 1.91720e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.67168e-09\tAbsError: 1.62495e-06\n", - " Region: \"zone_3\"\tRelError: 6.79643e-05\tAbsError: 7.42262e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.75307e-07\tAbsError: 3.72700e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.73213e-07\tAbsError: 3.69562e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 6.76111e-05\tAbsError: 2.05805e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.67347e-09\tAbsError: 1.62561e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:14\u001b[0m.\u001b[1;36m484\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:14\u001b[0m.\u001b[1;36m484\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.8349999999999999\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 2.05494e-02\tAbsError: 3.74583e+11\n", - " Region: \"zone_1\"\tRelError: 1.55447e-02\tAbsError: 1.67716e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55447e-02\tAbsError: 1.38057e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.81497e-08\tAbsError: 1.67577e-05\n", - " Region: \"zone_3\"\tRelError: 5.00469e-03\tAbsError: 3.74583e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.90614e-07\tAbsError: 1.86695e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.85333e-07\tAbsError: 1.87888e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.00347e-03\tAbsError: 1.39492e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.81681e-08\tAbsError: 1.67646e-05\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.39678e+02\tAbsError: 1.67099e+18\n", - " Region: \"zone_1\"\tRelError: 2.95195e+02\tAbsError: 4.20724e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.95195e+02\tAbsError: 4.20722e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.86327e-10\tAbsError: 1.34320e-07\n", - " Region: \"zone_3\"\tRelError: 4.44483e+02\tAbsError: 1.67099e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67379e-01\tAbsError: 8.29298e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.42234e-01\tAbsError: 8.41690e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 4.43174e+02\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.86484e-10\tAbsError: 1.34379e-07\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 3.52484e-04\tAbsError: 5.50892e+10\n", - " Region: \"zone_1\"\tRelError: 2.94784e-05\tAbsError: 5.09771e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.94637e-05\tAbsError: 8.23414e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.46357e-08\tAbsError: 5.08948e-06\n", - " Region: \"zone_3\"\tRelError: 3.23006e-04\tAbsError: 5.50892e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.90399e-07\tAbsError: 2.78906e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69285e-07\tAbsError: 2.71986e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.21431e-04\tAbsError: 9.35507e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.46414e-08\tAbsError: 5.09161e-06\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 6.63798e-03\tAbsError: 4.90503e+12\n", - " Region: \"zone_1\"\tRelError: 2.29406e-04\tAbsError: 9.25474e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29140e-04\tAbsError: 1.97212e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.66464e-07\tAbsError: 9.23502e-05\n", - " Region: \"zone_3\"\tRelError: 6.40857e-03\tAbsError: 4.90503e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.34900e-06\tAbsError: 2.43347e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32522e-06\tAbsError: 2.47155e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 6.39263e-03\tAbsError: 1.99078e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.66498e-07\tAbsError: 9.23593e-05\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 6.14058e-03\tAbsError: 1.17501e+11\n", - " Region: \"zone_1\"\tRelError: 4.56971e-03\tAbsError: 3.83354e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.56970e-03\tAbsError: 4.25999e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10026e-08\tAbsError: 3.82928e-06\n", - " Region: \"zone_3\"\tRelError: 1.57087e-03\tAbsError: 1.17501e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.29368e-07\tAbsError: 5.85629e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.92613e-07\tAbsError: 5.89376e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.57054e-03\tAbsError: 4.30497e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10071e-08\tAbsError: 3.83095e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.31978e+02\tAbsError: 1.33287e+17\n", - " Region: \"zone_1\"\tRelError: 1.28982e+02\tAbsError: 4.19633e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28982e+02\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.09159e-09\tAbsError: 3.79687e-07\n", - " Region: \"zone_3\"\tRelError: 2.99611e+00\tAbsError: 1.33287e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.73467e-01\tAbsError: 6.69941e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.71171e-01\tAbsError: 6.62930e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.45147e+00\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.09201e-09\tAbsError: 3.79842e-07\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 7.69368e-05\tAbsError: 1.13679e+10\n", - " Region: \"zone_1\"\tRelError: 6.56115e-06\tAbsError: 1.72638e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.55620e-06\tAbsError: 1.74878e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.95947e-09\tAbsError: 1.72463e-06\n", - " Region: \"zone_3\"\tRelError: 7.03756e-05\tAbsError: 1.13679e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.63070e-07\tAbsError: 5.74763e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.59111e-07\tAbsError: 5.62023e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 7.00485e-05\tAbsError: 1.97676e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.96153e-09\tAbsError: 1.72539e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 9.17485e+03\tAbsError: 5.47115e+17\n", - " Region: \"zone_1\"\tRelError: 2.18779e+03\tAbsError: 1.36667e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 2.18779e+03\tAbsError: 3.20813e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.83162e-03\tAbsError: 1.33458e+00\n", - " Region: \"zone_3\"\tRelError: 6.98706e+03\tAbsError: 5.47115e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.79834e-01\tAbsError: 2.74671e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.70195e-01\tAbsError: 2.72444e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 6.98631e+03\tAbsError: 3.20820e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.83194e-03\tAbsError: 1.33471e+00\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:16\u001b[0m.\u001b[1;36m588\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.8699999999999999\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.25648e-03\tAbsError: 7.75715e+11\n", - " Region: \"zone_1\"\tRelError: 4.35799e-05\tAbsError: 3.84452e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.34694e-05\tAbsError: 2.84735e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10539e-07\tAbsError: 3.84167e-05\n", - " Region: \"zone_3\"\tRelError: 1.21290e-03\tAbsError: 7.75715e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28473e-06\tAbsError: 3.85060e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.13479e-06\tAbsError: 3.90655e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21037e-03\tAbsError: 2.87358e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10581e-07\tAbsError: 3.84313e-05\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 1.39778e-03\tAbsError: 2.64036e+10\n", - " Region: \"zone_1\"\tRelError: 1.02275e-03\tAbsError: 1.13260e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02274e-03\tAbsError: 9.95943e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.25141e-09\tAbsError: 1.13160e-06\n", - " Region: \"zone_3\"\tRelError: 3.75036e-04\tAbsError: 2.64036e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.18289e-08\tAbsError: 1.31607e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.84989e-08\tAbsError: 1.32430e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.74952e-04\tAbsError: 1.00632e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.25274e-09\tAbsError: 1.13210e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.22611e+00\tAbsError: 1.23916e+17\n", - " Region: \"zone_1\"\tRelError: 4.14026e-01\tAbsError: 3.41273e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.13134e-01\tAbsError: 3.19524e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.91880e-04\tAbsError: 3.09320e-01\n", - " Region: \"zone_3\"\tRelError: 2.81209e+00\tAbsError: 1.23916e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.35108e-01\tAbsError: 6.21305e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.82507e-01\tAbsError: 6.17855e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49358e+00\tAbsError: 3.19525e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.92062e-04\tAbsError: 3.09391e-01\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 4.79935e-04\tAbsError: 3.06765e+11\n", - " Region: \"zone_1\"\tRelError: 1.66486e-05\tAbsError: 7.60779e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66267e-05\tAbsError: 1.06336e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18595e-08\tAbsError: 7.59715e-06\n", - " Region: \"zone_3\"\tRelError: 4.63286e-04\tAbsError: 3.06765e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.16909e-07\tAbsError: 1.52260e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.59699e-07\tAbsError: 1.54505e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.62288e-04\tAbsError: 1.07353e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18679e-08\tAbsError: 7.60017e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.17043e+01\tAbsError: 7.44954e+16\n", - " Region: \"zone_1\"\tRelError: 5.01901e+00\tAbsError: 1.18236e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.01570e+00\tAbsError: 2.58768e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.31341e-03\tAbsError: 1.15648e+00\n", - " Region: \"zone_3\"\tRelError: 1.66853e+01\tAbsError: 7.44954e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.76333e-02\tAbsError: 3.73658e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.69573e-02\tAbsError: 3.71296e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65274e+01\tAbsError: 2.58764e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.31557e-03\tAbsError: 1.15724e+00\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 3.99448e-04\tAbsError: 7.75693e+09\n", - " Region: \"zone_1\"\tRelError: 2.89402e-04\tAbsError: 2.71336e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.89401e-04\tAbsError: 2.89100e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.78779e-10\tAbsError: 2.71047e-07\n", - " Region: \"zone_3\"\tRelError: 1.10046e-04\tAbsError: 7.75693e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.37898e-09\tAbsError: 3.86636e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.32737e-08\tAbsError: 3.89057e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10023e-04\tAbsError: 2.92143e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.79099e-10\tAbsError: 2.71163e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.71728e+01\tAbsError: 2.16638e+17\n", - " Region: \"zone_1\"\tRelError: 7.39288e+01\tAbsError: 4.29342e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.39288e+01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13253e-09\tAbsError: 3.93831e-07\n", - " Region: \"zone_3\"\tRelError: 3.24399e+00\tAbsError: 2.16638e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77741e-01\tAbsError: 1.09826e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.73975e-01\tAbsError: 1.06812e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.69227e+00\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13300e-09\tAbsError: 3.94006e-07\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 4.47158e+00\tAbsError: 7.88995e+16\n", - " Region: \"zone_1\"\tRelError: 1.34999e+00\tAbsError: 6.46481e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.34987e+00\tAbsError: 2.58848e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11783e-04\tAbsError: 3.87633e-02\n", - " Region: \"zone_3\"\tRelError: 3.12159e+00\tAbsError: 7.88995e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.13314e-01\tAbsError: 4.06991e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.32402e-01\tAbsError: 3.82004e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.37577e+00\tAbsError: 2.35961e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11783e-04\tAbsError: 3.87633e-02\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.01824e-04\tAbsError: 5.91028e+10\n", - " Region: \"zone_1\"\tRelError: 3.53926e-06\tAbsError: 2.67115e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.53158e-06\tAbsError: 2.19844e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.67947e-09\tAbsError: 2.66896e-06\n", - " Region: \"zone_3\"\tRelError: 9.82849e-05\tAbsError: 5.91028e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.78782e-08\tAbsError: 2.93440e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.77169e-08\tAbsError: 2.97588e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 9.80917e-05\tAbsError: 2.22202e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.68243e-09\tAbsError: 2.67005e-06\n", - "Iteration: 16\n", - " Device: \"device\"\tRelError: 9.59511e-05\tAbsError: 1.84384e+09\n", - " Region: \"zone_1\"\tRelError: 6.90144e-05\tAbsError: 7.66547e-08\n", - " Equation: \"PotentialEquation\"\tRelError: 6.90142e-05\tAbsError: 7.02485e-11\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.20044e-10\tAbsError: 7.65844e-08\n", - " Region: \"zone_3\"\tRelError: 2.69367e-05\tAbsError: 1.84384e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12306e-09\tAbsError: 9.19074e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.38040e-09\tAbsError: 9.24762e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 2.69310e-05\tAbsError: 7.09816e-11\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.20135e-10\tAbsError: 7.66170e-08\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.78002e+01\tAbsError: 8.01808e+15\n", - " Region: \"zone_1\"\tRelError: 2.60361e+00\tAbsError: 5.73745e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.60200e+00\tAbsError: 1.08334e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60640e-03\tAbsError: 5.62912e-01\n", - " Region: \"zone_3\"\tRelError: 5.51966e+01\tAbsError: 8.01808e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77531e-03\tAbsError: 4.02252e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.25608e-03\tAbsError: 3.99556e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.51829e+01\tAbsError: 1.08344e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60715e-03\tAbsError: 5.63172e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.60960e+01\tAbsError: 2.20431e+17\n", - " Region: \"zone_1\"\tRelError: 1.14074e+01\tAbsError: 3.26419e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14065e+01\tAbsError: 3.30999e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.46053e-04\tAbsError: 2.93319e-01\n", - " Region: \"zone_3\"\tRelError: 4.68862e+00\tAbsError: 2.20431e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.34214e-01\tAbsError: 1.10721e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.64986e-01\tAbsError: 1.09710e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 3.38857e+00\tAbsError: 3.31000e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.46053e-04\tAbsError: 2.93319e-01\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 3.38300e-05\tAbsError: 2.01418e+10\n", - " Region: \"zone_1\"\tRelError: 1.17571e-06\tAbsError: 5.87640e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17402e-06\tAbsError: 7.44968e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.68869e-09\tAbsError: 5.86895e-07\n", - " Region: \"zone_3\"\tRelError: 3.26543e-05\tAbsError: 2.01418e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.37367e-08\tAbsError: 9.99956e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.02428e-08\tAbsError: 1.01422e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.25886e-05\tAbsError: 7.53080e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.68939e-09\tAbsError: 5.87154e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:20\u001b[0m.\u001b[1;36m270\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 1.0\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.57821e+00\tAbsError: 2.26810e+16\n", - " Region: \"zone_1\"\tRelError: 1.10562e+00\tAbsError: 4.94572e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10550e+00\tAbsError: 1.06613e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11893e-04\tAbsError: 3.87959e-02\n", - " Region: \"zone_3\"\tRelError: 1.47260e+00\tAbsError: 2.26810e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46329e-01\tAbsError: 1.16259e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.92250e-02\tAbsError: 1.10551e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.25693e+00\tAbsError: 1.06615e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12202e-04\tAbsError: 3.89055e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.57894e+00\tAbsError: 9.76840e+15\n", - " Region: \"zone_1\"\tRelError: 1.52646e-01\tAbsError: 1.16652e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49306e-01\tAbsError: 2.40793e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.33941e-03\tAbsError: 1.16628e+00\n", - " Region: \"zone_3\"\tRelError: 8.42629e+00\tAbsError: 9.76840e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.37382e-02\tAbsError: 4.38141e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.76399e-03\tAbsError: 5.38699e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.39645e+00\tAbsError: 2.43323e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.34128e-03\tAbsError: 1.16694e+00\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.25243e+01\tAbsError: 1.27893e+17\n", - " Region: \"zone_1\"\tRelError: 2.94369e+00\tAbsError: 9.88622e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.94348e+00\tAbsError: 2.55597e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.11253e-04\tAbsError: 7.33026e-02\n", - " Region: \"zone_3\"\tRelError: 9.58059e+00\tAbsError: 1.27893e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.94923e-01\tAbsError: 6.46615e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.04853e-01\tAbsError: 6.32319e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 8.88060e+00\tAbsError: 2.58610e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.11292e-04\tAbsError: 7.33127e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:21\u001b[0m.\u001b[1;36m527\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:21\u001b[0m.\u001b[1;36m552\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.25 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:21\u001b[0m.\u001b[1;36m582\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.57775e-01\tAbsError: 3.80409e+15\n", - " Region: \"zone_1\"\tRelError: 1.14600e-01\tAbsError: 3.02181e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13729e-01\tAbsError: 2.30820e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.71391e-04\tAbsError: 3.01951e-01\n", - " Region: \"zone_3\"\tRelError: 4.31748e-02\tAbsError: 3.80409e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.65260e-02\tAbsError: 1.99925e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69056e-03\tAbsError: 1.80483e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.08532e-03\tAbsError: 2.62542e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.72885e-04\tAbsError: 3.02457e-01\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.07845e+03\tAbsError: 1.16809e+18\n", - " Region: \"zone_1\"\tRelError: 2.98806e+02\tAbsError: 4.09541e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.98806e+02\tAbsError: 4.09540e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.33797e-10\tAbsError: 1.85521e-07\n", - " Region: \"zone_3\"\tRelError: 7.79646e+02\tAbsError: 1.16809e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90701e-01\tAbsError: 5.74604e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.65642e-01\tAbsError: 5.93489e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 7.78290e+02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.34021e-10\tAbsError: 1.85602e-07\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.44817e+00\tAbsError: 6.71157e+15\n", - " Region: \"zone_1\"\tRelError: 2.31265e+00\tAbsError: 5.95526e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.31248e+00\tAbsError: 3.11631e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69588e-04\tAbsError: 5.92410e-02\n", - " Region: \"zone_3\"\tRelError: 2.13552e+00\tAbsError: 6.71157e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.19978e-02\tAbsError: 3.26746e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.65453e-03\tAbsError: 3.44411e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.12070e+00\tAbsError: 3.13893e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69665e-04\tAbsError: 5.92680e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.16163e+00\tAbsError: 3.15373e+16\n", - " Region: \"zone_1\"\tRelError: 3.73877e-01\tAbsError: 1.56099e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.73462e-01\tAbsError: 1.22651e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14915e-04\tAbsError: 1.43834e-01\n", - " Region: \"zone_3\"\tRelError: 7.87757e-01\tAbsError: 3.15373e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.24889e-01\tAbsError: 1.64203e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.31812e-02\tAbsError: 1.51170e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.09272e-01\tAbsError: 1.22654e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14915e-04\tAbsError: 1.43834e-01\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.23456e+04\tAbsError: 1.02352e+19\n", - " Region: \"zone_1\"\tRelError: 3.19775e+04\tAbsError: 9.26313e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.19775e+04\tAbsError: 9.26313e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.43761e-11\tAbsError: 1.89251e-08\n", - " Region: \"zone_3\"\tRelError: 3.68111e+02\tAbsError: 1.02352e+19\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.73476e+02\tAbsError: 4.17766e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.83489e+01\tAbsError: 6.05758e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06286e+02\tAbsError: 9.26320e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.43983e-11\tAbsError: 1.89331e-08\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.70653e+00\tAbsError: 9.42995e+14\n", - " Region: \"zone_1\"\tRelError: 1.87512e-01\tAbsError: 1.86005e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87459e-01\tAbsError: 5.75054e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.35097e-05\tAbsError: 1.85430e-02\n", - " Region: \"zone_3\"\tRelError: 2.51902e+00\tAbsError: 9.42995e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.42725e-03\tAbsError: 4.56434e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.58145e-03\tAbsError: 4.86561e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.51196e+00\tAbsError: 5.79058e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.35168e-05\tAbsError: 1.85447e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.95227e+03\tAbsError: 4.47180e+17\n", - " Region: \"zone_1\"\tRelError: 5.95735e+02\tAbsError: 1.32695e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95731e+02\tAbsError: 3.07627e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.72641e-03\tAbsError: 1.29619e+00\n", - " Region: \"zone_3\"\tRelError: 2.35653e+03\tAbsError: 4.47180e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.30389e-01\tAbsError: 2.23868e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.07870e-01\tAbsError: 2.23312e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 2.35569e+03\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.72703e-03\tAbsError: 1.29643e+00\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.03801e-01\tAbsError: 3.36873e+14\n", - " Region: \"zone_1\"\tRelError: 4.76962e-01\tAbsError: 4.14745e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.76843e-01\tAbsError: 1.93448e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18688e-04\tAbsError: 4.14551e-02\n", - " Region: \"zone_3\"\tRelError: 2.26840e-01\tAbsError: 3.36873e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34636e-03\tAbsError: 1.66089e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.72901e-04\tAbsError: 1.70784e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.24702e-01\tAbsError: 1.94711e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18736e-04\tAbsError: 4.14716e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.55186e-01\tAbsError: 3.91136e+15\n", - " Region: \"zone_1\"\tRelError: 4.65576e-02\tAbsError: 1.85778e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.60219e-02\tAbsError: 1.29525e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.35764e-04\tAbsError: 1.85648e-01\n", - " Region: \"zone_3\"\tRelError: 1.08629e-01\tAbsError: 3.91136e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84355e-02\tAbsError: 2.04486e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.19784e-03\tAbsError: 1.86651e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.74587e-02\tAbsError: 1.40963e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.36803e-04\tAbsError: 1.86011e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.80855e+03\tAbsError: 8.58917e+18\n", - " Region: \"zone_1\"\tRelError: 1.23637e+02\tAbsError: 3.96683e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.23626e+02\tAbsError: 8.99016e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12575e-02\tAbsError: 3.87693e+00\n", - " Region: \"zone_3\"\tRelError: 2.68491e+03\tAbsError: 8.58917e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.59082e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.37524e+02\tAbsError: 4.99835e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 2.13838e+03\tAbsError: 8.99018e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12599e-02\tAbsError: 3.87776e+00\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.69373e-01\tAbsError: 7.96597e+13\n", - " Region: \"zone_1\"\tRelError: 2.49118e-02\tAbsError: 8.30434e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.48878e-02\tAbsError: 5.27447e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.39494e-05\tAbsError: 8.29907e-03\n", - " Region: \"zone_3\"\tRelError: 2.44461e-01\tAbsError: 7.96597e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.03029e-04\tAbsError: 3.88810e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.99138e-04\tAbsError: 4.07787e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.43835e-01\tAbsError: 5.31227e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.39515e-05\tAbsError: 8.29948e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.44034e-01\tAbsError: 2.50982e+14\n", - " Region: \"zone_1\"\tRelError: 2.52669e-01\tAbsError: 3.80409e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.52658e-01\tAbsError: 1.15800e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08740e-05\tAbsError: 3.79251e-03\n", - " Region: \"zone_3\"\tRelError: 1.91365e-01\tAbsError: 2.50982e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.75656e-04\tAbsError: 1.25054e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.84954e-04\tAbsError: 1.25928e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.90594e-01\tAbsError: 1.16615e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08740e-05\tAbsError: 3.79381e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 8.37720e+02\tAbsError: 8.62713e+16\n", - " Region: \"zone_1\"\tRelError: 6.83172e+02\tAbsError: 5.09423e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 6.83170e+02\tAbsError: 2.58987e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39194e-03\tAbsError: 4.83524e-01\n", - " Region: \"zone_3\"\tRelError: 1.54548e+02\tAbsError: 8.62713e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.27446e-01\tAbsError: 4.32970e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.20316e-02\tAbsError: 4.29743e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.54357e+02\tAbsError: 2.58982e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39675e-03\tAbsError: 4.85195e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.71034e-01\tAbsError: 7.05338e+14\n", - " Region: \"zone_1\"\tRelError: 4.96795e-02\tAbsError: 7.24479e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 4.96587e-02\tAbsError: 3.50735e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.08061e-05\tAbsError: 7.20972e-03\n", - " Region: \"zone_3\"\tRelError: 1.21355e-01\tAbsError: 7.05338e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.47438e-03\tAbsError: 3.47117e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.53212e-03\tAbsError: 3.58221e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18327e-01\tAbsError: 3.53840e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.08197e-05\tAbsError: 7.21462e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.69961e+03\tAbsError: 2.29427e+18\n", - " Region: \"zone_1\"\tRelError: 2.96536e+01\tAbsError: 3.10404e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 2.96449e+01\tAbsError: 8.69447e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.66233e-03\tAbsError: 3.01709e+00\n", - " Region: \"zone_3\"\tRelError: 1.66995e+03\tAbsError: 2.29427e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.01362e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.63130e+03\tAbsError: 1.28065e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 2.96449e+01\tAbsError: 8.69449e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.66403e-03\tAbsError: 3.01762e+00\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.94834e-01\tAbsError: 4.50761e+13\n", - " Region: \"zone_1\"\tRelError: 1.61165e-02\tAbsError: 1.06831e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.61134e-02\tAbsError: 2.81432e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.07411e-06\tAbsError: 1.06550e-03\n", - " Region: \"zone_3\"\tRelError: 1.78717e-01\tAbsError: 4.50761e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.86613e-04\tAbsError: 2.19704e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.74556e-04\tAbsError: 2.31057e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.78353e-01\tAbsError: 2.83681e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.07499e-06\tAbsError: 1.06575e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.84963e-02\tAbsError: 2.56196e+13\n", - " Region: \"zone_1\"\tRelError: 4.00746e-02\tAbsError: 1.84773e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 4.00693e-02\tAbsError: 1.18319e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.30122e-06\tAbsError: 1.84655e-03\n", - " Region: \"zone_3\"\tRelError: 2.84217e-02\tAbsError: 2.56196e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.10236e-05\tAbsError: 1.27710e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.94827e-05\tAbsError: 1.28486e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.82859e-02\tAbsError: 1.19127e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.30191e-06\tAbsError: 1.84686e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 6.13777e+02\tAbsError: 9.41150e+15\n", - " Region: \"zone_1\"\tRelError: 7.34943e+01\tAbsError: 1.74710e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 7.34894e+01\tAbsError: 9.16455e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.95952e-03\tAbsError: 1.73794e+00\n", - " Region: \"zone_3\"\tRelError: 5.40283e+02\tAbsError: 9.41150e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.82819e-02\tAbsError: 3.95531e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.70902e-02\tAbsError: 5.45619e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.40223e+02\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.96820e-03\tAbsError: 1.74101e+00\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.61029e-02\tAbsError: 4.08676e+13\n", - " Region: \"zone_1\"\tRelError: 4.74709e-03\tAbsError: 4.99792e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 4.73267e-03\tAbsError: 2.21701e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.44170e-05\tAbsError: 4.99571e-03\n", - " Region: \"zone_3\"\tRelError: 1.13558e-02\tAbsError: 4.08676e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.88341e-05\tAbsError: 2.00869e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.22806e-05\tAbsError: 2.07807e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11703e-02\tAbsError: 2.23458e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.44170e-05\tAbsError: 4.99571e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.25640e+03\tAbsError: 2.59407e+18\n", - " Region: \"zone_1\"\tRelError: 1.34547e+02\tAbsError: 1.10069e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.34544e+02\tAbsError: 8.37231e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.92836e-03\tAbsError: 1.01697e+00\n", - " Region: \"zone_3\"\tRelError: 1.12185e+03\tAbsError: 2.59407e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01259e+03\tAbsError: 1.19798e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.28405e+01\tAbsError: 1.39609e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 6.64141e+01\tAbsError: 8.37233e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.92836e-03\tAbsError: 1.01697e+00\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 3.12791e-02\tAbsError: 1.26703e+13\n", - " Region: \"zone_1\"\tRelError: 1.80768e-02\tAbsError: 2.75667e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.80761e-02\tAbsError: 5.01993e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.90781e-07\tAbsError: 2.75165e-04\n", - " Region: \"zone_3\"\tRelError: 1.32022e-02\tAbsError: 1.26703e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.15745e-05\tAbsError: 6.31722e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.07221e-05\tAbsError: 6.35307e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31591e-02\tAbsError: 5.05478e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.90922e-07\tAbsError: 2.75214e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.14777e-02\tAbsError: 6.22952e+12\n", - " Region: \"zone_1\"\tRelError: 2.69816e-03\tAbsError: 4.97182e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.69673e-03\tAbsError: 3.70717e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42953e-06\tAbsError: 4.96811e-04\n", - " Region: \"zone_3\"\tRelError: 2.87796e-02\tAbsError: 6.22952e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.54213e-05\tAbsError: 3.03376e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.37896e-05\tAbsError: 3.19576e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.87289e-02\tAbsError: 3.73663e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43009e-06\tAbsError: 4.97011e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.16806e+01\tAbsError: 1.22386e+16\n", - " Region: \"zone_1\"\tRelError: 5.81165e+00\tAbsError: 2.01324e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.80588e+00\tAbsError: 6.99078e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.77633e-03\tAbsError: 2.01254e+00\n", - " Region: \"zone_3\"\tRelError: 5.86896e+00\tAbsError: 1.22386e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.88114e-02\tAbsError: 5.53671e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.06848e-02\tAbsError: 6.70184e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.80368e+00\tAbsError: 7.04147e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.78367e-03\tAbsError: 2.01512e+00\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.36737e-02\tAbsError: 3.46945e+13\n", - " Region: \"zone_1\"\tRelError: 4.04619e-03\tAbsError: 4.96121e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.04476e-03\tAbsError: 1.62718e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42705e-06\tAbsError: 4.94493e-04\n", - " Region: \"zone_3\"\tRelError: 9.62755e-03\tAbsError: 3.46945e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.50334e-05\tAbsError: 1.70836e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.66532e-05\tAbsError: 1.76109e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.46443e-03\tAbsError: 1.64203e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42741e-06\tAbsError: 4.94624e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.68437e+02\tAbsError: 3.76826e+17\n", - " Region: \"zone_1\"\tRelError: 5.24367e+00\tAbsError: 1.64859e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.23916e+00\tAbsError: 8.01893e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.51238e-03\tAbsError: 1.56840e+00\n", - " Region: \"zone_3\"\tRelError: 8.63193e+02\tAbsError: 3.76826e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12292e+01\tAbsError: 1.43202e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.11642e+02\tAbsError: 2.33624e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 4.03176e+01\tAbsError: 8.01894e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.51534e-03\tAbsError: 1.56957e+00\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 5.58596e-03\tAbsError: 1.81500e+12\n", - " Region: \"zone_1\"\tRelError: 3.23185e-03\tAbsError: 1.08128e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.23154e-03\tAbsError: 7.20422e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.10536e-07\tAbsError: 1.08056e-04\n", - " Region: \"zone_3\"\tRelError: 2.35411e-03\tAbsError: 1.81500e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.98887e-06\tAbsError: 9.05203e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.47215e-06\tAbsError: 9.09800e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.34534e-03\tAbsError: 7.27320e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.10562e-07\tAbsError: 1.08065e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.35240e-02\tAbsError: 2.71383e+12\n", - " Region: \"zone_1\"\tRelError: 1.15361e-03\tAbsError: 9.01137e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15335e-03\tAbsError: 1.50035e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.58860e-07\tAbsError: 8.99637e-05\n", - " Region: \"zone_3\"\tRelError: 1.23704e-02\tAbsError: 2.71383e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12817e-05\tAbsError: 1.32174e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.05297e-05\tAbsError: 1.39209e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.23483e-02\tAbsError: 1.51287e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.58959e-07\tAbsError: 9.00000e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 8.44367e+01\tAbsError: 1.02259e+16\n", - " Region: \"zone_1\"\tRelError: 4.22055e+01\tAbsError: 1.45859e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.22051e+01\tAbsError: 5.71640e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.16833e-04\tAbsError: 1.45287e-01\n", - " Region: \"zone_3\"\tRelError: 4.22312e+01\tAbsError: 1.02259e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.97020e-02\tAbsError: 4.95775e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.96648e-03\tAbsError: 5.26817e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 4.22051e+01\tAbsError: 5.76213e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.17002e-04\tAbsError: 1.45346e-01\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.90554e-03\tAbsError: 3.84334e+12\n", - " Region: \"zone_1\"\tRelError: 5.67157e-04\tAbsError: 2.85941e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.66334e-04\tAbsError: 1.72086e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.22338e-07\tAbsError: 2.85769e-04\n", - " Region: \"zone_3\"\tRelError: 1.33838e-03\tAbsError: 3.84334e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.13597e-06\tAbsError: 1.89425e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.24167e-06\tAbsError: 1.94909e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.32018e-03\tAbsError: 1.73581e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.22651e-07\tAbsError: 2.85878e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.49421e+02\tAbsError: 3.45044e+16\n", - " Region: \"zone_1\"\tRelError: 2.47424e+00\tAbsError: 2.92395e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.47362e+00\tAbsError: 7.62823e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.21647e-04\tAbsError: 2.16113e-01\n", - " Region: \"zone_3\"\tRelError: 5.46946e+02\tAbsError: 3.45044e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.98453e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.35971e+02\tAbsError: 1.46591e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.97442e+00\tAbsError: 7.62825e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.21666e-04\tAbsError: 2.16115e-01\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 2.04292e-03\tAbsError: 7.05397e+11\n", - " Region: \"zone_1\"\tRelError: 1.18204e-03\tAbsError: 2.04270e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18198e-03\tAbsError: 2.66778e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.85310e-08\tAbsError: 2.04003e-05\n", - " Region: \"zone_3\"\tRelError: 8.60879e-04\tAbsError: 7.05397e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.13172e-06\tAbsError: 3.51344e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.38793e-06\tAbsError: 3.54052e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 8.58301e-04\tAbsError: 2.69418e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.85529e-08\tAbsError: 2.04083e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.66323e-03\tAbsError: 4.84759e+11\n", - " Region: \"zone_1\"\tRelError: 2.28613e-04\tAbsError: 3.39177e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.28515e-04\tAbsError: 2.84083e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.75123e-08\tAbsError: 3.38893e-05\n", - " Region: \"zone_3\"\tRelError: 2.43462e-03\tAbsError: 4.84759e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.99043e-06\tAbsError: 2.36019e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.86586e-06\tAbsError: 2.48740e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.43067e-03\tAbsError: 2.86106e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.75523e-08\tAbsError: 3.39041e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.49604e+00\tAbsError: 9.70392e+14\n", - " Region: \"zone_1\"\tRelError: 3.74605e+00\tAbsError: 7.97463e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.74582e+00\tAbsError: 4.64021e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28718e-04\tAbsError: 7.96999e-02\n", - " Region: \"zone_3\"\tRelError: 3.74999e+00\tAbsError: 9.70392e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.58316e-03\tAbsError: 4.83793e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.36045e-03\tAbsError: 4.86599e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.74582e+00\tAbsError: 4.67428e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28813e-04\tAbsError: 7.97327e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 9.55346e-04\tAbsError: 2.05462e+12\n", - " Region: \"zone_1\"\tRelError: 2.84125e-04\tAbsError: 4.49675e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.83996e-04\tAbsError: 8.40596e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.29156e-07\tAbsError: 4.48834e-05\n", - " Region: \"zone_3\"\tRelError: 6.71221e-04\tAbsError: 2.05462e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.03717e-06\tAbsError: 1.01247e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.55660e-06\tAbsError: 1.04215e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 6.61498e-04\tAbsError: 8.48402e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.29206e-07\tAbsError: 4.49013e-05\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 4.10017e-04\tAbsError: 1.25482e+11\n", - " Region: \"zone_1\"\tRelError: 2.37057e-04\tAbsError: 6.87465e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.37038e-04\tAbsError: 5.30541e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.97090e-08\tAbsError: 6.86934e-06\n", - " Region: \"zone_3\"\tRelError: 1.72960e-04\tAbsError: 1.25482e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.39658e-07\tAbsError: 6.25033e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.14206e-07\tAbsError: 6.29787e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72386e-04\tAbsError: 5.35676e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.97163e-08\tAbsError: 6.87208e-06\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.36093e+03\tAbsError: 1.73063e+16\n", - " Region: \"zone_1\"\tRelError: 2.50099e+00\tAbsError: 1.04032e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.50090e+00\tAbsError: 7.19237e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.26103e-05\tAbsError: 3.21082e-02\n", - " Region: \"zone_3\"\tRelError: 2.35843e+03\tAbsError: 1.73063e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.90026e+03\tAbsError: 7.68195e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.57215e+02\tAbsError: 9.62438e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.53038e-01\tAbsError: 7.19239e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.27224e-05\tAbsError: 3.21462e-02\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 9.36018e-04\tAbsError: 1.74566e+11\n", - " Region: \"zone_1\"\tRelError: 8.04965e-05\tAbsError: 7.09811e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.04761e-05\tAbsError: 1.02447e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.03939e-08\tAbsError: 7.08786e-06\n", - " Region: \"zone_3\"\tRelError: 8.55521e-04\tAbsError: 1.74566e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.24390e-07\tAbsError: 8.50012e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.76525e-07\tAbsError: 8.95646e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 8.54100e-04\tAbsError: 1.03181e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.04026e-08\tAbsError: 7.09095e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 9.26745e+00\tAbsError: 5.14481e+14\n", - " Region: \"zone_1\"\tRelError: 8.59152e+00\tAbsError: 9.35409e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 8.59150e+00\tAbsError: 2.29233e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.68516e-05\tAbsError: 9.33117e-03\n", - " Region: \"zone_3\"\tRelError: 6.75929e-01\tAbsError: 5.14481e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.99602e-04\tAbsError: 2.56366e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.52414e-04\tAbsError: 2.58114e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.74650e-01\tAbsError: 2.31041e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.68516e-05\tAbsError: 9.33117e-03\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 1.31093e-04\tAbsError: 4.20042e+10\n", - " Region: \"zone_1\"\tRelError: 7.58426e-05\tAbsError: 1.44285e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 7.58384e-05\tAbsError: 1.70924e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.13482e-09\tAbsError: 1.44114e-06\n", - " Region: \"zone_3\"\tRelError: 5.52503e-05\tAbsError: 4.20042e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.55628e-08\tAbsError: 2.09238e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.07224e-08\tAbsError: 2.10804e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.50899e-05\tAbsError: 1.72611e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.13649e-09\tAbsError: 1.44176e-06\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.69143e-04\tAbsError: 3.20010e+11\n", - " Region: \"zone_1\"\tRelError: 5.04529e-05\tAbsError: 1.92486e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.03976e-05\tAbsError: 1.37695e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.53502e-08\tAbsError: 1.92349e-05\n", - " Region: \"zone_3\"\tRelError: 1.18690e-04\tAbsError: 3.20010e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.67288e-07\tAbsError: 1.57764e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.98946e-07\tAbsError: 1.62246e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17168e-04\tAbsError: 1.38952e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.53717e-08\tAbsError: 1.92429e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.24927e+02\tAbsError: 9.45906e+15\n", - " Region: \"zone_1\"\tRelError: 8.54269e-01\tAbsError: 1.97970e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 8.53892e-01\tAbsError: 6.70103e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.77125e-04\tAbsError: 1.30959e-01\n", - " Region: \"zone_3\"\tRelError: 3.24073e+02\tAbsError: 9.45906e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.98994e+01\tAbsError: 4.98573e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.43969e+02\tAbsError: 4.47333e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.04289e-01\tAbsError: 6.70105e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.77125e-04\tAbsError: 1.30959e-01\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 2.06215e-04\tAbsError: 3.63594e+10\n", - " Region: \"zone_1\"\tRelError: 1.77671e-05\tAbsError: 2.32923e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77604e-05\tAbsError: 2.21535e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.69552e-09\tAbsError: 2.32701e-06\n", - " Region: \"zone_3\"\tRelError: 1.88448e-04\tAbsError: 3.63594e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.49672e-07\tAbsError: 1.77014e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.40316e-07\tAbsError: 1.86580e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88151e-04\tAbsError: 2.23089e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.69830e-09\tAbsError: 2.32802e-06\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 2.85509e-05\tAbsError: 8.53392e+09\n", - " Region: \"zone_1\"\tRelError: 1.65076e-05\tAbsError: 4.38296e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65063e-05\tAbsError: 3.70085e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.25646e-09\tAbsError: 4.37926e-07\n", - " Region: \"zone_3\"\tRelError: 1.20433e-05\tAbsError: 8.53392e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50308e-08\tAbsError: 4.25112e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.13442e-08\tAbsError: 4.28280e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20057e-05\tAbsError: 3.73687e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.25697e-09\tAbsError: 4.38116e-07\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 6.55972e-05\tAbsError: 1.30140e+11\n", - " Region: \"zone_1\"\tRelError: 1.95538e-05\tAbsError: 3.68464e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.95433e-05\tAbsError: 5.53800e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.05870e-08\tAbsError: 3.67910e-06\n", - " Region: \"zone_3\"\tRelError: 4.60434e-05\tAbsError: 1.30140e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.17662e-07\tAbsError: 6.41496e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.88393e-07\tAbsError: 6.59903e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.54267e-05\tAbsError: 5.58934e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.05914e-08\tAbsError: 3.68073e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:33\u001b[0m.\u001b[1;36m178\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.9799999999999999\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.48030e+01\tAbsError: 7.19505e+13\n", - " Region: \"zone_1\"\tRelError: 1.40655e+01\tAbsError: 3.86191e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40655e+01\tAbsError: 2.84880e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11050e-05\tAbsError: 3.85906e-03\n", - " Region: \"zone_3\"\tRelError: 7.37529e-01\tAbsError: 7.19505e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.38672e-04\tAbsError: 3.58470e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.21484e-04\tAbsError: 3.61036e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.37257e-01\tAbsError: 2.87067e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11068e-05\tAbsError: 3.85947e-03\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 6.49197e-05\tAbsError: 1.16553e+10\n", - " Region: \"zone_1\"\tRelError: 5.60093e-06\tAbsError: 5.33242e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 5.59940e-06\tAbsError: 7.08545e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.53226e-09\tAbsError: 5.32534e-07\n", - " Region: \"zone_3\"\tRelError: 5.93188e-05\tAbsError: 1.16553e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.82921e-08\tAbsError: 5.67470e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.51325e-08\tAbsError: 5.98062e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 5.92238e-05\tAbsError: 7.13541e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.53290e-09\tAbsError: 5.32764e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:33\u001b[0m.\u001b[1;36m686\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:33\u001b[0m.\u001b[1;36m686\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.9399999999999998\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 4.41228e+03\tAbsError: 1.12269e+15\n", - " Region: \"zone_1\"\tRelError: 9.92429e-02\tAbsError: 1.72929e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 9.89218e-02\tAbsError: 6.14042e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.21056e-04\tAbsError: 1.11525e-01\n", - " Region: \"zone_3\"\tRelError: 4.41219e+03\tAbsError: 1.12269e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.27001e+03\tAbsError: 3.32160e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.14155e+03\tAbsError: 7.90530e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.23042e-01\tAbsError: 6.14044e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.21056e-04\tAbsError: 1.11525e-01\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.47896e+00\tAbsError: 2.94682e+13\n", - " Region: \"zone_1\"\tRelError: 1.24509e+00\tAbsError: 6.95816e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.24509e+00\tAbsError: 1.07735e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.99937e-06\tAbsError: 6.94739e-04\n", - " Region: \"zone_3\"\tRelError: 2.33869e-01\tAbsError: 2.94682e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.81392e-05\tAbsError: 1.46808e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.76977e-05\tAbsError: 1.47873e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.33792e-01\tAbsError: 1.08579e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.99953e-06\tAbsError: 6.95001e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.14292e+01\tAbsError: 9.65069e+17\n", - " Region: \"zone_1\"\tRelError: 4.44867e+01\tAbsError: 4.29349e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.44867e+01\tAbsError: 4.29336e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.76237e-09\tAbsError: 1.30750e-06\n", - " Region: \"zone_3\"\tRelError: 2.69425e+01\tAbsError: 9.65069e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.31474e-01\tAbsError: 4.69501e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.11759e-01\tAbsError: 4.95568e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 2.54992e+01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.76396e-09\tAbsError: 1.30807e-06\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 8.68319e+04\tAbsError: 1.01395e+15\n", - " Region: \"zone_1\"\tRelError: 8.30065e-02\tAbsError: 9.69279e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.28854e-02\tAbsError: 5.49210e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.21129e-04\tAbsError: 4.20068e-02\n", - " Region: \"zone_3\"\tRelError: 8.68319e+04\tAbsError: 1.01395e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.68105e+04\tAbsError: 4.66680e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.10870e+01\tAbsError: 5.47269e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.57619e-01\tAbsError: 5.49213e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.21232e-04\tAbsError: 4.20415e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.23523e+02\tAbsError: 6.14633e+17\n", - " Region: \"zone_1\"\tRelError: 4.09043e+01\tAbsError: 4.19630e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.09043e+01\tAbsError: 4.19628e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.63544e-10\tAbsError: 1.61104e-07\n", - " Region: \"zone_3\"\tRelError: 8.26191e+01\tAbsError: 6.14633e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.43690e-01\tAbsError: 2.98656e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.30409e-01\tAbsError: 3.15977e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 8.11450e+01\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.63736e-10\tAbsError: 1.61173e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:35\u001b[0m.\u001b[1;36m554\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:35\u001b[0m.\u001b[1;36m583\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.3 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:35\u001b[0m.\u001b[1;36m632\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.23148e-01\tAbsError: 5.24321e+12\n", - " Region: \"zone_1\"\tRelError: 2.61296e-01\tAbsError: 2.47766e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.61295e-01\tAbsError: 1.83418e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.11380e-07\tAbsError: 2.47583e-04\n", - " Region: \"zone_3\"\tRelError: 6.18518e-02\tAbsError: 5.24321e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94642e-06\tAbsError: 2.61290e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.40186e-06\tAbsError: 2.63031e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 6.18338e-02\tAbsError: 1.85316e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.11644e-07\tAbsError: 2.47677e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.09355e+04\tAbsError: 5.43141e+17\n", - " Region: \"zone_1\"\tRelError: 2.11850e+03\tAbsError: 9.99073e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.11850e+03\tAbsError: 3.30996e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.78001e-03\tAbsError: 9.65974e-01\n", - " Region: \"zone_3\"\tRelError: 1.88170e+04\tAbsError: 5.43141e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.07099e-01\tAbsError: 2.72398e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.80829e-01\tAbsError: 2.70743e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88160e+04\tAbsError: 3.31000e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.78032e-03\tAbsError: 9.66102e-01\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 4.87779e+02\tAbsError: 5.45900e+14\n", - " Region: \"zone_1\"\tRelError: 6.21634e-02\tAbsError: 1.04361e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 6.19989e-02\tAbsError: 4.73177e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.64467e-04\tAbsError: 5.70437e-02\n", - " Region: \"zone_3\"\tRelError: 4.87717e+02\tAbsError: 5.45900e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.98596e+02\tAbsError: 1.44358e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.89059e+02\tAbsError: 4.01542e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.20921e-02\tAbsError: 4.73180e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.64723e-04\tAbsError: 5.71329e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.45887e+04\tAbsError: 1.43878e+19\n", - " Region: \"zone_1\"\tRelError: 1.02041e+03\tAbsError: 9.39934e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02041e+03\tAbsError: 9.39933e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.82293e-10\tAbsError: 9.83916e-08\n", - " Region: \"zone_3\"\tRelError: 7.35683e+04\tAbsError: 1.43878e+19\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.36528e+02\tAbsError: 5.88123e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.06847e+02\tAbsError: 8.50661e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 7.30249e+04\tAbsError: 9.39941e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.82408e-10\tAbsError: 9.84332e-08\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 5.28442e+02\tAbsError: 4.50811e+17\n", - " Region: \"zone_1\"\tRelError: 2.63689e+02\tAbsError: 5.40877e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.63688e+02\tAbsError: 3.19522e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.46649e-03\tAbsError: 5.08925e-01\n", - " Region: \"zone_3\"\tRelError: 2.64752e+02\tAbsError: 4.50811e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.40504e-01\tAbsError: 2.25134e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.22390e-01\tAbsError: 2.25677e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 2.63688e+02\tAbsError: 3.19525e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.46805e-03\tAbsError: 5.09446e-01\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 9.77270e-02\tAbsError: 1.82347e+12\n", - " Region: \"zone_1\"\tRelError: 7.65024e-02\tAbsError: 5.28468e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.65022e-02\tAbsError: 6.24160e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.51664e-07\tAbsError: 5.27844e-05\n", - " Region: \"zone_3\"\tRelError: 2.12246e-02\tAbsError: 1.82347e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11287e-06\tAbsError: 9.08701e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.75258e-06\tAbsError: 9.14773e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.12196e-02\tAbsError: 6.30788e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.51721e-07\tAbsError: 5.28055e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.70966e+03\tAbsError: 4.51277e+14\n", - " Region: \"zone_1\"\tRelError: 4.80054e-02\tAbsError: 1.15275e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.77835e-02\tAbsError: 3.83022e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.21879e-04\tAbsError: 7.69733e-02\n", - " Region: \"zone_3\"\tRelError: 1.70961e+03\tAbsError: 4.51277e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.70858e+03\tAbsError: 4.59297e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.82155e-01\tAbsError: 4.05348e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.78561e-02\tAbsError: 3.83026e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.22113e-04\tAbsError: 7.70552e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.05255e+03\tAbsError: 1.21992e+17\n", - " Region: \"zone_1\"\tRelError: 1.96013e+02\tAbsError: 3.72504e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.96012e+02\tAbsError: 2.58637e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.98548e-04\tAbsError: 3.46641e-01\n", - " Region: \"zone_3\"\tRelError: 8.56535e+02\tAbsError: 1.21992e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95869e-01\tAbsError: 6.12799e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.13879e-01\tAbsError: 6.07120e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 8.56224e+02\tAbsError: 2.58493e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00238e-03\tAbsError: 3.47971e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.68180e+03\tAbsError: 1.18343e+19\n", - " Region: \"zone_1\"\tRelError: 5.17715e+01\tAbsError: 5.45577e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.17559e+01\tAbsError: 9.13709e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.56182e-02\tAbsError: 5.36440e+00\n", - " Region: \"zone_3\"\tRelError: 1.63003e+03\tAbsError: 1.18343e+19\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 4.94846e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.13752e+02\tAbsError: 6.88587e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20726e+03\tAbsError: 9.13711e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.56198e-02\tAbsError: 5.36502e+00\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 2.05494e-02\tAbsError: 3.74583e+11\n", - " Region: \"zone_1\"\tRelError: 1.55447e-02\tAbsError: 1.67716e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55447e-02\tAbsError: 1.38057e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.81497e-08\tAbsError: 1.67577e-05\n", - " Region: \"zone_3\"\tRelError: 5.00469e-03\tAbsError: 3.74583e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.90614e-07\tAbsError: 1.86695e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.85333e-07\tAbsError: 1.87888e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.00347e-03\tAbsError: 1.39492e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.81681e-08\tAbsError: 1.67646e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 5.56837e+00\tAbsError: 1.07325e+17\n", - " Region: \"zone_1\"\tRelError: 2.13979e+00\tAbsError: 1.76840e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.13935e+00\tAbsError: 2.58872e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.34120e-04\tAbsError: 1.50953e-01\n", - " Region: \"zone_3\"\tRelError: 3.42858e+00\tAbsError: 1.07325e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.43649e-01\tAbsError: 5.37359e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.46620e-01\tAbsError: 5.35895e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.03788e+00\tAbsError: 2.57709e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.34307e-04\tAbsError: 1.51010e-01\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.12531e+00\tAbsError: 4.21060e+14\n", - " Region: \"zone_1\"\tRelError: 3.42960e-02\tAbsError: 1.26190e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.40121e-02\tAbsError: 2.76566e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.83947e-04\tAbsError: 9.85338e-02\n", - " Region: \"zone_3\"\tRelError: 1.09102e+00\tAbsError: 4.21060e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99815e-01\tAbsError: 2.67407e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.14073e-02\tAbsError: 3.94320e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.95111e-02\tAbsError: 2.76571e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.84251e-04\tAbsError: 9.86404e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 6.10831e+02\tAbsError: 1.05705e+16\n", - " Region: \"zone_1\"\tRelError: 1.67975e+02\tAbsError: 1.53352e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.67975e+02\tAbsError: 1.22647e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.06404e-04\tAbsError: 1.41087e-01\n", - " Region: \"zone_3\"\tRelError: 4.42856e+02\tAbsError: 1.05705e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52745e-02\tAbsError: 5.30758e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.01145e-02\tAbsError: 5.26289e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 4.42820e+02\tAbsError: 1.22654e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.06484e-04\tAbsError: 1.41119e-01\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 6.14058e-03\tAbsError: 1.17501e+11\n", - " Region: \"zone_1\"\tRelError: 4.56971e-03\tAbsError: 3.83354e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.56970e-03\tAbsError: 4.25999e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10026e-08\tAbsError: 3.82928e-06\n", - " Region: \"zone_3\"\tRelError: 1.57087e-03\tAbsError: 1.17501e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.29368e-07\tAbsError: 5.85629e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.92613e-07\tAbsError: 5.89376e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.57054e-03\tAbsError: 4.30497e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10071e-08\tAbsError: 3.83095e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 6.77537e+02\tAbsError: 3.47065e+18\n", - " Region: \"zone_1\"\tRelError: 5.27552e+01\tAbsError: 5.42650e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.27399e+01\tAbsError: 8.85379e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52685e-02\tAbsError: 5.33797e+00\n", - " Region: \"zone_3\"\tRelError: 6.24782e+02\tAbsError: 3.47065e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.32470e+02\tAbsError: 1.73897e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.39557e+02\tAbsError: 1.73167e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 5.27399e+01\tAbsError: 8.85383e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52728e-02\tAbsError: 5.33955e+00\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.12460e+00\tAbsError: 1.21483e+16\n", - " Region: \"zone_1\"\tRelError: 9.82739e-01\tAbsError: 2.46167e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 9.82060e-01\tAbsError: 1.06610e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.78912e-04\tAbsError: 2.35506e-01\n", - " Region: \"zone_3\"\tRelError: 1.14186e+00\tAbsError: 1.21483e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.90955e-02\tAbsError: 6.10228e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.44176e-02\tAbsError: 6.04607e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08766e+00\tAbsError: 1.06615e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.79147e-04\tAbsError: 2.35580e-01\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 1.14209e+04\tAbsError: 3.18688e+14\n", - " Region: \"zone_1\"\tRelError: 2.59223e-02\tAbsError: 1.40661e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.55799e-02\tAbsError: 2.17875e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.42444e-04\tAbsError: 1.18874e-01\n", - " Region: \"zone_3\"\tRelError: 1.14208e+04\tAbsError: 3.18688e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.14208e+04\tAbsError: 1.57888e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.09664e-03\tAbsError: 3.02900e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.93581e-02\tAbsError: 2.17884e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.42953e-04\tAbsError: 1.19052e-01\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 1.39778e-03\tAbsError: 2.64036e+10\n", - " Region: \"zone_1\"\tRelError: 1.02275e-03\tAbsError: 1.13260e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02274e-03\tAbsError: 9.95943e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.25141e-09\tAbsError: 1.13160e-06\n", - " Region: \"zone_3\"\tRelError: 3.75036e-04\tAbsError: 2.64036e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.18289e-08\tAbsError: 1.31607e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.84989e-08\tAbsError: 1.32430e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.74952e-04\tAbsError: 1.00632e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.25274e-09\tAbsError: 1.13210e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.98888e+00\tAbsError: 5.15087e+14\n", - " Region: \"zone_1\"\tRelError: 1.58063e+00\tAbsError: 1.38877e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.58023e+00\tAbsError: 9.18863e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.99000e-04\tAbsError: 1.38868e-01\n", - " Region: \"zone_3\"\tRelError: 4.08243e-01\tAbsError: 5.15087e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.30563e-04\tAbsError: 2.54061e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.93154e-04\tAbsError: 2.61026e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.06120e-01\tAbsError: 9.32589e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.99000e-04\tAbsError: 1.38868e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.91912e+02\tAbsError: 3.81871e+18\n", - " Region: \"zone_1\"\tRelError: 5.16724e+01\tAbsError: 2.23553e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.16662e+01\tAbsError: 8.54616e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.18799e-03\tAbsError: 2.15007e+00\n", - " Region: \"zone_3\"\tRelError: 1.40239e+02\tAbsError: 3.81871e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.90791e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.35803e+01\tAbsError: 1.91081e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 9.76528e+01\tAbsError: 8.54619e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.18799e-03\tAbsError: 2.15007e+00\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 1.04411e+00\tAbsError: 2.50280e+14\n", - " Region: \"zone_1\"\tRelError: 5.02432e-03\tAbsError: 2.11146e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.41747e-03\tAbsError: 3.60591e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.06848e-04\tAbsError: 2.10785e-01\n", - " Region: \"zone_3\"\tRelError: 1.03909e+00\tAbsError: 2.50280e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99718e-01\tAbsError: 2.56770e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.04445e-02\tAbsError: 2.24603e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.83179e-02\tAbsError: 3.68304e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.07465e-04\tAbsError: 2.11002e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.73047e-01\tAbsError: 1.36922e+15\n", - " Region: \"zone_1\"\tRelError: 1.96522e-02\tAbsError: 1.01954e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.93590e-02\tAbsError: 1.74848e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.93173e-04\tAbsError: 1.01937e-01\n", - " Region: \"zone_3\"\tRelError: 1.53395e-01\tAbsError: 1.36922e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.62916e-03\tAbsError: 7.15283e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.23255e-04\tAbsError: 6.53940e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49849e-01\tAbsError: 1.79107e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.93173e-04\tAbsError: 1.01937e-01\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 3.99447e-04\tAbsError: 7.75693e+09\n", - " Region: \"zone_1\"\tRelError: 2.89402e-04\tAbsError: 2.71336e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.89401e-04\tAbsError: 2.89100e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.78779e-10\tAbsError: 2.71047e-07\n", - " Region: \"zone_3\"\tRelError: 1.10046e-04\tAbsError: 7.75693e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.37898e-09\tAbsError: 3.86636e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.32737e-08\tAbsError: 3.89057e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10023e-04\tAbsError: 2.92143e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.79099e-10\tAbsError: 2.71163e-07\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.05350e+01\tAbsError: 7.00392e+14\n", - " Region: \"zone_1\"\tRelError: 1.88154e+01\tAbsError: 4.80835e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88154e+01\tAbsError: 3.93683e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36946e-05\tAbsError: 4.76898e-03\n", - " Region: \"zone_3\"\tRelError: 1.71959e+00\tAbsError: 7.00392e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10974e-03\tAbsError: 3.48796e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.68307e-04\tAbsError: 3.51596e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.71799e+00\tAbsError: 3.96999e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37000e-05\tAbsError: 4.77083e-03\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 2.62132e-01\tAbsError: 1.20370e+14\n", - " Region: \"zone_1\"\tRelError: 2.50228e-02\tAbsError: 1.76959e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.50181e-02\tAbsError: 1.41458e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.67653e-06\tAbsError: 1.62813e-03\n", - " Region: \"zone_3\"\tRelError: 2.37109e-01\tAbsError: 1.20370e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50710e-02\tAbsError: 3.54181e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.53409e-02\tAbsError: 8.49519e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06692e-01\tAbsError: 1.43144e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.67852e-06\tAbsError: 1.62885e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 4.47134e+03\tAbsError: 5.06320e+17\n", - " Region: \"zone_1\"\tRelError: 7.78525e+01\tAbsError: 8.09559e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 7.78504e+01\tAbsError: 8.20995e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.09575e-03\tAbsError: 7.27460e-01\n", - " Region: \"zone_3\"\tRelError: 4.39349e+03\tAbsError: 5.06320e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.22912e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.34666e+03\tAbsError: 2.83408e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 3.78239e+01\tAbsError: 8.20997e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.09710e-03\tAbsError: 7.27945e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.28010e-01\tAbsError: 4.89992e+14\n", - " Region: \"zone_1\"\tRelError: 1.30075e-02\tAbsError: 8.50269e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.30052e-02\tAbsError: 2.97332e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.35842e-06\tAbsError: 8.20536e-04\n", - " Region: \"zone_3\"\tRelError: 1.15003e-01\tAbsError: 4.89992e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.04716e-04\tAbsError: 2.43507e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.61931e-04\tAbsError: 2.46485e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13934e-01\tAbsError: 2.99961e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36059e-06\tAbsError: 8.21291e-04\n", - "Iteration: 16\n", - " Device: \"device\"\tRelError: 9.59509e-05\tAbsError: 1.84383e+09\n", - " Region: \"zone_1\"\tRelError: 6.90141e-05\tAbsError: 7.66547e-08\n", - " Equation: \"PotentialEquation\"\tRelError: 6.90139e-05\tAbsError: 7.02485e-11\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.20044e-10\tAbsError: 7.65844e-08\n", - " Region: \"zone_3\"\tRelError: 2.69368e-05\tAbsError: 1.84383e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12306e-09\tAbsError: 9.19073e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.38040e-09\tAbsError: 9.24762e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 2.69311e-05\tAbsError: 7.09816e-11\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.20135e-10\tAbsError: 7.66170e-08\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:42\u001b[0m.\u001b[1;36m759\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 1.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 16\n", - " Device: \"device\"\tRelError: 1.65985e-02\tAbsError: 1.45858e+12\n", - " Region: \"zone_1\"\tRelError: 1.72331e-03\tAbsError: 7.56454e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.70153e-03\tAbsError: 1.42959e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17736e-05\tAbsError: 7.56311e-03\n", - " Region: \"zone_3\"\tRelError: 1.48752e-02\tAbsError: 1.45858e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.82682e-04\tAbsError: 8.27787e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.80685e-04\tAbsError: 6.30790e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39900e-02\tAbsError: 1.47660e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17788e-05\tAbsError: 7.56500e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.71600e+00\tAbsError: 3.92118e+13\n", - " Region: \"zone_1\"\tRelError: 1.69230e+00\tAbsError: 5.33729e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.69229e+00\tAbsError: 1.74236e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.53221e-05\tAbsError: 5.33554e-03\n", - " Region: \"zone_3\"\tRelError: 2.36945e-02\tAbsError: 3.92118e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28370e-04\tAbsError: 1.95462e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.14838e-05\tAbsError: 1.96656e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.34693e-02\tAbsError: 1.75498e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.53283e-05\tAbsError: 5.33766e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.13672e+03\tAbsError: 3.08207e+16\n", - " Region: \"zone_1\"\tRelError: 2.36568e+01\tAbsError: 2.88538e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.36562e+01\tAbsError: 7.83982e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.04714e-04\tAbsError: 2.10140e-01\n", - " Region: \"zone_3\"\tRelError: 1.11306e+03\tAbsError: 3.08207e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.89674e+02\tAbsError: 1.98363e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.21917e+02\tAbsError: 1.09843e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.47211e+00\tAbsError: 7.83984e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.06798e-04\tAbsError: 2.10862e-01\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.61019e-03\tAbsError: 5.41292e+12\n", - " Region: \"zone_1\"\tRelError: 2.71259e-04\tAbsError: 3.69897e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.60627e-04\tAbsError: 5.44452e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06318e-05\tAbsError: 3.69843e-03\n", - " Region: \"zone_3\"\tRelError: 2.33893e-03\tAbsError: 5.41292e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.46504e-05\tAbsError: 2.68611e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.83588e-05\tAbsError: 2.72681e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.22528e-03\tAbsError: 5.47677e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06362e-05\tAbsError: 3.69989e-03\n", - "Iteration: 17\n", - " Device: \"device\"\tRelError: 2.25322e-02\tAbsError: 7.37926e+12\n", - " Region: \"zone_1\"\tRelError: 2.29241e-03\tAbsError: 5.68147e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29079e-03\tAbsError: 5.68672e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.61754e-06\tAbsError: 5.62460e-04\n", - " Region: \"zone_3\"\tRelError: 2.02398e-02\tAbsError: 7.37926e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.47694e-04\tAbsError: 3.31708e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.42959e-04\tAbsError: 4.06218e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87475e-02\tAbsError: 5.76539e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.61810e-06\tAbsError: 5.62663e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.29423e+03\tAbsError: 2.05927e+18\n", - " Region: \"zone_1\"\tRelError: 8.20020e+01\tAbsError: 4.09537e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.20020e+01\tAbsError: 4.09537e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.43761e-11\tAbsError: 1.89251e-08\n", - " Region: \"zone_3\"\tRelError: 2.21223e+03\tAbsError: 2.05927e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.07156e-01\tAbsError: 1.02695e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.89042e-01\tAbsError: 1.03232e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 2.21103e+03\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.43982e-11\tAbsError: 1.89331e-08\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 6.84397e-01\tAbsError: 3.65096e+13\n", - " Region: \"zone_1\"\tRelError: 6.42272e-01\tAbsError: 4.54710e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.42270e-01\tAbsError: 1.53943e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.30582e-06\tAbsError: 4.53171e-04\n", - " Region: \"zone_3\"\tRelError: 4.21253e-02\tAbsError: 3.65096e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.38727e-05\tAbsError: 1.81787e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.47740e-05\tAbsError: 1.83308e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.20554e-02\tAbsError: 1.55220e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.30599e-06\tAbsError: 4.53233e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.76807e+03\tAbsError: 1.55980e+16\n", - " Region: \"zone_1\"\tRelError: 1.60174e+00\tAbsError: 7.20164e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.59988e+00\tAbsError: 7.42895e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.85990e-03\tAbsError: 6.45874e-01\n", - " Region: \"zone_3\"\tRelError: 3.76647e+03\tAbsError: 1.55980e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.74521e+03\tAbsError: 3.55043e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.79546e+01\tAbsError: 1.20475e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.29813e+00\tAbsError: 7.42897e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.85990e-03\tAbsError: 6.45874e-01\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.33525e-02\tAbsError: 2.45530e+13\n", - " Region: \"zone_1\"\tRelError: 1.35325e-03\tAbsError: 1.72904e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35276e-03\tAbsError: 1.11340e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.93842e-07\tAbsError: 1.71790e-04\n", - " Region: \"zone_3\"\tRelError: 1.19992e-02\tAbsError: 2.45530e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.84766e-05\tAbsError: 1.22120e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.31490e-05\tAbsError: 1.23410e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19471e-02\tAbsError: 1.12340e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.94049e-07\tAbsError: 1.71859e-04\n", - "Iteration: 18\n", - " Device: \"device\"\tRelError: 2.64043e-03\tAbsError: 5.34779e+11\n", - " Region: \"zone_1\"\tRelError: 2.77402e-04\tAbsError: 4.85036e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.76008e-04\tAbsError: 3.99629e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39377e-06\tAbsError: 4.84636e-04\n", - " Region: \"zone_3\"\tRelError: 2.36302e-03\tAbsError: 5.34779e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.67157e-05\tAbsError: 2.86420e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.64870e-05\tAbsError: 2.48359e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.24843e-03\tAbsError: 4.05110e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39410e-06\tAbsError: 4.84764e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 4.61689e+02\tAbsError: 5.07798e+17\n", - " Region: \"zone_1\"\tRelError: 3.64692e+01\tAbsError: 1.84178e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 3.64640e+01\tAbsError: 3.07624e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.18031e-03\tAbsError: 1.81102e+00\n", - " Region: \"zone_3\"\tRelError: 4.25219e+02\tAbsError: 5.07798e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.93091e-01\tAbsError: 2.54521e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.93600e-01\tAbsError: 2.53278e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 4.24628e+02\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.18075e-03\tAbsError: 1.81120e+00\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 5.17602e-02\tAbsError: 3.81639e+12\n", - " Region: \"zone_1\"\tRelError: 5.05943e-02\tAbsError: 2.59396e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.05936e-02\tAbsError: 1.40385e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.46801e-07\tAbsError: 2.59255e-04\n", - " Region: \"zone_3\"\tRelError: 1.16583e-03\tAbsError: 3.81639e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.23974e-06\tAbsError: 1.90175e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.90322e-06\tAbsError: 1.91464e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15094e-03\tAbsError: 1.41500e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.46858e-07\tAbsError: 2.59300e-04\n", - "Iteration: 19\n", - " Device: \"device\"\tRelError: 1.73000e-03\tAbsError: 4.78739e+11\n", - " Region: \"zone_1\"\tRelError: 1.78256e-04\tAbsError: 6.66258e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.78065e-04\tAbsError: 3.27442e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.90658e-07\tAbsError: 6.62984e-05\n", - " Region: \"zone_3\"\tRelError: 1.55175e-03\tAbsError: 4.78739e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.75457e-05\tAbsError: 2.53700e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.72084e-05\tAbsError: 2.25039e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.45680e-03\tAbsError: 3.32100e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.90709e-07\tAbsError: 6.63163e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.12918e+02\tAbsError: 3.51252e+15\n", - " Region: \"zone_1\"\tRelError: 1.36922e-01\tAbsError: 1.01550e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.36830e-01\tAbsError: 6.96841e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.19319e-05\tAbsError: 3.18660e-02\n", - " Region: \"zone_3\"\tRelError: 5.12781e+02\tAbsError: 3.51252e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.88180e+01\tAbsError: 7.73156e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.62438e+02\tAbsError: 2.73936e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.52468e+00\tAbsError: 6.96843e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.19319e-05\tAbsError: 3.18660e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.19315e-03\tAbsError: 1.39866e+12\n", - " Region: \"zone_1\"\tRelError: 1.21613e-04\tAbsError: 1.66369e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21135e-04\tAbsError: 6.37067e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.78109e-07\tAbsError: 1.66305e-04\n", - " Region: \"zone_3\"\tRelError: 1.07154e-03\tAbsError: 1.39866e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.74493e-06\tAbsError: 6.96417e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.55832e-06\tAbsError: 7.02247e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06476e-03\tAbsError: 6.42163e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.78280e-07\tAbsError: 1.66364e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.49657e+00\tAbsError: 3.51966e+16\n", - " Region: \"zone_1\"\tRelError: 4.64902e-01\tAbsError: 7.04755e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.62960e-01\tAbsError: 2.58789e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94154e-03\tAbsError: 6.78876e-01\n", - " Region: \"zone_3\"\tRelError: 2.03167e+00\tAbsError: 3.51966e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.92042e-02\tAbsError: 1.76602e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.22372e-02\tAbsError: 1.75363e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.95829e+00\tAbsError: 2.58789e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94154e-03\tAbsError: 6.78876e-01\n", - "Iteration: 20\n", - " Device: \"device\"\tRelError: 2.86203e-04\tAbsError: 6.27638e+10\n", - " Region: \"zone_1\"\tRelError: 2.99365e-05\tAbsError: 3.46445e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.98370e-05\tAbsError: 4.29595e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.95054e-08\tAbsError: 3.46015e-05\n", - " Region: \"zone_3\"\tRelError: 2.56266e-04\tAbsError: 6.27638e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.46343e-06\tAbsError: 3.56504e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.43574e-06\tAbsError: 2.71134e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.43268e-04\tAbsError: 4.35591e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.95328e-08\tAbsError: 3.46111e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.73954e-02\tAbsError: 2.09217e+12\n", - " Region: \"zone_1\"\tRelError: 2.66287e-02\tAbsError: 3.97498e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.66286e-02\tAbsError: 7.21599e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.14055e-07\tAbsError: 3.96776e-05\n", - " Region: \"zone_3\"\tRelError: 7.66707e-04\tAbsError: 2.09217e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05973e-06\tAbsError: 1.04227e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.16702e-06\tAbsError: 1.04990e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.62366e-04\tAbsError: 7.27544e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.14099e-07\tAbsError: 3.96935e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.12441e+02\tAbsError: 2.27947e+15\n", - " Region: \"zone_1\"\tRelError: 2.57506e-01\tAbsError: 1.16072e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.57357e-01\tAbsError: 6.44638e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.48872e-04\tAbsError: 5.16086e-02\n", - " Region: \"zone_3\"\tRelError: 6.12183e+02\tAbsError: 2.27947e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.56346e+02\tAbsError: 1.29064e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.55679e+02\tAbsError: 9.88834e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.58235e-01\tAbsError: 6.44641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.48962e-04\tAbsError: 5.16397e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 9.93046e-04\tAbsError: 1.35047e+12\n", - " Region: \"zone_1\"\tRelError: 1.00839e-04\tAbsError: 1.62276e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00793e-04\tAbsError: 4.93121e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.66571e-08\tAbsError: 1.61783e-05\n", - " Region: \"zone_3\"\tRelError: 8.92207e-04\tAbsError: 1.35047e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.51574e-06\tAbsError: 6.72130e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.29808e-06\tAbsError: 6.78342e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 8.89346e-04\tAbsError: 4.97640e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.66657e-08\tAbsError: 1.61809e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 6.69589e+00\tAbsError: 5.37696e+15\n", - " Region: \"zone_1\"\tRelError: 3.73324e+00\tAbsError: 3.88180e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.73216e+00\tAbsError: 9.16423e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08076e-03\tAbsError: 3.79016e-01\n", - " Region: \"zone_3\"\tRelError: 2.96265e+00\tAbsError: 5.37696e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.56094e-03\tAbsError: 2.69855e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.01807e-03\tAbsError: 2.67840e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.95599e+00\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08076e-03\tAbsError: 3.79016e-01\n", - "Iteration: 21\n", - " Device: \"device\"\tRelError: 1.31318e-04\tAbsError: 3.33767e+10\n", - " Region: \"zone_1\"\tRelError: 1.36025e-05\tAbsError: 6.39159e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35842e-05\tAbsError: 2.17106e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83182e-08\tAbsError: 6.36988e-06\n", - " Region: \"zone_3\"\tRelError: 1.17716e-04\tAbsError: 3.33767e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.32200e-06\tAbsError: 1.90094e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.29852e-06\tAbsError: 1.43674e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11077e-04\tAbsError: 2.20254e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83215e-08\tAbsError: 6.37102e-06\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.33283e-03\tAbsError: 3.11070e+11\n", - " Region: \"zone_1\"\tRelError: 3.24208e-03\tAbsError: 1.67201e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.24204e-03\tAbsError: 1.08135e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.80316e-08\tAbsError: 1.67093e-05\n", - " Region: \"zone_3\"\tRelError: 9.07484e-05\tAbsError: 3.11070e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.27597e-07\tAbsError: 1.55029e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.37894e-07\tAbsError: 1.56041e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 8.97349e-05\tAbsError: 1.09264e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.80498e-08\tAbsError: 1.67159e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.48270e+02\tAbsError: 4.45564e+14\n", - " Region: \"zone_1\"\tRelError: 8.87797e-02\tAbsError: 1.14771e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 8.86173e-02\tAbsError: 5.84706e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62378e-04\tAbsError: 5.63000e-02\n", - " Region: \"zone_3\"\tRelError: 1.48181e+02\tAbsError: 4.45564e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.49194e+01\tAbsError: 5.02523e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.31608e+01\tAbsError: 3.95311e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01003e-01\tAbsError: 5.84709e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62420e-04\tAbsError: 5.63140e-02\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.35256e-04\tAbsError: 1.43351e+11\n", - " Region: \"zone_1\"\tRelError: 1.37721e-05\tAbsError: 9.73032e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37442e-05\tAbsError: 5.01073e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.79871e-08\tAbsError: 9.72531e-06\n", - " Region: \"zone_3\"\tRelError: 1.21484e-04\tAbsError: 1.43351e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.91834e-07\tAbsError: 7.13886e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.13078e-07\tAbsError: 7.19621e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21051e-04\tAbsError: 5.05336e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.79891e-08\tAbsError: 9.72902e-06\n", - "Iteration: 22\n", - " Device: \"device\"\tRelError: 2.67617e-05\tAbsError: 6.00511e+09\n", - " Region: \"zone_1\"\tRelError: 2.79436e-06\tAbsError: 2.58190e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78695e-06\tAbsError: 3.94165e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.41357e-09\tAbsError: 2.57796e-06\n", - " Region: \"zone_3\"\tRelError: 2.39674e-05\tAbsError: 6.00511e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.11125e-07\tAbsError: 3.51674e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.08086e-07\tAbsError: 2.48837e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.27407e-05\tAbsError: 3.99807e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.41485e-09\tAbsError: 2.57841e-06\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.32012e-03\tAbsError: 1.28416e+11\n", - " Region: \"zone_1\"\tRelError: 1.28498e-03\tAbsError: 3.17813e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28497e-03\tAbsError: 4.23201e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.12342e-09\tAbsError: 3.17390e-06\n", - " Region: \"zone_3\"\tRelError: 3.51385e-05\tAbsError: 1.28416e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.13826e-07\tAbsError: 6.39919e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.61332e-07\tAbsError: 6.44238e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.48542e-05\tAbsError: 4.27818e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.12696e-09\tAbsError: 3.17522e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:50\u001b[0m.\u001b[1;36m025\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:50\u001b[0m.\u001b[1;36m025\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.20454545454545453\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.88315e-01\tAbsError: 2.62271e+15\n", - " Region: \"zone_1\"\tRelError: 4.71922e-01\tAbsError: 5.76588e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.70275e-01\tAbsError: 6.27557e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.64666e-03\tAbsError: 5.76525e-01\n", - " Region: \"zone_3\"\tRelError: 3.16393e-01\tAbsError: 2.62271e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.49491e-02\tAbsError: 1.29724e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.95632e-03\tAbsError: 1.32547e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.97839e-01\tAbsError: 6.29832e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.64866e-03\tAbsError: 5.77242e-01\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.42051e+03\tAbsError: 3.54615e+14\n", - " Region: \"zone_1\"\tRelError: 6.98275e-02\tAbsError: 1.09313e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 6.96607e-02\tAbsError: 5.14934e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.66728e-04\tAbsError: 5.78196e-02\n", - " Region: \"zone_3\"\tRelError: 1.42044e+03\tAbsError: 3.54615e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.98967e+01\tAbsError: 1.27688e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.36047e+03\tAbsError: 3.41846e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.97677e-02\tAbsError: 5.14938e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.66908e-04\tAbsError: 5.78809e-02\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 6.85104e-05\tAbsError: 8.03987e+10\n", - " Region: \"zone_1\"\tRelError: 6.96313e-06\tAbsError: 1.48881e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.95886e-06\tAbsError: 2.53806e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.27498e-09\tAbsError: 1.48627e-06\n", - " Region: \"zone_3\"\tRelError: 6.15472e-05\tAbsError: 8.03987e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.83998e-08\tAbsError: 4.00300e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.82676e-08\tAbsError: 4.03687e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 6.13763e-05\tAbsError: 2.56098e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.27661e-09\tAbsError: 1.48686e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:50\u001b[0m.\u001b[1;36m707\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: 1.045\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 2.19681e-04\tAbsError: 2.36335e+10\n", - " Region: \"zone_1\"\tRelError: 2.12393e-04\tAbsError: 1.12120e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.12390e-04\tAbsError: 8.49866e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.22046e-09\tAbsError: 1.12035e-06\n", - " Region: \"zone_3\"\tRelError: 7.28849e-06\tAbsError: 2.36335e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.68162e-08\tAbsError: 1.17793e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.98264e-08\tAbsError: 1.18542e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.21862e-06\tAbsError: 8.58821e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.22171e-09\tAbsError: 1.12081e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 9.58997e+01\tAbsError: 3.20526e+15\n", - " Region: \"zone_1\"\tRelError: 1.29777e+01\tAbsError: 2.18715e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29777e+01\tAbsError: 1.22913e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.20649e-05\tAbsError: 2.17486e-02\n", - " Region: \"zone_3\"\tRelError: 8.29220e+01\tAbsError: 3.20526e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.66160e-03\tAbsError: 1.56677e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.59518e-03\tAbsError: 1.63849e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.29127e+01\tAbsError: 1.23738e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.20911e-05\tAbsError: 2.17577e-02\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 4.00781e+00\tAbsError: 3.94064e+14\n", - " Region: \"zone_1\"\tRelError: 5.54910e-02\tAbsError: 1.14682e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.52851e-02\tAbsError: 4.32616e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.05905e-04\tAbsError: 7.14208e-02\n", - " Region: \"zone_3\"\tRelError: 3.95232e+00\tAbsError: 3.94064e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.89903e+00\tAbsError: 2.21274e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.97707e-01\tAbsError: 3.71937e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.53690e-02\tAbsError: 4.32621e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.06150e-04\tAbsError: 7.15040e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.04363e+01\tAbsError: 8.75931e+15\n", - " Region: \"zone_1\"\tRelError: 1.87906e+01\tAbsError: 4.18734e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87906e+01\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62204e-09\tAbsError: 5.64041e-07\n", - " Region: \"zone_3\"\tRelError: 1.64572e+00\tAbsError: 8.75931e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77321e-01\tAbsError: 4.84694e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.77252e-01\tAbsError: 3.91237e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.11488e-02\tAbsError: 4.18729e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62226e-09\tAbsError: 5.64117e-07\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 7.39581e-05\tAbsError: 8.24568e+09\n", - " Region: \"zone_1\"\tRelError: 7.15031e-05\tAbsError: 2.38813e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 7.15024e-05\tAbsError: 2.87074e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.85640e-10\tAbsError: 2.38526e-07\n", - " Region: \"zone_3\"\tRelError: 2.45501e-06\tAbsError: 8.24568e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.01995e-09\tAbsError: 4.10956e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.14388e-08\tAbsError: 4.13612e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.43586e-06\tAbsError: 2.90181e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.85923e-10\tAbsError: 2.38630e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 4.31267e+03\tAbsError: 1.61876e+18\n", - " Region: \"zone_1\"\tRelError: 2.15568e+03\tAbsError: 4.19632e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.15568e+03\tAbsError: 4.19626e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.86381e-09\tAbsError: 6.47983e-07\n", - " Region: \"zone_3\"\tRelError: 2.15699e+03\tAbsError: 1.61876e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.69859e-01\tAbsError: 8.03022e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.44383e-01\tAbsError: 8.15742e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 2.15568e+03\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.86451e-09\tAbsError: 6.48241e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:30:52\u001b[0m.\u001b[1;36m408\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 1.0899999999999999\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.03311e+04\tAbsError: 3.93653e+14\n", - " Region: \"zone_1\"\tRelError: 4.12956e-02\tAbsError: 1.24407e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.10335e-02\tAbsError: 3.34880e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.62058e-04\tAbsError: 9.09187e-02\n", - " Region: \"zone_3\"\tRelError: 1.03311e+04\tAbsError: 3.93653e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03307e+04\tAbsError: 2.36735e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.21091e-01\tAbsError: 3.69979e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.10984e-02\tAbsError: 3.34886e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.62402e-04\tAbsError: 9.10387e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.68799e+00\tAbsError: 1.24428e+14\n", - " Region: \"zone_1\"\tRelError: 2.78169e+00\tAbsError: 1.62679e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78165e+00\tAbsError: 7.17419e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.64072e-05\tAbsError: 1.62607e-02\n", - " Region: \"zone_3\"\tRelError: 9.06301e-01\tAbsError: 1.24428e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.41976e-04\tAbsError: 6.19540e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.02421e-04\tAbsError: 6.24745e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.05410e-01\tAbsError: 7.21579e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.64251e-05\tAbsError: 1.62670e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.51527e+00\tAbsError: 3.25260e+14\n", - " Region: \"zone_1\"\tRelError: 2.05408e+00\tAbsError: 9.47161e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.05390e+00\tAbsError: 3.18465e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.80835e-04\tAbsError: 6.28696e-02\n", - " Region: \"zone_3\"\tRelError: 1.46119e+00\tAbsError: 3.25260e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.51540e-01\tAbsError: 1.59285e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.47035e-01\tAbsError: 1.65975e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.24340e-02\tAbsError: 3.18470e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.80835e-04\tAbsError: 6.28696e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.04408e+03\tAbsError: 5.36695e+17\n", - " Region: \"zone_1\"\tRelError: 5.36992e+02\tAbsError: 1.32221e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.36988e+02\tAbsError: 3.19518e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.70524e-03\tAbsError: 1.29026e+00\n", - " Region: \"zone_3\"\tRelError: 5.07091e+02\tAbsError: 5.36695e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.84800e-01\tAbsError: 2.69477e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.73451e-01\tAbsError: 2.67218e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 5.06329e+02\tAbsError: 3.19525e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.70570e-03\tAbsError: 1.29038e+00\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 1.08131e+00\tAbsError: 3.49481e+14\n", - " Region: \"zone_1\"\tRelError: 3.13058e-02\tAbsError: 1.42325e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.09702e-02\tAbsError: 2.58770e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.35529e-04\tAbsError: 1.16448e-01\n", - " Region: \"zone_3\"\tRelError: 1.05001e+00\tAbsError: 3.49481e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99703e-01\tAbsError: 2.12352e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.74562e-03\tAbsError: 3.28246e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.42204e-02\tAbsError: 2.45589e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.35937e-04\tAbsError: 1.16589e-01\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 8.48216e+03\tAbsError: 2.08749e+18\n", - " Region: \"zone_1\"\tRelError: 2.49066e+03\tAbsError: 4.29334e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49066e+03\tAbsError: 4.29333e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17085e-10\tAbsError: 7.55212e-08\n", - " Region: \"zone_3\"\tRelError: 5.99150e+03\tAbsError: 2.08749e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.46766e-01\tAbsError: 1.04031e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.25990e-01\tAbsError: 1.04718e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 5.99022e+03\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17175e-10\tAbsError: 7.55542e-08\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.74817e+00\tAbsError: 1.00690e+14\n", - " Region: \"zone_1\"\tRelError: 2.14136e+00\tAbsError: 1.40275e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.14135e+00\tAbsError: 4.52029e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.00073e-06\tAbsError: 1.39823e-03\n", - " Region: \"zone_3\"\tRelError: 1.60681e+00\tAbsError: 1.00690e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.04820e-04\tAbsError: 5.01493e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.34375e-04\tAbsError: 5.05408e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.60646e+00\tAbsError: 4.54847e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.00161e-06\tAbsError: 1.39859e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.57702e+00\tAbsError: 4.19775e+13\n", - " Region: \"zone_1\"\tRelError: 5.74741e-01\tAbsError: 3.08408e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.74726e-01\tAbsError: 2.58653e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43111e-05\tAbsError: 4.97551e-03\n", - " Region: \"zone_3\"\tRelError: 1.00228e+00\tAbsError: 4.19775e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.61753e-01\tAbsError: 3.02455e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.27245e-01\tAbsError: 1.17320e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13265e-01\tAbsError: 2.58955e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43111e-05\tAbsError: 4.97551e-03\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 1.40238e+00\tAbsError: 6.16489e+14\n", - " Region: \"zone_1\"\tRelError: 1.51392e-02\tAbsError: 3.50224e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.50753e-02\tAbsError: 1.28451e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.39045e-05\tAbsError: 2.21773e-02\n", - " Region: \"zone_3\"\tRelError: 1.38724e+00\tAbsError: 6.16489e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.23954e+00\tAbsError: 2.14946e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.55726e-03\tAbsError: 5.94994e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.42077e-01\tAbsError: 1.28459e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.39045e-05\tAbsError: 2.21773e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 7.20944e+01\tAbsError: 7.56708e+16\n", - " Region: \"zone_1\"\tRelError: 6.54151e+01\tAbsError: 5.01672e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 6.54137e+01\tAbsError: 2.58373e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36322e-03\tAbsError: 4.75835e-01\n", - " Region: \"zone_3\"\tRelError: 6.67933e+00\tAbsError: 7.56708e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.58102e-02\tAbsError: 3.79633e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.47265e-02\tAbsError: 3.77076e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.52743e+00\tAbsError: 2.58764e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36338e-03\tAbsError: 4.75899e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 6.96046e+02\tAbsError: 6.12303e+17\n", - " Region: \"zone_1\"\tRelError: 4.96510e+01\tAbsError: 1.78943e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 4.96460e+01\tAbsError: 3.30992e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.02903e-03\tAbsError: 1.75633e+00\n", - " Region: \"zone_3\"\tRelError: 6.46395e+02\tAbsError: 6.12303e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.43837e-01\tAbsError: 3.06626e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.44545e-01\tAbsError: 3.05677e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 6.45701e+02\tAbsError: 3.31000e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.02964e-03\tAbsError: 1.75644e+00\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.05492e-01\tAbsError: 9.06572e+12\n", - " Region: \"zone_1\"\tRelError: 4.25847e-01\tAbsError: 6.76994e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.25845e-01\tAbsError: 4.28249e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93585e-06\tAbsError: 6.76565e-04\n", - " Region: \"zone_3\"\tRelError: 1.79645e-01\tAbsError: 9.06572e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.72999e-05\tAbsError: 4.51680e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.43151e-05\tAbsError: 4.54892e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.79592e-01\tAbsError: 4.30804e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93585e-06\tAbsError: 6.76565e-04\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.17749e-01\tAbsError: 2.75400e+12\n", - " Region: \"zone_1\"\tRelError: 2.84331e-02\tAbsError: 1.37857e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.84237e-02\tAbsError: 1.05213e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.38961e-06\tAbsError: 3.26443e-03\n", - " Region: \"zone_3\"\tRelError: 2.89316e-01\tAbsError: 2.75400e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.17006e-01\tAbsError: 1.82710e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.54026e-02\tAbsError: 9.26901e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.68976e-02\tAbsError: 1.05214e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.39204e-06\tAbsError: 3.26533e-03\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 5.10120e-01\tAbsError: 6.13179e+14\n", - " Region: \"zone_1\"\tRelError: 2.16057e-02\tAbsError: 3.05911e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.07258e-02\tAbsError: 2.97755e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.79857e-04\tAbsError: 3.05613e-01\n", - " Region: \"zone_3\"\tRelError: 4.88514e-01\tAbsError: 6.13179e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.32466e-01\tAbsError: 1.25745e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.09422e-02\tAbsError: 6.00604e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.44225e-01\tAbsError: 3.09265e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.80493e-04\tAbsError: 3.05830e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.00029e+00\tAbsError: 4.66294e+15\n", - " Region: \"zone_1\"\tRelError: 2.27580e+00\tAbsError: 9.90877e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.27300e+00\tAbsError: 1.06605e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.79721e-03\tAbsError: 9.80216e-01\n", - " Region: \"zone_3\"\tRelError: 7.24485e-01\tAbsError: 4.66294e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.91065e-02\tAbsError: 1.79042e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.75448e-03\tAbsError: 2.87252e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 6.97823e-01\tAbsError: 1.06615e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.80173e-03\tAbsError: 9.81795e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 8.79492e+00\tAbsError: 6.00288e+16\n", - " Region: \"zone_1\"\tRelError: 3.50227e+00\tAbsError: 1.40347e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 3.49833e+00\tAbsError: 2.58583e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.93821e-03\tAbsError: 1.37762e+00\n", - " Region: \"zone_3\"\tRelError: 5.29264e+00\tAbsError: 6.00288e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.79218e-02\tAbsError: 3.01274e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.42552e-02\tAbsError: 2.99014e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 5.16653e+00\tAbsError: 2.58698e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.93821e-03\tAbsError: 1.37762e+00\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.48197e-01\tAbsError: 4.50048e+12\n", - " Region: \"zone_1\"\tRelError: 1.60046e-01\tAbsError: 9.62234e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.60046e-01\tAbsError: 1.80340e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.75240e-07\tAbsError: 9.60431e-05\n", - " Region: \"zone_3\"\tRelError: 8.81510e-02\tAbsError: 4.50048e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.56637e-06\tAbsError: 2.24288e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.56618e-06\tAbsError: 2.25761e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.81336e-02\tAbsError: 1.81436e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.75295e-07\tAbsError: 9.60627e-05\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.11164e-02\tAbsError: 2.67087e+12\n", - " Region: \"zone_1\"\tRelError: 1.76241e-02\tAbsError: 2.79462e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.76161e-02\tAbsError: 1.58150e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.04209e-06\tAbsError: 2.79304e-03\n", - " Region: \"zone_3\"\tRelError: 7.34923e-02\tAbsError: 2.67087e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.53543e-02\tAbsError: 1.66658e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.26844e-04\tAbsError: 1.00429e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.00307e-03\tAbsError: 1.64903e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.04209e-06\tAbsError: 2.79304e-03\n", - "Iteration: 16\n", - " Device: \"device\"\tRelError: 3.91597e-01\tAbsError: 1.73440e+14\n", - " Region: \"zone_1\"\tRelError: 3.78559e-02\tAbsError: 5.80300e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.78398e-02\tAbsError: 2.04009e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60820e-05\tAbsError: 5.59900e-03\n", - " Region: \"zone_3\"\tRelError: 3.53741e-01\tAbsError: 1.73440e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.20655e-02\tAbsError: 5.27691e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.20606e-02\tAbsError: 1.20671e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.09599e-01\tAbsError: 2.06461e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60897e-05\tAbsError: 5.60177e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.58249e+02\tAbsError: 1.00167e+16\n", - " Region: \"zone_1\"\tRelError: 1.56715e+02\tAbsError: 1.28436e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.56711e+02\tAbsError: 3.89823e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.67750e-03\tAbsError: 1.28397e+00\n", - " Region: \"zone_3\"\tRelError: 1.53416e+00\tAbsError: 1.00167e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.08913e-02\tAbsError: 4.42744e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.61882e-03\tAbsError: 5.58926e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49196e+00\tAbsError: 3.92419e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.68317e-03\tAbsError: 1.28594e+00\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 7.89743e+00\tAbsError: 9.07768e+15\n", - " Region: \"zone_1\"\tRelError: 4.30415e+00\tAbsError: 5.45655e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.30263e+00\tAbsError: 1.22641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.51850e-03\tAbsError: 5.33391e-01\n", - " Region: \"zone_3\"\tRelError: 3.59328e+00\tAbsError: 9.07768e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.05131e-03\tAbsError: 4.51642e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.02232e-02\tAbsError: 4.56126e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 3.57749e+00\tAbsError: 1.22654e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52202e-03\tAbsError: 5.34632e-01\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 4.16881e-02\tAbsError: 5.87027e+11\n", - " Region: \"zone_1\"\tRelError: 2.74007e-02\tAbsError: 3.67679e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.74006e-02\tAbsError: 2.53315e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.05297e-07\tAbsError: 3.67426e-05\n", - " Region: \"zone_3\"\tRelError: 1.42874e-02\tAbsError: 5.87027e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.44350e-06\tAbsError: 2.92634e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.68502e-06\tAbsError: 2.94393e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.42841e-02\tAbsError: 2.55528e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.05309e-07\tAbsError: 3.67468e-05\n", - "Iteration: 17\n", - " Device: \"device\"\tRelError: 3.63215e-02\tAbsError: 5.14930e+12\n", - " Region: \"zone_1\"\tRelError: 3.77742e-03\tAbsError: 1.10706e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.74556e-03\tAbsError: 3.72376e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.18607e-05\tAbsError: 1.10669e-02\n", - " Region: \"zone_3\"\tRelError: 3.25441e-02\tAbsError: 5.14930e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90786e-04\tAbsError: 3.12485e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.62634e-04\tAbsError: 2.02445e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.12588e-02\tAbsError: 3.85335e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.18645e-05\tAbsError: 1.10683e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.09610e-03\tAbsError: 1.37091e+12\n", - " Region: \"zone_1\"\tRelError: 2.76889e-03\tAbsError: 1.16527e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.76856e-03\tAbsError: 1.93106e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.29178e-07\tAbsError: 1.14596e-04\n", - " Region: \"zone_3\"\tRelError: 2.32720e-03\tAbsError: 1.37091e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.79315e-04\tAbsError: 3.79966e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.78776e-04\tAbsError: 9.90945e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.96878e-03\tAbsError: 1.93525e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.29334e-07\tAbsError: 1.14652e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.37705e+01\tAbsError: 7.27933e+15\n", - " Region: \"zone_1\"\tRelError: 4.31671e+01\tAbsError: 8.11674e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.31668e+01\tAbsError: 3.46437e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.31427e-04\tAbsError: 8.08209e-02\n", - " Region: \"zone_3\"\tRelError: 6.03404e-01\tAbsError: 7.27933e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.35117e-02\tAbsError: 3.54144e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.23337e-03\tAbsError: 3.73789e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.86427e-01\tAbsError: 3.48978e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.31517e-04\tAbsError: 8.08519e-02\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.48230e-02\tAbsError: 2.24518e+11\n", - " Region: \"zone_1\"\tRelError: 9.67323e-03\tAbsError: 6.58649e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 9.67321e-03\tAbsError: 9.07531e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.88326e-08\tAbsError: 6.57742e-06\n", - " Region: \"zone_3\"\tRelError: 5.14973e-03\tAbsError: 2.24518e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.12497e-07\tAbsError: 1.11948e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.18689e-07\tAbsError: 1.12571e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.14878e-03\tAbsError: 9.15701e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.88397e-08\tAbsError: 6.57999e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.12483e+00\tAbsError: 1.15592e+16\n", - " Region: \"zone_1\"\tRelError: 4.05248e-01\tAbsError: 1.15681e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 4.01945e-01\tAbsError: 2.01056e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.30361e-03\tAbsError: 1.15661e+00\n", - " Region: \"zone_3\"\tRelError: 7.19584e-01\tAbsError: 1.15592e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.33694e-02\tAbsError: 5.41979e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.47353e-03\tAbsError: 6.13946e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 6.91434e-01\tAbsError: 2.02997e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.30745e-03\tAbsError: 1.15796e+00\n", - "Iteration: 18\n", - " Device: \"device\"\tRelError: 3.40315e-02\tAbsError: 1.08685e+13\n", - " Region: \"zone_1\"\tRelError: 3.47306e-03\tAbsError: 1.02397e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.47014e-03\tAbsError: 8.30414e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.92082e-06\tAbsError: 1.01567e-03\n", - " Region: \"zone_3\"\tRelError: 3.05585e-02\tAbsError: 1.08685e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10259e-03\tAbsError: 4.97621e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.09570e-03\tAbsError: 5.89228e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.83573e-02\tAbsError: 8.41978e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.92167e-06\tAbsError: 1.01597e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 8.73840e-04\tAbsError: 9.29496e+10\n", - " Region: \"zone_1\"\tRelError: 5.71863e-04\tAbsError: 8.29789e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.71624e-04\tAbsError: 5.32027e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.38759e-07\tAbsError: 8.29257e-05\n", - " Region: \"zone_3\"\tRelError: 3.01977e-04\tAbsError: 9.29496e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.28949e-06\tAbsError: 6.93078e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.21757e-06\tAbsError: 2.36418e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.87231e-04\tAbsError: 5.59323e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.38888e-07\tAbsError: 8.29697e-05\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 2.80808e-03\tAbsError: 3.70977e+10\n", - " Region: \"zone_1\"\tRelError: 1.83927e-03\tAbsError: 2.15171e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.83927e-03\tAbsError: 1.71473e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.15592e-09\tAbsError: 2.15000e-06\n", - " Region: \"zone_3\"\tRelError: 9.68805e-04\tAbsError: 3.70977e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.10516e-08\tAbsError: 1.85046e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.09611e-07\tAbsError: 1.85931e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 9.68608e-04\tAbsError: 1.72971e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.15824e-09\tAbsError: 2.15085e-06\n", - "Iteration: 19\n", - " Device: \"device\"\tRelError: 4.64217e-03\tAbsError: 9.68026e+11\n", - " Region: \"zone_1\"\tRelError: 4.86514e-04\tAbsError: 7.30690e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.84414e-04\tAbsError: 6.88362e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.09942e-06\tAbsError: 7.30002e-04\n", - " Region: \"zone_3\"\tRelError: 4.15566e-03\tAbsError: 9.68026e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.00606e-04\tAbsError: 5.36847e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.00120e-04\tAbsError: 4.31179e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.95283e-03\tAbsError: 6.97826e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.10002e-06\tAbsError: 7.30231e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.26630e+00\tAbsError: 4.92451e+14\n", - " Region: \"zone_1\"\tRelError: 1.13894e+00\tAbsError: 4.71328e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13880e+00\tAbsError: 2.57047e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.34907e-04\tAbsError: 4.71071e-02\n", - " Region: \"zone_3\"\tRelError: 1.27367e-01\tAbsError: 4.92451e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.64457e-03\tAbsError: 2.45424e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.47270e-04\tAbsError: 2.47027e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.24640e-01\tAbsError: 2.58802e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.34960e-04\tAbsError: 4.71255e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 7.14566e+00\tAbsError: 7.17512e+15\n", - " Region: \"zone_1\"\tRelError: 4.32124e+00\tAbsError: 5.46696e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.32108e+00\tAbsError: 2.97009e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.55267e-04\tAbsError: 5.43726e-02\n", - " Region: \"zone_3\"\tRelError: 2.82442e+00\tAbsError: 7.17512e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.24488e-02\tAbsError: 3.50201e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.33247e-03\tAbsError: 3.67311e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.80849e+00\tAbsError: 2.99132e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.55338e-04\tAbsError: 5.43974e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.46596e-04\tAbsError: 7.70978e+10\n", - " Region: \"zone_1\"\tRelError: 3.52561e-04\tAbsError: 2.63577e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.52554e-04\tAbsError: 6.54648e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.38295e-09\tAbsError: 2.57030e-06\n", - " Region: \"zone_3\"\tRelError: 1.94035e-04\tAbsError: 7.70978e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.14845e-06\tAbsError: 3.19726e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.09047e-06\tAbsError: 4.51252e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.79789e-04\tAbsError: 6.57794e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.38722e-09\tAbsError: 2.57183e-06\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 8.73376e-04\tAbsError: 1.21033e+10\n", - " Region: \"zone_1\"\tRelError: 5.71066e-04\tAbsError: 4.32120e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 5.71065e-04\tAbsError: 5.34362e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.23573e-09\tAbsError: 4.31585e-07\n", - " Region: \"zone_3\"\tRelError: 3.02310e-04\tAbsError: 1.21033e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.19763e-08\tAbsError: 6.03773e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.10528e-08\tAbsError: 6.06556e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.02256e-04\tAbsError: 5.39200e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.23623e-09\tAbsError: 4.31772e-07\n", - "Iteration: 20\n", - " Device: \"device\"\tRelError: 2.63806e-03\tAbsError: 7.18270e+11\n", - " Region: \"zone_1\"\tRelError: 2.72151e-04\tAbsError: 1.11167e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.71833e-04\tAbsError: 4.88634e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.18284e-07\tAbsError: 1.10678e-04\n", - " Region: \"zone_3\"\tRelError: 2.36591e-03\tAbsError: 7.18270e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.14304e-05\tAbsError: 3.84457e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.09324e-05\tAbsError: 3.33813e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.22323e-03\tAbsError: 4.95599e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.18357e-07\tAbsError: 1.10704e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.58694e+00\tAbsError: 2.89132e+14\n", - " Region: \"zone_1\"\tRelError: 1.52380e+00\tAbsError: 5.15698e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.52379e+00\tAbsError: 1.32365e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47696e-05\tAbsError: 5.14374e-03\n", - " Region: \"zone_3\"\tRelError: 6.31393e-02\tAbsError: 2.89132e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.46615e-04\tAbsError: 1.44083e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.48650e-04\tAbsError: 1.45050e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.22293e-02\tAbsError: 1.33305e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47725e-05\tAbsError: 5.14444e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.30025e-01\tAbsError: 2.94556e+14\n", - " Region: \"zone_1\"\tRelError: 3.15863e-01\tAbsError: 3.78530e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.15755e-01\tAbsError: 1.75941e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08057e-04\tAbsError: 3.78354e-02\n", - " Region: \"zone_3\"\tRelError: 4.14163e-01\tAbsError: 2.94556e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.27992e-03\tAbsError: 1.46638e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.33355e-04\tAbsError: 1.47918e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.12141e-01\tAbsError: 1.76984e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08101e-04\tAbsError: 3.78506e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 4.93715e-06\tAbsError: 1.96214e+09\n", - " Region: \"zone_1\"\tRelError: 2.21785e-06\tAbsError: 4.49317e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20493e-06\tAbsError: 8.87397e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.29217e-08\tAbsError: 4.49228e-06\n", - " Region: \"zone_3\"\tRelError: 2.71931e-06\tAbsError: 1.96214e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.26346e-07\tAbsError: 1.66685e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.04086e-07\tAbsError: 2.95287e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 2.27595e-06\tAbsError: 9.19869e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.29231e-08\tAbsError: 4.49284e-06\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 1.80868e-04\tAbsError: 2.31864e+09\n", - " Region: \"zone_1\"\tRelError: 1.18462e-04\tAbsError: 1.27109e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18462e-04\tAbsError: 1.10538e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.63622e-10\tAbsError: 1.26998e-07\n", - " Region: \"zone_3\"\tRelError: 6.24053e-05\tAbsError: 2.31864e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73488e-09\tAbsError: 1.15691e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.90572e-09\tAbsError: 1.16172e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 6.23933e-05\tAbsError: 1.11505e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.63771e-10\tAbsError: 1.27053e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:03\u001b[0m.\u001b[1;36m020\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:03\u001b[0m.\u001b[1;36m020\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.3090909090909091\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 21\n", - " Device: \"device\"\tRelError: 4.72856e-04\tAbsError: 1.04675e+11\n", - " Region: \"zone_1\"\tRelError: 4.94226e-05\tAbsError: 5.28859e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.92707e-05\tAbsError: 7.05222e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.51884e-07\tAbsError: 5.28154e-05\n", - " Region: \"zone_3\"\tRelError: 4.23433e-04\tAbsError: 1.04675e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07269e-05\tAbsError: 6.01563e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.06769e-05\tAbsError: 4.45187e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.01878e-04\tAbsError: 7.15151e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.51923e-07\tAbsError: 5.28292e-05\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.23377e-01\tAbsError: 3.53784e+13\n", - " Region: \"zone_1\"\tRelError: 2.12151e-01\tAbsError: 2.19055e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.12145e-01\tAbsError: 1.54072e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.28620e-06\tAbsError: 2.18901e-03\n", - " Region: \"zone_3\"\tRelError: 1.12254e-02\tAbsError: 3.53784e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.76777e-05\tAbsError: 1.76182e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.87863e-05\tAbsError: 1.77602e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10527e-02\tAbsError: 1.55136e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.28630e-06\tAbsError: 2.18913e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.71990e-01\tAbsError: 2.33075e+14\n", - " Region: \"zone_1\"\tRelError: 3.26655e-01\tAbsError: 3.26790e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.26646e-01\tAbsError: 1.05121e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.32610e-06\tAbsError: 3.25738e-03\n", - " Region: \"zone_3\"\tRelError: 2.45334e-01\tAbsError: 2.33075e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.69921e-04\tAbsError: 1.16087e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.98872e-04\tAbsError: 1.16987e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.44556e-01\tAbsError: 1.05793e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.32610e-06\tAbsError: 3.25738e-03\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 5.16278e-05\tAbsError: 6.84005e+08\n", - " Region: \"zone_1\"\tRelError: 3.37813e-05\tAbsError: 2.73846e-08\n", - " Equation: \"PotentialEquation\"\tRelError: 3.37812e-05\tAbsError: 3.15860e-11\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.83172e-11\tAbsError: 2.73530e-08\n", - " Region: \"zone_3\"\tRelError: 1.78465e-05\tAbsError: 6.84005e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.24266e-09\tAbsError: 3.41303e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.85743e-09\tAbsError: 3.42702e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 1.78433e-05\tAbsError: 3.18691e-11\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.83488e-11\tAbsError: 2.73646e-08\n", - "Iteration: 22\n", - " Device: \"device\"\tRelError: 2.01937e-04\tAbsError: 5.08201e+10\n", - " Region: \"zone_1\"\tRelError: 2.09310e-05\tAbsError: 1.03517e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.09013e-05\tAbsError: 3.29728e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.96742e-08\tAbsError: 1.03187e-05\n", - " Region: \"zone_3\"\tRelError: 1.81006e-04\tAbsError: 5.08201e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.06381e-06\tAbsError: 2.90908e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.02859e-06\tAbsError: 2.17292e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.70884e-04\tAbsError: 3.34514e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.96790e-08\tAbsError: 1.03204e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.25390e+01\tAbsError: 8.66334e+15\n", - " Region: \"zone_1\"\tRelError: 3.08824e+01\tAbsError: 4.18730e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.08824e+01\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.61411e-10\tAbsError: 1.94992e-07\n", - " Region: \"zone_3\"\tRelError: 1.65669e+00\tAbsError: 8.66334e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77415e-01\tAbsError: 4.95016e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.77396e-01\tAbsError: 3.71318e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01878e-01\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.61411e-10\tAbsError: 1.94992e-07\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 9.78787e-02\tAbsError: 1.51579e+13\n", - " Region: \"zone_1\"\tRelError: 9.33811e-02\tAbsError: 3.72586e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.33800e-02\tAbsError: 5.93039e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06930e-06\tAbsError: 3.71993e-04\n", - " Region: \"zone_3\"\tRelError: 4.49766e-03\tAbsError: 1.51579e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.55718e-05\tAbsError: 7.54871e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.55129e-05\tAbsError: 7.60915e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.44551e-03\tAbsError: 5.97196e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06941e-06\tAbsError: 3.72032e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 7.52737e-02\tAbsError: 2.11632e+13\n", - " Region: \"zone_1\"\tRelError: 4.18693e-02\tAbsError: 1.59245e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 4.18648e-02\tAbsError: 1.01760e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.55695e-06\tAbsError: 1.59143e-03\n", - " Region: \"zone_3\"\tRelError: 3.34044e-02\tAbsError: 2.11632e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.42416e-05\tAbsError: 1.05434e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.40508e-05\tAbsError: 1.06198e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.32815e-02\tAbsError: 1.02389e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.55695e-06\tAbsError: 1.59143e-03\n", - "Iteration: 23\n", - " Device: \"device\"\tRelError: 4.31241e-05\tAbsError: 9.72368e+09\n", - " Region: \"zone_1\"\tRelError: 4.50120e-06\tAbsError: 3.97895e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.48977e-06\tAbsError: 6.34023e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.14243e-08\tAbsError: 3.97261e-06\n", - " Region: \"zone_3\"\tRelError: 3.86230e-05\tAbsError: 9.72368e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.87584e-07\tAbsError: 5.72032e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.82473e-07\tAbsError: 4.00336e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.66415e-05\tAbsError: 6.43135e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.14261e-08\tAbsError: 3.97327e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:05\u001b[0m.\u001b[1;36m445\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.2\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.71908e+00\tAbsError: 3.16119e+14\n", - " Region: \"zone_1\"\tRelError: 2.43910e-01\tAbsError: 9.06394e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.43741e-01\tAbsError: 3.18465e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69138e-04\tAbsError: 5.87930e-02\n", - " Region: \"zone_3\"\tRelError: 1.47517e+00\tAbsError: 3.16119e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.52371e-01\tAbsError: 1.84358e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.46585e-01\tAbsError: 1.31761e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.60470e-02\tAbsError: 3.18469e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69138e-04\tAbsError: 5.87930e-02\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.86969e-02\tAbsError: 2.46395e+12\n", - " Region: \"zone_1\"\tRelError: 1.78245e-02\tAbsError: 1.33518e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.78241e-02\tAbsError: 9.72546e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.82867e-07\tAbsError: 1.33421e-04\n", - " Region: \"zone_3\"\tRelError: 8.72445e-04\tAbsError: 2.46395e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.98555e-06\tAbsError: 1.22727e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.80165e-06\tAbsError: 1.23668e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.61275e-04\tAbsError: 9.81989e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.83008e-07\tAbsError: 1.33471e-04\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:06\u001b[0m.\u001b[1;36m541\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 3.58424e-02\tAbsError: 1.06654e+13\n", - " Region: \"zone_1\"\tRelError: 2.02058e-02\tAbsError: 2.22070e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.02052e-02\tAbsError: 4.26072e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.35587e-07\tAbsError: 2.21644e-04\n", - " Region: \"zone_3\"\tRelError: 1.56366e-02\tAbsError: 1.06654e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.99454e-05\tAbsError: 5.31546e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.95304e-05\tAbsError: 5.34998e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55965e-02\tAbsError: 4.28732e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.35746e-07\tAbsError: 2.21701e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.15185e+01\tAbsError: 8.37846e+15\n", - " Region: \"zone_1\"\tRelError: 9.89195e+00\tAbsError: 4.09551e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.89195e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.59013e-09\tAbsError: 9.00677e-07\n", - " Region: \"zone_3\"\tRelError: 1.62652e+00\tAbsError: 8.37846e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69532e-01\tAbsError: 4.63620e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69461e-01\tAbsError: 3.74226e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.75319e-02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.59045e-09\tAbsError: 9.00793e-07\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 6.40527e-03\tAbsError: 8.75105e+11\n", - " Region: \"zone_1\"\tRelError: 6.10804e-03\tAbsError: 2.72042e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.10796e-03\tAbsError: 3.31759e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.79703e-08\tAbsError: 2.71711e-05\n", - " Region: \"zone_3\"\tRelError: 2.97229e-04\tAbsError: 8.75105e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.37726e-06\tAbsError: 4.35905e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.72581e-06\tAbsError: 4.39200e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.94048e-04\tAbsError: 3.35063e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.79995e-08\tAbsError: 2.71819e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.29560e+00\tAbsError: 3.35290e+13\n", - " Region: \"zone_1\"\tRelError: 1.28873e+00\tAbsError: 3.19009e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28871e+00\tAbsError: 2.58882e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72972e-05\tAbsError: 6.01266e-03\n", - " Region: \"zone_3\"\tRelError: 1.00687e+00\tAbsError: 3.35290e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.61852e-01\tAbsError: 2.39644e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.32027e-01\tAbsError: 9.56462e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12978e-01\tAbsError: 2.58961e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72972e-05\tAbsError: 6.01266e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 5.84928e-03\tAbsError: 1.39322e+12\n", - " Region: \"zone_1\"\tRelError: 3.30163e-03\tAbsError: 8.73550e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.30138e-03\tAbsError: 5.81389e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.50332e-07\tAbsError: 8.72969e-05\n", - " Region: \"zone_3\"\tRelError: 2.54765e-03\tAbsError: 1.39322e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.41191e-06\tAbsError: 6.94509e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.86028e-06\tAbsError: 6.98710e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.54013e-03\tAbsError: 5.86552e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.50362e-07\tAbsError: 8.73074e-05\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.35493e-03\tAbsError: 1.68571e+11\n", - " Region: \"zone_1\"\tRelError: 1.29207e-03\tAbsError: 8.63102e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29205e-03\tAbsError: 7.02025e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.47475e-08\tAbsError: 8.62400e-06\n", - " Region: \"zone_3\"\tRelError: 6.28578e-05\tAbsError: 1.68571e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.02466e-07\tAbsError: 8.39739e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.04547e-07\tAbsError: 8.45971e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 6.21260e-05\tAbsError: 7.08891e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.47569e-08\tAbsError: 8.62749e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.94648e+00\tAbsError: 2.98429e+14\n", - " Region: \"zone_1\"\tRelError: 5.14528e-01\tAbsError: 9.09009e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.14355e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72975e-04\tAbsError: 6.01372e-02\n", - " Region: \"zone_3\"\tRelError: 1.43195e+00\tAbsError: 2.98429e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37879e-01\tAbsError: 1.45713e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32394e-01\tAbsError: 1.52715e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.15050e-02\tAbsError: 3.07641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72975e-04\tAbsError: 6.01372e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.60486e-01\tAbsError: 5.15725e+12\n", - " Region: \"zone_1\"\tRelError: 1.67222e-01\tAbsError: 1.31684e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.67215e-01\tAbsError: 1.05212e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.61512e-06\tAbsError: 2.64715e-03\n", - " Region: \"zone_3\"\tRelError: 2.93264e-01\tAbsError: 5.15725e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.16225e-01\tAbsError: 2.60346e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.61655e-02\tAbsError: 2.55379e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.08654e-02\tAbsError: 1.05213e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.61791e-06\tAbsError: 2.64812e-03\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 2.15768e-03\tAbsError: 5.43505e+11\n", - " Region: \"zone_1\"\tRelError: 1.21686e-03\tAbsError: 1.55236e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21682e-03\tAbsError: 2.14847e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.44066e-08\tAbsError: 1.55021e-05\n", - " Region: \"zone_3\"\tRelError: 9.40815e-04\tAbsError: 5.43505e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.76219e-07\tAbsError: 2.70992e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.20806e-06\tAbsError: 2.72513e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 9.38587e-04\tAbsError: 2.16821e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.44232e-08\tAbsError: 1.55082e-05\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 4.15724e-04\tAbsError: 5.32265e+10\n", - " Region: \"zone_1\"\tRelError: 3.96435e-04\tAbsError: 1.89996e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.96429e-04\tAbsError: 2.15435e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.44595e-09\tAbsError: 1.89780e-06\n", - " Region: \"zone_3\"\tRelError: 1.92895e-05\tAbsError: 5.32265e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.13529e-08\tAbsError: 2.65160e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.13912e-07\tAbsError: 2.67106e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.90888e-05\tAbsError: 2.17574e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.44817e-09\tAbsError: 1.89863e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.04599e+00\tAbsError: 3.86288e+13\n", - " Region: \"zone_1\"\tRelError: 9.93304e-02\tAbsError: 3.04736e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.93171e-02\tAbsError: 2.58731e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32324e-05\tAbsError: 4.60051e-03\n", - " Region: \"zone_3\"\tRelError: 9.46663e-01\tAbsError: 3.86288e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39748e-01\tAbsError: 2.78668e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.98990e-01\tAbsError: 1.07620e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07912e-01\tAbsError: 2.56750e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32324e-05\tAbsError: 4.60051e-03\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 4.06154e-04\tAbsError: 8.98688e+10\n", - " Region: \"zone_1\"\tRelError: 2.29538e-04\tAbsError: 5.19148e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29523e-04\tAbsError: 4.04707e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.48597e-08\tAbsError: 5.18744e-06\n", - " Region: \"zone_3\"\tRelError: 1.76616e-04\tAbsError: 8.98688e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.93792e-07\tAbsError: 4.48232e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.56876e-07\tAbsError: 4.50456e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.76151e-04\tAbsError: 4.08333e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.48652e-08\tAbsError: 5.18949e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.45727e-01\tAbsError: 2.22309e+12\n", - " Region: \"zone_1\"\tRelError: 7.29546e-02\tAbsError: 2.31873e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.29479e-02\tAbsError: 2.32615e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.67039e-06\tAbsError: 2.31641e-03\n", - " Region: \"zone_3\"\tRelError: 7.27727e-02\tAbsError: 2.22309e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.51626e-02\tAbsError: 1.48882e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.60331e-04\tAbsError: 7.34269e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 7.34309e-03\tAbsError: 2.39748e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.67039e-06\tAbsError: 2.31641e-03\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 9.37854e-05\tAbsError: 1.13966e+10\n", - " Region: \"zone_1\"\tRelError: 8.94375e-05\tAbsError: 5.57086e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 8.94359e-05\tAbsError: 4.85882e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59721e-09\tAbsError: 5.56600e-07\n", - " Region: \"zone_3\"\tRelError: 4.34795e-06\tAbsError: 1.13966e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.91086e-08\tAbsError: 5.67760e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.74403e-08\tAbsError: 5.71899e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 4.29981e-06\tAbsError: 4.90653e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59787e-09\tAbsError: 5.56840e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:10\u001b[0m.\u001b[1;36m411\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: 1.15\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 1.29151e-04\tAbsError: 2.98537e+10\n", - " Region: \"zone_1\"\tRelError: 7.29015e-05\tAbsError: 1.04164e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 7.28985e-05\tAbsError: 1.28800e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.98013e-09\tAbsError: 1.04035e-06\n", - " Region: \"zone_3\"\tRelError: 5.62494e-05\tAbsError: 2.98537e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.28726e-08\tAbsError: 1.48916e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.37179e-08\tAbsError: 1.49620e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.61198e-05\tAbsError: 1.29987e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.98133e-09\tAbsError: 1.04079e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.81931e-01\tAbsError: 3.51179e+12\n", - " Region: \"zone_1\"\tRelError: 1.43962e-02\tAbsError: 1.26243e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43862e-02\tAbsError: 9.16567e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.94812e-06\tAbsError: 3.45863e-03\n", - " Region: \"zone_3\"\tRelError: 2.67535e-01\tAbsError: 3.51179e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.10366e-01\tAbsError: 2.07273e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.20558e-02\tAbsError: 1.43906e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51028e-02\tAbsError: 9.16572e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.94812e-06\tAbsError: 3.45863e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.80600e-02\tAbsError: 1.14808e+12\n", - " Region: \"zone_1\"\tRelError: 1.61112e-02\tAbsError: 1.01064e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.61110e-02\tAbsError: 1.69201e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.85470e-07\tAbsError: 9.93716e-05\n", - " Region: \"zone_3\"\tRelError: 1.94877e-03\tAbsError: 1.14808e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.36949e-04\tAbsError: 3.13929e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.34019e-04\tAbsError: 8.34149e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.67751e-03\tAbsError: 1.69786e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.85602e-07\tAbsError: 9.94189e-05\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 2.67419e-05\tAbsError: 5.73187e+09\n", - " Region: \"zone_1\"\tRelError: 1.51156e-05\tAbsError: 3.11729e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51147e-05\tAbsError: 2.66783e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.92195e-10\tAbsError: 3.11462e-07\n", - " Region: \"zone_3\"\tRelError: 1.16262e-05\tAbsError: 5.73187e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.14918e-08\tAbsError: 2.85974e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.65087e-08\tAbsError: 2.87213e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15974e-05\tAbsError: 2.69180e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.92560e-10\tAbsError: 3.11596e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:11\u001b[0m.\u001b[1;36m894\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 1.2\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Iteration: 0\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 1.83034e+01\tAbsError: 2.49126e+18\n", - " Region: \"zone_1\"\tRelError: 7.60404e+00\tAbsError: 4.19624e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.60404e+00\tAbsError: 4.19623e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.70440e-10\tAbsError: 1.29093e-07\n", - " Region: \"zone_3\"\tRelError: 1.06993e+01\tAbsError: 2.49126e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.80717e-01\tAbsError: 1.24361e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.68985e-01\tAbsError: 1.24765e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 9.54962e+00\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.70590e-10\tAbsError: 1.29147e-07\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.22420e-02\tAbsError: 3.50277e+12\n", - " Region: \"zone_1\"\tRelError: 6.27962e-03\tAbsError: 2.19295e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.27335e-03\tAbsError: 1.50745e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.27080e-06\tAbsError: 2.17787e-03\n", - " Region: \"zone_3\"\tRelError: 6.59624e-02\tAbsError: 3.50277e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.67825e-02\tAbsError: 2.11766e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.14380e-04\tAbsError: 1.38511e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.55922e-03\tAbsError: 1.55695e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.27080e-06\tAbsError: 2.17787e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.91190e-03\tAbsError: 7.96289e+10\n", - " Region: \"zone_1\"\tRelError: 2.63465e-03\tAbsError: 6.91735e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.63445e-03\tAbsError: 4.71976e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.99045e-07\tAbsError: 6.91263e-05\n", - " Region: \"zone_3\"\tRelError: 2.77243e-04\tAbsError: 7.96289e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.57432e-06\tAbsError: 6.01559e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.39554e-06\tAbsError: 1.94730e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.66074e-04\tAbsError: 4.94439e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.99153e-07\tAbsError: 6.91621e-05\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.66836e+00\tAbsError: 5.26750e+17\n", - " Region: \"zone_1\"\tRelError: 5.40408e-01\tAbsError: 2.47466e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.33451e-01\tAbsError: 3.19514e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.95714e-03\tAbsError: 2.44271e+00\n", - " Region: \"zone_3\"\tRelError: 1.12795e+00\tAbsError: 5.26750e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.68024e-01\tAbsError: 2.63837e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.68166e-01\tAbsError: 2.62913e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 5.84807e-01\tAbsError: 3.19525e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.95799e-03\tAbsError: 2.44293e+00\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.61560e-03\tAbsError: 1.05154e+12\n", - " Region: \"zone_1\"\tRelError: 2.24369e-04\tAbsError: 1.45744e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.23954e-04\tAbsError: 1.49315e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14373e-07\tAbsError: 1.44251e-04\n", - " Region: \"zone_3\"\tRelError: 1.39123e-03\tAbsError: 1.05154e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46580e-04\tAbsError: 2.71204e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.31750e-04\tAbsError: 7.80335e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11248e-03\tAbsError: 1.49726e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14534e-07\tAbsError: 1.44309e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.10927e+00\tAbsError: 2.88051e+18\n", - " Region: \"zone_1\"\tRelError: 4.40935e+00\tAbsError: 4.29331e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.40935e+00\tAbsError: 4.29330e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.92687e-10\tAbsError: 6.72666e-08\n", - " Region: \"zone_3\"\tRelError: 2.69992e+00\tAbsError: 2.88051e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.57634e-01\tAbsError: 1.43872e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.49377e-01\tAbsError: 1.44179e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 1.59291e+00\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.92765e-10\tAbsError: 6.72951e-08\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.71121e-03\tAbsError: 6.42400e+10\n", - " Region: \"zone_1\"\tRelError: 1.54492e-03\tAbsError: 2.42438e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.54492e-03\tAbsError: 5.72492e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.79994e-09\tAbsError: 2.36713e-06\n", - " Region: \"zone_3\"\tRelError: 1.66287e-04\tAbsError: 6.42400e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.30507e-06\tAbsError: 2.63420e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.25914e-06\tAbsError: 3.78980e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55716e-04\tAbsError: 5.72919e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.80392e-09\tAbsError: 2.36856e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 5.19734e-01\tAbsError: 1.97992e+16\n", - " Region: \"zone_1\"\tRelError: 2.37038e-01\tAbsError: 2.07687e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 2.31212e-01\tAbsError: 2.58948e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.82632e-03\tAbsError: 2.05097e+00\n", - " Region: \"zone_3\"\tRelError: 2.82695e-01\tAbsError: 1.97992e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.49371e-02\tAbsError: 9.97403e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.96727e-02\tAbsError: 9.82517e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.12259e-01\tAbsError: 2.58980e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.82676e-03\tAbsError: 2.05114e+00\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.04484e-04\tAbsError: 1.25305e+11\n", - " Region: \"zone_1\"\tRelError: 1.66225e-04\tAbsError: 5.88372e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66056e-04\tAbsError: 7.31641e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69190e-07\tAbsError: 5.87641e-05\n", - " Region: \"zone_3\"\tRelError: 4.38259e-04\tAbsError: 1.25305e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07349e-05\tAbsError: 8.57569e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.06394e-05\tAbsError: 3.95479e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.16715e-04\tAbsError: 7.69558e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69190e-07\tAbsError: 5.87641e-05\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.04733e+00\tAbsError: 5.25888e+17\n", - " Region: \"zone_1\"\tRelError: 2.75293e-01\tAbsError: 3.17385e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 2.66393e-01\tAbsError: 3.30987e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.89983e-03\tAbsError: 3.14075e+00\n", - " Region: \"zone_3\"\tRelError: 7.72042e-01\tAbsError: 5.25888e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.54638e-01\tAbsError: 2.63307e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.49625e-01\tAbsError: 2.62581e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 2.58877e-01\tAbsError: 3.31000e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.90099e-03\tAbsError: 3.14105e+00\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.98365e-05\tAbsError: 1.74812e+09\n", - " Region: \"zone_1\"\tRelError: 2.67203e-05\tAbsError: 3.71573e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.67096e-05\tAbsError: 8.84078e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06872e-08\tAbsError: 3.71484e-06\n", - " Region: \"zone_3\"\tRelError: 3.11622e-06\tAbsError: 1.74812e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.51296e-07\tAbsError: 1.52564e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.22090e-07\tAbsError: 2.22487e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 2.83214e-06\tAbsError: 9.16942e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06883e-08\tAbsError: 3.71526e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:15\u001b[0m.\u001b[1;36m058\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:15\u001b[0m.\u001b[1;36m058\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.4136363636363636\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.52761e-01\tAbsError: 2.62797e+16\n", - " Region: \"zone_1\"\tRelError: 9.76584e-02\tAbsError: 3.86718e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 8.68408e-02\tAbsError: 1.06597e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08176e-02\tAbsError: 3.85652e+00\n", - " Region: \"zone_3\"\tRelError: 1.55102e-01\tAbsError: 2.62797e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.12443e-02\tAbsError: 9.31974e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.14102e-03\tAbsError: 1.69599e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 8.68796e-02\tAbsError: 1.06615e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08372e-02\tAbsError: 3.86367e+00\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.49542e-04\tAbsError: 5.25658e+10\n", - " Region: \"zone_1\"\tRelError: 3.67449e-05\tAbsError: 6.09086e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.67275e-05\tAbsError: 4.65416e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73626e-08\tAbsError: 6.04431e-06\n", - " Region: \"zone_3\"\tRelError: 1.12797e-04\tAbsError: 5.25658e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.87848e-06\tAbsError: 1.95402e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.83780e-06\tAbsError: 3.30256e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03063e-04\tAbsError: 4.67695e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73703e-08\tAbsError: 6.04716e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 3.89417e-01\tAbsError: 2.54221e+16\n", - " Region: \"zone_1\"\tRelError: 1.69711e-01\tAbsError: 4.10046e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.58247e-01\tAbsError: 2.58978e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.14640e-02\tAbsError: 4.07456e+00\n", - " Region: \"zone_3\"\tRelError: 2.19706e-01\tAbsError: 2.54221e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73312e-02\tAbsError: 1.26603e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.56527e-02\tAbsError: 1.27618e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35257e-01\tAbsError: 2.58670e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.14658e-02\tAbsError: 4.07523e+00\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.07616e+01\tAbsError: 8.63834e+15\n", - " Region: \"zone_1\"\tRelError: 9.09370e+00\tAbsError: 4.18730e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.09370e+00\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.46502e-10\tAbsError: 1.55345e-07\n", - " Region: \"zone_3\"\tRelError: 1.66793e+00\tAbsError: 8.63834e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77440e-01\tAbsError: 5.07199e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.77420e-01\tAbsError: 3.56635e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13066e-01\tAbsError: 4.18729e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.46671e-10\tAbsError: 1.55403e-07\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 4.09087e-01\tAbsError: 3.99201e+16\n", - " Region: \"zone_1\"\tRelError: 1.13300e-01\tAbsError: 4.80576e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 9.96392e-02\tAbsError: 1.27897e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36607e-02\tAbsError: 4.80448e+00\n", - " Region: \"zone_3\"\tRelError: 2.95787e-01\tAbsError: 3.99201e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.36733e-01\tAbsError: 1.96602e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.22422e-02\tAbsError: 2.02599e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13131e-01\tAbsError: 1.28517e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36804e-02\tAbsError: 4.81150e+00\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.34616e-05\tAbsError: 4.93077e+09\n", - " Region: \"zone_1\"\tRelError: 6.39653e-06\tAbsError: 2.70521e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.38875e-06\tAbsError: 2.92925e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.78050e-09\tAbsError: 2.70228e-06\n", - " Region: \"zone_3\"\tRelError: 1.70651e-05\tAbsError: 4.93077e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.08407e-07\tAbsError: 3.64057e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.02769e-07\tAbsError: 1.29020e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.62461e-05\tAbsError: 3.07627e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.78090e-09\tAbsError: 2.70245e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.31509e-01\tAbsError: 6.53670e+16\n", - " Region: \"zone_1\"\tRelError: 7.81600e-02\tAbsError: 2.54224e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 7.09907e-02\tAbsError: 1.22635e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.16926e-03\tAbsError: 2.52998e+00\n", - " Region: \"zone_3\"\tRelError: 1.53349e-01\tAbsError: 6.53670e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.15979e-02\tAbsError: 3.23947e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.35663e-02\tAbsError: 3.29723e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 7.10136e-02\tAbsError: 1.22654e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.17081e-03\tAbsError: 2.53053e+00\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:17\u001b[0m.\u001b[1;36m293\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.3\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.69633e+00\tAbsError: 3.30694e+14\n", - " Region: \"zone_1\"\tRelError: 2.04130e-01\tAbsError: 8.38465e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03981e-01\tAbsError: 3.18465e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.49617e-04\tAbsError: 5.20000e-02\n", - " Region: \"zone_3\"\tRelError: 1.49220e+00\tAbsError: 3.30694e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.53231e-01\tAbsError: 2.41427e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.46012e-01\tAbsError: 8.92668e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.28037e-02\tAbsError: 3.18468e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.49617e-04\tAbsError: 5.20000e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.98801e-01\tAbsError: 3.32657e+16\n", - " Region: \"zone_1\"\tRelError: 1.02828e-01\tAbsError: 2.82782e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02028e-01\tAbsError: 1.18619e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.00031e-04\tAbsError: 2.81596e-01\n", - " Region: \"zone_3\"\tRelError: 1.95973e-01\tAbsError: 3.32657e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.03301e-02\tAbsError: 1.63093e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.05065e-02\tAbsError: 1.69564e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14336e-01\tAbsError: 1.19290e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.00341e-04\tAbsError: 2.81704e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.06521e-01\tAbsError: 5.25690e+16\n", - " Region: \"zone_1\"\tRelError: 2.96156e-02\tAbsError: 2.10225e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 2.36714e-02\tAbsError: 4.41949e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.94425e-03\tAbsError: 2.10181e+00\n", - " Region: \"zone_3\"\tRelError: 7.69054e-02\tAbsError: 5.25690e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.50907e-02\tAbsError: 2.61546e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.12925e-02\tAbsError: 2.64144e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.45709e-02\tAbsError: 4.42076e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.95136e-03\tAbsError: 2.10432e+00\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 9.54016e+00\tAbsError: 8.28773e+15\n", - " Region: \"zone_1\"\tRelError: 7.90066e+00\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.90066e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.70846e-10\tAbsError: 1.98729e-07\n", - " Region: \"zone_3\"\tRelError: 1.63951e+00\tAbsError: 8.28773e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69626e-01\tAbsError: 4.72857e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69607e-01\tAbsError: 3.55916e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00272e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.71110e-10\tAbsError: 1.98825e-07\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.08628e+00\tAbsError: 7.45591e+13\n", - " Region: \"zone_1\"\tRelError: 7.71598e-02\tAbsError: 3.28695e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.71397e-02\tAbsError: 2.58833e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.01007e-05\tAbsError: 6.98622e-03\n", - " Region: \"zone_3\"\tRelError: 1.00912e+00\tAbsError: 7.45591e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.62470e-01\tAbsError: 4.45904e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.40211e-01\tAbsError: 2.99687e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06420e-01\tAbsError: 2.58870e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.01007e-05\tAbsError: 6.98622e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.96187e-02\tAbsError: 1.75053e+15\n", - " Region: \"zone_1\"\tRelError: 1.42724e-02\tAbsError: 1.45028e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.38595e-02\tAbsError: 8.94746e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.12887e-04\tAbsError: 1.44939e-01\n", - " Region: \"zone_3\"\tRelError: 2.53464e-02\tAbsError: 1.75053e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.74622e-03\tAbsError: 8.55545e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.60907e-03\tAbsError: 8.94984e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55782e-02\tAbsError: 8.99214e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.12890e-04\tAbsError: 1.44947e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.05243e-02\tAbsError: 1.71928e+16\n", - " Region: \"zone_1\"\tRelError: 1.39003e-02\tAbsError: 9.75908e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.36257e-02\tAbsError: 4.95045e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.74527e-04\tAbsError: 9.70958e-02\n", - " Region: \"zone_3\"\tRelError: 4.66240e-02\tAbsError: 1.71928e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.43183e-02\tAbsError: 8.46411e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.92900e-03\tAbsError: 8.72870e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.41020e-02\tAbsError: 4.97560e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.74643e-04\tAbsError: 9.71365e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.57084e+00\tAbsError: 2.89575e+14\n", - " Region: \"zone_1\"\tRelError: 1.26543e-01\tAbsError: 8.72430e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.26381e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62480e-04\tAbsError: 5.64794e-02\n", - " Region: \"zone_3\"\tRelError: 1.44430e+00\tAbsError: 2.89575e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37983e-01\tAbsError: 1.66847e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32917e-01\tAbsError: 1.22728e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.32359e-02\tAbsError: 3.07641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62480e-04\tAbsError: 5.64794e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.37573e-01\tAbsError: 2.62583e+13\n", - " Region: \"zone_1\"\tRelError: 2.66856e-02\tAbsError: 1.29341e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.66787e-02\tAbsError: 1.05212e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.94244e-06\tAbsError: 2.41284e-03\n", - " Region: \"zone_3\"\tRelError: 3.10887e-01\tAbsError: 2.62583e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.14741e-01\tAbsError: 1.27736e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.92334e-02\tAbsError: 1.34847e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.69065e-02\tAbsError: 1.05213e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.94691e-06\tAbsError: 2.41446e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.84579e-02\tAbsError: 9.27268e+14\n", - " Region: \"zone_1\"\tRelError: 7.06495e-03\tAbsError: 1.50817e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.02210e-03\tAbsError: 4.11553e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.28501e-05\tAbsError: 1.50405e-02\n", - " Region: \"zone_3\"\tRelError: 1.13930e-02\tAbsError: 9.27268e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.00214e-03\tAbsError: 4.61804e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.45972e-03\tAbsError: 4.65464e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.88825e-03\tAbsError: 4.13778e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.28501e-05\tAbsError: 1.50405e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 5.11179e-03\tAbsError: 7.70441e+14\n", - " Region: \"zone_1\"\tRelError: 1.35889e-03\tAbsError: 5.45003e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20454e-03\tAbsError: 2.78425e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54352e-04\tAbsError: 5.44725e-02\n", - " Region: \"zone_3\"\tRelError: 3.75290e-03\tAbsError: 7.70441e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.99204e-03\tAbsError: 3.85016e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.80199e-04\tAbsError: 3.85425e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.26308e-04\tAbsError: 2.79655e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54352e-04\tAbsError: 5.44725e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.08933e+00\tAbsError: 3.08258e+13\n", - " Region: \"zone_1\"\tRelError: 1.39766e-01\tAbsError: 3.14532e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39750e-01\tAbsError: 2.58726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60540e-05\tAbsError: 5.58058e-03\n", - " Region: \"zone_3\"\tRelError: 9.49568e-01\tAbsError: 3.08258e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40223e-01\tAbsError: 2.27975e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.01508e-01\tAbsError: 8.02831e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07820e-01\tAbsError: 2.58966e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60540e-05\tAbsError: 5.58058e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.61545e-02\tAbsError: 3.83266e+12\n", - " Region: \"zone_1\"\tRelError: 2.81411e-03\tAbsError: 1.78747e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.80904e-03\tAbsError: 2.72818e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.06913e-06\tAbsError: 1.76019e-03\n", - " Region: \"zone_3\"\tRelError: 7.33404e-02\tAbsError: 3.83266e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.46251e-02\tAbsError: 2.27967e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.36878e-03\tAbsError: 1.55299e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.34146e-03\tAbsError: 2.95939e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.06913e-06\tAbsError: 1.76019e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.71738e-03\tAbsError: 1.07667e+14\n", - " Region: \"zone_1\"\tRelError: 1.03630e-03\tAbsError: 5.76985e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01984e-03\tAbsError: 4.42848e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.64621e-05\tAbsError: 5.76542e-03\n", - " Region: \"zone_3\"\tRelError: 1.68108e-03\tAbsError: 1.07667e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.64362e-04\tAbsError: 5.32517e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.53711e-04\tAbsError: 5.44154e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14654e-03\tAbsError: 4.45105e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.64621e-05\tAbsError: 5.76542e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.81043e-03\tAbsError: 4.89759e+14\n", - " Region: \"zone_1\"\tRelError: 7.77711e-04\tAbsError: 4.18472e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.65896e-04\tAbsError: 1.51951e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18145e-05\tAbsError: 4.16952e-03\n", - " Region: \"zone_3\"\tRelError: 2.03272e-03\tAbsError: 4.89759e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.36181e-04\tAbsError: 2.42285e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.91630e-04\tAbsError: 2.47473e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.93091e-04\tAbsError: 1.52676e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18155e-05\tAbsError: 4.16958e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.94758e-01\tAbsError: 4.98642e+12\n", - " Region: \"zone_1\"\tRelError: 2.19383e-02\tAbsError: 1.22221e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.19295e-02\tAbsError: 9.16564e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.79291e-06\tAbsError: 3.05651e-03\n", - " Region: \"zone_3\"\tRelError: 2.72820e-01\tAbsError: 4.98642e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12699e-01\tAbsError: 2.77867e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.23181e-02\tAbsError: 2.20775e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77940e-02\tAbsError: 9.16568e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.79389e-06\tAbsError: 3.05683e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.17479e-03\tAbsError: 8.38513e+11\n", - " Region: \"zone_1\"\tRelError: 9.80301e-05\tAbsError: 1.13249e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.77084e-05\tAbsError: 1.25766e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.21759e-07\tAbsError: 1.11992e-04\n", - " Region: \"zone_3\"\tRelError: 1.07676e-03\tAbsError: 8.38513e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.06684e-04\tAbsError: 2.03880e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.34123e-05\tAbsError: 6.34633e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 8.86344e-04\tAbsError: 1.26205e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.21884e-07\tAbsError: 1.12037e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 9.60517e-04\tAbsError: 3.70140e+13\n", - " Region: \"zone_1\"\tRelError: 3.79391e-04\tAbsError: 8.82747e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.76874e-04\tAbsError: 1.49370e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.51627e-06\tAbsError: 8.81253e-04\n", - " Region: \"zone_3\"\tRelError: 5.81126e-04\tAbsError: 3.70140e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.42292e-05\tAbsError: 1.82854e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.05886e-05\tAbsError: 1.87285e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.23791e-04\tAbsError: 1.50155e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.51686e-06\tAbsError: 8.81464e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.90949e-04\tAbsError: 4.62352e+13\n", - " Region: \"zone_1\"\tRelError: 7.67261e-05\tAbsError: 1.67089e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.19872e-05\tAbsError: 1.28358e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73887e-06\tAbsError: 1.66960e-03\n", - " Region: \"zone_3\"\tRelError: 2.14223e-04\tAbsError: 4.62352e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.49627e-05\tAbsError: 2.29665e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.00098e-05\tAbsError: 2.32687e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.45113e-05\tAbsError: 1.28948e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73889e-06\tAbsError: 1.66962e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.73338e-02\tAbsError: 3.09182e+12\n", - " Region: \"zone_1\"\tRelError: 1.11598e-02\tAbsError: 1.65988e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11551e-02\tAbsError: 1.42279e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73882e-06\tAbsError: 1.64565e-03\n", - " Region: \"zone_3\"\tRelError: 6.61739e-02\tAbsError: 3.09182e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.71921e-02\tAbsError: 1.98622e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.49402e-04\tAbsError: 1.10560e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.42774e-03\tAbsError: 1.50865e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73882e-06\tAbsError: 1.64565e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.11158e-04\tAbsError: 9.57185e+10\n", - " Region: \"zone_1\"\tRelError: 4.17863e-05\tAbsError: 4.74842e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.16497e-05\tAbsError: 6.09462e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36564e-07\tAbsError: 4.74233e-05\n", - " Region: \"zone_3\"\tRelError: 3.69372e-04\tAbsError: 9.57185e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.25911e-06\tAbsError: 6.70220e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.19571e-06\tAbsError: 2.86965e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.56780e-04\tAbsError: 6.36408e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36564e-07\tAbsError: 4.74233e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.64548e-04\tAbsError: 6.13730e+12\n", - " Region: \"zone_1\"\tRelError: 6.45712e-05\tAbsError: 2.85998e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.37552e-05\tAbsError: 2.31313e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.15960e-07\tAbsError: 2.85767e-04\n", - " Region: \"zone_3\"\tRelError: 9.99767e-05\tAbsError: 6.13730e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.20916e-05\tAbsError: 3.04900e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.53543e-05\tAbsError: 3.08830e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.17148e-05\tAbsError: 2.33098e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.16042e-07\tAbsError: 2.85798e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.09161e-04\tAbsError: 1.86881e+13\n", - " Region: \"zone_1\"\tRelError: 3.26597e-05\tAbsError: 1.87205e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.21288e-05\tAbsError: 4.35351e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.30847e-07\tAbsError: 1.86769e-04\n", - " Region: \"zone_3\"\tRelError: 7.65013e-05\tAbsError: 1.86881e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07377e-05\tAbsError: 9.31169e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.19499e-05\tAbsError: 9.37639e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.32829e-05\tAbsError: 4.37180e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.30847e-07\tAbsError: 1.86769e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.35940e-03\tAbsError: 7.91644e+11\n", - " Region: \"zone_1\"\tRelError: 6.17001e-04\tAbsError: 1.42075e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.16596e-04\tAbsError: 1.18665e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.04748e-07\tAbsError: 1.40888e-04\n", - " Region: \"zone_3\"\tRelError: 7.42401e-04\tAbsError: 7.91644e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.00211e-04\tAbsError: 1.88344e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.60094e-05\tAbsError: 6.03301e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.55776e-04\tAbsError: 1.18974e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.04912e-07\tAbsError: 1.40947e-04\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 4.97822e-05\tAbsError: 1.78863e+12\n", - " Region: \"zone_1\"\tRelError: 1.99209e-05\tAbsError: 5.22253e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.97720e-05\tAbsError: 7.17372e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.48921e-07\tAbsError: 5.21536e-05\n", - " Region: \"zone_3\"\tRelError: 2.98612e-05\tAbsError: 1.78863e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.14705e-06\tAbsError: 8.88308e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.32143e-06\tAbsError: 9.00324e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.22438e-05\tAbsError: 7.23110e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.48977e-07\tAbsError: 5.21742e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.05534e-04\tAbsError: 4.21784e+10\n", - " Region: \"zone_1\"\tRelError: 1.03068e-05\tAbsError: 4.66453e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02935e-05\tAbsError: 3.88153e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32897e-08\tAbsError: 4.62572e-06\n", - " Region: \"zone_3\"\tRelError: 9.52277e-05\tAbsError: 4.21784e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.05233e-06\tAbsError: 1.53249e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.02568e-06\tAbsError: 2.68535e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 8.91364e-05\tAbsError: 3.88184e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32960e-08\tAbsError: 4.62800e-06\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.45996e-05\tAbsError: 2.40000e+12\n", - " Region: \"zone_1\"\tRelError: 4.26432e-06\tAbsError: 6.51115e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.07939e-06\tAbsError: 4.99211e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84928e-07\tAbsError: 6.50615e-05\n", - " Region: \"zone_3\"\tRelError: 1.03352e-05\tAbsError: 2.40000e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.62973e-06\tAbsError: 1.19621e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.29508e-06\tAbsError: 1.20379e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.22543e-06\tAbsError: 5.01223e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84982e-07\tAbsError: 6.50814e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.02141e-03\tAbsError: 1.23957e+11\n", - " Region: \"zone_1\"\tRelError: 5.52143e-04\tAbsError: 4.11028e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.52024e-04\tAbsError: 7.43261e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18138e-07\tAbsError: 4.10285e-05\n", - " Region: \"zone_3\"\tRelError: 4.69263e-04\tAbsError: 1.23957e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.58109e-06\tAbsError: 8.33431e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.49437e-06\tAbsError: 4.06143e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.50070e-04\tAbsError: 7.83274e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18138e-07\tAbsError: 4.10285e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.56608e-05\tAbsError: 3.69526e+09\n", - " Region: \"zone_1\"\tRelError: 1.59073e-06\tAbsError: 2.18297e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.58445e-06\tAbsError: 2.39172e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.27962e-09\tAbsError: 2.18058e-06\n", - " Region: \"zone_3\"\tRelError: 1.40700e-05\tAbsError: 3.69526e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.31303e-07\tAbsError: 2.80779e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.27370e-07\tAbsError: 8.87479e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 1.36051e-05\tAbsError: 2.49316e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.28025e-09\tAbsError: 2.18083e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:26\u001b[0m.\u001b[1;36m725\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:26\u001b[0m.\u001b[1;36m725\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5181818181818182\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:27\u001b[0m.\u001b[1;36m529\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.30911e-04\tAbsError: 3.51442e+10\n", - " Region: \"zone_1\"\tRelError: 6.81885e-05\tAbsError: 6.92614e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.81687e-05\tAbsError: 3.42472e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.97989e-08\tAbsError: 6.89189e-06\n", - " Region: \"zone_3\"\tRelError: 6.27220e-05\tAbsError: 3.51442e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91737e-06\tAbsError: 1.11617e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.89123e-06\tAbsError: 2.39825e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.68936e-05\tAbsError: 3.42673e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.98072e-08\tAbsError: 6.89488e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:28\u001b[0m.\u001b[1;36m182\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 8.27541e+00\tAbsError: 8.60418e+15\n", - " Region: \"zone_1\"\tRelError: 6.58364e+00\tAbsError: 4.18730e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.58364e+00\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.17406e-10\tAbsError: 1.45288e-07\n", - " Region: \"zone_3\"\tRelError: 1.69177e+00\tAbsError: 8.60418e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77453e-01\tAbsError: 5.04627e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.77410e-01\tAbsError: 3.55791e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.36912e-01\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.17616e-10\tAbsError: 1.45364e-07\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 4.91977e-05\tAbsError: 5.89586e+09\n", - " Region: \"zone_1\"\tRelError: 2.66095e-05\tAbsError: 1.68142e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.66047e-05\tAbsError: 3.56714e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.83123e-09\tAbsError: 1.67785e-06\n", - " Region: \"zone_3\"\tRelError: 2.25882e-05\tAbsError: 5.89586e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.48785e-07\tAbsError: 4.10020e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.43251e-07\tAbsError: 1.79565e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.16913e-05\tAbsError: 3.75397e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.83123e-09\tAbsError: 1.67785e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:28\u001b[0m.\u001b[1;36m716\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.4\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.83363e+00\tAbsError: 8.77764e+14\n", - " Region: \"zone_1\"\tRelError: 3.25771e-01\tAbsError: 7.35950e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.25651e-01\tAbsError: 3.18464e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20135e-04\tAbsError: 4.17486e-02\n", - " Region: \"zone_3\"\tRelError: 1.50785e+00\tAbsError: 8.77764e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.54712e-01\tAbsError: 5.12926e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.40765e-01\tAbsError: 3.64838e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12257e-01\tAbsError: 3.18466e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20135e-04\tAbsError: 4.17486e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 8.62552e+00\tAbsError: 8.26510e+15\n", - " Region: \"zone_1\"\tRelError: 6.97719e+00\tAbsError: 4.09546e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.97719e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.33437e-10\tAbsError: 3.24924e-07\n", - " Region: \"zone_3\"\tRelError: 1.64833e+00\tAbsError: 8.26510e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69652e-01\tAbsError: 4.84454e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69632e-01\tAbsError: 3.42056e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09044e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.33825e-10\tAbsError: 3.25065e-07\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.23424e+00\tAbsError: 4.42838e+14\n", - " Region: \"zone_1\"\tRelError: 2.36025e-01\tAbsError: 3.39690e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.36002e-01\tAbsError: 2.58732e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.32959e-05\tAbsError: 8.09586e-03\n", - " Region: \"zone_3\"\tRelError: 9.98217e-01\tAbsError: 4.42838e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.64238e-01\tAbsError: 2.16900e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.32347e-01\tAbsError: 2.25938e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01608e-01\tAbsError: 2.58503e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.32959e-05\tAbsError: 8.09586e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.56210e+00\tAbsError: 2.88655e+14\n", - " Region: \"zone_1\"\tRelError: 1.01850e-01\tAbsError: 8.11752e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01705e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.45044e-04\tAbsError: 5.04116e-02\n", - " Region: \"zone_3\"\tRelError: 1.46025e+00\tAbsError: 2.88655e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39145e-01\tAbsError: 2.10222e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.31918e-01\tAbsError: 7.84329e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.90395e-02\tAbsError: 3.07640e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.45044e-04\tAbsError: 5.04116e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.75475e-01\tAbsError: 1.99867e+14\n", - " Region: \"zone_1\"\tRelError: 3.34759e-02\tAbsError: 1.58921e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.34604e-02\tAbsError: 1.05212e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54730e-05\tAbsError: 5.37087e-03\n", - " Region: \"zone_3\"\tRelError: 3.41999e-01\tAbsError: 1.99867e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12024e-01\tAbsError: 8.98614e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.57822e-02\tAbsError: 1.10005e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.41777e-02\tAbsError: 1.05213e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54821e-05\tAbsError: 5.37408e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.02466e+00\tAbsError: 6.04267e+13\n", - " Region: \"zone_1\"\tRelError: 7.18592e-02\tAbsError: 3.22577e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.18409e-02\tAbsError: 2.58878e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83272e-05\tAbsError: 6.36990e-03\n", - " Region: \"zone_3\"\tRelError: 9.52804e-01\tAbsError: 6.04267e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40508e-01\tAbsError: 3.80417e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.10167e-01\tAbsError: 2.23851e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02110e-01\tAbsError: 2.58991e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83272e-05\tAbsError: 6.36990e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.33968e-02\tAbsError: 3.34257e+13\n", - " Region: \"zone_1\"\tRelError: 1.43902e-02\tAbsError: 3.37019e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43809e-02\tAbsError: 1.48707e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.27817e-06\tAbsError: 3.22148e-03\n", - " Region: \"zone_3\"\tRelError: 7.90066e-02\tAbsError: 3.34257e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.13103e-02\tAbsError: 1.91554e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.18326e-03\tAbsError: 1.42703e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15037e-02\tAbsError: 1.58044e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.27817e-06\tAbsError: 3.22148e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.07050e-01\tAbsError: 1.83634e+13\n", - " Region: \"zone_1\"\tRelError: 2.24108e-02\tAbsError: 1.12606e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.24048e-02\tAbsError: 9.16557e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.02744e-06\tAbsError: 2.09499e-03\n", - " Region: \"zone_3\"\tRelError: 2.84640e-01\tAbsError: 1.83634e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.09245e-01\tAbsError: 8.86934e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.28005e-02\tAbsError: 9.49405e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.25878e-02\tAbsError: 9.16561e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.02994e-06\tAbsError: 2.09586e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.63934e-03\tAbsError: 1.49207e+12\n", - " Region: \"zone_1\"\tRelError: 6.19467e-04\tAbsError: 2.24642e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.18826e-04\tAbsError: 1.84309e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.41085e-07\tAbsError: 2.22799e-04\n", - " Region: \"zone_3\"\tRelError: 3.01987e-03\tAbsError: 1.49207e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.23665e-04\tAbsError: 4.38788e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.32776e-04\tAbsError: 1.05329e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.66279e-03\tAbsError: 1.84755e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.41085e-07\tAbsError: 2.22799e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.39650e-02\tAbsError: 2.30731e+12\n", - " Region: \"zone_1\"\tRelError: 9.33244e-04\tAbsError: 2.05118e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 9.27371e-04\tAbsError: 1.17101e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.87337e-06\tAbsError: 2.03947e-03\n", - " Region: \"zone_3\"\tRelError: 6.30318e-02\tAbsError: 2.30731e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.63237e-02\tAbsError: 1.57438e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.61914e-04\tAbsError: 7.32926e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 6.34034e-03\tAbsError: 1.22701e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.87337e-06\tAbsError: 2.03947e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 8.04014e-04\tAbsError: 1.78082e+11\n", - " Region: \"zone_1\"\tRelError: 1.64236e-04\tAbsError: 8.99450e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.63978e-04\tAbsError: 1.15245e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.58711e-07\tAbsError: 8.98298e-05\n", - " Region: \"zone_3\"\tRelError: 6.39777e-04\tAbsError: 1.78082e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07882e-05\tAbsError: 1.17921e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.06608e-05\tAbsError: 6.01615e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 6.18070e-04\tAbsError: 1.20248e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.58802e-07\tAbsError: 8.98625e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.79721e-03\tAbsError: 9.76589e+11\n", - " Region: \"zone_1\"\tRelError: 1.82738e-04\tAbsError: 8.39323e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82502e-04\tAbsError: 1.48235e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36874e-07\tAbsError: 8.24499e-05\n", - " Region: \"zone_3\"\tRelError: 1.61447e-03\tAbsError: 9.76589e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10820e-04\tAbsError: 2.51654e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.02342e-04\tAbsError: 7.24935e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40107e-03\tAbsError: 1.48793e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36983e-07\tAbsError: 8.24891e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.88086e-04\tAbsError: 8.35552e+10\n", - " Region: \"zone_1\"\tRelError: 5.73074e-05\tAbsError: 7.74193e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.72853e-05\tAbsError: 5.99789e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.20722e-08\tAbsError: 7.68195e-06\n", - " Region: \"zone_3\"\tRelError: 2.30778e-04\tAbsError: 8.35552e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.19425e-06\tAbsError: 3.65804e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.15002e-06\tAbsError: 4.69748e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20412e-04\tAbsError: 6.12813e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.20814e-08\tAbsError: 7.68536e-06\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.68582e-04\tAbsError: 6.39514e+10\n", - " Region: \"zone_1\"\tRelError: 3.10151e-05\tAbsError: 5.94800e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.08440e-05\tAbsError: 4.08298e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71164e-07\tAbsError: 5.94392e-05\n", - " Region: \"zone_3\"\tRelError: 2.37567e-04\tAbsError: 6.39514e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16150e-06\tAbsError: 5.01904e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.80228e-06\tAbsError: 1.37610e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29432e-04\tAbsError: 4.25523e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71229e-07\tAbsError: 5.94601e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.80999e-05\tAbsError: 6.55525e+09\n", - " Region: \"zone_1\"\tRelError: 5.74155e-06\tAbsError: 4.57456e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.72840e-06\tAbsError: 4.04596e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.31523e-08\tAbsError: 4.57052e-06\n", - " Region: \"zone_3\"\tRelError: 2.23583e-05\tAbsError: 6.55525e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.58194e-07\tAbsError: 4.71867e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.45841e-07\tAbsError: 1.83658e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.16411e-05\tAbsError: 4.21062e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.31539e-08\tAbsError: 4.57114e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:36\u001b[0m.\u001b[1;36m356\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:36\u001b[0m.\u001b[1;36m356\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6227272727272727\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.61549e-04\tAbsError: 5.47840e+10\n", - " Region: \"zone_1\"\tRelError: 1.81900e-05\tAbsError: 1.93945e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.81846e-05\tAbsError: 4.89694e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.43105e-09\tAbsError: 1.89048e-06\n", - " Region: \"zone_3\"\tRelError: 1.43359e-04\tAbsError: 5.47840e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.04114e-06\tAbsError: 2.20323e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.00674e-06\tAbsError: 3.27517e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35306e-04\tAbsError: 4.90033e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.43421e-09\tAbsError: 1.89162e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.73597e+00\tAbsError: 8.78832e+15\n", - " Region: \"zone_1\"\tRelError: 4.00235e+00\tAbsError: 4.18730e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.00235e+00\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.45782e-10\tAbsError: 1.89960e-07\n", - " Region: \"zone_3\"\tRelError: 1.73361e+00\tAbsError: 8.78832e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77399e-01\tAbsError: 4.74842e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.77278e-01\tAbsError: 4.03990e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.78937e-01\tAbsError: 4.18729e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.46049e-10\tAbsError: 1.90057e-07\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.55715e-06\tAbsError: 1.55369e+09\n", - " Region: \"zone_1\"\tRelError: 2.75443e-07\tAbsError: 3.15707e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.66361e-07\tAbsError: 7.16801e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.08162e-09\tAbsError: 3.15635e-06\n", - " Region: \"zone_3\"\tRelError: 2.28171e-06\tAbsError: 1.55369e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01860e-07\tAbsError: 1.23171e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.92720e-08\tAbsError: 3.21980e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 2.10150e-06\tAbsError: 7.37244e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.08225e-09\tAbsError: 3.15662e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:38\u001b[0m.\u001b[1;36m102\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.5\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.94703e+00\tAbsError: 4.41099e+15\n", - " Region: \"zone_1\"\tRelError: 4.22002e-01\tAbsError: 6.98420e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.21892e-01\tAbsError: 3.18463e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.09347e-04\tAbsError: 3.79957e-02\n", - " Region: \"zone_3\"\tRelError: 1.52503e+00\tAbsError: 4.41099e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.53305e-01\tAbsError: 2.09959e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.26550e-01\tAbsError: 2.31140e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.45067e-01\tAbsError: 3.18463e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.09347e-04\tAbsError: 3.79957e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.44671e+02\tAbsError: 8.23352e+15\n", - " Region: \"zone_1\"\tRelError: 5.43003e+02\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.43003e+02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.11267e-10\tAbsError: 1.43080e-07\n", - " Region: \"zone_3\"\tRelError: 1.66763e+00\tAbsError: 8.23352e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.84587e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69628e-01\tAbsError: 3.38765e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28340e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.11422e-10\tAbsError: 1.43134e-07\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.13342e+00\tAbsError: 3.16052e+15\n", - " Region: \"zone_1\"\tRelError: 1.20914e-01\tAbsError: 3.06036e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20901e-01\tAbsError: 2.58438e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36978e-05\tAbsError: 4.75979e-03\n", - " Region: \"zone_3\"\tRelError: 1.01250e+00\tAbsError: 3.16052e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.67125e-01\tAbsError: 1.44537e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.15620e-01\tAbsError: 1.71514e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29744e-01\tAbsError: 2.58330e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36978e-05\tAbsError: 4.75979e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 4.93663e+00\tAbsError: 6.37428e+14\n", - " Region: \"zone_1\"\tRelError: 3.46019e+00\tAbsError: 7.21476e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.46007e+00\tAbsError: 3.07635e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", - " Region: \"zone_3\"\tRelError: 1.47644e+00\tAbsError: 6.37428e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.40577e-01\tAbsError: 3.72575e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.27797e-01\tAbsError: 2.64853e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07947e-01\tAbsError: 3.07638e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19084e-04\tAbsError: 4.13841e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.87423e-01\tAbsError: 1.06489e+15\n", - " Region: \"zone_1\"\tRelError: 1.09495e-01\tAbsError: 3.11412e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09436e-01\tAbsError: 1.05215e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.93454e-05\tAbsError: 2.06197e-02\n", - " Region: \"zone_3\"\tRelError: 3.77927e-01\tAbsError: 1.06489e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07715e-01\tAbsError: 5.65159e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.28724e-01\tAbsError: 4.99726e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.14286e-02\tAbsError: 1.05216e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.93454e-05\tAbsError: 2.06197e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.95431e+00\tAbsError: 2.96317e+14\n", - " Region: \"zone_1\"\tRelError: 2.00902e+00\tAbsError: 3.34445e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.00900e+00\tAbsError: 2.58782e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", - " Region: \"zone_3\"\tRelError: 9.45295e-01\tAbsError: 2.96317e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42034e-01\tAbsError: 1.59420e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.10683e-01\tAbsError: 1.36896e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.25558e-02\tAbsError: 2.58843e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17717e-05\tAbsError: 7.56629e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.07124e-01\tAbsError: 1.79033e+14\n", - " Region: \"zone_1\"\tRelError: 6.54489e-03\tAbsError: 2.11446e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.48449e-03\tAbsError: 1.76026e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.03999e-05\tAbsError: 2.09686e-02\n", - " Region: \"zone_3\"\tRelError: 1.00579e-01\tAbsError: 1.79033e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.05426e-02\tAbsError: 1.01224e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.72982e-03\tAbsError: 7.78084e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.12463e-02\tAbsError: 1.83300e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.03999e-05\tAbsError: 2.09686e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.90232e-01\tAbsError: 1.27257e+14\n", - " Region: \"zone_1\"\tRelError: 2.88169e-01\tAbsError: 1.34324e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88157e-01\tAbsError: 9.16559e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22923e-05\tAbsError: 4.26682e-03\n", - " Region: \"zone_3\"\tRelError: 3.02062e-01\tAbsError: 1.27257e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98145e-01\tAbsError: 5.59682e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.53461e-02\tAbsError: 7.12890e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.85587e-02\tAbsError: 9.16563e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22942e-05\tAbsError: 4.26755e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.37034e-02\tAbsError: 1.05074e+13\n", - " Region: \"zone_1\"\tRelError: 2.67000e-03\tAbsError: 2.16848e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.66940e-03\tAbsError: 9.03313e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.97153e-07\tAbsError: 2.07815e-04\n", - " Region: \"zone_3\"\tRelError: 3.10334e-02\tAbsError: 1.05074e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.29413e-04\tAbsError: 4.14886e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.45066e-04\tAbsError: 6.35852e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.94584e-02\tAbsError: 9.20156e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.97452e-07\tAbsError: 2.07924e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.81369e-01\tAbsError: 1.65118e+13\n", - " Region: \"zone_1\"\tRelError: 1.13683e-01\tAbsError: 2.48930e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13676e-01\tAbsError: 7.97182e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", - " Region: \"zone_3\"\tRelError: 6.76863e-02\tAbsError: 1.65118e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.50220e-02\tAbsError: 9.05581e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.84537e-03\tAbsError: 7.45604e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 9.81196e-03\tAbsError: 8.36703e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.93973e-06\tAbsError: 2.40958e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.09660e-04\tAbsError: 2.08695e+11\n", - " Region: \"zone_1\"\tRelError: 2.47254e-05\tAbsError: 6.86063e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.27511e-05\tAbsError: 1.43700e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.97427e-06\tAbsError: 6.85919e-04\n", - " Region: \"zone_3\"\tRelError: 2.84935e-04\tAbsError: 2.08695e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.17199e-05\tAbsError: 1.45019e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.68171e-06\tAbsError: 6.36760e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.66559e-04\tAbsError: 1.45320e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.97428e-06\tAbsError: 6.85933e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 7.11615e-03\tAbsError: 1.08851e+12\n", - " Region: \"zone_1\"\tRelError: 5.30759e-03\tAbsError: 1.67972e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.30711e-03\tAbsError: 1.45981e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", - " Region: \"zone_3\"\tRelError: 1.80856e-03\tAbsError: 1.08851e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43945e-04\tAbsError: 2.92186e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.94756e-05\tAbsError: 7.96320e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.56466e-03\tAbsError: 1.47422e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.79115e-07\tAbsError: 1.66512e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.68055e-03\tAbsError: 6.61369e+11\n", - " Region: \"zone_1\"\tRelError: 2.19776e-04\tAbsError: 3.52770e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.19675e-04\tAbsError: 3.47259e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00615e-07\tAbsError: 3.49297e-05\n", - " Region: \"zone_3\"\tRelError: 2.46078e-03\tAbsError: 6.61369e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.38712e-05\tAbsError: 3.34135e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.37692e-05\tAbsError: 3.27234e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.39304e-03\tAbsError: 3.62329e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00635e-07\tAbsError: 3.49373e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.59900e-03\tAbsError: 1.40711e+11\n", - " Region: \"zone_1\"\tRelError: 2.06948e-03\tAbsError: 6.41578e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06929e-03\tAbsError: 9.09489e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84503e-07\tAbsError: 6.40668e-05\n", - " Region: \"zone_3\"\tRelError: 5.29527e-04\tAbsError: 1.40711e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.39801e-06\tAbsError: 9.47438e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.30618e-06\tAbsError: 4.59674e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.12638e-04\tAbsError: 9.48359e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84568e-07\tAbsError: 6.40878e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.17224e-04\tAbsError: 3.34541e+10\n", - " Region: \"zone_1\"\tRelError: 1.80302e-05\tAbsError: 4.24293e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.79082e-05\tAbsError: 2.16023e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22054e-07\tAbsError: 4.24077e-05\n", - " Region: \"zone_3\"\tRelError: 1.99194e-04\tAbsError: 3.34541e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95013e-06\tAbsError: 1.55599e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.97435e-06\tAbsError: 1.78942e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.95147e-04\tAbsError: 2.25328e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22102e-07\tAbsError: 4.24242e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 6.84757e-04\tAbsError: 5.79872e+10\n", - " Region: \"zone_1\"\tRelError: 5.39232e-04\tAbsError: 6.69464e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.39213e-04\tAbsError: 4.49143e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91058e-08\tAbsError: 6.64972e-06\n", - " Region: \"zone_3\"\tRelError: 1.45525e-04\tAbsError: 5.79872e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.71562e-06\tAbsError: 2.34463e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.68397e-06\tAbsError: 3.45410e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.38106e-04\tAbsError: 4.56915e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91137e-08\tAbsError: 6.65261e-06\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.92407e-04\tAbsError: 4.16681e+10\n", - " Region: \"zone_1\"\tRelError: 1.58767e-05\tAbsError: 4.74333e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.58631e-05\tAbsError: 1.99539e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.35944e-08\tAbsError: 4.72338e-06\n", - " Region: \"zone_3\"\tRelError: 1.76530e-04\tAbsError: 4.16681e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.06328e-06\tAbsError: 2.34690e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.05628e-06\tAbsError: 1.81991e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72397e-04\tAbsError: 2.11694e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.35985e-08\tAbsError: 4.72481e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.02364e-04\tAbsError: 5.62248e+09\n", - " Region: \"zone_1\"\tRelError: 8.15379e-05\tAbsError: 3.03368e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.15291e-05\tAbsError: 3.57289e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.71937e-09\tAbsError: 3.03011e-06\n", - " Region: \"zone_3\"\tRelError: 2.08260e-05\tAbsError: 5.62248e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.14319e-07\tAbsError: 4.05602e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.09034e-07\tAbsError: 1.56647e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.01939e-05\tAbsError: 3.71851e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.71944e-09\tAbsError: 3.03019e-06\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.66442e-05\tAbsError: 4.51828e+09\n", - " Region: \"zone_1\"\tRelError: 2.21134e-06\tAbsError: 2.88818e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20303e-06\tAbsError: 2.43029e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.30553e-09\tAbsError: 2.88575e-06\n", - " Region: \"zone_3\"\tRelError: 2.44328e-05\tAbsError: 4.51828e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.39512e-07\tAbsError: 2.57717e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.40681e-07\tAbsError: 1.94111e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.39443e-05\tAbsError: 2.56001e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.30706e-09\tAbsError: 2.88629e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:47\u001b[0m.\u001b[1;36m839\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:47\u001b[0m.\u001b[1;36m839\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7272727272727272\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.62671e-05\tAbsError: 3.10481e+09\n", - " Region: \"zone_1\"\tRelError: 3.66806e-05\tAbsError: 2.21724e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 3.66799e-05\tAbsError: 2.06476e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.31104e-10\tAbsError: 2.19659e-07\n", - " Region: \"zone_3\"\tRelError: 9.58659e-06\tAbsError: 3.10481e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88628e-07\tAbsError: 1.51763e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.86687e-07\tAbsError: 1.58718e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 9.21065e-06\tAbsError: 2.10348e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.31398e-10\tAbsError: 2.19764e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:31:48\u001b[0m.\u001b[1;36m517\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.6\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.28678e+01\tAbsError: 2.41720e+16\n", - " Region: \"zone_1\"\tRelError: 1.10745e+01\tAbsError: 4.18733e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10745e+01\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.35235e-09\tAbsError: 4.69873e-07\n", - " Region: \"zone_3\"\tRelError: 1.79337e+00\tAbsError: 2.41720e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.76842e-01\tAbsError: 1.21471e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.76445e-01\tAbsError: 1.20250e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.40077e-01\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.35254e-09\tAbsError: 4.69938e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.94073e+01\tAbsError: 8.32958e+15\n", - " Region: \"zone_1\"\tRelError: 1.77016e+01\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77016e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.06764e-10\tAbsError: 1.76108e-07\n", - " Region: \"zone_3\"\tRelError: 1.70569e+00\tAbsError: 8.32958e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69637e-01\tAbsError: 4.59097e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69532e-01\tAbsError: 3.73860e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66519e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.06930e-10\tAbsError: 1.76171e-07\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.81152e+00\tAbsError: 2.51170e+16\n", - " Region: \"zone_1\"\tRelError: 2.40084e-01\tAbsError: 1.36620e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.39783e-01\tAbsError: 3.18461e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.01653e-04\tAbsError: 1.04774e-01\n", - " Region: \"zone_3\"\tRelError: 1.57143e+00\tAbsError: 2.51170e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.50352e-01\tAbsError: 1.24519e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.16673e-01\tAbsError: 1.26651e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.04104e-01\tAbsError: 3.18461e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.01653e-04\tAbsError: 1.04774e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.07616e+01\tAbsError: 3.02291e+15\n", - " Region: \"zone_1\"\tRelError: 9.27113e+00\tAbsError: 6.52674e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.27103e+00\tAbsError: 3.07634e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.92954e-05\tAbsError: 3.45040e-02\n", - " Region: \"zone_3\"\tRelError: 1.49044e+00\tAbsError: 3.02291e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.40308e-01\tAbsError: 1.49698e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.14159e-01\tAbsError: 1.52592e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35875e-01\tAbsError: 3.07635e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.92954e-05\tAbsError: 3.45040e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.55235e+00\tAbsError: 1.60967e+16\n", - " Region: \"zone_1\"\tRelError: 3.10275e-01\tAbsError: 9.21671e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.10084e-01\tAbsError: 2.58591e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.90943e-04\tAbsError: 6.63081e-02\n", - " Region: \"zone_3\"\tRelError: 1.24207e+00\tAbsError: 1.60967e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.62478e-01\tAbsError: 7.99951e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.11305e-01\tAbsError: 8.09715e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 3.68101e-01\tAbsError: 2.52301e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.90943e-04\tAbsError: 6.63081e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.22732e+00\tAbsError: 2.06865e+15\n", - " Region: \"zone_1\"\tRelError: 2.78568e-01\tAbsError: 2.74627e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78563e-01\tAbsError: 2.58185e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73142e-06\tAbsError: 1.64416e-03\n", - " Region: \"zone_3\"\tRelError: 9.48751e-01\tAbsError: 2.06865e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.44918e-01\tAbsError: 9.02348e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.89155e-01\tAbsError: 1.16630e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14673e-01\tAbsError: 2.51147e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73142e-06\tAbsError: 1.64416e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 9.12966e-01\tAbsError: 4.93027e+15\n", - " Region: \"zone_1\"\tRelError: 3.16482e-01\tAbsError: 3.26469e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.16418e-01\tAbsError: 1.05209e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.37165e-05\tAbsError: 2.21260e-02\n", - " Region: \"zone_3\"\tRelError: 5.96484e-01\tAbsError: 4.93027e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.96829e-01\tAbsError: 2.70578e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.18110e-01\tAbsError: 2.22449e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.81481e-01\tAbsError: 1.05209e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.37165e-05\tAbsError: 2.21260e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 7.18897e+00\tAbsError: 6.29402e+14\n", - " Region: \"zone_1\"\tRelError: 6.86170e+00\tAbsError: 2.22868e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.86166e+00\tAbsError: 9.16572e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.77613e-05\tAbsError: 1.31211e-02\n", - " Region: \"zone_3\"\tRelError: 3.27267e-01\tAbsError: 6.29402e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84319e-01\tAbsError: 3.28649e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.08857e-01\tAbsError: 3.00753e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.40527e-02\tAbsError: 9.16579e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.77613e-05\tAbsError: 1.31211e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.73417e-01\tAbsError: 1.11041e+15\n", - " Region: \"zone_1\"\tRelError: 1.30194e-02\tAbsError: 1.66649e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.25399e-02\tAbsError: 2.99019e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.79500e-04\tAbsError: 1.66350e-01\n", - " Region: \"zone_3\"\tRelError: 1.60398e-01\tAbsError: 1.11041e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.88743e-02\tAbsError: 4.52060e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.61195e-02\tAbsError: 6.58351e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.49232e-02\tAbsError: 3.25903e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.80894e-04\tAbsError: 1.66829e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.42105e-01\tAbsError: 9.57843e+13\n", - " Region: \"zone_1\"\tRelError: 5.64317e-01\tAbsError: 1.44974e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.64276e-01\tAbsError: 1.24104e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14024e-05\tAbsError: 1.43733e-02\n", - " Region: \"zone_3\"\tRelError: 7.77880e-02\tAbsError: 9.57843e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.25473e-02\tAbsError: 4.71405e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.65020e-03\tAbsError: 4.86438e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.95491e-02\tAbsError: 1.28397e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14024e-05\tAbsError: 1.43733e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 7.67871e-01\tAbsError: 1.71023e+14\n", - " Region: \"zone_1\"\tRelError: 1.13573e-01\tAbsError: 1.02796e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13544e-01\tAbsError: 5.49352e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.94716e-05\tAbsError: 1.02247e-02\n", - " Region: \"zone_3\"\tRelError: 6.54297e-01\tAbsError: 1.71023e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.30590e-03\tAbsError: 8.58374e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.13746e-03\tAbsError: 8.51855e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.45825e-01\tAbsError: 5.53316e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.94949e-05\tAbsError: 1.02325e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.36557e-01\tAbsError: 7.18470e+12\n", - " Region: \"zone_1\"\tRelError: 1.16158e-01\tAbsError: 1.78279e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16157e-01\tAbsError: 6.59165e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.94530e-07\tAbsError: 1.71687e-04\n", - " Region: \"zone_3\"\tRelError: 2.03993e-02\tAbsError: 7.18470e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.98223e-04\tAbsError: 2.78831e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.37326e-04\tAbsError: 4.39639e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.92632e-02\tAbsError: 6.83641e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.94530e-07\tAbsError: 1.71687e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 8.66150e-02\tAbsError: 1.31466e+13\n", - " Region: \"zone_1\"\tRelError: 1.39621e-02\tAbsError: 5.12705e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39474e-02\tAbsError: 4.18122e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47663e-05\tAbsError: 5.12287e-03\n", - " Region: \"zone_3\"\tRelError: 7.26529e-02\tAbsError: 1.31466e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.21405e-04\tAbsError: 6.60915e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.25654e-04\tAbsError: 6.53741e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.19911e-02\tAbsError: 4.31922e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47687e-05\tAbsError: 5.12379e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.13498e-03\tAbsError: 1.41105e+11\n", - " Region: \"zone_1\"\tRelError: 2.73398e-03\tAbsError: 4.76357e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.73260e-03\tAbsError: 1.35633e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37060e-06\tAbsError: 4.76221e-04\n", - " Region: \"zone_3\"\tRelError: 4.01007e-04\tAbsError: 1.41105e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.96062e-06\tAbsError: 6.85210e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.81427e-06\tAbsError: 7.25836e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.87862e-04\tAbsError: 1.38229e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37060e-06\tAbsError: 4.76221e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 6.10896e-02\tAbsError: 8.02079e+12\n", - " Region: \"zone_1\"\tRelError: 9.41575e-03\tAbsError: 6.68589e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.41383e-03\tAbsError: 2.13817e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91987e-06\tAbsError: 6.66451e-04\n", - " Region: \"zone_3\"\tRelError: 5.16738e-02\tAbsError: 8.02079e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.96956e-04\tAbsError: 4.03346e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.95510e-04\tAbsError: 3.98733e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.12794e-02\tAbsError: 2.27733e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.92042e-06\tAbsError: 6.66662e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.31814e-02\tAbsError: 4.58362e+11\n", - " Region: \"zone_1\"\tRelError: 1.15315e-02\tAbsError: 2.80900e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15314e-02\tAbsError: 2.57528e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.01667e-08\tAbsError: 2.78324e-05\n", - " Region: \"zone_3\"\tRelError: 1.64997e-03\tAbsError: 4.58362e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47024e-05\tAbsError: 2.30121e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.45967e-05\tAbsError: 2.28241e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.60059e-03\tAbsError: 2.62890e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.01667e-08\tAbsError: 2.78324e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 9.90143e-03\tAbsError: 1.08924e+12\n", - " Region: \"zone_1\"\tRelError: 1.54299e-03\tAbsError: 3.21984e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.54206e-03\tAbsError: 2.77661e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.26693e-07\tAbsError: 3.21707e-04\n", - " Region: \"zone_3\"\tRelError: 8.35844e-03\tAbsError: 1.08924e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.68262e-05\tAbsError: 5.46733e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.66605e-05\tAbsError: 5.42503e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 8.30402e-03\tAbsError: 2.99268e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.26885e-07\tAbsError: 3.21773e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.25913e-03\tAbsError: 2.71128e+10\n", - " Region: \"zone_1\"\tRelError: 1.10973e-03\tAbsError: 2.99279e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10965e-03\tAbsError: 1.77983e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.60783e-08\tAbsError: 2.99101e-05\n", - " Region: \"zone_3\"\tRelError: 1.49391e-04\tAbsError: 2.71128e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.61984e-06\tAbsError: 1.29863e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.63350e-06\tAbsError: 1.41265e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.46052e-04\tAbsError: 1.82225e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.61134e-08\tAbsError: 2.99224e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.42186e-03\tAbsError: 4.98160e+11\n", - " Region: \"zone_1\"\tRelError: 6.86933e-04\tAbsError: 5.78872e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.86767e-04\tAbsError: 1.23785e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.66172e-07\tAbsError: 5.77634e-05\n", - " Region: \"zone_3\"\tRelError: 3.73493e-03\tAbsError: 4.98160e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.22855e-05\tAbsError: 2.50372e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.21426e-05\tAbsError: 2.47788e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.71034e-03\tAbsError: 1.33015e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.66188e-07\tAbsError: 5.77856e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 9.89584e-04\tAbsError: 2.93050e+10\n", - " Region: \"zone_1\"\tRelError: 8.69289e-04\tAbsError: 3.58476e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.69279e-04\tAbsError: 1.49163e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.02736e-08\tAbsError: 3.56984e-06\n", - " Region: \"zone_3\"\tRelError: 1.20295e-04\tAbsError: 2.93050e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52554e-06\tAbsError: 1.64489e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.51838e-06\tAbsError: 1.28561e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17241e-04\tAbsError: 1.55101e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.02768e-08\tAbsError: 3.57094e-06\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 8.77845e-04\tAbsError: 9.00104e+10\n", - " Region: \"zone_1\"\tRelError: 1.36631e-04\tAbsError: 2.25392e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.36566e-04\tAbsError: 2.33969e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.47310e-08\tAbsError: 2.25158e-05\n", - " Region: \"zone_3\"\tRelError: 7.41215e-04\tAbsError: 9.00104e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.22024e-06\tAbsError: 4.51658e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.19948e-06\tAbsError: 4.48447e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.36730e-04\tAbsError: 2.51096e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.47572e-08\tAbsError: 2.25252e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.48739e-04\tAbsError: 3.41314e+09\n", - " Region: \"zone_1\"\tRelError: 1.31134e-04\tAbsError: 2.06494e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31128e-04\tAbsError: 1.91971e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.93716e-09\tAbsError: 2.06302e-06\n", - " Region: \"zone_3\"\tRelError: 1.76048e-05\tAbsError: 3.41314e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88514e-07\tAbsError: 1.94837e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.89063e-07\tAbsError: 1.46477e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72213e-05\tAbsError: 1.99642e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.93836e-09\tAbsError: 2.06344e-06\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 3.17998e-04\tAbsError: 3.34676e+10\n", - " Region: \"zone_1\"\tRelError: 4.94909e-05\tAbsError: 4.79910e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.94771e-05\tAbsError: 8.85122e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37715e-08\tAbsError: 4.79025e-06\n", - " Region: \"zone_3\"\tRelError: 2.68507e-04\tAbsError: 3.34676e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.26317e-07\tAbsError: 1.68128e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.15644e-07\tAbsError: 1.66549e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.66852e-04\tAbsError: 9.45123e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37769e-08\tAbsError: 4.79218e-06\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 7.33109e-05\tAbsError: 1.99171e+09\n", - " Region: \"zone_1\"\tRelError: 6.45108e-05\tAbsError: 3.50573e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 6.45098e-05\tAbsError: 1.06453e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00585e-09\tAbsError: 3.49509e-07\n", - " Region: \"zone_3\"\tRelError: 8.80008e-06\tAbsError: 1.99171e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03719e-07\tAbsError: 1.17952e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03272e-07\tAbsError: 8.12184e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 8.59208e-06\tAbsError: 1.10473e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00600e-09\tAbsError: 3.49562e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:00\u001b[0m.\u001b[1;36m749\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.7\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 7.13061e-05\tAbsError: 7.12270e+09\n", - " Region: \"zone_1\"\tRelError: 1.11041e-05\tAbsError: 1.61505e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10995e-05\tAbsError: 1.92666e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.63760e-09\tAbsError: 1.61313e-06\n", - " Region: \"zone_3\"\tRelError: 6.02020e-05\tAbsError: 7.12270e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.75816e-07\tAbsError: 3.57407e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.73885e-07\tAbsError: 3.54864e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 5.98477e-05\tAbsError: 2.05662e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.63937e-09\tAbsError: 1.61378e-06\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:00\u001b[0m.\u001b[1;36m890\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:00\u001b[0m.\u001b[1;36m890\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.8318181818181818\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.94222e+01\tAbsError: 1.62190e+16\n", - " Region: \"zone_1\"\tRelError: 2.76662e+01\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.76662e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.29578e-10\tAbsError: 1.49268e-07\n", - " Region: \"zone_3\"\tRelError: 1.75598e+00\tAbsError: 1.62190e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69267e-01\tAbsError: 8.18784e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.68971e-01\tAbsError: 8.03117e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.17740e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.29628e-10\tAbsError: 1.49286e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 4.48214e+01\tAbsError: 1.27161e+17\n", - " Region: \"zone_1\"\tRelError: 4.16643e+01\tAbsError: 4.18732e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.16643e+01\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08576e-09\tAbsError: 3.77666e-07\n", - " Region: \"zone_3\"\tRelError: 3.15707e+00\tAbsError: 1.27161e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.72955e-01\tAbsError: 6.38462e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.70759e-01\tAbsError: 6.33149e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.61336e+00\tAbsError: 4.18729e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08617e-09\tAbsError: 3.77819e-07\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.57455e+00\tAbsError: 1.59389e+16\n", - " Region: \"zone_1\"\tRelError: 1.04759e+00\tAbsError: 1.06162e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04737e+00\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17045e-04\tAbsError: 7.53990e-02\n", - " Region: \"zone_3\"\tRelError: 1.52696e+00\tAbsError: 1.59389e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37511e-01\tAbsError: 7.87332e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.04735e-01\tAbsError: 8.06553e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.84502e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17045e-04\tAbsError: 7.53990e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.41302e+00\tAbsError: 1.17930e+17\n", - " Region: \"zone_1\"\tRelError: 3.44060e-01\tAbsError: 3.41507e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.43167e-01\tAbsError: 3.18461e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.92830e-04\tAbsError: 3.09661e-01\n", - " Region: \"zone_3\"\tRelError: 3.06896e+00\tAbsError: 1.17930e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.33886e-01\tAbsError: 5.94093e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.85749e-01\tAbsError: 5.85208e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74843e+00\tAbsError: 3.18461e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.93043e-04\tAbsError: 3.09742e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.14822e+00\tAbsError: 9.83178e+15\n", - " Region: \"zone_1\"\tRelError: 1.39457e-01\tAbsError: 7.32841e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39320e-01\tAbsError: 2.58400e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36592e-04\tAbsError: 4.74441e-02\n", - " Region: \"zone_3\"\tRelError: 1.00877e+00\tAbsError: 9.83178e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43427e-01\tAbsError: 4.83336e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.90483e-01\tAbsError: 4.99841e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74720e-01\tAbsError: 2.58193e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36592e-04\tAbsError: 4.74441e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 5.86698e+00\tAbsError: 7.50678e+16\n", - " Region: \"zone_1\"\tRelError: 3.54477e+00\tAbsError: 5.54414e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.54468e+00\tAbsError: 2.58460e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.53345e-05\tAbsError: 2.95954e-02\n", - " Region: \"zone_3\"\tRelError: 2.32221e+00\tAbsError: 7.50678e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.14936e-01\tAbsError: 3.85162e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.28711e-01\tAbsError: 3.65517e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.57848e+00\tAbsError: 2.37733e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.53345e-05\tAbsError: 2.95954e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 9.17087e-01\tAbsError: 2.70112e+15\n", - " Region: \"zone_1\"\tRelError: 4.13278e-01\tAbsError: 1.18036e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.12964e-01\tAbsError: 9.16529e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.13541e-04\tAbsError: 1.08871e-01\n", - " Region: \"zone_3\"\tRelError: 5.03809e-01\tAbsError: 2.70112e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.83333e-01\tAbsError: 1.43386e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03452e-01\tAbsError: 1.26726e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.16711e-01\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.13541e-04\tAbsError: 1.08871e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.49512e+00\tAbsError: 2.22343e+16\n", - " Region: \"zone_1\"\tRelError: 7.22230e-01\tAbsError: 5.29663e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.22108e-01\tAbsError: 1.05208e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22416e-04\tAbsError: 4.24455e-02\n", - " Region: \"zone_3\"\tRelError: 7.72890e-01\tAbsError: 2.22343e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.48169e-01\tAbsError: 1.15801e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.09555e-02\tAbsError: 1.06542e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 5.53643e-01\tAbsError: 1.05209e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22416e-04\tAbsError: 4.24455e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 4.27279e-01\tAbsError: 8.17053e+14\n", - " Region: \"zone_1\"\tRelError: 1.09940e-01\tAbsError: 2.21034e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09304e-01\tAbsError: 3.29075e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.36020e-04\tAbsError: 2.20705e-01\n", - " Region: \"zone_3\"\tRelError: 3.17339e-01\tAbsError: 8.17053e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.72653e-02\tAbsError: 1.99598e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.68899e-02\tAbsError: 6.17455e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.42547e-01\tAbsError: 3.29140e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.36020e-04\tAbsError: 2.20705e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.24776e-01\tAbsError: 3.73586e+15\n", - " Region: \"zone_1\"\tRelError: 7.45352e-02\tAbsError: 3.03331e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 7.36605e-02\tAbsError: 2.36141e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.74683e-04\tAbsError: 3.03094e-01\n", - " Region: \"zone_3\"\tRelError: 5.02411e-02\tAbsError: 3.73586e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.75032e-02\tAbsError: 1.96426e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.84727e-03\tAbsError: 1.77160e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40144e-02\tAbsError: 2.68517e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.76136e-04\tAbsError: 3.03589e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 7.01035e-01\tAbsError: 1.64733e+14\n", - " Region: \"zone_1\"\tRelError: 2.03094e-01\tAbsError: 1.60100e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03048e-01\tAbsError: 7.96658e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.59052e-05\tAbsError: 1.59303e-02\n", - " Region: \"zone_3\"\tRelError: 4.97941e-01\tAbsError: 1.64733e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17881e-03\tAbsError: 7.88164e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.07895e-03\tAbsError: 8.59168e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.85637e-01\tAbsError: 8.00849e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.59052e-05\tAbsError: 1.59303e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.51962e-01\tAbsError: 9.20112e+14\n", - " Region: \"zone_1\"\tRelError: 9.61216e-02\tAbsError: 1.85870e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.60682e-02\tAbsError: 5.78211e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.34689e-05\tAbsError: 1.85292e-02\n", - " Region: \"zone_3\"\tRelError: 5.55840e-01\tAbsError: 9.20112e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.53243e-03\tAbsError: 4.43917e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.69520e-03\tAbsError: 4.76195e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.48559e-01\tAbsError: 5.87235e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.34733e-05\tAbsError: 1.85300e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.04323e-01\tAbsError: 1.53102e+13\n", - " Region: \"zone_1\"\tRelError: 3.15774e-02\tAbsError: 7.15567e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.15568e-02\tAbsError: 7.10876e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.05999e-05\tAbsError: 7.14856e-03\n", - " Region: \"zone_3\"\tRelError: 7.27454e-02\tAbsError: 1.53102e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.94207e-04\tAbsError: 7.65839e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.98721e-04\tAbsError: 7.65181e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.15319e-02\tAbsError: 7.17354e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.06009e-05\tAbsError: 7.14900e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.71590e-02\tAbsError: 7.66261e+13\n", - " Region: \"zone_1\"\tRelError: 1.20009e-02\tAbsError: 8.30452e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19770e-02\tAbsError: 5.27249e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.39494e-05\tAbsError: 8.29925e-03\n", - " Region: \"zone_3\"\tRelError: 6.51581e-02\tAbsError: 7.66261e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.06580e-04\tAbsError: 3.73072e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.04337e-04\tAbsError: 3.93189e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.45233e-02\tAbsError: 5.30950e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.39514e-05\tAbsError: 8.29962e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.82885e-02\tAbsError: 7.75343e+12\n", - " Region: \"zone_1\"\tRelError: 1.74263e-02\tAbsError: 1.11082e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74231e-02\tAbsError: 3.27682e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.18949e-06\tAbsError: 1.10754e-03\n", - " Region: \"zone_3\"\tRelError: 4.08622e-02\tAbsError: 7.75343e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.01160e-04\tAbsError: 3.88269e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.99390e-04\tAbsError: 3.87074e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.02585e-02\tAbsError: 3.34987e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.19059e-06\tAbsError: 1.10796e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.06377e-02\tAbsError: 4.36188e+13\n", - " Region: \"zone_1\"\tRelError: 7.66673e-03\tAbsError: 1.05621e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.66369e-03\tAbsError: 2.82677e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.03907e-06\tAbsError: 1.05338e-03\n", - " Region: \"zone_3\"\tRelError: 4.29710e-02\tAbsError: 4.36188e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.90527e-04\tAbsError: 2.12589e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.78772e-04\tAbsError: 2.23599e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.25987e-02\tAbsError: 2.84898e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.04014e-06\tAbsError: 1.05370e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.09210e-02\tAbsError: 1.22286e+12\n", - " Region: \"zone_1\"\tRelError: 3.28469e-03\tAbsError: 4.72819e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.28333e-03\tAbsError: 4.87030e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36013e-06\tAbsError: 4.72332e-04\n", - " Region: \"zone_3\"\tRelError: 7.63634e-03\tAbsError: 1.22286e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.75678e-05\tAbsError: 6.11672e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.73305e-05\tAbsError: 6.11193e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 7.54008e-03\tAbsError: 5.02425e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.36049e-06\tAbsError: 4.72455e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 8.26317e-03\tAbsError: 5.97645e+12\n", - " Region: \"zone_1\"\tRelError: 1.26006e-03\tAbsError: 4.95200e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.25864e-03\tAbsError: 3.70328e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42381e-06\tAbsError: 4.94829e-04\n", - " Region: \"zone_3\"\tRelError: 7.00311e-03\tAbsError: 5.97645e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.57319e-05\tAbsError: 2.91052e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.41552e-05\tAbsError: 3.06593e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 6.95180e-03\tAbsError: 3.73182e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42436e-06\tAbsError: 4.95028e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.38843e-03\tAbsError: 5.18838e+11\n", - " Region: \"zone_1\"\tRelError: 1.31867e-03\tAbsError: 9.39018e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31840e-03\tAbsError: 1.99779e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69826e-07\tAbsError: 9.37020e-05\n", - " Region: \"zone_3\"\tRelError: 3.06976e-03\tAbsError: 5.18838e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95362e-05\tAbsError: 2.68345e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.93671e-05\tAbsError: 2.50493e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.03058e-03\tAbsError: 2.07424e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69859e-07\tAbsError: 9.37138e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 3.54716e-03\tAbsError: 2.62008e+12\n", - " Region: \"zone_1\"\tRelError: 5.39788e-04\tAbsError: 8.92263e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.39531e-04\tAbsError: 1.50390e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.56301e-07\tAbsError: 8.90759e-05\n", - " Region: \"zone_3\"\tRelError: 3.00737e-03\tAbsError: 2.62008e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.14929e-05\tAbsError: 1.27607e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.07559e-05\tAbsError: 1.34402e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.98487e-03\tAbsError: 1.51609e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.56399e-07\tAbsError: 8.91117e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 9.50080e-04\tAbsError: 1.03863e+11\n", - " Region: \"zone_1\"\tRelError: 2.85910e-04\tAbsError: 3.37412e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.85814e-04\tAbsError: 4.14946e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.68675e-08\tAbsError: 3.36997e-05\n", - " Region: \"zone_3\"\tRelError: 6.64170e-04\tAbsError: 1.03863e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.88184e-06\tAbsError: 5.40187e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.85553e-06\tAbsError: 4.98443e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 6.56335e-04\tAbsError: 4.30256e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.69043e-08\tAbsError: 3.37128e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 6.95864e-04\tAbsError: 4.65649e+11\n", - " Region: \"zone_1\"\tRelError: 1.06054e-04\tAbsError: 3.37560e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.05957e-04\tAbsError: 2.82366e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.70459e-08\tAbsError: 3.37277e-05\n", - " Region: \"zone_3\"\tRelError: 5.89810e-04\tAbsError: 4.65649e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.01758e-06\tAbsError: 2.26719e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.89641e-06\tAbsError: 2.38931e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.85799e-04\tAbsError: 2.84329e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.70857e-08\tAbsError: 3.37425e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 3.25927e-04\tAbsError: 3.72019e+10\n", - " Region: \"zone_1\"\tRelError: 9.80813e-05\tAbsError: 7.68282e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 9.80593e-05\tAbsError: 1.46928e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.20415e-08\tAbsError: 7.66812e-06\n", - " Region: \"zone_3\"\tRelError: 2.27846e-04\tAbsError: 3.72019e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.36089e-06\tAbsError: 1.97599e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.34801e-06\tAbsError: 1.74420e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.25115e-04\tAbsError: 1.52180e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.20501e-08\tAbsError: 7.67121e-06\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 2.45400e-04\tAbsError: 1.68299e+11\n", - " Region: \"zone_1\"\tRelError: 3.73915e-05\tAbsError: 7.04108e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.73713e-05\tAbsError: 1.02290e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.02296e-08\tAbsError: 7.03085e-06\n", - " Region: \"zone_3\"\tRelError: 2.08008e-04\tAbsError: 1.68299e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.36950e-07\tAbsError: 8.19502e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.90014e-07\tAbsError: 8.63483e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06561e-04\tAbsError: 1.03006e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.02382e-08\tAbsError: 7.03392e-06\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 7.72661e-05\tAbsError: 8.43440e+09\n", - " Region: \"zone_1\"\tRelError: 2.32650e-05\tAbsError: 2.49052e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.32578e-05\tAbsError: 3.39814e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.14902e-09\tAbsError: 2.48712e-06\n", - " Region: \"zone_3\"\tRelError: 5.40011e-05\tAbsError: 8.43440e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.08161e-07\tAbsError: 4.47973e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.05735e-07\tAbsError: 3.95466e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 5.33800e-05\tAbsError: 3.51782e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.15190e-09\tAbsError: 2.48816e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:13\u001b[0m.\u001b[1;36m705\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.7999999999999999\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 5.39068e-05\tAbsError: 3.49491e+10\n", - " Region: \"zone_1\"\tRelError: 8.21869e-06\tAbsError: 2.31681e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.21203e-06\tAbsError: 2.20536e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.65971e-09\tAbsError: 2.31460e-06\n", - " Region: \"zone_3\"\tRelError: 4.56881e-05\tAbsError: 3.49491e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.51818e-07\tAbsError: 1.70152e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.42691e-07\tAbsError: 1.79339e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.53869e-05\tAbsError: 2.22047e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.66248e-09\tAbsError: 2.31560e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:14\u001b[0m.\u001b[1;36m265\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:14\u001b[0m.\u001b[1;36m265\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.9363636363636363\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.91796e+01\tAbsError: 8.00136e+16\n", - " Region: \"zone_1\"\tRelError: 1.61687e+01\tAbsError: 4.09548e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.61687e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75011e-09\tAbsError: 6.08861e-07\n", - " Region: \"zone_3\"\tRelError: 3.01093e+00\tAbsError: 8.00136e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.66958e-01\tAbsError: 4.00295e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.65547e-01\tAbsError: 3.99841e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.47843e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75082e-09\tAbsError: 6.09112e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 9.53347e+01\tAbsError: 5.85371e+17\n", - " Region: \"zone_1\"\tRelError: 8.27765e+01\tAbsError: 4.18732e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.27765e+01\tAbsError: 4.18727e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52118e-09\tAbsError: 5.28690e-07\n", - " Region: \"zone_3\"\tRelError: 1.25582e+01\tAbsError: 5.85371e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.44563e-01\tAbsError: 2.83553e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.31848e-01\tAbsError: 3.01819e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10818e+01\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52181e-09\tAbsError: 5.28919e-07\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.23024e+00\tAbsError: 7.24788e+16\n", - " Region: \"zone_1\"\tRelError: 2.89301e-01\tAbsError: 2.81842e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88577e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.23562e-04\tAbsError: 2.51079e-01\n", - " Region: \"zone_3\"\tRelError: 2.94094e+00\tAbsError: 7.24788e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.29061e-01\tAbsError: 3.72143e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.83761e-01\tAbsError: 3.52645e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.62740e+00\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.23562e-04\tAbsError: 2.51079e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.35816e+01\tAbsError: 4.38149e+17\n", - " Region: \"zone_1\"\tRelError: 1.38930e+01\tAbsError: 4.99074e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.38916e+01\tAbsError: 3.18458e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.34648e-03\tAbsError: 4.67228e-01\n", - " Region: \"zone_3\"\tRelError: 9.68863e+00\tAbsError: 4.38149e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.42884e-01\tAbsError: 2.18851e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.28261e-01\tAbsError: 2.19298e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 8.61613e+00\tAbsError: 3.18461e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.34768e-03\tAbsError: 4.67627e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 5.71850e+00\tAbsError: 4.10464e+16\n", - " Region: \"zone_1\"\tRelError: 1.82923e-01\tAbsError: 1.08958e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82684e-01\tAbsError: 2.58969e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.39429e-04\tAbsError: 8.30609e-02\n", - " Region: \"zone_3\"\tRelError: 5.53558e+00\tAbsError: 4.10464e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16071e-01\tAbsError: 2.08924e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.47287e-01\tAbsError: 2.01540e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 4.77198e+00\tAbsError: 2.46271e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.39429e-04\tAbsError: 8.30609e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 5.53490e+00\tAbsError: 1.10286e+17\n", - " Region: \"zone_1\"\tRelError: 2.56956e+00\tAbsError: 1.81425e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.56912e+00\tAbsError: 2.58889e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.47417e-04\tAbsError: 1.55536e-01\n", - " Region: \"zone_3\"\tRelError: 2.96534e+00\tAbsError: 1.10286e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.48327e-01\tAbsError: 5.52116e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.47448e-01\tAbsError: 5.50739e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.56912e+00\tAbsError: 2.58782e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.47594e-04\tAbsError: 1.55593e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.06773e+00\tAbsError: 1.32751e+16\n", - " Region: \"zone_1\"\tRelError: 2.27618e-01\tAbsError: 5.11022e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.27498e-01\tAbsError: 9.16524e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20880e-04\tAbsError: 4.19369e-02\n", - " Region: \"zone_3\"\tRelError: 8.40108e-01\tAbsError: 1.32751e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.49254e-01\tAbsError: 7.44002e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.85993e-02\tAbsError: 5.83511e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 6.12131e-01\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.23429e-04\tAbsError: 4.28226e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.56612e+00\tAbsError: 1.23216e+16\n", - " Region: \"zone_1\"\tRelError: 7.26552e-01\tAbsError: 2.41455e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 7.25886e-01\tAbsError: 1.05204e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.65769e-04\tAbsError: 2.30934e-01\n", - " Region: \"zone_3\"\tRelError: 8.39571e-01\tAbsError: 1.23216e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.12201e-02\tAbsError: 6.18993e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.48009e-02\tAbsError: 6.13165e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.82884e-01\tAbsError: 1.05209e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.66165e-04\tAbsError: 2.31065e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.91937e-01\tAbsError: 2.33353e+15\n", - " Region: \"zone_1\"\tRelError: 2.61363e-02\tAbsError: 3.15290e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.52274e-02\tAbsError: 2.65917e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.08859e-04\tAbsError: 3.15024e-01\n", - " Region: \"zone_3\"\tRelError: 2.65801e-01\tAbsError: 2.33353e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.40034e-02\tAbsError: 1.23195e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.91867e-03\tAbsError: 1.10158e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20969e-01\tAbsError: 2.95967e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.10098e-04\tAbsError: 3.15450e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.04421e-02\tAbsError: 1.45216e+15\n", - " Region: \"zone_1\"\tRelError: 4.34524e-02\tAbsError: 1.16728e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.31168e-02\tAbsError: 1.74721e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.35663e-04\tAbsError: 1.16710e-01\n", - " Region: \"zone_3\"\tRelError: 4.69896e-02\tAbsError: 1.45216e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.93609e-03\tAbsError: 7.70658e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.01075e-04\tAbsError: 6.81500e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.31168e-02\tAbsError: 1.76380e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.35688e-04\tAbsError: 1.16715e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.68338e-01\tAbsError: 7.28836e+14\n", - " Region: \"zone_1\"\tRelError: 4.44613e-02\tAbsError: 2.04423e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.44025e-02\tAbsError: 6.98557e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.87704e-05\tAbsError: 2.03724e-02\n", - " Region: \"zone_3\"\tRelError: 4.23877e-01\tAbsError: 7.28836e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.89975e-03\tAbsError: 3.57624e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.06394e-03\tAbsError: 3.71212e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.13854e-01\tAbsError: 7.63149e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.87832e-05\tAbsError: 2.03761e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.57790e-02\tAbsError: 5.53776e+14\n", - " Region: \"zone_1\"\tRelError: 2.72664e-02\tAbsError: 1.65342e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.72617e-02\tAbsError: 3.40332e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.65495e-06\tAbsError: 1.61938e-03\n", - " Region: \"zone_3\"\tRelError: 2.85126e-02\tAbsError: 5.53776e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.03401e-04\tAbsError: 2.75139e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.42857e-04\tAbsError: 2.78638e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.72617e-02\tAbsError: 3.43282e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.65837e-06\tAbsError: 1.62055e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.64410e-02\tAbsError: 6.34524e+13\n", - " Region: \"zone_1\"\tRelError: 6.01943e-03\tAbsError: 8.87148e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.99386e-03\tAbsError: 6.06051e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.55757e-05\tAbsError: 8.86542e-03\n", - " Region: \"zone_3\"\tRelError: 6.04216e-02\tAbsError: 6.34524e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43427e-04\tAbsError: 3.11581e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.51084e-04\tAbsError: 3.22943e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95015e-02\tAbsError: 6.26485e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.55822e-05\tAbsError: 8.86737e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.64663e-03\tAbsError: 9.54828e+12\n", - " Region: \"zone_1\"\tRelError: 7.63718e-04\tAbsError: 4.21975e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.51589e-04\tAbsError: 8.32688e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.21290e-05\tAbsError: 4.21892e-03\n", - " Region: \"zone_3\"\tRelError: 8.82908e-04\tAbsError: 9.54828e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.90874e-05\tAbsError: 4.74690e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.00972e-05\tAbsError: 4.80137e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.51589e-04\tAbsError: 8.38480e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.21339e-05\tAbsError: 4.22059e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.75673e-02\tAbsError: 3.32993e+13\n", - " Region: \"zone_1\"\tRelError: 3.52548e-03\tAbsError: 1.20689e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.52200e-03\tAbsError: 3.09455e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.47154e-06\tAbsError: 1.20380e-03\n", - " Region: \"zone_3\"\tRelError: 3.40418e-02\tAbsError: 3.32993e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47698e-04\tAbsError: 1.63796e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.38649e-04\tAbsError: 1.69197e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.35520e-02\tAbsError: 3.11273e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.47235e-06\tAbsError: 1.20402e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.87542e-03\tAbsError: 2.78952e+13\n", - " Region: \"zone_1\"\tRelError: 2.90731e-03\tAbsError: 2.23946e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.90667e-03\tAbsError: 1.27907e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.40144e-07\tAbsError: 2.22667e-04\n", - " Region: \"zone_3\"\tRelError: 2.96811e-03\tAbsError: 2.78952e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.34898e-05\tAbsError: 1.38719e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.73182e-05\tAbsError: 1.40233e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.90667e-03\tAbsError: 1.29061e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.40413e-07\tAbsError: 2.22756e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.47008e-03\tAbsError: 4.77215e+12\n", - " Region: \"zone_1\"\tRelError: 6.05494e-04\tAbsError: 5.38691e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.03946e-04\tAbsError: 4.25617e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54844e-06\tAbsError: 5.38265e-04\n", - " Region: \"zone_3\"\tRelError: 5.86458e-03\tAbsError: 4.77215e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.53153e-05\tAbsError: 2.34800e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.40122e-05\tAbsError: 2.42415e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.79371e-03\tAbsError: 4.28072e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54906e-06\tAbsError: 5.38488e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 5.69726e-04\tAbsError: 1.77554e+12\n", - " Region: \"zone_1\"\tRelError: 2.81273e-04\tAbsError: 1.90569e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.80725e-04\tAbsError: 8.09815e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.47674e-07\tAbsError: 1.90489e-04\n", - " Region: \"zone_3\"\tRelError: 2.88453e-04\tAbsError: 1.77554e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.33842e-06\tAbsError: 8.83844e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.84134e-06\tAbsError: 8.91692e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.80725e-04\tAbsError: 8.16431e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.47870e-07\tAbsError: 1.90556e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.65398e-03\tAbsError: 2.00158e+12\n", - " Region: \"zone_1\"\tRelError: 2.48909e-04\tAbsError: 1.00808e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.48620e-04\tAbsError: 1.66964e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.89512e-07\tAbsError: 1.00641e-04\n", - " Region: \"zone_3\"\tRelError: 2.40507e-03\tAbsError: 2.00158e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50347e-05\tAbsError: 9.84888e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.44145e-05\tAbsError: 1.01669e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.37533e-03\tAbsError: 1.67974e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.89623e-07\tAbsError: 1.00681e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.41439e-04\tAbsError: 1.54296e+12\n", - " Region: \"zone_1\"\tRelError: 2.19052e-04\tAbsError: 1.95890e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.18996e-04\tAbsError: 5.68742e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.63328e-08\tAbsError: 1.95322e-05\n", - " Region: \"zone_3\"\tRelError: 2.22387e-04\tAbsError: 1.54296e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.79567e-06\tAbsError: 7.67812e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.53849e-06\tAbsError: 7.75148e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.18996e-04\tAbsError: 5.74023e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.63439e-08\tAbsError: 1.95355e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 5.36228e-04\tAbsError: 3.67963e+11\n", - " Region: \"zone_1\"\tRelError: 5.03370e-05\tAbsError: 3.69568e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.02308e-05\tAbsError: 3.27141e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06219e-07\tAbsError: 3.69241e-05\n", - " Region: \"zone_3\"\tRelError: 4.85891e-04\tAbsError: 3.67963e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.74381e-06\tAbsError: 1.81082e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.63918e-06\tAbsError: 1.86881e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.80402e-04\tAbsError: 3.29054e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06263e-07\tAbsError: 3.69404e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 6.28099e-05\tAbsError: 1.73172e+11\n", - " Region: \"zone_1\"\tRelError: 3.11765e-05\tAbsError: 1.11459e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.11445e-05\tAbsError: 6.09244e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.20807e-08\tAbsError: 1.11398e-05\n", - " Region: \"zone_3\"\tRelError: 3.16334e-05\tAbsError: 1.73172e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.16960e-07\tAbsError: 8.62244e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.39894e-07\tAbsError: 8.69476e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.11445e-05\tAbsError: 6.14462e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.20831e-08\tAbsError: 1.11440e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.84514e-04\tAbsError: 1.29331e+11\n", - " Region: \"zone_1\"\tRelError: 1.73204e-05\tAbsError: 7.90813e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.72976e-05\tAbsError: 1.15361e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.27155e-08\tAbsError: 7.89660e-06\n", - " Region: \"zone_3\"\tRelError: 1.67193e-04\tAbsError: 1.29331e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.72276e-07\tAbsError: 6.36462e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.31421e-07\tAbsError: 6.56851e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65267e-04\tAbsError: 1.16052e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.27252e-08\tAbsError: 7.90006e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:25\u001b[0m.\u001b[1;36m882\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:25\u001b[0m.\u001b[1;36m882\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m1.0409090909090908\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 4.13464e-05\tAbsError: 2.75069e+10\n", - " Region: \"zone_1\"\tRelError: 3.88379e-06\tAbsError: 2.55222e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.87646e-06\tAbsError: 2.54121e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.33447e-09\tAbsError: 2.54968e-06\n", - " Region: \"zone_3\"\tRelError: 3.74626e-05\tAbsError: 2.75069e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05752e-07\tAbsError: 1.35376e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.97692e-07\tAbsError: 1.39693e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.70518e-05\tAbsError: 2.55608e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.33751e-09\tAbsError: 2.55078e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:26\u001b[0m.\u001b[1;36m709\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.8999999999999999\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.87468e+03\tAbsError: 1.57594e+18\n", - " Region: \"zone_1\"\tRelError: 6.11972e+03\tAbsError: 4.18742e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.11972e+03\tAbsError: 4.18725e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.06414e-09\tAbsError: 1.76056e-06\n", - " Region: \"zone_3\"\tRelError: 1.75496e+03\tAbsError: 1.57594e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.71865e-01\tAbsError: 7.81473e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.46168e-01\tAbsError: 7.94463e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.75364e+03\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.06608e-09\tAbsError: 1.76125e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.18618e+01\tAbsError: 3.43486e+17\n", - " Region: \"zone_1\"\tRelError: 4.68734e+01\tAbsError: 4.09548e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.68734e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70509e-09\tAbsError: 5.92742e-07\n", - " Region: \"zone_3\"\tRelError: 1.49884e+01\tAbsError: 3.43486e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.50361e-01\tAbsError: 1.67687e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.42491e-01\tAbsError: 1.75799e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.34955e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70580e-09\tAbsError: 5.92998e-07\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.30315e+03\tAbsError: 5.28037e+17\n", - " Region: \"zone_1\"\tRelError: 4.13286e+02\tAbsError: 1.28690e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 4.13283e+02\tAbsError: 3.18455e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.60513e-03\tAbsError: 1.25505e+00\n", - " Region: \"zone_3\"\tRelError: 1.88986e+03\tAbsError: 5.28037e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.88929e-01\tAbsError: 2.65094e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.76179e-01\tAbsError: 2.62943e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88910e+03\tAbsError: 3.18461e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.60541e-03\tAbsError: 1.25519e+00\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 6.59116e+00\tAbsError: 3.05940e+17\n", - " Region: \"zone_1\"\tRelError: 1.06162e+00\tAbsError: 1.92710e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06116e+00\tAbsError: 3.07630e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.67257e-04\tAbsError: 1.61947e-01\n", - " Region: \"zone_3\"\tRelError: 5.52954e+00\tAbsError: 3.05940e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.66708e-01\tAbsError: 1.53394e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.75609e-01\tAbsError: 1.52546e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 4.38676e+00\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.67257e-04\tAbsError: 1.61947e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.23949e+02\tAbsError: 7.68225e+16\n", - " Region: \"zone_1\"\tRelError: 1.01274e+02\tAbsError: 5.10475e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01273e+02\tAbsError: 2.57970e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.38904e-03\tAbsError: 4.84678e-01\n", - " Region: \"zone_3\"\tRelError: 1.22675e+02\tAbsError: 7.68225e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.85556e-02\tAbsError: 3.85589e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.64057e-02\tAbsError: 3.82636e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.22518e+02\tAbsError: 2.58939e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.38924e-03\tAbsError: 4.84741e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 3.39017e+01\tAbsError: 1.15461e+17\n", - " Region: \"zone_1\"\tRelError: 6.40052e-01\tAbsError: 2.51200e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 6.39402e-01\tAbsError: 2.58690e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.49519e-04\tAbsError: 2.25331e-01\n", - " Region: \"zone_3\"\tRelError: 3.32617e+01\tAbsError: 1.15461e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.89584e-01\tAbsError: 5.80157e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.82182e-01\tAbsError: 5.74450e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.27893e+01\tAbsError: 2.58944e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.51823e-04\tAbsError: 2.26124e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.99106e+00\tAbsError: 4.60947e+15\n", - " Region: \"zone_1\"\tRelError: 9.82178e-01\tAbsError: 9.51528e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 9.79492e-01\tAbsError: 1.05200e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.68610e-03\tAbsError: 9.41008e-01\n", - " Region: \"zone_3\"\tRelError: 1.00888e+00\tAbsError: 4.60947e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.86739e-02\tAbsError: 1.78353e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.53479e-03\tAbsError: 2.82595e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.82985e-01\tAbsError: 1.05209e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69033e-03\tAbsError: 9.42484e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.34480e+00\tAbsError: 1.48853e+16\n", - " Region: \"zone_1\"\tRelError: 1.80604e-01\tAbsError: 1.59400e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.80172e-01\tAbsError: 9.16501e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.31839e-04\tAbsError: 1.50235e-01\n", - " Region: \"zone_3\"\tRelError: 3.16419e+00\tAbsError: 1.48853e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.34401e-02\tAbsError: 7.53366e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.19569e-02\tAbsError: 7.35164e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 3.07837e+00\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.31839e-04\tAbsError: 1.50235e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.86435e+00\tAbsError: 9.79041e+15\n", - " Region: \"zone_1\"\tRelError: 1.84952e+00\tAbsError: 1.25697e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.84592e+00\tAbsError: 3.77567e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.59985e-03\tAbsError: 1.25659e+00\n", - " Region: \"zone_3\"\tRelError: 1.01483e+00\tAbsError: 9.79041e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.98548e-02\tAbsError: 4.26210e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.13855e-03\tAbsError: 5.52831e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.74232e-01\tAbsError: 3.79891e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.60540e-03\tAbsError: 1.25852e+00\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 3.42204e-01\tAbsError: 1.90329e+15\n", - " Region: \"zone_1\"\tRelError: 2.01983e-02\tAbsError: 3.47392e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.91990e-02\tAbsError: 1.15001e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.99221e-04\tAbsError: 3.47277e-01\n", - " Region: \"zone_3\"\tRelError: 3.22006e-01\tAbsError: 1.90329e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.20950e-03\tAbsError: 1.00831e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03234e-03\tAbsError: 8.94978e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.11765e-01\tAbsError: 1.16357e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.99221e-04\tAbsError: 3.47277e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.24847e+01\tAbsError: 7.06406e+15\n", - " Region: \"zone_1\"\tRelError: 6.33480e-01\tAbsError: 7.91039e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.33255e-01\tAbsError: 3.40300e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.25585e-04\tAbsError: 7.87636e-02\n", - " Region: \"zone_3\"\tRelError: 1.18512e+01\tAbsError: 7.06406e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.31041e-02\tAbsError: 3.43640e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.02226e-03\tAbsError: 3.62765e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18348e+01\tAbsError: 3.42813e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.25683e-04\tAbsError: 7.87975e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 7.26159e-01\tAbsError: 1.60368e+15\n", - " Region: \"zone_1\"\tRelError: 2.39971e-02\tAbsError: 1.68797e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.39489e-02\tAbsError: 1.07820e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.82419e-05\tAbsError: 1.67718e-02\n", - " Region: \"zone_3\"\tRelError: 7.02162e-01\tAbsError: 1.60368e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.86883e-03\tAbsError: 7.94204e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.42424e-03\tAbsError: 8.09476e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.96821e-01\tAbsError: 1.08766e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.82636e-05\tAbsError: 1.67793e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 8.20251e-01\tAbsError: 4.81045e+14\n", - " Region: \"zone_1\"\tRelError: 1.33651e-01\tAbsError: 4.63651e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33518e-01\tAbsError: 2.50993e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32739e-04\tAbsError: 4.63400e-02\n", - " Region: \"zone_3\"\tRelError: 6.86600e-01\tAbsError: 4.81045e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.60043e-03\tAbsError: 2.39564e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.09695e-04\tAbsError: 2.41481e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.83957e-01\tAbsError: 2.52723e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32791e-04\tAbsError: 4.63581e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.12346e-01\tAbsError: 1.08123e+14\n", - " Region: \"zone_1\"\tRelError: 3.56238e-03\tAbsError: 1.31451e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.52458e-03\tAbsError: 6.36043e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.77942e-05\tAbsError: 1.31387e-02\n", - " Region: \"zone_3\"\tRelError: 1.08784e-01\tAbsError: 1.08123e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.76703e-04\tAbsError: 5.36465e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.39449e-04\tAbsError: 5.44763e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08330e-01\tAbsError: 6.41381e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.78094e-05\tAbsError: 1.31440e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 6.40048e-01\tAbsError: 2.83614e+14\n", - " Region: \"zone_1\"\tRelError: 6.61348e-02\tAbsError: 5.04447e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.61204e-02\tAbsError: 1.30341e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.44504e-05\tAbsError: 5.03144e-03\n", - " Region: \"zone_3\"\tRelError: 5.73913e-01\tAbsError: 2.83614e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.31177e-04\tAbsError: 1.41341e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.34459e-04\tAbsError: 1.42273e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.73033e-01\tAbsError: 1.31277e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.44524e-05\tAbsError: 5.03188e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 8.36096e-02\tAbsError: 8.44228e+13\n", - " Region: \"zone_1\"\tRelError: 2.87350e-03\tAbsError: 1.23009e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.86998e-03\tAbsError: 4.23325e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.52636e-06\tAbsError: 1.22586e-03\n", - " Region: \"zone_3\"\tRelError: 8.07361e-02\tAbsError: 8.44228e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46087e-04\tAbsError: 4.18513e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.25646e-04\tAbsError: 4.25715e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.04608e-02\tAbsError: 4.27186e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.52783e-06\tAbsError: 1.22636e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.04807e-01\tAbsError: 3.49952e+13\n", - " Region: \"zone_1\"\tRelError: 1.19544e-02\tAbsError: 2.15893e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19482e-02\tAbsError: 1.51234e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.19688e-06\tAbsError: 2.15742e-03\n", - " Region: \"zone_3\"\tRelError: 9.28525e-02\tAbsError: 3.49952e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.54709e-05\tAbsError: 1.74282e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.63267e-05\tAbsError: 1.75670e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.26845e-02\tAbsError: 1.52290e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.19717e-06\tAbsError: 2.15761e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.36875e-02\tAbsError: 9.69294e+12\n", - " Region: \"zone_1\"\tRelError: 4.70501e-04\tAbsError: 6.20216e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.68718e-04\tAbsError: 4.28680e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.78298e-06\tAbsError: 6.19787e-04\n", - " Region: \"zone_3\"\tRelError: 1.32170e-02\tAbsError: 9.69294e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.60935e-05\tAbsError: 4.80983e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.36870e-05\tAbsError: 4.88312e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31854e-02\tAbsError: 4.32490e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.78363e-06\tAbsError: 6.20008e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.34395e-02\tAbsError: 1.50873e+13\n", - " Region: \"zone_1\"\tRelError: 4.76678e-03\tAbsError: 3.66196e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.76573e-03\tAbsError: 5.85936e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.05115e-06\tAbsError: 3.65610e-04\n", - " Region: \"zone_3\"\tRelError: 3.86727e-02\tAbsError: 1.50873e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.49064e-05\tAbsError: 7.51386e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.47458e-05\tAbsError: 7.57343e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.86220e-02\tAbsError: 5.90085e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.05126e-06\tAbsError: 3.65648e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 6.63798e-03\tAbsError: 4.90503e+12\n", - " Region: \"zone_1\"\tRelError: 2.29406e-04\tAbsError: 9.25474e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29140e-04\tAbsError: 1.97212e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.66464e-07\tAbsError: 9.23502e-05\n", - " Region: \"zone_3\"\tRelError: 6.40857e-03\tAbsError: 4.90503e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.34900e-06\tAbsError: 2.43347e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32522e-06\tAbsError: 2.47155e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 6.39263e-03\tAbsError: 1.99078e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.66498e-07\tAbsError: 9.23593e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 8.47313e-03\tAbsError: 2.45459e+12\n", - " Region: \"zone_1\"\tRelError: 9.36987e-04\tAbsError: 1.32000e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.36609e-04\tAbsError: 9.56354e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.78566e-07\tAbsError: 1.31904e-04\n", - " Region: \"zone_3\"\tRelError: 7.53614e-03\tAbsError: 2.45459e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.87205e-06\tAbsError: 1.22267e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.65680e-06\tAbsError: 1.23192e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.52524e-03\tAbsError: 9.65698e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.78706e-07\tAbsError: 1.31954e-04\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.25648e-03\tAbsError: 7.75715e+11\n", - " Region: \"zone_1\"\tRelError: 4.35799e-05\tAbsError: 3.84452e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.34694e-05\tAbsError: 2.84735e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10539e-07\tAbsError: 3.84167e-05\n", - " Region: \"zone_3\"\tRelError: 1.21290e-03\tAbsError: 7.75715e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28473e-06\tAbsError: 3.85060e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.13479e-06\tAbsError: 3.90655e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21037e-03\tAbsError: 2.87358e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10581e-07\tAbsError: 3.84313e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 2.88106e-03\tAbsError: 8.75795e+11\n", - " Region: \"zone_1\"\tRelError: 3.17767e-04\tAbsError: 2.68964e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.17689e-04\tAbsError: 3.28042e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.70983e-08\tAbsError: 2.68636e-05\n", - " Region: \"zone_3\"\tRelError: 2.56329e-03\tAbsError: 8.75795e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34563e-06\tAbsError: 4.36269e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.68576e-06\tAbsError: 4.39526e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.56018e-03\tAbsError: 3.31331e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.71271e-08\tAbsError: 2.68742e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 4.79935e-04\tAbsError: 3.06765e+11\n", - " Region: \"zone_1\"\tRelError: 1.66486e-05\tAbsError: 7.60779e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66267e-05\tAbsError: 1.06336e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18595e-08\tAbsError: 7.59715e-06\n", - " Region: \"zone_3\"\tRelError: 4.63286e-04\tAbsError: 3.06765e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.16909e-07\tAbsError: 1.52260e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.59699e-07\tAbsError: 1.54505e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.62288e-04\tAbsError: 1.07353e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18679e-08\tAbsError: 7.60017e-06\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 6.15045e-04\tAbsError: 1.68932e+11\n", - " Region: \"zone_1\"\tRelError: 6.78668e-05\tAbsError: 8.57075e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.78422e-05\tAbsError: 6.94676e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.45781e-08\tAbsError: 8.56380e-06\n", - " Region: \"zone_3\"\tRelError: 5.47178e-04\tAbsError: 1.68932e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.96513e-07\tAbsError: 8.41586e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.96621e-07\tAbsError: 8.47738e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.46460e-04\tAbsError: 7.01511e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.45874e-08\tAbsError: 8.56727e-06\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.01824e-04\tAbsError: 5.91028e+10\n", - " Region: \"zone_1\"\tRelError: 3.53926e-06\tAbsError: 2.67115e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.53158e-06\tAbsError: 2.19844e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.67947e-09\tAbsError: 2.66896e-06\n", - " Region: \"zone_3\"\tRelError: 9.82849e-05\tAbsError: 5.91028e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.78782e-08\tAbsError: 2.93440e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.77169e-08\tAbsError: 2.97588e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 9.80917e-05\tAbsError: 2.22202e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.68243e-09\tAbsError: 2.67005e-06\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 1.88221e-04\tAbsError: 5.35359e+10\n", - " Region: \"zone_1\"\tRelError: 2.07676e-05\tAbsError: 1.88845e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.07622e-05\tAbsError: 2.14079e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.41371e-09\tAbsError: 1.88631e-06\n", - " Region: \"zone_3\"\tRelError: 1.67453e-04\tAbsError: 5.35359e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.97944e-08\tAbsError: 2.66714e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.11906e-07\tAbsError: 2.68645e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.67256e-04\tAbsError: 2.16218e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.41591e-09\tAbsError: 1.88713e-06\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 3.38300e-05\tAbsError: 2.01418e+10\n", - " Region: \"zone_1\"\tRelError: 1.17571e-06\tAbsError: 5.87640e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17402e-06\tAbsError: 7.44968e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.68869e-09\tAbsError: 5.86895e-07\n", - " Region: \"zone_3\"\tRelError: 3.26543e-05\tAbsError: 2.01418e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.37367e-08\tAbsError: 9.99956e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.02428e-08\tAbsError: 1.01422e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.25886e-05\tAbsError: 7.53080e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.68939e-09\tAbsError: 5.87154e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:40\u001b[0m.\u001b[1;36m587\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.9999999999999999\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 4.27414e-05\tAbsError: 1.14823e+10\n", - " Region: \"zone_1\"\tRelError: 4.71554e-06\tAbsError: 5.55691e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 4.71394e-06\tAbsError: 4.83442e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59344e-09\tAbsError: 5.55208e-07\n", - " Region: \"zone_3\"\tRelError: 3.80259e-05\tAbsError: 1.14823e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88030e-08\tAbsError: 5.72062e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.70392e-08\tAbsError: 5.76169e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.79784e-05\tAbsError: 4.88216e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59409e-09\tAbsError: 5.55448e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:40\u001b[0m.\u001b[1;36m783\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:40\u001b[0m.\u001b[1;36m783\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m1.1454545454545455\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.07845e+03\tAbsError: 1.16809e+18\n", - " Region: \"zone_1\"\tRelError: 2.98806e+02\tAbsError: 4.09541e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.98806e+02\tAbsError: 4.09540e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.33797e-10\tAbsError: 1.85521e-07\n", - " Region: \"zone_3\"\tRelError: 7.79646e+02\tAbsError: 1.16809e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90701e-01\tAbsError: 5.74604e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.65642e-01\tAbsError: 5.93489e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 7.78290e+02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.34021e-10\tAbsError: 1.85602e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.48560e+01\tAbsError: 2.45370e+18\n", - " Region: \"zone_1\"\tRelError: 1.31353e+01\tAbsError: 4.18724e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31353e+01\tAbsError: 4.18723e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.70107e-10\tAbsError: 1.28959e-07\n", - " Region: \"zone_3\"\tRelError: 2.17207e+01\tAbsError: 2.45370e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.83005e-01\tAbsError: 1.22478e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.70802e-01\tAbsError: 1.22892e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 2.05669e+01\tAbsError: 4.18730e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.70257e-10\tAbsError: 1.29014e-07\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.95227e+03\tAbsError: 4.47180e+17\n", - " Region: \"zone_1\"\tRelError: 5.95735e+02\tAbsError: 1.32695e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95731e+02\tAbsError: 3.07627e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.72641e-03\tAbsError: 1.29619e+00\n", - " Region: \"zone_3\"\tRelError: 2.35653e+03\tAbsError: 4.47180e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.30389e-01\tAbsError: 2.23868e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.07870e-01\tAbsError: 2.23312e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 2.35569e+03\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.72703e-03\tAbsError: 1.29643e+00\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.98343e+00\tAbsError: 5.25979e+17\n", - " Region: \"zone_1\"\tRelError: 6.78890e-01\tAbsError: 2.40460e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 6.72129e-01\tAbsError: 3.18452e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.76081e-03\tAbsError: 2.37276e+00\n", - " Region: \"zone_3\"\tRelError: 1.30454e+00\tAbsError: 5.25979e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.69683e-01\tAbsError: 2.63478e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.70057e-01\tAbsError: 2.62501e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 7.58037e-01\tAbsError: 3.18462e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.76160e-03\tAbsError: 2.37299e+00\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 8.37720e+02\tAbsError: 8.62713e+16\n", - " Region: \"zone_1\"\tRelError: 6.83172e+02\tAbsError: 5.09423e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 6.83170e+02\tAbsError: 2.58987e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39194e-03\tAbsError: 4.83524e-01\n", - " Region: \"zone_3\"\tRelError: 1.54548e+02\tAbsError: 8.62713e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.27446e-01\tAbsError: 4.32970e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.20316e-02\tAbsError: 4.29743e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.54357e+02\tAbsError: 2.58982e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39675e-03\tAbsError: 4.85195e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 5.69994e-01\tAbsError: 2.17602e+16\n", - " Region: \"zone_1\"\tRelError: 2.50379e-01\tAbsError: 2.20116e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 2.44199e-01\tAbsError: 2.58997e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.17935e-03\tAbsError: 2.17526e+00\n", - " Region: \"zone_3\"\tRelError: 3.19615e-01\tAbsError: 2.17602e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.70343e-02\tAbsError: 1.09545e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.17379e-02\tAbsError: 1.08057e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.44659e-01\tAbsError: 2.58997e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.18370e-03\tAbsError: 2.17682e+00\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 6.13777e+02\tAbsError: 9.41150e+15\n", - " Region: \"zone_1\"\tRelError: 7.34943e+01\tAbsError: 1.74710e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 7.34894e+01\tAbsError: 9.16455e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.95952e-03\tAbsError: 1.73794e+00\n", - " Region: \"zone_3\"\tRelError: 5.40283e+02\tAbsError: 9.41150e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.82819e-02\tAbsError: 3.95531e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.70902e-02\tAbsError: 5.45619e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.40223e+02\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.96820e-03\tAbsError: 1.74101e+00\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.85302e-01\tAbsError: 2.54840e+16\n", - " Region: \"zone_1\"\tRelError: 1.03223e-01\tAbsError: 5.09960e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 8.89918e-02\tAbsError: 1.05193e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42311e-02\tAbsError: 5.08908e+00\n", - " Region: \"zone_3\"\tRelError: 1.82079e-01\tAbsError: 2.54840e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.18364e-02\tAbsError: 9.82764e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.96671e-03\tAbsError: 1.56563e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 8.90331e-02\tAbsError: 1.05211e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42430e-02\tAbsError: 5.09332e+00\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.16806e+01\tAbsError: 1.22386e+16\n", - " Region: \"zone_1\"\tRelError: 5.81165e+00\tAbsError: 2.01324e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.80588e+00\tAbsError: 6.99078e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.77633e-03\tAbsError: 2.01254e+00\n", - " Region: \"zone_3\"\tRelError: 5.86896e+00\tAbsError: 1.22386e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.88114e-02\tAbsError: 5.53671e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.06848e-02\tAbsError: 6.70184e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.80368e+00\tAbsError: 7.04147e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.78367e-03\tAbsError: 2.01512e+00\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.66806e-01\tAbsError: 4.46613e+16\n", - " Region: \"zone_1\"\tRelError: 2.01778e-01\tAbsError: 6.07668e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.84496e-01\tAbsError: 1.64814e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72818e-02\tAbsError: 6.07503e+00\n", - " Region: \"zone_3\"\tRelError: 4.65028e-01\tAbsError: 4.46613e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.85265e-01\tAbsError: 2.19504e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.34316e-02\tAbsError: 2.27109e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.19041e-01\tAbsError: 1.65634e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72910e-02\tAbsError: 6.07824e+00\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 8.44367e+01\tAbsError: 1.02259e+16\n", - " Region: \"zone_1\"\tRelError: 4.22055e+01\tAbsError: 1.45859e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.22051e+01\tAbsError: 5.71640e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.16833e-04\tAbsError: 1.45287e-01\n", - " Region: \"zone_3\"\tRelError: 4.22312e+01\tAbsError: 1.02259e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.97020e-02\tAbsError: 4.95775e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.96648e-03\tAbsError: 5.26817e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 4.22051e+01\tAbsError: 5.76213e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.17002e-04\tAbsError: 1.45346e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.48036e-01\tAbsError: 4.08947e+16\n", - " Region: \"zone_1\"\tRelError: 1.59671e-01\tAbsError: 3.39263e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.58711e-01\tAbsError: 1.47989e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.59972e-04\tAbsError: 3.37784e-01\n", - " Region: \"zone_3\"\tRelError: 2.88365e-01\tAbsError: 4.08947e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.87342e-02\tAbsError: 2.00424e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.55822e-02\tAbsError: 2.08523e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.83088e-01\tAbsError: 1.48837e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.60353e-04\tAbsError: 3.37917e-01\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.49604e+00\tAbsError: 9.70392e+14\n", - " Region: \"zone_1\"\tRelError: 3.74605e+00\tAbsError: 7.97463e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.74582e+00\tAbsError: 4.64021e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28718e-04\tAbsError: 7.96999e-02\n", - " Region: \"zone_3\"\tRelError: 3.74999e+00\tAbsError: 9.70392e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.58316e-03\tAbsError: 4.83793e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.36045e-03\tAbsError: 4.86599e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.74582e+00\tAbsError: 4.67428e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28813e-04\tAbsError: 7.97327e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 5.94888e-02\tAbsError: 2.09629e+15\n", - " Region: \"zone_1\"\tRelError: 2.22902e-02\tAbsError: 1.82349e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.17712e-02\tAbsError: 1.08536e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.18918e-04\tAbsError: 1.82241e-01\n", - " Region: \"zone_3\"\tRelError: 3.71987e-02\tAbsError: 2.09629e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.94884e-03\tAbsError: 1.04302e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.49555e-03\tAbsError: 1.05327e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.52353e-02\tAbsError: 1.09074e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.18942e-04\tAbsError: 1.82257e-01\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 9.26745e+00\tAbsError: 5.14481e+14\n", - " Region: \"zone_1\"\tRelError: 8.59152e+00\tAbsError: 9.35409e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 8.59150e+00\tAbsError: 2.29233e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.68516e-05\tAbsError: 9.33117e-03\n", - " Region: \"zone_3\"\tRelError: 6.75929e-01\tAbsError: 5.14481e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.99602e-04\tAbsError: 2.56366e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.52414e-04\tAbsError: 2.58114e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.74650e-01\tAbsError: 2.31041e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.68516e-05\tAbsError: 9.33117e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.83605e-02\tAbsError: 1.16657e+15\n", - " Region: \"zone_1\"\tRelError: 1.11393e-02\tAbsError: 1.87909e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10859e-02\tAbsError: 5.17315e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.34103e-05\tAbsError: 1.87392e-02\n", - " Region: \"zone_3\"\tRelError: 1.72212e-02\tAbsError: 1.16657e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.50800e-03\tAbsError: 5.80987e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.83040e-03\tAbsError: 5.85581e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28294e-02\tAbsError: 5.20147e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.34103e-05\tAbsError: 1.87392e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.48030e+01\tAbsError: 7.19505e+13\n", - " Region: \"zone_1\"\tRelError: 1.40655e+01\tAbsError: 3.86191e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40655e+01\tAbsError: 2.84880e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11050e-05\tAbsError: 3.85906e-03\n", - " Region: \"zone_3\"\tRelError: 7.37529e-01\tAbsError: 7.19505e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.38672e-04\tAbsError: 3.58470e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.21484e-04\tAbsError: 3.61036e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.37257e-01\tAbsError: 2.87067e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11068e-05\tAbsError: 3.85947e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 4.18320e-03\tAbsError: 1.27381e+14\n", - " Region: \"zone_1\"\tRelError: 1.63776e-03\tAbsError: 7.35262e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.61677e-03\tAbsError: 5.51755e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.09861e-05\tAbsError: 7.34711e-03\n", - " Region: \"zone_3\"\tRelError: 2.54544e-03\tAbsError: 1.27381e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.31618e-04\tAbsError: 6.29513e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.20105e-04\tAbsError: 6.44296e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87274e-03\tAbsError: 5.54604e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.09861e-05\tAbsError: 7.34711e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.47896e+00\tAbsError: 2.94682e+13\n", - " Region: \"zone_1\"\tRelError: 1.24509e+00\tAbsError: 6.95816e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.24509e+00\tAbsError: 1.07735e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.99937e-06\tAbsError: 6.94739e-04\n", - " Region: \"zone_3\"\tRelError: 2.33869e-01\tAbsError: 2.94682e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.81392e-05\tAbsError: 1.46808e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.76977e-05\tAbsError: 1.47873e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.33792e-01\tAbsError: 1.08579e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.99953e-06\tAbsError: 6.95001e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.50724e-03\tAbsError: 4.58277e+13\n", - " Region: \"zone_1\"\tRelError: 6.07327e-04\tAbsError: 1.12554e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.04117e-04\tAbsError: 1.90266e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.20955e-06\tAbsError: 1.12364e-03\n", - " Region: \"zone_3\"\tRelError: 8.99917e-04\tAbsError: 4.58277e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.44714e-05\tAbsError: 2.28384e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.02367e-04\tAbsError: 2.29892e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.99868e-04\tAbsError: 1.91285e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.21023e-06\tAbsError: 1.12389e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.23148e-01\tAbsError: 5.24321e+12\n", - " Region: \"zone_1\"\tRelError: 2.61296e-01\tAbsError: 2.47766e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.61295e-01\tAbsError: 1.83418e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.11380e-07\tAbsError: 2.47583e-04\n", - " Region: \"zone_3\"\tRelError: 6.18518e-02\tAbsError: 5.24321e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94642e-06\tAbsError: 2.61290e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.40186e-06\tAbsError: 2.63031e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 6.18338e-02\tAbsError: 1.85316e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.11644e-07\tAbsError: 2.47677e-04\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.58569e-04\tAbsError: 7.36064e+12\n", - " Region: \"zone_1\"\tRelError: 1.03590e-04\tAbsError: 3.69022e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02537e-04\tAbsError: 2.95343e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.05323e-06\tAbsError: 3.68726e-04\n", - " Region: \"zone_3\"\tRelError: 1.54979e-04\tAbsError: 7.36064e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.54889e-05\tAbsError: 3.65218e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.96114e-05\tAbsError: 3.70846e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18825e-04\tAbsError: 2.97648e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.05333e-06\tAbsError: 3.68764e-04\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 9.77270e-02\tAbsError: 1.82347e+12\n", - " Region: \"zone_1\"\tRelError: 7.65024e-02\tAbsError: 5.28468e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.65022e-02\tAbsError: 6.24160e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.51664e-07\tAbsError: 5.27844e-05\n", - " Region: \"zone_3\"\tRelError: 2.12246e-02\tAbsError: 1.82347e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11287e-06\tAbsError: 9.08701e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.75258e-06\tAbsError: 9.14773e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.12196e-02\tAbsError: 6.30788e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.51721e-07\tAbsError: 5.28055e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 7.93615e-05\tAbsError: 2.16297e+12\n", - " Region: \"zone_1\"\tRelError: 3.23104e-05\tAbsError: 6.76144e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.21176e-05\tAbsError: 9.25130e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.92857e-07\tAbsError: 6.75219e-05\n", - " Region: \"zone_3\"\tRelError: 4.70511e-05\tAbsError: 2.16297e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.07553e-06\tAbsError: 1.07246e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.55801e-06\tAbsError: 1.09051e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.72246e-05\tAbsError: 9.32629e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.92929e-07\tAbsError: 6.75484e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:53\u001b[0m.\u001b[1;36m173\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: 1.25\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 2.05494e-02\tAbsError: 3.74583e+11\n", - " Region: \"zone_1\"\tRelError: 1.55447e-02\tAbsError: 1.67716e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55447e-02\tAbsError: 1.38057e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.81497e-08\tAbsError: 1.67577e-05\n", - " Region: \"zone_3\"\tRelError: 5.00469e-03\tAbsError: 3.74583e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.90614e-07\tAbsError: 1.86695e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.85333e-07\tAbsError: 1.87888e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.00347e-03\tAbsError: 1.39492e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.81681e-08\tAbsError: 1.67646e-05\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 6.14058e-03\tAbsError: 1.17501e+11\n", - " Region: \"zone_1\"\tRelError: 4.56971e-03\tAbsError: 3.83354e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.56970e-03\tAbsError: 4.25999e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10026e-08\tAbsError: 3.82928e-06\n", - " Region: \"zone_3\"\tRelError: 1.57087e-03\tAbsError: 1.17501e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.29368e-07\tAbsError: 5.85629e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.92613e-07\tAbsError: 5.89376e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.57054e-03\tAbsError: 4.30497e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10071e-08\tAbsError: 3.83095e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.36008e+00\tAbsError: 2.97116e+18\n", - " Region: \"zone_1\"\tRelError: 3.47604e+00\tAbsError: 4.18915e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.47604e+00\tAbsError: 4.18718e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.64368e-08\tAbsError: 1.97593e-05\n", - " Region: \"zone_3\"\tRelError: 1.88404e+00\tAbsError: 2.97116e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.08761e-01\tAbsError: 1.48457e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.00956e-01\tAbsError: 1.48659e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 8.74325e-01\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.64587e-08\tAbsError: 1.97673e-05\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 1.39778e-03\tAbsError: 2.64036e+10\n", - " Region: \"zone_1\"\tRelError: 1.02275e-03\tAbsError: 1.13260e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02274e-03\tAbsError: 9.95943e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.25141e-09\tAbsError: 1.13160e-06\n", - " Region: \"zone_3\"\tRelError: 3.75036e-04\tAbsError: 2.64036e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.18289e-08\tAbsError: 1.31607e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.84989e-08\tAbsError: 1.32430e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.74952e-04\tAbsError: 1.00632e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.25274e-09\tAbsError: 1.13210e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 8.38000e-01\tAbsError: 4.19541e+17\n", - " Region: \"zone_1\"\tRelError: 2.02810e-01\tAbsError: 3.72206e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.92418e-01\tAbsError: 3.18445e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.03924e-02\tAbsError: 3.69022e+00\n", - " Region: \"zone_3\"\tRelError: 6.35190e-01\tAbsError: 4.19541e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.22905e-01\tAbsError: 2.10016e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.09404e-01\tAbsError: 2.09524e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.92487e-01\tAbsError: 3.18460e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.03935e-02\tAbsError: 3.69072e+00\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 3.99447e-04\tAbsError: 7.75693e+09\n", - " Region: \"zone_1\"\tRelError: 2.89402e-04\tAbsError: 2.71336e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.89401e-04\tAbsError: 2.89100e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.78779e-10\tAbsError: 2.71047e-07\n", - " Region: \"zone_3\"\tRelError: 1.10046e-04\tAbsError: 7.75693e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.37898e-09\tAbsError: 3.86636e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.32737e-08\tAbsError: 3.89057e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10023e-04\tAbsError: 2.92143e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.79099e-10\tAbsError: 2.71163e-07\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.94946e-01\tAbsError: 3.72204e+16\n", - " Region: \"zone_1\"\tRelError: 1.32375e-01\tAbsError: 2.45003e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.25563e-01\tAbsError: 2.58821e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.81251e-03\tAbsError: 2.42415e+00\n", - " Region: \"zone_3\"\tRelError: 1.62571e-01\tAbsError: 3.72204e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.94379e-02\tAbsError: 1.85679e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.04649e-02\tAbsError: 1.86524e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.25823e-01\tAbsError: 2.58467e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.84508e-03\tAbsError: 2.43578e+00\n", - "Iteration: 16\n", - " Device: \"device\"\tRelError: 9.59509e-05\tAbsError: 1.84384e+09\n", - " Region: \"zone_1\"\tRelError: 6.90141e-05\tAbsError: 7.66546e-08\n", - " Equation: \"PotentialEquation\"\tRelError: 6.90138e-05\tAbsError: 7.02485e-11\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.20044e-10\tAbsError: 7.65844e-08\n", - " Region: \"zone_3\"\tRelError: 2.69368e-05\tAbsError: 1.84384e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12306e-09\tAbsError: 9.19073e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.38040e-09\tAbsError: 9.24762e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 2.69311e-05\tAbsError: 7.09816e-11\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.20134e-10\tAbsError: 7.66170e-08\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:32:56\u001b[0m.\u001b[1;36m861\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 1.0999999999999999\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.61360e-01\tAbsError: 3.87872e+16\n", - " Region: \"zone_1\"\tRelError: 5.16143e-02\tAbsError: 1.56589e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 4.72241e-02\tAbsError: 1.05190e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.39019e-03\tAbsError: 1.55537e+00\n", - " Region: \"zone_3\"\tRelError: 1.09746e-01\tAbsError: 3.87872e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47430e-02\tAbsError: 1.93636e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.33427e-02\tAbsError: 1.94236e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 4.72362e-02\tAbsError: 1.05208e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.42403e-03\tAbsError: 1.56733e+00\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.29423e+03\tAbsError: 2.05927e+18\n", - " Region: \"zone_1\"\tRelError: 8.20020e+01\tAbsError: 4.09537e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.20020e+01\tAbsError: 4.09537e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.43761e-11\tAbsError: 1.89251e-08\n", - " Region: \"zone_3\"\tRelError: 2.21223e+03\tAbsError: 2.05927e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.07156e-01\tAbsError: 1.02695e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.89042e-01\tAbsError: 1.03232e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 2.21103e+03\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.43983e-11\tAbsError: 1.89331e-08\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 4.12508e-02\tAbsError: 2.36362e+16\n", - " Region: \"zone_1\"\tRelError: 1.23306e-02\tAbsError: 5.50249e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07777e-02\tAbsError: 3.00426e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.55296e-03\tAbsError: 5.49949e-01\n", - " Region: \"zone_3\"\tRelError: 2.89202e-02\tAbsError: 2.36362e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.42033e-03\tAbsError: 1.18049e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.09279e-02\tAbsError: 1.18314e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10135e-02\tAbsError: 3.00426e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.55851e-03\tAbsError: 5.51737e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 4.61689e+02\tAbsError: 5.07798e+17\n", - " Region: \"zone_1\"\tRelError: 3.64692e+01\tAbsError: 1.84178e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 3.64640e+01\tAbsError: 3.07624e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.18031e-03\tAbsError: 1.81102e+00\n", - " Region: \"zone_3\"\tRelError: 4.25219e+02\tAbsError: 5.07798e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.93091e-01\tAbsError: 2.54521e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.93600e-01\tAbsError: 2.53278e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 4.24628e+02\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.18075e-03\tAbsError: 1.81120e+00\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.30456e-02\tAbsError: 5.05269e+15\n", - " Region: \"zone_1\"\tRelError: 2.57227e-03\tAbsError: 2.38651e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.50544e-03\tAbsError: 9.30864e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.68300e-05\tAbsError: 2.37721e-02\n", - " Region: \"zone_3\"\tRelError: 1.04733e-02\tAbsError: 5.05269e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.20422e-03\tAbsError: 2.49761e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.45765e-03\tAbsError: 2.55509e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74456e-03\tAbsError: 9.35381e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.68749e-05\tAbsError: 2.37885e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.49657e+00\tAbsError: 3.51966e+16\n", - " Region: \"zone_1\"\tRelError: 4.64902e-01\tAbsError: 7.04755e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.62960e-01\tAbsError: 2.58789e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94154e-03\tAbsError: 6.78876e-01\n", - " Region: \"zone_3\"\tRelError: 2.03167e+00\tAbsError: 3.51966e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.92042e-02\tAbsError: 1.76602e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.22372e-02\tAbsError: 1.75363e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.95829e+00\tAbsError: 2.58789e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94154e-03\tAbsError: 6.78876e-01\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.34859e-04\tAbsError: 4.31967e+14\n", - " Region: \"zone_1\"\tRelError: 1.54373e-04\tAbsError: 1.04332e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.25013e-04\tAbsError: 4.01967e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.93605e-05\tAbsError: 1.04292e-02\n", - " Region: \"zone_3\"\tRelError: 4.80486e-04\tAbsError: 4.31967e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.73966e-04\tAbsError: 2.14461e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.90341e-05\tAbsError: 2.17506e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.81236e-05\tAbsError: 4.04531e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.93628e-05\tAbsError: 1.04303e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 6.69589e+00\tAbsError: 5.37696e+15\n", - " Region: \"zone_1\"\tRelError: 3.73324e+00\tAbsError: 3.88180e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.73216e+00\tAbsError: 9.16423e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08076e-03\tAbsError: 3.79016e-01\n", - " Region: \"zone_3\"\tRelError: 2.96265e+00\tAbsError: 5.37696e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.56094e-03\tAbsError: 2.69855e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.01807e-03\tAbsError: 2.67840e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.95599e+00\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08076e-03\tAbsError: 3.79016e-01\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.80331e-04\tAbsError: 1.22832e+14\n", - " Region: \"zone_1\"\tRelError: 8.29661e-05\tAbsError: 8.78226e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 8.05056e-05\tAbsError: 2.87475e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.46051e-06\tAbsError: 8.75351e-04\n", - " Region: \"zone_3\"\tRelError: 2.97365e-04\tAbsError: 1.22832e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.42838e-04\tAbsError: 6.10063e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.36160e-05\tAbsError: 6.18260e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.84489e-05\tAbsError: 2.88687e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.46143e-06\tAbsError: 8.75680e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.88315e-01\tAbsError: 2.62271e+15\n", - " Region: \"zone_1\"\tRelError: 4.71922e-01\tAbsError: 5.76588e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.70275e-01\tAbsError: 6.27557e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.64666e-03\tAbsError: 5.76525e-01\n", - " Region: \"zone_3\"\tRelError: 3.16393e-01\tAbsError: 2.62271e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.49491e-02\tAbsError: 1.29724e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.95632e-03\tAbsError: 1.32547e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.97839e-01\tAbsError: 6.29832e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.64866e-03\tAbsError: 5.77242e-01\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.18220e-05\tAbsError: 9.16581e+12\n", - " Region: \"zone_1\"\tRelError: 7.98670e-06\tAbsError: 2.39440e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.31303e-06\tAbsError: 2.34929e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.73668e-07\tAbsError: 2.39205e-04\n", - " Region: \"zone_3\"\tRelError: 2.38353e-05\tAbsError: 9.16581e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.31675e-05\tAbsError: 4.59210e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.33363e-06\tAbsError: 4.57371e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.66041e-06\tAbsError: 2.35961e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.73759e-07\tAbsError: 2.39225e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 9.58997e+01\tAbsError: 3.20526e+15\n", - " Region: \"zone_1\"\tRelError: 1.29777e+01\tAbsError: 2.18715e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29777e+01\tAbsError: 1.22913e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.20649e-05\tAbsError: 2.17486e-02\n", - " Region: \"zone_3\"\tRelError: 8.29220e+01\tAbsError: 3.20526e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.66160e-03\tAbsError: 1.56677e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.59518e-03\tAbsError: 1.63849e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.29127e+01\tAbsError: 1.23738e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.20911e-05\tAbsError: 2.17577e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.68799e+00\tAbsError: 1.24428e+14\n", - " Region: \"zone_1\"\tRelError: 2.78169e+00\tAbsError: 1.62679e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78165e+00\tAbsError: 7.17419e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.64072e-05\tAbsError: 1.62607e-02\n", - " Region: \"zone_3\"\tRelError: 9.06301e-01\tAbsError: 1.24428e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.41976e-04\tAbsError: 6.19540e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.02421e-04\tAbsError: 6.24745e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.05410e-01\tAbsError: 7.21579e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.64251e-05\tAbsError: 1.62670e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:04\u001b[0m.\u001b[1;36m521\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.74817e+00\tAbsError: 1.00690e+14\n", - " Region: \"zone_1\"\tRelError: 2.14136e+00\tAbsError: 1.40275e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.14135e+00\tAbsError: 4.52029e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.00073e-06\tAbsError: 1.39823e-03\n", - " Region: \"zone_3\"\tRelError: 1.60681e+00\tAbsError: 1.00690e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.04820e-04\tAbsError: 5.01493e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.34375e-04\tAbsError: 5.05408e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.60646e+00\tAbsError: 4.54847e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.00161e-06\tAbsError: 1.39859e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.05492e-01\tAbsError: 9.06572e+12\n", - " Region: \"zone_1\"\tRelError: 4.25847e-01\tAbsError: 6.76994e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.25845e-01\tAbsError: 4.28249e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93585e-06\tAbsError: 6.76565e-04\n", - " Region: \"zone_3\"\tRelError: 1.79645e-01\tAbsError: 9.06572e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.72999e-05\tAbsError: 4.51680e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.43151e-05\tAbsError: 4.54892e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.79592e-01\tAbsError: 4.30804e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93585e-06\tAbsError: 6.76565e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.48197e-01\tAbsError: 4.50048e+12\n", - " Region: \"zone_1\"\tRelError: 1.60046e-01\tAbsError: 9.62234e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.60046e-01\tAbsError: 1.80340e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.75240e-07\tAbsError: 9.60431e-05\n", - " Region: \"zone_3\"\tRelError: 8.81510e-02\tAbsError: 4.50048e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.56637e-06\tAbsError: 2.24288e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.56618e-06\tAbsError: 2.25761e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.81336e-02\tAbsError: 1.81436e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.75295e-07\tAbsError: 9.60627e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 4.16881e-02\tAbsError: 5.87027e+11\n", - " Region: \"zone_1\"\tRelError: 2.74007e-02\tAbsError: 3.67679e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.74006e-02\tAbsError: 2.53315e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.05297e-07\tAbsError: 3.67426e-05\n", - " Region: \"zone_3\"\tRelError: 1.42874e-02\tAbsError: 5.87027e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.44350e-06\tAbsError: 2.92634e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.68502e-06\tAbsError: 2.94393e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.42841e-02\tAbsError: 2.55528e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.05309e-07\tAbsError: 3.67468e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.48230e-02\tAbsError: 2.24518e+11\n", - " Region: \"zone_1\"\tRelError: 9.67323e-03\tAbsError: 6.58649e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 9.67321e-03\tAbsError: 9.07531e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.88326e-08\tAbsError: 6.57742e-06\n", - " Region: \"zone_3\"\tRelError: 5.14973e-03\tAbsError: 2.24518e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.12497e-07\tAbsError: 1.11948e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.18689e-07\tAbsError: 1.12571e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.14878e-03\tAbsError: 9.15701e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.88397e-08\tAbsError: 6.57999e-06\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 2.80808e-03\tAbsError: 3.70977e+10\n", - " Region: \"zone_1\"\tRelError: 1.83927e-03\tAbsError: 2.15171e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.83927e-03\tAbsError: 1.71473e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.15592e-09\tAbsError: 2.15000e-06\n", - " Region: \"zone_3\"\tRelError: 9.68805e-04\tAbsError: 3.70977e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.10516e-08\tAbsError: 1.85046e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.09611e-07\tAbsError: 1.85931e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 9.68608e-04\tAbsError: 1.72971e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.15824e-09\tAbsError: 2.15085e-06\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 8.73376e-04\tAbsError: 1.21033e+10\n", - " Region: \"zone_1\"\tRelError: 5.71066e-04\tAbsError: 4.32120e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 5.71065e-04\tAbsError: 5.34362e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.23573e-09\tAbsError: 4.31585e-07\n", - " Region: \"zone_3\"\tRelError: 3.02310e-04\tAbsError: 1.21033e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.19763e-08\tAbsError: 6.03773e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.10528e-08\tAbsError: 6.06556e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.02256e-04\tAbsError: 5.39200e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.23623e-09\tAbsError: 4.31772e-07\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 1.80868e-04\tAbsError: 2.31864e+09\n", - " Region: \"zone_1\"\tRelError: 1.18462e-04\tAbsError: 1.27109e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18462e-04\tAbsError: 1.10538e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.63622e-10\tAbsError: 1.26998e-07\n", - " Region: \"zone_3\"\tRelError: 6.24053e-05\tAbsError: 2.31864e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73488e-09\tAbsError: 1.15691e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.90572e-09\tAbsError: 1.16172e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 6.23933e-05\tAbsError: 1.11505e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.63771e-10\tAbsError: 1.27053e-07\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 5.16278e-05\tAbsError: 6.84005e+08\n", - " Region: \"zone_1\"\tRelError: 3.37813e-05\tAbsError: 2.73846e-08\n", - " Equation: \"PotentialEquation\"\tRelError: 3.37812e-05\tAbsError: 3.15860e-11\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.83172e-11\tAbsError: 2.73530e-08\n", - " Region: \"zone_3\"\tRelError: 1.78465e-05\tAbsError: 6.84005e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.24266e-09\tAbsError: 3.41303e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.85743e-09\tAbsError: 3.42702e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 1.78433e-05\tAbsError: 3.18691e-11\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.83488e-11\tAbsError: 2.73645e-08\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:11\u001b[0m.\u001b[1;36m280\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 1.2\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.69357e+00\tAbsError: 2.66495e+18\n", - " Region: \"zone_1\"\tRelError: 4.21216e+00\tAbsError: 4.09534e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.21216e+00\tAbsError: 4.09534e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.15817e-11\tAbsError: 7.53761e-09\n", - " Region: \"zone_3\"\tRelError: 2.48140e+00\tAbsError: 2.66495e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.26904e-01\tAbsError: 1.33117e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.18950e-01\tAbsError: 1.33378e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43555e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.15905e-11\tAbsError: 7.54080e-09\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 9.11083e-01\tAbsError: 4.29693e+17\n", - " Region: \"zone_1\"\tRelError: 2.33260e-01\tAbsError: 3.01190e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 2.24815e-01\tAbsError: 3.07620e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.44504e-03\tAbsError: 2.98114e+00\n", - " Region: \"zone_3\"\tRelError: 6.77823e-01\tAbsError: 4.29693e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.26134e-01\tAbsError: 2.15151e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.18205e-01\tAbsError: 2.14542e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 2.25038e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.44618e-03\tAbsError: 2.98144e+00\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 3.98015e-01\tAbsError: 3.44260e+16\n", - " Region: \"zone_1\"\tRelError: 1.67630e-01\tAbsError: 4.32385e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55559e-01\tAbsError: 2.58776e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20711e-02\tAbsError: 4.29797e+00\n", - " Region: \"zone_3\"\tRelError: 2.30385e-01\tAbsError: 3.44260e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.28242e-02\tAbsError: 1.71675e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.96798e-02\tAbsError: 1.72585e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55792e-01\tAbsError: 2.58613e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20893e-02\tAbsError: 4.30461e+00\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.88268e-01\tAbsError: 5.44887e+16\n", - " Region: \"zone_1\"\tRelError: 8.11123e-02\tAbsError: 3.74063e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 7.05212e-02\tAbsError: 9.16402e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.05911e-02\tAbsError: 3.73147e+00\n", - " Region: \"zone_3\"\tRelError: 2.07156e-01\tAbsError: 5.44887e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.14920e-02\tAbsError: 2.71499e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.19391e-02\tAbsError: 2.73388e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 7.31159e-02\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06092e-02\tAbsError: 3.73794e+00\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.46664e-01\tAbsError: 4.08487e+16\n", - " Region: \"zone_1\"\tRelError: 4.56801e-02\tAbsError: 3.69590e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.46303e-02\tAbsError: 6.80823e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.04978e-03\tAbsError: 3.68909e-01\n", - " Region: \"zone_3\"\tRelError: 1.00984e-01\tAbsError: 4.08487e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47873e-02\tAbsError: 2.03982e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.89178e-02\tAbsError: 2.04505e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 4.62262e-02\tAbsError: 6.81912e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.05310e-03\tAbsError: 3.70023e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 7.50047e-03\tAbsError: 3.65688e+15\n", - " Region: \"zone_1\"\tRelError: 1.17570e-03\tAbsError: 5.54688e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01812e-03\tAbsError: 2.86291e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.57580e-04\tAbsError: 5.54401e-02\n", - " Region: \"zone_3\"\tRelError: 6.32477e-03\tAbsError: 3.65688e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.94960e-03\tAbsError: 1.81551e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.15827e-03\tAbsError: 1.84137e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.05928e-03\tAbsError: 2.88541e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.57617e-04\tAbsError: 5.54541e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.05325e-03\tAbsError: 7.39656e+14\n", - " Region: \"zone_1\"\tRelError: 1.05635e-03\tAbsError: 4.72946e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04302e-03\tAbsError: 1.25154e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.33385e-05\tAbsError: 4.71694e-03\n", - " Region: \"zone_3\"\tRelError: 1.99689e-03\tAbsError: 7.39656e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.06585e-04\tAbsError: 3.69865e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.95891e-04\tAbsError: 3.69791e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08107e-03\tAbsError: 1.26067e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.33460e-05\tAbsError: 4.71960e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.02228e-04\tAbsError: 7.07967e+13\n", - " Region: \"zone_1\"\tRelError: 5.25423e-05\tAbsError: 1.84411e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 4.72968e-05\tAbsError: 8.14577e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.24545e-06\tAbsError: 1.84329e-03\n", - " Region: \"zone_3\"\tRelError: 1.49686e-04\tAbsError: 7.07967e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.00882e-05\tAbsError: 3.51107e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.52399e-05\tAbsError: 3.56860e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.91100e-05\tAbsError: 8.19808e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.24790e-06\tAbsError: 1.84419e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 9.93368e-05\tAbsError: 1.98300e+13\n", - " Region: \"zone_1\"\tRelError: 3.45670e-05\tAbsError: 1.74429e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.40718e-05\tAbsError: 4.08047e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.95220e-07\tAbsError: 1.74021e-04\n", - " Region: \"zone_3\"\tRelError: 6.47697e-05\tAbsError: 1.98300e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.78567e-06\tAbsError: 9.91314e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.41541e-05\tAbsError: 9.91687e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.53344e-05\tAbsError: 4.11038e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.95524e-07\tAbsError: 1.74130e-04\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:19\u001b[0m.\u001b[1;36m618\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 1.3\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.74984e+00\tAbsError: 2.99427e+18\n", - " Region: \"zone_1\"\tRelError: 1.22014e+00\tAbsError: 4.10265e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.22014e+00\tAbsError: 4.09531e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.08768e-07\tAbsError: 7.33628e-05\n", - " Region: \"zone_3\"\tRelError: 1.52970e+00\tAbsError: 2.99427e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.68781e-01\tAbsError: 1.49643e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.58888e-01\tAbsError: 1.49783e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 6.02035e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.08870e-07\tAbsError: 7.33999e-05\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 7.11354e-01\tAbsError: 3.39922e+17\n", - " Region: \"zone_1\"\tRelError: 1.62508e-01\tAbsError: 4.20847e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.50825e-01\tAbsError: 3.07616e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.16823e-02\tAbsError: 4.17771e+00\n", - " Region: \"zone_3\"\tRelError: 5.48846e-01\tAbsError: 3.39922e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.02912e-01\tAbsError: 1.70116e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.83391e-01\tAbsError: 1.69806e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.50859e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.16835e-02\tAbsError: 4.17814e+00\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.39788e-01\tAbsError: 5.48577e+16\n", - " Region: \"zone_1\"\tRelError: 1.05133e-01\tAbsError: 2.52094e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 9.81720e-02\tAbsError: 2.58708e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.96071e-03\tAbsError: 2.49507e+00\n", - " Region: \"zone_3\"\tRelError: 1.34655e-01\tAbsError: 5.48577e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.44445e-02\tAbsError: 2.73900e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.50754e-02\tAbsError: 2.74677e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 9.81720e-02\tAbsError: 2.58708e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.96305e-03\tAbsError: 2.49588e+00\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.46801e-01\tAbsError: 5.16511e+16\n", - " Region: \"zone_1\"\tRelError: 3.82516e-02\tAbsError: 1.66960e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 3.35977e-02\tAbsError: 9.16363e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.65383e-03\tAbsError: 1.66044e+00\n", - " Region: \"zone_3\"\tRelError: 1.08549e-01\tAbsError: 5.16511e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.50546e-02\tAbsError: 2.58130e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.52331e-02\tAbsError: 2.58381e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.36049e-02\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.65675e-03\tAbsError: 1.66145e+00\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 4.18420e-02\tAbsError: 3.01642e+16\n", - " Region: \"zone_1\"\tRelError: 1.00205e-02\tAbsError: 3.09336e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 9.14415e-03\tAbsError: 3.58905e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.76318e-04\tAbsError: 3.08977e-01\n", - " Region: \"zone_3\"\tRelError: 3.18216e-02\tAbsError: 3.01642e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.57299e-03\tAbsError: 1.50610e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.30870e-02\tAbsError: 1.51033e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 9.28151e-03\tAbsError: 3.59005e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.80063e-04\tAbsError: 3.10394e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.19199e-03\tAbsError: 3.33433e+15\n", - " Region: \"zone_1\"\tRelError: 7.32131e-04\tAbsError: 2.20514e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.70631e-04\tAbsError: 3.80425e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.14997e-05\tAbsError: 2.20134e-02\n", - " Region: \"zone_3\"\tRelError: 5.45986e-03\tAbsError: 3.33433e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.47884e-03\tAbsError: 1.65513e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.44744e-04\tAbsError: 1.67921e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 4.74729e-04\tAbsError: 3.80514e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.15473e-05\tAbsError: 2.20319e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.71686e-04\tAbsError: 6.22919e+14\n", - " Region: \"zone_1\"\tRelError: 7.57987e-05\tAbsError: 4.41710e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.34842e-05\tAbsError: 4.90940e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.23145e-05\tAbsError: 4.41219e-03\n", - " Region: \"zone_3\"\tRelError: 3.95887e-04\tAbsError: 6.22919e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.19030e-04\tAbsError: 3.10182e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.00016e-04\tAbsError: 3.12737e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.45237e-05\tAbsError: 4.91118e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.23180e-05\tAbsError: 4.41341e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.23949e-04\tAbsError: 6.05361e+13\n", - " Region: \"zone_1\"\tRelError: 2.06195e-05\tAbsError: 8.14059e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.83500e-05\tAbsError: 1.11800e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.26953e-06\tAbsError: 8.12941e-04\n", - " Region: \"zone_3\"\tRelError: 1.03330e-04\tAbsError: 6.05361e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.60362e-05\tAbsError: 3.03412e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.74075e-05\tAbsError: 3.01949e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.76158e-05\tAbsError: 1.12220e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.27050e-06\tAbsError: 8.13295e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.75170e-05\tAbsError: 8.97976e+12\n", - " Region: \"zone_1\"\tRelError: 2.87179e-06\tAbsError: 8.96839e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.62152e-06\tAbsError: 1.74588e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.50268e-07\tAbsError: 8.95093e-05\n", - " Region: \"zone_3\"\tRelError: 1.46452e-05\tAbsError: 8.97976e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.00137e-05\tAbsError: 4.44041e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.14437e-06\tAbsError: 4.53935e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.23658e-06\tAbsError: 1.75366e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.50560e-07\tAbsError: 8.96198e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:29\u001b[0m.\u001b[1;36m537\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:30\u001b[0m.\u001b[1;36m580\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:30\u001b[0m.\u001b[1;36m595\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_0.0.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:30\u001b[0m.\u001b[1;36m706\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_0.5.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:30\u001b[0m.\u001b[1;36m812\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_0.55.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:30\u001b[0m.\u001b[1;36m918\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_0.6.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:31\u001b[0m.\u001b[1;36m017\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_0.65.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:31\u001b[0m.\u001b[1;36m129\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_0.7.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:31\u001b[0m.\u001b[1;36m256\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_0.75.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:31\u001b[0m.\u001b[1;36m360\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_0.8.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:31\u001b[0m.\u001b[1;36m475\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_0.85.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:31\u001b[0m.\u001b[1;36m575\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_0.9.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:31\u001b[0m.\u001b[1;36m680\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_0.95.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:31\u001b[0m.\u001b[1;36m778\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_1.0.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:31\u001b[0m.\u001b[1;36m885\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_1.05.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:31\u001b[0m.\u001b[1;36m994\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_1.1.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:32\u001b[0m.\u001b[1;36m104\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_1.15.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:32\u001b[0m.\u001b[1;36m212\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_1.2.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:32\u001b[0m.\u001b[1;36m316\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_1.25.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:32\u001b[0m.\u001b[1;36m423\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_1.3.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:32\u001b[0m.\u001b[1;36m534\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mFinished_reading devsim data\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:32\u001b[0m.\u001b[1;36m544\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading heat-charge solver CHARGE output.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:32\u001b[0m.\u001b[1;36m648\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mProcessing data for monitor charge_global_mnt\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:33\u001b[0m.\u001b[1;36m888\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mProcessing data for monitor potential_global_mnt\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:34\u001b[0m.\u001b[1;36m594\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mProcessing data for monitor capacitance_global_mnt\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:35\u001b[0m.\u001b[1;36m870\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mProcessing data for monitor temp_mnt\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:36\u001b[0m.\u001b[1;36m463\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mPostprocess time (s): 5.8727\u001b[0m \n" - ] - }, - { - "data": { - "text/plain": [ - "CompletedProcess(args=['cp', 'output/simulation_data.hdf5', 'tmp_Ba_example_cst/'], returncode=0)" - ] - }, - "execution_count": 17, - "metadata": {}, - "output_type": "execute_result" - } - ], + "metadata": {}, + "outputs": [], "source": [ - "results_cst = run_heat_sim(sim=sim_cst, log_level=\"DEBUG\")\n", - "subprocess.run([\"cp\", \"-r\", \"tmp\", \"tmp_Ba_example_cst\"]) \n", - "subprocess.run([\"cp\", \"output/simulation_data.hdf5\", \"tmp_Ba_example_cst/\"]) " + "results_cst = run_heat_sim(sim=sim_cst) # , log_level=\"DEBUG\"\n", + "# subprocess.run([\"cp\", \"-r\", \"tmp\", \"tmp_Ba_example_cst\"])\n", + "# subprocess.run([\"cp\", \"output/simulation_data.hdf5\", \"tmp_Ba_example_cst/\"])" ] }, { "cell_type": "code", - "execution_count": 18, + "execution_count": null, "id": "f2db1025-950c-4c15-a7c0-4980022d1ebd", "metadata": { "scrolled": true }, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:36\u001b[0m.\u001b[1;36m815\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mSetting up heat-charge simulation.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:36\u001b[0m.\u001b[1;36m866\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin meshing heat-charge simulation.\u001b[0m \n", - "Debug : Destroying model model\n", - "Debug : Destroying model \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:36\u001b[0m.\u001b[1;36m889\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin adding structures to mesh.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:36\u001b[0m.\u001b[1;36m900\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a single structure:\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:36\u001b[0m.\u001b[1;36m914\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a single structure:\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:36\u001b[0m.\u001b[1;36m926\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a Box.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:36\u001b[0m.\u001b[1;36m938\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a single structure:\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:36\u001b[0m.\u001b[1;36m949\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a Box.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:36\u001b[0m.\u001b[1;36m960\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a single structure:\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:36\u001b[0m.\u001b[1;36m977\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a Box.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:36\u001b[0m.\u001b[1;36m996\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a single structure:\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m012\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a Box.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m028\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a single structure:\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m040\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a Box.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m051\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a single structure:\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m062\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing a Box.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m070\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd adding structures to mesh.\u001b[0m \n" - ] - }, - { - "name": "stderr", - "output_type": "stream", - "text": [ - "Warning : Logger already started - ignoring\n" - ] - }, - { - "name": "stdout", - "output_type": "stream", - "text": [ - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m078\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing refinement region.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m090\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd processing refinement region.\u001b[0m \n", - 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"\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m179\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mProcessing refinement region.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m190\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd processing refinement region.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m200\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin adding monitors.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m211\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd adding monitors.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m219\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin combining added structures.\u001b[0m \n", - "Debug : BOOL (2,1) other \n", - "Debug : BOOL (3,1) replaced by 1\n", - "Debug : BOOL (3,2) other\n", - "Debug : BOOL (3,3) replaced by 1\n", - "Debug : BOOL (3,4) replaced by 1\n", - "Debug : BOOL (3,5) replaced by 1\n", - "Debug : BOOL (3,6) other\n", - "Debug : BOOL (2,38) other\n", - "Debug : BOOL (2,39) other\n", - "Debug : BOOL (2,40) other\n", - "Debug : BOOL (2,41) other\n", - "Debug : BOOL (2,42) other\n", - "Debug : BOOL (2,43) other\n", - "Debug : BOOL (2,44) other\n", - "Debug : BOOL (2,45) other\n", - "Debug : BOOL (2,46) other\n", - "Debug : BOOL (2,47) other\n", - "Debug : BOOL (2,48) other\n", - "Debug : BOOL (2,49) other\n", - "Debug : BOOL in (2,1) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", - "Debug : BOOL in (3,1) -> out (3,1)\n", - "Debug : BOOL in (3,2) -> out (3,6) (3,5) (3,3) (3,7) (3,8) (3,4) (3,9)\n", - "Debug : BOOL in (3,3) -> out (3,3)\n", - "Debug : BOOL in (3,4) -> out (3,4)\n", - "Debug : BOOL in (3,5) -> out (3,5)\n", - "Debug : BOOL in (3,6) -> out (3,9) (3,8)\n", - "Debug : BOOL in (2,38) -> out (2,13) (2,48) (2,49)\n", - "Debug : BOOL in (2,39) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", - "Debug : BOOL in (2,40) -> out (2,8) (2,51) (2,54)\n", - "Debug : BOOL in (2,41) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", - "Debug : BOOL in (2,42) -> out (2,11) (2,60) (2,37) (2,43)\n", - "Debug : BOOL in (2,43) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", - "Debug : BOOL in (2,44) -> out (2,10) (2,63) (2,44) (2,38)\n", - "Debug : BOOL in (2,45) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", - "Debug : BOOL in (2,46) -> out (2,12) (2,53) (2,36)\n", - "Debug : BOOL in (2,47) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", - "Debug : BOOL in (2,48) -> out (2,9) (2,58) (2,39)\n", - "Debug : BOOL in (2,49) -> out (2,47) (2,7) (2,13) (2,48) (2,8) (2,49) (2,50) (2,51) (2,52) (2,53) (2,12) (2,54) (2,55) (2,35) (2,36) (2,56) (2,57) (2,9) (2,58) (2,59) (2,60) (2,11) (2,39) (2,61) (2,37) (2,62) (2,10) (2,63) (2,43) (2,42) (2,38) (2,44)\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m319\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd adding structures to mesh.\u001b[0m \n", - "Debug : Syncing OCC_Internals with GModel\n", - "Debug : Sync is removing 377 model entities\n", - "Debug : Destroying 0 entities in model\n", - "Debug : OCCRTree found 3 matches at (-2.5,-2.09,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 3 matches at (-2.5,-2.09,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 3 matches at (-2.5,-2.09,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 3 matches at (-2.5,-2.09,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 3 matches at (-2.5,-2.09,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 3 matches at (-2.5,-2.09,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 3 matches at (2.5,-2.09,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 3 matches at (2.5,-2.09,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 3 matches at (2.5,-2.09,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 3 matches at (2.5,-2.09,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 3 matches at (2.5,-2.09,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 3 matches at (2.5,-2.09,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,-2.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,-2.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,-2.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.4,-2.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.4,-2.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.4,-2.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-0.09,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-0.09,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-0.09,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.29,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.29,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.29,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.4,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.4,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.4,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-1.31,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-1.31,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-1.31,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-1.19,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-1.19,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-1.19,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-0.31,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-0.31,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-0.31,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-0.19,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-0.19,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-0.19,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0.19,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0.19,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0.19,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0.31,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0.31,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0.31,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (1.19,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (1.19,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (1.19,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (1.31,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (1.31,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (1.31,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.29,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.29,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.29,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,-0.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.4,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.4,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.4,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.29,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.29,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.29,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (1.31,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (1.31,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (1.31,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (1.19,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (1.19,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (1.19,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0.31,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0.31,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0.31,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0.19,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0.19,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0.19,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.19,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.19,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.19,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.31,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.31,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.31,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-1.19,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-1.19,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-1.19,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-1.31,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-1.31,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-1.31,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.29,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.29,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.29,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.4,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.4,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.4,-0.095,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,0.5,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,0.5,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,0.5,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,1,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,1,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,1,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.4,1,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.4,1,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.4,1,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,0.5,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,0.5,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,0.5,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2,0.5,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2,0.5,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2,0.5,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,0.5,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,0.5,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - 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"Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 8 matches at (-2.4,-2.295,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 8 matches at (-2.4,-2.295,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.29,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.29,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.29,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.4,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.4,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.4,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.29,0.005,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.29,0.005,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.29,0.005,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.4,0.005,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.4,0.005,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.4,0.005,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.29,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.29,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.29,0,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.4,0.005,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.4,0.005,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.4,0.005,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.29,0.005,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.29,0.005,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.29,0.005,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 8 matches at (2.4,1.205,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 8 matches at (2.4,1.205,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 8 matches at (2.4,1.205,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 8 matches at (-2.4,1.205,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 8 matches at (-2.4,1.205,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 8 matches at (-2.4,1.205,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.47,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.47,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.47,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.47,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.47,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.47,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.47,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.47,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.47,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.47,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.47,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.47,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 3 matches at (2.5,0,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 3 matches at (2.5,0,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 3 matches at (2.5,0,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 3 matches at (2.5,0,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 3 matches at (2.5,0,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 3 matches at (2.5,0,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,-2.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - 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"Debug : OCCRTree found 2 matches at (-1.19,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-1.19,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.345,0.005,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.345,0.005,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.345,0.005,0) in tree of size 654\n", - 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"Debug : OCCRTree found 2 matches at (1.31,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (1.31,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.31,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.31,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.31,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,0.2525,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,0.2525,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.4,0.2525,0) in tree of size 654\n", - 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"Debug : OCCRTree found 8 matches at (0,1.205,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 8 matches at (0,1.205,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.4,1.1025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.4,1.1025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.4,1.1025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.19,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.19,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.19,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0.31,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0.31,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0.31,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0.19,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0.19,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0.19,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.47,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.47,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.47,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.28,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.28,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.28,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.28,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.28,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.5,-2.28,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0,-2.47,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0,-2.47,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0,-2.47,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.47,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.47,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.47,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0,-2.47,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0,-2.47,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0,-2.47,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.28,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.28,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.28,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.28,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.28,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-2.28,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-0.045,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-0.045,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,-0.045,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,0.25,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,0.25,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,0.25,0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,0.25,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,0.25,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.5,0.25,-0.55) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 7 - new wire\n", - "Debug : Curve 8 (7 --> 8) ori 1\n", - "Debug : Curve 42 (8 --> 34) ori 1\n", - "Debug : Curve 41 (33 --> 34) ori -1\n", - "Debug : Curve 40 (11 --> 33) ori -1\n", - "Debug : Curve 14 (13 --> 11) ori -1\n", - "Debug : Curve 39 (32 --> 13) ori -1\n", - "Debug : Curve 38 (31 --> 32) ori -1\n", - "Debug : Curve 37 (14 --> 31) ori -1\n", - "Debug : Curve 16 (15 --> 14) ori -1\n", - "Debug : Curve 36 (30 --> 15) ori -1\n", - "Debug : Curve 35 (29 --> 30) ori -1\n", - "Debug : Curve 34 (16 --> 29) ori -1\n", - "Debug : Curve 18 (17 --> 16) ori -1\n", - "Debug : Curve 33 (28 --> 17) ori -1\n", - "Debug : Curve 32 (27 --> 28) ori -1\n", - "Debug : Curve 31 (18 --> 27) ori -1\n", - "Debug : Curve 20 (19 --> 18) ori -1\n", - "Debug : Curve 30 (26 --> 19) ori -1\n", - "Debug : Curve 29 (25 --> 26) ori -1\n", - "Debug : Curve 28 (20 --> 25) ori -1\n", - "Debug : Curve 22 (21 --> 20) ori -1\n", - "Debug : Curve 27 (24 --> 21) ori -1\n", - "Debug : Curve 26 (23 --> 24) ori -1\n", - "Debug : Curve 25 (23 --> 7) ori 1\n", - "Debug : OCC surface 7 with 24 parameter bounds (-2.4,2.4)(-1.545,0.455)\n", - "Debug : OCCRTree found 1 matches at (0,-1.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,-1.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,-1.09,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 8 - new wire\n", - "Debug : Curve 43 (22 --> 23) ori 1\n", - "Debug : Curve 26 (23 --> 24) ori 1\n", - "Debug : Curve 27 (24 --> 21) ori 1\n", - "Debug : Curve 23 (22 --> 21) ori -1\n", - "Debug : OCC surface 8 with 4 parameter bounds (-2.4,-2.29)(0.45,0.455)\n", - "Debug : OCCRTree found 1 matches at (2.345,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.345,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.345,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 9 - new wire\n", - "Debug : Curve 21 (20 --> 19) ori -1\n", - "Debug : Curve 28 (20 --> 25) ori 1\n", - "Debug : Curve 29 (25 --> 26) ori 1\n", - "Debug : Curve 30 (26 --> 19) ori 1\n", - "Debug : OCC surface 9 with 4 parameter bounds (-1.31,-1.19)(0.45,0.455)\n", - "Debug : OCCRTree found 1 matches at (1.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (1.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (1.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 10 - new wire\n", - "Debug : Curve 19 (18 --> 17) ori -1\n", - "Debug : Curve 31 (18 --> 27) ori 1\n", - "Debug : Curve 32 (27 --> 28) ori 1\n", - "Debug : Curve 33 (28 --> 17) ori 1\n", - "Debug : OCC surface 10 with 4 parameter bounds (-0.31,-0.19)(0.45,0.455)\n", - "Debug : OCCRTree found 1 matches at (0.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 11 - new wire\n", - "Debug : Curve 36 (30 --> 15) ori 1\n", - "Debug : Curve 17 (16 --> 15) ori -1\n", - "Debug : Curve 34 (16 --> 29) ori 1\n", - "Debug : Curve 35 (29 --> 30) ori 1\n", - "Debug : OCC surface 11 with 4 parameter bounds (0.19,0.31)(0.45,0.455)\n", - "Debug : OCCRTree found 1 matches at (-0.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-0.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-0.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 12 - new wire\n", - "Debug : Curve 39 (32 --> 13) ori 1\n", - "Debug : Curve 15 (14 --> 13) ori -1\n", - "Debug : Curve 37 (14 --> 31) ori 1\n", - "Debug : Curve 38 (31 --> 32) ori 1\n", - "Debug : OCC surface 12 with 4 parameter bounds (1.19,1.31)(0.45,0.455)\n", - "Debug : OCCRTree found 1 matches at (-1.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-1.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-1.25,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 13 - new wire\n", - "Debug : Curve 41 (33 --> 34) ori 1\n", - "Debug : Curve 44 (34 --> 12) ori 1\n", - "Debug : Curve 13 (11 --> 12) ori -1\n", - "Debug : Curve 40 (11 --> 33) ori 1\n", - "Debug : OCC surface 13 with 4 parameter bounds (2.29,2.4)(0.45,0.455)\n", - "Debug : OCCRTree found 1 matches at (-2.345,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.345,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.345,-0.0925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 35 - new wire\n", - "Debug : Curve 93 (70 --> 72) ori 1\n", - "Debug : Curve 118 (72 --> 51) ori 1\n", - "Debug : Curve 62 (50 --> 51) ori -1\n", - "Debug : Curve 117 (50 --> 55) ori 1\n", - "Debug : Curve 68 (55 --> 54) ori 1\n", - "Debug : Curve 70 (56 --> 54) ori -1\n", - "Debug : Curve 74 (56 --> 60) ori 1\n", - "Debug : Curve 116 (84 --> 60) ori -1\n", - "Debug : Curve 115 (83 --> 84) ori -1\n", - "Debug : Curve 114 (59 --> 83) ori -1\n", - "Debug : Curve 72 (59 --> 57) ori 1\n", - "Debug : Curve 113 (82 --> 57) ori -1\n", - "Debug : Curve 112 (62 --> 82) ori -1\n", - "Debug : Curve 77 (62 --> 61) ori 1\n", - "Debug : Curve 80 (61 --> 63) ori 1\n", - "Debug : Curve 82 (65 --> 63) ori -1\n", - "Debug : Curve 111 (81 --> 65) ori -1\n", - "Debug : Curve 110 (69 --> 81) ori -1\n", - "Debug : Curve 86 (69 --> 68) ori 1\n", - "Debug : Curve 109 (80 --> 68) ori -1\n", - "Debug : Curve 108 (79 --> 80) ori -1\n", - "Debug : Curve 107 (66 --> 79) ori -1\n", - "Debug : Curve 84 (66 --> 67) ori 1\n", - "Debug : Curve 90 (67 --> 70) ori 1\n", - "Debug : OCC surface 35 with 24 parameter bounds (-2.4,2.4)(0.545,1.545)\n", - "Debug : OCCRTree found 1 matches at (0,0.5,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,0.5,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,0.5,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 36 - new wire\n", - "Debug : Curve 85 (68 --> 66) ori 1\n", - "Debug : Curve 107 (66 --> 79) ori 1\n", - "Debug : Curve 108 (79 --> 80) ori 1\n", - "Debug : Curve 109 (80 --> 68) ori 1\n", - "Debug : OCC surface 36 with 4 parameter bounds (1.19,1.31)(0.545,0.55)\n", - "Debug : OCCRTree found 1 matches at (-1.25,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-1.25,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-1.25,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 37 - new wire\n", - "Debug : Curve 87 (64 --> 69) ori 1\n", - "Debug : Curve 110 (69 --> 81) ori 1\n", - "Debug : Curve 111 (81 --> 65) ori 1\n", - "Debug : Curve 83 (64 --> 65) ori -1\n", - "Debug : OCC surface 37 with 4 parameter bounds (0.25,0.31)(0.545,0.55)\n", - "Debug : OCCRTree found 1 matches at (-0.28,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-0.28,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-0.28,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 38 - new wire\n", - "Debug : Curve 113 (82 --> 57) ori 1\n", - "Debug : Curve 71 (57 --> 58) ori 1\n", - "Debug : Curve 78 (58 --> 62) ori 1\n", - "Debug : Curve 112 (62 --> 82) ori 1\n", - "Debug : OCC surface 38 with 4 parameter bounds (-0.31,-0.25)(0.545,0.55)\n", - "Debug : OCCRTree found 1 matches at (0.28,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0.28,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0.28,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 39 - new wire\n", - "Debug : Curve 116 (84 --> 60) ori 1\n", - "Debug : Curve 73 (60 --> 59) ori 1\n", - "Debug : Curve 114 (59 --> 83) ori 1\n", - "Debug : Curve 115 (83 --> 84) ori 1\n", - "Debug : OCC surface 39 with 4 parameter bounds (-1.31,-1.19)(0.545,0.55)\n", - "Debug : OCCRTree found 1 matches at (1.25,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (1.25,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (1.25,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 42 - new wire\n", - "Debug : Curve 121 (86 --> 85) ori 1\n", - "Debug : Curve 126 (88 --> 85) ori -1\n", - "Debug : Curve 125 (65 --> 88) ori -1\n", - "Debug : Curve 82 (65 --> 63) ori 1\n", - "Debug : Curve 80 (61 --> 63) ori -1\n", - "Debug : Curve 77 (62 --> 61) ori -1\n", - "Debug : Curve 124 (87 --> 62) ori -1\n", - "Debug : Curve 123 (86 --> 87) ori -1\n", - "Debug : OCC surface 42 with 8 parameter bounds (-0.25,0.25)(0.545,0.765)\n", - "Debug : OCCRTree found 1 matches at (0,0.11,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,0.11,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,0.11,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 43 - new wire\n", - "Debug : Curve 120 (85 --> 64) ori 1\n", - "Debug : Curve 83 (64 --> 65) ori 1\n", - "Debug : Curve 125 (65 --> 88) ori 1\n", - "Debug : Curve 126 (88 --> 85) ori 1\n", - "Debug : OCC surface 43 with 4 parameter bounds (0.19,0.25)(0.545,0.55)\n", - "Debug : OCCRTree found 1 matches at (-0.22,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-0.22,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-0.22,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 44 - new wire\n", - "Debug : Curve 122 (58 --> 86) ori 1\n", - "Debug : Curve 123 (86 --> 87) ori 1\n", - "Debug : Curve 124 (87 --> 62) ori 1\n", - "Debug : Curve 78 (58 --> 62) ori -1\n", - "Debug : OCC surface 44 with 4 parameter bounds (-0.25,-0.19)(0.545,0.55)\n", - "Debug : OCCRTree found 1 matches at (0.22,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0.22,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0.22,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 47 - new wire\n", - "Debug : Curve 128 (89 --> 90) ori 1\n", - "Debug : Curve 130 (90 --> 8) ori 1\n", - "Debug : Curve 8 (7 --> 8) ori -1\n", - "Debug : Curve 129 (7 --> 89) ori 1\n", - "Debug : OCC surface 47 with 4 parameter bounds (-2.4,2.4)(-1.75,-1.545)\n", - "Debug : OCCRTree found 1 matches at (0,-2.1925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,-2.1925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,-2.1925,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 48 - new wire\n", - "Debug : Curve 13 (11 --> 12) ori 1\n", - "Debug : Curve 133 (12 --> 92) ori 1\n", - "Debug : Curve 132 (91 --> 92) ori -1\n", - "Debug : Curve 131 (91 --> 11) ori 1\n", - "Debug : OCC surface 48 with 4 parameter bounds (2.29,2.4)(0.455,0.545)\n", - "Debug : OCCRTree found 2 matches at (-2.345,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.345,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-2.345,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 49 - new wire\n", - "Debug : Curve 132 (91 --> 92) ori 1\n", - "Debug : Curve 136 (92 --> 94) ori 1\n", - "Debug : Curve 135 (94 --> 93) ori 1\n", - "Debug : Curve 134 (93 --> 91) ori 1\n", - "Debug : OCC surface 49 with 4 parameter bounds (2.29,2.4)(0.545,0.55)\n", - "Debug : OCCRTree found 1 matches at (-2.345,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.345,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.345,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 50 - new wire\n", - "Debug : Curve 14 (13 --> 11) ori 1\n", - "Debug : Curve 131 (91 --> 11) ori -1\n", - "Debug : Curve 138 (67 --> 91) ori -1\n", - "Debug : Curve 84 (66 --> 67) ori -1\n", - "Debug : Curve 137 (13 --> 66) ori -1\n", - "Debug : OCC surface 50 with 5 parameter bounds (1.31,2.29)(0.455,0.545)\n", - "Debug : OCCRTree found 1 matches at (-1.8,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-1.8,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-1.8,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 51 - new wire\n", - "Debug : Curve 139 (95 --> 22) ori 1\n", - "Debug : Curve 23 (22 --> 21) ori 1\n", - "Debug : Curve 141 (21 --> 96) ori 1\n", - "Debug : Curve 140 (95 --> 96) ori -1\n", - "Debug : OCC surface 51 with 4 parameter bounds (-2.4,-2.29)(0.455,0.545)\n", - "Debug : OCCRTree found 2 matches at (2.345,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.345,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (2.345,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 52 - new wire\n", - "Debug : Curve 135 (94 --> 93) ori -1\n", - "Debug : Curve 142 (94 --> 72) ori 1\n", - "Debug : Curve 93 (70 --> 72) ori -1\n", - "Debug : Curve 90 (67 --> 70) ori -1\n", - "Debug : Curve 138 (67 --> 91) ori 1\n", - "Debug : Curve 134 (93 --> 91) ori -1\n", - "Debug : OCC surface 52 with 6 parameter bounds (2,2.4)(0.545,1.045)\n", - "Debug : OCCRTree found 1 matches at (-2.2,0.25,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.2,0.25,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-2.2,0.25,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 53 - new wire\n", - "Debug : Curve 15 (14 --> 13) ori 1\n", - "Debug : Curve 137 (13 --> 66) ori 1\n", - "Debug : Curve 85 (68 --> 66) ori -1\n", - "Debug : Curve 143 (68 --> 14) ori 1\n", - "Debug : OCC surface 53 with 4 parameter bounds (1.19,1.31)(0.455,0.545)\n", - "Debug : OCCRTree found 2 matches at (-1.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-1.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-1.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 54 - new wire\n", - "Debug : Curve 144 (97 --> 95) ori 1\n", - "Debug : Curve 140 (95 --> 96) ori 1\n", - "Debug : Curve 146 (96 --> 98) ori 1\n", - "Debug : Curve 145 (98 --> 97) ori 1\n", - "Debug : OCC surface 54 with 4 parameter bounds (-2.4,-2.29)(0.545,0.55)\n", - "Debug : OCCRTree found 1 matches at (2.345,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.345,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.345,0.0025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 55 - new wire\n", - "Debug : Curve 141 (21 --> 96) ori -1\n", - "Debug : Curve 22 (21 --> 20) ori 1\n", - "Debug : Curve 148 (60 --> 20) ori -1\n", - "Debug : Curve 74 (56 --> 60) ori -1\n", - "Debug : Curve 147 (96 --> 56) ori -1\n", - "Debug : OCC surface 55 with 5 parameter bounds (-2.29,-1.31)(0.455,0.545)\n", - "Debug : OCCRTree found 1 matches at (1.8,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (1.8,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (1.8,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 56 - new wire\n", - "Debug : Curve 16 (15 --> 14) ori 1\n", - "Debug : Curve 143 (68 --> 14) ori -1\n", - "Debug : Curve 86 (69 --> 68) ori -1\n", - "Debug : Curve 149 (15 --> 69) ori -1\n", - "Debug : OCC surface 56 with 4 parameter bounds (0.31,1.19)(0.455,0.545)\n", - "Debug : OCCRTree found 1 matches at (-0.75,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-0.75,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (-0.75,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 57 - new wire\n", - "Debug : Curve 150 (55 --> 97) ori 1\n", - "Debug : Curve 145 (98 --> 97) ori -1\n", - "Debug : Curve 146 (96 --> 98) ori -1\n", - "Debug : Curve 147 (96 --> 56) ori 1\n", - "Debug : Curve 70 (56 --> 54) ori 1\n", - "Debug : Curve 68 (55 --> 54) ori -1\n", - "Debug : OCC surface 57 with 6 parameter bounds (-2.4,-2)(0.545,1.045)\n", - "Debug : OCCRTree found 1 matches at (2.2,0.25,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.2,0.25,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (2.2,0.25,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 58 - new wire\n", - "Debug : Curve 148 (60 --> 20) ori 1\n", - "Debug : Curve 21 (20 --> 19) ori 1\n", - "Debug : Curve 151 (19 --> 59) ori 1\n", - "Debug : Curve 73 (60 --> 59) ori -1\n", - "Debug : OCC surface 58 with 4 parameter bounds (-1.31,-1.19)(0.455,0.545)\n", - "Debug : OCCRTree found 2 matches at (1.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (1.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (1.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 59 - new wire\n", - "Debug : Curve 62 (50 --> 51) ori 1\n", - "Debug : Curve 154 (51 --> 100) ori 1\n", - "Debug : Curve 153 (100 --> 99) ori 1\n", - "Debug : Curve 152 (99 --> 50) ori 1\n", - "Debug : OCC surface 59 with 4 parameter bounds (-2.4,2.4)(1.545,1.75)\n", - "Debug : OCCRTree found 1 matches at (0,1.1025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,1.1025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,1.1025,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 60 - new wire\n", - "Debug : Curve 17 (16 --> 15) ori 1\n", - "Debug : Curve 149 (15 --> 69) ori 1\n", - "Debug : Curve 87 (64 --> 69) ori -1\n", - "Debug : Curve 120 (85 --> 64) ori -1\n", - "Debug : Curve 155 (85 --> 16) ori 1\n", - "Debug : OCC surface 60 with 5 parameter bounds (0.19,0.31)(0.455,0.545)\n", - "Debug : OCCRTree found 2 matches at (-0.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (-0.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 61 - new wire\n", - "Debug : Curve 151 (19 --> 59) ori -1\n", - "Debug : Curve 20 (19 --> 18) ori 1\n", - "Debug : Curve 156 (57 --> 18) ori -1\n", - "Debug : Curve 72 (59 --> 57) ori -1\n", - "Debug : OCC surface 61 with 4 parameter bounds (-1.19,-0.31)(0.455,0.545)\n", - "Debug : OCCRTree found 1 matches at (0.75,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0.75,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0.75,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 62 - new wire\n", - "Debug : Curve 18 (17 --> 16) ori 1\n", - "Debug : Curve 155 (85 --> 16) ori -1\n", - "Debug : Curve 121 (86 --> 85) ori -1\n", - "Debug : Curve 157 (17 --> 86) ori -1\n", - "Debug : OCC surface 62 with 4 parameter bounds (-0.19,0.19)(0.455,0.545)\n", - "Debug : OCCRTree found 1 matches at (0,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 1 matches at (0,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCC surface 63 - new wire\n", - "Debug : Curve 156 (57 --> 18) ori 1\n", - "Debug : Curve 19 (18 --> 17) ori 1\n", - "Debug : Curve 157 (17 --> 86) ori 1\n", - "Debug : Curve 122 (58 --> 86) ori -1\n", - "Debug : Curve 71 (57 --> 58) ori -1\n", - "Debug : OCC surface 63 with 5 parameter bounds (-0.31,-0.19)(0.455,0.545)\n", - "Debug : OCCRTree found 2 matches at (0.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : OCCRTree found 2 matches at (0.25,-0.045,0) in tree of size 654\n", - "Debug : OCCRtree 0 matches after bounding box filtering\n", - "Debug : GModel imported:\n", - "Debug : 81 points\n", - "Debug : 110 curves\n", - "Debug : 32 surfaces\n", - "Debug : 0 volumes\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m346\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin constructing surface dictionary.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m359\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd constructing surface dictionary.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m369\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin create volume zones.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m380\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd create volume zones.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m390\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin create surface zones.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m405\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mContinue create surface zones.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m417\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd create surface zones.\u001b[0m \n", - "Debug : Decoded option name 'Mesh' . 'MeshSizeExtendFromBoundary' (index 0)\n", - "Debug : Decoded option name 'Mesh' . 'MeshSizeFromPoints' (index 0)\n", - "Debug : Decoded option name 'Mesh' . 'MeshSizeFromCurvature' (index 0)\n", - "Debug : Destroying 28 entities in model\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m428\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBegin meshing.\u001b[0m \n", - "Debug : Decoded option name 'Mesh' . 'Algorithm' (index 0)\n", - "Debug : Decoded option name 'Mesh' . 'Algorithm3D' (index 0)\n", - "Debug : Decoded option name 'General' . 'NumThreads' (index 0)\n", - "Info : Meshing 1D...\n", - "Info : [ 0%] Meshing curve 8 (Line)\n", - "Debug : Meshing curve 8 (Line): 9 interior vertices\n", - "Info : [ 10%] Meshing curve 13 (Line)\n", - "Debug : Meshing curve 13 (Line): 26 interior vertices\n", - "Info : [ 10%] Meshing curve 14 (Line)\n", - "Debug : Meshing curve 14 (Line): 44 interior vertices\n", - "Info : [ 10%] Meshing curve 15 (Line)\n", - "Debug : Meshing curve 15 (Line): 28 interior vertices\n", - "Info : [ 10%] Meshing curve 16 (Line)\n", - "Debug : Meshing curve 16 (Line): 40 interior vertices\n", - "Info : [ 10%] Meshing curve 17 (Line)\n", - "Debug : Meshing curve 17 (Line): 28 interior vertices\n", - "Info : [ 10%] Meshing curve 18 (Line)\n", - "Debug : Meshing curve 18 (Line): 20 interior vertices\n", - "Info : [ 10%] Meshing curve 19 (Line)\n", - "Debug : Meshing curve 19 (Line): 28 interior vertices\n", - "Info : [ 10%] Meshing curve 20 (Line)\n", - "Debug : Meshing curve 20 (Line): 40 interior vertices\n", - "Info : [ 10%] Meshing curve 21 (Line)\n", - "Debug : Meshing curve 21 (Line): 28 interior vertices\n", - "Info : [ 20%] Meshing curve 22 (Line)\n", - "Debug : Meshing curve 22 (Line): 44 interior vertices\n", - "Info : [ 20%] Meshing curve 23 (Line)\n", - "Debug : Meshing curve 23 (Line): 26 interior vertices\n", - "Info : [ 20%] Meshing curve 25 (Line)\n", - "Debug : Meshing curve 25 (Line): 15 interior vertices\n", - "Info : [ 20%] Meshing curve 26 (Line)\n", - "Debug : Meshing curve 26 (Line): 26 interior vertices\n", - "Info : [ 20%] Meshing curve 27 (Line)\n", - "Debug : Meshing curve 27 (Line): 1 interior vertices\n", - "Info : [ 20%] Meshing curve 28 (Line)\n", - "Debug : Meshing curve 28 (Line): 1 interior vertices\n", - "Info : [ 20%] Meshing curve 29 (Line)\n", - "Debug : Meshing curve 29 (Line): 28 interior vertices\n", - "Info : [ 20%] Meshing curve 30 (Line)\n", - "Debug : Meshing curve 30 (Line): 1 interior vertices\n", - "Info : [ 20%] Meshing curve 31 (Line)\n", - "Debug : Meshing curve 31 (Line): 1 interior vertices\n", - "Info : [ 20%] Meshing curve 32 (Line)\n", - "Debug : Meshing curve 32 (Line): 28 interior vertices\n", - "Info : [ 30%] Meshing curve 33 (Line)\n", - "Debug : Meshing curve 33 (Line): 1 interior vertices\n", - "Info : [ 30%] Meshing curve 34 (Line)\n", - "Debug : Meshing curve 34 (Line): 1 interior vertices\n", - "Info : [ 30%] Meshing curve 35 (Line)\n", - "Debug : Meshing curve 35 (Line): 28 interior vertices\n", - "Info : [ 30%] Meshing curve 36 (Line)\n", - "Debug : Meshing curve 36 (Line): 1 interior vertices\n", - "Info : [ 30%] Meshing curve 37 (Line)\n", - "Debug : Meshing curve 37 (Line): 1 interior vertices\n", - "Info : [ 30%] Meshing curve 38 (Line)\n", - "Debug : Meshing curve 38 (Line): 28 interior vertices\n", - "Info : [ 30%] Meshing curve 39 (Line)\n", - "Debug : Meshing curve 39 (Line): 1 interior vertices\n", - "Info : [ 30%] Meshing curve 40 (Line)\n", - "Debug : Meshing curve 40 (Line): 1 interior vertices\n", - "Info : [ 30%] Meshing curve 41 (Line)\n", - "Debug : Meshing curve 41 (Line): 26 interior vertices\n", - "Info : [ 40%] Meshing curve 42 (Line)\n", - "Debug : Meshing curve 42 (Line): 15 interior vertices\n", - "Info : [ 40%] Meshing curve 43 (Line)\n", - "Debug : Meshing curve 43 (Line): 1 interior vertices\n", - "Info : [ 40%] Meshing curve 44 (Line)\n", - "Debug : Meshing curve 44 (Line): 1 interior vertices\n", - "Info : [ 40%] Meshing curve 62 (Line)\n", - "Debug : Meshing curve 62 (Line): 9 interior vertices\n", - "Info : [ 40%] Meshing curve 68 (Line)\n", - "Debug : Meshing curve 68 (Line): 0 interior vertices\n", - "Info : [ 40%] Meshing curve 70 (Line)\n", - "Debug : Meshing curve 70 (Line): 4 interior vertices\n", - "Info : [ 40%] Meshing curve 71 (Line)\n", - "Debug : Meshing curve 71 (Line): 14 interior vertices\n", - "Info : [ 40%] Meshing curve 72 (Line)\n", - "Debug : Meshing curve 72 (Line): 40 interior vertices\n", - "Info : [ 40%] Meshing curve 73 (Line)\n", - "Debug : Meshing curve 73 (Line): 28 interior vertices\n", - "Info : [ 40%] Meshing curve 74 (Line)\n", - "Debug : Meshing curve 74 (Line): 30 interior vertices\n", - "Info : [ 50%] Meshing curve 77 (Line)\n", - "Debug : Meshing curve 77 (Line): 11 interior vertices\n", - "Info : [ 50%] Meshing curve 78 (Line)\n", - "Debug : Meshing curve 78 (Line): 1 interior vertices\n", - "Info : [ 50%] Meshing curve 80 (Line)\n", - "Debug : Meshing curve 80 (Line): 19 interior vertices\n", - "Info : [ 50%] Meshing curve 82 (Line)\n", - "Debug : Meshing curve 82 (Line): 11 interior vertices\n", - "Info : [ 50%] Meshing curve 83 (Line)\n", - "Debug : Meshing curve 83 (Line): 1 interior vertices\n", - "Info : [ 50%] Meshing curve 84 (Line)\n", - "Debug : Meshing curve 84 (Line): 30 interior vertices\n", - "Info : [ 50%] Meshing curve 85 (Line)\n", - "Debug : Meshing curve 85 (Line): 28 interior vertices\n", - "Info : [ 50%] Meshing curve 86 (Line)\n", - "Debug : Meshing curve 86 (Line): 40 interior vertices\n", - "Info : [ 50%] Meshing curve 87 (Line)\n", - "Debug : Meshing curve 87 (Line): 14 interior vertices\n", - "Info : [ 60%] Meshing curve 90 (Line)\n", - "Debug : Meshing curve 90 (Line): 4 interior vertices\n", - "Info : [ 60%] Meshing curve 93 (Line)\n", - "Debug : Meshing curve 93 (Line): 0 interior vertices\n", - "Info : [ 60%] Meshing curve 107 (Line)\n", - "Debug : Meshing curve 107 (Line): 1 interior vertices\n", - "Info : [ 60%] Meshing curve 108 (Line)\n", - "Debug : Meshing curve 108 (Line): 28 interior vertices\n", - "Info : [ 60%] Meshing curve 109 (Line)\n", - "Debug : Meshing curve 109 (Line): 1 interior vertices\n", - "Info : [ 60%] Meshing curve 110 (Line)\n", - "Debug : Meshing curve 110 (Line): 1 interior vertices\n", - "Info : [ 60%] Meshing curve 111 (Line)\n", - "Debug : Meshing curve 111 (Line): 14 interior vertices\n", - "Info : [ 60%] Meshing curve 112 (Line)\n", - "Debug : Meshing curve 112 (Line): 14 interior vertices\n", - "Info : [ 60%] Meshing curve 113 (Line)\n", - "Debug : Meshing curve 113 (Line): 1 interior vertices\n", - "Info : [ 60%] Meshing curve 114 (Line)\n", - "Debug : Meshing curve 114 (Line): 1 interior vertices\n", - "Info : [ 70%] Meshing curve 115 (Line)\n", - "Debug : Meshing curve 115 (Line): 28 interior vertices\n", - "Info : [ 70%] Meshing curve 116 (Line)\n", - "Debug : Meshing curve 116 (Line): 1 interior vertices\n", - "Info : [ 70%] Meshing curve 117 (Line)\n", - "Debug : Meshing curve 117 (Line): 0 interior vertices\n", - "Info : [ 70%] Meshing curve 118 (Line)\n", - "Debug : Meshing curve 118 (Line): 0 interior vertices\n", - "Info : [ 70%] Meshing curve 120 (Line)\n", - "Debug : Meshing curve 120 (Line): 14 interior vertices\n", - "Info : [ 70%] Meshing curve 121 (Line)\n", - "Debug : Meshing curve 121 (Line): 20 interior vertices\n", - "Info : [ 70%] Meshing curve 122 (Line)\n", - "Debug : Meshing curve 122 (Line): 14 interior vertices\n", - "Info : [ 70%] Meshing curve 123 (Line)\n", - "Debug : Meshing curve 123 (Line): 1 interior vertices\n", - "Info : [ 70%] Meshing curve 124 (Line)\n", - "Debug : Meshing curve 124 (Line): 14 interior vertices\n", - "Info : [ 70%] Meshing curve 125 (Line)\n", - "Debug : Meshing curve 125 (Line): 14 interior vertices\n", - "Info : [ 80%] Meshing curve 126 (Line)\n", - "Debug : Meshing curve 126 (Line): 1 interior vertices\n", - "Info : [ 80%] Meshing curve 131 (Line)\n", - "Debug : Meshing curve 131 (Line): 21 interior vertices\n", - "Info : [ 80%] Meshing curve 132 (Line)\n", - "Debug : Meshing curve 132 (Line): 26 interior vertices\n", - "Info : [ 80%] Meshing curve 133 (Line)\n", - "Debug : Meshing curve 133 (Line): 21 interior vertices\n", - "Info : [ 80%] Meshing curve 137 (Line)\n", - "Debug : Meshing curve 137 (Line): 21 interior vertices\n", - "Info : [ 80%] Meshing curve 138 (Line)\n", - "Debug : Meshing curve 138 (Line): 14 interior vertices\n", - "Info : [ 80%] Meshing curve 139 (Line)\n", - "Debug : Meshing curve 139 (Line): 21 interior vertices\n", - "Info : [ 80%] Meshing curve 140 (Line)\n", - "Debug : Meshing curve 140 (Line): 26 interior vertices\n", - "Info : [ 80%] Meshing curve 141 (Line)\n", - "Debug : Meshing curve 141 (Line): 21 interior vertices\n", - "Info : [ 90%] Meshing curve 143 (Line)\n", - "Debug : Meshing curve 143 (Line): 21 interior vertices\n", - "Info : [ 90%] Meshing curve 147 (Line)\n", - "Debug : Meshing curve 147 (Line): 14 interior vertices\n", - "Info : [ 90%] Meshing curve 148 (Line)\n", - "Debug : Meshing curve 148 (Line): 21 interior vertices\n", - "Info : [ 90%] Meshing curve 149 (Line)\n", - "Debug : Meshing curve 149 (Line): 21 interior vertices\n", - "Info : [ 90%] Meshing curve 151 (Line)\n", - "Debug : Meshing curve 151 (Line): 21 interior vertices\n", - "Info : [ 90%] Meshing curve 155 (Line)\n", - "Debug : Meshing curve 155 (Line): 21 interior vertices\n", - "Info : [ 90%] Meshing curve 156 (Line)\n", - "Debug : Meshing curve 156 (Line): 21 interior vertices\n", - "Info : [ 90%] Meshing curve 157 (Line)\n", - "Debug : Meshing curve 157 (Line): 21 interior vertices\n", - "Info : [ 90%] Meshing curve 158 (Line)\n", - "Debug : Meshing curve 158 (Line): 2 interior vertices\n", - "Info : [ 90%] Meshing curve 159 (Line)\n", - "Debug : Meshing curve 159 (Line): 0 interior vertices\n", - "Info : [100%] Meshing curve 160 (Line)\n", - "Debug : Meshing curve 160 (Line): 0 interior vertices\n", - "Info : [100%] Meshing curve 161 (Line)\n", - "Debug : Meshing curve 161 (Line): 9 interior vertices\n", - "Info : [100%] Meshing curve 162 (Line)\n", - "Debug : Meshing curve 162 (Line): 2 interior vertices\n", - "Info : [100%] Meshing curve 163 (Line)\n", - "Debug : Meshing curve 163 (Line): 9 interior vertices\n", - "Info : [100%] Meshing curve 164 (Line)\n", - "Debug : Meshing curve 164 (Line): 0 interior vertices\n", - "Info : [100%] Meshing curve 165 (Line)\n", - "Debug : Meshing curve 165 (Line): 0 interior vertices\n", - "Info : [100%] Meshing curve 171 (Line)\n", - "Debug : Meshing curve 171 (Line): 0 interior vertices\n", - "Info : [100%] Meshing curve 178 (Line)\n", - "Debug : Meshing curve 178 (Line): 0 interior vertices\n", - "Info : [100%] Meshing curve 179 (Line)\n", - "Debug : Meshing curve 179 (Line): 0 interior vertices\n", - "Info : Done meshing 1D (Wall 0.0770174s, CPU 0.081491s)\n", - "Info : Meshing 2D...\n", - "Info : [ 0%] Meshing surface 7 (Plane, Delaunay)\n", - "Debug : Recovering 24 model edges\n", - "Debug : Recovering 425 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 7\n", - "Debug : Computing mesh size field at mesh nodes 425\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 425 points created -- Worst tri radius is 47.689\n", - "Debug : Point -2.28753 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point 2.28753 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.31247 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.31247 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.312471 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point 0.312471 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.18753 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.18753 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point 0.187542 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.187542 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 2011 triangles generated, 794 internal nodes\n", - "Info : [ 10%] Meshing surface 8 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 58 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 8\n", - "Debug : Computing mesh size field at mesh nodes 58\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 58 points created -- Worst tri radius is 0.792\n", - "Debug : Point -2.39796 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : Point -2.39796 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point -2.29204 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point -2.29204 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 110 triangles generated, 27 internal nodes\n", - "Info : [ 10%] Meshing surface 9 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 62 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 9\n", - "Debug : Computing mesh size field at mesh nodes 62\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 62 points created -- Worst tri radius is 0.794\n", - "Debug : Point -1.19207 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.30793 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.30793 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.19207 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.30718 0.4525 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.19282 0.4525 cannot be inserted because it is too close to another point)\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 114 triangles generated, 27 internal nodes\n", - "Info : [ 20%] Meshing surface 10 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 62 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 10\n", - "Debug : Computing mesh size field at mesh nodes 62\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 62 points created -- Worst tri radius is 0.794\n", - "Debug : Point -0.307931 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.192069 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.192069 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.307931 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.192824 0.4525 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.307176 0.4525 cannot be inserted because it is too close to another point)\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 114 triangles generated, 27 internal nodes\n", - "Info : [ 20%] Meshing surface 11 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 62 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 11\n", - "Debug : Computing mesh size field at mesh nodes 62\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 62 points created -- Worst tri radius is 0.794\n", - "Debug : Point 0.307931 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point 0.192069 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : Point 0.307931 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : Point 0.192069 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point 0.192824 0.4525 cannot be inserted because it is too close to another point)\n", - "Debug : Point 0.307176 0.4525 cannot be inserted because it is too close to another point)\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 114 triangles generated, 27 internal nodes\n", - "Info : [ 20%] Meshing surface 12 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 62 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 12\n", - "Debug : Computing mesh size field at mesh nodes 62\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 62 points created -- Worst tri radius is 0.794\n", - "Debug : Point 1.30793 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.19207 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.19207 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.30793 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.19282 0.4525 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.30718 0.4525 cannot be inserted because it is too close to another point)\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 114 triangles generated, 27 internal nodes\n", - "Info : [ 30%] Meshing surface 13 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 58 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 13\n", - "Debug : Computing mesh size field at mesh nodes 58\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 58 points created -- Worst tri radius is 0.792\n", - "Debug : Point 2.39796 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : Point 2.39796 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point 2.29204 0.45375 cannot be inserted because it is too close to another point)\n", - "Debug : Point 2.29204 0.45125 cannot be inserted because it is too close to another point)\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 110 triangles generated, 27 internal nodes\n", - "Info : [ 30%] Meshing surface 35 (Plane, Delaunay)\n", - "Debug : Recovering 24 model edges\n", - "Debug : Recovering 312 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 35\n", - "Debug : Computing mesh size field at mesh nodes 312\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 312 points created -- Worst tri radius is 28.183\n", - "Debug : Point 0.278471 0.753119 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.278471 0.753119 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.92425 0.599632 cannot be inserted because it is too close to another point)\n", - "Debug : Point 0.92425 0.599632 cannot be inserted because it is too close to another point)\n", - "Debug : Point 0.974031 0.599626 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.974031 0.599626 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.0236 0.600088 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.0236 0.600088 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.79154 0.598819 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.74272 0.599332 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.79154 0.598819 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.74272 0.599332 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.90192 0.601289 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.90192 0.601289 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.312471 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : Point 0.312471 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.18753 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.18753 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.31243 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.31243 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.268545 0.773526 cannot be inserted because it is too close to another point)\n", - "Debug : Point 0.268545 0.773526 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.60759 0.590312 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.60759 0.590312 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.97768 0.604631 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.97768 0.604631 cannot be inserted because it is too close to another point)\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 1284 triangles generated, 487 internal nodes\n", - "Info : [ 40%] Meshing surface 36 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 62 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 36\n", - "Debug : Computing mesh size field at mesh nodes 62\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 62 points created -- Worst tri radius is 0.794\n", - "Debug : Point 1.19207 0.54875 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.19207 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.30793 0.54875 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.30793 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.19282 0.5475 cannot be inserted because it is too close to another point)\n", - "Debug : Point 1.30718 0.5475 cannot be inserted because it is too close to another point)\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 114 triangles generated, 27 internal nodes\n", - "Info : [ 40%] Meshing surface 37 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 34 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 37\n", - "Debug : Computing mesh size field at mesh nodes 34\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 34 points created -- Worst tri radius is 0.800\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 62 triangles generated, 15 internal nodes\n", - "Info : [ 40%] Meshing surface 38 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 34 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 38\n", - "Debug : Computing mesh size field at mesh nodes 34\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 34 points created -- Worst tri radius is 0.800\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 62 triangles generated, 15 internal nodes\n", - "Info : [ 50%] Meshing surface 39 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 62 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 39\n", - "Debug : Computing mesh size field at mesh nodes 62\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 62 points created -- Worst tri radius is 0.794\n", - "Debug : Point -1.30793 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.19207 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.30793 0.54875 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.19207 0.54875 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.19282 0.5475 cannot be inserted because it is too close to another point)\n", - "Debug : Point -1.30718 0.5475 cannot be inserted because it is too close to another point)\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 114 triangles generated, 27 internal nodes\n", - "Info : [ 50%] Meshing surface 42 (Plane, Delaunay)\n", - "Debug : Recovering 8 model edges\n", - "Debug : Recovering 99 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 42\n", - "Debug : Computing mesh size field at mesh nodes 99\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 99 points created -- Worst tri radius is 9.102\n", - "Debug : Point 0.187542 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : Point -0.187542 0.54625 cannot be inserted because it is too close to another point)\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 617 triangles generated, 260 internal nodes\n", - "Info : [ 60%] Meshing surface 43 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 34 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 43\n", - "Debug : Computing mesh size field at mesh nodes 34\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 34 points created -- Worst tri radius is 0.800\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 62 triangles generated, 15 internal nodes\n", - "Info : [ 60%] Meshing surface 44 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 34 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 44\n", - "Debug : Computing mesh size field at mesh nodes 34\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 34 points created -- Worst tri radius is 0.800\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 62 triangles generated, 15 internal nodes\n", - "Info : [ 60%] Meshing surface 48 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 98 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 48\n", - "Debug : Computing mesh size field at mesh nodes 98\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 98 points created -- Worst tri radius is 11.057\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 1502 triangles generated, 703 internal nodes\n", - "Info : [ 70%] Meshing surface 50 (Plane, Delaunay)\n", - "Debug : Recovering 5 model edges\n", - "Debug : Recovering 135 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 50\n", - "Debug : Computing mesh size field at mesh nodes 135\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 135 points created -- Worst tri radius is 5.960\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 539 triangles generated, 203 internal nodes\n", - "Info : [ 70%] Meshing surface 51 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 98 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 51\n", - "Debug : Computing mesh size field at mesh nodes 98\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 98 points created -- Worst tri radius is 11.057\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 1516 triangles generated, 710 internal nodes\n", - "Info : [ 70%] Meshing surface 53 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 102 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 53\n", - "Debug : Computing mesh size field at mesh nodes 102\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 102 points created -- Worst tri radius is 10.917\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 1620 triangles generated, 760 internal nodes\n", - "Info : [ 80%] Meshing surface 55 (Plane, Delaunay)\n", - "Debug : Recovering 5 model edges\n", - "Debug : Recovering 135 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 55\n", - "Debug : Computing mesh size field at mesh nodes 135\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 135 points created -- Worst tri radius is 5.960\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 539 triangles generated, 203 internal nodes\n", - "Info : [ 80%] Meshing surface 56 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 126 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 56\n", - "Debug : Computing mesh size field at mesh nodes 126\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 126 points created -- Worst tri radius is 5.990\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 486 triangles generated, 181 internal nodes\n", - "Info : [ 90%] Meshing surface 58 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 102 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 58\n", - "Debug : Computing mesh size field at mesh nodes 102\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 102 points created -- Worst tri radius is 10.917\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 1612 triangles generated, 756 internal nodes\n", - "Info : [ 90%] Meshing surface 60 (Plane, Delaunay)\n", - "Debug : Recovering 5 model edges\n", - "Debug : Recovering 103 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 60\n", - "Debug : Computing mesh size field at mesh nodes 103\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 103 points created -- Worst tri radius is 11.128\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 1627 triangles generated, 763 internal nodes\n", - "Info : [ 90%] Meshing surface 61 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 126 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 61\n", - "Debug : Computing mesh size field at mesh nodes 126\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 126 points created -- Worst tri radius is 5.990\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 494 triangles generated, 185 internal nodes\n", - "Info : [100%] Meshing surface 62 (Plane, Delaunay)\n", - "Debug : Recovering 4 model edges\n", - "Debug : Recovering 86 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 62\n", - "Debug : Computing mesh size field at mesh nodes 86\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 86 points created -- Worst tri radius is 6.043\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 326 triangles generated, 121 internal nodes\n", - "Info : [100%] Meshing surface 63 (Plane, Delaunay)\n", - "Debug : Recovering 5 model edges\n", - "Debug : Recovering 103 mesh edges (0 not recovered)\n", - "Debug : Boundary edges recovered for surface 63\n", - "Debug : Computing mesh size field at mesh nodes 103\n", - "Debug : Delaunizing the initial mesh\n", - "Debug : Starting to add internal nodes\n", - "Debug : 103 points created -- Worst tri radius is 11.128\n", - "Debug : laplacian smoothing ...\n", - "Debug : Type 16 1613 triangles generated, 756 internal nodes\n", - "Info : Done meshing 2D (Wall 0.221417s, CPU 0.233159s)\n", - "Info : 8604 nodes 18480 elements\n", - "Debug : Minimum mesh quality (ICN) = 0.348727\n", - "Debug : Renumbering for potentially partial mesh save\n", - "Info : Removing duplicate mesh elements...\n", - "Info : Done removing duplicate mesh elements\n", - "Info : Removing duplicate mesh nodes...\n", - "Info : Found 0 duplicate nodes \n", - "Info : No duplicate nodes found\n", - "Debug : Renumbering for potentially partial mesh save\n", - "Debug : Decoded option name 'Mesh' . 'MshFileVersion' (index 0)\n", - "Info : Writing './output/gmsh.msh'...\n", - "Info : Done writing './output/gmsh.msh'\n", - "Info : Writing './output/gmsh.vtk'...\n", - "Info : Done writing './output/gmsh.vtk'\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m823\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd meshing.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m832\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mEnd meshing heat-charge simulation.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:37\u001b[0m.\u001b[1;36m842\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mMesh heat-charge simulation time (s): 1.0171\u001b[0m \n", - "Resetting DEVSIM\n", - "Physical group name bc_0 has 0 Tetrahedra.\n", - "Physical group name bc_0 has 0 Triangles.\n", - "Physical group name bc_0 has 48 Lines.\n", - "Physical group name bc_0 has 51 Points.\n", - "Physical group name bc_1 has 0 Tetrahedra.\n", - "Physical group name bc_1 has 0 Triangles.\n", - "Physical group name bc_1 has 10 Lines.\n", - "Physical group name bc_1 has 11 Points.\n", - "Physical group name bc_2 has 0 Tetrahedra.\n", - "Physical group name bc_2 has 0 Triangles.\n", - "Physical group name bc_2 has 643 Lines.\n", - "Physical group name bc_2 has 645 Points.\n", - "Physical group name bc_3 has 0 Tetrahedra.\n", - "Physical group name bc_3 has 0 Triangles.\n", - "Physical group name bc_3 has 12 Lines.\n", - "Physical group name bc_3 has 14 Points.\n", - "Physical group name bc_4 has 0 Tetrahedra.\n", - "Physical group name bc_4 has 0 Triangles.\n", - "Physical group name bc_4 has 42 Lines.\n", - "Physical group name bc_4 has 43 Points.\n", - "Physical group name bc_5 has 0 Tetrahedra.\n", - "Physical group name bc_5 has 0 Triangles.\n", - "Physical group name bc_5 has 42 Lines.\n", - "Physical group name bc_5 has 43 Points.\n", - "Physical group name bc_6 has 0 Tetrahedra.\n", - "Physical group name bc_6 has 0 Triangles.\n", - "Physical group name bc_6 has 44 Lines.\n", - "Physical group name bc_6 has 46 Points.\n", - "Physical group name zone_1 has 0 Tetrahedra.\n", - "Physical group name zone_1 has 4323 Triangles.\n", - "Physical group name zone_1 has 6841 Lines.\n", - "Physical group name zone_1 has 2520 Points.\n", - "Physical group name zone_3 has 0 Tetrahedra.\n", - "Physical group name zone_3 has 12615 Triangles.\n", - "Physical group name zone_3 has 19308 Lines.\n", - "Physical group name zone_3 has 6694 Points.\n", - "Device device has 8569 coordinates with max index 8569\n", - "Region zone_1 has 2520 nodes.\n", - "Region zone_3 has 6694 nodes.\n", - "Contact zone_1_bc_0 in region zone_1 with 51 nodes\n", - "Warning, contact \"zone_1_bc_0\" shares a node with contact \"zone_1_bc_1\" (repeated 1 times)\n", - "Contact zone_1_bc_1 in region zone_1 with 11 nodes\n", - "Warning, contact \"zone_1_bc_0\" shares a node with contact \"zone_1_bc_3\" (repeated 1 times)\n", - "Contact zone_1_bc_3 in region zone_1 with 14 nodes\n", - "Warning, contact \"zone_1_bc_3\" shares a node with contact \"zone_3_bc_4\"\n", - "Contact zone_3_bc_4 in region zone_3 with 43 nodes\n", - "Warning, contact \"zone_1_bc_3\" shares a node with contact \"zone_3_bc_5\"\n", - "Contact zone_3_bc_5 in region zone_3 with 43 nodes\n", - "Warning, contact \"zone_1_bc_0\" shares a node with contact \"zone_3_bc_6\" (repeated 1 times)\n", - "Warning, contact \"zone_3_bc_4\" shares a node with contact \"zone_3_bc_6\"\n", - "Warning, contact \"zone_3_bc_5\" shares a node with contact \"zone_3_bc_6\"\n", - "Contact zone_3_bc_6 in region zone_3 with 46 nodes\n", - "Warning, contact \"zone_1_bc_3\" shares a node with interface \"zone_1_bc_2\" (repeated 1 times)\n", - "Warning, contact \"zone_3_bc_6\" shares a node with interface \"zone_1_bc_2\" (repeated 1 times)\n", - "Adding interface zone_1_bc_2 with 645, 645 nodes\n", - "Warning: Replacing equation with equation of the same name.\n", - "Region: zone_1, Equation: PotentialEquation, Variable: Potential\n", - "Replacing Node Model Holes in region zone_1 of material Si\n", - "Replacing Node Model Electrons in region zone_1 of material Si\n", - "Warning: Replacing equation with equation of the same name.\n", - "Region: zone_3, Equation: PotentialEquation, Variable: Potential\n", - "Warning: Replacing equation with equation of the same name.\n", - "Region: zone_3, Equation: TemperatureEquation, Variable: T\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:33:55\u001b[0m.\u001b[1;36m349\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mRamping up doping. Scaling by 0.01\u001b[0m \n", - "Replacing Node Model NetDoping in region zone_1 of material Si\n", - "Replacing Node Model n_i in region zone_1 of material Si\n", - "Replacing Edge Model n_i@n0 in region zone_1 of material Si\n", - "Replacing Edge Model n_i@n1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en2 in region zone_1 of material Si\n", - "Replacing Node Model n_i:Electrons in region zone_1 of material Si\n", - "Replacing Node Model n_i:Holes in region zone_1 of material Si\n", - "Replacing Node Model n_i:T in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en2 in region zone_1 of material Si\n", - "Replacing Node Model NetDoping in region zone_3 of material Si\n", - "Replacing Node Model n_i in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en2 in region zone_3 of material Si\n", - "Replacing Node Model n_i:Electrons in region zone_3 of material Si\n", - "Replacing Node Model n_i:Holes in region zone_3 of material Si\n", - "Replacing Node Model n_i:T in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:Electrons@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:Holes@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:T@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:Electrons@n1 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:Holes@n1 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:T@n1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en2 in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.94776e+06\tAbsError: 2.04000e+18\n", - " Region: \"zone_1\"\tRelError: 1.14286e+00\tAbsError: 5.03923e+01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00000e+00\tAbsError: 3.92273e-01\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42857e-01\tAbsError: 5.00000e+01\n", - " Region: \"zone_3\"\tRelError: 1.94776e+06\tAbsError: 2.04000e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.73890e+05\tAbsError: 1.01999e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.73871e+05\tAbsError: 1.02001e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00000e+00\tAbsError: 3.94258e-01\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42857e-01\tAbsError: 5.00000e+01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 6.67125e+02\tAbsError: 1.33461e+18\n", - " Region: \"zone_1\"\tRelError: 1.20765e+00\tAbsError: 1.73937e+02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.73060e-01\tAbsError: 1.07722e-01\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.34587e-01\tAbsError: 1.73829e+02\n", - " Region: \"zone_3\"\tRelError: 6.65917e+02\tAbsError: 1.33461e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.70455e+02\tAbsError: 4.94500e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.94360e+02\tAbsError: 8.40115e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 7.67341e-01\tAbsError: 1.12369e-01\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.34791e-01\tAbsError: 1.73988e+02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.30072e+03\tAbsError: 1.46621e+18\n", - " Region: \"zone_1\"\tRelError: 5.66736e+00\tAbsError: 6.21208e+01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.53177e+00\tAbsError: 8.68314e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.35594e-01\tAbsError: 6.20340e+01\n", - " Region: \"zone_3\"\tRelError: 1.29505e+03\tAbsError: 1.46621e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.98626e+02\tAbsError: 5.27076e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.93595e+02\tAbsError: 9.39137e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 2.69209e+00\tAbsError: 8.63083e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.35695e-01\tAbsError: 6.20936e+01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.92859e+03\tAbsError: 6.96382e+17\n", - " Region: \"zone_1\"\tRelError: 5.95263e+01\tAbsError: 7.27435e+01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.93375e+01\tAbsError: 8.37936e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.88805e-01\tAbsError: 7.26597e+01\n", - " Region: \"zone_3\"\tRelError: 3.86907e+03\tAbsError: 6.96382e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.90197e+03\tAbsError: 2.98121e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.66146e+02\tAbsError: 3.98260e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 5.00763e+02\tAbsError: 8.37910e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.88952e-01\tAbsError: 7.27229e+01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.95059e+03\tAbsError: 1.53714e+17\n", - " Region: \"zone_1\"\tRelError: 4.47601e+02\tAbsError: 1.33171e+01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.47568e+02\tAbsError: 8.18747e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.32482e-02\tAbsError: 1.32353e+01\n", - " Region: \"zone_3\"\tRelError: 2.50299e+03\tAbsError: 1.53714e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.86779e+02\tAbsError: 6.22634e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.24742e+03\tAbsError: 9.14502e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.68756e+02\tAbsError: 8.19661e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.32744e-02\tAbsError: 1.32473e+01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.89183e+03\tAbsError: 1.32069e+17\n", - " Region: \"zone_1\"\tRelError: 9.63120e+02\tAbsError: 2.36855e+01\n", - " Equation: \"PotentialEquation\"\tRelError: 9.63057e+02\tAbsError: 7.58983e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.30488e-02\tAbsError: 2.36096e+01\n", - " Region: \"zone_3\"\tRelError: 4.92871e+03\tAbsError: 1.32069e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.68041e+02\tAbsError: 4.90786e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.25338e+02\tAbsError: 8.29902e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.53527e+03\tAbsError: 7.54264e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.30998e-02\tAbsError: 2.36303e+01\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.91257e+03\tAbsError: 2.45952e+16\n", - " Region: \"zone_1\"\tRelError: 4.00274e+00\tAbsError: 2.56698e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 3.99605e+00\tAbsError: 7.69849e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.69398e-03\tAbsError: 2.48999e+00\n", - " Region: \"zone_3\"\tRelError: 1.90857e+03\tAbsError: 2.45952e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.38175e+02\tAbsError: 1.16483e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.65893e+02\tAbsError: 1.29469e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 4.49097e+00\tAbsError: 7.70600e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.69995e-03\tAbsError: 2.49238e+00\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.66274e+03\tAbsError: 8.40381e+15\n", - " Region: \"zone_1\"\tRelError: 7.75919e-01\tAbsError: 5.24262e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 7.61812e-01\tAbsError: 6.79483e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41076e-02\tAbsError: 5.17468e+00\n", - " Region: \"zone_3\"\tRelError: 1.66197e+03\tAbsError: 8.40381e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.58469e+02\tAbsError: 2.69142e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.02704e+02\tAbsError: 5.71240e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.82716e-01\tAbsError: 6.79483e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41204e-02\tAbsError: 5.17962e+00\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.24866e+03\tAbsError: 3.16272e+15\n", - " Region: \"zone_1\"\tRelError: 3.66397e-01\tAbsError: 6.01586e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 3.49892e-01\tAbsError: 6.01222e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.65050e-02\tAbsError: 5.95574e+00\n", - " Region: \"zone_3\"\tRelError: 2.24829e+03\tAbsError: 3.16272e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.11206e+02\tAbsError: 1.71777e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.13671e+03\tAbsError: 1.44495e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 3.57030e-01\tAbsError: 6.01222e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.65192e-02\tAbsError: 5.96108e+00\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 3.19658e+03\tAbsError: 4.07304e+15\n", - " Region: \"zone_1\"\tRelError: 2.22622e-01\tAbsError: 7.04686e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 2.02853e-01\tAbsError: 5.15633e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.97692e-02\tAbsError: 6.99530e+00\n", - " Region: \"zone_3\"\tRelError: 3.19636e+03\tAbsError: 4.07304e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.13171e+03\tAbsError: 2.16998e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.06442e+03\tAbsError: 1.90306e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.08591e-01\tAbsError: 5.12074e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.97872e-02\tAbsError: 7.00183e+00\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 7.28118e+03\tAbsError: 6.93925e+15\n", - " Region: \"zone_1\"\tRelError: 1.29224e-01\tAbsError: 4.66597e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15984e-01\tAbsError: 4.20159e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32406e-02\tAbsError: 4.62395e+00\n", - " Region: \"zone_3\"\tRelError: 7.28105e+03\tAbsError: 6.93925e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.16511e+03\tAbsError: 3.71724e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.11583e+03\tAbsError: 3.22201e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00397e-01\tAbsError: 4.13918e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32528e-02\tAbsError: 4.62826e+00\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 2.46907e+02\tAbsError: 1.08406e+16\n", - " Region: \"zone_1\"\tRelError: 8.02287e-02\tAbsError: 2.35784e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 7.35182e-02\tAbsError: 2.99851e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.71049e-03\tAbsError: 2.32785e+00\n", - " Region: \"zone_3\"\tRelError: 2.46826e+02\tAbsError: 1.08406e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.87789e+01\tAbsError: 5.90881e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.77975e+02\tAbsError: 4.93175e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 6.61012e-02\tAbsError: 2.58908e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.71698e-03\tAbsError: 2.33011e+00\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.34357e+04\tAbsError: 1.19559e+16\n", - " Region: \"zone_1\"\tRelError: 6.09932e-02\tAbsError: 9.36029e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.83763e-02\tAbsError: 3.05969e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.61692e-03\tAbsError: 9.05432e-01\n", - " Region: \"zone_3\"\tRelError: 1.34357e+04\tAbsError: 1.19559e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.22439e+03\tAbsError: 6.88914e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.21121e+03\tAbsError: 5.06678e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.99220e-02\tAbsError: 3.18503e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.62022e-03\tAbsError: 9.06573e-01\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 2.51914e+02\tAbsError: 3.41911e+15\n", - " Region: \"zone_1\"\tRelError: 5.37272e-02\tAbsError: 2.53023e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.30702e-02\tAbsError: 2.58390e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.57047e-04\tAbsError: 2.27184e-01\n", - " Region: \"zone_3\"\tRelError: 2.51860e+02\tAbsError: 3.41911e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.09434e+02\tAbsError: 1.76185e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.42371e+02\tAbsError: 1.65725e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.39750e-02\tAbsError: 2.58978e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.57247e-04\tAbsError: 2.27252e-01\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 9.17153e+03\tAbsError: 1.53174e+15\n", - " Region: \"zone_1\"\tRelError: 3.35927e-02\tAbsError: 6.34263e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.34496e-02\tAbsError: 1.39634e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43074e-04\tAbsError: 4.94630e-02\n", - " Region: \"zone_3\"\tRelError: 9.17149e+03\tAbsError: 1.53174e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.72842e+02\tAbsError: 6.29796e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.99862e+03\tAbsError: 9.01944e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.44281e-02\tAbsError: 1.50572e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43193e-04\tAbsError: 4.95039e-02\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 1.00752e+04\tAbsError: 3.51392e+14\n", - " Region: \"zone_1\"\tRelError: 1.25933e-02\tAbsError: 1.36724e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.25722e-02\tAbsError: 6.36915e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.11256e-05\tAbsError: 7.30329e-03\n", - " Region: \"zone_3\"\tRelError: 1.00751e+04\tAbsError: 3.51392e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98699e+03\tAbsError: 1.94249e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.81432e+01\tAbsError: 1.57143e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.36562e-02\tAbsError: 6.88316e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.11388e-05\tAbsError: 7.30782e-03\n", - "Iteration: 16\n", - " Device: \"device\"\tRelError: 1.48057e+02\tAbsError: 7.55540e+12\n", - " Region: \"zone_1\"\tRelError: 1.35837e-04\tAbsError: 9.15436e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33386e-04\tAbsError: 6.81099e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.45099e-06\tAbsError: 8.47326e-04\n", - " Region: \"zone_3\"\tRelError: 1.48057e+02\tAbsError: 7.55540e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04520e+02\tAbsError: 5.86235e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.35366e+01\tAbsError: 1.69306e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.54934e-04\tAbsError: 7.83782e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.45202e-06\tAbsError: 8.47678e-04\n", - "Iteration: 17\n", - " Device: \"device\"\tRelError: 1.61095e-01\tAbsError: 1.05062e+11\n", - " Region: \"zone_1\"\tRelError: 6.80612e-07\tAbsError: 2.10057e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.20301e-07\tAbsError: 1.55674e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.03111e-08\tAbsError: 2.08500e-05\n", - " Region: \"zone_3\"\tRelError: 1.61095e-01\tAbsError: 1.05062e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.45800e-01\tAbsError: 5.36236e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.52936e-02\tAbsError: 5.14380e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 6.43614e-07\tAbsError: 1.59316e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.03688e-08\tAbsError: 2.08699e-05\n", - "Iteration: 18\n", - " Device: \"device\"\tRelError: 2.80810e-06\tAbsError: 3.32876e+09\n", - " Region: \"zone_1\"\tRelError: 2.35479e-08\tAbsError: 8.94470e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.09842e-08\tAbsError: 4.33411e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.56372e-09\tAbsError: 8.90136e-07\n", - " Region: \"zone_3\"\tRelError: 2.78455e-06\tAbsError: 3.32876e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.51830e-06\tAbsError: 1.84896e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.24197e-06\tAbsError: 1.47980e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.17144e-08\tAbsError: 4.43296e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.56540e-09\tAbsError: 8.90719e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:11\u001b[0m.\u001b[1;36m800\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mRamping up doping. Scaling by 0.03162277660168379\u001b[0m \n", - "Replacing Node Model NetDoping in region zone_1 of material Si\n", - "Replacing Node Model n_i in region zone_1 of material Si\n", - "Replacing Edge Model n_i@n0 in region zone_1 of material Si\n", - "Replacing Edge Model n_i@n1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en2 in region zone_1 of material Si\n", - "Replacing Node Model n_i:Electrons in region zone_1 of material Si\n", - "Replacing Node Model n_i:Holes in region zone_1 of material Si\n", - "Replacing Node Model n_i:T in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en2 in region zone_1 of material Si\n", - "Replacing Node Model NetDoping in region zone_3 of material Si\n", - "Replacing Node Model n_i in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en2 in region zone_3 of material Si\n", - "Replacing Node Model n_i:Electrons in region zone_3 of material Si\n", - "Replacing Node Model n_i:Holes in region zone_3 of material Si\n", - "Replacing Node Model n_i:T in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:Electrons@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:Holes@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:T@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:Electrons@n1 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:Holes@n1 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:T@n1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en2 in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.09589e+04\tAbsError: 4.42835e+18\n", - " Region: \"zone_1\"\tRelError: 3.76402e-01\tAbsError: 3.71294e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.76398e-01\tAbsError: 3.58464e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.66599e-06\tAbsError: 1.28302e-03\n", - " Region: \"zone_3\"\tRelError: 1.09585e+04\tAbsError: 4.42835e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.08828e+03\tAbsError: 2.21419e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.86986e+03\tAbsError: 2.21416e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 3.77508e-01\tAbsError: 3.65195e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.66651e-06\tAbsError: 1.28320e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.68704e+00\tAbsError: 4.09689e+16\n", - " Region: \"zone_1\"\tRelError: 1.59987e-01\tAbsError: 3.78978e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.59912e-01\tAbsError: 1.21279e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.44743e-05\tAbsError: 2.57699e-02\n", - " Region: \"zone_3\"\tRelError: 2.52705e+00\tAbsError: 4.09689e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.20519e+00\tAbsError: 2.06847e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.16158e+00\tAbsError: 2.02842e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.60211e-01\tAbsError: 1.27503e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.44743e-05\tAbsError: 2.57699e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 7.16777e-01\tAbsError: 2.84880e+15\n", - " Region: \"zone_1\"\tRelError: 2.13091e-03\tAbsError: 1.34529e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.09298e-03\tAbsError: 2.83116e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.79289e-05\tAbsError: 1.31698e-02\n", - " Region: \"zone_3\"\tRelError: 7.14646e-01\tAbsError: 2.84880e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.40737e-01\tAbsError: 1.50317e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.71739e-01\tAbsError: 1.34563e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.13216e-03\tAbsError: 2.93924e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.79505e-05\tAbsError: 1.31770e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.53330e-03\tAbsError: 4.97209e+12\n", - " Region: \"zone_1\"\tRelError: 2.95921e-05\tAbsError: 2.95955e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.87527e-05\tAbsError: 4.52958e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.39356e-07\tAbsError: 2.91426e-04\n", - " Region: \"zone_3\"\tRelError: 2.50371e-03\tAbsError: 4.97209e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10415e-03\tAbsError: 3.14115e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.36935e-03\tAbsError: 1.83094e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.93707e-05\tAbsError: 4.65627e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.39451e-07\tAbsError: 2.91462e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 3.31368e-05\tAbsError: 1.03126e+11\n", - " Region: \"zone_1\"\tRelError: 8.82046e-07\tAbsError: 7.25910e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.73282e-07\tAbsError: 1.05369e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.08765e-07\tAbsError: 7.24857e-05\n", - " Region: \"zone_3\"\tRelError: 3.22547e-05\tAbsError: 1.03126e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.57484e-05\tAbsError: 6.95547e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.56070e-05\tAbsError: 3.35713e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 6.90339e-07\tAbsError: 1.08090e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.08891e-07\tAbsError: 7.25309e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:16\u001b[0m.\u001b[1;36m705\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mRamping up doping. Scaling by 0.1\u001b[0m \n", - "Replacing Node Model NetDoping in region zone_1 of material Si\n", - "Replacing Node Model n_i in region zone_1 of material Si\n", - "Replacing Edge Model n_i@n0 in region zone_1 of material Si\n", - "Replacing Edge Model n_i@n1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en2 in region zone_1 of material Si\n", - "Replacing Node Model n_i:Electrons in region zone_1 of material Si\n", - "Replacing Node Model n_i:Holes in region zone_1 of material Si\n", - "Replacing Node Model n_i:T in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en2 in region zone_1 of material Si\n", - "Replacing Node Model NetDoping in region zone_3 of material Si\n", - "Replacing Node Model n_i in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en2 in region zone_3 of material Si\n", - "Replacing Node Model n_i:Electrons in region zone_3 of material Si\n", - "Replacing Node Model n_i:Holes in region zone_3 of material Si\n", - "Replacing Node Model n_i:T in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:Electrons@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:Holes@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:T@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:Electrons@n1 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:Holes@n1 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:T@n1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en2 in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 4.59181e+03\tAbsError: 1.39723e+19\n", - " Region: \"zone_1\"\tRelError: 7.56617e-01\tAbsError: 3.57738e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.56605e-01\tAbsError: 3.16803e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18304e-05\tAbsError: 4.09344e-03\n", - " Region: \"zone_3\"\tRelError: 4.59105e+03\tAbsError: 1.39723e+19\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.88119e+02\tAbsError: 6.98585e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.80218e+03\tAbsError: 6.98649e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 7.56801e-01\tAbsError: 3.19349e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18304e-05\tAbsError: 4.09344e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.84985e+00\tAbsError: 5.93483e+16\n", - " Region: \"zone_1\"\tRelError: 3.91051e-01\tAbsError: 9.08795e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.90822e-01\tAbsError: 1.14871e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.29416e-04\tAbsError: 7.93923e-02\n", - " Region: \"zone_3\"\tRelError: 2.45880e+00\tAbsError: 5.93483e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.06772e+00\tAbsError: 2.86051e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.99141e-01\tAbsError: 3.07432e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.91709e-01\tAbsError: 1.14871e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.29490e-04\tAbsError: 7.94203e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 3.05684e-01\tAbsError: 2.58379e+14\n", - " Region: \"zone_1\"\tRelError: 2.55963e-03\tAbsError: 6.45560e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.54282e-03\tAbsError: 6.41085e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.68020e-05\tAbsError: 5.81451e-03\n", - " Region: \"zone_3\"\tRelError: 3.03124e-01\tAbsError: 2.58379e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.68002e-01\tAbsError: 1.37307e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.32383e-01\tAbsError: 1.21072e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.72183e-03\tAbsError: 6.81504e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.68020e-05\tAbsError: 5.81451e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.98022e-03\tAbsError: 2.85263e+12\n", - " Region: \"zone_1\"\tRelError: 2.85485e-05\tAbsError: 2.74721e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06166e-05\tAbsError: 2.24456e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.93198e-06\tAbsError: 2.74496e-03\n", - " Region: \"zone_3\"\tRelError: 2.95167e-03\tAbsError: 2.85263e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.49430e-03\tAbsError: 2.03236e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.42813e-03\tAbsError: 8.20269e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.13020e-05\tAbsError: 2.28367e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.93591e-06\tAbsError: 2.74628e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 4.32722e-04\tAbsError: 1.09424e+12\n", - " Region: \"zone_1\"\tRelError: 5.94752e-06\tAbsError: 8.07354e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.71760e-06\tAbsError: 8.94103e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.29918e-07\tAbsError: 7.98413e-05\n", - " Region: \"zone_3\"\tRelError: 4.26775e-04\tAbsError: 1.09424e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11667e-04\tAbsError: 6.50366e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.09053e-04\tAbsError: 4.43872e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.82510e-06\tAbsError: 9.33163e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.30055e-07\tAbsError: 7.98910e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.14431e-05\tAbsError: 4.11796e+10\n", - " Region: \"zone_1\"\tRelError: 3.18218e-07\tAbsError: 2.36712e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.50145e-07\tAbsError: 3.35603e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.80731e-08\tAbsError: 2.36377e-05\n", - " Region: \"zone_3\"\tRelError: 1.11249e-05\tAbsError: 4.11796e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.42049e-06\tAbsError: 2.80121e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.38209e-06\tAbsError: 1.31675e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.54185e-07\tAbsError: 3.45102e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.81052e-08\tAbsError: 2.36495e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:22\u001b[0m.\u001b[1;36m456\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mRamping up doping. Scaling by 0.31622776601683794\u001b[0m \n", - "Replacing Node Model NetDoping in region zone_1 of material Si\n", - "Replacing Node Model n_i in region zone_1 of material Si\n", - "Replacing Edge Model n_i@n0 in region zone_1 of material Si\n", - "Replacing Edge Model n_i@n1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en2 in region zone_1 of material Si\n", - "Replacing Node Model n_i:Electrons in region zone_1 of material Si\n", - "Replacing Node Model n_i:Holes in region zone_1 of material Si\n", - "Replacing Node Model n_i:T in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en2 in region zone_1 of material Si\n", - "Replacing Node Model NetDoping in region zone_3 of material Si\n", - "Replacing Node Model n_i in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en2 in region zone_3 of material Si\n", - "Replacing Node Model n_i:Electrons in region zone_3 of material Si\n", - "Replacing Node Model n_i:Holes in region zone_3 of material Si\n", - "Replacing Node Model n_i:T in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:Electrons@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:Holes@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:T@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:Electrons@n1 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:Holes@n1 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:T@n1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en2 in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.81548e+04\tAbsError: 4.41452e+19\n", - " Region: \"zone_1\"\tRelError: 4.00112e+02\tAbsError: 5.38619e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.00112e+02\tAbsError: 3.01539e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.85108e-05\tAbsError: 2.37080e-02\n", - " Region: \"zone_3\"\tRelError: 1.77547e+04\tAbsError: 4.41452e+19\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.11357e+03\tAbsError: 2.20717e+19\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.68429e+03\tAbsError: 2.20736e+19\n", - " Equation: \"PotentialEquation\"\tRelError: 8.95682e+03\tAbsError: 3.01539e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.85824e-05\tAbsError: 2.37335e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 6.37823e+03\tAbsError: 7.77266e+16\n", - " Region: \"zone_1\"\tRelError: 2.55259e+03\tAbsError: 3.32603e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.55259e+03\tAbsError: 1.21605e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.25174e-04\tAbsError: 3.20443e-01\n", - " Region: \"zone_3\"\tRelError: 3.82564e+03\tAbsError: 7.77266e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.85918e+00\tAbsError: 4.09086e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.30746e+00\tAbsError: 3.68181e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.82047e+03\tAbsError: 1.27151e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.25174e-04\tAbsError: 3.20443e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.51948e+00\tAbsError: 1.24184e+15\n", - " Region: \"zone_1\"\tRelError: 3.41095e-01\tAbsError: 5.88077e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.40927e-01\tAbsError: 8.76347e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67226e-04\tAbsError: 5.79314e-02\n", - " Region: \"zone_3\"\tRelError: 1.17838e+00\tAbsError: 1.24184e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.50766e-01\tAbsError: 8.12970e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.95876e-01\tAbsError: 4.28870e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.31571e-01\tAbsError: 9.34668e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67226e-04\tAbsError: 5.79314e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.30025e-02\tAbsError: 1.81225e+13\n", - " Region: \"zone_1\"\tRelError: 1.31169e-02\tAbsError: 1.68781e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.30682e-02\tAbsError: 1.34387e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.86794e-05\tAbsError: 1.68646e-02\n", - " Region: \"zone_3\"\tRelError: 3.98856e-02\tAbsError: 1.81225e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.03737e-02\tAbsError: 1.02962e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.70790e-03\tAbsError: 7.82629e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.27553e-02\tAbsError: 1.42458e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.86794e-05\tAbsError: 1.68646e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.41263e-02\tAbsError: 9.07776e+12\n", - " Region: \"zone_1\"\tRelError: 9.62176e-03\tAbsError: 4.08013e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.62060e-03\tAbsError: 6.26261e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.15956e-06\tAbsError: 4.01751e-04\n", - " Region: \"zone_3\"\tRelError: 4.50458e-03\tAbsError: 9.07776e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.40964e-03\tAbsError: 5.33124e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.38896e-03\tAbsError: 3.74652e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.70482e-03\tAbsError: 6.61320e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.16036e-06\tAbsError: 4.02019e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 8.48775e-04\tAbsError: 2.90368e+11\n", - " Region: \"zone_1\"\tRelError: 3.86328e-04\tAbsError: 3.03437e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.85453e-04\tAbsError: 1.50377e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.75364e-07\tAbsError: 3.03287e-04\n", - " Region: \"zone_3\"\tRelError: 4.62447e-04\tAbsError: 2.90368e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.48536e-05\tAbsError: 1.72985e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.41646e-05\tAbsError: 1.17383e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.92553e-04\tAbsError: 1.58814e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.75483e-07\tAbsError: 3.03321e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.03929e-04\tAbsError: 2.36139e+11\n", - " Region: \"zone_1\"\tRelError: 2.89879e-04\tAbsError: 1.34924e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.89875e-04\tAbsError: 1.43748e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.46954e-09\tAbsError: 1.20549e-06\n", - " Region: \"zone_3\"\tRelError: 1.14050e-04\tAbsError: 2.36139e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.76341e-05\tAbsError: 1.44548e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.73640e-05\tAbsError: 9.15910e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.90481e-05\tAbsError: 1.50265e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.47105e-09\tAbsError: 1.20601e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.89084e-05\tAbsError: 1.30416e+09\n", - " Region: \"zone_1\"\tRelError: 1.60532e-05\tAbsError: 7.73681e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.60310e-05\tAbsError: 6.68367e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.22657e-08\tAbsError: 7.73614e-06\n", - " Region: \"zone_3\"\tRelError: 1.28552e-05\tAbsError: 1.30416e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.96650e-07\tAbsError: 7.75602e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.23307e-07\tAbsError: 5.28556e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18129e-05\tAbsError: 6.69589e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.22749e-08\tAbsError: 7.73943e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:30\u001b[0m.\u001b[1;36m250\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mRamping up doping. Scaling by 1.0\u001b[0m \n", - "Replacing Node Model NetDoping in region zone_1 of material Si\n", - "Replacing Node Model n_i in region zone_1 of material Si\n", - "Replacing Edge Model n_i@n0 in region zone_1 of material Si\n", - "Replacing Edge Model n_i@n1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i@en2 in region zone_1 of material Si\n", - "Replacing Node Model n_i:Electrons in region zone_1 of material Si\n", - "Replacing Node Model n_i:Holes in region zone_1 of material Si\n", - "Replacing Node Model n_i:T in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en0 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en1 in region zone_1 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en2 in region zone_1 of material Si\n", - "Replacing Node Model NetDoping in region zone_3 of material Si\n", - "Replacing Node Model n_i in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i@en2 in region zone_3 of material Si\n", - "Replacing Node Model n_i:Electrons in region zone_3 of material Si\n", - "Replacing Node Model n_i:Holes in region zone_3 of material Si\n", - "Replacing Node Model n_i:T in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:Electrons@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:Holes@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n0:T@n0 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:Electrons@n1 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:Holes@n1 in region zone_3 of material Si\n", - "Replacing Edge Model n_i@n1:T@n1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Electrons@en2 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:Holes@en2 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en0 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en1 in region zone_3 of material Si\n", - "Replacing Triangle Edge Model n_i:T@en2 in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.25598e+03\tAbsError: 1.39519e+20\n", - " Region: \"zone_1\"\tRelError: 1.78965e+02\tAbsError: 1.67941e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.78964e+02\tAbsError: 4.06320e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.67619e-04\tAbsError: 1.27309e-01\n", - " Region: \"zone_3\"\tRelError: 2.07701e+03\tAbsError: 1.39519e+20\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.52607e+02\tAbsError: 6.97576e+19\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.11741e+03\tAbsError: 6.97615e+19\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06993e+02\tAbsError: 4.15365e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.67619e-04\tAbsError: 1.27309e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.17154e+04\tAbsError: 6.81771e+16\n", - " Region: \"zone_1\"\tRelError: 2.30977e+02\tAbsError: 1.32838e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 2.30973e+02\tAbsError: 2.82997e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.74009e-03\tAbsError: 1.30008e+00\n", - " Region: \"zone_3\"\tRelError: 1.14845e+04\tAbsError: 6.81771e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12728e+04\tAbsError: 3.49371e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.62860e+00\tAbsError: 3.32400e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.10015e+02\tAbsError: 2.93816e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.74009e-03\tAbsError: 1.30008e+00\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.82529e+00\tAbsError: 2.16371e+15\n", - " Region: \"zone_1\"\tRelError: 7.14038e-01\tAbsError: 9.63977e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.13819e-01\tAbsError: 2.02378e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19044e-04\tAbsError: 7.61599e-02\n", - " Region: \"zone_3\"\tRelError: 2.11126e+00\tAbsError: 2.16371e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99928e-01\tAbsError: 1.08980e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.09314e-01\tAbsError: 1.07391e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.01796e-01\tAbsError: 2.24265e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19044e-04\tAbsError: 7.61599e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.19459e+00\tAbsError: 9.46737e+13\n", - " Region: \"zone_1\"\tRelError: 2.48858e-01\tAbsError: 7.49117e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.48644e-01\tAbsError: 6.58192e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.13516e-04\tAbsError: 7.42536e-02\n", - " Region: \"zone_3\"\tRelError: 9.45729e-01\tAbsError: 9.46737e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.14875e-01\tAbsError: 4.65985e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.08043e-01\tAbsError: 4.80752e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.25967e-02\tAbsError: 7.03900e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.13612e-04\tAbsError: 7.42871e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.14246e-02\tAbsError: 6.01858e+13\n", - " Region: \"zone_1\"\tRelError: 2.16696e-02\tAbsError: 2.70554e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.16619e-02\tAbsError: 4.09885e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.65293e-06\tAbsError: 2.66456e-03\n", - " Region: \"zone_3\"\tRelError: 6.97550e-02\tAbsError: 6.01858e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.51834e-03\tAbsError: 3.45595e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.49371e-03\tAbsError: 2.56263e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.87353e-02\tAbsError: 4.18557e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.65609e-06\tAbsError: 2.66571e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 7.32865e-03\tAbsError: 2.21399e+12\n", - " Region: \"zone_1\"\tRelError: 1.82386e-03\tAbsError: 4.30666e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.81148e-03\tAbsError: 1.70549e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.23785e-05\tAbsError: 4.30496e-03\n", - " Region: \"zone_3\"\tRelError: 5.50479e-03\tAbsError: 2.21399e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.69673e-04\tAbsError: 1.46537e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.83712e-04\tAbsError: 7.48619e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.83902e-03\tAbsError: 1.76657e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.23819e-05\tAbsError: 4.30614e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.56549e-03\tAbsError: 4.01137e+12\n", - " Region: \"zone_1\"\tRelError: 1.54046e-03\tAbsError: 4.35699e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.53922e-03\tAbsError: 2.45136e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.24576e-06\tAbsError: 4.33248e-04\n", - " Region: \"zone_3\"\tRelError: 5.02503e-03\tAbsError: 4.01137e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.28020e-04\tAbsError: 2.37441e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.24782e-04\tAbsError: 1.63695e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.17098e-03\tAbsError: 2.50044e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.24583e-06\tAbsError: 4.33272e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 8.67547e-04\tAbsError: 3.95476e+11\n", - " Region: \"zone_1\"\tRelError: 2.12214e-04\tAbsError: 2.93797e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.11370e-04\tAbsError: 2.53684e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.44057e-07\tAbsError: 2.93544e-04\n", - " Region: \"zone_3\"\tRelError: 6.55333e-04\tAbsError: 3.95476e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.37464e-05\tAbsError: 2.41005e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.36537e-05\tAbsError: 1.54470e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.67089e-04\tAbsError: 2.59006e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.44176e-07\tAbsError: 2.93586e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 4.70521e-04\tAbsError: 2.77095e+11\n", - " Region: \"zone_1\"\tRelError: 1.11249e-04\tAbsError: 4.61091e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11117e-04\tAbsError: 1.66976e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32102e-07\tAbsError: 4.59421e-05\n", - " Region: \"zone_3\"\tRelError: 3.59272e-04\tAbsError: 2.77095e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.92629e-05\tAbsError: 1.66200e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.90560e-05\tAbsError: 1.10895e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.00821e-04\tAbsError: 1.70352e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32114e-07\tAbsError: 4.59465e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 8.45205e-05\tAbsError: 4.25447e+10\n", - " Region: \"zone_1\"\tRelError: 2.04303e-05\tAbsError: 2.13507e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03690e-05\tAbsError: 2.66316e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.13154e-08\tAbsError: 2.13241e-05\n", - " Region: \"zone_3\"\tRelError: 6.40902e-05\tAbsError: 4.25447e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.61885e-06\tAbsError: 2.57226e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.60021e-06\tAbsError: 1.68221e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.48098e-05\tAbsError: 2.71818e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.13223e-08\tAbsError: 2.13265e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m507\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m528\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mBuilt-in potential: % (np.float64(-1.0448670768291761),)\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m528\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mnot all arguments converted during string formatting\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m637\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.55 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m637\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.5 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m639\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.65 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m640\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.6 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m640\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.7 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m659\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: 0.1\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m659\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.55 V. Current applied bias: 0.1\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m661\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: 0.1\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m667\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.6 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:41\u001b[0m.\u001b[1;36m676\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.5 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "number of equations 31816\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "number of equations 31816\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 8.58159e+00\tAbsError: 8.42925e+15\n", - " Region: \"zone_1\"\tRelError: 6.96489e+00\tAbsError: 4.09585e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.96489e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22081e-08\tAbsError: 4.24570e-06\n", - " Region: \"zone_3\"\tRelError: 1.61670e+00\tAbsError: 8.42925e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68720e-01\tAbsError: 4.55135e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.68261e-01\tAbsError: 3.87791e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.97210e-02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22093e-08\tAbsError: 4.24613e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 8.58159e+00\tAbsError: 8.42925e+15\n", - " Region: \"zone_1\"\tRelError: 6.96489e+00\tAbsError: 4.09585e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.96489e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22081e-08\tAbsError: 4.24570e-06\n", - " Region: \"zone_3\"\tRelError: 1.61670e+00\tAbsError: 8.42925e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68720e-01\tAbsError: 4.55135e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.68261e-01\tAbsError: 3.87791e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.97210e-02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22093e-08\tAbsError: 4.24613e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 8.58159e+00\tAbsError: 8.42925e+15\n", - " Region: \"zone_1\"\tRelError: 6.96489e+00\tAbsError: 4.09585e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.96489e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22081e-08\tAbsError: 4.24570e-06\n", - " Region: \"zone_3\"\tRelError: 1.61670e+00\tAbsError: 8.42925e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68720e-01\tAbsError: 4.55135e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.68261e-01\tAbsError: 3.87791e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.97210e-02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22093e-08\tAbsError: 4.24613e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 8.58159e+00\tAbsError: 8.42925e+15\n", - " Region: \"zone_1\"\tRelError: 6.96489e+00\tAbsError: 4.09585e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.96489e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22081e-08\tAbsError: 4.24570e-06\n", - " Region: \"zone_3\"\tRelError: 1.61670e+00\tAbsError: 8.42925e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68720e-01\tAbsError: 4.55135e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.68261e-01\tAbsError: 3.87791e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.97210e-02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22093e-08\tAbsError: 4.24613e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 8.58159e+00\tAbsError: 8.42925e+15\n", - " Region: \"zone_1\"\tRelError: 6.96489e+00\tAbsError: 4.09585e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.96489e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22081e-08\tAbsError: 4.24570e-06\n", - " Region: \"zone_3\"\tRelError: 1.61670e+00\tAbsError: 8.42925e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68720e-01\tAbsError: 4.55135e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.68261e-01\tAbsError: 3.87791e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.97210e-02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22093e-08\tAbsError: 4.24613e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.51014e+00\tAbsError: 2.99004e+14\n", - " Region: \"zone_1\"\tRelError: 8.86940e-02\tAbsError: 9.23854e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.85168e-02\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77223e-04\tAbsError: 6.16217e-02\n", - " Region: \"zone_3\"\tRelError: 1.42145e+00\tAbsError: 2.99004e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37288e-01\tAbsError: 1.29763e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.31407e-01\tAbsError: 1.69241e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.25791e-02\tAbsError: 3.07641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77223e-04\tAbsError: 6.16217e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.51014e+00\tAbsError: 2.99004e+14\n", - " Region: \"zone_1\"\tRelError: 8.86940e-02\tAbsError: 9.23854e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.85168e-02\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77223e-04\tAbsError: 6.16217e-02\n", - " Region: \"zone_3\"\tRelError: 1.42145e+00\tAbsError: 2.99004e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37288e-01\tAbsError: 1.29763e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.31407e-01\tAbsError: 1.69241e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.25791e-02\tAbsError: 3.07641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77223e-04\tAbsError: 6.16217e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.51014e+00\tAbsError: 2.99004e+14\n", - " Region: \"zone_1\"\tRelError: 8.86940e-02\tAbsError: 9.23854e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.85168e-02\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77223e-04\tAbsError: 6.16217e-02\n", - " Region: \"zone_3\"\tRelError: 1.42145e+00\tAbsError: 2.99004e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37288e-01\tAbsError: 1.29763e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.31407e-01\tAbsError: 1.69241e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.25791e-02\tAbsError: 3.07641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77223e-04\tAbsError: 6.16217e-02\n", - "Iteration: 1\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.51014e+00\tAbsError: 2.99004e+14\n", - " Region: \"zone_1\"\tRelError: 8.86940e-02\tAbsError: 9.23854e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.85168e-02\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77223e-04\tAbsError: 6.16217e-02\n", - " Region: \"zone_3\"\tRelError: 1.42145e+00\tAbsError: 2.99004e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37288e-01\tAbsError: 1.29763e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.31407e-01\tAbsError: 1.69241e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.25791e-02\tAbsError: 3.07641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77223e-04\tAbsError: 6.16217e-02\n", - " Device: \"device\"\tRelError: 1.51014e+00\tAbsError: 2.99004e+14\n", - " Region: \"zone_1\"\tRelError: 8.86940e-02\tAbsError: 9.23854e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.85168e-02\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77223e-04\tAbsError: 6.16217e-02\n", - " Region: \"zone_3\"\tRelError: 1.42145e+00\tAbsError: 2.99004e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37288e-01\tAbsError: 1.29763e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.31407e-01\tAbsError: 1.69241e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.25791e-02\tAbsError: 3.07641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77223e-04\tAbsError: 6.16217e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 9.16282e-01\tAbsError: 4.40895e+13\n", - " Region: \"zone_1\"\tRelError: 3.94410e-02\tAbsError: 2.98107e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.94296e-02\tAbsError: 2.58562e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13728e-05\tAbsError: 3.95446e-03\n", - " Region: \"zone_3\"\tRelError: 8.76841e-01\tAbsError: 4.40895e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.38974e-01\tAbsError: 3.05502e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.97980e-01\tAbsError: 1.35393e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.98753e-02\tAbsError: 2.58800e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13728e-05\tAbsError: 3.95446e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 9.16282e-01\tAbsError: 4.40895e+13\n", - " Region: \"zone_1\"\tRelError: 3.94410e-02\tAbsError: 2.98107e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.94296e-02\tAbsError: 2.58562e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13728e-05\tAbsError: 3.95446e-03\n", - " Region: \"zone_3\"\tRelError: 8.76841e-01\tAbsError: 4.40895e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.38974e-01\tAbsError: 3.05502e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.97980e-01\tAbsError: 1.35393e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.98753e-02\tAbsError: 2.58800e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13728e-05\tAbsError: 3.95446e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 9.16282e-01\tAbsError: 4.40895e+13\n", - " Region: \"zone_1\"\tRelError: 3.94410e-02\tAbsError: 2.98107e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.94296e-02\tAbsError: 2.58562e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13728e-05\tAbsError: 3.95446e-03\n", - " Region: \"zone_3\"\tRelError: 8.76841e-01\tAbsError: 4.40895e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.38974e-01\tAbsError: 3.05502e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.97980e-01\tAbsError: 1.35393e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.98753e-02\tAbsError: 2.58800e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13728e-05\tAbsError: 3.95446e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 9.16282e-01\tAbsError: 4.40895e+13\n", - " Region: \"zone_1\"\tRelError: 3.94410e-02\tAbsError: 2.98107e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.94296e-02\tAbsError: 2.58562e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13728e-05\tAbsError: 3.95446e-03\n", - " Region: \"zone_3\"\tRelError: 8.76841e-01\tAbsError: 4.40895e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.38974e-01\tAbsError: 3.05502e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.97980e-01\tAbsError: 1.35393e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.98753e-02\tAbsError: 2.58800e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13728e-05\tAbsError: 3.95446e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 9.16282e-01\tAbsError: 4.40895e+13\n", - " Region: \"zone_1\"\tRelError: 3.94410e-02\tAbsError: 2.98107e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.94296e-02\tAbsError: 2.58562e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13728e-05\tAbsError: 3.95446e-03\n", - " Region: \"zone_3\"\tRelError: 8.76841e-01\tAbsError: 4.40895e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.38974e-01\tAbsError: 3.05502e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.97980e-01\tAbsError: 1.35393e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.98753e-02\tAbsError: 2.58800e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13728e-05\tAbsError: 3.95446e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.80924e-01\tAbsError: 4.14041e+12\n", - " Region: \"zone_1\"\tRelError: 1.26761e-02\tAbsError: 1.28810e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.26654e-02\tAbsError: 9.16569e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06852e-05\tAbsError: 3.71531e-03\n", - " Region: \"zone_3\"\tRelError: 2.68247e-01\tAbsError: 4.14041e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.13343e-01\tAbsError: 1.97531e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.20174e-02\tAbsError: 2.16511e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28765e-02\tAbsError: 9.16574e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06852e-05\tAbsError: 3.71531e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.80924e-01\tAbsError: 4.14041e+12\n", - " Region: \"zone_1\"\tRelError: 1.26761e-02\tAbsError: 1.28810e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.26654e-02\tAbsError: 9.16569e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06852e-05\tAbsError: 3.71531e-03\n", - " Region: \"zone_3\"\tRelError: 2.68247e-01\tAbsError: 4.14041e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.13343e-01\tAbsError: 1.97531e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.20174e-02\tAbsError: 2.16511e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28765e-02\tAbsError: 9.16574e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06852e-05\tAbsError: 3.71531e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.80924e-01\tAbsError: 4.14041e+12\n", - " Region: \"zone_1\"\tRelError: 1.26761e-02\tAbsError: 1.28810e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.26654e-02\tAbsError: 9.16569e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06852e-05\tAbsError: 3.71531e-03\n", - " Region: \"zone_3\"\tRelError: 2.68247e-01\tAbsError: 4.14041e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.13343e-01\tAbsError: 1.97531e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.20174e-02\tAbsError: 2.16511e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28765e-02\tAbsError: 9.16574e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06852e-05\tAbsError: 3.71531e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.80924e-01\tAbsError: 4.14041e+12\n", - " Region: \"zone_1\"\tRelError: 1.26761e-02\tAbsError: 1.28810e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.26654e-02\tAbsError: 9.16569e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06852e-05\tAbsError: 3.71531e-03\n", - " Region: \"zone_3\"\tRelError: 2.68247e-01\tAbsError: 4.14041e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.13343e-01\tAbsError: 1.97531e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.20174e-02\tAbsError: 2.16511e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28765e-02\tAbsError: 9.16574e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06852e-05\tAbsError: 3.71531e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.80924e-01\tAbsError: 4.14041e+12\n", - " Region: \"zone_1\"\tRelError: 1.26761e-02\tAbsError: 1.28810e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.26654e-02\tAbsError: 9.16569e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06852e-05\tAbsError: 3.71531e-03\n", - " Region: \"zone_3\"\tRelError: 2.68247e-01\tAbsError: 4.14041e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.13343e-01\tAbsError: 1.97531e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.20174e-02\tAbsError: 2.16511e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28765e-02\tAbsError: 9.16574e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06852e-05\tAbsError: 3.71531e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.24267e-02\tAbsError: 4.44373e+12\n", - " Region: \"zone_1\"\tRelError: 1.55756e-03\tAbsError: 2.71473e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.54980e-03\tAbsError: 2.11332e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.75517e-06\tAbsError: 2.69360e-03\n", - " Region: \"zone_3\"\tRelError: 6.08692e-02\tAbsError: 4.44373e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.73099e-02\tAbsError: 2.36189e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.64950e-04\tAbsError: 2.08185e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.58656e-03\tAbsError: 2.12775e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.75517e-06\tAbsError: 2.69360e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.24267e-02\tAbsError: 4.44373e+12\n", - " Region: \"zone_1\"\tRelError: 1.55756e-03\tAbsError: 2.71473e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.54980e-03\tAbsError: 2.11332e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.75517e-06\tAbsError: 2.69360e-03\n", - " Region: \"zone_3\"\tRelError: 6.08692e-02\tAbsError: 4.44373e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.73099e-02\tAbsError: 2.36189e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.64950e-04\tAbsError: 2.08185e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.58656e-03\tAbsError: 2.12775e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.75517e-06\tAbsError: 2.69360e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.24267e-02\tAbsError: 4.44373e+12\n", - " Region: \"zone_1\"\tRelError: 1.55756e-03\tAbsError: 2.71473e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.54980e-03\tAbsError: 2.11332e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.75517e-06\tAbsError: 2.69360e-03\n", - " Region: \"zone_3\"\tRelError: 6.08692e-02\tAbsError: 4.44373e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.73099e-02\tAbsError: 2.36189e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.64950e-04\tAbsError: 2.08185e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.58656e-03\tAbsError: 2.12775e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.75517e-06\tAbsError: 2.69360e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.24267e-02\tAbsError: 4.44373e+12\n", - " Region: \"zone_1\"\tRelError: 1.55756e-03\tAbsError: 2.71473e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.54980e-03\tAbsError: 2.11332e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.75517e-06\tAbsError: 2.69360e-03\n", - " Region: \"zone_3\"\tRelError: 6.08692e-02\tAbsError: 4.44373e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.73099e-02\tAbsError: 2.36189e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.64950e-04\tAbsError: 2.08185e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.58656e-03\tAbsError: 2.12775e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.75517e-06\tAbsError: 2.69360e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.24267e-02\tAbsError: 4.44373e+12\n", - " Region: \"zone_1\"\tRelError: 1.55756e-03\tAbsError: 2.71473e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.54980e-03\tAbsError: 2.11332e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.75517e-06\tAbsError: 2.69360e-03\n", - " Region: \"zone_3\"\tRelError: 6.08692e-02\tAbsError: 4.44373e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.73099e-02\tAbsError: 2.36189e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.64950e-04\tAbsError: 2.08185e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.58656e-03\tAbsError: 2.12775e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.75517e-06\tAbsError: 2.69360e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.05482e-03\tAbsError: 1.29241e+12\n", - " Region: \"zone_1\"\tRelError: 1.90090e-04\tAbsError: 1.43838e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.89682e-04\tAbsError: 1.76981e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.08079e-07\tAbsError: 1.42068e-04\n", - " Region: \"zone_3\"\tRelError: 8.64726e-04\tAbsError: 1.29241e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98376e-04\tAbsError: 3.47698e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.77560e-04\tAbsError: 9.44709e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.88382e-04\tAbsError: 1.78415e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.08236e-07\tAbsError: 1.42125e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.05482e-03\tAbsError: 1.29241e+12\n", - " Region: \"zone_1\"\tRelError: 1.90090e-04\tAbsError: 1.43838e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.89682e-04\tAbsError: 1.76981e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.08079e-07\tAbsError: 1.42068e-04\n", - " Region: \"zone_3\"\tRelError: 8.64726e-04\tAbsError: 1.29241e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98376e-04\tAbsError: 3.47698e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.77560e-04\tAbsError: 9.44709e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.88382e-04\tAbsError: 1.78415e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.08236e-07\tAbsError: 1.42125e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.05482e-03\tAbsError: 1.29241e+12\n", - " Region: \"zone_1\"\tRelError: 1.90090e-04\tAbsError: 1.43838e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.89682e-04\tAbsError: 1.76981e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.08079e-07\tAbsError: 1.42068e-04\n", - " Region: \"zone_3\"\tRelError: 8.64726e-04\tAbsError: 1.29241e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98376e-04\tAbsError: 3.47698e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.77560e-04\tAbsError: 9.44709e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.88382e-04\tAbsError: 1.78415e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.08236e-07\tAbsError: 1.42125e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.05482e-03\tAbsError: 1.29241e+12\n", - " Region: \"zone_1\"\tRelError: 1.90090e-04\tAbsError: 1.43838e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.89682e-04\tAbsError: 1.76981e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.08079e-07\tAbsError: 1.42068e-04\n", - " Region: \"zone_3\"\tRelError: 8.64726e-04\tAbsError: 1.29241e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98376e-04\tAbsError: 3.47698e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.77560e-04\tAbsError: 9.44709e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.88382e-04\tAbsError: 1.78415e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.08236e-07\tAbsError: 1.42125e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.05482e-03\tAbsError: 1.29241e+12\n", - " Region: \"zone_1\"\tRelError: 1.90090e-04\tAbsError: 1.43838e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.89682e-04\tAbsError: 1.76981e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.08079e-07\tAbsError: 1.42068e-04\n", - " Region: \"zone_3\"\tRelError: 8.64726e-04\tAbsError: 1.29241e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98376e-04\tAbsError: 3.47698e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.77560e-04\tAbsError: 9.44709e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.88382e-04\tAbsError: 1.78415e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.08236e-07\tAbsError: 1.42125e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.83337e-04\tAbsError: 1.21087e+11\n", - " Region: \"zone_1\"\tRelError: 4.90568e-05\tAbsError: 7.60331e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.88381e-05\tAbsError: 6.98456e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18693e-07\tAbsError: 7.59633e-05\n", - " Region: \"zone_3\"\tRelError: 1.34280e-04\tAbsError: 1.21087e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.09790e-05\tAbsError: 8.50144e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.08806e-05\tAbsError: 3.60730e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12202e-04\tAbsError: 7.33777e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18747e-07\tAbsError: 7.59802e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.83337e-04\tAbsError: 1.21087e+11\n", - " Region: \"zone_1\"\tRelError: 4.90568e-05\tAbsError: 7.60331e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.88381e-05\tAbsError: 6.98456e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18693e-07\tAbsError: 7.59633e-05\n", - " Region: \"zone_3\"\tRelError: 1.34280e-04\tAbsError: 1.21087e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.09790e-05\tAbsError: 8.50144e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.08806e-05\tAbsError: 3.60730e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12202e-04\tAbsError: 7.33777e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18747e-07\tAbsError: 7.59802e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.83337e-04\tAbsError: 1.21087e+11\n", - " Region: \"zone_1\"\tRelError: 4.90568e-05\tAbsError: 7.60331e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.88381e-05\tAbsError: 6.98456e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18693e-07\tAbsError: 7.59633e-05\n", - " Region: \"zone_3\"\tRelError: 1.34280e-04\tAbsError: 1.21087e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.09790e-05\tAbsError: 8.50144e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.08806e-05\tAbsError: 3.60730e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12202e-04\tAbsError: 7.33777e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18747e-07\tAbsError: 7.59802e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.83337e-04\tAbsError: 1.21087e+11\n", - " Region: \"zone_1\"\tRelError: 4.90568e-05\tAbsError: 7.60331e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.88381e-05\tAbsError: 6.98456e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18693e-07\tAbsError: 7.59633e-05\n", - " Region: \"zone_3\"\tRelError: 1.34280e-04\tAbsError: 1.21087e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.09790e-05\tAbsError: 8.50144e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.08806e-05\tAbsError: 3.60730e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12202e-04\tAbsError: 7.33777e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18747e-07\tAbsError: 7.59802e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.83337e-04\tAbsError: 1.21087e+11\n", - " Region: \"zone_1\"\tRelError: 4.90568e-05\tAbsError: 7.60331e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.88381e-05\tAbsError: 6.98456e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18693e-07\tAbsError: 7.59633e-05\n", - " Region: \"zone_3\"\tRelError: 1.34280e-04\tAbsError: 1.21087e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.09790e-05\tAbsError: 8.50144e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.08806e-05\tAbsError: 3.60730e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12202e-04\tAbsError: 7.33777e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18747e-07\tAbsError: 7.59802e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 7.81161e-05\tAbsError: 6.93771e+10\n", - " Region: \"zone_1\"\tRelError: 1.93898e-05\tAbsError: 4.92941e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.93758e-05\tAbsError: 5.79060e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39925e-08\tAbsError: 4.87150e-06\n", - " Region: \"zone_3\"\tRelError: 5.87263e-05\tAbsError: 6.93771e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90534e-06\tAbsError: 2.77459e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.85181e-06\tAbsError: 4.16312e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.49552e-05\tAbsError: 5.84903e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39990e-08\tAbsError: 4.87388e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:52\u001b[0m.\u001b[1;36m670\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.55 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:52\u001b[0m.\u001b[1;36m670\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.21250000000000002\u001b[0m \n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 7.81161e-05\tAbsError: 6.93771e+10\n", - " Region: \"zone_1\"\tRelError: 1.93898e-05\tAbsError: 4.92941e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.93758e-05\tAbsError: 5.79060e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39925e-08\tAbsError: 4.87150e-06\n", - " Region: \"zone_3\"\tRelError: 5.87263e-05\tAbsError: 6.93771e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90534e-06\tAbsError: 2.77459e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.85181e-06\tAbsError: 4.16312e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.49552e-05\tAbsError: 5.84903e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39990e-08\tAbsError: 4.87388e-06\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Iteration: 7\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 7.81161e-05\tAbsError: 6.93771e+10\n", - " Region: \"zone_1\"\tRelError: 1.93898e-05\tAbsError: 4.92941e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.93758e-05\tAbsError: 5.79060e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39925e-08\tAbsError: 4.87150e-06\n", - " Region: \"zone_3\"\tRelError: 5.87263e-05\tAbsError: 6.93771e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90534e-06\tAbsError: 2.77459e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.85181e-06\tAbsError: 4.16312e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.49552e-05\tAbsError: 5.84903e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39990e-08\tAbsError: 4.87388e-06\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Iteration: 7\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - " Device: \"device\"\tRelError: 7.81161e-05\tAbsError: 6.93771e+10\n", - " Region: \"zone_1\"\tRelError: 1.93898e-05\tAbsError: 4.92941e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.93758e-05\tAbsError: 5.79060e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39925e-08\tAbsError: 4.87150e-06\n", - " Region: \"zone_3\"\tRelError: 5.87263e-05\tAbsError: 6.93771e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90534e-06\tAbsError: 2.77459e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.85181e-06\tAbsError: 4.16312e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.49552e-05\tAbsError: 5.84903e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39990e-08\tAbsError: 4.87388e-06\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 7.81161e-05\tAbsError: 6.93771e+10\n", - " Region: \"zone_1\"\tRelError: 1.93898e-05\tAbsError: 4.92941e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.93758e-05\tAbsError: 5.79060e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39925e-08\tAbsError: 4.87150e-06\n", - " Region: \"zone_3\"\tRelError: 5.87263e-05\tAbsError: 6.93771e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90534e-06\tAbsError: 2.77459e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.85181e-06\tAbsError: 4.16312e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.49552e-05\tAbsError: 5.84903e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39990e-08\tAbsError: 4.87388e-06\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:52\u001b[0m.\u001b[1;36m793\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:52\u001b[0m.\u001b[1;36m793\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.21000000000000002\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:52\u001b[0m.\u001b[1;36m796\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.6 V. Current applied bias: 0.225\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:52\u001b[0m.\u001b[1;36m798\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: 0.22\u001b[0m \n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:34:52\u001b[0m.\u001b[1;36m862\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.5 V. Current applied bias: 0.2\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "number of equations 31816\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.53879e+00\tAbsError: 9.39205e+15\n", - " Region: \"zone_1\"\tRelError: 1.86269e+00\tAbsError: 4.34098e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86269e+00\tAbsError: 4.34059e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10402e-08\tAbsError: 3.83862e-06\n", - " Region: \"zone_3\"\tRelError: 1.67610e+00\tAbsError: 9.39205e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.89767e-01\tAbsError: 5.25395e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.89699e-01\tAbsError: 4.13810e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.66371e-02\tAbsError: 4.34059e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10406e-08\tAbsError: 3.83883e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 4.28200e+00\tAbsError: 1.04356e+16\n", - " Region: \"zone_1\"\tRelError: 2.57025e+00\tAbsError: 4.56493e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.57025e+00\tAbsError: 4.56455e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10402e-08\tAbsError: 3.83862e-06\n", - " Region: \"zone_3\"\tRelError: 1.71175e+00\tAbsError: 1.04356e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.06727e-01\tAbsError: 5.83772e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.06663e-01\tAbsError: 4.59788e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.83590e-02\tAbsError: 4.56455e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10406e-08\tAbsError: 3.83883e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.56710e+00\tAbsError: 9.18334e+15\n", - " Region: \"zone_1\"\tRelError: 1.89994e+00\tAbsError: 4.29376e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.89994e+00\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10402e-08\tAbsError: 3.83862e-06\n", - " Region: \"zone_3\"\tRelError: 1.66716e+00\tAbsError: 9.18334e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86011e-01\tAbsError: 5.13720e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.85942e-01\tAbsError: 4.04614e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.52021e-02\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10406e-08\tAbsError: 3.83883e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.93684e+00\tAbsError: 1.00182e+16\n", - " Region: \"zone_1\"\tRelError: 2.23741e+00\tAbsError: 4.47766e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.23741e+00\tAbsError: 4.47728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10402e-08\tAbsError: 3.83862e-06\n", - " Region: \"zone_3\"\tRelError: 1.69943e+00\tAbsError: 1.00182e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.00282e-01\tAbsError: 5.60422e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.00217e-01\tAbsError: 4.41397e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.89279e-02\tAbsError: 4.47728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10406e-08\tAbsError: 3.83883e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.71665e+00\tAbsError: 8.34849e+15\n", - " Region: \"zone_1\"\tRelError: 2.08783e+00\tAbsError: 4.09581e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.08783e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10402e-08\tAbsError: 3.83862e-06\n", - " Region: \"zone_3\"\tRelError: 1.62882e+00\tAbsError: 8.34849e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69544e-01\tAbsError: 4.67018e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69471e-01\tAbsError: 3.67831e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.98079e-02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10406e-08\tAbsError: 3.83883e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.58790e+00\tAbsError: 3.66802e+14\n", - " Region: \"zone_1\"\tRelError: 7.55897e-02\tAbsError: 1.00192e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 7.53983e-02\tAbsError: 3.36593e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91386e-04\tAbsError: 6.65330e-02\n", - " Region: \"zone_3\"\tRelError: 1.51231e+00\tAbsError: 3.66802e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.73823e-01\tAbsError: 1.90008e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69654e-01\tAbsError: 1.76794e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.86418e-02\tAbsError: 3.36598e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91386e-04\tAbsError: 6.65330e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.57053e+00\tAbsError: 3.51165e+14\n", - " Region: \"zone_1\"\tRelError: 7.27979e-02\tAbsError: 9.81633e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.26108e-02\tAbsError: 3.31004e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.87156e-04\tAbsError: 6.50629e-02\n", - " Region: \"zone_3\"\tRelError: 1.49773e+00\tAbsError: 3.51165e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67194e-01\tAbsError: 1.81651e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.62787e-01\tAbsError: 1.69514e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.75645e-02\tAbsError: 3.31009e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.87156e-04\tAbsError: 6.50629e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.66284e+00\tAbsError: 4.50140e+14\n", - " Region: \"zone_1\"\tRelError: 8.50588e-02\tAbsError: 1.10173e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 8.48463e-02\tAbsError: 3.63158e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.12460e-04\tAbsError: 7.38576e-02\n", - " Region: \"zone_3\"\tRelError: 1.57778e+00\tAbsError: 4.50140e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.04046e-01\tAbsError: 2.35006e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.99754e-01\tAbsError: 2.15134e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.37676e-02\tAbsError: 3.63162e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.12460e-04\tAbsError: 7.38576e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.63292e+00\tAbsError: 4.15375e+14\n", - " Region: \"zone_1\"\tRelError: 7.97441e-02\tAbsError: 1.06260e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 7.95399e-02\tAbsError: 3.52797e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.04182e-04\tAbsError: 7.09806e-02\n", - " Region: \"zone_3\"\tRelError: 1.55318e+00\tAbsError: 4.15375e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.92034e-01\tAbsError: 2.15992e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.89172e-01\tAbsError: 1.99383e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.17701e-02\tAbsError: 3.52802e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.04182e-04\tAbsError: 7.09806e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.50135e+00\tAbsError: 2.91709e+14\n", - " Region: \"zone_1\"\tRelError: 6.56152e-02\tAbsError: 8.99308e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.54450e-02\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70194e-04\tAbsError: 5.91672e-02\n", - " Region: \"zone_3\"\tRelError: 1.43573e+00\tAbsError: 2.91709e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37692e-01\tAbsError: 1.49990e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32867e-01\tAbsError: 1.41719e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.50013e-02\tAbsError: 3.07641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70194e-04\tAbsError: 5.91672e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.07805e+00\tAbsError: 4.45719e+13\n", - " Region: \"zone_1\"\tRelError: 5.25512e-02\tAbsError: 3.19171e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.25338e-02\tAbsError: 2.58938e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73262e-05\tAbsError: 6.02337e-03\n", - " Region: \"zone_3\"\tRelError: 1.02550e+00\tAbsError: 4.45719e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.97356e-01\tAbsError: 3.25945e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.75305e-01\tAbsError: 1.19774e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.28239e-02\tAbsError: 2.58580e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73262e-05\tAbsError: 6.02337e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.20178e+00\tAbsError: 5.38350e+13\n", - " Region: \"zone_1\"\tRelError: 5.65078e-02\tAbsError: 3.29649e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.64872e-02\tAbsError: 2.58169e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.05615e-05\tAbsError: 7.14795e-03\n", - " Region: \"zone_3\"\tRelError: 1.14528e+00\tAbsError: 5.38350e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.46674e-01\tAbsError: 3.92893e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.41993e-01\tAbsError: 1.45456e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.65882e-02\tAbsError: 2.58050e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.05615e-05\tAbsError: 7.14795e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.05165e+00\tAbsError: 4.28489e+13\n", - " Region: \"zone_1\"\tRelError: 5.19381e-02\tAbsError: 3.16771e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.19214e-02\tAbsError: 2.58745e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.66912e-05\tAbsError: 5.80261e-03\n", - " Region: \"zone_3\"\tRelError: 9.99707e-01\tAbsError: 4.28489e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.86538e-01\tAbsError: 3.13493e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.61055e-01\tAbsError: 1.14996e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.20976e-02\tAbsError: 2.58960e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.66912e-05\tAbsError: 5.80261e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.15262e+00\tAbsError: 5.01447e+13\n", - " Region: \"zone_1\"\tRelError: 5.48144e-02\tAbsError: 3.25839e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.47949e-02\tAbsError: 2.58232e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94474e-05\tAbsError: 6.76072e-03\n", - " Region: \"zone_3\"\tRelError: 1.09780e+00\tAbsError: 5.01447e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.27983e-01\tAbsError: 3.66370e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.14663e-01\tAbsError: 1.35077e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.51367e-02\tAbsError: 2.58961e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94474e-05\tAbsError: 6.76072e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 9.34092e-01\tAbsError: 3.63172e+13\n", - " Region: \"zone_1\"\tRelError: 4.74089e-02\tAbsError: 3.08414e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.73947e-02\tAbsError: 2.58899e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42429e-05\tAbsError: 4.95155e-03\n", - " Region: \"zone_3\"\tRelError: 8.86683e-01\tAbsError: 3.63172e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40041e-01\tAbsError: 2.66176e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.98904e-01\tAbsError: 9.69965e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.77236e-02\tAbsError: 2.58388e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42429e-05\tAbsError: 4.95155e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.84829e-01\tAbsError: 3.38152e+12\n", - " Region: \"zone_1\"\tRelError: 2.22384e-02\tAbsError: 1.67900e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.22278e-02\tAbsError: 1.31069e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.05945e-05\tAbsError: 3.68307e-03\n", - " Region: \"zone_3\"\tRelError: 3.62591e-01\tAbsError: 3.38152e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.57689e-01\tAbsError: 2.18351e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.23925e-02\tAbsError: 1.19802e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.24992e-02\tAbsError: 1.31070e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.05945e-05\tAbsError: 3.68307e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.16809e-01\tAbsError: 4.52158e+12\n", - " Region: \"zone_1\"\tRelError: 3.08342e-02\tAbsError: 2.17664e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.08224e-02\tAbsError: 1.76840e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.17434e-05\tAbsError: 4.08239e-03\n", - " Region: \"zone_3\"\tRelError: 4.85974e-01\tAbsError: 4.52158e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.20160e-01\tAbsError: 2.93839e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.34635e-01\tAbsError: 1.58320e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.11676e-02\tAbsError: 1.76841e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.17434e-05\tAbsError: 4.08239e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.59925e-01\tAbsError: 3.29811e+12\n", - " Region: \"zone_1\"\tRelError: 2.06968e-02\tAbsError: 1.57226e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06868e-02\tAbsError: 1.22658e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.94379e-06\tAbsError: 3.45688e-03\n", - " Region: \"zone_3\"\tRelError: 3.39228e-01\tAbsError: 3.29811e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.44822e-01\tAbsError: 2.09106e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.34528e-02\tAbsError: 1.20705e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.09440e-02\tAbsError: 1.22658e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.94484e-06\tAbsError: 3.45731e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.63237e-01\tAbsError: 3.89858e+12\n", - " Region: \"zone_1\"\tRelError: 2.72186e-02\tAbsError: 1.97367e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.72072e-02\tAbsError: 1.57809e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13791e-05\tAbsError: 3.95578e-03\n", - " Region: \"zone_3\"\tRelError: 4.36018e-01\tAbsError: 3.89858e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.95865e-01\tAbsError: 2.60793e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.12619e-01\tAbsError: 1.29064e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.75223e-02\tAbsError: 1.57810e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13791e-05\tAbsError: 3.95578e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.84661e-01\tAbsError: 3.60663e+12\n", - " Region: \"zone_1\"\tRelError: 1.51217e-02\tAbsError: 1.24487e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51123e-02\tAbsError: 9.16566e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.44365e-06\tAbsError: 3.28306e-03\n", - " Region: \"zone_3\"\tRelError: 2.69539e-01\tAbsError: 3.60663e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12296e-01\tAbsError: 2.19846e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.19182e-02\tAbsError: 1.40817e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.53153e-02\tAbsError: 9.16570e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.44365e-06\tAbsError: 3.28306e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.84170e-02\tAbsError: 2.98589e+12\n", - " Region: \"zone_1\"\tRelError: 1.01074e-03\tAbsError: 2.47043e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00364e-03\tAbsError: 2.37290e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.10666e-06\tAbsError: 2.46806e-03\n", - " Region: \"zone_3\"\tRelError: 8.74063e-02\tAbsError: 2.98589e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.43433e-02\tAbsError: 1.88413e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.78684e-04\tAbsError: 1.10176e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.77718e-03\tAbsError: 2.58380e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.10666e-06\tAbsError: 2.46806e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.28938e-01\tAbsError: 3.34909e+12\n", - " Region: \"zone_1\"\tRelError: 8.90961e-04\tAbsError: 2.97123e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 8.82412e-04\tAbsError: 2.22756e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.54922e-06\tAbsError: 2.96901e-03\n", - " Region: \"zone_3\"\tRelError: 1.28047e-01\tAbsError: 3.34909e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.24383e-01\tAbsError: 2.03710e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.91050e-04\tAbsError: 1.31199e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.06484e-03\tAbsError: 2.23835e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.54922e-06\tAbsError: 2.96901e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.12077e-01\tAbsError: 3.22720e+12\n", - " Region: \"zone_1\"\tRelError: 9.34001e-04\tAbsError: 2.75666e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 9.26069e-04\tAbsError: 2.01820e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.93193e-06\tAbsError: 2.75464e-03\n", - " Region: \"zone_3\"\tRelError: 1.11143e-01\tAbsError: 3.22720e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07769e-01\tAbsError: 1.97456e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.93688e-04\tAbsError: 1.25263e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.97332e-03\tAbsError: 2.09794e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.93193e-06\tAbsError: 2.75464e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.15555e-02\tAbsError: 2.83273e+12\n", - " Region: \"zone_1\"\tRelError: 9.61737e-04\tAbsError: 2.53661e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 9.54438e-04\tAbsError: 1.76901e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.29893e-06\tAbsError: 2.53484e-03\n", - " Region: \"zone_3\"\tRelError: 8.05938e-02\tAbsError: 2.83273e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77894e-02\tAbsError: 1.76357e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.00697e-04\tAbsError: 1.06916e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.59639e-03\tAbsError: 1.83626e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.29893e-06\tAbsError: 2.53484e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.15193e-02\tAbsError: 3.32533e+12\n", - " Region: \"zone_1\"\tRelError: 1.39861e-03\tAbsError: 2.06499e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39271e-03\tAbsError: 1.45908e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.90395e-06\tAbsError: 2.05040e-03\n", - " Region: \"zone_3\"\tRelError: 6.01207e-02\tAbsError: 3.32533e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.70408e-02\tAbsError: 2.05872e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.81905e-04\tAbsError: 1.26661e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49208e-03\tAbsError: 1.52370e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.90395e-06\tAbsError: 2.05040e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 7.83872e-04\tAbsError: 1.20586e+12\n", - " Region: \"zone_1\"\tRelError: 1.08141e-04\tAbsError: 1.50843e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07713e-04\tAbsError: 1.73879e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.28324e-07\tAbsError: 1.49104e-04\n", - " Region: \"zone_3\"\tRelError: 6.75731e-04\tAbsError: 1.20586e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.47748e-04\tAbsError: 3.09981e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.43876e-04\tAbsError: 8.95875e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.83677e-04\tAbsError: 1.73899e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.28505e-07\tAbsError: 1.49169e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 9.24807e-04\tAbsError: 1.44810e+12\n", - " Region: \"zone_1\"\tRelError: 1.11443e-04\tAbsError: 1.61914e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10984e-04\tAbsError: 2.10195e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.59089e-07\tAbsError: 1.59812e-04\n", - " Region: \"zone_3\"\tRelError: 8.13364e-04\tAbsError: 1.44810e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.68603e-04\tAbsError: 3.67953e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.69322e-04\tAbsError: 1.08015e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.74980e-04\tAbsError: 2.10266e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.59279e-07\tAbsError: 1.59881e-04\n", - "Iteration: 5\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 8.98965e-04\tAbsError: 1.24659e+12\n", - " Region: \"zone_1\"\tRelError: 1.38362e-04\tAbsError: 1.35908e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37977e-04\tAbsError: 1.78872e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.85277e-07\tAbsError: 1.34119e-04\n", - " Region: \"zone_3\"\tRelError: 7.60603e-04\tAbsError: 1.24659e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.53741e-04\tAbsError: 3.31806e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.52332e-04\tAbsError: 9.14787e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.54145e-04\tAbsError: 1.78892e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.85437e-07\tAbsError: 1.34177e-04\n", - " Device: \"device\"\tRelError: 8.54154e-04\tAbsError: 1.34353e+12\n", - " Region: \"zone_1\"\tRelError: 1.07529e-04\tAbsError: 1.59272e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07078e-04\tAbsError: 1.94603e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.51946e-07\tAbsError: 1.57326e-04\n", - " Region: \"zone_3\"\tRelError: 7.46624e-04\tAbsError: 1.34353e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.58803e-04\tAbsError: 3.42023e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.58116e-04\tAbsError: 1.00151e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.29253e-04\tAbsError: 1.94645e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.52133e-07\tAbsError: 1.57394e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.41619e-04\tAbsError: 9.91737e+11\n", - " Region: \"zone_1\"\tRelError: 9.96328e-05\tAbsError: 1.41218e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.92313e-05\tAbsError: 1.43598e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.01548e-07\tAbsError: 1.39782e-04\n", - " Region: \"zone_3\"\tRelError: 5.41987e-04\tAbsError: 9.91737e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33851e-04\tAbsError: 2.52743e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.19510e-04\tAbsError: 7.38994e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88224e-04\tAbsError: 1.43642e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.01703e-07\tAbsError: 1.39838e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.88505e-04\tAbsError: 1.27858e+11\n", - " Region: \"zone_1\"\tRelError: 4.26064e-05\tAbsError: 6.82507e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.24101e-05\tAbsError: 7.45728e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.96297e-07\tAbsError: 6.81762e-05\n", - " Region: \"zone_3\"\tRelError: 1.45898e-04\tAbsError: 1.27858e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01716e-05\tAbsError: 8.89126e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.00818e-05\tAbsError: 3.89454e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.25448e-04\tAbsError: 7.84802e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.96297e-07\tAbsError: 6.81762e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.88637e-04\tAbsError: 1.33871e+11\n", - " Region: \"zone_1\"\tRelError: 3.67778e-05\tAbsError: 8.30989e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.65388e-05\tAbsError: 7.88474e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.39039e-07\tAbsError: 8.30200e-05\n", - " Region: \"zone_3\"\tRelError: 1.51859e-04\tAbsError: 1.33871e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03403e-05\tAbsError: 9.56490e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.02501e-05\tAbsError: 3.82221e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31030e-04\tAbsError: 8.29792e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.39042e-07\tAbsError: 8.30200e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.91512e-04\tAbsError: 1.33302e+11\n", - " Region: \"zone_1\"\tRelError: 3.95318e-05\tAbsError: 7.64793e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.93118e-05\tAbsError: 7.81883e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19981e-07\tAbsError: 7.64012e-05\n", - " Region: \"zone_3\"\tRelError: 1.51980e-04\tAbsError: 1.33302e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04356e-05\tAbsError: 9.39778e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03447e-05\tAbsError: 3.93238e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.30980e-04\tAbsError: 8.22844e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19981e-07\tAbsError: 7.64012e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.63404e-04\tAbsError: 1.13118e+11\n", - " Region: \"zone_1\"\tRelError: 3.79692e-05\tAbsError: 7.25340e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.77606e-05\tAbsError: 6.55674e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.08655e-07\tAbsError: 7.24685e-05\n", - " Region: \"zone_3\"\tRelError: 1.25435e-04\tAbsError: 1.13118e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.83920e-06\tAbsError: 8.03454e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.75701e-06\tAbsError: 3.27729e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07630e-04\tAbsError: 6.89930e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.08701e-07\tAbsError: 7.24825e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.93092e-04\tAbsError: 1.20956e+11\n", - " Region: \"zone_1\"\tRelError: 5.19796e-05\tAbsError: 5.49717e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.18215e-05\tAbsError: 7.13664e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.58071e-07\tAbsError: 5.49003e-05\n", - " Region: \"zone_3\"\tRelError: 1.41112e-04\tAbsError: 1.20956e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98278e-06\tAbsError: 8.30737e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.89193e-06\tAbsError: 3.78825e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21079e-04\tAbsError: 7.51109e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.58071e-07\tAbsError: 5.49003e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 6.02240e-05\tAbsError: 6.13809e+10\n", - " Region: \"zone_1\"\tRelError: 1.22214e-05\tAbsError: 5.85783e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.22048e-05\tAbsError: 5.52827e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.66684e-08\tAbsError: 5.80254e-06\n", - " Region: \"zone_3\"\tRelError: 4.80026e-05\tAbsError: 6.13809e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.42789e-06\tAbsError: 2.30389e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.38225e-06\tAbsError: 3.83421e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.71758e-05\tAbsError: 5.53762e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.66761e-08\tAbsError: 5.80531e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:04\u001b[0m.\u001b[1;36m201\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.55 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:04\u001b[0m.\u001b[1;36m201\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.32500000000000007\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 7.25073e-05\tAbsError: 7.50435e+10\n", - " Region: \"zone_1\"\tRelError: 1.27392e-05\tAbsError: 5.72098e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.27230e-05\tAbsError: 6.77997e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62395e-08\tAbsError: 5.65318e-06\n", - " Region: \"zone_3\"\tRelError: 5.97680e-05\tAbsError: 7.50435e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.54092e-06\tAbsError: 2.83626e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.48691e-06\tAbsError: 4.66809e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.67240e-05\tAbsError: 6.78612e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62475e-08\tAbsError: 5.65608e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 6.64634e-05\tAbsError: 6.88445e+10\n", - " Region: \"zone_1\"\tRelError: 1.23151e-05\tAbsError: 5.93606e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.22982e-05\tAbsError: 6.22343e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.68733e-08\tAbsError: 5.87382e-06\n", - " Region: \"zone_3\"\tRelError: 5.41483e-05\tAbsError: 6.88445e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.03522e-06\tAbsError: 2.58299e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.98503e-06\tAbsError: 4.30146e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.21112e-05\tAbsError: 6.23101e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.68809e-08\tAbsError: 5.87661e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 6.96553e-05\tAbsError: 6.62371e+10\n", - " Region: \"zone_1\"\tRelError: 1.48815e-05\tAbsError: 4.57528e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.48685e-05\tAbsError: 5.85248e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.29748e-08\tAbsError: 4.51675e-06\n", - " Region: \"zone_3\"\tRelError: 5.47738e-05\tAbsError: 6.62371e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.88342e-06\tAbsError: 2.60354e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.83402e-06\tAbsError: 4.02017e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.30433e-05\tAbsError: 5.86384e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.29813e-08\tAbsError: 4.51913e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:04\u001b[0m.\u001b[1;36m442\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.6 V. Current applied bias: 0.35\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:04\u001b[0m.\u001b[1;36m478\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: \u001b[0m \n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:04\u001b[0m.\u001b[1;36m478\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.33999999999999997\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:04\u001b[0m.\u001b[1;36m494\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: \u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:04\u001b[0m.\u001b[1;36m494\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.32000000000000006\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.80808e-05\tAbsError: 4.88682e+10\n", - " Region: \"zone_1\"\tRelError: 1.14733e-05\tAbsError: 6.01729e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14561e-05\tAbsError: 4.42617e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71583e-08\tAbsError: 5.97303e-06\n", - " Region: \"zone_3\"\tRelError: 3.66076e-05\tAbsError: 4.88682e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.37895e-06\tAbsError: 1.78097e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.34162e-06\tAbsError: 3.10585e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78698e-05\tAbsError: 4.43739e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71659e-08\tAbsError: 5.97583e-06\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:04\u001b[0m.\u001b[1;36m657\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.5 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:04\u001b[0m.\u001b[1;36m657\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 8.52071e+00\tAbsError: 9.31230e+15\n", - " Region: \"zone_1\"\tRelError: 6.83668e+00\tAbsError: 4.34092e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.83668e+00\tAbsError: 4.34059e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.31980e-09\tAbsError: 3.23984e-06\n", - " Region: \"zone_3\"\tRelError: 1.68403e+00\tAbsError: 9.31230e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.89855e-01\tAbsError: 5.38690e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.89836e-01\tAbsError: 3.92539e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04337e-01\tAbsError: 4.34059e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.31980e-09\tAbsError: 3.23984e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 9.02508e+00\tAbsError: 1.03436e+16\n", - " Region: \"zone_1\"\tRelError: 7.30011e+00\tAbsError: 4.56495e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.30011e+00\tAbsError: 4.56455e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.16793e-08\tAbsError: 4.06001e-06\n", - " Region: \"zone_3\"\tRelError: 1.72497e+00\tAbsError: 1.03436e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.06813e-01\tAbsError: 6.00379e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.06796e-01\tAbsError: 4.33979e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11360e-01\tAbsError: 4.56455e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.16793e-08\tAbsError: 4.06001e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.11166e+00\tAbsError: 9.93116e+15\n", - " Region: \"zone_1\"\tRelError: 4.40001e+00\tAbsError: 4.47764e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.40001e+00\tAbsError: 4.47728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.05684e-08\tAbsError: 3.67386e-06\n", - " Region: \"zone_3\"\tRelError: 1.71166e+00\tAbsError: 9.93116e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.00369e-01\tAbsError: 5.75673e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.00352e-01\tAbsError: 4.17443e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10937e-01\tAbsError: 4.47728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.05684e-08\tAbsError: 3.67386e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.13208e+01\tAbsError: 9.10596e+15\n", - " Region: \"zone_1\"\tRelError: 9.64710e+00\tAbsError: 4.29375e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.64710e+00\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.05109e-08\tAbsError: 3.65393e-06\n", - " Region: \"zone_3\"\tRelError: 1.67375e+00\tAbsError: 9.10596e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86100e-01\tAbsError: 5.26385e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.86081e-01\tAbsError: 3.84211e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01565e-01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.05112e-08\tAbsError: 3.65410e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.29649e+01\tAbsError: 8.28032e+15\n", - " Region: \"zone_1\"\tRelError: 1.13261e+01\tAbsError: 4.09567e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13261e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.18797e-09\tAbsError: 2.49640e-06\n", - " Region: \"zone_3\"\tRelError: 1.63880e+00\tAbsError: 8.28032e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69633e-01\tAbsError: 4.77284e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.50748e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.95556e-02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.18889e-09\tAbsError: 2.49675e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.62246e+00\tAbsError: 3.65433e+14\n", - " Region: \"zone_1\"\tRelError: 9.44049e-02\tAbsError: 9.44380e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.42301e-02\tAbsError: 3.36593e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.74863e-04\tAbsError: 6.07788e-02\n", - " Region: \"zone_3\"\tRelError: 1.52805e+00\tAbsError: 3.65433e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.74362e-01\tAbsError: 2.33112e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69900e-01\tAbsError: 1.32321e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.36162e-02\tAbsError: 3.36597e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.74863e-04\tAbsError: 6.07788e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.67898e+00\tAbsError: 4.16529e+14\n", - " Region: \"zone_1\"\tRelError: 1.08583e-01\tAbsError: 9.95281e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08398e-01\tAbsError: 3.52797e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84850e-04\tAbsError: 6.42484e-02\n", - " Region: \"zone_3\"\tRelError: 1.57040e+00\tAbsError: 4.16529e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.92917e-01\tAbsError: 2.71892e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.88893e-01\tAbsError: 1.44637e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.84045e-02\tAbsError: 3.52801e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84850e-04\tAbsError: 6.42484e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.76174e+00\tAbsError: 4.53186e+14\n", - " Region: \"zone_1\"\tRelError: 1.66138e-01\tAbsError: 1.02791e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65947e-01\tAbsError: 3.63157e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91260e-04\tAbsError: 6.64756e-02\n", - " Region: \"zone_3\"\tRelError: 1.59560e+00\tAbsError: 4.53186e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.04551e-01\tAbsError: 3.00667e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.00035e-01\tAbsError: 1.52519e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.08233e-02\tAbsError: 3.63162e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91260e-04\tAbsError: 6.64756e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.60555e+00\tAbsError: 3.49070e+14\n", - " Region: \"zone_1\"\tRelError: 9.22733e-02\tAbsError: 9.26848e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.21018e-02\tAbsError: 3.31004e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71426e-04\tAbsError: 5.95845e-02\n", - " Region: \"zone_3\"\tRelError: 1.51327e+00\tAbsError: 3.49070e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67916e-01\tAbsError: 2.20940e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.62728e-01\tAbsError: 1.28130e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.24571e-02\tAbsError: 3.31008e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71426e-04\tAbsError: 5.95845e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.56865e+00\tAbsError: 2.86625e+14\n", - " Region: \"zone_1\"\tRelError: 1.21045e-01\tAbsError: 8.55195e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20888e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", - " Region: \"zone_3\"\tRelError: 1.44761e+00\tAbsError: 2.86625e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38556e-01\tAbsError: 1.75436e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32332e-01\tAbsError: 1.11189e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.65613e-02\tAbsError: 3.07640e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.11363e+00\tAbsError: 5.96545e+13\n", - " Region: \"zone_1\"\tRelError: 6.75695e-02\tAbsError: 3.29339e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.75487e-02\tAbsError: 2.57042e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.07999e-05\tAbsError: 7.22975e-03\n", - " Region: \"zone_3\"\tRelError: 1.04606e+00\tAbsError: 5.96545e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.97798e-01\tAbsError: 4.25095e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.80228e-01\tAbsError: 1.71450e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.80105e-02\tAbsError: 2.58162e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.07999e-05\tAbsError: 7.22975e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.19514e+00\tAbsError: 7.59573e+13\n", - " Region: \"zone_1\"\tRelError: 7.24050e-02\tAbsError: 3.39834e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.23816e-02\tAbsError: 2.58364e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.34393e-05\tAbsError: 8.14699e-03\n", - " Region: \"zone_3\"\tRelError: 1.12273e+00\tAbsError: 7.59573e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.28455e-01\tAbsError: 5.29748e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.21700e-01\tAbsError: 2.29824e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.25511e-02\tAbsError: 2.58828e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.34393e-05\tAbsError: 8.14699e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.24543e+00\tAbsError: 8.44995e+13\n", - " Region: \"zone_1\"\tRelError: 7.48143e-02\tAbsError: 3.41274e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.47891e-02\tAbsError: 2.53557e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.52369e-05\tAbsError: 8.77172e-03\n", - " Region: \"zone_3\"\tRelError: 1.17061e+00\tAbsError: 8.44995e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.47366e-01\tAbsError: 5.66747e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.48284e-01\tAbsError: 2.78248e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.49367e-02\tAbsError: 2.57734e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.52369e-05\tAbsError: 8.77172e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.08576e+00\tAbsError: 5.42272e+13\n", - " Region: \"zone_1\"\tRelError: 6.57302e-02\tAbsError: 3.25935e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.57103e-02\tAbsError: 2.56636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.99371e-05\tAbsError: 6.92989e-03\n", - " Region: \"zone_3\"\tRelError: 1.02003e+00\tAbsError: 5.42272e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.86826e-01\tAbsError: 3.87041e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.66488e-01\tAbsError: 1.55232e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.66923e-02\tAbsError: 2.58213e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.99371e-05\tAbsError: 6.92989e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 9.63437e-01\tAbsError: 3.66677e+13\n", - " Region: \"zone_1\"\tRelError: 5.93231e-02\tAbsError: 3.16919e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.93064e-02\tAbsError: 2.58707e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", - " Region: \"zone_3\"\tRelError: 9.04114e-01\tAbsError: 3.66677e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40101e-01\tAbsError: 2.63702e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.04471e-01\tAbsError: 1.02975e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95256e-02\tAbsError: 2.58992e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.00848e-01\tAbsError: 1.07895e+13\n", - " Region: \"zone_1\"\tRelError: 2.84831e-02\tAbsError: 1.61431e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.84743e-02\tAbsError: 1.31069e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.73558e-06\tAbsError: 3.03626e-03\n", - " Region: \"zone_3\"\tRelError: 3.72365e-01\tAbsError: 1.07895e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.56914e-01\tAbsError: 5.23438e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.67239e-02\tAbsError: 5.55513e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.87187e-02\tAbsError: 1.31069e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.73893e-06\tAbsError: 3.03751e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.85588e-01\tAbsError: 1.61066e+13\n", - " Region: \"zone_1\"\tRelError: 3.56563e-02\tAbsError: 1.89664e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.56471e-02\tAbsError: 1.57809e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.16511e-06\tAbsError: 3.18549e-03\n", - " Region: \"zone_3\"\tRelError: 4.49932e-01\tAbsError: 1.61066e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.95059e-01\tAbsError: 8.36463e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.18941e-01\tAbsError: 7.74195e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.59228e-02\tAbsError: 1.57809e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.16867e-06\tAbsError: 3.18682e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.45003e-01\tAbsError: 2.12588e+13\n", - " Region: \"zone_1\"\tRelError: 4.10214e-02\tAbsError: 2.09861e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.10119e-02\tAbsError: 1.76839e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.50094e-06\tAbsError: 3.30217e-03\n", - " Region: \"zone_3\"\tRelError: 5.03981e-01\tAbsError: 2.12588e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.20049e-01\tAbsError: 1.15224e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.42587e-01\tAbsError: 9.73636e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.13362e-02\tAbsError: 1.76840e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.50472e-06\tAbsError: 3.30358e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.73642e-01\tAbsError: 9.69815e+12\n", - " Region: \"zone_1\"\tRelError: 2.63134e-02\tAbsError: 1.52684e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.63048e-02\tAbsError: 1.22657e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.63884e-06\tAbsError: 3.00266e-03\n", - " Region: \"zone_3\"\tRelError: 3.47328e-01\tAbsError: 9.69815e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.43903e-01\tAbsError: 4.70596e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.68748e-02\tAbsError: 4.99219e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.65414e-02\tAbsError: 1.22658e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.64176e-06\tAbsError: 3.00375e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.93334e-01\tAbsError: 6.56738e+12\n", - " Region: \"zone_1\"\tRelError: 1.86981e-02\tAbsError: 1.19586e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86900e-02\tAbsError: 9.16562e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03535e-06\tAbsError: 2.79297e-03\n", - " Region: \"zone_3\"\tRelError: 2.74636e-01\tAbsError: 6.56738e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11907e-01\tAbsError: 3.29549e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.38500e-02\tAbsError: 3.27189e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88710e-02\tAbsError: 9.16566e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03753e-06\tAbsError: 2.79381e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.82821e-02\tAbsError: 2.68252e+12\n", - " Region: \"zone_1\"\tRelError: 5.25129e-04\tAbsError: 1.93840e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.19570e-04\tAbsError: 8.03188e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.55898e-06\tAbsError: 1.93037e-03\n", - " Region: \"zone_3\"\tRelError: 8.77570e-02\tAbsError: 2.68252e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.43925e-02\tAbsError: 1.75308e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.55318e-04\tAbsError: 9.29440e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.50363e-03\tAbsError: 8.78638e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.55898e-06\tAbsError: 1.93037e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.11980e-01\tAbsError: 2.98837e+12\n", - " Region: \"zone_1\"\tRelError: 5.60614e-04\tAbsError: 2.14512e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.54465e-04\tAbsError: 1.00063e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.14867e-06\tAbsError: 2.13511e-03\n", - " Region: \"zone_3\"\tRelError: 1.11419e-01\tAbsError: 2.98837e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.06867e-01\tAbsError: 1.76788e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.90377e-03\tAbsError: 1.22049e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.64228e-03\tAbsError: 1.04392e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.14867e-06\tAbsError: 2.13511e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.30171e-01\tAbsError: 3.28068e+12\n", - " Region: \"zone_1\"\tRelError: 5.86889e-04\tAbsError: 2.27696e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.80377e-04\tAbsError: 1.55714e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.51238e-06\tAbsError: 2.26139e-03\n", - " Region: \"zone_3\"\tRelError: 1.29584e-01\tAbsError: 3.28068e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.23299e-01\tAbsError: 1.75938e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.53077e-03\tAbsError: 1.52130e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.74781e-03\tAbsError: 1.70018e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.51238e-06\tAbsError: 2.26139e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.13764e-02\tAbsError: 2.60011e+12\n", - " Region: \"zone_1\"\tRelError: 5.15644e-04\tAbsError: 1.86139e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.10306e-04\tAbsError: 7.73509e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.33805e-06\tAbsError: 1.85366e-03\n", - " Region: \"zone_3\"\tRelError: 8.08607e-02\tAbsError: 2.60011e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77471e-02\tAbsError: 1.74501e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.39413e-04\tAbsError: 8.55098e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.46890e-03\tAbsError: 8.53513e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.33805e-06\tAbsError: 1.85366e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.00158e-02\tAbsError: 2.47729e+12\n", - " Region: \"zone_1\"\tRelError: 6.29744e-04\tAbsError: 1.66755e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.24968e-04\tAbsError: 8.94858e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", - " Region: \"zone_3\"\tRelError: 5.93860e-02\tAbsError: 2.47729e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.68115e-02\tAbsError: 1.70064e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.91678e-04\tAbsError: 7.76647e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.27809e-03\tAbsError: 9.43816e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.07510e-04\tAbsError: 1.02613e+12\n", - " Region: \"zone_1\"\tRelError: 4.81162e-05\tAbsError: 1.44442e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.77057e-05\tAbsError: 1.54944e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.10523e-07\tAbsError: 1.42893e-04\n", - " Region: \"zone_3\"\tRelError: 4.59393e-04\tAbsError: 1.02613e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.20154e-04\tAbsError: 2.39172e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03494e-04\tAbsError: 7.86956e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.35335e-04\tAbsError: 1.55565e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.10697e-07\tAbsError: 1.42956e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.59692e-04\tAbsError: 9.32961e+11\n", - " Region: \"zone_1\"\tRelError: 4.35244e-05\tAbsError: 1.38312e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.31311e-05\tAbsError: 1.40628e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.93324e-07\tAbsError: 1.36906e-04\n", - " Region: \"zone_3\"\tRelError: 4.16167e-04\tAbsError: 9.32961e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03722e-04\tAbsError: 2.21928e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.61297e-05\tAbsError: 7.11033e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.15922e-04\tAbsError: 1.41248e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.93489e-07\tAbsError: 1.36966e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.38944e-04\tAbsError: 1.08088e+12\n", - " Region: \"zone_1\"\tRelError: 5.57220e-05\tAbsError: 1.49946e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.52959e-05\tAbsError: 1.63142e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.26101e-07\tAbsError: 1.48314e-04\n", - " Region: \"zone_3\"\tRelError: 4.83222e-04\tAbsError: 1.08088e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.36277e-04\tAbsError: 2.47335e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.07539e-04\tAbsError: 8.33548e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.38980e-04\tAbsError: 1.63690e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.26280e-07\tAbsError: 1.48379e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.48966e-04\tAbsError: 8.96566e+11\n", - " Region: \"zone_1\"\tRelError: 5.28566e-05\tAbsError: 1.37320e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.24660e-05\tAbsError: 1.35084e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.90631e-07\tAbsError: 1.35969e-04\n", - " Region: \"zone_3\"\tRelError: 3.96109e-04\tAbsError: 8.96566e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98545e-05\tAbsError: 2.13909e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.29182e-05\tAbsError: 6.82656e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.02946e-04\tAbsError: 1.35679e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.90791e-07\tAbsError: 1.36028e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.31240e-04\tAbsError: 7.97937e+11\n", - " Region: \"zone_1\"\tRelError: 7.54533e-05\tAbsError: 1.27890e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.50894e-05\tAbsError: 1.20855e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.63943e-07\tAbsError: 1.26681e-04\n", - " Region: \"zone_3\"\tRelError: 3.55787e-04\tAbsError: 7.97937e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.38045e-05\tAbsError: 1.92064e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.48742e-05\tAbsError: 6.05872e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.76744e-04\tAbsError: 1.21338e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.64089e-07\tAbsError: 1.26735e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.70737e-04\tAbsError: 1.21785e+11\n", - " Region: \"zone_1\"\tRelError: 2.65857e-05\tAbsError: 5.61935e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.64241e-05\tAbsError: 7.54825e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.61597e-07\tAbsError: 5.61181e-05\n", - " Region: \"zone_3\"\tRelError: 1.44151e-04\tAbsError: 1.21785e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.31951e-06\tAbsError: 8.52238e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.24759e-06\tAbsError: 3.65614e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.27422e-04\tAbsError: 7.88477e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.61597e-07\tAbsError: 5.61181e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.77308e-04\tAbsError: 1.25818e+11\n", - " Region: \"zone_1\"\tRelError: 2.79068e-05\tAbsError: 5.92346e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.77364e-05\tAbsError: 7.86787e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70346e-07\tAbsError: 5.91560e-05\n", - " Region: \"zone_3\"\tRelError: 1.49401e-04\tAbsError: 1.25818e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.46957e-06\tAbsError: 8.85315e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.39871e-06\tAbsError: 3.72862e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.32362e-04\tAbsError: 8.21640e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70346e-07\tAbsError: 5.91560e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.64583e-04\tAbsError: 1.17941e+11\n", - " Region: \"zone_1\"\tRelError: 2.52141e-05\tAbsError: 5.07020e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.50683e-05\tAbsError: 7.21588e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.45792e-07\tAbsError: 5.06299e-05\n", - " Region: \"zone_3\"\tRelError: 1.39369e-04\tAbsError: 1.17941e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.26647e-06\tAbsError: 8.14899e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.19254e-06\tAbsError: 3.64508e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.22764e-04\tAbsError: 7.54100e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.45792e-07\tAbsError: 5.06299e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.53826e-04\tAbsError: 1.09912e+11\n", - " Region: \"zone_1\"\tRelError: 2.29821e-05\tAbsError: 4.27473e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.28592e-05\tAbsError: 6.65170e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", - " Region: \"zone_3\"\tRelError: 1.30844e-04\tAbsError: 1.09912e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.01681e-06\tAbsError: 7.52234e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94349e-06\tAbsError: 3.46881e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14760e-04\tAbsError: 6.98367e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.64329e-04\tAbsError: 1.17757e+11\n", - " Region: \"zone_1\"\tRelError: 2.50373e-05\tAbsError: 4.84121e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.48981e-05\tAbsError: 7.17289e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39198e-07\tAbsError: 4.83403e-05\n", - " Region: \"zone_3\"\tRelError: 1.39291e-04\tAbsError: 1.17757e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.33650e-06\tAbsError: 8.08468e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.26154e-06\tAbsError: 3.69104e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.22554e-04\tAbsError: 7.49738e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39198e-07\tAbsError: 4.83403e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.90390e-05\tAbsError: 4.90602e+10\n", - " Region: \"zone_1\"\tRelError: 5.41804e-06\tAbsError: 6.22537e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.40029e-06\tAbsError: 4.72424e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77494e-08\tAbsError: 6.17812e-06\n", - " Region: \"zone_3\"\tRelError: 3.36210e-05\tAbsError: 4.90602e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.73319e-06\tAbsError: 1.65926e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.70156e-06\tAbsError: 3.24676e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.61685e-05\tAbsError: 4.73196e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77577e-08\tAbsError: 6.18118e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:15\u001b[0m.\u001b[1;36m847\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:15\u001b[0m.\u001b[1;36m847\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.45999999999999996\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.06903e-05\tAbsError: 5.15663e+10\n", - " Region: \"zone_1\"\tRelError: 5.70157e-06\tAbsError: 6.43438e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.68323e-06\tAbsError: 4.97272e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83425e-08\tAbsError: 6.38465e-06\n", - " Region: \"zone_3\"\tRelError: 3.49887e-05\tAbsError: 5.15663e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.87284e-06\tAbsError: 1.72438e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.84060e-06\tAbsError: 3.43225e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.72569e-05\tAbsError: 4.97993e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83512e-08\tAbsError: 6.38778e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.50001e-05\tAbsError: 4.42708e+10\n", - " Region: \"zone_1\"\tRelError: 4.76850e-06\tAbsError: 6.11915e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.75104e-06\tAbsError: 4.26401e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.74573e-08\tAbsError: 6.07651e-06\n", - " Region: \"zone_3\"\tRelError: 3.02316e-05\tAbsError: 4.42708e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.43399e-06\tAbsError: 1.50234e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.40416e-06\tAbsError: 2.92474e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.33760e-05\tAbsError: 4.27135e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.74650e-08\tAbsError: 6.07937e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:16\u001b[0m.\u001b[1;36m086\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.6 V. Current applied bias: 0.475\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:16\u001b[0m.\u001b[1;36m094\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.55 V. Current applied bias: 0.4375\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.84860e-05\tAbsError: 3.70987e+10\n", - " Region: \"zone_1\"\tRelError: 3.74711e-06\tAbsError: 5.87951e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.73032e-06\tAbsError: 3.58594e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67880e-08\tAbsError: 5.84365e-06\n", - " Region: \"zone_3\"\tRelError: 2.47389e-05\tAbsError: 3.70987e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.96764e-06\tAbsError: 1.24118e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.94133e-06\tAbsError: 2.46869e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88131e-05\tAbsError: 3.59119e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67950e-08\tAbsError: 5.84625e-06\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.29104e-05\tAbsError: 4.21734e+10\n", - " Region: \"zone_1\"\tRelError: 4.44495e-06\tAbsError: 6.18426e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.42730e-06\tAbsError: 4.07074e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.76498e-08\tAbsError: 6.14355e-06\n", - " Region: \"zone_3\"\tRelError: 2.84655e-05\tAbsError: 4.21734e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.29169e-06\tAbsError: 1.42178e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.26285e-06\tAbsError: 2.79556e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.18933e-05\tAbsError: 4.07772e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.76574e-08\tAbsError: 6.14636e-06\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:16\u001b[0m.\u001b[1;36m233\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.5 V. Current applied bias: 0.4\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:16\u001b[0m.\u001b[1;36m337\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:16\u001b[0m.\u001b[1;36m337\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.43000000000000005\u001b[0m \n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "number of equations 31816\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.81358e+01\tAbsError: 9.89122e+15\n", - " Region: \"zone_1\"\tRelError: 3.64061e+01\tAbsError: 4.47753e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.64061e+01\tAbsError: 4.47728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.22055e-09\tAbsError: 2.50749e-06\n", - " Region: \"zone_3\"\tRelError: 1.72979e+00\tAbsError: 9.89122e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.00390e-01\tAbsError: 5.83984e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.00363e-01\tAbsError: 4.05139e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29036e-01\tAbsError: 4.47728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.22309e-09\tAbsError: 2.50831e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.24985e+01\tAbsError: 1.02989e+16\n", - " Region: \"zone_1\"\tRelError: 1.07491e+01\tAbsError: 4.56481e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07491e+01\tAbsError: 4.56455e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.61244e-09\tAbsError: 2.64356e-06\n", - " Region: \"zone_3\"\tRelError: 1.74934e+00\tAbsError: 1.02989e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.06833e-01\tAbsError: 6.07666e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.06804e-01\tAbsError: 4.22228e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35703e-01\tAbsError: 4.56455e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.61471e-09\tAbsError: 2.64428e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.06444e+00\tAbsError: 9.27893e+15\n", - " Region: \"zone_1\"\tRelError: 4.36525e+00\tAbsError: 4.34082e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.36525e+00\tAbsError: 4.34059e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.43922e-09\tAbsError: 2.23618e-06\n", - " Region: \"zone_3\"\tRelError: 1.69919e+00\tAbsError: 9.27893e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.89877e-01\tAbsError: 5.47844e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.89852e-01\tAbsError: 3.80049e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19466e-01\tAbsError: 4.34059e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.44131e-09\tAbsError: 2.23685e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.87618e+01\tAbsError: 8.25603e+15\n", - " Region: \"zone_1\"\tRelError: 2.71120e+01\tAbsError: 4.09561e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.71120e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.29384e-09\tAbsError: 1.83846e-06\n", - " Region: \"zone_3\"\tRelError: 1.64979e+00\tAbsError: 8.25603e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69658e-01\tAbsError: 4.86497e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69634e-01\tAbsError: 3.39106e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10500e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.29480e-09\tAbsError: 1.83875e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 4.99434e+00\tAbsError: 9.07460e+15\n", - " Region: \"zone_1\"\tRelError: 3.30452e+00\tAbsError: 4.29359e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.30452e+00\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.08442e-09\tAbsError: 2.11298e-06\n", - " Region: \"zone_3\"\tRelError: 1.68981e+00\tAbsError: 9.07460e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86122e-01\tAbsError: 5.35667e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.86097e-01\tAbsError: 3.71793e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17595e-01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.08597e-09\tAbsError: 2.11346e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.76698e+00\tAbsError: 6.05674e+14\n", - " Region: \"zone_1\"\tRelError: 1.76193e-01\tAbsError: 8.82156e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.76041e-01\tAbsError: 3.52796e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52324e-04\tAbsError: 5.29360e-02\n", - " Region: \"zone_3\"\tRelError: 1.59079e+00\tAbsError: 6.05674e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.94698e-01\tAbsError: 3.52874e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.85858e-01\tAbsError: 2.52800e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10077e-01\tAbsError: 3.52799e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52324e-04\tAbsError: 5.29360e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.77155e+00\tAbsError: 7.60573e+14\n", - " Region: \"zone_1\"\tRelError: 1.51457e-01\tAbsError: 9.01901e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51302e-01\tAbsError: 3.63157e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.55027e-04\tAbsError: 5.38744e-02\n", - " Region: \"zone_3\"\tRelError: 1.62010e+00\tAbsError: 7.60573e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.06073e-01\tAbsError: 4.40912e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.96799e-01\tAbsError: 3.19661e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17069e-01\tAbsError: 3.63160e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.55027e-04\tAbsError: 5.38744e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.66739e+00\tAbsError: 5.06300e+14\n", - " Region: \"zone_1\"\tRelError: 1.22234e-01\tAbsError: 8.49170e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.22087e-01\tAbsError: 3.36592e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47492e-04\tAbsError: 5.12578e-02\n", - " Region: \"zone_3\"\tRelError: 1.54515e+00\tAbsError: 5.06300e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.75921e-01\tAbsError: 3.27200e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.67567e-01\tAbsError: 1.79101e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01517e-01\tAbsError: 3.36595e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47492e-04\tAbsError: 5.12578e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.69855e+00\tAbsError: 3.40458e+14\n", - " Region: \"zone_1\"\tRelError: 2.34470e-01\tAbsError: 7.85796e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.34332e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", - " Region: \"zone_3\"\tRelError: 1.46408e+00\tAbsError: 3.40458e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39247e-01\tAbsError: 2.37038e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.31799e-01\tAbsError: 1.03420e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.29010e-02\tAbsError: 3.07639e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.64725e+00\tAbsError: 4.74556e+14\n", - " Region: \"zone_1\"\tRelError: 1.16564e-01\tAbsError: 8.37432e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16418e-01\tAbsError: 3.31003e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.45721e-04\tAbsError: 5.06428e-02\n", - " Region: \"zone_3\"\tRelError: 1.53069e+00\tAbsError: 4.74556e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.69093e-01\tAbsError: 3.14532e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.61063e-01\tAbsError: 1.60024e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00388e-01\tAbsError: 3.31007e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.45721e-04\tAbsError: 5.06428e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.35255e+00\tAbsError: 3.63655e+14\n", - " Region: \"zone_1\"\tRelError: 1.97939e-01\tAbsError: 3.56019e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.97911e-01\tAbsError: 2.56995e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.84934e-05\tAbsError: 9.90236e-03\n", - " Region: \"zone_3\"\tRelError: 1.15461e+00\tAbsError: 3.63655e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.30370e-01\tAbsError: 2.11310e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.26259e-01\tAbsError: 1.52345e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.79559e-02\tAbsError: 2.58613e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.84934e-05\tAbsError: 9.90236e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.33921e+00\tAbsError: 4.90102e+14\n", - " Region: \"zone_1\"\tRelError: 1.39048e-01\tAbsError: 3.67457e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39017e-01\tAbsError: 2.58798e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.12666e-05\tAbsError: 1.08660e-02\n", - " Region: \"zone_3\"\tRelError: 1.20016e+00\tAbsError: 4.90102e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.49633e-01\tAbsError: 2.77160e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.48210e-01\tAbsError: 2.12942e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02286e-01\tAbsError: 2.58607e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.12666e-05\tAbsError: 1.08660e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.16831e+00\tAbsError: 2.25997e+14\n", - " Region: \"zone_1\"\tRelError: 8.94403e-02\tAbsError: 3.44130e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.94155e-02\tAbsError: 2.57920e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.48059e-05\tAbsError: 8.62100e-03\n", - " Region: \"zone_3\"\tRelError: 1.07887e+00\tAbsError: 2.25997e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.99205e-01\tAbsError: 1.34698e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.88376e-01\tAbsError: 9.12987e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.12613e-02\tAbsError: 2.58613e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.48059e-05\tAbsError: 8.62100e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.13875e+00\tAbsError: 1.91429e+14\n", - " Region: \"zone_1\"\tRelError: 8.72362e-02\tAbsError: 3.41775e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.72123e-02\tAbsError: 2.58950e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.38317e-05\tAbsError: 8.28251e-03\n", - " Region: \"zone_3\"\tRelError: 1.05151e+00\tAbsError: 1.91429e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.88183e-01\tAbsError: 1.14582e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.74391e-01\tAbsError: 7.68472e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.89114e-02\tAbsError: 2.58546e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.38317e-05\tAbsError: 8.28251e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.10009e+00\tAbsError: 9.49766e+13\n", - " Region: \"zone_1\"\tRelError: 1.69910e-01\tAbsError: 3.26443e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.69891e-01\tAbsError: 2.58991e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", - " Region: \"zone_3\"\tRelError: 9.30185e-01\tAbsError: 9.49766e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40985e-01\tAbsError: 5.67002e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.12174e-01\tAbsError: 3.82763e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.70066e-02\tAbsError: 2.58994e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.36061e-01\tAbsError: 1.72469e+14\n", - " Region: \"zone_1\"\tRelError: 4.75512e-02\tAbsError: 1.91624e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.75415e-02\tAbsError: 1.57808e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.74068e-06\tAbsError: 3.38161e-03\n", - " Region: \"zone_3\"\tRelError: 4.88510e-01\tAbsError: 1.72469e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.93580e-01\tAbsError: 7.57065e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.46679e-01\tAbsError: 9.67627e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.82412e-02\tAbsError: 1.57809e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.74424e-06\tAbsError: 3.38291e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.97909e-01\tAbsError: 2.52002e+14\n", - " Region: \"zone_1\"\tRelError: 5.51282e-02\tAbsError: 2.15770e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.51170e-02\tAbsError: 1.76838e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12142e-05\tAbsError: 3.89314e-03\n", - " Region: \"zone_3\"\tRelError: 5.42781e-01\tAbsError: 2.52002e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.19147e-01\tAbsError: 1.09256e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.67592e-01\tAbsError: 1.42746e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.60306e-02\tAbsError: 1.76839e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12182e-05\tAbsError: 3.89457e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.43699e-01\tAbsError: 9.37478e+13\n", - " Region: \"zone_1\"\tRelError: 3.74442e-02\tAbsError: 1.59997e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.74359e-02\tAbsError: 1.31068e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.33312e-06\tAbsError: 2.89293e-03\n", - " Region: \"zone_3\"\tRelError: 4.06255e-01\tAbsError: 9.37478e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.55206e-01\tAbsError: 4.13823e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.13134e-01\tAbsError: 5.23655e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.79070e-02\tAbsError: 1.31068e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.33742e-06\tAbsError: 2.89445e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.13297e-01\tAbsError: 7.52929e+13\n", - " Region: \"zone_1\"\tRelError: 3.44170e-02\tAbsError: 1.51248e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.44088e-02\tAbsError: 1.22657e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.23601e-06\tAbsError: 2.85918e-03\n", - " Region: \"zone_3\"\tRelError: 3.78880e-01\tAbsError: 7.52929e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.42275e-01\tAbsError: 3.28684e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.01785e-01\tAbsError: 4.24245e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.48113e-02\tAbsError: 1.22657e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.23601e-06\tAbsError: 2.85918e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.56252e-01\tAbsError: 3.42527e+13\n", - " Region: \"zone_1\"\tRelError: 6.41646e-02\tAbsError: 1.11813e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.41588e-02\tAbsError: 9.16555e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.79958e-06\tAbsError: 2.01571e-03\n", - " Region: \"zone_3\"\tRelError: 2.92088e-01\tAbsError: 3.42527e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07223e-01\tAbsError: 1.60452e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.07953e-02\tAbsError: 1.82076e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.40630e-02\tAbsError: 9.16559e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.80279e-06\tAbsError: 2.01683e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.27933e-01\tAbsError: 3.77067e+13\n", - " Region: \"zone_1\"\tRelError: 8.63730e-03\tAbsError: 3.44155e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 8.62803e-03\tAbsError: 2.24917e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.26403e-06\tAbsError: 3.21663e-03\n", - " Region: \"zone_3\"\tRelError: 1.19296e-01\tAbsError: 3.77067e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01004e-01\tAbsError: 1.86096e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.59887e-02\tAbsError: 1.90970e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29412e-03\tAbsError: 2.44371e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.26403e-06\tAbsError: 3.21663e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.52868e-01\tAbsError: 5.88500e+13\n", - " Region: \"zone_1\"\tRelError: 9.73630e-03\tAbsError: 4.53225e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 9.72423e-03\tAbsError: 3.38686e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20778e-05\tAbsError: 4.19356e-03\n", - " Region: \"zone_3\"\tRelError: 1.43131e-01\tAbsError: 5.88500e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.16572e-01\tAbsError: 2.83993e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.41855e-02\tAbsError: 3.04506e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.36161e-03\tAbsError: 3.65636e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20778e-05\tAbsError: 4.19356e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.29176e-02\tAbsError: 1.87255e+13\n", - " Region: \"zone_1\"\tRelError: 2.42581e-03\tAbsError: 2.43303e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.41913e-03\tAbsError: 1.13406e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.68051e-06\tAbsError: 2.31963e-03\n", - " Region: \"zone_3\"\tRelError: 9.04918e-02\tAbsError: 1.87255e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.06428e-02\tAbsError: 9.51123e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.64781e-03\tAbsError: 9.21422e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.19457e-03\tAbsError: 1.25751e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.68051e-06\tAbsError: 2.31963e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.59960e-02\tAbsError: 3.73217e+12\n", - " Region: \"zone_1\"\tRelError: 7.31305e-03\tAbsError: 2.21475e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.30674e-03\tAbsError: 2.57182e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", - " Region: \"zone_3\"\tRelError: 5.86829e-02\tAbsError: 3.73217e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.62142e-02\tAbsError: 2.07187e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.09163e-04\tAbsError: 1.66031e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65329e-03\tAbsError: 2.69578e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.55296e-02\tAbsError: 1.46785e+13\n", - " Region: \"zone_1\"\tRelError: 2.49644e-03\tAbsError: 2.18616e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49041e-03\tAbsError: 9.01307e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.03652e-06\tAbsError: 2.09603e-03\n", - " Region: \"zone_3\"\tRelError: 8.30332e-02\tAbsError: 1.46785e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.51171e-02\tAbsError: 7.64842e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.70344e-03\tAbsError: 7.03012e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20658e-03\tAbsError: 1.00679e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.03652e-06\tAbsError: 2.09603e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.46136e-03\tAbsError: 1.53101e+12\n", - " Region: \"zone_1\"\tRelError: 1.66986e-04\tAbsError: 2.22118e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66353e-04\tAbsError: 2.21820e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.32759e-07\tAbsError: 2.19900e-04\n", - " Region: \"zone_3\"\tRelError: 1.29437e-03\tAbsError: 1.53101e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.36978e-04\tAbsError: 4.54909e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.42881e-04\tAbsError: 1.07610e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.13878e-04\tAbsError: 2.48873e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.32759e-07\tAbsError: 2.19900e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.18982e-03\tAbsError: 2.05271e+12\n", - " Region: \"zone_1\"\tRelError: 2.63923e-04\tAbsError: 2.92360e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.63092e-04\tAbsError: 3.76510e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.30441e-07\tAbsError: 2.88595e-04\n", - " Region: \"zone_3\"\tRelError: 1.92590e-03\tAbsError: 2.05271e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.21596e-04\tAbsError: 6.82791e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.91395e-04\tAbsError: 1.36992e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11208e-03\tAbsError: 4.22049e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.30441e-07\tAbsError: 2.88595e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 8.17310e-04\tAbsError: 1.08380e+12\n", - " Region: \"zone_1\"\tRelError: 8.80491e-05\tAbsError: 1.60948e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 8.75900e-05\tAbsError: 1.40037e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.59060e-07\tAbsError: 1.59547e-04\n", - " Region: \"zone_3\"\tRelError: 7.29260e-04\tAbsError: 1.08380e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.40460e-04\tAbsError: 2.80505e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.02770e-04\tAbsError: 8.03299e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.85571e-04\tAbsError: 1.45875e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.59060e-07\tAbsError: 1.59547e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.58436e-04\tAbsError: 9.76197e+11\n", - " Region: \"zone_1\"\tRelError: 6.87963e-05\tAbsError: 1.52764e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.83606e-05\tAbsError: 1.30863e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.35775e-07\tAbsError: 1.51456e-04\n", - " Region: \"zone_3\"\tRelError: 5.89639e-04\tAbsError: 9.76197e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.93148e-04\tAbsError: 2.43686e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.21484e-05\tAbsError: 7.32511e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.03907e-04\tAbsError: 1.33351e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.35775e-07\tAbsError: 1.51456e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 8.14034e-04\tAbsError: 1.03618e+12\n", - " Region: \"zone_1\"\tRelError: 1.43803e-04\tAbsError: 7.79056e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43584e-04\tAbsError: 1.54074e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19396e-07\tAbsError: 7.63649e-05\n", - " Region: \"zone_3\"\tRelError: 6.70231e-04\tAbsError: 1.03618e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.21829e-04\tAbsError: 2.70793e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.05108e-04\tAbsError: 7.65387e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.43074e-04\tAbsError: 1.54210e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19498e-07\tAbsError: 7.64015e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.91105e-04\tAbsError: 1.53176e+11\n", - " Region: \"zone_1\"\tRelError: 3.27136e-05\tAbsError: 9.22669e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.24482e-05\tAbsError: 1.08446e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.65413e-07\tAbsError: 9.21585e-05\n", - " Region: \"zone_3\"\tRelError: 1.58391e-04\tAbsError: 1.53176e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.05709e-05\tAbsError: 1.03501e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.04377e-05\tAbsError: 4.96748e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37117e-04\tAbsError: 1.13469e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.65524e-07\tAbsError: 9.21983e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.17167e-04\tAbsError: 1.84585e+11\n", - " Region: \"zone_1\"\tRelError: 3.72870e-05\tAbsError: 1.24890e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.69277e-05\tAbsError: 1.34606e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.59293e-07\tAbsError: 1.24755e-04\n", - " Region: \"zone_3\"\tRelError: 1.79880e-04\tAbsError: 1.84585e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.31660e-05\tAbsError: 1.23826e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.29782e-05\tAbsError: 6.07589e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.53376e-04\tAbsError: 1.40980e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.59336e-07\tAbsError: 1.24771e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.65553e-04\tAbsError: 1.24515e+11\n", - " Region: \"zone_1\"\tRelError: 2.80671e-05\tAbsError: 6.32032e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78853e-05\tAbsError: 8.44023e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.81769e-07\tAbsError: 6.31188e-05\n", - " Region: \"zone_3\"\tRelError: 1.37486e-04\tAbsError: 1.24515e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.24823e-06\tAbsError: 8.47993e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.15629e-06\tAbsError: 3.97152e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20900e-04\tAbsError: 8.81984e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.81805e-07\tAbsError: 6.31296e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.65798e-04\tAbsError: 1.22174e+11\n", - " Region: \"zone_1\"\tRelError: 2.79805e-05\tAbsError: 5.56854e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78204e-05\tAbsError: 8.16520e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60127e-07\tAbsError: 5.56037e-05\n", - " Region: \"zone_3\"\tRelError: 1.37818e-04\tAbsError: 1.22174e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.04045e-06\tAbsError: 8.28593e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.95339e-06\tAbsError: 3.93149e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21664e-04\tAbsError: 8.53009e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60129e-07\tAbsError: 5.56037e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.61312e-05\tAbsError: 5.74046e+10\n", - " Region: \"zone_1\"\tRelError: 1.61849e-05\tAbsError: 6.45313e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.59991e-05\tAbsError: 3.79845e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.85726e-07\tAbsError: 6.44934e-05\n", - " Region: \"zone_3\"\tRelError: 5.99464e-05\tAbsError: 5.74046e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.77906e-06\tAbsError: 4.68633e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.20461e-06\tAbsError: 1.05413e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.27769e-05\tAbsError: 3.95532e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.85828e-07\tAbsError: 6.45281e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:26\u001b[0m.\u001b[1;36m614\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.5 V. Current applied bias: 0.5\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 8.71599e-05\tAbsError: 8.63311e+10\n", - " Region: \"zone_1\"\tRelError: 1.45239e-05\tAbsError: 6.32337e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.45059e-05\tAbsError: 6.52346e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.79809e-08\tAbsError: 6.25813e-06\n", - " Region: \"zone_3\"\tRelError: 7.26359e-05\tAbsError: 8.63311e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.55694e-06\tAbsError: 3.72560e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.50849e-06\tAbsError: 4.90752e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 6.15525e-05\tAbsError: 6.62280e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.79882e-08\tAbsError: 6.26082e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:27\u001b[0m.\u001b[1;36m227\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: 0.58\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.28225e-04\tAbsError: 1.19419e+11\n", - " Region: \"zone_1\"\tRelError: 2.19087e-05\tAbsError: 6.73240e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.18896e-05\tAbsError: 8.49137e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.90998e-08\tAbsError: 6.64748e-06\n", - " Region: \"zone_3\"\tRelError: 1.06317e-04\tAbsError: 1.19419e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.49812e-06\tAbsError: 5.46310e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.43237e-06\tAbsError: 6.47876e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 9.13670e-05\tAbsError: 8.65435e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91076e-08\tAbsError: 6.65030e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.21903e-05\tAbsError: 5.72389e+10\n", - " Region: \"zone_1\"\tRelError: 8.34176e-06\tAbsError: 5.86080e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.32506e-06\tAbsError: 4.71382e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67033e-08\tAbsError: 5.81366e-06\n", - " Region: \"zone_3\"\tRelError: 4.38485e-05\tAbsError: 5.72389e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.81863e-06\tAbsError: 2.24731e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.78561e-06\tAbsError: 3.47657e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.62276e-05\tAbsError: 4.76030e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67103e-08\tAbsError: 5.81619e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.29840e-05\tAbsError: 4.97114e+10\n", - " Region: \"zone_1\"\tRelError: 6.74775e-06\tAbsError: 6.07457e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.73042e-06\tAbsError: 4.22286e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73315e-08\tAbsError: 6.03234e-06\n", - " Region: \"zone_3\"\tRelError: 3.62362e-05\tAbsError: 4.97114e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.35448e-06\tAbsError: 1.86949e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.32535e-06\tAbsError: 3.10165e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.95390e-05\tAbsError: 4.25647e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73388e-08\tAbsError: 6.03496e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:27\u001b[0m.\u001b[1;36m903\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.55 V. Current applied bias: 0.55\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:27\u001b[0m.\u001b[1;36m949\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: 0.54\u001b[0m \n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.60199e+01\tAbsError: 8.22903e+15\n", - " Region: \"zone_1\"\tRelError: 3.43433e+01\tAbsError: 4.09555e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.43433e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.48443e-09\tAbsError: 1.21289e-06\n", - " Region: \"zone_3\"\tRelError: 1.67662e+00\tAbsError: 8.22903e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.78919e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.43984e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37338e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.48691e-09\tAbsError: 1.21378e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 4.61978e+01\tAbsError: 9.96785e+15\n", - " Region: \"zone_1\"\tRelError: 4.44199e+01\tAbsError: 4.47776e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.44199e+01\tAbsError: 4.47728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.38243e-08\tAbsError: 4.80419e-06\n", - " Region: \"zone_3\"\tRelError: 1.77789e+00\tAbsError: 9.96785e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.00373e-01\tAbsError: 5.53494e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.00283e-01\tAbsError: 4.43291e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77231e-01\tAbsError: 4.47728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.38259e-08\tAbsError: 4.80483e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 4.66418e-06\tAbsError: 5.37987e+09\n", - " Region: \"zone_1\"\tRelError: 8.01887e-07\tAbsError: 6.86973e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 7.82129e-07\tAbsError: 3.38380e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.97586e-08\tAbsError: 6.86635e-06\n", - " Region: \"zone_3\"\tRelError: 3.86229e-06\tAbsError: 5.37987e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.38045e-07\tAbsError: 4.16158e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.79512e-07\tAbsError: 1.21829e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.22497e-06\tAbsError: 3.52801e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.97625e-08\tAbsError: 6.86780e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:29\u001b[0m.\u001b[1;36m025\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.6 V. Current applied bias: 0.6\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.79935e+00\tAbsError: 9.07065e+15\n", - " Region: \"zone_1\"\tRelError: 6.07018e+00\tAbsError: 4.29363e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.07018e+00\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.28179e-09\tAbsError: 2.52849e-06\n", - " Region: \"zone_3\"\tRelError: 1.72916e+00\tAbsError: 9.07065e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86123e-01\tAbsError: 5.17830e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.86053e-01\tAbsError: 3.89234e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.56989e-01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.28214e-09\tAbsError: 2.52864e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.34489e+01\tAbsError: 9.28815e+15\n", - " Region: \"zone_1\"\tRelError: 1.17073e+01\tAbsError: 4.34089e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17073e+01\tAbsError: 4.34059e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.66604e-09\tAbsError: 3.01167e-06\n", - " Region: \"zone_3\"\tRelError: 1.74167e+00\tAbsError: 9.28815e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.89875e-01\tAbsError: 5.26960e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.89800e-01\tAbsError: 4.01855e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.61991e-01\tAbsError: 4.34059e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.66604e-09\tAbsError: 3.01169e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.73485e+00\tAbsError: 1.08973e+15\n", - " Region: \"zone_1\"\tRelError: 2.25350e+00\tAbsError: 6.85700e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.25339e+00\tAbsError: 3.07635e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", - " Region: \"zone_3\"\tRelError: 1.48136e+00\tAbsError: 1.08973e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41054e-01\tAbsError: 6.25022e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.24005e-01\tAbsError: 4.64711e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16189e-01\tAbsError: 3.07637e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 9.49120e+00\tAbsError: 3.87577e+15\n", - " Region: \"zone_1\"\tRelError: 7.88160e+00\tAbsError: 7.65185e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.88148e+00\tAbsError: 3.52795e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18679e-04\tAbsError: 4.12390e-02\n", - " Region: \"zone_3\"\tRelError: 1.60960e+00\tAbsError: 3.87577e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.94752e-01\tAbsError: 1.96214e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.70036e-01\tAbsError: 1.91363e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.44693e-01\tAbsError: 3.52796e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18679e-04\tAbsError: 4.12390e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.52079e+01\tAbsError: 1.04499e+16\n", - " Region: \"zone_1\"\tRelError: 2.34063e+01\tAbsError: 4.56456e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.34063e+01\tAbsError: 4.56455e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.65927e-10\tAbsError: 1.27309e-07\n", - " Region: \"zone_3\"\tRelError: 1.80158e+00\tAbsError: 1.04499e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.06801e-01\tAbsError: 5.71038e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.06701e-01\tAbsError: 4.73948e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88074e-01\tAbsError: 4.56455e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.66097e-10\tAbsError: 1.27368e-07\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.87726e+00\tAbsError: 2.07784e+15\n", - " Region: \"zone_1\"\tRelError: 3.30726e-01\tAbsError: 7.19464e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.30614e-01\tAbsError: 3.31002e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11788e-04\tAbsError: 3.88462e-02\n", - " Region: \"zone_3\"\tRelError: 1.54653e+00\tAbsError: 2.07784e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.70151e-01\tAbsError: 1.12779e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.49677e-01\tAbsError: 9.50051e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.26591e-01\tAbsError: 3.31003e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11788e-04\tAbsError: 3.88462e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.06546e+00\tAbsError: 2.42910e+15\n", - " Region: \"zone_1\"\tRelError: 5.04047e-01\tAbsError: 7.29119e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.03934e-01\tAbsError: 3.36591e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12959e-04\tAbsError: 3.92528e-02\n", - " Region: \"zone_3\"\tRelError: 1.56142e+00\tAbsError: 2.42910e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.76732e-01\tAbsError: 1.29636e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.55184e-01\tAbsError: 1.13274e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29387e-01\tAbsError: 3.36592e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12959e-04\tAbsError: 3.92528e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.38677e+00\tAbsError: 6.38966e+14\n", - " Region: \"zone_1\"\tRelError: 4.51470e-01\tAbsError: 3.37904e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.51448e-01\tAbsError: 2.58448e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", - " Region: \"zone_3\"\tRelError: 9.35299e-01\tAbsError: 6.38966e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42607e-01\tAbsError: 3.02038e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.95795e-01\tAbsError: 3.36928e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.68743e-02\tAbsError: 2.57679e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.27685e+00\tAbsError: 3.22805e+15\n", - " Region: \"zone_1\"\tRelError: 1.23665e-01\tAbsError: 3.28269e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.23644e-01\tAbsError: 2.57799e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.03021e-05\tAbsError: 7.04693e-03\n", - " Region: \"zone_3\"\tRelError: 1.15319e+00\tAbsError: 3.22805e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.31406e-01\tAbsError: 1.41952e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.92785e-01\tAbsError: 1.80854e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28975e-01\tAbsError: 2.50223e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.03132e-05\tAbsError: 7.05082e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.97416e+01\tAbsError: 5.30793e+15\n", - " Region: \"zone_1\"\tRelError: 1.81011e+01\tAbsError: 8.03359e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.81009e+01\tAbsError: 3.63155e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26686e-04\tAbsError: 4.40203e-02\n", - " Region: \"zone_3\"\tRelError: 1.64056e+00\tAbsError: 5.30793e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.05436e-01\tAbsError: 2.59655e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.79266e-01\tAbsError: 2.71137e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55737e-01\tAbsError: 3.63156e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26686e-04\tAbsError: 4.40203e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.15795e+00\tAbsError: 1.43317e+15\n", - " Region: \"zone_1\"\tRelError: 1.12652e-01\tAbsError: 3.52450e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12625e-01\tAbsError: 2.58896e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69531e-05\tAbsError: 9.35535e-03\n", - " Region: \"zone_3\"\tRelError: 1.04530e+00\tAbsError: 1.43317e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.89809e-01\tAbsError: 6.27661e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.39858e-01\tAbsError: 8.05511e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15604e-01\tAbsError: 2.58543e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69724e-05\tAbsError: 9.36224e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.19014e+00\tAbsError: 1.77232e+15\n", - " Region: \"zone_1\"\tRelError: 1.16406e-01\tAbsError: 3.58693e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16377e-01\tAbsError: 2.57454e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.91673e-05\tAbsError: 1.01239e-02\n", - " Region: \"zone_3\"\tRelError: 1.07373e+00\tAbsError: 1.77232e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.00688e-01\tAbsError: 7.71149e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.53283e-01\tAbsError: 1.00118e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19733e-01\tAbsError: 2.58503e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.91886e-05\tAbsError: 1.01314e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.41554e-01\tAbsError: 2.20715e+14\n", - " Region: \"zone_1\"\tRelError: 2.89595e-02\tAbsError: 1.67352e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.89377e-02\tAbsError: 9.16565e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18085e-05\tAbsError: 7.56954e-03\n", - " Region: \"zone_3\"\tRelError: 3.12594e-01\tAbsError: 2.20715e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.94155e-01\tAbsError: 1.01533e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.87246e-02\tAbsError: 1.19182e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.96932e-02\tAbsError: 9.16570e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18152e-05\tAbsError: 7.57200e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.03339e+00\tAbsError: 1.35100e+15\n", - " Region: \"zone_1\"\tRelError: 4.86638e-01\tAbsError: 4.06166e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.86567e-01\tAbsError: 1.57812e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.15551e-05\tAbsError: 2.48354e-02\n", - " Region: \"zone_3\"\tRelError: 5.46754e-01\tAbsError: 1.35100e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.94312e-01\tAbsError: 6.70250e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.91899e-01\tAbsError: 6.80751e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.04718e-02\tAbsError: 1.57813e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.15962e-05\tAbsError: 2.48500e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.90718e+00\tAbsError: 4.57799e+15\n", - " Region: \"zone_1\"\tRelError: 6.98987e-01\tAbsError: 3.15756e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.98970e-01\tAbsError: 2.58187e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.65873e-05\tAbsError: 5.75692e-03\n", - " Region: \"zone_3\"\tRelError: 1.20819e+00\tAbsError: 4.57799e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.50404e-01\tAbsError: 2.10275e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.16940e-01\tAbsError: 2.47524e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40833e-01\tAbsError: 2.57339e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.65919e-05\tAbsError: 5.75848e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.66101e-01\tAbsError: 5.71776e+14\n", - " Region: \"zone_1\"\tRelError: 4.21342e-02\tAbsError: 2.70003e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.20918e-02\tAbsError: 1.22659e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.24522e-05\tAbsError: 1.47344e-02\n", - " Region: \"zone_3\"\tRelError: 4.23967e-01\tAbsError: 5.71776e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.40635e-01\tAbsError: 2.83777e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.40006e-01\tAbsError: 2.87999e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.32840e-02\tAbsError: 1.22660e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.24816e-05\tAbsError: 1.47449e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.00471e-01\tAbsError: 7.18290e+14\n", - " Region: \"zone_1\"\tRelError: 4.58077e-02\tAbsError: 3.08706e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.57565e-02\tAbsError: 1.31071e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.11797e-05\tAbsError: 1.77635e-02\n", - " Region: \"zone_3\"\tRelError: 4.54664e-01\tAbsError: 7.18290e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.54015e-01\tAbsError: 3.59442e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.53250e-01\tAbsError: 3.58848e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.73475e-02\tAbsError: 1.31072e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.12103e-05\tAbsError: 1.77744e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.19808e-02\tAbsError: 3.06344e+13\n", - " Region: \"zone_1\"\tRelError: 2.04251e-02\tAbsError: 4.10278e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.04136e-02\tAbsError: 1.00349e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", - " Region: \"zone_3\"\tRelError: 6.15557e-02\tAbsError: 3.06344e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38926e-02\tAbsError: 1.71938e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.73234e-03\tAbsError: 1.34406e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.91920e-03\tAbsError: 1.01109e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.77064e-01\tAbsError: 2.74208e+14\n", - " Region: \"zone_1\"\tRelError: 1.45533e-01\tAbsError: 1.86642e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.45481e-01\tAbsError: 4.78882e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.23812e-05\tAbsError: 1.81853e-02\n", - " Region: \"zone_3\"\tRelError: 1.31531e-01\tAbsError: 2.74208e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.43134e-02\tAbsError: 1.47586e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.67438e-02\tAbsError: 1.26622e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04217e-02\tAbsError: 4.89202e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.23812e-05\tAbsError: 1.81853e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.08267e+00\tAbsError: 2.05555e+15\n", - " Region: \"zone_1\"\tRelError: 4.74733e-01\tAbsError: 5.07265e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.74638e-01\tAbsError: 1.76843e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.51006e-05\tAbsError: 3.30422e-02\n", - " Region: \"zone_3\"\tRelError: 6.07933e-01\tAbsError: 2.05555e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.19412e-01\tAbsError: 1.01229e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.17373e-01\tAbsError: 1.04326e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.10530e-02\tAbsError: 1.76844e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.51581e-05\tAbsError: 3.30598e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.84053e-02\tAbsError: 1.08690e+14\n", - " Region: \"zone_1\"\tRelError: 8.68078e-03\tAbsError: 8.41083e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 8.65731e-03\tAbsError: 2.61591e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.34713e-05\tAbsError: 8.14923e-03\n", - " Region: \"zone_3\"\tRelError: 8.97245e-02\tAbsError: 1.08690e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.02382e-02\tAbsError: 6.26697e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.25943e-02\tAbsError: 4.60204e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.86852e-03\tAbsError: 2.62736e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.34713e-05\tAbsError: 8.14923e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.53920e-03\tAbsError: 1.84314e+12\n", - " Region: \"zone_1\"\tRelError: 2.29752e-04\tAbsError: 2.41443e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29064e-04\tAbsError: 2.20702e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", - " Region: \"zone_3\"\tRelError: 1.30944e-03\tAbsError: 1.84314e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11485e-04\tAbsError: 5.81096e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.63190e-04\tAbsError: 1.26205e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 9.34079e-04\tAbsError: 2.25011e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.14444e-01\tAbsError: 1.39799e+14\n", - " Region: \"zone_1\"\tRelError: 1.51601e-02\tAbsError: 1.02733e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51314e-02\tAbsError: 3.09160e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.86990e-05\tAbsError: 9.96415e-03\n", - " Region: \"zone_3\"\tRelError: 9.92839e-02\tAbsError: 1.39799e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.56218e-02\tAbsError: 7.87755e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.55448e-02\tAbsError: 6.10233e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.08856e-03\tAbsError: 3.11493e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.86990e-05\tAbsError: 9.96415e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.30863e-02\tAbsError: 9.34886e+12\n", - " Region: \"zone_1\"\tRelError: 5.42500e-03\tAbsError: 1.09909e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.42186e-03\tAbsError: 8.38632e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.13916e-06\tAbsError: 1.09070e-03\n", - " Region: \"zone_3\"\tRelError: 7.66127e-03\tAbsError: 9.34886e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.03173e-04\tAbsError: 3.67297e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.55630e-04\tAbsError: 5.67589e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 6.09933e-03\tAbsError: 8.47585e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.13916e-06\tAbsError: 1.09070e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 3.21573e-01\tAbsError: 4.67958e+14\n", - " Region: \"zone_1\"\tRelError: 1.62369e-01\tAbsError: 2.82899e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.62289e-01\tAbsError: 6.12610e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.97267e-05\tAbsError: 2.76773e-02\n", - " Region: \"zone_3\"\tRelError: 1.59204e-01\tAbsError: 4.67958e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10876e-01\tAbsError: 2.44176e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.52599e-02\tAbsError: 2.23782e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29883e-02\tAbsError: 6.28778e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.97267e-05\tAbsError: 2.76773e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.70865e-03\tAbsError: 3.95368e+12\n", - " Region: \"zone_1\"\tRelError: 5.98822e-04\tAbsError: 5.60907e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.97219e-04\tAbsError: 3.89502e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60297e-06\tAbsError: 5.57012e-04\n", - " Region: \"zone_3\"\tRelError: 3.10982e-03\tAbsError: 3.95368e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.50396e-04\tAbsError: 1.41982e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.19860e-04\tAbsError: 2.53386e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.33796e-03\tAbsError: 3.96587e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60304e-06\tAbsError: 5.57046e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.63142e-03\tAbsError: 4.86609e+12\n", - " Region: \"zone_1\"\tRelError: 7.61282e-04\tAbsError: 6.97446e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.59288e-04\tAbsError: 4.58618e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.99396e-06\tAbsError: 6.92860e-04\n", - " Region: \"zone_3\"\tRelError: 3.87013e-03\tAbsError: 4.86609e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.40083e-04\tAbsError: 1.77391e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.84262e-04\tAbsError: 3.09218e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.94379e-03\tAbsError: 4.70350e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.99396e-06\tAbsError: 6.92860e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.51045e-04\tAbsError: 2.02519e+11\n", - " Region: \"zone_1\"\tRelError: 4.54891e-05\tAbsError: 1.12868e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.51644e-05\tAbsError: 1.25671e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.24705e-07\tAbsError: 1.12743e-04\n", - " Region: \"zone_3\"\tRelError: 2.05556e-04\tAbsError: 2.02519e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12163e-05\tAbsError: 1.36505e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10724e-05\tAbsError: 6.60139e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82943e-04\tAbsError: 1.30848e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.24777e-07\tAbsError: 1.12769e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.18680e-03\tAbsError: 7.18169e+11\n", - " Region: \"zone_1\"\tRelError: 5.59334e-04\tAbsError: 5.55817e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.57736e-04\tAbsError: 4.25373e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59852e-06\tAbsError: 5.55391e-04\n", - " Region: \"zone_3\"\tRelError: 6.27464e-04\tAbsError: 7.18169e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.03657e-05\tAbsError: 4.82924e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.86476e-05\tAbsError: 2.35246e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.46853e-04\tAbsError: 4.40551e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59852e-06\tAbsError: 5.55401e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.47140e-02\tAbsError: 1.50803e+13\n", - " Region: \"zone_1\"\tRelError: 1.27460e-02\tAbsError: 1.51578e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.27417e-02\tAbsError: 1.27789e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.32614e-06\tAbsError: 1.50300e-03\n", - " Region: \"zone_3\"\tRelError: 1.19680e-02\tAbsError: 1.50803e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28353e-03\tAbsError: 6.44204e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.49281e-04\tAbsError: 8.63829e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 9.73086e-03\tAbsError: 1.29461e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.32614e-06\tAbsError: 1.50300e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 5.03905e-04\tAbsError: 4.29222e+11\n", - " Region: \"zone_1\"\tRelError: 9.36879e-05\tAbsError: 2.36804e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.30066e-05\tAbsError: 2.54166e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.81308e-07\tAbsError: 2.36550e-04\n", - " Region: \"zone_3\"\tRelError: 4.10217e-04\tAbsError: 4.29222e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.41988e-05\tAbsError: 2.77763e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.38677e-05\tAbsError: 1.51459e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.61470e-04\tAbsError: 2.67086e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.81308e-07\tAbsError: 2.36550e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.09745e-04\tAbsError: 5.21468e+11\n", - " Region: \"zone_1\"\tRelError: 1.14300e-04\tAbsError: 2.90084e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13465e-04\tAbsError: 3.07455e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.34625e-07\tAbsError: 2.89777e-04\n", - " Region: \"zone_3\"\tRelError: 4.95445e-04\tAbsError: 5.21468e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.92372e-05\tAbsError: 3.37309e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.88204e-05\tAbsError: 1.84159e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.36553e-04\tAbsError: 3.22181e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.34625e-07\tAbsError: 2.89777e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.09882e-04\tAbsError: 1.05387e+11\n", - " Region: \"zone_1\"\tRelError: 1.91896e-05\tAbsError: 8.11152e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.91665e-05\tAbsError: 7.26801e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.30974e-08\tAbsError: 8.03884e-06\n", - " Region: \"zone_3\"\tRelError: 9.06925e-05\tAbsError: 1.05387e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41210e-06\tAbsError: 4.74044e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.36012e-06\tAbsError: 5.79823e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.78972e-05\tAbsError: 7.44246e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.31071e-08\tAbsError: 8.04242e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 9.89150e-04\tAbsError: 5.35964e+11\n", - " Region: \"zone_1\"\tRelError: 4.72333e-04\tAbsError: 1.96224e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.72277e-04\tAbsError: 2.88087e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.55580e-08\tAbsError: 1.93343e-05\n", - " Region: \"zone_3\"\tRelError: 5.16817e-04\tAbsError: 5.35964e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.78052e-05\tAbsError: 2.68732e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.76635e-05\tAbsError: 2.67232e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.61293e-04\tAbsError: 2.97401e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.55808e-08\tAbsError: 1.93427e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.80995e-03\tAbsError: 9.00716e+11\n", - " Region: \"zone_1\"\tRelError: 1.05911e-03\tAbsError: 8.52183e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.05666e-03\tAbsError: 5.36776e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.45139e-06\tAbsError: 8.51646e-04\n", - " Region: \"zone_3\"\tRelError: 7.50839e-04\tAbsError: 9.00716e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.26828e-05\tAbsError: 6.33818e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.67143e-05\tAbsError: 2.66898e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 6.48991e-04\tAbsError: 5.58586e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.45150e-06\tAbsError: 8.51699e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.52598e-04\tAbsError: 2.26713e+11\n", - " Region: \"zone_1\"\tRelError: 4.63661e-05\tAbsError: 1.62759e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.63197e-05\tAbsError: 1.37060e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.63731e-08\tAbsError: 1.61389e-05\n", - " Region: \"zone_3\"\tRelError: 2.06232e-04\tAbsError: 2.26713e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28007e-05\tAbsError: 1.09151e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.27071e-05\tAbsError: 1.17562e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.80678e-04\tAbsError: 1.41716e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.63910e-08\tAbsError: 1.61454e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 7.21635e-06\tAbsError: 6.66071e+09\n", - " Region: \"zone_1\"\tRelError: 1.30608e-06\tAbsError: 5.92265e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28905e-06\tAbsError: 4.03393e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70320e-08\tAbsError: 5.91862e-06\n", - " Region: \"zone_3\"\tRelError: 5.91027e-06\tAbsError: 6.66071e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.61854e-07\tAbsError: 4.98334e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.27195e-07\tAbsError: 1.67738e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 5.20418e-06\tAbsError: 4.19235e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70346e-08\tAbsError: 5.91965e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.14039e-04\tAbsError: 2.78819e+11\n", - " Region: \"zone_1\"\tRelError: 5.82968e-05\tAbsError: 1.95922e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.82410e-05\tAbsError: 1.63517e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.58267e-08\tAbsError: 1.94287e-05\n", - " Region: \"zone_3\"\tRelError: 2.55743e-04\tAbsError: 2.78819e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.54293e-05\tAbsError: 1.35487e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.53221e-05\tAbsError: 1.43332e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.24935e-04\tAbsError: 1.69505e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.58486e-08\tAbsError: 1.94366e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.51031e-06\tAbsError: 1.52707e+10\n", - " Region: \"zone_1\"\tRelError: 1.92750e-06\tAbsError: 3.15987e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.83658e-06\tAbsError: 7.53819e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.09197e-08\tAbsError: 3.15911e-05\n", - " Region: \"zone_3\"\tRelError: 4.58280e-06\tAbsError: 1.52707e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.43367e-07\tAbsError: 1.25040e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.52456e-07\tAbsError: 2.76660e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.79602e-06\tAbsError: 7.83943e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.09589e-08\tAbsError: 3.16048e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:40\u001b[0m.\u001b[1;36m058\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.7 V. Current applied bias: 0.7\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.97686e-03\tAbsError: 8.26086e+11\n", - " Region: \"zone_1\"\tRelError: 1.16335e-03\tAbsError: 1.77491e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16330e-03\tAbsError: 4.17046e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.98056e-08\tAbsError: 1.73321e-05\n", - " Region: \"zone_3\"\tRelError: 8.13509e-04\tAbsError: 8.26086e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.08663e-05\tAbsError: 4.18100e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.07187e-05\tAbsError: 4.07986e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 7.31874e-04\tAbsError: 4.36618e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.98285e-08\tAbsError: 1.73405e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.37529e-05\tAbsError: 1.40904e+10\n", - " Region: \"zone_1\"\tRelError: 2.56157e-06\tAbsError: 1.29255e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.52440e-06\tAbsError: 7.69838e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.71758e-08\tAbsError: 1.29178e-05\n", - " Region: \"zone_3\"\tRelError: 1.11914e-05\tAbsError: 1.40904e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.24225e-07\tAbsError: 1.00189e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.55953e-07\tAbsError: 4.07146e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 9.77400e-06\tAbsError: 8.06496e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.71861e-08\tAbsError: 1.29217e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:40\u001b[0m.\u001b[1;36m919\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.65 V. Current applied bias: 0.65\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 8\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 1.63083e-05\tAbsError: 1.69923e+10\n", - " Region: \"zone_1\"\tRelError: 3.06233e-06\tAbsError: 1.59116e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.01656e-06\tAbsError: 9.13982e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.57663e-08\tAbsError: 1.59025e-05\n", - " Region: \"zone_3\"\tRelError: 1.32460e-05\tAbsError: 1.69923e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.64217e-07\tAbsError: 1.20714e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.75493e-07\tAbsError: 4.92097e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15605e-05\tAbsError: 9.54770e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.57804e-08\tAbsError: 1.59078e-05\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.68423e-05\tAbsError: 1.31861e+10\n", - " Region: \"zone_1\"\tRelError: 1.57902e-05\tAbsError: 4.90444e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.56491e-05\tAbsError: 5.53975e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41146e-07\tAbsError: 4.90389e-05\n", - " Region: \"zone_3\"\tRelError: 1.10521e-05\tAbsError: 1.31861e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.00575e-06\tAbsError: 1.18844e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.38543e-07\tAbsError: 1.30166e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 9.16658e-06\tAbsError: 5.67278e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41201e-07\tAbsError: 4.90583e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.87250e+00\tAbsError: 2.38112e+16\n", - " Region: \"zone_1\"\tRelError: 4.02900e+00\tAbsError: 4.47737e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.02900e+00\tAbsError: 4.47728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.77280e-09\tAbsError: 9.62637e-07\n", - " Region: \"zone_3\"\tRelError: 1.84350e+00\tAbsError: 2.38112e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.99927e-01\tAbsError: 1.19850e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.99609e-01\tAbsError: 1.18262e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.43964e-01\tAbsError: 4.47728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.77327e-09\tAbsError: 9.62813e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:42\u001b[0m.\u001b[1;36m364\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:42\u001b[0m.\u001b[1;36m394\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.75 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:42\u001b[0m.\u001b[1;36m439\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.52664e+01\tAbsError: 1.16964e+16\n", - " Region: \"zone_1\"\tRelError: 5.34885e+01\tAbsError: 4.29340e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.34885e+01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.65399e-10\tAbsError: 1.96786e-07\n", - " Region: \"zone_3\"\tRelError: 1.77791e+00\tAbsError: 1.16964e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.85913e-01\tAbsError: 5.96599e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.85711e-01\tAbsError: 5.73044e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06286e-01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.65730e-10\tAbsError: 1.96905e-07\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.85583e+00\tAbsError: 2.82968e+16\n", - " Region: \"zone_1\"\tRelError: 2.08117e-01\tAbsError: 1.41550e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.07811e-01\tAbsError: 3.52793e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.05953e-04\tAbsError: 1.06271e-01\n", - " Region: \"zone_3\"\tRelError: 1.64772e+00\tAbsError: 2.82968e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91544e-01\tAbsError: 1.39566e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.57360e-01\tAbsError: 1.43401e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.98508e-01\tAbsError: 3.52793e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.05953e-04\tAbsError: 1.06271e-01\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.48679e+02\tAbsError: 3.39467e+16\n", - " Region: \"zone_1\"\tRelError: 7.11664e+02\tAbsError: 7.25191e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.11664e+02\tAbsError: 7.25190e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.57556e-10\tAbsError: 1.24451e-07\n", - " Region: \"zone_3\"\tRelError: 3.70144e+01\tAbsError: 3.39467e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.10279e+01\tAbsError: 1.80458e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.57729e+01\tAbsError: 1.59008e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.13521e-01\tAbsError: 7.25190e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.57765e-10\tAbsError: 1.24526e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:43\u001b[0m.\u001b[1;36m596\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:43\u001b[0m.\u001b[1;36m635\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.8 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:43\u001b[0m.\u001b[1;36m684\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 6.33878e+00\tAbsError: 1.22675e+16\n", - " Region: \"zone_1\"\tRelError: 4.76725e+00\tAbsError: 9.34106e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.76707e+00\tAbsError: 3.31000e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73592e-04\tAbsError: 6.03106e-02\n", - " Region: \"zone_3\"\tRelError: 1.57153e+00\tAbsError: 1.22675e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67129e-01\tAbsError: 5.98252e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.36794e-01\tAbsError: 6.28496e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.67430e-01\tAbsError: 3.31000e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73592e-04\tAbsError: 6.03106e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:44\u001b[0m.\u001b[1;36m280\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:44\u001b[0m.\u001b[1;36m311\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.85 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:44\u001b[0m.\u001b[1;36m345\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.34811e+00\tAbsError: 2.09220e+16\n", - " Region: \"zone_1\"\tRelError: 1.55990e-01\tAbsError: 4.10360e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55945e-01\tAbsError: 2.55116e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.47424e-05\tAbsError: 1.55244e-02\n", - " Region: \"zone_3\"\tRelError: 1.19212e+00\tAbsError: 2.09220e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.27350e-01\tAbsError: 1.05095e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.94610e-01\tAbsError: 1.04125e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.70114e-01\tAbsError: 2.41674e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.47424e-05\tAbsError: 1.55244e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 9.93000e+01\tAbsError: 4.51525e+16\n", - " Region: \"zone_1\"\tRelError: 7.25052e+01\tAbsError: 7.53942e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.25052e+01\tAbsError: 7.53940e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.15069e-10\tAbsError: 2.14071e-07\n", - " Region: \"zone_3\"\tRelError: 2.67949e+01\tAbsError: 4.51525e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.61657e+01\tAbsError: 2.54761e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03882e+01\tAbsError: 1.96764e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.41003e-01\tAbsError: 7.53940e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.15427e-10\tAbsError: 2.14199e-07\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.25381e+02\tAbsError: 7.27552e+15\n", - " Region: \"zone_1\"\tRelError: 1.16793e+01\tAbsError: 1.99937e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16789e+01\tAbsError: 6.76847e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.80427e-04\tAbsError: 1.32252e-01\n", - " Region: \"zone_3\"\tRelError: 1.13702e+02\tAbsError: 7.27552e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.96579e+01\tAbsError: 3.56588e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.38771e+01\tAbsError: 3.70964e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66530e-01\tAbsError: 6.76849e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.80427e-04\tAbsError: 1.32252e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.27823e+00\tAbsError: 8.68356e+15\n", - " Region: \"zone_1\"\tRelError: 1.88988e-01\tAbsError: 4.08652e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88944e-01\tAbsError: 2.57034e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.36930e-05\tAbsError: 1.51618e-02\n", - " Region: \"zone_3\"\tRelError: 1.08924e+00\tAbsError: 8.68356e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.90758e-01\tAbsError: 4.26881e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.47066e-01\tAbsError: 4.41475e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51374e-01\tAbsError: 2.52748e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.47625e-05\tAbsError: 1.55328e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.59636e+01\tAbsError: 9.97993e+16\n", - " Region: \"zone_1\"\tRelError: 4.40288e+01\tAbsError: 7.79837e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.40288e+01\tAbsError: 7.79815e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.54665e-09\tAbsError: 2.27445e-06\n", - " Region: \"zone_3\"\tRelError: 3.19348e+01\tAbsError: 9.97993e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.19797e+01\tAbsError: 5.24562e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.96832e+01\tAbsError: 4.73431e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.71919e-01\tAbsError: 7.79815e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.54665e-09\tAbsError: 2.27445e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 6.70108e-01\tAbsError: 8.80223e+15\n", - " Region: \"zone_1\"\tRelError: 1.18953e-01\tAbsError: 1.56966e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18546e-01\tAbsError: 1.57804e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.06994e-04\tAbsError: 1.41186e-01\n", - " Region: \"zone_3\"\tRelError: 5.51155e-01\tAbsError: 8.80223e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.83768e-01\tAbsError: 4.18531e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.85569e-01\tAbsError: 4.61691e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.14117e-02\tAbsError: 1.57805e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.07123e-04\tAbsError: 1.41232e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.04468e+02\tAbsError: 1.94565e+16\n", - " Region: \"zone_1\"\tRelError: 1.33089e+00\tAbsError: 2.90662e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33026e+00\tAbsError: 7.09270e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.31969e-04\tAbsError: 2.19735e-01\n", - " Region: \"zone_3\"\tRelError: 3.03137e+02\tAbsError: 1.94565e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.14106e+01\tAbsError: 1.05094e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.81537e+02\tAbsError: 8.94706e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88168e-01\tAbsError: 7.09271e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.31969e-04\tAbsError: 2.19735e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.21999e+02\tAbsError: 5.77042e+15\n", - " Region: \"zone_1\"\tRelError: 1.84527e+00\tAbsError: 8.08650e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.84522e+00\tAbsError: 6.21779e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.38134e-05\tAbsError: 1.86870e-02\n", - " Region: \"zone_3\"\tRelError: 1.20153e+02\tAbsError: 5.77042e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.47805e+01\tAbsError: 2.59297e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.05233e+02\tAbsError: 3.17746e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39803e-01\tAbsError: 6.21780e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.38227e-05\tAbsError: 1.86907e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.63507e+02\tAbsError: 5.30277e+16\n", - " Region: \"zone_1\"\tRelError: 8.35852e+01\tAbsError: 4.44328e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 8.35841e+01\tAbsError: 7.38247e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06526e-03\tAbsError: 3.70503e-01\n", - " Region: \"zone_3\"\tRelError: 7.99220e+01\tAbsError: 5.30277e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.88005e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.07098e+01\tAbsError: 2.42271e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.11202e-01\tAbsError: 7.38248e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06526e-03\tAbsError: 3.70503e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.24591e+00\tAbsError: 3.26346e+15\n", - " Region: \"zone_1\"\tRelError: 1.80867e+00\tAbsError: 8.31621e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.80847e+00\tAbsError: 1.22663e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.04347e-04\tAbsError: 7.08958e-02\n", - " Region: \"zone_3\"\tRelError: 4.37234e-01\tAbsError: 3.26346e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.32552e-01\tAbsError: 1.73554e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.50687e-01\tAbsError: 1.52791e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.37915e-02\tAbsError: 1.22664e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.04553e-04\tAbsError: 7.09655e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.17815e-01\tAbsError: 1.58420e+15\n", - " Region: \"zone_1\"\tRelError: 4.13293e-02\tAbsError: 1.21701e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.09798e-02\tAbsError: 4.52349e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.49513e-04\tAbsError: 1.21249e-01\n", - " Region: \"zone_3\"\tRelError: 1.76486e-01\tAbsError: 1.58420e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.63825e-02\tAbsError: 9.43320e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.46672e-02\tAbsError: 6.40881e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.50863e-02\tAbsError: 4.79056e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.49530e-04\tAbsError: 1.21252e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.16103e+03\tAbsError: 9.66146e+15\n", - " Region: \"zone_1\"\tRelError: 2.70149e+00\tAbsError: 1.33956e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.70130e+00\tAbsError: 6.58786e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.95827e-04\tAbsError: 6.80778e-02\n", - " Region: \"zone_3\"\tRelError: 1.15833e+03\tAbsError: 9.66146e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.59756e+01\tAbsError: 2.60646e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.14219e+03\tAbsError: 7.05500e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.57544e-01\tAbsError: 6.58787e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.95827e-04\tAbsError: 6.80778e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 6.06291e+02\tAbsError: 4.01421e+14\n", - " Region: \"zone_1\"\tRelError: 1.10248e-01\tAbsError: 8.97582e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10150e-01\tAbsError: 5.58213e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.76059e-05\tAbsError: 3.39369e-02\n", - " Region: \"zone_3\"\tRelError: 6.06180e+02\tAbsError: 4.01421e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.98365e+02\tAbsError: 2.62317e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.70461e+00\tAbsError: 1.39104e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10110e-01\tAbsError: 5.58214e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.76059e-05\tAbsError: 3.39369e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.50763e+03\tAbsError: 2.23340e+16\n", - " Region: \"zone_1\"\tRelError: 6.44725e+00\tAbsError: 2.49092e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 6.44673e+00\tAbsError: 6.91599e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.17604e-04\tAbsError: 1.79932e-01\n", - " Region: \"zone_3\"\tRelError: 1.50119e+03\tAbsError: 2.23340e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.29257e+03\tAbsError: 8.51965e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.08393e+02\tAbsError: 1.38143e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.26018e-01\tAbsError: 6.91599e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.17604e-04\tAbsError: 1.79932e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.09725e-01\tAbsError: 5.66844e+14\n", - " Region: \"zone_1\"\tRelError: 9.74944e-02\tAbsError: 6.02281e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.73217e-02\tAbsError: 2.69090e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72760e-04\tAbsError: 5.99590e-02\n", - " Region: \"zone_3\"\tRelError: 1.12230e-01\tAbsError: 5.66844e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.16841e-02\tAbsError: 3.36059e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.40653e-02\tAbsError: 2.30785e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.63081e-02\tAbsError: 2.86751e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72917e-04\tAbsError: 6.00120e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 8.10483e-02\tAbsError: 1.35513e+14\n", - " Region: \"zone_1\"\tRelError: 2.58322e-02\tAbsError: 2.48018e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.58252e-02\tAbsError: 3.80519e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.03965e-06\tAbsError: 2.44213e-03\n", - " Region: \"zone_3\"\tRelError: 5.52160e-02\tAbsError: 1.35513e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.20175e-03\tAbsError: 6.78200e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.94194e-03\tAbsError: 6.76932e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.90653e-02\tAbsError: 3.84912e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.05638e-06\tAbsError: 2.44787e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.46406e+03\tAbsError: 1.65999e+15\n", - " Region: \"zone_1\"\tRelError: 4.28617e-01\tAbsError: 1.04295e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.28490e-01\tAbsError: 6.01031e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27107e-04\tAbsError: 4.41918e-02\n", - " Region: \"zone_3\"\tRelError: 3.46363e+03\tAbsError: 1.65999e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.22098e+01\tAbsError: 1.04576e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.37130e+03\tAbsError: 6.14224e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.25668e-01\tAbsError: 6.01031e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27107e-04\tAbsError: 4.41918e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.20336e+03\tAbsError: 2.45508e+14\n", - " Region: \"zone_1\"\tRelError: 8.57374e-02\tAbsError: 4.98203e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.57333e-02\tAbsError: 4.83794e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14867e-06\tAbsError: 1.44089e-03\n", - " Region: \"zone_3\"\tRelError: 2.20327e+03\tAbsError: 2.45508e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.14531e+03\tAbsError: 1.73130e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.78727e+01\tAbsError: 7.23779e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.58452e-02\tAbsError: 4.83794e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14867e-06\tAbsError: 1.44089e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.25272e+02\tAbsError: 6.60472e+15\n", - " Region: \"zone_1\"\tRelError: 2.27909e+00\tAbsError: 1.12504e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.27895e+00\tAbsError: 6.38659e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.40057e-04\tAbsError: 4.86385e-02\n", - " Region: \"zone_3\"\tRelError: 4.22993e+02\tAbsError: 6.60472e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.16210e+01\tAbsError: 3.79266e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.41231e+02\tAbsError: 2.81205e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.41418e-01\tAbsError: 6.38659e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.40177e-04\tAbsError: 4.86799e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.32859e-02\tAbsError: 3.83563e+13\n", - " Region: \"zone_1\"\tRelError: 8.24035e-03\tAbsError: 7.96612e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 8.23812e-03\tAbsError: 2.18441e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.23240e-06\tAbsError: 7.74768e-04\n", - " Region: \"zone_3\"\tRelError: 2.50456e-02\tAbsError: 3.83563e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.92826e-03\tAbsError: 1.79088e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.76021e-03\tAbsError: 2.04475e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.13549e-02\tAbsError: 2.23899e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.24276e-06\tAbsError: 7.78349e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 5.48813e-04\tAbsError: 1.88570e+12\n", - " Region: \"zone_1\"\tRelError: 1.45274e-04\tAbsError: 3.39970e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35478e-04\tAbsError: 1.22010e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.79649e-06\tAbsError: 3.39848e-03\n", - " Region: \"zone_3\"\tRelError: 4.03539e-04\tAbsError: 1.88570e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.94628e-05\tAbsError: 9.77470e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.14796e-05\tAbsError: 9.08225e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.92798e-04\tAbsError: 1.23326e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.79900e-06\tAbsError: 3.39940e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 5.83067e+03\tAbsError: 5.92587e+14\n", - " Region: \"zone_1\"\tRelError: 1.88503e-01\tAbsError: 6.71506e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88463e-01\tAbsError: 5.34036e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.95381e-05\tAbsError: 1.37470e-02\n", - " Region: \"zone_3\"\tRelError: 5.83048e+03\tAbsError: 5.92587e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.74537e+03\tAbsError: 3.49738e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.50118e+01\tAbsError: 2.42848e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.98336e-02\tAbsError: 5.34037e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.95381e-05\tAbsError: 1.37470e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.77863e+01\tAbsError: 6.01969e+13\n", - " Region: \"zone_1\"\tRelError: 6.43140e-02\tAbsError: 4.43277e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.43003e-02\tAbsError: 3.95640e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37008e-05\tAbsError: 4.76374e-03\n", - " Region: \"zone_3\"\tRelError: 1.77220e+01\tAbsError: 6.01969e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.39628e+01\tAbsError: 3.74418e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.69466e+00\tAbsError: 2.27551e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.45263e-02\tAbsError: 3.95641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37008e-05\tAbsError: 4.76374e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.38541e+03\tAbsError: 6.79969e+14\n", - " Region: \"zone_1\"\tRelError: 1.13349e-01\tAbsError: 1.11530e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13194e-01\tAbsError: 5.77791e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54595e-04\tAbsError: 5.37513e-02\n", - " Region: \"zone_3\"\tRelError: 2.38530e+03\tAbsError: 6.79969e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.60459e+03\tAbsError: 2.66439e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.80597e+02\tAbsError: 4.13529e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13272e-01\tAbsError: 5.77792e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54595e-04\tAbsError: 5.37513e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.77352e-04\tAbsError: 7.13394e+11\n", - " Region: \"zone_1\"\tRelError: 2.80569e-04\tAbsError: 1.79321e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.75403e-04\tAbsError: 4.87828e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.16541e-06\tAbsError: 1.79273e-03\n", - " Region: \"zone_3\"\tRelError: 1.96783e-04\tAbsError: 7.13394e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.19881e-05\tAbsError: 4.92944e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.32443e-05\tAbsError: 2.20450e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.46385e-04\tAbsError: 4.93945e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.16541e-06\tAbsError: 1.79273e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.92853e-03\tAbsError: 5.62124e+12\n", - " Region: \"zone_1\"\tRelError: 1.96532e-03\tAbsError: 1.96576e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.96476e-03\tAbsError: 1.37574e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.61379e-07\tAbsError: 1.95200e-04\n", - " Region: \"zone_3\"\tRelError: 3.96321e-03\tAbsError: 5.62124e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.25845e-04\tAbsError: 2.83157e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.24546e-04\tAbsError: 2.78967e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.71226e-03\tAbsError: 1.47660e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.61596e-07\tAbsError: 1.95273e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.08409e+02\tAbsError: 1.91699e+14\n", - " Region: \"zone_1\"\tRelError: 7.70948e-02\tAbsError: 5.30921e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.70730e-02\tAbsError: 4.55245e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17651e-05\tAbsError: 7.56764e-03\n", - " Region: \"zone_3\"\tRelError: 2.08332e+02\tAbsError: 1.91699e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05469e+02\tAbsError: 1.32563e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.78566e+00\tAbsError: 5.91361e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.73368e-02\tAbsError: 4.55246e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17651e-05\tAbsError: 7.56764e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 9.93223e+03\tAbsError: 1.22952e+13\n", - " Region: \"zone_1\"\tRelError: 4.57686e-02\tAbsError: 3.13053e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.57624e-02\tAbsError: 2.91306e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.26141e-06\tAbsError: 2.17471e-03\n", - " Region: \"zone_3\"\tRelError: 9.93219e+03\tAbsError: 1.22952e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.93152e+03\tAbsError: 6.28414e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.21409e-01\tAbsError: 6.01109e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.63288e-02\tAbsError: 2.91306e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.26141e-06\tAbsError: 2.17471e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.25988e+04\tAbsError: 5.24078e+14\n", - " Region: \"zone_1\"\tRelError: 1.49524e-01\tAbsError: 5.33198e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49516e-01\tAbsError: 5.06822e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.59452e-06\tAbsError: 2.63763e-03\n", - " Region: \"zone_3\"\tRelError: 1.25987e+04\tAbsError: 5.24078e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.25908e+04\tAbsError: 3.27064e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.78157e+00\tAbsError: 1.97014e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.90329e-02\tAbsError: 5.06822e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.59452e-06\tAbsError: 2.63763e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.49838e-03\tAbsError: 1.76569e+12\n", - " Region: \"zone_1\"\tRelError: 6.54941e-04\tAbsError: 9.30889e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.54675e-04\tAbsError: 8.39400e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.65787e-07\tAbsError: 9.22495e-05\n", - " Region: \"zone_3\"\tRelError: 1.84344e-03\tAbsError: 1.76569e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77494e-05\tAbsError: 8.82777e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.71860e-05\tAbsError: 8.82910e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.68824e-03\tAbsError: 8.40369e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.65787e-07\tAbsError: 9.22495e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 4.72762e-04\tAbsError: 3.41820e+11\n", - " Region: \"zone_1\"\tRelError: 1.58246e-04\tAbsError: 1.92506e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.57692e-04\tAbsError: 9.65722e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.54279e-07\tAbsError: 1.92410e-04\n", - " Region: \"zone_3\"\tRelError: 3.14516e-04\tAbsError: 3.41820e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.64023e-06\tAbsError: 1.71224e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.68076e-06\tAbsError: 1.70595e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.98641e-04\tAbsError: 1.03349e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.54407e-07\tAbsError: 1.92451e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.41194e+02\tAbsError: 5.68109e+13\n", - " Region: \"zone_1\"\tRelError: 5.66163e-02\tAbsError: 3.77625e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.66117e-02\tAbsError: 3.61717e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.58018e-06\tAbsError: 1.59077e-03\n", - " Region: \"zone_3\"\tRelError: 6.41138e+02\tAbsError: 5.68109e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33427e+02\tAbsError: 3.56087e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.07654e+02\tAbsError: 2.12022e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.69268e-02\tAbsError: 3.61718e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.58018e-06\tAbsError: 1.59077e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.11877e+00\tAbsError: 2.43618e+12\n", - " Region: \"zone_1\"\tRelError: 3.45248e-02\tAbsError: 2.79337e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.45156e-02\tAbsError: 2.47258e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.23616e-06\tAbsError: 3.20792e-03\n", - " Region: \"zone_3\"\tRelError: 1.08424e+00\tAbsError: 2.43618e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99948e-01\tAbsError: 1.31112e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.93315e-02\tAbsError: 1.12506e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.49530e-02\tAbsError: 2.47259e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.23616e-06\tAbsError: 3.20792e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.32327e+02\tAbsError: 1.48132e+14\n", - " Region: \"zone_1\"\tRelError: 6.77637e-02\tAbsError: 4.36000e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.77600e-02\tAbsError: 4.22992e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.74140e-06\tAbsError: 1.30085e-03\n", - " Region: \"zone_3\"\tRelError: 6.32260e+02\tAbsError: 1.48132e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.04050e+01\tAbsError: 1.03200e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.51786e+02\tAbsError: 4.49319e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.81931e-02\tAbsError: 4.22993e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.74140e-06\tAbsError: 1.30085e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.99060e-04\tAbsError: 9.07144e+10\n", - " Region: \"zone_1\"\tRelError: 5.32122e-05\tAbsError: 1.06982e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.29043e-05\tAbsError: 5.30299e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.07864e-07\tAbsError: 1.06929e-04\n", - " Region: \"zone_3\"\tRelError: 1.45848e-04\tAbsError: 9.07144e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.37854e-06\tAbsError: 4.24042e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.42241e-06\tAbsError: 4.83102e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.36739e-04\tAbsError: 5.34823e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.07966e-07\tAbsError: 1.06964e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.00550e-04\tAbsError: 3.20626e+11\n", - " Region: \"zone_1\"\tRelError: 1.33793e-04\tAbsError: 2.12224e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33732e-04\tAbsError: 7.08063e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.09330e-08\tAbsError: 2.11516e-05\n", - " Region: \"zone_3\"\tRelError: 2.66756e-04\tAbsError: 3.20626e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.21226e-06\tAbsError: 1.61400e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.10685e-06\tAbsError: 1.59226e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.52376e-04\tAbsError: 7.71568e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.09495e-08\tAbsError: 2.11573e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.07505e+00\tAbsError: 6.25389e+12\n", - " Region: \"zone_1\"\tRelError: 4.36529e-02\tAbsError: 2.95826e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.36423e-02\tAbsError: 2.58965e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06129e-05\tAbsError: 3.68607e-03\n", - " Region: \"zone_3\"\tRelError: 2.03140e+00\tAbsError: 6.25389e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.96580e-01\tAbsError: 1.78149e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.90898e-01\tAbsError: 4.47240e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.39096e-02\tAbsError: 2.58973e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06129e-05\tAbsError: 3.68607e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 9.51554e-01\tAbsError: 1.89582e+12\n", - " Region: \"zone_1\"\tRelError: 2.30110e-04\tAbsError: 6.58813e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.11154e-04\tAbsError: 4.13879e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.89561e-05\tAbsError: 6.58399e-03\n", - " Region: \"zone_3\"\tRelError: 9.51324e-01\tAbsError: 1.89582e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.49652e-01\tAbsError: 5.86158e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.60421e-03\tAbsError: 1.30967e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.88469e-05\tAbsError: 4.50711e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.89561e-05\tAbsError: 6.58399e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.09192e+00\tAbsError: 2.46218e+13\n", - " Region: \"zone_1\"\tRelError: 4.83263e-02\tAbsError: 3.71406e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.83125e-02\tAbsError: 3.23497e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37943e-05\tAbsError: 4.79093e-03\n", - " Region: \"zone_3\"\tRelError: 2.04359e+00\tAbsError: 2.46218e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99137e-01\tAbsError: 9.59394e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.95705e-01\tAbsError: 1.50279e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.87366e-02\tAbsError: 3.23497e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37943e-05\tAbsError: 4.79093e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.73943e-04\tAbsError: 1.07365e+11\n", - " Region: \"zone_1\"\tRelError: 4.60985e-05\tAbsError: 1.16082e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.60652e-05\tAbsError: 4.61233e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.32888e-08\tAbsError: 1.15620e-05\n", - " Region: \"zone_3\"\tRelError: 1.27845e-04\tAbsError: 1.07365e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.59108e-06\tAbsError: 6.01847e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.54678e-06\tAbsError: 4.71802e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18674e-04\tAbsError: 4.74794e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.32988e-08\tAbsError: 1.15655e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 5.47711e-05\tAbsError: 3.70815e+10\n", - " Region: \"zone_1\"\tRelError: 1.83966e-05\tAbsError: 1.25973e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.83604e-05\tAbsError: 8.35155e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.61935e-08\tAbsError: 1.25889e-05\n", - " Region: \"zone_3\"\tRelError: 3.63746e-05\tAbsError: 3.70815e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.32814e-07\tAbsError: 1.85960e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.27373e-07\tAbsError: 1.84855e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.46782e-05\tAbsError: 9.16153e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.62081e-08\tAbsError: 1.25941e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 9.27661e+02\tAbsError: 3.54994e+12\n", - " Region: \"zone_1\"\tRelError: 2.38776e-02\tAbsError: 2.12602e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.38666e-02\tAbsError: 1.74104e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10841e-05\tAbsError: 3.84976e-03\n", - " Region: \"zone_3\"\tRelError: 9.27637e+02\tAbsError: 3.54994e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.27595e+02\tAbsError: 1.74289e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.72650e-02\tAbsError: 1.80705e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.42829e-02\tAbsError: 1.74106e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10841e-05\tAbsError: 3.84976e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 3.89717e-03\tAbsError: 3.47997e+12\n", - " Region: \"zone_1\"\tRelError: 8.55125e-04\tAbsError: 1.16964e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 8.54801e-04\tAbsError: 4.36303e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.23842e-07\tAbsError: 1.12601e-04\n", - " Region: \"zone_3\"\tRelError: 3.04204e-03\tAbsError: 3.47997e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.47788e-04\tAbsError: 1.09617e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.59563e-04\tAbsError: 2.38380e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03437e-03\tAbsError: 4.40268e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.23842e-07\tAbsError: 1.12601e-04\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.42423e-05\tAbsError: 1.13845e+10\n", - " Region: \"zone_1\"\tRelError: 6.77172e-06\tAbsError: 7.06656e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.75139e-06\tAbsError: 5.42330e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.03301e-08\tAbsError: 7.06113e-06\n", - " Region: \"zone_3\"\tRelError: 1.74705e-05\tAbsError: 1.13845e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.20454e-07\tAbsError: 6.31987e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.20087e-07\tAbsError: 5.06458e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.64097e-05\tAbsError: 5.58892e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.03324e-08\tAbsError: 7.06195e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 9.11104e-01\tAbsError: 6.39403e+12\n", - " Region: \"zone_1\"\tRelError: 3.95295e-02\tAbsError: 3.01416e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.95166e-02\tAbsError: 2.56794e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.28475e-05\tAbsError: 4.46215e-03\n", - " Region: \"zone_3\"\tRelError: 8.71574e-01\tAbsError: 6.39403e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.22643e-01\tAbsError: 2.54350e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.08856e-01\tAbsError: 3.85053e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.00630e-02\tAbsError: 2.57518e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.28475e-05\tAbsError: 4.46215e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.01442e-04\tAbsError: 1.00519e+11\n", - " Region: \"zone_1\"\tRelError: 8.70773e-05\tAbsError: 2.27393e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 8.64229e-05\tAbsError: 1.01434e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.54379e-07\tAbsError: 2.27291e-04\n", - " Region: \"zone_3\"\tRelError: 2.14365e-04\tAbsError: 1.00519e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.62706e-05\tAbsError: 4.47105e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.33789e-05\tAbsError: 5.58084e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.84061e-04\tAbsError: 1.02591e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.54389e-07\tAbsError: 2.27297e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 9.98130e-01\tAbsError: 2.62533e+12\n", - " Region: \"zone_1\"\tRelError: 3.82333e-04\tAbsError: 6.10703e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.64779e-04\tAbsError: 9.96994e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75541e-05\tAbsError: 6.09706e-03\n", - " Region: \"zone_3\"\tRelError: 9.97748e-01\tAbsError: 2.62533e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.96506e-01\tAbsError: 8.87847e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.16735e-03\tAbsError: 1.73748e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.72863e-05\tAbsError: 1.05441e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75541e-05\tAbsError: 6.09706e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 9.47371e-01\tAbsError: 4.28530e+12\n", - " Region: \"zone_1\"\tRelError: 1.48935e-02\tAbsError: 1.65084e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.48782e-02\tAbsError: 1.11985e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52880e-05\tAbsError: 5.30987e-03\n", - " Region: \"zone_3\"\tRelError: 9.32478e-01\tAbsError: 4.28530e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.10570e-01\tAbsError: 1.95243e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.69199e-03\tAbsError: 2.33287e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51998e-02\tAbsError: 1.11987e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52880e-05\tAbsError: 5.30987e-03\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:58\u001b[0m.\u001b[1;36m352\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:58\u001b[0m.\u001b[1;36m385\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.9 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:58\u001b[0m.\u001b[1;36m415\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 3.12421e-04\tAbsError: 2.21889e+11\n", - " Region: \"zone_1\"\tRelError: 8.22854e-05\tAbsError: 2.08676e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 8.22259e-05\tAbsError: 1.72465e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.95208e-08\tAbsError: 2.06951e-05\n", - " Region: \"zone_3\"\tRelError: 2.30136e-04\tAbsError: 2.21889e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.20007e-05\tAbsError: 1.02564e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.18521e-05\tAbsError: 1.19326e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86224e-04\tAbsError: 1.74273e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.95335e-08\tAbsError: 2.07004e-05\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.47644e-03\tAbsError: 3.24054e+12\n", - " Region: \"zone_1\"\tRelError: 7.94661e-04\tAbsError: 8.94961e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.94416e-04\tAbsError: 4.03981e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.45773e-07\tAbsError: 8.54563e-05\n", - " Region: \"zone_3\"\tRelError: 2.68177e-03\tAbsError: 3.24054e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.67270e-04\tAbsError: 1.02396e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.23056e-04\tAbsError: 2.21658e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.89120e-03\tAbsError: 4.07680e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.45773e-07\tAbsError: 8.54563e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.11908e-01\tAbsError: 5.16826e+12\n", - " Region: \"zone_1\"\tRelError: 9.92569e-04\tAbsError: 6.44275e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 9.74107e-04\tAbsError: 3.01846e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84625e-05\tAbsError: 6.41257e-03\n", - " Region: \"zone_3\"\tRelError: 2.10915e-01\tAbsError: 5.16826e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.08472e-01\tAbsError: 1.83522e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.87614e-03\tAbsError: 3.33304e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.48673e-04\tAbsError: 3.03392e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84625e-05\tAbsError: 6.41257e-03\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:59\u001b[0m.\u001b[1;36m142\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:59\u001b[0m.\u001b[1;36m180\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 0.95 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:59\u001b[0m.\u001b[1;36m221\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 4.51573e+01\tAbsError: 5.73632e+17\n", - " Region: \"zone_1\"\tRelError: 2.42264e+01\tAbsError: 8.24921e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.42264e+01\tAbsError: 8.24901e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.73190e-09\tAbsError: 1.99366e-06\n", - " Region: \"zone_3\"\tRelError: 2.09309e+01\tAbsError: 5.73632e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.80469e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10902e+01\tAbsError: 2.93163e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 8.40641e-01\tAbsError: 8.24901e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.73416e-09\tAbsError: 1.99448e-06\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 4.17956e-05\tAbsError: 1.97290e+10\n", - " Region: \"zone_1\"\tRelError: 1.18661e-05\tAbsError: 1.49685e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18231e-05\tAbsError: 1.48864e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.30078e-08\tAbsError: 1.49536e-05\n", - " Region: \"zone_3\"\tRelError: 2.99295e-05\tAbsError: 1.97290e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.01914e-06\tAbsError: 1.04404e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.01081e-06\tAbsError: 9.28869e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.58566e-05\tAbsError: 1.50609e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.30208e-08\tAbsError: 1.49586e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:59\u001b[0m.\u001b[1;36m721\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:35:59\u001b[0m.\u001b[1;36m721\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.20833333333333334\u001b[0m \n", - "Iteration: 11\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 2.60848e-04\tAbsError: 7.27867e+10\n", - " Region: \"zone_1\"\tRelError: 7.50893e-05\tAbsError: 2.09731e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.44857e-05\tAbsError: 7.59270e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.03603e-07\tAbsError: 2.09655e-04\n", - " Region: \"zone_3\"\tRelError: 1.85759e-04\tAbsError: 7.27867e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50933e-05\tAbsError: 3.42289e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.24436e-05\tAbsError: 3.85578e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.57619e-04\tAbsError: 7.67885e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.03618e-07\tAbsError: 2.09663e-04\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 3.66154e-03\tAbsError: 3.38692e+12\n", - " Region: \"zone_1\"\tRelError: 8.23270e-04\tAbsError: 5.50756e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 8.23124e-04\tAbsError: 4.23833e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.46208e-07\tAbsError: 5.08373e-05\n", - " Region: \"zone_3\"\tRelError: 2.83827e-03\tAbsError: 3.38692e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.27487e-04\tAbsError: 1.07437e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.47763e-04\tAbsError: 2.31254e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.96287e-03\tAbsError: 4.27713e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.46208e-07\tAbsError: 5.08373e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.04899e+02\tAbsError: 2.22519e+17\n", - " Region: \"zone_1\"\tRelError: 6.80302e+01\tAbsError: 8.03349e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.80302e+01\tAbsError: 8.03338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.23687e-09\tAbsError: 1.12425e-06\n", - " Region: \"zone_3\"\tRelError: 2.36869e+02\tAbsError: 2.22519e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.08226e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.27561e+02\tAbsError: 1.14293e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 3.07393e-01\tAbsError: 8.03338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.23715e-09\tAbsError: 1.12434e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.05786e+01\tAbsError: 3.90962e+17\n", - " Region: \"zone_1\"\tRelError: 7.44374e+00\tAbsError: 3.85122e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 7.44286e+00\tAbsError: 7.88298e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.81581e-04\tAbsError: 3.06292e-01\n", - " Region: \"zone_3\"\tRelError: 2.31349e+01\tAbsError: 3.90962e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.20845e+01\tAbsError: 1.91461e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.99501e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 2.04951e+00\tAbsError: 7.88298e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.81581e-04\tAbsError: 3.06292e-01\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 2.87569e-04\tAbsError: 2.04901e+11\n", - " Region: \"zone_1\"\tRelError: 7.57005e-05\tAbsError: 1.81146e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.56488e-05\tAbsError: 1.59044e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.16415e-08\tAbsError: 1.79555e-05\n", - " Region: \"zone_3\"\tRelError: 2.11869e-04\tAbsError: 2.04901e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.02801e-05\tAbsError: 9.47207e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.01434e-05\tAbsError: 1.10180e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.71394e-04\tAbsError: 1.60712e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.16551e-08\tAbsError: 1.79610e-05\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 2.22293e-04\tAbsError: 3.30869e+10\n", - " Region: \"zone_1\"\tRelError: 6.30972e-05\tAbsError: 2.17552e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.24710e-05\tAbsError: 4.60870e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.26207e-07\tAbsError: 2.17506e-04\n", - " Region: \"zone_3\"\tRelError: 1.59196e-04\tAbsError: 3.30869e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.57828e-05\tAbsError: 1.58467e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.30769e-05\tAbsError: 1.72402e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29710e-04\tAbsError: 4.66375e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.26215e-07\tAbsError: 2.17511e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.58703e+00\tAbsError: 9.04418e+15\n", - " Region: \"zone_1\"\tRelError: 1.92661e+00\tAbsError: 4.26164e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.92661e+00\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.45404e-09\tAbsError: 2.24417e-06\n", - " Region: \"zone_3\"\tRelError: 1.66042e+00\tAbsError: 9.04418e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83432e-01\tAbsError: 5.05936e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.83363e-01\tAbsError: 3.98483e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.36246e-02\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.45579e-09\tAbsError: 2.24478e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 4.03354e+01\tAbsError: 1.45334e+17\n", - " Region: \"zone_1\"\tRelError: 2.05211e+01\tAbsError: 5.44014e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.05197e+01\tAbsError: 7.64428e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.34440e-03\tAbsError: 4.67571e-01\n", - " Region: \"zone_3\"\tRelError: 1.98143e+01\tAbsError: 1.45334e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.02485e+01\tAbsError: 7.38983e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 7.14362e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 5.64509e-01\tAbsError: 7.64428e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.34619e-03\tAbsError: 4.68197e-01\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 3.69302e-05\tAbsError: 1.70378e+10\n", - " Region: \"zone_1\"\tRelError: 1.05164e-05\tAbsError: 1.37373e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04769e-05\tAbsError: 1.28711e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.94725e-08\tAbsError: 1.37244e-05\n", - " Region: \"zone_3\"\tRelError: 2.64138e-05\tAbsError: 1.70378e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.75140e-06\tAbsError: 9.08031e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.74451e-06\tAbsError: 7.95747e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.28784e-05\tAbsError: 1.30229e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.94844e-08\tAbsError: 1.37290e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:02\u001b[0m.\u001b[1;36m231\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.2\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 8.47490e+02\tAbsError: 1.27841e+17\n", - " Region: \"zone_1\"\tRelError: 1.17044e+00\tAbsError: 1.20401e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16720e+00\tAbsError: 7.47721e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.23989e-03\tAbsError: 1.12924e+00\n", - " Region: \"zone_3\"\tRelError: 8.46320e+02\tAbsError: 1.27841e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.64763e+01\tAbsError: 7.09434e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69485e+02\tAbsError: 5.68980e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.55471e-01\tAbsError: 7.47734e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.24142e-03\tAbsError: 1.12966e+00\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 2.95900e-04\tAbsError: 2.12250e+11\n", - " Region: \"zone_1\"\tRelError: 7.77472e-05\tAbsError: 1.62515e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.77010e-05\tAbsError: 1.64693e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.62658e-08\tAbsError: 1.60868e-05\n", - " Region: \"zone_3\"\tRelError: 2.18153e-04\tAbsError: 2.12250e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.10257e-05\tAbsError: 9.81512e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.08823e-05\tAbsError: 1.14099e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.76199e-04\tAbsError: 1.66424e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.62780e-08\tAbsError: 1.60913e-05\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.56197e+00\tAbsError: 3.41005e+14\n", - " Region: \"zone_1\"\tRelError: 7.42778e-02\tAbsError: 9.67927e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.40935e-02\tAbsError: 3.27224e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84300e-04\tAbsError: 6.40703e-02\n", - " Region: \"zone_3\"\tRelError: 1.48769e+00\tAbsError: 3.41005e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.62788e-01\tAbsError: 1.76260e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.57825e-01\tAbsError: 1.64745e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.68901e-02\tAbsError: 3.27228e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84300e-04\tAbsError: 6.40703e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.45968e+02\tAbsError: 5.46698e+16\n", - " Region: \"zone_1\"\tRelError: 1.20232e+00\tAbsError: 2.11631e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20192e+00\tAbsError: 7.21040e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.01760e-04\tAbsError: 1.39527e-01\n", - " Region: \"zone_3\"\tRelError: 1.44765e+02\tAbsError: 5.46698e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.07518e+01\tAbsError: 2.79405e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.37872e+01\tAbsError: 2.67293e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.25797e-01\tAbsError: 7.21040e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.02283e-04\tAbsError: 1.39707e-01\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 3.43657e-05\tAbsError: 1.51208e+10\n", - " Region: \"zone_1\"\tRelError: 9.84464e-06\tAbsError: 1.40710e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 9.80420e-06\tAbsError: 1.16041e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.04359e-08\tAbsError: 1.40594e-05\n", - " Region: \"zone_3\"\tRelError: 2.45210e-05\tAbsError: 1.51208e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.57488e-06\tAbsError: 8.06094e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.56966e-06\tAbsError: 7.05983e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.13361e-05\tAbsError: 1.17422e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.04480e-08\tAbsError: 1.40640e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 7.26513e+02\tAbsError: 2.61970e+16\n", - " Region: \"zone_1\"\tRelError: 4.28289e+00\tAbsError: 1.05157e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 4.28006e+00\tAbsError: 7.02256e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.82352e-03\tAbsError: 9.81348e-01\n", - " Region: \"zone_3\"\tRelError: 7.22231e+02\tAbsError: 2.61970e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.27009e+01\tAbsError: 1.26138e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.08947e+02\tAbsError: 1.35832e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 5.79421e-01\tAbsError: 7.02257e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.82352e-03\tAbsError: 9.81348e-01\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:03\u001b[0m.\u001b[1;36m693\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:03\u001b[0m.\u001b[1;36m693\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.20714285714285713\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.71665e+00\tAbsError: 8.34848e+15\n", - " Region: \"zone_1\"\tRelError: 2.08783e+00\tAbsError: 4.09562e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.08783e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.73741e-09\tAbsError: 1.99498e-06\n", - " Region: \"zone_3\"\tRelError: 1.62882e+00\tAbsError: 8.34848e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69544e-01\tAbsError: 4.67018e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69472e-01\tAbsError: 3.67830e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.98079e-02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.73892e-09\tAbsError: 1.99551e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.03390e+00\tAbsError: 4.16810e+13\n", - " Region: \"zone_1\"\tRelError: 5.13611e-02\tAbsError: 3.15350e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.13449e-02\tAbsError: 2.58934e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62282e-05\tAbsError: 5.64167e-03\n", - " Region: \"zone_3\"\tRelError: 9.82539e-01\tAbsError: 4.16810e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.79113e-01\tAbsError: 3.05006e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.51817e-01\tAbsError: 1.11804e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.15928e-02\tAbsError: 2.58971e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62282e-05\tAbsError: 5.64167e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.12673e+02\tAbsError: 1.53705e+16\n", - " Region: \"zone_1\"\tRelError: 5.06195e+00\tAbsError: 3.44130e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.06116e+00\tAbsError: 6.72141e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.96842e-04\tAbsError: 2.76915e-01\n", - " Region: \"zone_3\"\tRelError: 2.07611e+02\tAbsError: 1.53705e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.47712e+01\tAbsError: 8.09677e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.42682e+02\tAbsError: 7.27369e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.57154e-01\tAbsError: 6.72141e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.96842e-04\tAbsError: 2.76915e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 4.73206e+02\tAbsError: 3.66314e+15\n", - " Region: \"zone_1\"\tRelError: 2.06542e+00\tAbsError: 1.60031e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06514e+00\tAbsError: 6.50814e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.73108e-04\tAbsError: 9.49496e-02\n", - " Region: \"zone_3\"\tRelError: 4.71141e+02\tAbsError: 3.66314e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.58557e+02\tAbsError: 1.93985e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.11976e+02\tAbsError: 1.72329e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 6.06785e-01\tAbsError: 6.50815e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.73108e-04\tAbsError: 9.49496e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.60219e+00\tAbsError: 8.94480e+15\n", - " Region: \"zone_1\"\tRelError: 1.94666e+00\tAbsError: 4.23854e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.94666e+00\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.45611e-09\tAbsError: 1.89717e-06\n", - " Region: \"zone_3\"\tRelError: 1.65553e+00\tAbsError: 8.94480e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.81552e-01\tAbsError: 5.00376e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.81482e-01\tAbsError: 3.94104e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.25006e-02\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.45755e-09\tAbsError: 1.89767e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.50135e+00\tAbsError: 2.91711e+14\n", - " Region: \"zone_1\"\tRelError: 6.56152e-02\tAbsError: 8.99300e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.54450e-02\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70192e-04\tAbsError: 5.91664e-02\n", - " Region: \"zone_3\"\tRelError: 1.43573e+00\tAbsError: 2.91711e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37693e-01\tAbsError: 1.49991e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32867e-01\tAbsError: 1.41720e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.50013e-02\tAbsError: 3.07641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70192e-04\tAbsError: 5.91664e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.43498e-01\tAbsError: 3.21382e+12\n", - " Region: \"zone_1\"\tRelError: 1.97019e-02\tAbsError: 1.49690e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.96925e-02\tAbsError: 1.17194e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.34753e-06\tAbsError: 3.24960e-03\n", - " Region: \"zone_3\"\tRelError: 3.23797e-01\tAbsError: 3.21382e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.36008e-01\tAbsError: 2.01560e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.78387e-02\tAbsError: 1.19822e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.99403e-02\tAbsError: 1.17194e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.35162e-06\tAbsError: 3.25108e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.14910e+03\tAbsError: 2.04407e+15\n", - " Region: \"zone_1\"\tRelError: 5.71463e-01\tAbsError: 2.34617e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.70965e-01\tAbsError: 6.16388e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.97509e-04\tAbsError: 1.72979e-01\n", - " Region: \"zone_3\"\tRelError: 2.14852e+03\tAbsError: 2.04407e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34986e+03\tAbsError: 1.29772e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.98463e+02\tAbsError: 7.46348e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.05158e-01\tAbsError: 6.16388e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.97509e-04\tAbsError: 1.72979e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.97407e+03\tAbsError: 3.02790e+15\n", - " Region: \"zone_1\"\tRelError: 1.06529e+00\tAbsError: 8.80521e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06521e+00\tAbsError: 5.91837e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.29279e-05\tAbsError: 2.88684e-02\n", - " Region: \"zone_3\"\tRelError: 2.97300e+03\tAbsError: 3.02790e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.51309e+02\tAbsError: 1.92031e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.62158e+03\tAbsError: 1.10759e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10085e-01\tAbsError: 5.91838e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.29699e-05\tAbsError: 2.88835e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.55313e+00\tAbsError: 3.33831e+14\n", - " Region: \"zone_1\"\tRelError: 7.29219e-02\tAbsError: 9.58119e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.27397e-02\tAbsError: 3.24496e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.82263e-04\tAbsError: 6.33622e-02\n", - " Region: \"zone_3\"\tRelError: 1.48020e+00\tAbsError: 3.33831e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.59573e-01\tAbsError: 1.72457e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.54195e-01\tAbsError: 1.61374e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.62545e-02\tAbsError: 3.24501e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.82263e-04\tAbsError: 6.33622e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 9.34092e-01\tAbsError: 3.63167e+13\n", - " Region: \"zone_1\"\tRelError: 4.74090e-02\tAbsError: 3.08415e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.73947e-02\tAbsError: 2.58899e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42431e-05\tAbsError: 4.95164e-03\n", - " Region: \"zone_3\"\tRelError: 8.86683e-01\tAbsError: 3.63167e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40041e-01\tAbsError: 2.66171e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.98905e-01\tAbsError: 9.69957e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.77237e-02\tAbsError: 2.58388e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42431e-05\tAbsError: 4.95164e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.71243e-02\tAbsError: 2.70156e+12\n", - " Region: \"zone_1\"\tRelError: 9.02595e-04\tAbsError: 2.64928e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 8.94971e-04\tAbsError: 1.55568e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.62398e-06\tAbsError: 2.64773e-03\n", - " Region: \"zone_3\"\tRelError: 7.62218e-02\tAbsError: 2.70156e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.36053e-02\tAbsError: 1.65880e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.79838e-04\tAbsError: 1.04276e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.42896e-03\tAbsError: 1.62853e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.62398e-06\tAbsError: 2.64773e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.03260e+02\tAbsError: 8.32195e+14\n", - " Region: \"zone_1\"\tRelError: 2.61910e-01\tAbsError: 7.68414e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.61848e-01\tAbsError: 5.51938e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.22632e-05\tAbsError: 2.16475e-02\n", - " Region: \"zone_3\"\tRelError: 4.02998e+02\tAbsError: 8.32195e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.42678e+02\tAbsError: 5.88353e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.02190e+01\tAbsError: 2.43842e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01300e-01\tAbsError: 5.51939e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.22632e-05\tAbsError: 2.16475e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.40047e+04\tAbsError: 4.49493e+14\n", - " Region: \"zone_1\"\tRelError: 8.73537e-02\tAbsError: 9.02032e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.72448e-02\tAbsError: 5.23288e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08938e-04\tAbsError: 3.78743e-02\n", - " Region: \"zone_3\"\tRelError: 4.40046e+04\tAbsError: 4.49493e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.87099e+02\tAbsError: 2.63668e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.37175e+04\tAbsError: 1.85825e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.76009e-02\tAbsError: 5.23289e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08938e-04\tAbsError: 3.78743e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.02097e+00\tAbsError: 4.08584e+13\n", - " Region: \"zone_1\"\tRelError: 5.08907e-02\tAbsError: 3.14127e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.08748e-02\tAbsError: 2.58834e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59049e-05\tAbsError: 5.52929e-03\n", - " Region: \"zone_3\"\tRelError: 9.70077e-01\tAbsError: 4.08584e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73651e-01\tAbsError: 2.99028e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.45246e-01\tAbsError: 1.09556e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.11640e-02\tAbsError: 2.58996e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59049e-05\tAbsError: 5.52929e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.84661e-01\tAbsError: 3.60668e+12\n", - " Region: \"zone_1\"\tRelError: 1.51217e-02\tAbsError: 1.24486e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51123e-02\tAbsError: 9.16566e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.44333e-06\tAbsError: 3.28295e-03\n", - " Region: \"zone_3\"\tRelError: 2.69539e-01\tAbsError: 3.60668e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12296e-01\tAbsError: 2.19850e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.19182e-02\tAbsError: 1.40818e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.53153e-02\tAbsError: 9.16570e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.44333e-06\tAbsError: 3.28295e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.03129e-03\tAbsError: 1.30882e+12\n", - " Region: \"zone_1\"\tRelError: 1.71592e-04\tAbsError: 1.21225e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.71249e-04\tAbsError: 1.87177e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.42860e-07\tAbsError: 1.19353e-04\n", - " Region: \"zone_3\"\tRelError: 8.59698e-04\tAbsError: 1.30882e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.62718e-04\tAbsError: 3.58700e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.63159e-04\tAbsError: 9.50116e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.33478e-04\tAbsError: 1.87198e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.43020e-07\tAbsError: 1.19412e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.99477e+02\tAbsError: 1.64419e+14\n", - " Region: \"zone_1\"\tRelError: 7.79686e-02\tAbsError: 6.55201e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.79172e-02\tAbsError: 4.76397e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.14270e-05\tAbsError: 1.78804e-02\n", - " Region: \"zone_3\"\tRelError: 3.99399e+02\tAbsError: 1.64419e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.81466e+02\tAbsError: 9.03287e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.78544e+01\tAbsError: 7.40902e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.83657e-02\tAbsError: 4.76398e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.14270e-05\tAbsError: 1.78804e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.01826e+03\tAbsError: 2.61704e+14\n", - " Region: \"zone_1\"\tRelError: 7.59357e-02\tAbsError: 4.99197e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.59194e-02\tAbsError: 4.42519e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.63213e-05\tAbsError: 5.66780e-03\n", - " Region: \"zone_3\"\tRelError: 1.01818e+03\tAbsError: 2.61704e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.00513e+03\tAbsError: 1.47036e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.29856e+01\tAbsError: 1.14668e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.78898e-02\tAbsError: 4.42520e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.63433e-05\tAbsError: 5.67561e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.31742e-01\tAbsError: 3.18634e+12\n", - " Region: \"zone_1\"\tRelError: 1.90077e-02\tAbsError: 1.45577e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.89985e-02\tAbsError: 1.13363e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.26664e-06\tAbsError: 3.22149e-03\n", - " Region: \"zone_3\"\tRelError: 3.12735e-01\tAbsError: 3.18634e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.29768e-01\tAbsError: 1.97921e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.37177e-02\tAbsError: 1.20713e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.92397e-02\tAbsError: 1.13363e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.27048e-06\tAbsError: 3.22288e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.15193e-02\tAbsError: 3.32526e+12\n", - " Region: \"zone_1\"\tRelError: 1.39859e-03\tAbsError: 2.06485e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39268e-03\tAbsError: 1.45910e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.90356e-06\tAbsError: 2.05026e-03\n", - " Region: \"zone_3\"\tRelError: 6.01207e-02\tAbsError: 3.32526e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.70409e-02\tAbsError: 2.05868e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.81916e-04\tAbsError: 1.26659e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49202e-03\tAbsError: 1.52371e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.90356e-06\tAbsError: 2.05026e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.36928e-04\tAbsError: 9.81205e+10\n", - " Region: \"zone_1\"\tRelError: 3.23153e-05\tAbsError: 7.81886e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.20903e-05\tAbsError: 5.65537e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.24962e-07\tAbsError: 7.81321e-05\n", - " Region: \"zone_3\"\tRelError: 1.04613e-04\tAbsError: 9.81205e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.45720e-06\tAbsError: 7.19535e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.38300e-06\tAbsError: 2.61671e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 8.95475e-05\tAbsError: 5.94976e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.25064e-07\tAbsError: 7.81656e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.96409e+02\tAbsError: 6.68527e+13\n", - " Region: \"zone_1\"\tRelError: 5.84302e-02\tAbsError: 4.24892e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.84192e-02\tAbsError: 3.86849e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.09539e-05\tAbsError: 3.80426e-03\n", - " Region: \"zone_3\"\tRelError: 5.96351e+02\tAbsError: 6.68527e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.88544e+02\tAbsError: 3.45664e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.74762e+00\tAbsError: 3.22862e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.88590e-02\tAbsError: 3.86850e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.09539e-05\tAbsError: 3.80426e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.30616e+02\tAbsError: 5.02085e+13\n", - " Region: \"zone_1\"\tRelError: 4.91483e-02\tAbsError: 4.53133e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.91176e-02\tAbsError: 3.46616e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.06722e-05\tAbsError: 1.06517e-02\n", - " Region: \"zone_3\"\tRelError: 1.30567e+02\tAbsError: 5.02085e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28276e+02\tAbsError: 3.22912e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.24066e+00\tAbsError: 1.79173e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.95443e-02\tAbsError: 3.46617e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.06722e-05\tAbsError: 1.06517e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.42804e-02\tAbsError: 2.67868e+12\n", - " Region: \"zone_1\"\tRelError: 9.10601e-04\tAbsError: 2.59909e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 9.03121e-04\tAbsError: 1.52325e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.47953e-06\tAbsError: 2.59757e-03\n", - " Region: \"zone_3\"\tRelError: 7.33698e-02\tAbsError: 2.67868e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.07907e-02\tAbsError: 1.63747e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.61085e-04\tAbsError: 1.04121e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.41051e-03\tAbsError: 1.60476e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.47953e-06\tAbsError: 2.59757e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.41545e-04\tAbsError: 9.91625e+11\n", - " Region: \"zone_1\"\tRelError: 9.96172e-05\tAbsError: 1.41216e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.92156e-05\tAbsError: 1.43586e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.01542e-07\tAbsError: 1.39780e-04\n", - " Region: \"zone_3\"\tRelError: 5.41928e-04\tAbsError: 9.91625e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33841e-04\tAbsError: 2.52723e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.19501e-04\tAbsError: 7.38901e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88184e-04\tAbsError: 1.43630e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.01697e-07\tAbsError: 1.39836e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 8.05460e-05\tAbsError: 7.23632e+10\n", - " Region: \"zone_1\"\tRelError: 1.78531e-05\tAbsError: 3.23123e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.78440e-05\tAbsError: 6.29009e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.10118e-09\tAbsError: 3.16833e-06\n", - " Region: \"zone_3\"\tRelError: 6.26929e-05\tAbsError: 7.23632e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.44791e-06\tAbsError: 2.95386e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.39399e-06\tAbsError: 4.28245e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.98419e-05\tAbsError: 6.30346e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.10613e-09\tAbsError: 3.17013e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:11\u001b[0m.\u001b[1;36m522\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:11\u001b[0m.\u001b[1;36m522\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.31666666666666665\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 8\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 1.50343e+00\tAbsError: 1.53730e+13\n", - " Region: \"zone_1\"\tRelError: 4.33572e-02\tAbsError: 3.51156e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.33370e-02\tAbsError: 2.81028e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.01921e-05\tAbsError: 7.01280e-03\n", - " Region: \"zone_3\"\tRelError: 1.46007e+00\tAbsError: 1.53730e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.95686e-01\tAbsError: 8.29728e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.20790e-01\tAbsError: 7.07575e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.35762e-02\tAbsError: 2.81030e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.01921e-05\tAbsError: 7.01280e-03\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.36741e+00\tAbsError: 1.62270e+13\n", - " Region: \"zone_1\"\tRelError: 3.93555e-02\tAbsError: 3.93757e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.93166e-02\tAbsError: 2.58717e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.88832e-05\tAbsError: 1.35040e-02\n", - " Region: \"zone_3\"\tRelError: 1.32805e+00\tAbsError: 1.62270e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.63434e-01\tAbsError: 4.27379e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.25261e-01\tAbsError: 1.19532e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.93166e-02\tAbsError: 2.57584e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.88832e-05\tAbsError: 1.35040e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.00690e-03\tAbsError: 1.28237e+12\n", - " Region: \"zone_1\"\tRelError: 1.69753e-04\tAbsError: 1.20834e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.69412e-04\tAbsError: 1.83530e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.41841e-07\tAbsError: 1.18999e-04\n", - " Region: \"zone_3\"\tRelError: 8.37147e-04\tAbsError: 1.28237e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.59291e-04\tAbsError: 3.50666e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.59888e-04\tAbsError: 9.31705e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.17626e-04\tAbsError: 1.83551e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.41999e-07\tAbsError: 1.19057e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.93092e-04\tAbsError: 1.20954e+11\n", - " Region: \"zone_1\"\tRelError: 5.19797e-05\tAbsError: 5.49654e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.18217e-05\tAbsError: 7.13657e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.58052e-07\tAbsError: 5.48940e-05\n", - " Region: \"zone_3\"\tRelError: 1.41112e-04\tAbsError: 1.20954e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98268e-06\tAbsError: 8.30723e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.89183e-06\tAbsError: 3.78820e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21079e-04\tAbsError: 7.51102e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.58052e-07\tAbsError: 5.48940e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.41610e+04\tAbsError: 7.17639e+12\n", - " Region: \"zone_1\"\tRelError: 2.96810e-02\tAbsError: 3.09975e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.96569e-02\tAbsError: 2.26509e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.40320e-05\tAbsError: 8.34661e-03\n", - " Region: \"zone_3\"\tRelError: 2.41610e+04\tAbsError: 7.17639e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.41609e+04\tAbsError: 2.45259e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.27385e-02\tAbsError: 4.72381e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.01714e-02\tAbsError: 2.26511e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.40320e-05\tAbsError: 8.34661e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.51593e+01\tAbsError: 8.96838e+15\n", - " Region: \"zone_1\"\tRelError: 1.34866e+01\tAbsError: 4.26184e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.34866e+01\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19321e-08\tAbsError: 4.14799e-06\n", - " Region: \"zone_3\"\tRelError: 1.67273e+00\tAbsError: 8.96838e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83521e-01\tAbsError: 5.18188e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.83502e-01\tAbsError: 3.78650e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.05705e-01\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19332e-08\tAbsError: 4.14842e-06\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.12376e-01\tAbsError: 1.32407e+13\n", - " Region: \"zone_1\"\tRelError: 1.86149e-02\tAbsError: 3.04927e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.85695e-02\tAbsError: 1.47195e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.54157e-05\tAbsError: 1.57733e-02\n", - " Region: \"zone_3\"\tRelError: 2.93761e-01\tAbsError: 1.32407e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.66530e-01\tAbsError: 2.89957e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.33838e-03\tAbsError: 1.03411e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88480e-02\tAbsError: 1.47197e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.54157e-05\tAbsError: 1.57733e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.38268e-04\tAbsError: 9.80909e+10\n", - " Region: \"zone_1\"\tRelError: 3.31894e-05\tAbsError: 7.64321e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.29695e-05\tAbsError: 5.65440e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19904e-07\tAbsError: 7.63755e-05\n", - " Region: \"zone_3\"\tRelError: 1.05079e-04\tAbsError: 9.80909e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.48584e-06\tAbsError: 7.16917e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.41212e-06\tAbsError: 2.63992e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 8.99609e-05\tAbsError: 5.94850e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19998e-07\tAbsError: 7.64063e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.80740e-05\tAbsError: 4.88620e+10\n", - " Region: \"zone_1\"\tRelError: 1.14716e-05\tAbsError: 6.01747e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14544e-05\tAbsError: 4.42564e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71588e-08\tAbsError: 5.97321e-06\n", - " Region: \"zone_3\"\tRelError: 3.66024e-05\tAbsError: 4.88620e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.37844e-06\tAbsError: 1.78074e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.34110e-06\tAbsError: 3.10546e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78657e-05\tAbsError: 4.43686e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71664e-08\tAbsError: 5.97601e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:13\u001b[0m.\u001b[1;36m942\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:13\u001b[0m.\u001b[1;36m942\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.00256e+00\tAbsError: 6.29281e+12\n", - " Region: \"zone_1\"\tRelError: 7.36212e-04\tAbsError: 1.59319e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.90387e-04\tAbsError: 1.56092e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.58248e-05\tAbsError: 1.59163e-02\n", - " Region: \"zone_3\"\tRelError: 1.00182e+00\tAbsError: 6.29281e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99900e-01\tAbsError: 1.62050e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.58212e-03\tAbsError: 4.67230e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.95706e-04\tAbsError: 1.65113e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.58248e-05\tAbsError: 1.59163e-02\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 2.00504e-02\tAbsError: 1.36312e+13\n", - " Region: \"zone_1\"\tRelError: 1.67906e-03\tAbsError: 2.32575e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.61222e-03\tAbsError: 4.44749e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.68327e-05\tAbsError: 2.32131e-02\n", - " Region: \"zone_3\"\tRelError: 1.83714e-02\tAbsError: 1.36312e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46967e-02\tAbsError: 3.48400e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.86261e-03\tAbsError: 1.01472e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.45246e-04\tAbsError: 4.46143e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.68327e-05\tAbsError: 2.32131e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.61981e+00\tAbsError: 3.38008e+14\n", - " Region: \"zone_1\"\tRelError: 1.16883e-01\tAbsError: 9.15205e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16713e-01\tAbsError: 3.27224e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69163e-04\tAbsError: 5.87981e-02\n", - " Region: \"zone_3\"\tRelError: 1.50293e+00\tAbsError: 3.38008e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.63193e-01\tAbsError: 2.12677e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.58118e-01\tAbsError: 1.25331e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.14513e-02\tAbsError: 3.27228e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69163e-04\tAbsError: 5.87981e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 7.86748e-05\tAbsError: 7.06440e+10\n", - " Region: \"zone_1\"\tRelError: 1.77064e-05\tAbsError: 3.31365e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.76970e-05\tAbsError: 6.14599e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.34205e-09\tAbsError: 3.25219e-06\n", - " Region: \"zone_3\"\tRelError: 6.09684e-05\tAbsError: 7.06440e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.30255e-06\tAbsError: 2.87455e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.24987e-06\tAbsError: 4.18985e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.84067e-05\tAbsError: 6.15954e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.34693e-09\tAbsError: 3.25397e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:15\u001b[0m.\u001b[1;36m252\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:15\u001b[0m.\u001b[1;36m252\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.3142857142857143\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 9.12538e-03\tAbsError: 8.29355e+12\n", - " Region: \"zone_1\"\tRelError: 2.08099e-03\tAbsError: 2.64686e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.08026e-03\tAbsError: 1.04771e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.31107e-07\tAbsError: 2.54209e-04\n", - " Region: \"zone_3\"\tRelError: 7.04439e-03\tAbsError: 8.29355e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.92988e-04\tAbsError: 2.67109e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10434e-03\tAbsError: 5.62246e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.94633e-03\tAbsError: 1.05727e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.31107e-07\tAbsError: 2.54209e-04\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.29649e+01\tAbsError: 8.28032e+15\n", - " Region: \"zone_1\"\tRelError: 1.13261e+01\tAbsError: 4.09567e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13261e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.18696e-09\tAbsError: 2.49605e-06\n", - " Region: \"zone_3\"\tRelError: 1.63880e+00\tAbsError: 8.28032e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69633e-01\tAbsError: 4.77284e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.50748e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.95556e-02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.18788e-09\tAbsError: 2.49640e-06\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.34158e-02\tAbsError: 1.19582e+13\n", - " Region: \"zone_1\"\tRelError: 3.01432e-03\tAbsError: 2.59188e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.01362e-03\tAbsError: 1.51937e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.01730e-07\tAbsError: 2.43995e-04\n", - " Region: \"zone_3\"\tRelError: 1.04015e-02\tAbsError: 1.19582e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.61556e-03\tAbsError: 3.90956e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.61419e-03\tAbsError: 8.04867e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.17105e-03\tAbsError: 1.53319e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.01730e-07\tAbsError: 2.43995e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.06676e+00\tAbsError: 5.12834e+13\n", - " Region: \"zone_1\"\tRelError: 6.50919e-02\tAbsError: 3.26334e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.50725e-02\tAbsError: 2.58998e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93722e-05\tAbsError: 6.73357e-03\n", - " Region: \"zone_3\"\tRelError: 1.00167e+00\tAbsError: 5.12834e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.79460e-01\tAbsError: 3.67676e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.56350e-01\tAbsError: 1.45158e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.58436e-02\tAbsError: 2.58998e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93722e-05\tAbsError: 6.73357e-03\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 7.21813e-04\tAbsError: 2.25467e+11\n", - " Region: \"zone_1\"\tRelError: 2.08779e-04\tAbsError: 5.42838e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.07217e-04\tAbsError: 2.20109e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.56221e-06\tAbsError: 5.42618e-04\n", - " Region: \"zone_3\"\tRelError: 5.13033e-04\tAbsError: 2.25467e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.86463e-05\tAbsError: 1.06489e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.23441e-05\tAbsError: 1.18978e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.40481e-04\tAbsError: 2.22554e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.56221e-06\tAbsError: 5.42618e-04\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 9.02425e-04\tAbsError: 1.99437e+11\n", - " Region: \"zone_1\"\tRelError: 2.58845e-04\tAbsError: 7.78826e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.56603e-04\tAbsError: 2.13625e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.24165e-06\tAbsError: 7.78612e-04\n", - " Region: \"zone_3\"\tRelError: 6.43580e-04\tAbsError: 1.99437e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.56078e-05\tAbsError: 9.74981e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.71798e-05\tAbsError: 1.01939e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.38550e-04\tAbsError: 2.16344e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.24165e-06\tAbsError: 7.78612e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.07146e+01\tAbsError: 8.87010e+15\n", - " Region: \"zone_1\"\tRelError: 1.90470e+01\tAbsError: 4.23875e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.90470e+01\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.16096e-08\tAbsError: 4.03587e-06\n", - " Region: \"zone_3\"\tRelError: 1.66756e+00\tAbsError: 8.87010e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.81640e-01\tAbsError: 5.12336e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.81621e-01\tAbsError: 3.74674e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04297e-01\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.16105e-08\tAbsError: 4.03627e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.56865e+00\tAbsError: 2.86625e+14\n", - " Region: \"zone_1\"\tRelError: 1.21045e-01\tAbsError: 8.55195e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20888e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", - " Region: \"zone_3\"\tRelError: 1.44761e+00\tAbsError: 2.86625e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38556e-01\tAbsError: 1.75436e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32332e-01\tAbsError: 1.11189e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.65613e-02\tAbsError: 3.07640e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.56380e-01\tAbsError: 9.04740e+12\n", - " Region: \"zone_1\"\tRelError: 2.49262e-02\tAbsError: 1.46131e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49178e-02\tAbsError: 1.17194e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.32536e-06\tAbsError: 2.89371e-03\n", - " Region: \"zone_3\"\tRelError: 3.31454e-01\tAbsError: 9.04740e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.35521e-01\tAbsError: 4.40011e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.07755e-02\tAbsError: 4.64729e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.51491e-02\tAbsError: 1.17194e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.32897e-06\tAbsError: 2.89505e-03\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 7.51484e-04\tAbsError: 5.30342e+11\n", - " Region: \"zone_1\"\tRelError: 1.98140e-04\tAbsError: 4.91935e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.98000e-04\tAbsError: 4.10646e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.40303e-07\tAbsError: 4.87829e-05\n", - " Region: \"zone_3\"\tRelError: 5.53344e-04\tAbsError: 5.30342e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.26355e-05\tAbsError: 2.47265e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.22787e-05\tAbsError: 2.83078e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.48289e-04\tAbsError: 4.14967e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.40344e-07\tAbsError: 4.87992e-05\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 1.07606e-03\tAbsError: 7.60704e+11\n", - " Region: \"zone_1\"\tRelError: 2.83483e-04\tAbsError: 6.31258e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.83303e-04\tAbsError: 5.87620e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.79864e-07\tAbsError: 6.25382e-05\n", - " Region: \"zone_3\"\tRelError: 7.92573e-04\tAbsError: 7.60704e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.55839e-05\tAbsError: 3.56391e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.50650e-05\tAbsError: 4.04313e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 6.41744e-04\tAbsError: 5.93824e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.79923e-07\tAbsError: 6.25610e-05\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.65224e+00\tAbsError: 3.30458e+14\n", - " Region: \"zone_1\"\tRelError: 1.57009e-01\tAbsError: 9.06724e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.56841e-01\tAbsError: 3.24496e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67507e-04\tAbsError: 5.82228e-02\n", - " Region: \"zone_3\"\tRelError: 1.49523e+00\tAbsError: 3.30458e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.59966e-01\tAbsError: 2.07139e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.54489e-01\tAbsError: 1.23319e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.06062e-02\tAbsError: 3.24500e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67507e-04\tAbsError: 5.82228e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 9.63437e-01\tAbsError: 3.66677e+13\n", - " Region: \"zone_1\"\tRelError: 5.93231e-02\tAbsError: 3.16919e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.93064e-02\tAbsError: 2.58707e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", - " Region: \"zone_3\"\tRelError: 9.04114e-01\tAbsError: 3.66677e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40101e-01\tAbsError: 2.63702e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.04471e-01\tAbsError: 1.02975e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95256e-02\tAbsError: 2.58992e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 9.94176e-05\tAbsError: 4.63529e+10\n", - " Region: \"zone_1\"\tRelError: 2.82717e-05\tAbsError: 3.58236e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.81688e-05\tAbsError: 3.47638e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.02932e-07\tAbsError: 3.57889e-05\n", - " Region: \"zone_3\"\tRelError: 7.11459e-05\tAbsError: 4.63529e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.74636e-06\tAbsError: 2.47913e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.72724e-06\tAbsError: 2.15617e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 6.15693e-05\tAbsError: 3.51735e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.02964e-07\tAbsError: 3.58017e-05\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.71858e-02\tAbsError: 2.48975e+12\n", - " Region: \"zone_1\"\tRelError: 4.95435e-04\tAbsError: 1.88796e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 4.90019e-04\tAbsError: 7.50834e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.41520e-06\tAbsError: 1.88045e-03\n", - " Region: \"zone_3\"\tRelError: 7.66904e-02\tAbsError: 2.48975e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.37927e-02\tAbsError: 1.70657e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.15461e-04\tAbsError: 7.83185e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.37684e-03\tAbsError: 8.21515e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.41520e-06\tAbsError: 1.88045e-03\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:18\u001b[0m.\u001b[1;36m902\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.20625\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 1.31491e-04\tAbsError: 5.90327e+10\n", - " Region: \"zone_1\"\tRelError: 3.75774e-05\tAbsError: 5.09852e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.74309e-05\tAbsError: 4.46319e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.46509e-07\tAbsError: 5.09406e-05\n", - " Region: \"zone_3\"\tRelError: 9.39133e-05\tAbsError: 5.90327e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.09582e-06\tAbsError: 3.17063e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.07438e-06\tAbsError: 2.73264e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 8.15965e-05\tAbsError: 4.51622e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.46557e-07\tAbsError: 5.09593e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.05263e+00\tAbsError: 4.89278e+13\n", - " Region: \"zone_1\"\tRelError: 6.39420e-02\tAbsError: 3.23900e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.39231e-02\tAbsError: 2.57993e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.89612e-05\tAbsError: 6.59072e-03\n", - " Region: \"zone_3\"\tRelError: 9.88693e-01\tAbsError: 4.89278e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.74016e-01\tAbsError: 3.50971e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.49565e-01\tAbsError: 1.38306e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.50930e-02\tAbsError: 2.58802e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.89612e-05\tAbsError: 6.59072e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.93334e-01\tAbsError: 6.56738e+12\n", - " Region: \"zone_1\"\tRelError: 1.86981e-02\tAbsError: 1.19586e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86900e-02\tAbsError: 9.16562e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03535e-06\tAbsError: 2.79297e-03\n", - " Region: \"zone_3\"\tRelError: 2.74636e-01\tAbsError: 6.56738e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11907e-01\tAbsError: 3.29549e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.38500e-02\tAbsError: 3.27189e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88710e-02\tAbsError: 9.16566e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03753e-06\tAbsError: 2.79381e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.10907e-04\tAbsError: 9.14094e+11\n", - " Region: \"zone_1\"\tRelError: 7.15278e-05\tAbsError: 1.30119e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.11580e-05\tAbsError: 1.37277e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.69875e-07\tAbsError: 1.28746e-04\n", - " Region: \"zone_3\"\tRelError: 4.39379e-04\tAbsError: 9.14094e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03940e-04\tAbsError: 2.24049e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.64320e-05\tAbsError: 6.90046e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.38638e-04\tAbsError: 1.37888e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.70033e-07\tAbsError: 1.28803e-04\n", - "Iteration: 16\n", - " Device: \"device\"\tRelError: 8.12362e-05\tAbsError: 4.99851e+10\n", - " Region: \"zone_1\"\tRelError: 2.21078e-05\tAbsError: 7.18095e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20873e-05\tAbsError: 3.43586e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.05530e-08\tAbsError: 7.14659e-06\n", - " Region: \"zone_3\"\tRelError: 5.91283e-05\tAbsError: 4.99851e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.81529e-06\tAbsError: 2.69257e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.77928e-06\tAbsError: 2.30594e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.95132e-05\tAbsError: 3.47436e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.05582e-08\tAbsError: 7.14842e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:20\u001b[0m.\u001b[1;36m634\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.2\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Iteration: 0\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 3.61409e+00\tAbsError: 8.87025e+15\n", - " Region: \"zone_1\"\tRelError: 1.96227e+00\tAbsError: 4.22144e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.96227e+00\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.53160e-08\tAbsError: 5.32561e-06\n", - " Region: \"zone_3\"\tRelError: 1.65183e+00\tAbsError: 8.87025e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80120e-01\tAbsError: 4.96206e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.80050e-01\tAbsError: 3.90819e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.16591e-02\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.53200e-08\tAbsError: 5.32700e-06\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.43950e-01\tAbsError: 8.64627e+12\n", - " Region: \"zone_1\"\tRelError: 2.39638e-02\tAbsError: 1.42586e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.39554e-02\tAbsError: 1.13362e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.40795e-06\tAbsError: 2.92243e-03\n", - " Region: \"zone_3\"\tRelError: 3.19986e-01\tAbsError: 8.64627e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.29295e-01\tAbsError: 4.22448e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.65001e-02\tAbsError: 4.42180e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.41829e-02\tAbsError: 1.13362e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.41081e-06\tAbsError: 2.92350e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.00158e-02\tAbsError: 2.47729e+12\n", - " Region: \"zone_1\"\tRelError: 6.29744e-04\tAbsError: 1.66755e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.24968e-04\tAbsError: 8.94858e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", - " Region: \"zone_3\"\tRelError: 5.93860e-02\tAbsError: 2.47729e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.68115e-02\tAbsError: 1.70064e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.91678e-04\tAbsError: 7.76647e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.27809e-03\tAbsError: 9.43816e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.52706e-04\tAbsError: 1.10689e+11\n", - " Region: \"zone_1\"\tRelError: 2.31976e-05\tAbsError: 5.03793e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.30527e-05\tAbsError: 6.72451e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.44875e-07\tAbsError: 5.03120e-05\n", - " Region: \"zone_3\"\tRelError: 1.29508e-04\tAbsError: 1.10689e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80539e-06\tAbsError: 7.67002e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.73296e-06\tAbsError: 3.39885e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13825e-04\tAbsError: 7.02938e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.44875e-07\tAbsError: 5.03120e-05\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.54654e+00\tAbsError: 3.28495e+14\n", - " Region: \"zone_1\"\tRelError: 7.19115e-02\tAbsError: 9.50734e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.17307e-02\tAbsError: 3.22436e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.80731e-04\tAbsError: 6.28298e-02\n", - " Region: \"zone_3\"\tRelError: 1.47463e+00\tAbsError: 3.28495e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.57124e-01\tAbsError: 1.69631e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.51422e-01\tAbsError: 1.58864e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.59065e-02\tAbsError: 3.22440e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.80731e-04\tAbsError: 6.28298e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.71665e+00\tAbsError: 8.34849e+15\n", - " Region: \"zone_1\"\tRelError: 2.08783e+00\tAbsError: 4.09579e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.08783e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.04731e-08\tAbsError: 3.64165e-06\n", - " Region: \"zone_3\"\tRelError: 1.62882e+00\tAbsError: 8.34849e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69544e-01\tAbsError: 4.67018e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69471e-01\tAbsError: 3.67831e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.98079e-02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.04757e-08\tAbsError: 3.64256e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.43999e-02\tAbsError: 2.50743e+12\n", - " Region: \"zone_1\"\tRelError: 5.75118e-04\tAbsError: 1.79845e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.69963e-04\tAbsError: 8.13347e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.15562e-06\tAbsError: 1.79032e-03\n", - " Region: \"zone_3\"\tRelError: 7.38248e-02\tAbsError: 2.50743e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.09416e-02\tAbsError: 1.74296e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.77666e-04\tAbsError: 7.64461e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.40034e-03\tAbsError: 8.85193e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.15562e-06\tAbsError: 1.79032e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.31240e-04\tAbsError: 7.97937e+11\n", - " Region: \"zone_1\"\tRelError: 7.54533e-05\tAbsError: 1.27890e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.50894e-05\tAbsError: 1.20855e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.63943e-07\tAbsError: 1.26681e-04\n", - " Region: \"zone_3\"\tRelError: 3.55787e-04\tAbsError: 7.97937e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.38045e-05\tAbsError: 1.92064e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.48742e-05\tAbsError: 6.05872e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.76744e-04\tAbsError: 1.21338e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.64089e-07\tAbsError: 1.26735e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.67402e-05\tAbsError: 4.44671e+10\n", - " Region: \"zone_1\"\tRelError: 5.00968e-06\tAbsError: 5.56992e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.99380e-06\tAbsError: 4.22760e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.58803e-08\tAbsError: 5.52764e-06\n", - " Region: \"zone_3\"\tRelError: 3.17305e-05\tAbsError: 4.44671e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.48788e-06\tAbsError: 1.56747e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.45722e-06\tAbsError: 2.87924e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.47695e-05\tAbsError: 4.23466e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.58876e-08\tAbsError: 5.53032e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:23\u001b[0m.\u001b[1;36m243\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:23\u001b[0m.\u001b[1;36m243\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.42500000000000004\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.01137e+00\tAbsError: 4.02464e+13\n", - " Region: \"zone_1\"\tRelError: 5.08084e-02\tAbsError: 3.13392e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.07928e-02\tAbsError: 2.58948e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.56605e-05\tAbsError: 5.44435e-03\n", - " Region: \"zone_3\"\tRelError: 9.60566e-01\tAbsError: 4.02464e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.69512e-01\tAbsError: 2.94578e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.40217e-01\tAbsError: 1.07885e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.08220e-02\tAbsError: 2.58948e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.56605e-05\tAbsError: 5.44435e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.50135e+00\tAbsError: 2.91713e+14\n", - " Region: \"zone_1\"\tRelError: 6.56152e-02\tAbsError: 8.99315e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.54450e-02\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70196e-04\tAbsError: 5.91678e-02\n", - " Region: \"zone_3\"\tRelError: 1.43573e+00\tAbsError: 2.91713e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37692e-01\tAbsError: 1.49991e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32867e-01\tAbsError: 1.41722e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.50013e-02\tAbsError: 3.07641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70196e-04\tAbsError: 5.91678e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.87646e-04\tAbsError: 8.67749e+11\n", - " Region: \"zone_1\"\tRelError: 9.48770e-05\tAbsError: 1.33724e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.44966e-05\tAbsError: 1.30548e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.80432e-07\tAbsError: 1.32419e-04\n", - " Region: \"zone_3\"\tRelError: 3.92769e-04\tAbsError: 8.67749e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99341e-05\tAbsError: 2.09226e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.08980e-05\tAbsError: 6.58523e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.01556e-04\tAbsError: 1.31118e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.80586e-07\tAbsError: 1.32476e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.53826e-04\tAbsError: 1.09912e+11\n", - " Region: \"zone_1\"\tRelError: 2.29821e-05\tAbsError: 4.27473e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.28592e-05\tAbsError: 6.65170e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", - " Region: \"zone_3\"\tRelError: 1.30844e-04\tAbsError: 1.09912e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.01681e-06\tAbsError: 7.52234e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94349e-06\tAbsError: 3.46881e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14760e-04\tAbsError: 6.98367e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.23075e-01\tAbsError: 3.16705e+12\n", - " Region: \"zone_1\"\tRelError: 1.84960e-02\tAbsError: 1.42995e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.84867e-02\tAbsError: 1.10528e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.33912e-06\tAbsError: 3.24669e-03\n", - " Region: \"zone_3\"\tRelError: 3.04579e-01\tAbsError: 3.16705e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.25074e-01\tAbsError: 1.95756e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.07733e-02\tAbsError: 1.20949e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87230e-02\tAbsError: 1.10529e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.34182e-06\tAbsError: 3.24769e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.40360e+00\tAbsError: 8.93831e+15\n", - " Region: \"zone_1\"\tRelError: 3.72095e+00\tAbsError: 4.26165e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.72095e+00\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.53609e-09\tAbsError: 2.26975e-06\n", - " Region: \"zone_3\"\tRelError: 1.68266e+00\tAbsError: 8.93831e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83544e-01\tAbsError: 5.27519e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.83519e-01\tAbsError: 3.66312e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15595e-01\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.53754e-09\tAbsError: 2.27028e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 9.34092e-01\tAbsError: 3.63177e+13\n", - " Region: \"zone_1\"\tRelError: 4.74090e-02\tAbsError: 3.08419e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.73947e-02\tAbsError: 2.58899e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42440e-05\tAbsError: 4.95195e-03\n", - " Region: \"zone_3\"\tRelError: 8.86683e-01\tAbsError: 3.63177e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40041e-01\tAbsError: 2.66179e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.98905e-01\tAbsError: 9.69979e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.77237e-02\tAbsError: 2.58388e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42440e-05\tAbsError: 4.95195e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.59899e-04\tAbsError: 1.14890e+11\n", - " Region: \"zone_1\"\tRelError: 2.42180e-05\tAbsError: 4.68879e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.40832e-05\tAbsError: 6.97131e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.34814e-07\tAbsError: 4.68182e-05\n", - " Region: \"zone_3\"\tRelError: 1.35681e-04\tAbsError: 1.14890e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.20069e-06\tAbsError: 7.87113e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.12587e-06\tAbsError: 3.61787e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19220e-04\tAbsError: 7.29649e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.34814e-07\tAbsError: 4.68182e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.84860e-05\tAbsError: 3.70987e+10\n", - " Region: \"zone_1\"\tRelError: 3.74711e-06\tAbsError: 5.87951e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.73032e-06\tAbsError: 3.58594e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67880e-08\tAbsError: 5.84365e-06\n", - " Region: \"zone_3\"\tRelError: 2.47389e-05\tAbsError: 3.70987e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.96764e-06\tAbsError: 1.24118e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.94133e-06\tAbsError: 2.46869e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88131e-05\tAbsError: 3.59119e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67950e-08\tAbsError: 5.84625e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:25\u001b[0m.\u001b[1;36m679\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.4\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.22904e-02\tAbsError: 2.68712e+12\n", - " Region: \"zone_1\"\tRelError: 9.38094e-04\tAbsError: 2.50767e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 9.30878e-04\tAbsError: 1.54437e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.21623e-06\tAbsError: 2.50613e-03\n", - " Region: \"zone_3\"\tRelError: 7.13523e-02\tAbsError: 2.68712e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.87484e-02\tAbsError: 1.64198e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.60494e-04\tAbsError: 1.04514e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.43618e-03\tAbsError: 1.62292e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.21623e-06\tAbsError: 2.50613e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.63245e+00\tAbsError: 4.50331e+14\n", - " Region: \"zone_1\"\tRelError: 1.12831e-01\tAbsError: 8.29307e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12687e-01\tAbsError: 3.27223e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.44470e-04\tAbsError: 5.02084e-02\n", - " Region: \"zone_3\"\tRelError: 1.51962e+00\tAbsError: 4.50331e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.64568e-01\tAbsError: 3.01705e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.56309e-01\tAbsError: 1.48626e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.85960e-02\tAbsError: 3.27226e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.44470e-04\tAbsError: 5.02084e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.84661e-01\tAbsError: 3.60692e+12\n", - " Region: \"zone_1\"\tRelError: 1.51217e-02\tAbsError: 1.24488e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51123e-02\tAbsError: 9.16566e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.44377e-06\tAbsError: 3.28310e-03\n", - " Region: \"zone_3\"\tRelError: 2.69539e-01\tAbsError: 3.60692e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12296e-01\tAbsError: 2.19871e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.19182e-02\tAbsError: 1.40821e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.53153e-02\tAbsError: 9.16570e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.44377e-06\tAbsError: 3.28310e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.21525e-05\tAbsError: 4.09265e+10\n", - " Region: \"zone_1\"\tRelError: 4.32183e-06\tAbsError: 6.02671e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.30463e-06\tAbsError: 3.93885e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72009e-08\tAbsError: 5.98732e-06\n", - " Region: \"zone_3\"\tRelError: 2.78307e-05\tAbsError: 4.09265e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.21775e-06\tAbsError: 1.39104e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.18932e-06\tAbsError: 2.70161e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.14064e-05\tAbsError: 3.94543e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72083e-08\tAbsError: 5.99004e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:26\u001b[0m.\u001b[1;36m874\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:26\u001b[0m.\u001b[1;36m874\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.4214285714285714\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.87618e+01\tAbsError: 8.25603e+15\n", - " Region: \"zone_1\"\tRelError: 2.71120e+01\tAbsError: 4.09561e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.71120e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.29384e-09\tAbsError: 1.83846e-06\n", - " Region: \"zone_3\"\tRelError: 1.64979e+00\tAbsError: 8.25603e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69658e-01\tAbsError: 4.86497e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69634e-01\tAbsError: 3.39106e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10500e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.29480e-09\tAbsError: 1.83875e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 9.39950e-04\tAbsError: 1.23354e+12\n", - " Region: \"zone_1\"\tRelError: 1.57429e-04\tAbsError: 1.24528e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.57077e-04\tAbsError: 1.76859e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.52644e-07\tAbsError: 1.22759e-04\n", - " Region: \"zone_3\"\tRelError: 7.82521e-04\tAbsError: 1.23354e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52512e-04\tAbsError: 3.33639e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.52950e-04\tAbsError: 8.99898e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.76706e-04\tAbsError: 1.76879e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.52798e-07\tAbsError: 1.22816e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.11920e+00\tAbsError: 1.70835e+14\n", - " Region: \"zone_1\"\tRelError: 8.61460e-02\tAbsError: 3.38462e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.61230e-02\tAbsError: 2.58705e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.29490e-05\tAbsError: 7.97577e-03\n", - " Region: \"zone_3\"\tRelError: 1.03306e+00\tAbsError: 1.70835e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.80607e-01\tAbsError: 1.02403e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.65100e-01\tAbsError: 6.84321e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.73272e-02\tAbsError: 2.58550e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.29490e-05\tAbsError: 7.97577e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.15194e-02\tAbsError: 3.32536e+12\n", - " Region: \"zone_1\"\tRelError: 1.39864e-03\tAbsError: 2.06494e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39274e-03\tAbsError: 1.45908e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.90382e-06\tAbsError: 2.05035e-03\n", - " Region: \"zone_3\"\tRelError: 6.01208e-02\tAbsError: 3.32536e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.70408e-02\tAbsError: 2.05875e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.81903e-04\tAbsError: 1.26661e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49215e-03\tAbsError: 1.52370e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.90382e-06\tAbsError: 2.05035e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.87963e+00\tAbsError: 8.84093e+15\n", - " Region: \"zone_1\"\tRelError: 4.20217e+00\tAbsError: 4.23855e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.20217e+00\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.89716e-09\tAbsError: 2.04796e-06\n", - " Region: \"zone_3\"\tRelError: 1.67746e+00\tAbsError: 8.84093e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.81663e-01\tAbsError: 5.21686e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.81639e-01\tAbsError: 3.62407e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14160e-01\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.89891e-09\tAbsError: 2.04851e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.69855e+00\tAbsError: 3.40458e+14\n", - " Region: \"zone_1\"\tRelError: 2.34470e-01\tAbsError: 7.85796e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.34332e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", - " Region: \"zone_3\"\tRelError: 1.46408e+00\tAbsError: 3.40458e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39247e-01\tAbsError: 2.37038e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.31799e-01\tAbsError: 1.03420e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.29010e-02\tAbsError: 3.07639e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.47453e-04\tAbsError: 1.02312e+11\n", - " Region: \"zone_1\"\tRelError: 3.59361e-05\tAbsError: 7.27621e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.57268e-05\tAbsError: 5.90810e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.09330e-07\tAbsError: 7.27030e-05\n", - " Region: \"zone_3\"\tRelError: 1.11516e-04\tAbsError: 1.02312e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.91266e-06\tAbsError: 7.37581e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.83718e-06\tAbsError: 2.85535e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 9.55573e-05\tAbsError: 6.21546e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.09397e-07\tAbsError: 7.27246e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.93271e-01\tAbsError: 6.53839e+13\n", - " Region: \"zone_1\"\tRelError: 3.24859e-02\tAbsError: 1.44118e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.24781e-02\tAbsError: 1.17193e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.75605e-06\tAbsError: 2.69257e-03\n", - " Region: \"zone_3\"\tRelError: 3.60785e-01\tAbsError: 6.53839e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.33638e-01\tAbsError: 2.83523e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.43002e-02\tAbsError: 3.70316e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.28392e-02\tAbsError: 1.17193e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.76255e-06\tAbsError: 2.69487e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.41555e-04\tAbsError: 9.91702e+11\n", - " Region: \"zone_1\"\tRelError: 9.96160e-05\tAbsError: 1.41223e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.92144e-05\tAbsError: 1.43594e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.01564e-07\tAbsError: 1.39787e-04\n", - " Region: \"zone_3\"\tRelError: 5.41939e-04\tAbsError: 9.91702e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33847e-04\tAbsError: 2.52734e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.19506e-04\tAbsError: 7.38968e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88185e-04\tAbsError: 1.43639e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.01719e-07\tAbsError: 1.39844e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.62508e+00\tAbsError: 4.33655e+14\n", - " Region: \"zone_1\"\tRelError: 1.12712e-01\tAbsError: 8.23385e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12568e-01\tAbsError: 3.24496e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43550e-04\tAbsError: 4.98890e-02\n", - " Region: \"zone_3\"\tRelError: 1.51236e+00\tAbsError: 4.33655e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.61271e-01\tAbsError: 2.92644e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.52818e-01\tAbsError: 1.41011e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.81319e-02\tAbsError: 3.24499e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43550e-04\tAbsError: 4.98890e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.10009e+00\tAbsError: 9.49766e+13\n", - " Region: \"zone_1\"\tRelError: 1.69910e-01\tAbsError: 3.26443e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.69891e-01\tAbsError: 2.58991e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", - " Region: \"zone_3\"\tRelError: 9.30185e-01\tAbsError: 9.49766e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40985e-01\tAbsError: 5.67002e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.12174e-01\tAbsError: 3.82763e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.70066e-02\tAbsError: 2.58994e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 7.33267e-05\tAbsError: 6.68891e+10\n", - " Region: \"zone_1\"\tRelError: 1.66207e-05\tAbsError: 3.79072e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66100e-05\tAbsError: 5.85273e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.07209e-08\tAbsError: 3.73220e-06\n", - " Region: \"zone_3\"\tRelError: 5.67059e-05\tAbsError: 6.68891e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.97072e-06\tAbsError: 2.68259e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.92076e-06\tAbsError: 4.00632e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.48037e-05\tAbsError: 5.86589e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.07263e-08\tAbsError: 3.73415e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.06829e-02\tAbsError: 1.23607e+13\n", - " Region: \"zone_1\"\tRelError: 2.59544e-03\tAbsError: 2.08969e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.58964e-03\tAbsError: 7.73904e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.79536e-06\tAbsError: 2.01230e-03\n", - " Region: \"zone_3\"\tRelError: 7.80875e-02\tAbsError: 1.23607e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.13217e-02\tAbsError: 6.44704e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.62937e-03\tAbsError: 5.91371e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.13063e-03\tAbsError: 8.57603e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.79536e-06\tAbsError: 2.01230e-03\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:30\u001b[0m.\u001b[1;36m695\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.3125\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Iteration: 6\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 1.93102e-04\tAbsError: 1.20961e+11\n", - " Region: \"zone_1\"\tRelError: 5.19826e-05\tAbsError: 5.49689e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.18246e-05\tAbsError: 7.13695e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.58063e-07\tAbsError: 5.48975e-05\n", - " Region: \"zone_3\"\tRelError: 1.41120e-04\tAbsError: 1.20961e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98321e-06\tAbsError: 8.30767e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.89236e-06\tAbsError: 3.78842e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21086e-04\tAbsError: 7.51141e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.58063e-07\tAbsError: 5.48975e-05\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.10442e+00\tAbsError: 1.57445e+14\n", - " Region: \"zone_1\"\tRelError: 8.48445e-02\tAbsError: 3.35487e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.48221e-02\tAbsError: 2.57873e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.23322e-05\tAbsError: 7.76143e-03\n", - " Region: \"zone_3\"\tRelError: 1.01957e+00\tAbsError: 1.57445e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.75187e-01\tAbsError: 9.44436e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.58188e-01\tAbsError: 6.30009e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.61734e-02\tAbsError: 2.58679e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.23322e-05\tAbsError: 7.76143e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.56252e-01\tAbsError: 3.42527e+13\n", - " Region: \"zone_1\"\tRelError: 6.41646e-02\tAbsError: 1.11813e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.41588e-02\tAbsError: 9.16555e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.79958e-06\tAbsError: 2.01571e-03\n", - " Region: \"zone_3\"\tRelError: 2.92088e-01\tAbsError: 3.42527e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07223e-01\tAbsError: 1.60452e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.07953e-02\tAbsError: 1.82076e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.40630e-02\tAbsError: 9.16559e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.80279e-06\tAbsError: 2.01683e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.14255e-04\tAbsError: 9.40247e+11\n", - " Region: \"zone_1\"\tRelError: 6.54694e-05\tAbsError: 1.40506e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.50689e-05\tAbsError: 1.28698e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.00564e-07\tAbsError: 1.39219e-04\n", - " Region: \"zone_3\"\tRelError: 5.48785e-04\tAbsError: 9.40247e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.68628e-04\tAbsError: 2.33690e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.89618e-05\tAbsError: 7.06557e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.90795e-04\tAbsError: 1.29752e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.00564e-07\tAbsError: 1.39219e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.80758e-05\tAbsError: 4.88651e+10\n", - " Region: \"zone_1\"\tRelError: 1.14719e-05\tAbsError: 6.01780e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14548e-05\tAbsError: 4.42595e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71598e-08\tAbsError: 5.97354e-06\n", - " Region: \"zone_3\"\tRelError: 3.66039e-05\tAbsError: 4.88651e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.37869e-06\tAbsError: 1.78080e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.34136e-06\tAbsError: 3.10571e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78667e-05\tAbsError: 4.43717e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71674e-08\tAbsError: 5.97634e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:32\u001b[0m.\u001b[1;36m303\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:32\u001b[0m.\u001b[1;36m303\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.94848e+01\tAbsError: 8.79639e+15\n", - " Region: \"zone_1\"\tRelError: 2.78194e+01\tAbsError: 4.22128e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78194e+01\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08286e-08\tAbsError: 3.76437e-06\n", - " Region: \"zone_3\"\tRelError: 1.66544e+00\tAbsError: 8.79639e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80208e-01\tAbsError: 5.07949e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.80189e-01\tAbsError: 3.71690e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.05047e-01\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08292e-08\tAbsError: 3.76466e-06\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.79288e-01\tAbsError: 5.94006e+13\n", - " Region: \"zone_1\"\tRelError: 3.11470e-02\tAbsError: 1.39501e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.11395e-02\tAbsError: 1.13362e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.52960e-06\tAbsError: 2.61394e-03\n", - " Region: \"zone_3\"\tRelError: 3.48141e-01\tAbsError: 5.94006e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.27166e-01\tAbsError: 2.60599e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.94917e-02\tAbsError: 3.33408e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.14750e-02\tAbsError: 1.13362e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.53142e-06\tAbsError: 2.61458e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.59960e-02\tAbsError: 3.73217e+12\n", - " Region: \"zone_1\"\tRelError: 7.31305e-03\tAbsError: 2.21475e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.30674e-03\tAbsError: 2.57182e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", - " Region: \"zone_3\"\tRelError: 5.86829e-02\tAbsError: 3.73217e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.62142e-02\tAbsError: 2.07187e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.09163e-04\tAbsError: 1.66031e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65329e-03\tAbsError: 2.69578e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.54770e-04\tAbsError: 1.13894e+11\n", - " Region: \"zone_1\"\tRelError: 2.60304e-05\tAbsError: 5.37278e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.58759e-05\tAbsError: 7.56671e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54506e-07\tAbsError: 5.36521e-05\n", - " Region: \"zone_3\"\tRelError: 1.28740e-04\tAbsError: 1.13894e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.44140e-06\tAbsError: 7.78465e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.36038e-06\tAbsError: 3.60472e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13783e-04\tAbsError: 7.90339e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54508e-07\tAbsError: 5.36521e-05\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.70312e+00\tAbsError: 3.24971e+14\n", - " Region: \"zone_1\"\tRelError: 2.13361e-01\tAbsError: 9.00553e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.13195e-01\tAbsError: 3.22435e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.66324e-04\tAbsError: 5.78118e-02\n", - " Region: \"zone_3\"\tRelError: 1.48976e+00\tAbsError: 3.24971e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.57266e-01\tAbsError: 2.03165e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.52075e-01\tAbsError: 1.21806e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.02559e-02\tAbsError: 3.22440e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.66324e-04\tAbsError: 5.78118e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.29649e+01\tAbsError: 8.28032e+15\n", - " Region: \"zone_1\"\tRelError: 1.13261e+01\tAbsError: 4.09567e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13261e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.18741e-09\tAbsError: 2.49620e-06\n", - " Region: \"zone_3\"\tRelError: 1.63880e+00\tAbsError: 8.28032e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69633e-01\tAbsError: 4.77284e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.50748e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.95556e-02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.18833e-09\tAbsError: 2.49655e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.77930e-02\tAbsError: 1.08773e+13\n", - " Region: \"zone_1\"\tRelError: 2.79764e-03\tAbsError: 2.00488e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.79207e-03\tAbsError: 7.05910e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.57068e-06\tAbsError: 1.93429e-03\n", - " Region: \"zone_3\"\tRelError: 7.49953e-02\tAbsError: 1.08773e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.89446e-02\tAbsError: 5.71384e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.94604e-03\tAbsError: 5.16342e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.09913e-03\tAbsError: 7.75298e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.57068e-06\tAbsError: 1.93429e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 8.14034e-04\tAbsError: 1.03618e+12\n", - " Region: \"zone_1\"\tRelError: 1.43803e-04\tAbsError: 7.79056e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43584e-04\tAbsError: 1.54074e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19396e-07\tAbsError: 7.63649e-05\n", - " Region: \"zone_3\"\tRelError: 6.70231e-04\tAbsError: 1.03618e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.21829e-04\tAbsError: 2.70793e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.05108e-04\tAbsError: 7.65387e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.43074e-04\tAbsError: 1.54210e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19498e-07\tAbsError: 7.64015e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.16247e-05\tAbsError: 4.79653e+10\n", - " Region: \"zone_1\"\tRelError: 6.49903e-06\tAbsError: 5.59951e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.48306e-06\tAbsError: 4.11129e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59698e-08\tAbsError: 5.55840e-06\n", - " Region: \"zone_3\"\tRelError: 3.51257e-05\tAbsError: 4.79653e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.26178e-06\tAbsError: 1.79967e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.23354e-06\tAbsError: 2.99686e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.86144e-05\tAbsError: 4.14042e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59764e-08\tAbsError: 5.56082e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:35\u001b[0m.\u001b[1;36m044\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:35\u001b[0m.\u001b[1;36m044\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5333333333333333\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.04226e+00\tAbsError: 4.65248e+13\n", - " Region: \"zone_1\"\tRelError: 6.41149e-02\tAbsError: 3.23680e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.40962e-02\tAbsError: 2.58547e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.87385e-05\tAbsError: 6.51333e-03\n", - " Region: \"zone_3\"\tRelError: 9.78142e-01\tAbsError: 4.65248e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.70005e-01\tAbsError: 3.31907e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.43650e-01\tAbsError: 1.33341e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.44685e-02\tAbsError: 2.58526e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.87385e-05\tAbsError: 6.51333e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.56865e+00\tAbsError: 2.86625e+14\n", - " Region: \"zone_1\"\tRelError: 1.21045e-01\tAbsError: 8.55195e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20888e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", - " Region: \"zone_3\"\tRelError: 1.44761e+00\tAbsError: 2.86625e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38556e-01\tAbsError: 1.75436e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32332e-01\tAbsError: 1.11189e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.65613e-02\tAbsError: 3.07640e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.68614e-04\tAbsError: 9.03974e+11\n", - " Region: \"zone_1\"\tRelError: 6.02979e-05\tAbsError: 1.34982e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.99131e-05\tAbsError: 1.25892e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.84749e-07\tAbsError: 1.33723e-04\n", - " Region: \"zone_3\"\tRelError: 5.08317e-04\tAbsError: 9.03974e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.53674e-04\tAbsError: 2.22199e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.53101e-05\tAbsError: 6.81775e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.68948e-04\tAbsError: 1.27221e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.84749e-07\tAbsError: 1.33723e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.61312e-05\tAbsError: 5.74046e+10\n", - " Region: \"zone_1\"\tRelError: 1.61849e-05\tAbsError: 6.45313e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.59991e-05\tAbsError: 3.79845e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.85726e-07\tAbsError: 6.44934e-05\n", - " Region: \"zone_3\"\tRelError: 5.99464e-05\tAbsError: 5.74046e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.77906e-06\tAbsError: 4.68633e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.20461e-06\tAbsError: 1.05413e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.27769e-05\tAbsError: 3.95532e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.85828e-07\tAbsError: 6.45281e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:35\u001b[0m.\u001b[1;36m884\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.5\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.35039e-01\tAbsError: 8.34092e+12\n", - " Region: \"zone_1\"\tRelError: 2.32576e-02\tAbsError: 1.39026e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.32494e-02\tAbsError: 1.10528e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.19887e-06\tAbsError: 2.84976e-03\n", - " Region: \"zone_3\"\tRelError: 3.11781e-01\tAbsError: 8.34092e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.24826e-01\tAbsError: 4.08239e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.34727e-02\tAbsError: 4.25852e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.34740e-02\tAbsError: 1.10529e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.20247e-06\tAbsError: 2.85110e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.52881e+00\tAbsError: 8.92759e+15\n", - " Region: \"zone_1\"\tRelError: 5.80811e+00\tAbsError: 4.26167e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.80811e+00\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.06999e-09\tAbsError: 2.45528e-06\n", - " Region: \"zone_3\"\tRelError: 1.72070e+00\tAbsError: 8.92759e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83546e-01\tAbsError: 5.11626e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.83479e-01\tAbsError: 3.81133e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.53672e-01\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.07027e-09\tAbsError: 2.45528e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 9.63437e-01\tAbsError: 3.66677e+13\n", - " Region: \"zone_1\"\tRelError: 5.93231e-02\tAbsError: 3.16919e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.93064e-02\tAbsError: 2.58707e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", - " Region: \"zone_3\"\tRelError: 9.04114e-01\tAbsError: 3.66677e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40101e-01\tAbsError: 2.63702e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.04471e-01\tAbsError: 1.02975e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95256e-02\tAbsError: 2.58992e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.51065e-04\tAbsError: 1.10507e+11\n", - " Region: \"zone_1\"\tRelError: 2.53464e-05\tAbsError: 5.14009e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.51986e-05\tAbsError: 7.31456e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47812e-07\tAbsError: 5.13278e-05\n", - " Region: \"zone_3\"\tRelError: 1.25719e-04\tAbsError: 1.10507e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.19999e-06\tAbsError: 7.57136e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.12194e-06\tAbsError: 3.47937e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11249e-04\tAbsError: 7.63909e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47812e-07\tAbsError: 5.13278e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.60199e+01\tAbsError: 8.22903e+15\n", - " Region: \"zone_1\"\tRelError: 3.43433e+01\tAbsError: 4.09555e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.43433e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.48443e-09\tAbsError: 1.21289e-06\n", - " Region: \"zone_3\"\tRelError: 1.67662e+00\tAbsError: 8.22903e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.78919e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.43984e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37338e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.48691e-09\tAbsError: 1.21378e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.26265e-02\tAbsError: 2.44693e+12\n", - " Region: \"zone_1\"\tRelError: 7.79806e-04\tAbsError: 1.84272e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.74522e-04\tAbsError: 7.80818e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.28403e-06\tAbsError: 1.83491e-03\n", - " Region: \"zone_3\"\tRelError: 7.18467e-02\tAbsError: 2.44693e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.90853e-02\tAbsError: 1.70837e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.19951e-04\tAbsError: 7.38555e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.33617e-03\tAbsError: 8.48436e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.28403e-06\tAbsError: 1.83491e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.86275e+00\tAbsError: 1.87242e+15\n", - " Region: \"zone_1\"\tRelError: 3.28371e-01\tAbsError: 7.13797e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.28260e-01\tAbsError: 3.27222e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11244e-04\tAbsError: 3.86575e-02\n", - " Region: \"zone_3\"\tRelError: 1.53438e+00\tAbsError: 1.87242e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.65737e-01\tAbsError: 1.02772e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.45622e-01\tAbsError: 8.44695e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.22910e-01\tAbsError: 3.27223e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11244e-04\tAbsError: 3.86575e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.91536e-05\tAbsError: 4.57180e+10\n", - " Region: \"zone_1\"\tRelError: 6.07239e-06\tAbsError: 5.48720e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.05674e-06\tAbsError: 3.96083e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.56514e-08\tAbsError: 5.44759e-06\n", - " Region: \"zone_3\"\tRelError: 3.30812e-05\tAbsError: 4.57180e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.12546e-06\tAbsError: 1.69379e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.09842e-06\tAbsError: 2.87802e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.68416e-05\tAbsError: 3.98463e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.56579e-08\tAbsError: 5.44996e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.93334e-01\tAbsError: 6.56738e+12\n", - " Region: \"zone_1\"\tRelError: 1.86981e-02\tAbsError: 1.19586e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86900e-02\tAbsError: 9.16562e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03535e-06\tAbsError: 2.79297e-03\n", - " Region: \"zone_3\"\tRelError: 2.74636e-01\tAbsError: 6.56738e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11907e-01\tAbsError: 3.29549e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.38500e-02\tAbsError: 3.27189e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88710e-02\tAbsError: 9.16566e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03753e-06\tAbsError: 2.79381e-03\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:38\u001b[0m.\u001b[1;36m413\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:38\u001b[0m.\u001b[1;36m413\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5285714285714286\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.73485e+00\tAbsError: 1.08973e+15\n", - " Region: \"zone_1\"\tRelError: 2.25350e+00\tAbsError: 6.85700e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.25339e+00\tAbsError: 3.07635e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", - " Region: \"zone_3\"\tRelError: 1.48136e+00\tAbsError: 1.08973e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41054e-01\tAbsError: 6.25022e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.24005e-01\tAbsError: 4.64711e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16189e-01\tAbsError: 3.07637e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.64470e-04\tAbsError: 8.92718e+11\n", - " Region: \"zone_1\"\tRelError: 1.30265e-04\tAbsError: 1.28166e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29900e-04\tAbsError: 1.33995e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.64363e-07\tAbsError: 1.26826e-04\n", - " Region: \"zone_3\"\tRelError: 4.34205e-04\tAbsError: 8.92718e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.03626e-04\tAbsError: 2.20233e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.48863e-05\tAbsError: 6.72486e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.35329e-04\tAbsError: 1.34586e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.64517e-07\tAbsError: 1.26883e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.13601e+00\tAbsError: 1.24388e+15\n", - " Region: \"zone_1\"\tRelError: 1.09882e-01\tAbsError: 3.47156e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09856e-01\tAbsError: 2.56729e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.60523e-05\tAbsError: 9.04266e-03\n", - " Region: \"zone_3\"\tRelError: 1.02613e+00\tAbsError: 1.24388e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.82293e-01\tAbsError: 5.50846e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.31304e-01\tAbsError: 6.93036e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12504e-01\tAbsError: 2.57603e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.60534e-05\tAbsError: 9.04329e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.00158e-02\tAbsError: 2.47729e+12\n", - " Region: \"zone_1\"\tRelError: 6.29744e-04\tAbsError: 1.66755e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.24968e-04\tAbsError: 8.94858e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", - " Region: \"zone_3\"\tRelError: 5.93860e-02\tAbsError: 2.47729e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.68115e-02\tAbsError: 1.70064e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.91678e-04\tAbsError: 7.76647e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.27809e-03\tAbsError: 9.43816e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 9.33438e+00\tAbsError: 8.82623e+15\n", - " Region: \"zone_1\"\tRelError: 7.61981e+00\tAbsError: 4.23858e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.61981e+00\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.72531e-09\tAbsError: 2.33527e-06\n", - " Region: \"zone_3\"\tRelError: 1.71457e+00\tAbsError: 8.82623e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.81667e-01\tAbsError: 5.07130e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.81602e-01\tAbsError: 3.75493e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51306e-01\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.72588e-09\tAbsError: 2.33550e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.38677e+00\tAbsError: 6.38966e+14\n", - " Region: \"zone_1\"\tRelError: 4.51470e-01\tAbsError: 3.37904e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.51448e-01\tAbsError: 2.58448e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", - " Region: \"zone_3\"\tRelError: 9.35299e-01\tAbsError: 6.38966e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42607e-01\tAbsError: 3.02038e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.95795e-01\tAbsError: 3.36928e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.68743e-02\tAbsError: 2.57679e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.50492e-04\tAbsError: 1.09226e+11\n", - " Region: \"zone_1\"\tRelError: 2.27622e-05\tAbsError: 4.91789e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.26208e-05\tAbsError: 6.61807e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41421e-07\tAbsError: 4.91127e-05\n", - " Region: \"zone_3\"\tRelError: 1.27730e-04\tAbsError: 1.09226e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.75259e-06\tAbsError: 7.55320e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.67996e-06\tAbsError: 3.36940e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12156e-04\tAbsError: 6.92520e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41421e-07\tAbsError: 4.91127e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.43445e-01\tAbsError: 4.90706e+14\n", - " Region: \"zone_1\"\tRelError: 3.97550e-02\tAbsError: 2.48451e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.97172e-02\tAbsError: 1.17195e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.78171e-05\tAbsError: 1.31257e-02\n", - " Region: \"zone_3\"\tRelError: 4.03690e-01\tAbsError: 4.90706e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.31740e-01\tAbsError: 2.41635e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.31153e-01\tAbsError: 2.49071e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.07598e-02\tAbsError: 1.17195e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.78263e-05\tAbsError: 1.31292e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.31240e-04\tAbsError: 7.97937e+11\n", - " Region: \"zone_1\"\tRelError: 7.54533e-05\tAbsError: 1.27890e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.50894e-05\tAbsError: 1.20855e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.63943e-07\tAbsError: 1.26681e-04\n", - " Region: \"zone_3\"\tRelError: 3.55787e-04\tAbsError: 7.97937e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.38045e-05\tAbsError: 1.92064e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.48742e-05\tAbsError: 6.05872e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.76744e-04\tAbsError: 1.21338e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.64089e-07\tAbsError: 1.26735e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.89616e+00\tAbsError: 1.73726e+15\n", - " Region: \"zone_1\"\tRelError: 3.68926e-01\tAbsError: 7.09892e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.68815e-01\tAbsError: 3.24494e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10905e-04\tAbsError: 3.85398e-02\n", - " Region: \"zone_3\"\tRelError: 1.52723e+00\tAbsError: 1.73726e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.62498e-01\tAbsError: 9.60875e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.42645e-01\tAbsError: 7.76385e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21979e-01\tAbsError: 3.24495e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10905e-04\tAbsError: 3.85398e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.41554e-01\tAbsError: 2.20715e+14\n", - " Region: \"zone_1\"\tRelError: 2.89595e-02\tAbsError: 1.67352e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.89377e-02\tAbsError: 9.16565e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18085e-05\tAbsError: 7.56954e-03\n", - " Region: \"zone_3\"\tRelError: 3.12594e-01\tAbsError: 2.20715e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.94155e-01\tAbsError: 1.01533e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.87246e-02\tAbsError: 1.19182e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.96932e-02\tAbsError: 9.16570e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18152e-05\tAbsError: 7.57200e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.59511e-05\tAbsError: 4.34369e+10\n", - " Region: \"zone_1\"\tRelError: 4.88152e-06\tAbsError: 5.50573e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.86582e-06\tAbsError: 4.12400e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.56988e-08\tAbsError: 5.46449e-06\n", - " Region: \"zone_3\"\tRelError: 3.10696e-05\tAbsError: 4.34369e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.42525e-06\tAbsError: 1.53634e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.39498e-06\tAbsError: 2.80735e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.42337e-05\tAbsError: 4.13073e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.57060e-08\tAbsError: 5.46711e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:42\u001b[0m.\u001b[1;36m394\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:42\u001b[0m.\u001b[1;36m394\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.41874999999999996\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.20911e-02\tAbsError: 9.08236e+13\n", - " Region: \"zone_1\"\tRelError: 8.36257e-03\tAbsError: 7.34644e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 8.34207e-03\tAbsError: 2.31528e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.04921e-05\tAbsError: 7.11491e-03\n", - " Region: \"zone_3\"\tRelError: 8.37285e-02\tAbsError: 9.08236e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.66541e-02\tAbsError: 5.29767e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.08300e-02\tAbsError: 3.78468e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.22394e-03\tAbsError: 2.32655e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.04921e-05\tAbsError: 7.11491e-03\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.53826e-04\tAbsError: 1.09912e+11\n", - " Region: \"zone_1\"\tRelError: 2.29821e-05\tAbsError: 4.27473e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.28592e-05\tAbsError: 6.65170e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", - " Region: \"zone_3\"\tRelError: 1.30844e-04\tAbsError: 1.09912e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.01681e-06\tAbsError: 7.52234e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94349e-06\tAbsError: 3.46881e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14760e-04\tAbsError: 6.98367e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.12115e+00\tAbsError: 1.12368e+15\n", - " Region: \"zone_1\"\tRelError: 1.07753e-01\tAbsError: 3.45134e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07728e-01\tAbsError: 2.56568e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.55163e-05\tAbsError: 8.85665e-03\n", - " Region: \"zone_3\"\tRelError: 1.01340e+00\tAbsError: 1.12368e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.76839e-01\tAbsError: 5.03019e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.25192e-01\tAbsError: 6.20662e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11342e-01\tAbsError: 2.58854e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.55171e-05\tAbsError: 8.85707e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.19808e-02\tAbsError: 3.06344e+13\n", - " Region: \"zone_1\"\tRelError: 2.04251e-02\tAbsError: 4.10278e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.04136e-02\tAbsError: 1.00349e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", - " Region: \"zone_3\"\tRelError: 6.15557e-02\tAbsError: 3.06344e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38926e-02\tAbsError: 1.71938e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.73234e-03\tAbsError: 1.34406e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.91920e-03\tAbsError: 1.01109e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.16827e-03\tAbsError: 3.42905e+12\n", - " Region: \"zone_1\"\tRelError: 5.05049e-04\tAbsError: 4.91012e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.03646e-04\tAbsError: 3.47475e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.40302e-06\tAbsError: 4.87537e-04\n", - " Region: \"zone_3\"\tRelError: 2.66322e-03\tAbsError: 3.42905e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.95349e-04\tAbsError: 1.21352e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.81812e-04\tAbsError: 2.21554e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.98465e-03\tAbsError: 3.54752e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.40328e-06\tAbsError: 4.87636e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.84860e-05\tAbsError: 3.70987e+10\n", - " Region: \"zone_1\"\tRelError: 3.74711e-06\tAbsError: 5.87951e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.73032e-06\tAbsError: 3.58594e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67880e-08\tAbsError: 5.84365e-06\n", - " Region: \"zone_3\"\tRelError: 2.47389e-05\tAbsError: 3.70987e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.96764e-06\tAbsError: 1.24118e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.94133e-06\tAbsError: 2.46869e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88131e-05\tAbsError: 3.59119e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67950e-08\tAbsError: 5.84625e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:44\u001b[0m.\u001b[1;36m074\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.4\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Iteration: 0\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 6.33754e+00\tAbsError: 8.76787e+15\n", - " Region: \"zone_1\"\tRelError: 4.66402e+00\tAbsError: 4.22113e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.66402e+00\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.37385e-09\tAbsError: 2.21342e-06\n", - " Region: \"zone_3\"\tRelError: 1.67352e+00\tAbsError: 8.76787e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80231e-01\tAbsError: 5.17304e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.80207e-01\tAbsError: 3.59483e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13080e-01\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.37521e-09\tAbsError: 2.21392e-06\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.26825e-01\tAbsError: 4.37760e+14\n", - " Region: \"zone_1\"\tRelError: 3.80907e-02\tAbsError: 2.35516e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.80555e-02\tAbsError: 1.13363e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.51940e-05\tAbsError: 1.22153e-02\n", - " Region: \"zone_3\"\tRelError: 3.88734e-01\tAbsError: 4.37760e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.24657e-01\tAbsError: 2.14324e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.24964e-01\tAbsError: 2.23436e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.90785e-02\tAbsError: 1.13364e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.51963e-05\tAbsError: 1.22163e-02\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.53920e-03\tAbsError: 1.84314e+12\n", - " Region: \"zone_1\"\tRelError: 2.29752e-04\tAbsError: 2.41443e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29064e-04\tAbsError: 2.20702e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", - " Region: \"zone_3\"\tRelError: 1.30944e-03\tAbsError: 1.84314e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11485e-04\tAbsError: 5.81096e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.63190e-04\tAbsError: 1.26205e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 9.34079e-04\tAbsError: 2.25011e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.52226e-04\tAbsError: 3.81978e+11\n", - " Region: \"zone_1\"\tRelError: 8.36528e-05\tAbsError: 2.05703e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 8.30610e-05\tAbsError: 2.27394e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.91803e-07\tAbsError: 2.05476e-04\n", - " Region: \"zone_3\"\tRelError: 3.68573e-04\tAbsError: 3.81978e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.16126e-05\tAbsError: 2.47156e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.13261e-05\tAbsError: 1.34821e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.25043e-04\tAbsError: 2.38613e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.91803e-07\tAbsError: 2.05476e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.95597e-02\tAbsError: 7.71424e+13\n", - " Region: \"zone_1\"\tRelError: 8.97757e-03\tAbsError: 6.57471e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 8.95924e-03\tAbsError: 2.10468e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83299e-05\tAbsError: 6.36424e-03\n", - " Region: \"zone_3\"\tRelError: 8.05821e-02\tAbsError: 7.71424e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.51160e-02\tAbsError: 4.59722e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.55840e-03\tAbsError: 3.11702e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.88934e-03\tAbsError: 2.11417e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83299e-05\tAbsError: 6.36424e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.61701e+00\tAbsError: 4.21474e+14\n", - " Region: \"zone_1\"\tRelError: 1.10816e-01\tAbsError: 8.18878e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10673e-01\tAbsError: 3.22435e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42846e-04\tAbsError: 4.96444e-02\n", - " Region: \"zone_3\"\tRelError: 1.50619e+00\tAbsError: 4.21474e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.58762e-01\tAbsError: 2.85907e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.50146e-01\tAbsError: 1.35567e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.71388e-02\tAbsError: 3.22438e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42846e-04\tAbsError: 4.96444e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.87618e+01\tAbsError: 8.25603e+15\n", - " Region: \"zone_1\"\tRelError: 2.71120e+01\tAbsError: 4.09561e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.71120e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.29384e-09\tAbsError: 1.83846e-06\n", - " Region: \"zone_3\"\tRelError: 1.64979e+00\tAbsError: 8.25603e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69658e-01\tAbsError: 4.86497e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69634e-01\tAbsError: 3.39106e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10500e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.29480e-09\tAbsError: 1.83875e-06\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.51045e-04\tAbsError: 2.02519e+11\n", - " Region: \"zone_1\"\tRelError: 4.54891e-05\tAbsError: 1.12868e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.51644e-05\tAbsError: 1.25671e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.24705e-07\tAbsError: 1.12743e-04\n", - " Region: \"zone_3\"\tRelError: 2.05556e-04\tAbsError: 2.02519e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12163e-05\tAbsError: 1.36505e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10724e-05\tAbsError: 6.60139e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82943e-04\tAbsError: 1.30848e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.24777e-07\tAbsError: 1.12769e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.16205e-04\tAbsError: 1.96223e+11\n", - " Region: \"zone_1\"\tRelError: 3.93698e-05\tAbsError: 1.48004e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.93276e-05\tAbsError: 1.21385e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.21780e-08\tAbsError: 1.46790e-05\n", - " Region: \"zone_3\"\tRelError: 1.76835e-04\tAbsError: 1.96223e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12231e-05\tAbsError: 9.36536e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.11384e-05\tAbsError: 1.02569e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.54432e-04\tAbsError: 1.24837e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.21943e-08\tAbsError: 1.46850e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.09334e+00\tAbsError: 1.47862e+14\n", - " Region: \"zone_1\"\tRelError: 8.41951e-02\tAbsError: 3.34998e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.41732e-02\tAbsError: 2.58874e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19032e-05\tAbsError: 7.61236e-03\n", - " Region: \"zone_3\"\tRelError: 1.00915e+00\tAbsError: 1.47862e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.70939e-01\tAbsError: 8.86673e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.53155e-01\tAbsError: 5.91945e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.50295e-02\tAbsError: 2.57870e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19032e-05\tAbsError: 7.61236e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.76323e-03\tAbsError: 3.04208e+12\n", - " Region: \"zone_1\"\tRelError: 4.34764e-04\tAbsError: 4.50535e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.33477e-04\tAbsError: 3.15266e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.28745e-06\tAbsError: 4.47383e-04\n", - " Region: \"zone_3\"\tRelError: 2.32847e-03\tAbsError: 3.04208e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.58402e-04\tAbsError: 1.05932e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.52573e-04\tAbsError: 1.98276e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.71621e-03\tAbsError: 3.22876e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.28792e-06\tAbsError: 4.47554e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.69855e+00\tAbsError: 3.40458e+14\n", - " Region: \"zone_1\"\tRelError: 2.34470e-01\tAbsError: 7.85796e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.34332e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", - " Region: \"zone_3\"\tRelError: 1.46408e+00\tAbsError: 3.40458e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39247e-01\tAbsError: 2.37038e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.31799e-01\tAbsError: 1.03420e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.29010e-02\tAbsError: 3.07639e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.09882e-04\tAbsError: 1.05387e+11\n", - " Region: \"zone_1\"\tRelError: 1.91896e-05\tAbsError: 8.11152e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.91665e-05\tAbsError: 7.26801e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.30974e-08\tAbsError: 8.03884e-06\n", - " Region: \"zone_3\"\tRelError: 9.06925e-05\tAbsError: 1.05387e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41210e-06\tAbsError: 4.74044e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.36012e-06\tAbsError: 5.79823e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.78972e-05\tAbsError: 7.44246e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.31071e-08\tAbsError: 8.04242e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.29328e-05\tAbsError: 1.28315e+10\n", - " Region: \"zone_1\"\tRelError: 2.39931e-06\tAbsError: 1.11358e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.36728e-06\tAbsError: 7.12558e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.20267e-08\tAbsError: 1.11287e-05\n", - " Region: \"zone_3\"\tRelError: 1.05335e-05\tAbsError: 1.28315e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.59775e-07\tAbsError: 9.09417e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.08523e-07\tAbsError: 3.73735e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 9.23314e-06\tAbsError: 7.44346e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.20347e-08\tAbsError: 1.11318e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:48\u001b[0m.\u001b[1;36m096\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:48\u001b[0m.\u001b[1;36m096\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6416666666666667\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.68709e-01\tAbsError: 5.55679e+13\n", - " Region: \"zone_1\"\tRelError: 3.01660e-02\tAbsError: 1.36189e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.01586e-02\tAbsError: 1.10528e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.39180e-06\tAbsError: 2.56611e-03\n", - " Region: \"zone_3\"\tRelError: 3.38543e-01\tAbsError: 5.55679e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.22734e-01\tAbsError: 2.45809e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.53253e-02\tAbsError: 3.09871e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.04764e-02\tAbsError: 1.10528e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.39597e-06\tAbsError: 2.56763e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.28398e-04\tAbsError: 3.56399e+11\n", - " Region: \"zone_1\"\tRelError: 7.90313e-05\tAbsError: 1.82266e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.85070e-05\tAbsError: 2.13360e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.24338e-07\tAbsError: 1.82053e-04\n", - " Region: \"zone_3\"\tRelError: 3.49366e-04\tAbsError: 3.56399e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.01607e-05\tAbsError: 2.30451e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.98999e-05\tAbsError: 1.25949e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.08781e-04\tAbsError: 2.23060e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.24338e-07\tAbsError: 1.82053e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.10009e+00\tAbsError: 9.49766e+13\n", - " Region: \"zone_1\"\tRelError: 1.69910e-01\tAbsError: 3.26443e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.69891e-01\tAbsError: 2.58991e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", - " Region: \"zone_3\"\tRelError: 9.30185e-01\tAbsError: 9.49766e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40985e-01\tAbsError: 5.67002e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.12174e-01\tAbsError: 3.82763e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.70066e-02\tAbsError: 2.58994e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 7.21635e-06\tAbsError: 6.66070e+09\n", - " Region: \"zone_1\"\tRelError: 1.30608e-06\tAbsError: 5.92265e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28905e-06\tAbsError: 4.03393e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70320e-08\tAbsError: 5.91862e-06\n", - " Region: \"zone_3\"\tRelError: 5.91027e-06\tAbsError: 6.66070e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.61854e-07\tAbsError: 4.98332e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.27195e-07\tAbsError: 1.67738e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 5.20418e-06\tAbsError: 4.19235e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70346e-08\tAbsError: 5.91965e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:49\u001b[0m.\u001b[1;36m098\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.6\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.55074e-02\tAbsError: 9.90968e+12\n", - " Region: \"zone_1\"\tRelError: 2.96123e-03\tAbsError: 1.94388e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.95582e-03\tAbsError: 6.53231e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.41016e-06\tAbsError: 1.87856e-03\n", - " Region: \"zone_3\"\tRelError: 7.25461e-02\tAbsError: 9.90968e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.69484e-02\tAbsError: 5.15392e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.51045e-03\tAbsError: 4.75576e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.08189e-03\tAbsError: 7.13022e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.41016e-06\tAbsError: 1.87856e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.87899e-04\tAbsError: 1.73082e+11\n", - " Region: \"zone_1\"\tRelError: 3.39934e-05\tAbsError: 1.43686e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.39525e-05\tAbsError: 1.08946e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.09731e-08\tAbsError: 1.42597e-05\n", - " Region: \"zone_3\"\tRelError: 1.53906e-04\tAbsError: 1.73082e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98939e-06\tAbsError: 8.17885e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.91188e-06\tAbsError: 9.12938e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33963e-04\tAbsError: 1.11897e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.09888e-08\tAbsError: 1.42655e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.75131e+01\tAbsError: 1.04832e+16\n", - " Region: \"zone_1\"\tRelError: 2.57460e+01\tAbsError: 4.26144e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.57460e+01\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.25795e-10\tAbsError: 2.17804e-07\n", - " Region: \"zone_3\"\tRelError: 1.76714e+00\tAbsError: 1.04832e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.83363e-01\tAbsError: 5.41685e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.83175e-01\tAbsError: 5.06630e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.00598e-01\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.26134e-10\tAbsError: 2.17927e-07\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.56252e-01\tAbsError: 3.42527e+13\n", - " Region: \"zone_1\"\tRelError: 6.41646e-02\tAbsError: 1.11813e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.41588e-02\tAbsError: 9.16555e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.79958e-06\tAbsError: 2.01571e-03\n", - " Region: \"zone_3\"\tRelError: 2.92088e-01\tAbsError: 3.42527e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07223e-01\tAbsError: 1.60452e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.07953e-02\tAbsError: 1.82076e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.40630e-02\tAbsError: 9.16559e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.80279e-06\tAbsError: 2.01683e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.57743e+01\tAbsError: 8.48667e+15\n", - " Region: \"zone_1\"\tRelError: 1.40602e+01\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40602e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.57556e-10\tAbsError: 1.24451e-07\n", - " Region: \"zone_3\"\tRelError: 1.71408e+00\tAbsError: 8.48667e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69582e-01\tAbsError: 4.51146e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69441e-01\tAbsError: 3.97521e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.75053e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.57765e-10\tAbsError: 1.24526e-07\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.35924e-04\tAbsError: 8.77699e+11\n", - " Region: \"zone_1\"\tRelError: 5.65341e-05\tAbsError: 1.31717e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.61586e-05\tAbsError: 1.24204e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.75403e-07\tAbsError: 1.30475e-04\n", - " Region: \"zone_3\"\tRelError: 4.79390e-04\tAbsError: 8.77699e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43239e-04\tAbsError: 2.14015e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.28226e-05\tAbsError: 6.63684e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.52952e-04\tAbsError: 1.25007e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.75403e-07\tAbsError: 1.30475e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.33017e-05\tAbsError: 1.25250e+10\n", - " Region: \"zone_1\"\tRelError: 2.46569e-06\tAbsError: 9.72458e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.43772e-06\tAbsError: 7.05981e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.79653e-08\tAbsError: 9.71752e-06\n", - " Region: \"zone_3\"\tRelError: 1.08360e-05\tAbsError: 1.25250e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37872e-07\tAbsError: 8.80212e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.06618e-07\tAbsError: 3.72290e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 9.56353e-06\tAbsError: 7.35679e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.79715e-08\tAbsError: 9.71990e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.19195e+00\tAbsError: 1.07579e+16\n", - " Region: \"zone_1\"\tRelError: 6.33495e-01\tAbsError: 8.81214e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.33336e-01\tAbsError: 3.27220e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59452e-04\tAbsError: 5.53993e-02\n", - " Region: \"zone_3\"\tRelError: 1.55845e+00\tAbsError: 1.07579e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.62844e-01\tAbsError: 5.18589e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32311e-01\tAbsError: 5.57203e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.63136e-01\tAbsError: 3.27221e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59452e-04\tAbsError: 5.53993e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:51\u001b[0m.\u001b[1;36m255\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:51\u001b[0m.\u001b[1;36m255\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6357142857142857\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.59960e-02\tAbsError: 3.73217e+12\n", - " Region: \"zone_1\"\tRelError: 7.31305e-03\tAbsError: 2.21475e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.30674e-03\tAbsError: 2.57182e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", - " Region: \"zone_3\"\tRelError: 5.86829e-02\tAbsError: 3.73217e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.62142e-02\tAbsError: 2.07187e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.09163e-04\tAbsError: 1.66031e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65329e-03\tAbsError: 2.69578e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 4.55570e+00\tAbsError: 5.16331e+15\n", - " Region: \"zone_1\"\tRelError: 3.06111e+00\tAbsError: 6.97364e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.06100e+00\tAbsError: 3.07634e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12162e-04\tAbsError: 3.89730e-02\n", - " Region: \"zone_3\"\tRelError: 1.49459e+00\tAbsError: 5.16331e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38938e-01\tAbsError: 2.46191e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.11412e-01\tAbsError: 2.70140e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.44124e-01\tAbsError: 3.07634e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12162e-04\tAbsError: 3.89730e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.49173e-04\tAbsError: 1.08665e+11\n", - " Region: \"zone_1\"\tRelError: 2.49796e-05\tAbsError: 4.96969e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.48367e-05\tAbsError: 7.16851e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42909e-07\tAbsError: 4.96252e-05\n", - " Region: \"zone_3\"\tRelError: 1.24193e-04\tAbsError: 1.08665e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.07162e-06\tAbsError: 7.44871e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.99576e-06\tAbsError: 3.41777e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09983e-04\tAbsError: 7.48608e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42909e-07\tAbsError: 4.96252e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.20212e+00\tAbsError: 7.47831e+15\n", - " Region: \"zone_1\"\tRelError: 1.32597e-01\tAbsError: 3.89759e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.32557e-01\tAbsError: 2.52828e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.94599e-05\tAbsError: 1.36931e-02\n", - " Region: \"zone_3\"\tRelError: 1.06952e+00\tAbsError: 7.47831e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.83767e-01\tAbsError: 3.66669e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.39313e-01\tAbsError: 3.81162e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.46404e-01\tAbsError: 2.54085e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.05332e-05\tAbsError: 1.40654e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 8.14034e-04\tAbsError: 1.03618e+12\n", - " Region: \"zone_1\"\tRelError: 1.43803e-04\tAbsError: 7.79056e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43584e-04\tAbsError: 1.54074e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19396e-07\tAbsError: 7.63649e-05\n", - " Region: \"zone_3\"\tRelError: 6.70231e-04\tAbsError: 1.03618e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.21829e-04\tAbsError: 2.70793e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.05108e-04\tAbsError: 7.65387e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.43074e-04\tAbsError: 1.54210e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19498e-07\tAbsError: 7.64015e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.84879e+02\tAbsError: 9.85047e+15\n", - " Region: \"zone_1\"\tRelError: 2.83120e+02\tAbsError: 4.23838e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.83120e+02\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.02987e-10\tAbsError: 2.79472e-07\n", - " Region: \"zone_3\"\tRelError: 1.75959e+00\tAbsError: 9.85047e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.81501e-01\tAbsError: 5.21342e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.81322e-01\tAbsError: 4.63704e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.96768e-01\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03413e-10\tAbsError: 2.79627e-07\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.13964e+00\tAbsError: 3.47644e+15\n", - " Region: \"zone_1\"\tRelError: 1.85284e-01\tAbsError: 3.50197e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.85258e-01\tAbsError: 2.58979e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.62526e-05\tAbsError: 9.12177e-03\n", - " Region: \"zone_3\"\tRelError: 9.54354e-01\tAbsError: 3.47644e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.46208e-01\tAbsError: 1.62778e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.89583e-01\tAbsError: 1.84866e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18536e-01\tAbsError: 2.53855e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.62526e-05\tAbsError: 9.12177e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.73047e-05\tAbsError: 4.40670e+10\n", - " Region: \"zone_1\"\tRelError: 5.75467e-06\tAbsError: 5.44475e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.73914e-06\tAbsError: 3.84897e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.55326e-08\tAbsError: 5.40626e-06\n", - " Region: \"zone_3\"\tRelError: 3.15501e-05\tAbsError: 4.40670e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.02445e-06\tAbsError: 1.61588e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.99827e-06\tAbsError: 2.79082e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.55118e-05\tAbsError: 3.86967e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.55391e-08\tAbsError: 5.40861e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:53\u001b[0m.\u001b[1;36m949\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.525\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 9.70347e-01\tAbsError: 2.72553e+15\n", - " Region: \"zone_1\"\tRelError: 5.51720e-01\tAbsError: 7.40138e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.51541e-01\tAbsError: 1.17200e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.79546e-04\tAbsError: 6.22938e-02\n", - " Region: \"zone_3\"\tRelError: 4.18627e-01\tAbsError: 2.72553e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.23799e-01\tAbsError: 1.44536e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.44218e-01\tAbsError: 1.28017e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.04299e-02\tAbsError: 1.17201e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.79839e-04\tAbsError: 6.23947e-02\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.61312e-05\tAbsError: 5.74046e+10\n", - " Region: \"zone_1\"\tRelError: 1.61849e-05\tAbsError: 6.45313e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.59991e-05\tAbsError: 3.79845e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.85726e-07\tAbsError: 6.44934e-05\n", - " Region: \"zone_3\"\tRelError: 5.99464e-05\tAbsError: 5.74046e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.77906e-06\tAbsError: 4.68633e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.20461e-06\tAbsError: 1.05413e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.27769e-05\tAbsError: 3.95532e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.85828e-07\tAbsError: 6.45281e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:36:54\u001b[0m.\u001b[1;36m293\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.5\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.40036e+00\tAbsError: 9.59182e+15\n", - " Region: \"zone_1\"\tRelError: 8.50865e-01\tAbsError: 8.47022e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.50714e-01\tAbsError: 3.24493e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.50393e-04\tAbsError: 5.22529e-02\n", - " Region: \"zone_3\"\tRelError: 1.54950e+00\tAbsError: 9.59182e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.59657e-01\tAbsError: 4.65942e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.29505e-01\tAbsError: 4.93240e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.60188e-01\tAbsError: 3.24493e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.50393e-04\tAbsError: 5.22529e-02\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 8.24095e-01\tAbsError: 1.04537e+15\n", - " Region: \"zone_1\"\tRelError: 4.93544e-01\tAbsError: 2.65000e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.93494e-01\tAbsError: 9.16559e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.98913e-05\tAbsError: 1.73344e-02\n", - " Region: \"zone_3\"\tRelError: 3.30551e-01\tAbsError: 1.04537e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84640e-01\tAbsError: 5.55503e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10521e-01\tAbsError: 4.89866e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.53403e-02\tAbsError: 9.16565e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.98913e-05\tAbsError: 1.73344e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.33935e-01\tAbsError: 4.64555e+14\n", - " Region: \"zone_1\"\tRelError: 2.94732e-02\tAbsError: 5.29433e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.93213e-02\tAbsError: 2.44798e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.51832e-04\tAbsError: 5.26985e-02\n", - " Region: \"zone_3\"\tRelError: 1.04462e-01\tAbsError: 4.64555e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.87627e-02\tAbsError: 2.71658e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.26664e-02\tAbsError: 1.92897e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.28808e-02\tAbsError: 2.61363e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.51991e-04\tAbsError: 5.27520e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.17170e+01\tAbsError: 8.75063e+15\n", - " Region: \"zone_1\"\tRelError: 1.00071e+01\tAbsError: 4.22113e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00071e+01\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.46569e-09\tAbsError: 2.24513e-06\n", - " Region: \"zone_3\"\tRelError: 1.70995e+00\tAbsError: 8.75063e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80236e-01\tAbsError: 5.03722e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.80173e-01\tAbsError: 3.71341e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49543e-01\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.46650e-09\tAbsError: 2.24544e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.18426e+00\tAbsError: 6.71886e+15\n", - " Region: \"zone_1\"\tRelError: 1.30280e-01\tAbsError: 3.66340e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.30249e-01\tAbsError: 2.57139e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.14700e-05\tAbsError: 1.09200e-02\n", - " Region: \"zone_3\"\tRelError: 1.05398e+00\tAbsError: 6.71886e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.78717e-01\tAbsError: 3.28141e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.32598e-01\tAbsError: 3.43745e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.42637e-01\tAbsError: 2.54415e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.23852e-05\tAbsError: 1.12379e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.60199e+01\tAbsError: 8.22903e+15\n", - " Region: \"zone_1\"\tRelError: 3.43433e+01\tAbsError: 4.09555e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.43433e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.48443e-09\tAbsError: 1.21289e-06\n", - " Region: \"zone_3\"\tRelError: 1.67662e+00\tAbsError: 8.22903e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.78919e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.43984e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37338e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.48691e-09\tAbsError: 1.21378e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.23262e-02\tAbsError: 1.95138e+14\n", - " Region: \"zone_1\"\tRelError: 2.57438e-02\tAbsError: 3.23382e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.56511e-02\tAbsError: 1.67807e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.26701e-05\tAbsError: 3.21704e-02\n", - " Region: \"zone_3\"\tRelError: 6.65824e-02\tAbsError: 1.95138e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.49682e-02\tAbsError: 6.65802e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.06072e-03\tAbsError: 1.28558e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.46071e-03\tAbsError: 1.74923e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.26947e-05\tAbsError: 3.21777e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.87196e-02\tAbsError: 3.13816e+13\n", - " Region: \"zone_1\"\tRelError: 6.85396e-03\tAbsError: 6.84082e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.85204e-03\tAbsError: 1.95230e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.91475e-06\tAbsError: 6.64559e-04\n", - " Region: \"zone_3\"\tRelError: 2.18657e-02\tAbsError: 3.13816e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.74111e-03\tAbsError: 1.46062e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.58712e-03\tAbsError: 1.67754e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.85355e-02\tAbsError: 2.02101e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.92269e-06\tAbsError: 6.67317e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.93208e+00\tAbsError: 1.64182e+15\n", - " Region: \"zone_1\"\tRelError: 4.10297e-01\tAbsError: 7.07022e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.10186e-01\tAbsError: 3.22434e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10672e-04\tAbsError: 3.84588e-02\n", - " Region: \"zone_3\"\tRelError: 1.52179e+00\tAbsError: 1.64182e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.60022e-01\tAbsError: 9.13086e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.40366e-01\tAbsError: 7.28733e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21289e-01\tAbsError: 3.22435e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10672e-04\tAbsError: 3.84588e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.81103e+00\tAbsError: 2.38656e+15\n", - " Region: \"zone_1\"\tRelError: 3.40562e+00\tAbsError: 6.61836e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.40546e+00\tAbsError: 1.13368e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.58076e-04\tAbsError: 5.48468e-02\n", - " Region: \"zone_3\"\tRelError: 4.05411e-01\tAbsError: 2.38656e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.17600e-01\tAbsError: 1.25698e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.39569e-01\tAbsError: 1.12958e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 4.80838e-02\tAbsError: 1.13370e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.58243e-04\tAbsError: 5.49035e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.73485e+00\tAbsError: 1.08973e+15\n", - " Region: \"zone_1\"\tRelError: 2.25350e+00\tAbsError: 6.85700e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.25339e+00\tAbsError: 3.07635e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", - " Region: \"zone_3\"\tRelError: 1.48136e+00\tAbsError: 1.08973e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41054e-01\tAbsError: 6.25022e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.24005e-01\tAbsError: 4.64711e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16189e-01\tAbsError: 3.07637e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.13427e-02\tAbsError: 1.62210e+13\n", - " Region: \"zone_1\"\tRelError: 1.73710e-02\tAbsError: 1.21679e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.73676e-02\tAbsError: 1.36050e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.46587e-06\tAbsError: 1.20318e-03\n", - " Region: \"zone_3\"\tRelError: 1.39717e-02\tAbsError: 1.62210e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.19687e-03\tAbsError: 6.47584e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.09668e-03\tAbsError: 9.74512e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16747e-02\tAbsError: 1.39577e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.46587e-06\tAbsError: 1.20318e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.36574e-04\tAbsError: 6.20350e+11\n", - " Region: \"zone_1\"\tRelError: 5.71508e-05\tAbsError: 1.58969e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.25718e-05\tAbsError: 4.29208e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.57892e-06\tAbsError: 1.58926e-03\n", - " Region: \"zone_3\"\tRelError: 1.79423e-04\tAbsError: 6.20350e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.81023e-05\tAbsError: 4.31262e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.16006e-05\tAbsError: 1.89089e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35142e-04\tAbsError: 4.34629e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.57892e-06\tAbsError: 1.58926e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.10894e+00\tAbsError: 1.04098e+15\n", - " Region: \"zone_1\"\tRelError: 1.06086e-01\tAbsError: 3.49118e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06060e-01\tAbsError: 2.58908e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.59896e-05\tAbsError: 9.02095e-03\n", - " Region: \"zone_3\"\tRelError: 1.00285e+00\tAbsError: 1.04098e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.72685e-01\tAbsError: 4.70486e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.20681e-01\tAbsError: 5.70489e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09459e-01\tAbsError: 2.57724e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.59942e-05\tAbsError: 9.02254e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 3.95854e-01\tAbsError: 4.01780e+14\n", - " Region: \"zone_1\"\tRelError: 2.97435e-01\tAbsError: 4.83384e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.97297e-01\tAbsError: 2.29736e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.38604e-04\tAbsError: 4.81087e-02\n", - " Region: \"zone_3\"\tRelError: 9.84191e-02\tAbsError: 4.01780e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.66330e-02\tAbsError: 2.31666e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.17536e-02\tAbsError: 1.70115e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.98938e-02\tAbsError: 2.43734e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.38761e-04\tAbsError: 4.81621e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.38677e+00\tAbsError: 6.38966e+14\n", - " Region: \"zone_1\"\tRelError: 4.51470e-01\tAbsError: 3.37904e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.51448e-01\tAbsError: 2.58448e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", - " Region: \"zone_3\"\tRelError: 9.35299e-01\tAbsError: 6.38966e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42607e-01\tAbsError: 3.02038e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.95795e-01\tAbsError: 3.36928e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.68743e-02\tAbsError: 2.57679e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.53065e-03\tAbsError: 7.24481e+11\n", - " Region: \"zone_1\"\tRelError: 1.49459e-03\tAbsError: 1.07639e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49149e-03\tAbsError: 6.55190e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.09641e-06\tAbsError: 1.07573e-03\n", - " Region: \"zone_3\"\tRelError: 1.03606e-03\tAbsError: 7.24481e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73129e-05\tAbsError: 2.45596e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.81580e-05\tAbsError: 4.78885e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 9.37490e-04\tAbsError: 6.76708e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.09642e-06\tAbsError: 1.07576e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.16659e-03\tAbsError: 1.56179e+12\n", - " Region: \"zone_1\"\tRelError: 5.49118e-04\tAbsError: 8.25361e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.48882e-04\tAbsError: 7.56127e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.35610e-07\tAbsError: 8.17800e-05\n", - " Region: \"zone_3\"\tRelError: 1.61747e-03\tAbsError: 1.56179e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.04155e-05\tAbsError: 7.80826e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.99233e-05\tAbsError: 7.80963e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.47689e-03\tAbsError: 7.63501e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.35622e-07\tAbsError: 8.17818e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.15048e-01\tAbsError: 4.01161e+14\n", - " Region: \"zone_1\"\tRelError: 3.68701e-02\tAbsError: 2.28829e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.68361e-02\tAbsError: 1.10529e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.40835e-05\tAbsError: 1.18299e-02\n", - " Region: \"zone_3\"\tRelError: 3.78178e-01\tAbsError: 4.01161e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.20081e-01\tAbsError: 1.95045e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.20222e-01\tAbsError: 2.06116e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.78403e-02\tAbsError: 1.10530e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.40894e-05\tAbsError: 1.18320e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.32002e-02\tAbsError: 2.72995e+13\n", - " Region: \"zone_1\"\tRelError: 2.32135e-02\tAbsError: 6.74833e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.32116e-02\tAbsError: 1.80346e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.89232e-06\tAbsError: 6.56799e-04\n", - " Region: \"zone_3\"\tRelError: 1.99868e-02\tAbsError: 2.72995e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.62006e-03\tAbsError: 1.26801e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.47679e-03\tAbsError: 1.46193e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.68880e-02\tAbsError: 1.87805e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.89880e-06\tAbsError: 6.59049e-04\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.41554e-01\tAbsError: 2.20715e+14\n", - " Region: \"zone_1\"\tRelError: 2.89595e-02\tAbsError: 1.67352e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.89377e-02\tAbsError: 9.16565e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18085e-05\tAbsError: 7.56954e-03\n", - " Region: \"zone_3\"\tRelError: 3.12594e-01\tAbsError: 2.20715e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.94155e-01\tAbsError: 1.01533e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.87246e-02\tAbsError: 1.19182e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.96932e-02\tAbsError: 9.16570e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18152e-05\tAbsError: 7.57200e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.69038e-03\tAbsError: 1.04370e+12\n", - " Region: \"zone_1\"\tRelError: 1.58975e-03\tAbsError: 1.04879e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.58945e-03\tAbsError: 5.38488e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.00336e-07\tAbsError: 1.04341e-04\n", - " Region: \"zone_3\"\tRelError: 1.10063e-03\tAbsError: 1.04370e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.23814e-05\tAbsError: 5.26651e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.22994e-05\tAbsError: 5.17045e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 9.95649e-04\tAbsError: 5.63224e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.00360e-07\tAbsError: 1.04351e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.73714e-04\tAbsError: 7.72899e+10\n", - " Region: \"zone_1\"\tRelError: 4.49573e-05\tAbsError: 9.55178e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.46825e-05\tAbsError: 4.77093e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.74854e-07\tAbsError: 9.54700e-05\n", - " Region: \"zone_3\"\tRelError: 1.28757e-04\tAbsError: 7.72899e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.96964e-06\tAbsError: 3.45890e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.00987e-06\tAbsError: 4.27008e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20503e-04\tAbsError: 4.78699e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.74949e-07\tAbsError: 9.55032e-05\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.89721e-02\tAbsError: 6.93237e+13\n", - " Region: \"zone_1\"\tRelError: 1.12555e-02\tAbsError: 6.08752e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12385e-02\tAbsError: 1.96047e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69682e-05\tAbsError: 5.89147e-03\n", - " Region: \"zone_3\"\tRelError: 7.77166e-02\tAbsError: 6.93237e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.31797e-02\tAbsError: 4.13510e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.75730e-03\tAbsError: 2.79727e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.76262e-03\tAbsError: 1.97204e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69682e-05\tAbsError: 5.89147e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.00874e-04\tAbsError: 5.54848e+11\n", - " Region: \"zone_1\"\tRelError: 3.62392e-04\tAbsError: 1.46665e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.58171e-04\tAbsError: 4.14226e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.22130e-06\tAbsError: 1.46624e-03\n", - " Region: \"zone_3\"\tRelError: 2.38482e-04\tAbsError: 5.54848e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.38984e-05\tAbsError: 3.56593e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.33198e-05\tAbsError: 1.98255e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.97042e-04\tAbsError: 4.18018e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.22137e-06\tAbsError: 1.46629e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.19808e-02\tAbsError: 3.06344e+13\n", - " Region: \"zone_1\"\tRelError: 2.04251e-02\tAbsError: 4.10278e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.04136e-02\tAbsError: 1.00349e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", - " Region: \"zone_3\"\tRelError: 6.15557e-02\tAbsError: 3.06344e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38926e-02\tAbsError: 1.71938e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.73234e-03\tAbsError: 1.34406e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.91920e-03\tAbsError: 1.01109e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.67954e-04\tAbsError: 1.01821e+11\n", - " Region: \"zone_1\"\tRelError: 2.21136e-04\tAbsError: 6.97280e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20936e-04\tAbsError: 5.57180e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.00534e-07\tAbsError: 6.96723e-05\n", - " Region: \"zone_3\"\tRelError: 1.46817e-04\tAbsError: 1.01821e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.39462e-06\tAbsError: 5.27392e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.41727e-06\tAbsError: 4.90816e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35805e-04\tAbsError: 5.79583e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.00607e-07\tAbsError: 6.96980e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.51642e-04\tAbsError: 9.55059e+10\n", - " Region: \"zone_1\"\tRelError: 3.88744e-05\tAbsError: 1.03918e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.88446e-05\tAbsError: 4.18646e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.97970e-08\tAbsError: 1.03499e-05\n", - " Region: \"zone_3\"\tRelError: 1.12767e-04\tAbsError: 9.55059e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.17880e-06\tAbsError: 5.35381e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.13971e-06\tAbsError: 4.19677e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04419e-04\tAbsError: 4.29182e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.98061e-08\tAbsError: 1.03531e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.48729e-03\tAbsError: 2.79154e+12\n", - " Region: \"zone_1\"\tRelError: 3.87179e-04\tAbsError: 4.35466e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.85934e-04\tAbsError: 2.95614e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.24460e-06\tAbsError: 4.32510e-04\n", - " Region: \"zone_3\"\tRelError: 2.10011e-03\tAbsError: 2.79154e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.31175e-04\tAbsError: 9.56489e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.34157e-04\tAbsError: 1.83505e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.53353e-03\tAbsError: 3.02108e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.24504e-06\tAbsError: 4.32656e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.79283e-03\tAbsError: 1.43848e+12\n", - " Region: \"zone_1\"\tRelError: 3.30611e-03\tAbsError: 7.95001e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.30588e-03\tAbsError: 7.04439e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.27004e-07\tAbsError: 7.87957e-05\n", - " Region: \"zone_3\"\tRelError: 1.48671e-03\tAbsError: 1.43848e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.59255e-05\tAbsError: 7.19874e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.55139e-05\tAbsError: 7.18608e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35505e-03\tAbsError: 7.16273e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.27048e-07\tAbsError: 7.88086e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.53920e-03\tAbsError: 1.84314e+12\n", - " Region: \"zone_1\"\tRelError: 2.29752e-04\tAbsError: 2.41443e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29064e-04\tAbsError: 2.20702e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", - " Region: \"zone_3\"\tRelError: 1.30944e-03\tAbsError: 1.84314e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11485e-04\tAbsError: 5.81096e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.63190e-04\tAbsError: 1.26205e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 9.34079e-04\tAbsError: 2.25011e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.02562e-04\tAbsError: 6.84436e+10\n", - " Region: \"zone_1\"\tRelError: 1.21040e-04\tAbsError: 1.06970e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21010e-04\tAbsError: 3.27450e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.06942e-08\tAbsError: 1.06642e-05\n", - " Region: \"zone_3\"\tRelError: 8.15214e-05\tAbsError: 6.84436e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.33271e-06\tAbsError: 3.86457e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.32148e-06\tAbsError: 2.97979e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.48365e-05\tAbsError: 3.43670e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.07019e-08\tAbsError: 1.06669e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.08772e-05\tAbsError: 1.00314e+10\n", - " Region: \"zone_1\"\tRelError: 5.40787e-06\tAbsError: 6.34084e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.38963e-06\tAbsError: 4.94059e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.82408e-08\tAbsError: 6.33590e-06\n", - " Region: \"zone_3\"\tRelError: 1.54694e-05\tAbsError: 1.00314e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.74768e-07\tAbsError: 5.64810e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.74551e-07\tAbsError: 4.38331e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.45018e-05\tAbsError: 5.07095e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.82431e-08\tAbsError: 6.33672e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:03\u001b[0m.\u001b[1;36m771\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.75 V. Current applied bias: 0.75\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.25466e-04\tAbsError: 3.48774e+11\n", - " Region: \"zone_1\"\tRelError: 7.83109e-05\tAbsError: 1.66659e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.78315e-05\tAbsError: 2.09453e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.79396e-07\tAbsError: 1.66449e-04\n", - " Region: \"zone_3\"\tRelError: 3.47155e-04\tAbsError: 3.48774e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98014e-05\tAbsError: 2.24608e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.95539e-05\tAbsError: 1.24166e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.07320e-04\tAbsError: 2.18500e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.79412e-07\tAbsError: 1.66457e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 4.62391e-04\tAbsError: 7.31803e+10\n", - " Region: \"zone_1\"\tRelError: 3.39031e-04\tAbsError: 8.88123e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.38775e-04\tAbsError: 4.59725e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.55543e-07\tAbsError: 8.87663e-05\n", - " Region: \"zone_3\"\tRelError: 1.23361e-04\tAbsError: 7.31803e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.89040e-06\tAbsError: 3.23307e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.92637e-06\tAbsError: 4.08496e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15288e-04\tAbsError: 4.64206e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.55633e-07\tAbsError: 8.87978e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.51045e-04\tAbsError: 2.02519e+11\n", - " Region: \"zone_1\"\tRelError: 4.54891e-05\tAbsError: 1.12868e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.51644e-05\tAbsError: 1.25671e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.24705e-07\tAbsError: 1.12743e-04\n", - " Region: \"zone_3\"\tRelError: 2.05556e-04\tAbsError: 2.02519e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12163e-05\tAbsError: 1.36505e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10724e-05\tAbsError: 6.60139e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82943e-04\tAbsError: 1.30848e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.24777e-07\tAbsError: 1.12769e-04\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.67619e-05\tAbsError: 1.02422e+10\n", - " Region: \"zone_1\"\tRelError: 2.21445e-05\tAbsError: 4.91320e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.21303e-05\tAbsError: 5.33976e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41260e-08\tAbsError: 4.90786e-06\n", - " Region: \"zone_3\"\tRelError: 1.46175e-05\tAbsError: 1.02422e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.20200e-07\tAbsError: 5.93794e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.20801e-07\tAbsError: 4.30423e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35623e-05\tAbsError: 5.58038e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41284e-08\tAbsError: 4.90869e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:04\u001b[0m.\u001b[1;36m706\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.7000000000000001\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.68185e-04\tAbsError: 1.57528e+11\n", - " Region: \"zone_1\"\tRelError: 3.02594e-05\tAbsError: 1.46953e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.02175e-05\tAbsError: 1.00508e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.19359e-08\tAbsError: 1.45948e-05\n", - " Region: \"zone_3\"\tRelError: 1.37926e-04\tAbsError: 1.57528e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.15139e-06\tAbsError: 7.37040e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.07858e-06\tAbsError: 8.38241e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19654e-04\tAbsError: 1.03331e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.19521e-08\tAbsError: 1.46007e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 8.04368e+00\tAbsError: 5.76399e+16\n", - " Region: \"zone_1\"\tRelError: 6.20216e+00\tAbsError: 4.26152e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.20216e+00\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.91158e-09\tAbsError: 1.01133e-06\n", - " Region: \"zone_3\"\tRelError: 1.84152e+00\tAbsError: 5.76399e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.81952e-01\tAbsError: 2.86549e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.81071e-01\tAbsError: 2.89849e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78493e-01\tAbsError: 4.26142e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.91186e-09\tAbsError: 1.01143e-06\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 3.62519e-04\tAbsError: 8.85487e+10\n", - " Region: \"zone_1\"\tRelError: 2.58264e-04\tAbsError: 9.90724e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.58235e-04\tAbsError: 3.93706e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.84079e-08\tAbsError: 9.86787e-06\n", - " Region: \"zone_3\"\tRelError: 1.04255e-04\tAbsError: 8.85487e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.93727e-06\tAbsError: 4.96723e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.90392e-06\tAbsError: 3.88764e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 9.63857e-05\tAbsError: 4.02462e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.84165e-08\tAbsError: 9.87086e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.09882e-04\tAbsError: 1.05387e+11\n", - " Region: \"zone_1\"\tRelError: 1.91896e-05\tAbsError: 8.11152e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.91665e-05\tAbsError: 7.26801e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.30974e-08\tAbsError: 8.03884e-06\n", - " Region: \"zone_3\"\tRelError: 9.06925e-05\tAbsError: 1.05387e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41210e-06\tAbsError: 4.74044e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.36012e-06\tAbsError: 5.79823e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.78972e-05\tAbsError: 7.44246e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.31071e-08\tAbsError: 8.04242e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.11982e+00\tAbsError: 2.71568e+16\n", - " Region: \"zone_1\"\tRelError: 3.35178e+00\tAbsError: 4.09552e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.35178e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.75560e-09\tAbsError: 9.57391e-07\n", - " Region: \"zone_3\"\tRelError: 1.76804e+00\tAbsError: 2.71568e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68907e-01\tAbsError: 1.36090e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.68433e-01\tAbsError: 1.35478e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.30705e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.75592e-09\tAbsError: 9.57503e-07\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 5.47840e-05\tAbsError: 9.54711e+09\n", - " Region: \"zone_1\"\tRelError: 4.01920e-05\tAbsError: 5.92982e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.01749e-05\tAbsError: 4.76008e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70572e-08\tAbsError: 5.92506e-06\n", - " Region: \"zone_3\"\tRelError: 1.45920e-05\tAbsError: 9.54711e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.57614e-07\tAbsError: 5.39303e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.57465e-07\tAbsError: 4.15407e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.36599e-05\tAbsError: 4.87161e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70596e-08\tAbsError: 5.92588e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:06\u001b[0m.\u001b[1;36m793\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:06\u001b[0m.\u001b[1;36m793\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7428571428571428\u001b[0m \n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.44388e-05\tAbsError: 1.29327e+10\n", - " Region: \"zone_1\"\tRelError: 2.67541e-06\tAbsError: 8.73025e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.65031e-06\tAbsError: 7.36577e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.51027e-08\tAbsError: 8.72289e-06\n", - " Region: \"zone_3\"\tRelError: 1.17634e-05\tAbsError: 1.29327e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.52706e-07\tAbsError: 8.97101e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.39977e-07\tAbsError: 3.96172e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04456e-05\tAbsError: 7.66709e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.51079e-08\tAbsError: 8.72483e-06\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.86890e+00\tAbsError: 6.02920e+16\n", - " Region: \"zone_1\"\tRelError: 2.42910e-01\tAbsError: 2.38352e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.42317e-01\tAbsError: 3.27219e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.92373e-04\tAbsError: 2.05630e-01\n", - " Region: \"zone_3\"\tRelError: 1.62599e+00\tAbsError: 6.02920e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.58106e-01\tAbsError: 3.05392e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.16845e-01\tAbsError: 2.97528e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.50451e-01\tAbsError: 3.27220e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.92373e-04\tAbsError: 2.05630e-01\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:06\u001b[0m.\u001b[1;36m903\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.63125\u001b[0m \n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "number of equations 31816\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 7.21635e-06\tAbsError: 6.66070e+09\n", - " Region: \"zone_1\"\tRelError: 1.30608e-06\tAbsError: 5.92265e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28905e-06\tAbsError: 4.03393e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70320e-08\tAbsError: 5.91862e-06\n", - " Region: \"zone_3\"\tRelError: 5.91027e-06\tAbsError: 6.66070e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.61854e-07\tAbsError: 4.98332e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.27195e-07\tAbsError: 1.67738e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 5.20418e-06\tAbsError: 4.19235e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70346e-08\tAbsError: 5.91965e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:07\u001b[0m.\u001b[1;36m421\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.6\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.73275e+00\tAbsError: 2.68838e+16\n", - " Region: \"zone_1\"\tRelError: 1.92080e-01\tAbsError: 1.46306e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.91747e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.32681e-04\tAbsError: 1.15542e-01\n", - " Region: \"zone_3\"\tRelError: 1.54067e+00\tAbsError: 2.68838e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.36324e-01\tAbsError: 1.35736e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.01335e-01\tAbsError: 1.33102e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.02681e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.32681e-04\tAbsError: 1.15542e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.88825e+00\tAbsError: 3.66092e+16\n", - " Region: \"zone_1\"\tRelError: 5.83989e-01\tAbsError: 1.20812e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.83715e-01\tAbsError: 2.58680e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.73592e-04\tAbsError: 9.49436e-02\n", - " Region: \"zone_3\"\tRelError: 1.30426e+00\tAbsError: 3.66092e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.65737e-01\tAbsError: 1.87328e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.12024e-01\tAbsError: 1.78764e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 4.26225e-01\tAbsError: 2.44271e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.73592e-04\tAbsError: 9.49436e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.15149e+01\tAbsError: 5.17173e+16\n", - " Region: \"zone_1\"\tRelError: 9.68451e+00\tAbsError: 4.23844e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.68451e+00\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.76263e-09\tAbsError: 9.59637e-07\n", - " Region: \"zone_3\"\tRelError: 1.83044e+00\tAbsError: 5.17173e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80233e-01\tAbsError: 2.56822e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.79429e-01\tAbsError: 2.60351e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.70776e-01\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.76291e-09\tAbsError: 9.59736e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.41152e+01\tAbsError: 9.50503e+15\n", - " Region: \"zone_1\"\tRelError: 2.23613e+01\tAbsError: 4.22094e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.23613e+01\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.04249e-09\tAbsError: 3.62828e-07\n", - " Region: \"zone_3\"\tRelError: 1.75392e+00\tAbsError: 9.50503e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.80082e-01\tAbsError: 5.07100e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.79909e-01\tAbsError: 4.43403e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.93931e-01\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.04297e-09\tAbsError: 3.63001e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.57743e+01\tAbsError: 8.48667e+15\n", - " Region: \"zone_1\"\tRelError: 1.40602e+01\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40602e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.57556e-10\tAbsError: 1.24451e-07\n", - " Region: \"zone_3\"\tRelError: 1.71408e+00\tAbsError: 8.48667e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69582e-01\tAbsError: 4.51146e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69441e-01\tAbsError: 3.97521e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.75053e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.57765e-10\tAbsError: 1.24526e-07\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.12307e+00\tAbsError: 1.60442e+16\n", - " Region: \"zone_1\"\tRelError: 1.49907e-01\tAbsError: 9.31426e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49713e-01\tAbsError: 2.58569e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93773e-04\tAbsError: 6.72856e-02\n", - " Region: \"zone_3\"\tRelError: 9.73164e-01\tAbsError: 1.60442e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39500e-01\tAbsError: 8.04160e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.83757e-01\tAbsError: 8.00261e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49713e-01\tAbsError: 2.43087e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93773e-04\tAbsError: 6.72856e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.05061e+00\tAbsError: 1.23556e+16\n", - " Region: \"zone_1\"\tRelError: 5.12291e-01\tAbsError: 5.29221e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.12172e-01\tAbsError: 1.17189e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18739e-04\tAbsError: 4.12032e-02\n", - " Region: \"zone_3\"\tRelError: 5.38316e-01\tAbsError: 1.23556e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.01621e-01\tAbsError: 6.29025e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.14930e-01\tAbsError: 6.06537e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.21646e-01\tAbsError: 1.17190e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18771e-04\tAbsError: 4.12145e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.84618e+00\tAbsError: 5.28715e+16\n", - " Region: \"zone_1\"\tRelError: 2.36818e-01\tAbsError: 2.22968e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.36269e-01\tAbsError: 3.24492e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.48791e-04\tAbsError: 1.90518e-01\n", - " Region: \"zone_3\"\tRelError: 1.60937e+00\tAbsError: 5.28715e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.54300e-01\tAbsError: 2.70880e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.18083e-01\tAbsError: 2.57835e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.36434e-01\tAbsError: 3.24492e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.48791e-04\tAbsError: 1.90518e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.85845e+00\tAbsError: 8.90679e+15\n", - " Region: \"zone_1\"\tRelError: 3.16258e-01\tAbsError: 8.25488e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.16114e-01\tAbsError: 3.22432e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.44787e-04\tAbsError: 5.03056e-02\n", - " Region: \"zone_3\"\tRelError: 1.54219e+00\tAbsError: 8.90679e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.57509e-01\tAbsError: 4.31699e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.26535e-01\tAbsError: 4.58980e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.57998e-01\tAbsError: 3.22433e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.44787e-04\tAbsError: 5.03056e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 4.55570e+00\tAbsError: 5.16331e+15\n", - " Region: \"zone_1\"\tRelError: 3.06111e+00\tAbsError: 6.97364e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.06100e+00\tAbsError: 3.07634e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12162e-04\tAbsError: 3.89730e-02\n", - " Region: \"zone_3\"\tRelError: 1.49459e+00\tAbsError: 5.16331e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38938e-01\tAbsError: 2.46191e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.11412e-01\tAbsError: 2.70140e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.44124e-01\tAbsError: 3.07634e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12162e-04\tAbsError: 3.89730e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.25010e-01\tAbsError: 4.83168e+15\n", - " Region: \"zone_1\"\tRelError: 9.35029e-02\tAbsError: 6.02167e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.33558e-02\tAbsError: 9.16529e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47066e-04\tAbsError: 5.10514e-02\n", - " Region: \"zone_3\"\tRelError: 3.31507e-01\tAbsError: 4.83168e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.74852e-01\tAbsError: 2.44485e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.96161e-02\tAbsError: 2.38683e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.68922e-02\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47066e-04\tAbsError: 5.10514e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.04879e-01\tAbsError: 2.54878e+15\n", - " Region: \"zone_1\"\tRelError: 1.27217e-02\tAbsError: 2.65399e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19572e-02\tAbsError: 3.55247e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.64526e-04\tAbsError: 2.65044e-01\n", - " Region: \"zone_3\"\tRelError: 9.21577e-02\tAbsError: 2.54878e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.96473e-02\tAbsError: 1.41994e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.63665e-02\tAbsError: 1.12884e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.53794e-02\tAbsError: 3.55247e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.64526e-04\tAbsError: 2.65044e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.52308e+00\tAbsError: 3.28495e+16\n", - " Region: \"zone_1\"\tRelError: 3.42407e-01\tAbsError: 1.19297e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.42138e-01\tAbsError: 2.58048e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69384e-04\tAbsError: 9.34920e-02\n", - " Region: \"zone_3\"\tRelError: 1.18068e+00\tAbsError: 3.28495e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.63948e-01\tAbsError: 1.69253e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.02911e-01\tAbsError: 1.59242e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.13548e-01\tAbsError: 2.45952e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69384e-04\tAbsError: 9.34920e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.17207e+00\tAbsError: 6.17482e+15\n", - " Region: \"zone_1\"\tRelError: 1.28422e-01\tAbsError: 3.49522e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28396e-01\tAbsError: 2.58694e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.61752e-05\tAbsError: 9.08277e-03\n", - " Region: \"zone_3\"\tRelError: 1.04365e+00\tAbsError: 6.17482e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.74587e-01\tAbsError: 3.00441e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.29308e-01\tAbsError: 3.17042e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39725e-01\tAbsError: 2.54349e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.70096e-05\tAbsError: 9.37260e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.13964e+00\tAbsError: 3.47644e+15\n", - " Region: \"zone_1\"\tRelError: 1.85284e-01\tAbsError: 3.50197e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.85258e-01\tAbsError: 2.58979e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.62526e-05\tAbsError: 9.12177e-03\n", - " Region: \"zone_3\"\tRelError: 9.54354e-01\tAbsError: 3.47644e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.46208e-01\tAbsError: 1.62778e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.89583e-01\tAbsError: 1.84866e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18536e-01\tAbsError: 2.53855e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.62526e-05\tAbsError: 9.12177e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.30868e-01\tAbsError: 1.08442e+15\n", - " Region: \"zone_1\"\tRelError: 2.27753e-02\tAbsError: 2.15920e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.21537e-02\tAbsError: 2.84606e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.21607e-04\tAbsError: 2.15635e-01\n", - " Region: \"zone_3\"\tRelError: 1.08092e-01\tAbsError: 1.08442e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.76472e-02\tAbsError: 4.26455e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.43864e-02\tAbsError: 6.57964e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.54371e-02\tAbsError: 2.84606e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.21607e-04\tAbsError: 2.15635e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.96665e-01\tAbsError: 5.16423e+14\n", - " Region: \"zone_1\"\tRelError: 3.51283e-01\tAbsError: 1.69820e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.51234e-01\tAbsError: 6.58454e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.87925e-05\tAbsError: 1.69161e-02\n", - " Region: \"zone_3\"\tRelError: 2.45382e-01\tAbsError: 5.16423e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.89150e-03\tAbsError: 2.57999e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.81653e-03\tAbsError: 2.58423e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.35626e-01\tAbsError: 7.03970e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.87939e-05\tAbsError: 1.69169e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 7.62225e-01\tAbsError: 1.05010e+16\n", - " Region: \"zone_1\"\tRelError: 2.83844e-01\tAbsError: 4.59930e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.83744e-01\tAbsError: 1.13358e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.98633e-05\tAbsError: 3.46572e-02\n", - " Region: \"zone_3\"\tRelError: 4.78382e-01\tAbsError: 1.05010e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.99385e-01\tAbsError: 5.29788e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.14439e-01\tAbsError: 5.20316e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.64458e-01\tAbsError: 1.13359e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.98633e-05\tAbsError: 3.46572e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 7.26645e-01\tAbsError: 2.15278e+15\n", - " Region: \"zone_1\"\tRelError: 3.31433e-01\tAbsError: 6.05991e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.31290e-01\tAbsError: 1.10534e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42795e-04\tAbsError: 4.95458e-02\n", - " Region: \"zone_3\"\tRelError: 3.95212e-01\tAbsError: 2.15278e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12816e-01\tAbsError: 1.12567e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.35891e-01\tAbsError: 1.02711e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 4.63622e-02\tAbsError: 1.10535e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42916e-04\tAbsError: 4.95873e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 8.24095e-01\tAbsError: 1.04537e+15\n", - " Region: \"zone_1\"\tRelError: 4.93544e-01\tAbsError: 2.65000e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.93494e-01\tAbsError: 9.16559e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.98913e-05\tAbsError: 1.73344e-02\n", - " Region: \"zone_3\"\tRelError: 3.30551e-01\tAbsError: 1.04537e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84640e-01\tAbsError: 5.55503e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10521e-01\tAbsError: 4.89866e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.53403e-02\tAbsError: 9.16565e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.98913e-05\tAbsError: 1.73344e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.55617e-01\tAbsError: 2.35794e+14\n", - " Region: \"zone_1\"\tRelError: 4.99367e-02\tAbsError: 1.38607e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.98970e-02\tAbsError: 6.98741e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.97528e-05\tAbsError: 1.37908e-02\n", - " Region: \"zone_3\"\tRelError: 1.05680e-01\tAbsError: 2.35794e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.27300e-03\tAbsError: 1.18548e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.21148e-03\tAbsError: 1.17246e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.51557e-02\tAbsError: 7.06637e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.97528e-05\tAbsError: 1.37908e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.15967e-01\tAbsError: 2.31425e+15\n", - " Region: \"zone_1\"\tRelError: 1.78760e-02\tAbsError: 2.59537e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.71284e-02\tAbsError: 3.48918e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.47562e-04\tAbsError: 2.59188e-01\n", - " Region: \"zone_3\"\tRelError: 9.80906e-02\tAbsError: 2.31425e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.02699e-02\tAbsError: 1.24901e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.64089e-02\tAbsError: 1.06525e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 3.06641e-02\tAbsError: 3.48918e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.47562e-04\tAbsError: 2.59188e-01\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.23535e-02\tAbsError: 4.12264e+13\n", - " Region: \"zone_1\"\tRelError: 4.26477e-02\tAbsError: 7.52812e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 4.26260e-02\tAbsError: 5.04964e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.16985e-05\tAbsError: 7.52307e-03\n", - " Region: \"zone_3\"\tRelError: 2.97057e-02\tAbsError: 4.12264e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.92264e-04\tAbsError: 2.07706e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.00613e-04\tAbsError: 2.04559e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88912e-02\tAbsError: 5.61722e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17073e-05\tAbsError: 7.52586e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.16517e-01\tAbsError: 3.59072e+14\n", - " Region: \"zone_1\"\tRelError: 2.25771e-02\tAbsError: 4.51359e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.24477e-02\tAbsError: 2.19008e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.29405e-04\tAbsError: 4.49169e-02\n", - " Region: \"zone_3\"\tRelError: 9.39396e-02\tAbsError: 3.59072e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.49211e-02\tAbsError: 2.04313e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.11023e-02\tAbsError: 1.54759e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77866e-02\tAbsError: 2.31053e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.29562e-04\tAbsError: 4.49702e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.23262e-02\tAbsError: 1.95138e+14\n", - " Region: \"zone_1\"\tRelError: 2.57438e-02\tAbsError: 3.23382e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.56511e-02\tAbsError: 1.67807e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.26701e-05\tAbsError: 3.21704e-02\n", - " Region: \"zone_3\"\tRelError: 6.65824e-02\tAbsError: 1.95138e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.49682e-02\tAbsError: 6.65802e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.06072e-03\tAbsError: 1.28558e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.46071e-03\tAbsError: 1.74923e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.26947e-05\tAbsError: 3.21777e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.12114e-02\tAbsError: 1.98754e+13\n", - " Region: \"zone_1\"\tRelError: 7.04172e-03\tAbsError: 6.58751e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.02275e-03\tAbsError: 5.51750e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.89733e-05\tAbsError: 6.58199e-03\n", - " Region: \"zone_3\"\tRelError: 1.41697e-02\tAbsError: 1.98754e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43525e-04\tAbsError: 1.00008e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.47254e-04\tAbsError: 9.87467e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.32599e-02\tAbsError: 5.78756e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.89775e-05\tAbsError: 6.58354e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.78541e-01\tAbsError: 4.65128e+14\n", - " Region: \"zone_1\"\tRelError: 1.82836e-01\tAbsError: 1.66511e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82788e-01\tAbsError: 6.74606e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.78290e-05\tAbsError: 1.65836e-02\n", - " Region: \"zone_3\"\tRelError: 1.95705e-01\tAbsError: 4.65128e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.02898e-03\tAbsError: 2.34869e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.93659e-03\tAbsError: 2.30259e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.85691e-01\tAbsError: 7.16761e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.78290e-05\tAbsError: 1.65838e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.63082e-02\tAbsError: 2.31107e+13\n", - " Region: \"zone_1\"\tRelError: 2.74677e-02\tAbsError: 9.69805e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.74649e-02\tAbsError: 2.62228e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.78862e-06\tAbsError: 9.67182e-04\n", - " Region: \"zone_3\"\tRelError: 1.88405e-02\tAbsError: 2.31107e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.28188e-04\tAbsError: 1.16873e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.22003e-04\tAbsError: 1.14235e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.83875e-02\tAbsError: 2.74324e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.78980e-06\tAbsError: 9.67608e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.42280e-02\tAbsError: 2.47518e+13\n", - " Region: \"zone_1\"\tRelError: 5.53796e-03\tAbsError: 6.73994e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.53607e-03\tAbsError: 1.69800e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.89289e-06\tAbsError: 6.57014e-04\n", - " Region: \"zone_3\"\tRelError: 1.86900e-02\tAbsError: 2.47518e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.53333e-03\tAbsError: 1.14134e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.39823e-03\tAbsError: 1.33384e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.57566e-02\tAbsError: 1.77535e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.89838e-06\tAbsError: 6.58918e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.13427e-02\tAbsError: 1.62210e+13\n", - " Region: \"zone_1\"\tRelError: 1.73710e-02\tAbsError: 1.21679e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.73676e-02\tAbsError: 1.36050e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.46587e-06\tAbsError: 1.20318e-03\n", - " Region: \"zone_3\"\tRelError: 1.39717e-02\tAbsError: 1.62210e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.19687e-03\tAbsError: 6.47584e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.09668e-03\tAbsError: 9.74512e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16747e-02\tAbsError: 1.39577e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.46587e-06\tAbsError: 1.20318e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.24258e-02\tAbsError: 1.10918e+13\n", - " Region: \"zone_1\"\tRelError: 4.12899e-03\tAbsError: 9.16825e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.12635e-03\tAbsError: 2.69238e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.63359e-06\tAbsError: 9.14133e-04\n", - " Region: \"zone_3\"\tRelError: 8.29681e-03\tAbsError: 1.10918e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.48339e-04\tAbsError: 5.58229e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.46113e-04\tAbsError: 5.50951e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.79972e-03\tAbsError: 2.89698e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.63458e-06\tAbsError: 9.14508e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.69761e-02\tAbsError: 3.74524e+13\n", - " Region: \"zone_1\"\tRelError: 2.29430e-02\tAbsError: 7.42886e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29216e-02\tAbsError: 5.18656e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.14100e-05\tAbsError: 7.42368e-03\n", - " Region: \"zone_3\"\tRelError: 2.40331e-02\tAbsError: 3.74524e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.05669e-04\tAbsError: 1.90492e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.13087e-04\tAbsError: 1.84032e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.31929e-02\tAbsError: 5.75912e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.14194e-05\tAbsError: 7.42671e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.70521e-04\tAbsError: 5.09113e+11\n", - " Region: \"zone_1\"\tRelError: 8.68892e-05\tAbsError: 1.38144e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 8.29133e-05\tAbsError: 4.07789e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.97587e-06\tAbsError: 1.38103e-03\n", - " Region: \"zone_3\"\tRelError: 2.83632e-04\tAbsError: 5.09113e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.08586e-05\tAbsError: 3.02120e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.47789e-05\tAbsError: 2.06993e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.44019e-04\tAbsError: 4.12158e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.97592e-06\tAbsError: 1.38107e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 7.66909e-03\tAbsError: 3.14704e+12\n", - " Region: \"zone_1\"\tRelError: 4.55516e-03\tAbsError: 4.55926e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.55385e-03\tAbsError: 3.50181e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.31037e-06\tAbsError: 4.55576e-04\n", - " Region: \"zone_3\"\tRelError: 3.11393e-03\tAbsError: 3.14704e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.10265e-05\tAbsError: 1.59250e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.05073e-05\tAbsError: 1.55454e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.05109e-03\tAbsError: 3.58954e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.31089e-06\tAbsError: 4.55760e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.53065e-03\tAbsError: 7.24481e+11\n", - " Region: \"zone_1\"\tRelError: 1.49459e-03\tAbsError: 1.07639e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49149e-03\tAbsError: 6.55190e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.09641e-06\tAbsError: 1.07573e-03\n", - " Region: \"zone_3\"\tRelError: 1.03606e-03\tAbsError: 7.24481e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73129e-05\tAbsError: 2.45596e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.81580e-05\tAbsError: 4.78885e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 9.37490e-04\tAbsError: 6.76708e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.09642e-06\tAbsError: 1.07576e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.18008e-03\tAbsError: 1.59787e+12\n", - " Region: \"zone_1\"\tRelError: 7.30404e-04\tAbsError: 4.14536e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.29211e-04\tAbsError: 3.64518e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19313e-06\tAbsError: 4.14171e-04\n", - " Region: \"zone_3\"\tRelError: 1.44968e-03\tAbsError: 1.59787e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.59026e-05\tAbsError: 8.02763e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.55751e-05\tAbsError: 7.95108e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37700e-03\tAbsError: 3.97752e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19336e-06\tAbsError: 4.14251e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.95048e-02\tAbsError: 2.09949e+13\n", - " Region: \"zone_1\"\tRelError: 1.44604e-02\tAbsError: 9.66419e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.44577e-02\tAbsError: 2.58958e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.77866e-06\tAbsError: 9.63829e-04\n", - " Region: \"zone_3\"\tRelError: 1.50444e-02\tAbsError: 2.09949e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.32276e-04\tAbsError: 1.06900e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.27944e-04\tAbsError: 1.03050e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.45814e-02\tAbsError: 2.79912e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.77982e-06\tAbsError: 9.64263e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.84577e-03\tAbsError: 1.35231e+12\n", - " Region: \"zone_1\"\tRelError: 4.49302e-04\tAbsError: 7.76287e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.49080e-04\tAbsError: 6.67565e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.21714e-07\tAbsError: 7.69611e-05\n", - " Region: \"zone_3\"\tRelError: 1.39647e-03\tAbsError: 1.35231e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.27210e-05\tAbsError: 6.77214e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.23713e-05\tAbsError: 6.75091e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.27115e-03\tAbsError: 6.82002e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.21783e-07\tAbsError: 7.69826e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 3.25810e-03\tAbsError: 1.38433e+12\n", - " Region: \"zone_1\"\tRelError: 1.93579e-03\tAbsError: 8.23265e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.93556e-03\tAbsError: 1.42317e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36383e-07\tAbsError: 8.21841e-05\n", - " Region: \"zone_3\"\tRelError: 1.32231e-03\tAbsError: 1.38433e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.38095e-05\tAbsError: 7.00620e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.33622e-05\tAbsError: 6.83707e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29490e-03\tAbsError: 1.51943e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36475e-07\tAbsError: 8.22170e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.69038e-03\tAbsError: 1.04370e+12\n", - " Region: \"zone_1\"\tRelError: 1.58975e-03\tAbsError: 1.04879e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.58945e-03\tAbsError: 5.38488e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.00336e-07\tAbsError: 1.04341e-04\n", - " Region: \"zone_3\"\tRelError: 1.10063e-03\tAbsError: 1.04370e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.23814e-05\tAbsError: 5.26651e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.22994e-05\tAbsError: 5.17045e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 9.95649e-04\tAbsError: 5.63224e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.00360e-07\tAbsError: 1.04351e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 9.04358e-04\tAbsError: 6.91618e+11\n", - " Region: \"zone_1\"\tRelError: 3.02587e-04\tAbsError: 7.78938e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.02363e-04\tAbsError: 1.55785e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.23501e-07\tAbsError: 7.77380e-05\n", - " Region: \"zone_3\"\tRelError: 6.01772e-04\tAbsError: 6.91618e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.55559e-05\tAbsError: 3.47877e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.53466e-05\tAbsError: 3.43741e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.70646e-04\tAbsError: 1.69595e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.23586e-07\tAbsError: 7.77681e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 6.48585e-04\tAbsError: 2.47337e+11\n", - " Region: \"zone_1\"\tRelError: 3.85704e-04\tAbsError: 3.12578e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.85614e-04\tAbsError: 2.70859e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.98278e-08\tAbsError: 3.12307e-05\n", - " Region: \"zone_3\"\tRelError: 2.62881e-04\tAbsError: 2.47337e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.45149e-06\tAbsError: 1.25219e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.39340e-06\tAbsError: 1.22119e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.57946e-04\tAbsError: 2.86540e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.98642e-08\tAbsError: 3.12442e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 4.92425e-03\tAbsError: 2.88808e+12\n", - " Region: \"zone_1\"\tRelError: 2.42079e-03\tAbsError: 4.51314e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.41950e-03\tAbsError: 3.48348e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.29703e-06\tAbsError: 4.50966e-04\n", - " Region: \"zone_3\"\tRelError: 2.50346e-03\tAbsError: 2.88808e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.20028e-05\tAbsError: 1.46758e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.15452e-05\tAbsError: 1.42050e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.43861e-03\tAbsError: 3.69507e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.29753e-06\tAbsError: 4.51145e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.59664e-04\tAbsError: 7.21850e+10\n", - " Region: \"zone_1\"\tRelError: 3.97219e-05\tAbsError: 8.40966e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.94799e-05\tAbsError: 4.48581e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.41963e-07\tAbsError: 8.40517e-05\n", - " Region: \"zone_3\"\tRelError: 1.19942e-04\tAbsError: 7.21850e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.84724e-06\tAbsError: 3.25063e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.88000e-06\tAbsError: 3.96787e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11972e-04\tAbsError: 4.54967e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.42049e-07\tAbsError: 8.40819e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.87260e-04\tAbsError: 1.29403e+11\n", - " Region: \"zone_1\"\tRelError: 6.28801e-05\tAbsError: 2.91909e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.27963e-05\tAbsError: 3.06059e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.38368e-08\tAbsError: 2.91603e-05\n", - " Region: \"zone_3\"\tRelError: 1.24379e-04\tAbsError: 1.29403e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91169e-06\tAbsError: 6.49895e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.87741e-06\tAbsError: 6.44135e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18506e-04\tAbsError: 3.32307e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.38700e-08\tAbsError: 2.91722e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.67954e-04\tAbsError: 1.01821e+11\n", - " Region: \"zone_1\"\tRelError: 2.21136e-04\tAbsError: 6.97280e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20936e-04\tAbsError: 5.57180e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.00534e-07\tAbsError: 6.96723e-05\n", - " Region: \"zone_3\"\tRelError: 1.46817e-04\tAbsError: 1.01821e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.39462e-06\tAbsError: 5.27392e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.41727e-06\tAbsError: 4.90816e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35805e-04\tAbsError: 5.79583e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.00607e-07\tAbsError: 6.96980e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 2.27080e-04\tAbsError: 8.95041e+10\n", - " Region: \"zone_1\"\tRelError: 1.35033e-04\tAbsError: 6.56420e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35014e-04\tAbsError: 9.85787e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.88520e-08\tAbsError: 6.55434e-06\n", - " Region: \"zone_3\"\tRelError: 9.20470e-05\tAbsError: 8.95041e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.93785e-07\tAbsError: 4.53123e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.63978e-07\tAbsError: 4.41918e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 9.02704e-05\tAbsError: 1.05718e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.88598e-08\tAbsError: 6.55724e-06\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.08379e-03\tAbsError: 1.26566e+12\n", - " Region: \"zone_1\"\tRelError: 1.02437e-03\tAbsError: 8.20169e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02414e-03\tAbsError: 1.43461e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.35475e-07\tAbsError: 8.18735e-05\n", - " Region: \"zone_3\"\tRelError: 1.05941e-03\tAbsError: 1.26566e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.41101e-05\tAbsError: 6.43548e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.37336e-05\tAbsError: 6.22113e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03133e-03\tAbsError: 1.56834e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.35568e-07\tAbsError: 8.19066e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.30527e-04\tAbsError: 8.36755e+10\n", - " Region: \"zone_1\"\tRelError: 3.21528e-05\tAbsError: 9.58256e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.21253e-05\tAbsError: 3.75795e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.74775e-08\tAbsError: 9.54498e-06\n", - " Region: \"zone_3\"\tRelError: 9.83741e-05\tAbsError: 8.36755e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.76469e-06\tAbsError: 4.69627e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.73544e-06\tAbsError: 3.67128e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 9.08464e-05\tAbsError: 3.83355e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.74857e-08\tAbsError: 9.54784e-06\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 6.51617e-05\tAbsError: 4.65398e+10\n", - " Region: \"zone_1\"\tRelError: 2.18609e-05\tAbsError: 6.36014e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.18427e-05\tAbsError: 1.11819e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.82534e-08\tAbsError: 6.34896e-06\n", - " Region: \"zone_3\"\tRelError: 4.33008e-05\tAbsError: 4.65398e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04809e-06\tAbsError: 2.33986e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03254e-06\tAbsError: 2.31412e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.12019e-05\tAbsError: 1.20844e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.82605e-08\tAbsError: 6.35150e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:21\u001b[0m.\u001b[1;36m511\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.8 V. Current applied bias: 0.8\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.02562e-04\tAbsError: 6.84436e+10\n", - " Region: \"zone_1\"\tRelError: 1.21040e-04\tAbsError: 1.06970e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21010e-04\tAbsError: 3.27450e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.06942e-08\tAbsError: 1.06642e-05\n", - " Region: \"zone_3\"\tRelError: 8.15214e-05\tAbsError: 6.84436e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.33271e-06\tAbsError: 3.86456e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.32148e-06\tAbsError: 2.97979e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.48365e-05\tAbsError: 3.43670e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.07019e-08\tAbsError: 1.06669e-05\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 5.05688e-05\tAbsError: 1.87400e+10\n", - " Region: \"zone_1\"\tRelError: 3.00855e-05\tAbsError: 2.16282e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.00793e-05\tAbsError: 2.13512e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.21457e-09\tAbsError: 2.16069e-06\n", - " Region: \"zone_3\"\tRelError: 2.04834e-05\tAbsError: 1.87400e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.86175e-07\tAbsError: 9.48899e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.81057e-07\tAbsError: 9.25103e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.01099e-05\tAbsError: 2.27669e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.21717e-09\tAbsError: 2.16162e-06\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 4.16846e-04\tAbsError: 2.27990e+11\n", - " Region: \"zone_1\"\tRelError: 2.05214e-04\tAbsError: 3.10681e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.05125e-04\tAbsError: 2.73539e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.92758e-08\tAbsError: 3.10408e-05\n", - " Region: \"zone_3\"\tRelError: 2.11632e-04\tAbsError: 2.27990e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.53498e-06\tAbsError: 1.15719e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.48133e-06\tAbsError: 1.12271e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06527e-04\tAbsError: 2.97043e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.93115e-08\tAbsError: 3.10540e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.86463e-05\tAbsError: 9.22316e+09\n", - " Region: \"zone_1\"\tRelError: 4.64280e-06\tAbsError: 5.64037e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.62657e-06\tAbsError: 4.63704e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62238e-08\tAbsError: 5.63573e-06\n", - " Region: \"zone_3\"\tRelError: 1.40035e-05\tAbsError: 9.22316e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.46099e-07\tAbsError: 5.22327e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.46153e-07\tAbsError: 3.99989e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.30950e-05\tAbsError: 4.73572e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62261e-08\tAbsError: 5.63655e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:22\u001b[0m.\u001b[1;36m518\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:22\u001b[0m.\u001b[1;36m518\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7374999999999999\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.67619e-05\tAbsError: 1.02422e+10\n", - " Region: \"zone_1\"\tRelError: 2.21445e-05\tAbsError: 4.91320e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.21303e-05\tAbsError: 5.33976e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41260e-08\tAbsError: 4.90786e-06\n", - " Region: \"zone_3\"\tRelError: 1.46175e-05\tAbsError: 1.02422e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.20200e-07\tAbsError: 5.93794e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.20801e-07\tAbsError: 4.30421e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35623e-05\tAbsError: 5.58038e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41284e-08\tAbsError: 4.90869e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:23\u001b[0m.\u001b[1;36m083\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.7000000000000001\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.97502e+01\tAbsError: 1.32808e+17\n", - " Region: \"zone_1\"\tRelError: 2.76074e+01\tAbsError: 4.09563e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.76074e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.00798e-09\tAbsError: 2.08971e-06\n", - " Region: \"zone_3\"\tRelError: 2.14284e+00\tAbsError: 1.32808e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.64512e-01\tAbsError: 6.68287e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.62033e-01\tAbsError: 6.59795e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.16298e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.01029e-09\tAbsError: 2.09057e-06\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.45746e-04\tAbsError: 8.22905e+10\n", - " Region: \"zone_1\"\tRelError: 7.17400e-05\tAbsError: 6.55605e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 7.17211e-05\tAbsError: 9.99739e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.88270e-08\tAbsError: 6.54605e-06\n", - " Region: \"zone_3\"\tRelError: 7.40064e-05\tAbsError: 8.22905e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.17218e-07\tAbsError: 4.18049e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.91845e-07\tAbsError: 4.04856e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.21785e-05\tAbsError: 1.09283e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.88347e-08\tAbsError: 6.54890e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.04546e+01\tAbsError: 4.76402e+16\n", - " Region: \"zone_1\"\tRelError: 1.86325e+01\tAbsError: 4.22100e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86325e+01\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.66022e-09\tAbsError: 9.24093e-07\n", - " Region: \"zone_3\"\tRelError: 1.82215e+00\tAbsError: 4.76402e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78912e-01\tAbsError: 2.36618e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.78161e-01\tAbsError: 2.39784e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.65074e-01\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.66050e-09\tAbsError: 9.24192e-07\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 3.25825e-05\tAbsError: 1.73376e+10\n", - " Region: \"zone_1\"\tRelError: 1.60497e-05\tAbsError: 2.15828e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.60435e-05\tAbsError: 2.16924e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.20100e-09\tAbsError: 2.15611e-06\n", - " Region: \"zone_3\"\tRelError: 1.65328e-05\tAbsError: 1.73376e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.93034e-07\tAbsError: 8.79661e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.88292e-07\tAbsError: 8.54099e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.61453e-05\tAbsError: 2.36237e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.20362e-09\tAbsError: 2.15705e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 8.61535e+00\tAbsError: 1.17905e+17\n", - " Region: \"zone_1\"\tRelError: 7.44285e-01\tAbsError: 3.38569e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 7.43397e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.87545e-04\tAbsError: 3.07806e-01\n", - " Region: \"zone_3\"\tRelError: 7.87107e+00\tAbsError: 1.17905e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17750e-01\tAbsError: 5.81639e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.67341e-01\tAbsError: 5.97408e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.58509e+00\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.87924e-04\tAbsError: 3.07944e-01\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:24\u001b[0m.\u001b[1;36m622\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:24\u001b[0m.\u001b[1;36m654\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.85 V. Current applied bias: 0.85\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:24\u001b[0m.\u001b[1;36m656\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.0 bias\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:24\u001b[0m.\u001b[1;36m687\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.1\u001b[0m \n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 0\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 5.11982e+00\tAbsError: 2.71568e+16\n", - " Region: \"zone_1\"\tRelError: 3.35178e+00\tAbsError: 4.09552e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.35178e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.75560e-09\tAbsError: 9.57391e-07\n", - " Region: \"zone_3\"\tRelError: 1.76804e+00\tAbsError: 2.71568e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68907e-01\tAbsError: 1.36090e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.68433e-01\tAbsError: 1.35478e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.30705e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.75592e-09\tAbsError: 9.57503e-07\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.08204e+00\tAbsError: 4.87885e+16\n", - " Region: \"zone_1\"\tRelError: 4.80662e-01\tAbsError: 2.12907e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.80142e-01\tAbsError: 3.22431e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.20374e-04\tAbsError: 1.80664e-01\n", - " Region: \"zone_3\"\tRelError: 1.60138e+00\tAbsError: 4.87885e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.52649e-01\tAbsError: 2.49201e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.15413e-01\tAbsError: 2.38684e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.32794e-01\tAbsError: 3.22432e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.20374e-04\tAbsError: 1.80664e-01\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.28132e+02\tAbsError: 1.34002e+18\n", - " Region: \"zone_1\"\tRelError: 4.00745e+01\tAbsError: 8.44811e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.00745e+01\tAbsError: 8.44806e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43106e-09\tAbsError: 4.97552e-07\n", - " Region: \"zone_3\"\tRelError: 1.88058e+02\tAbsError: 1.34002e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 6.46807e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.21124e+02\tAbsError: 6.93209e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 5.79337e+01\tAbsError: 8.44807e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43165e-09\tAbsError: 4.97767e-07\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 6.05251e+00\tAbsError: 7.12298e+16\n", - " Region: \"zone_1\"\tRelError: 9.54106e-01\tAbsError: 5.37894e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.54025e-01\tAbsError: 2.58886e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.04593e-05\tAbsError: 2.79009e-02\n", - " Region: \"zone_3\"\tRelError: 5.09841e+00\tAbsError: 7.12298e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.89784e-01\tAbsError: 3.67872e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.99659e-01\tAbsError: 3.44425e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 4.40888e+00\tAbsError: 2.58912e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.04593e-05\tAbsError: 2.79009e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.73275e+00\tAbsError: 2.68838e+16\n", - " Region: \"zone_1\"\tRelError: 1.92080e-01\tAbsError: 1.46306e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.91747e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.32681e-04\tAbsError: 1.15542e-01\n", - " Region: \"zone_3\"\tRelError: 1.54067e+00\tAbsError: 2.68838e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.36324e-01\tAbsError: 1.35736e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.01335e-01\tAbsError: 1.33102e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.02681e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.32681e-04\tAbsError: 1.15542e-01\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.64105e+01\tAbsError: 2.59446e+17\n", - " Region: \"zone_1\"\tRelError: 2.00842e+01\tAbsError: 4.23839e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.00842e+01\tAbsError: 4.23834e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43343e-09\tAbsError: 4.98409e-07\n", - " Region: \"zone_3\"\tRelError: 6.32622e+00\tAbsError: 2.59446e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.70010e-01\tAbsError: 1.32083e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.64985e-01\tAbsError: 1.27363e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 4.79123e+00\tAbsError: 4.23835e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43403e-09\tAbsError: 4.98625e-07\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.37739e+00\tAbsError: 3.01043e+16\n", - " Region: \"zone_1\"\tRelError: 2.54827e-01\tAbsError: 1.16608e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.54565e-01\tAbsError: 2.57918e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.61657e-04\tAbsError: 9.08165e-02\n", - " Region: \"zone_3\"\tRelError: 1.12257e+00\tAbsError: 3.01043e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.61101e-01\tAbsError: 1.54576e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.03577e-01\tAbsError: 1.46466e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.57626e-01\tAbsError: 2.46829e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.61657e-04\tAbsError: 9.08165e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 7.68784e+01\tAbsError: 1.04367e+18\n", - " Region: \"zone_1\"\tRelError: 5.24013e+01\tAbsError: 5.04750e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.24001e+01\tAbsError: 8.10225e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22364e-03\tAbsError: 4.23727e-01\n", - " Region: \"zone_3\"\tRelError: 2.44771e+01\tAbsError: 1.04367e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 5.28959e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 5.14715e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 6.47589e+00\tAbsError: 8.10225e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22533e-03\tAbsError: 4.24299e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.96439e+00\tAbsError: 2.12374e+16\n", - " Region: \"zone_1\"\tRelError: 1.45967e+00\tAbsError: 2.87618e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.45886e+00\tAbsError: 9.16520e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03570e-04\tAbsError: 2.78453e-01\n", - " Region: \"zone_3\"\tRelError: 2.50473e+00\tAbsError: 2.12374e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.31487e-01\tAbsError: 1.07624e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.30649e-02\tAbsError: 1.04749e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.30937e+00\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03570e-04\tAbsError: 2.78453e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.12307e+00\tAbsError: 1.60442e+16\n", - " Region: \"zone_1\"\tRelError: 1.49907e-01\tAbsError: 9.31426e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49713e-01\tAbsError: 2.58569e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93773e-04\tAbsError: 6.72856e-02\n", - " Region: \"zone_3\"\tRelError: 9.73164e-01\tAbsError: 1.60442e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39500e-01\tAbsError: 8.04160e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.83757e-01\tAbsError: 8.00261e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49713e-01\tAbsError: 2.43087e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93773e-04\tAbsError: 6.72856e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.02422e+02\tAbsError: 2.63778e+17\n", - " Region: \"zone_1\"\tRelError: 1.85685e+01\tAbsError: 2.99586e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.85677e+01\tAbsError: 3.24491e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.70680e-04\tAbsError: 2.67137e-01\n", - " Region: \"zone_3\"\tRelError: 8.38537e+01\tAbsError: 2.63778e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.13259e-01\tAbsError: 1.33280e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.36876e-01\tAbsError: 1.30499e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 8.26028e+01\tAbsError: 3.24492e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.70680e-04\tAbsError: 2.67137e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 7.51142e-01\tAbsError: 9.33113e+15\n", - " Region: \"zone_1\"\tRelError: 3.05947e-01\tAbsError: 4.02202e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.05863e-01\tAbsError: 1.10524e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.40386e-05\tAbsError: 2.91677e-02\n", - " Region: \"zone_3\"\tRelError: 4.45195e-01\tAbsError: 9.33113e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.96551e-01\tAbsError: 4.72172e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.12941e-01\tAbsError: 4.60941e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35620e-01\tAbsError: 1.10525e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.40386e-05\tAbsError: 2.91677e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.75488e+03\tAbsError: 2.44334e+17\n", - " Region: \"zone_1\"\tRelError: 1.41546e+00\tAbsError: 3.55507e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40553e+00\tAbsError: 7.72108e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.93410e-03\tAbsError: 3.47786e+00\n", - " Region: \"zone_3\"\tRelError: 1.75347e+03\tAbsError: 2.44334e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.63420e+03\tAbsError: 1.25816e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.11660e+02\tAbsError: 1.18518e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 7.59442e+00\tAbsError: 7.72134e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.93410e-03\tAbsError: 3.47786e+00\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.06736e+00\tAbsError: 1.67079e+15\n", - " Region: \"zone_1\"\tRelError: 1.87002e-01\tAbsError: 2.94468e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86917e-01\tAbsError: 5.45669e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.47563e-05\tAbsError: 2.93922e-02\n", - " Region: \"zone_3\"\tRelError: 1.88036e+00\tAbsError: 1.67079e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95806e-02\tAbsError: 8.61655e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.32450e-03\tAbsError: 8.09135e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.85737e+00\tAbsError: 5.47236e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.50770e-05\tAbsError: 2.95046e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.25010e-01\tAbsError: 4.83168e+15\n", - " Region: \"zone_1\"\tRelError: 9.35029e-02\tAbsError: 6.02167e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.33558e-02\tAbsError: 9.16529e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47066e-04\tAbsError: 5.10514e-02\n", - " Region: \"zone_3\"\tRelError: 3.31507e-01\tAbsError: 4.83168e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.74852e-01\tAbsError: 2.44485e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.96161e-02\tAbsError: 2.38683e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.68922e-02\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47066e-04\tAbsError: 5.10514e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.63527e+01\tAbsError: 1.33800e+17\n", - " Region: \"zone_1\"\tRelError: 1.09015e+00\tAbsError: 1.41262e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08982e+00\tAbsError: 2.56418e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.33266e-04\tAbsError: 1.15620e-01\n", - " Region: \"zone_3\"\tRelError: 1.52625e+01\tAbsError: 1.33800e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.58876e-01\tAbsError: 6.72557e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.58560e-01\tAbsError: 6.65448e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.46448e+01\tAbsError: 2.58450e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.33331e-04\tAbsError: 1.15642e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.33797e-01\tAbsError: 2.13738e+15\n", - " Region: \"zone_1\"\tRelError: 3.22000e-02\tAbsError: 2.54939e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.14658e-02\tAbsError: 3.42748e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.34268e-04\tAbsError: 2.54597e-01\n", - " Region: \"zone_3\"\tRelError: 1.01597e-01\tAbsError: 2.13738e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.03029e-02\tAbsError: 1.12451e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.62975e-02\tAbsError: 1.01287e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 3.42622e-02\tAbsError: 3.42748e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.34268e-04\tAbsError: 2.54597e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.18948e+02\tAbsError: 4.94328e+16\n", - " Region: \"zone_1\"\tRelError: 5.73987e+00\tAbsError: 1.84809e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.73478e+00\tAbsError: 7.29586e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.09631e-03\tAbsError: 1.77513e+00\n", - " Region: \"zone_3\"\tRelError: 1.13208e+02\tAbsError: 4.94328e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.23685e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03096e+02\tAbsError: 2.70644e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10704e+00\tAbsError: 7.29586e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.09631e-03\tAbsError: 1.77513e+00\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.99757e-02\tAbsError: 6.03219e+13\n", - " Region: \"zone_1\"\tRelError: 5.28092e-03\tAbsError: 6.07421e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.26342e-03\tAbsError: 6.43272e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75062e-05\tAbsError: 6.06778e-03\n", - " Region: \"zone_3\"\tRelError: 2.46948e-02\tAbsError: 6.03219e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52421e-04\tAbsError: 2.92320e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.21852e-04\tAbsError: 3.10899e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.41030e-02\tAbsError: 6.47112e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75095e-05\tAbsError: 6.06885e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.30868e-01\tAbsError: 1.08442e+15\n", - " Region: \"zone_1\"\tRelError: 2.27753e-02\tAbsError: 2.15920e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.21537e-02\tAbsError: 2.84606e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.21607e-04\tAbsError: 2.15635e-01\n", - " Region: \"zone_3\"\tRelError: 1.08092e-01\tAbsError: 1.08442e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.76472e-02\tAbsError: 4.26455e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.43864e-02\tAbsError: 6.57964e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.54371e-02\tAbsError: 2.84606e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.21607e-04\tAbsError: 2.15635e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.85212e+00\tAbsError: 2.60146e+16\n", - " Region: \"zone_1\"\tRelError: 1.52146e-01\tAbsError: 2.92736e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51334e-01\tAbsError: 1.13356e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.12031e-04\tAbsError: 2.81400e-01\n", - " Region: \"zone_3\"\tRelError: 2.69997e+00\tAbsError: 2.60146e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.83870e-02\tAbsError: 1.30339e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.80323e-02\tAbsError: 1.29807e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.56274e+00\tAbsError: 1.13359e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.12031e-04\tAbsError: 2.81400e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.09062e-01\tAbsError: 4.29859e+14\n", - " Region: \"zone_1\"\tRelError: 1.36304e-01\tAbsError: 1.63400e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.36257e-01\tAbsError: 6.84743e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.69255e-05\tAbsError: 1.62715e-02\n", - " Region: \"zone_3\"\tRelError: 1.72757e-01\tAbsError: 4.29859e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.11437e-03\tAbsError: 2.18144e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.01341e-03\tAbsError: 2.11715e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.62583e-01\tAbsError: 7.23727e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.69255e-05\tAbsError: 1.62715e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.23517e+03\tAbsError: 7.85419e+15\n", - " Region: \"zone_1\"\tRelError: 2.90624e+00\tAbsError: 9.08322e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.90382e+00\tAbsError: 6.81818e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.41775e-03\tAbsError: 8.40141e-01\n", - " Region: \"zone_3\"\tRelError: 1.23227e+03\tAbsError: 7.85419e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.21294e+02\tAbsError: 4.15991e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.10398e+02\tAbsError: 3.69428e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.73661e-01\tAbsError: 6.81819e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.41775e-03\tAbsError: 8.40141e-01\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.10405e-01\tAbsError: 3.12560e+13\n", - " Region: \"zone_1\"\tRelError: 1.08840e-02\tAbsError: 4.61195e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08827e-02\tAbsError: 1.71511e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32204e-06\tAbsError: 4.59479e-04\n", - " Region: \"zone_3\"\tRelError: 9.95213e-02\tAbsError: 3.12560e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34947e-04\tAbsError: 1.52362e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.27748e-04\tAbsError: 1.60198e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.92573e-02\tAbsError: 1.72813e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32271e-06\tAbsError: 4.59705e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.55617e-01\tAbsError: 2.35794e+14\n", - " Region: \"zone_1\"\tRelError: 4.99367e-02\tAbsError: 1.38607e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.98970e-02\tAbsError: 6.98741e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.97528e-05\tAbsError: 1.37908e-02\n", - " Region: \"zone_3\"\tRelError: 1.05680e-01\tAbsError: 2.35794e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.27300e-03\tAbsError: 1.18548e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.21148e-03\tAbsError: 1.17246e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.51557e-02\tAbsError: 7.06637e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.97528e-05\tAbsError: 1.37908e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.37163e-01\tAbsError: 2.74535e+15\n", - " Region: \"zone_1\"\tRelError: 4.29834e-02\tAbsError: 3.88215e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.28716e-02\tAbsError: 5.15121e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11776e-04\tAbsError: 3.87699e-02\n", - " Region: \"zone_3\"\tRelError: 5.94179e-01\tAbsError: 2.74535e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.22686e-02\tAbsError: 1.41321e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.01916e-03\tAbsError: 1.33214e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.79780e-01\tAbsError: 5.22069e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11776e-04\tAbsError: 3.87699e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.88220e-02\tAbsError: 3.48889e+13\n", - " Region: \"zone_1\"\tRelError: 1.73872e-02\tAbsError: 7.35021e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.73660e-02\tAbsError: 5.27671e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.11825e-05\tAbsError: 7.34493e-03\n", - " Region: \"zone_3\"\tRelError: 2.14348e-02\tAbsError: 3.48889e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.14000e-04\tAbsError: 1.77623e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.20581e-04\tAbsError: 1.71267e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.05790e-02\tAbsError: 5.82302e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.11913e-05\tAbsError: 7.34810e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.76205e+03\tAbsError: 5.21427e+15\n", - " Region: \"zone_1\"\tRelError: 2.12718e+00\tAbsError: 1.73590e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.12686e+00\tAbsError: 6.27474e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.18881e-04\tAbsError: 1.10843e-01\n", - " Region: \"zone_3\"\tRelError: 1.75993e+03\tAbsError: 5.21427e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.86052e+01\tAbsError: 3.34252e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.73093e+03\tAbsError: 1.87175e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 3.93221e-01\tAbsError: 6.27475e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.18881e-04\tAbsError: 1.10843e-01\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.63047e-03\tAbsError: 9.09027e+11\n", - " Region: \"zone_1\"\tRelError: 4.56990e-04\tAbsError: 3.44629e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.55999e-04\tAbsError: 1.41300e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.91190e-07\tAbsError: 3.44488e-04\n", - " Region: \"zone_3\"\tRelError: 4.17348e-03\tAbsError: 9.09027e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.33335e-06\tAbsError: 4.38047e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.02288e-05\tAbsError: 4.70980e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.15793e-03\tAbsError: 1.42246e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.91601e-07\tAbsError: 3.44637e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.12114e-02\tAbsError: 1.98754e+13\n", - " Region: \"zone_1\"\tRelError: 7.04172e-03\tAbsError: 6.58751e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.02275e-03\tAbsError: 5.51750e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.89733e-05\tAbsError: 6.58199e-03\n", - " Region: \"zone_3\"\tRelError: 1.41697e-02\tAbsError: 1.98754e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43525e-04\tAbsError: 1.00008e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.47254e-04\tAbsError: 9.87467e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.32599e-02\tAbsError: 5.78756e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.89775e-05\tAbsError: 6.58354e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 8.12610e-03\tAbsError: 1.23500e+14\n", - " Region: \"zone_1\"\tRelError: 9.58048e-04\tAbsError: 4.98507e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 9.43691e-04\tAbsError: 9.96836e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43564e-05\tAbsError: 4.97510e-03\n", - " Region: \"zone_3\"\tRelError: 7.16806e-03\tAbsError: 1.23500e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.59288e-04\tAbsError: 6.07343e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.92957e-04\tAbsError: 6.27659e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.60145e-03\tAbsError: 1.00518e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43584e-05\tAbsError: 4.97565e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.41308e-02\tAbsError: 1.96068e+13\n", - " Region: \"zone_1\"\tRelError: 1.08376e-02\tAbsError: 9.63415e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08348e-02\tAbsError: 2.59318e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.76972e-06\tAbsError: 9.60822e-04\n", - " Region: \"zone_3\"\tRelError: 1.32932e-02\tAbsError: 1.96068e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.35702e-04\tAbsError: 9.96822e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.31894e-04\tAbsError: 9.63862e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28228e-02\tAbsError: 2.83052e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.77088e-06\tAbsError: 9.61249e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.14565e+04\tAbsError: 9.14413e+14\n", - " Region: \"zone_1\"\tRelError: 1.39595e-01\tAbsError: 7.87478e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39531e-01\tAbsError: 5.64826e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.40500e-05\tAbsError: 2.22652e-02\n", - " Region: \"zone_3\"\tRelError: 1.14564e+04\tAbsError: 9.14413e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33345e+02\tAbsError: 5.59104e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.13229e+04\tAbsError: 3.55309e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.59181e-02\tAbsError: 5.64827e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.40500e-05\tAbsError: 2.22652e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.49771e-03\tAbsError: 1.64940e+12\n", - " Region: \"zone_1\"\tRelError: 6.42053e-04\tAbsError: 1.77929e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.42002e-04\tAbsError: 9.99896e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.09050e-08\tAbsError: 1.76929e-05\n", - " Region: \"zone_3\"\tRelError: 5.85566e-03\tAbsError: 1.64940e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.16109e-06\tAbsError: 8.03293e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.70130e-06\tAbsError: 8.46106e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.84174e-03\tAbsError: 1.00703e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.09341e-08\tAbsError: 1.77035e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.24258e-02\tAbsError: 1.10918e+13\n", - " Region: \"zone_1\"\tRelError: 4.12899e-03\tAbsError: 9.16825e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.12635e-03\tAbsError: 2.69238e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.63359e-06\tAbsError: 9.14133e-04\n", - " Region: \"zone_3\"\tRelError: 8.29681e-03\tAbsError: 1.10918e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.48339e-04\tAbsError: 5.58229e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.46113e-04\tAbsError: 5.50951e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.79972e-03\tAbsError: 2.89698e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.63458e-06\tAbsError: 9.14508e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.19304e-02\tAbsError: 3.37625e+13\n", - " Region: \"zone_1\"\tRelError: 2.21148e-03\tAbsError: 9.26970e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20882e-03\tAbsError: 1.29677e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.66313e-06\tAbsError: 9.25674e-04\n", - " Region: \"zone_3\"\tRelError: 2.97189e-02\tAbsError: 3.37625e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.98425e-05\tAbsError: 1.66919e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.50345e-05\tAbsError: 1.70706e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.95814e-02\tAbsError: 1.31036e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.66438e-06\tAbsError: 9.26102e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 4.04917e-03\tAbsError: 2.71056e+12\n", - " Region: \"zone_1\"\tRelError: 1.82570e-03\tAbsError: 4.47863e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82441e-03\tAbsError: 3.48647e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.28704e-06\tAbsError: 4.47514e-04\n", - " Region: \"zone_3\"\tRelError: 2.22347e-03\tAbsError: 2.71056e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.27242e-05\tAbsError: 1.37539e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.22424e-05\tAbsError: 1.33517e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.15721e-03\tAbsError: 3.75577e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.28753e-06\tAbsError: 4.47690e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 6.80714e+02\tAbsError: 5.90884e+14\n", - " Region: \"zone_1\"\tRelError: 1.77888e-01\tAbsError: 6.36192e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77846e-01\tAbsError: 4.91583e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.16492e-05\tAbsError: 1.44608e-02\n", - " Region: \"zone_3\"\tRelError: 6.80536e+02\tAbsError: 5.90884e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.80589e+02\tAbsError: 3.66469e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.99871e+02\tAbsError: 2.24415e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.58870e-02\tAbsError: 4.91584e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.16492e-05\tAbsError: 1.44608e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 5.44825e-04\tAbsError: 5.87780e+10\n", - " Region: \"zone_1\"\tRelError: 5.39394e-05\tAbsError: 2.02429e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.38812e-05\tAbsError: 6.87611e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.82246e-08\tAbsError: 2.02360e-05\n", - " Region: \"zone_3\"\tRelError: 4.90886e-04\tAbsError: 5.87780e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.46411e-07\tAbsError: 2.85251e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.30809e-07\tAbsError: 3.02529e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.90250e-04\tAbsError: 6.91269e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.82487e-08\tAbsError: 2.02448e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.18008e-03\tAbsError: 1.59787e+12\n", - " Region: \"zone_1\"\tRelError: 7.30404e-04\tAbsError: 4.14536e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.29211e-04\tAbsError: 3.64518e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19313e-06\tAbsError: 4.14171e-04\n", - " Region: \"zone_3\"\tRelError: 1.44968e-03\tAbsError: 1.59787e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.59026e-05\tAbsError: 8.02763e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.55751e-05\tAbsError: 7.95108e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37700e-03\tAbsError: 3.97752e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19336e-06\tAbsError: 4.14251e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.90227e-04\tAbsError: 3.92351e+12\n", - " Region: \"zone_1\"\tRelError: 2.72528e-05\tAbsError: 2.64592e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.64923e-05\tAbsError: 2.92098e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.60517e-07\tAbsError: 2.64299e-04\n", - " Region: \"zone_3\"\tRelError: 1.62974e-04\tAbsError: 3.92351e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.77297e-06\tAbsError: 1.93410e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.01457e-05\tAbsError: 1.98941e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43295e-04\tAbsError: 2.94818e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.60830e-07\tAbsError: 2.64413e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.70902e-03\tAbsError: 1.18602e+12\n", - " Region: \"zone_1\"\tRelError: 7.70426e-04\tAbsError: 8.17764e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.70191e-04\tAbsError: 1.44392e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.34769e-07\tAbsError: 8.16320e-05\n", - " Region: \"zone_3\"\tRelError: 9.38599e-04\tAbsError: 1.18602e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.43307e-05\tAbsError: 6.02246e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.40177e-05\tAbsError: 5.83770e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 9.10015e-04\tAbsError: 1.60170e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.34863e-07\tAbsError: 8.16654e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.92595e-04\tAbsError: 9.49473e+10\n", - " Region: \"zone_1\"\tRelError: 3.87978e-05\tAbsError: 2.02444e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.87920e-05\tAbsError: 5.96621e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.80757e-09\tAbsError: 2.01847e-06\n", - " Region: \"zone_3\"\tRelError: 3.53797e-04\tAbsError: 9.49473e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.10989e-07\tAbsError: 4.62324e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.83783e-07\tAbsError: 4.87150e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.52997e-04\tAbsError: 6.00786e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.81025e-09\tAbsError: 2.01943e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.62289e+03\tAbsError: 1.35295e+14\n", - " Region: \"zone_1\"\tRelError: 5.75586e-02\tAbsError: 5.58816e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.75143e-02\tAbsError: 4.04895e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.43294e-05\tAbsError: 1.53921e-02\n", - " Region: \"zone_3\"\tRelError: 6.62283e+03\tAbsError: 1.35295e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.47649e+03\tAbsError: 7.04604e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.14628e+03\tAbsError: 6.48349e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.78569e-02\tAbsError: 4.04896e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.43426e-05\tAbsError: 1.53969e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 9.04358e-04\tAbsError: 6.91618e+11\n", - " Region: \"zone_1\"\tRelError: 3.02587e-04\tAbsError: 7.78938e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.02363e-04\tAbsError: 1.55785e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.23501e-07\tAbsError: 7.77380e-05\n", - " Region: \"zone_3\"\tRelError: 6.01772e-04\tAbsError: 6.91618e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.55559e-05\tAbsError: 3.47877e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.53466e-05\tAbsError: 3.43741e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.70646e-04\tAbsError: 1.69595e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.23586e-07\tAbsError: 7.77681e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.75434e-03\tAbsError: 1.68359e+12\n", - " Region: \"zone_1\"\tRelError: 1.21747e-04\tAbsError: 2.56631e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21674e-04\tAbsError: 7.10609e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.36274e-08\tAbsError: 2.55920e-05\n", - " Region: \"zone_3\"\tRelError: 1.63259e-03\tAbsError: 1.68359e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.52476e-06\tAbsError: 8.33155e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.22622e-06\tAbsError: 8.50439e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.62577e-03\tAbsError: 7.17605e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.36655e-08\tAbsError: 2.56055e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.43139e-04\tAbsError: 2.14557e+11\n", - " Region: \"zone_1\"\tRelError: 1.54959e-04\tAbsError: 3.09318e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.54870e-04\tAbsError: 2.76396e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.88786e-08\tAbsError: 3.09042e-05\n", - " Region: \"zone_3\"\tRelError: 1.88179e-04\tAbsError: 2.14557e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.59423e-06\tAbsError: 1.08761e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.54319e-06\tAbsError: 1.05796e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82953e-04\tAbsError: 3.04381e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.89137e-08\tAbsError: 3.09172e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 5.03275e-05\tAbsError: 9.08763e+09\n", - " Region: \"zone_1\"\tRelError: 4.97773e-06\tAbsError: 1.23989e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.97416e-06\tAbsError: 6.85123e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.56554e-09\tAbsError: 1.23921e-06\n", - " Region: \"zone_3\"\tRelError: 4.53497e-05\tAbsError: 9.08763e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.78500e-08\tAbsError: 4.42118e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.59273e-08\tAbsError: 4.66645e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 4.52724e-05\tAbsError: 6.89457e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.56702e-09\tAbsError: 1.23975e-06\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.07738e+00\tAbsError: 5.24938e+13\n", - " Region: \"zone_1\"\tRelError: 4.20260e-02\tAbsError: 5.38334e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.19580e-02\tAbsError: 3.02166e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.80118e-05\tAbsError: 2.36168e-02\n", - " Region: \"zone_3\"\tRelError: 2.03535e+00\tAbsError: 5.24938e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99267e-01\tAbsError: 7.06322e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.93883e-01\tAbsError: 4.54306e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.21368e-02\tAbsError: 3.02167e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.80118e-05\tAbsError: 2.36168e-02\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.87260e-04\tAbsError: 1.29403e+11\n", - " Region: \"zone_1\"\tRelError: 6.28801e-05\tAbsError: 2.91909e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.27963e-05\tAbsError: 3.06059e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.38368e-08\tAbsError: 2.91603e-05\n", - " Region: \"zone_3\"\tRelError: 1.24379e-04\tAbsError: 1.29403e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91169e-06\tAbsError: 6.49895e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.87741e-06\tAbsError: 6.44135e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18506e-04\tAbsError: 3.32307e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.38700e-08\tAbsError: 2.91722e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.80245e-05\tAbsError: 9.30200e+10\n", - " Region: \"zone_1\"\tRelError: 3.43660e-06\tAbsError: 1.44112e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.39515e-06\tAbsError: 7.79802e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14454e-08\tAbsError: 1.44034e-05\n", - " Region: \"zone_3\"\tRelError: 4.45879e-05\tAbsError: 9.30200e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.20234e-07\tAbsError: 4.57981e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.97102e-07\tAbsError: 4.72219e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.39291e-05\tAbsError: 7.86903e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.14632e-08\tAbsError: 1.44099e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.19883e-04\tAbsError: 7.73891e+10\n", - " Region: \"zone_1\"\tRelError: 5.41255e-05\tAbsError: 6.55072e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.41067e-05\tAbsError: 1.00869e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.88105e-08\tAbsError: 6.54063e-06\n", - " Region: \"zone_3\"\tRelError: 6.57577e-05\tAbsError: 7.73891e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.36349e-07\tAbsError: 3.92657e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.13567e-07\tAbsError: 3.81234e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 6.38890e-05\tAbsError: 1.11778e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.88181e-08\tAbsError: 6.54345e-06\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.81503e+00\tAbsError: 4.93850e+13\n", - " Region: \"zone_1\"\tRelError: 3.33651e-02\tAbsError: 5.43994e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.32830e-02\tAbsError: 2.58915e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.20906e-05\tAbsError: 2.85079e-02\n", - " Region: \"zone_3\"\tRelError: 2.78166e+00\tAbsError: 4.93850e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.72297e+00\tAbsError: 8.45730e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.53292e-02\tAbsError: 4.09277e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.32830e-02\tAbsError: 2.51005e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.20906e-05\tAbsError: 2.85079e-02\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 6.51617e-05\tAbsError: 4.65398e+10\n", - " Region: \"zone_1\"\tRelError: 2.18609e-05\tAbsError: 6.36014e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.18427e-05\tAbsError: 1.11819e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.82534e-08\tAbsError: 6.34896e-06\n", - " Region: \"zone_3\"\tRelError: 4.33008e-05\tAbsError: 4.65398e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04809e-06\tAbsError: 2.33986e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03254e-06\tAbsError: 2.31412e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.12019e-05\tAbsError: 1.20844e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.82605e-08\tAbsError: 6.35150e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:39\u001b[0m.\u001b[1;36m943\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.8\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 2.68795e-05\tAbsError: 1.63620e+10\n", - " Region: \"zone_1\"\tRelError: 1.21466e-05\tAbsError: 2.15576e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21404e-05\tAbsError: 2.19556e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.19338e-09\tAbsError: 2.15356e-06\n", - " Region: \"zone_3\"\tRelError: 1.47329e-05\tAbsError: 1.63620e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98044e-07\tAbsError: 8.29145e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.93539e-07\tAbsError: 8.07050e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43351e-05\tAbsError: 2.42330e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.19602e-09\tAbsError: 2.15451e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:40\u001b[0m.\u001b[1;36m358\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.84375\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 6.22571e-01\tAbsError: 4.56857e+14\n", - " Region: \"zone_1\"\tRelError: 1.62060e-02\tAbsError: 1.05814e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.59258e-02\tAbsError: 8.53133e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.80210e-04\tAbsError: 9.72823e-02\n", - " Region: \"zone_3\"\tRelError: 6.06365e-01\tAbsError: 4.56857e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.73228e-01\tAbsError: 1.16314e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.46418e-03\tAbsError: 4.45226e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.53932e-02\tAbsError: 8.53142e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.80210e-04\tAbsError: 9.72823e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:40\u001b[0m.\u001b[1;36m916\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:40\u001b[0m.\u001b[1;36m958\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.05 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:40\u001b[0m.\u001b[1;36m999\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.97502e+01\tAbsError: 1.32808e+17\n", - " Region: \"zone_1\"\tRelError: 2.76074e+01\tAbsError: 4.09563e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.76074e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.00798e-09\tAbsError: 2.08971e-06\n", - " Region: \"zone_3\"\tRelError: 2.14284e+00\tAbsError: 1.32808e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.64512e-01\tAbsError: 6.68287e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.62033e-01\tAbsError: 6.59795e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.16298e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.01029e-09\tAbsError: 2.09057e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:41\u001b[0m.\u001b[1;36m721\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:41\u001b[0m.\u001b[1;36m771\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.1 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:41\u001b[0m.\u001b[1;36m807\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 2.43642e-01\tAbsError: 4.53193e+14\n", - " Region: \"zone_1\"\tRelError: 3.32872e-02\tAbsError: 1.60168e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.28268e-02\tAbsError: 2.34656e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.60457e-04\tAbsError: 1.59933e-01\n", - " Region: \"zone_3\"\tRelError: 2.10355e-01\tAbsError: 4.53193e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.41955e-01\tAbsError: 2.34411e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.91718e-03\tAbsError: 4.29752e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.20225e-02\tAbsError: 2.41034e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.60457e-04\tAbsError: 1.59933e-01\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.05327e+02\tAbsError: 2.40340e+17\n", - " Region: \"zone_1\"\tRelError: 8.42457e+01\tAbsError: 4.22095e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.42457e+01\tAbsError: 4.22090e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43581e-09\tAbsError: 4.99261e-07\n", - " Region: \"zone_3\"\tRelError: 2.10810e+01\tAbsError: 2.40340e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69705e-01\tAbsError: 1.22173e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.65105e-01\tAbsError: 1.18167e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.95462e+01\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43642e-09\tAbsError: 4.99480e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.41602e+03\tAbsError: 3.06873e+18\n", - " Region: \"zone_1\"\tRelError: 1.78720e+03\tAbsError: 8.63291e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.78720e+03\tAbsError: 8.63289e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.16236e-10\tAbsError: 1.79418e-07\n", - " Region: \"zone_3\"\tRelError: 6.28825e+02\tAbsError: 3.06873e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.49638e+01\tAbsError: 1.38375e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.90759e+02\tAbsError: 1.68499e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 2.23103e+02\tAbsError: 8.63291e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.16460e-10\tAbsError: 1.79501e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 9.37033e+02\tAbsError: 4.27377e+18\n", - " Region: \"zone_1\"\tRelError: 3.36757e+02\tAbsError: 8.80545e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.36757e+02\tAbsError: 8.80540e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.28124e-09\tAbsError: 4.45311e-07\n", - " Region: \"zone_3\"\tRelError: 6.00276e+02\tAbsError: 4.27377e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.41012e+02\tAbsError: 2.14036e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.34799e+02\tAbsError: 2.13341e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 2.24465e+02\tAbsError: 8.80543e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.28210e-09\tAbsError: 4.45624e-07\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 8.61535e+00\tAbsError: 1.17905e+17\n", - " Region: \"zone_1\"\tRelError: 7.44285e-01\tAbsError: 3.38569e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 7.43397e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.87545e-04\tAbsError: 3.07806e-01\n", - " Region: \"zone_3\"\tRelError: 7.87107e+00\tAbsError: 1.17905e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17750e-01\tAbsError: 5.81639e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.67341e-01\tAbsError: 5.97408e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.58509e+00\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.87924e-04\tAbsError: 3.07944e-01\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 9.86343e-02\tAbsError: 8.08179e+13\n", - " Region: \"zone_1\"\tRelError: 2.27654e-02\tAbsError: 5.27781e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.27505e-02\tAbsError: 1.02870e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.48829e-05\tAbsError: 5.17494e-03\n", - " Region: \"zone_3\"\tRelError: 7.58690e-02\tAbsError: 8.08179e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.13342e-02\tAbsError: 2.81884e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10914e-02\tAbsError: 5.26295e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.34284e-02\tAbsError: 1.03806e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.48829e-05\tAbsError: 5.17494e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.09455e+01\tAbsError: 2.40473e+17\n", - " Region: \"zone_1\"\tRelError: 4.86841e+00\tAbsError: 3.09883e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.86761e+00\tAbsError: 3.22430e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.00931e-04\tAbsError: 2.77640e-01\n", - " Region: \"zone_3\"\tRelError: 6.07711e+00\tAbsError: 2.40473e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.15444e-01\tAbsError: 1.20661e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.41229e-01\tAbsError: 1.19812e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 4.81963e+00\tAbsError: 3.22432e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.00931e-04\tAbsError: 2.77640e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.09721e+02\tAbsError: 2.60473e+18\n", - " Region: \"zone_1\"\tRelError: 7.91237e+01\tAbsError: 5.60850e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 7.91223e+01\tAbsError: 8.30497e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.38072e-03\tAbsError: 4.77800e-01\n", - " Region: \"zone_3\"\tRelError: 3.05977e+01\tAbsError: 2.60473e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.22649e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.37824e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 1.25964e+01\tAbsError: 8.30498e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.38072e-03\tAbsError: 4.77800e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.87054e+02\tAbsError: 3.69608e+18\n", - " Region: \"zone_1\"\tRelError: 2.66785e+01\tAbsError: 9.63796e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.66760e+01\tAbsError: 8.49343e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.53527e-03\tAbsError: 8.78861e-01\n", - " Region: \"zone_3\"\tRelError: 1.60376e+02\tAbsError: 3.69608e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.85943e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.43347e+01\tAbsError: 1.83665e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 9.70387e+01\tAbsError: 8.49344e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.53674e-03\tAbsError: 8.79382e-01\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 1.20075e-02\tAbsError: 5.18518e+12\n", - " Region: \"zone_1\"\tRelError: 3.52721e-03\tAbsError: 5.58056e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.51116e-03\tAbsError: 3.17947e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60410e-05\tAbsError: 5.57738e-03\n", - " Region: \"zone_3\"\tRelError: 8.48034e-03\tAbsError: 5.18518e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.41100e-04\tAbsError: 2.88203e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.22185e-04\tAbsError: 2.30315e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.60101e-03\tAbsError: 3.31547e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60410e-05\tAbsError: 5.57738e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 6.05251e+00\tAbsError: 7.12298e+16\n", - " Region: \"zone_1\"\tRelError: 9.54106e-01\tAbsError: 5.37894e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.54025e-01\tAbsError: 2.58886e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.04593e-05\tAbsError: 2.79009e-02\n", - " Region: \"zone_3\"\tRelError: 5.09841e+00\tAbsError: 7.12298e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.89784e-01\tAbsError: 3.67872e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.99659e-01\tAbsError: 3.44425e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 4.40888e+00\tAbsError: 2.58912e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.04593e-05\tAbsError: 2.79009e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 4.98539e+00\tAbsError: 1.26295e+17\n", - " Region: \"zone_1\"\tRelError: 2.24304e+00\tAbsError: 1.18280e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.24277e+00\tAbsError: 2.58625e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.66362e-04\tAbsError: 9.24173e-02\n", - " Region: \"zone_3\"\tRelError: 2.74235e+00\tAbsError: 1.26295e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.63874e-01\tAbsError: 6.36874e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.67792e-01\tAbsError: 6.26079e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.11042e+00\tAbsError: 2.58990e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.66406e-04\tAbsError: 9.24296e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 3.06185e+01\tAbsError: 4.23532e+17\n", - " Region: \"zone_1\"\tRelError: 8.20322e-01\tAbsError: 5.01433e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 8.06267e-01\tAbsError: 7.94496e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.40542e-02\tAbsError: 4.93488e+00\n", - " Region: \"zone_3\"\tRelError: 2.97982e+01\tAbsError: 4.23532e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.06356e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.17176e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17841e+01\tAbsError: 7.94512e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.40542e-02\tAbsError: 4.93488e+00\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 8.10308e-03\tAbsError: 5.43438e+12\n", - " Region: \"zone_1\"\tRelError: 2.15894e-03\tAbsError: 6.82302e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.15699e-03\tAbsError: 4.13314e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.95036e-06\tAbsError: 6.78169e-04\n", - " Region: \"zone_3\"\tRelError: 5.94415e-03\tAbsError: 5.43438e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.41785e-04\tAbsError: 2.63367e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.38178e-04\tAbsError: 2.80072e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.86223e-03\tAbsError: 4.17705e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.95089e-06\tAbsError: 6.78355e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 3.08699e+02\tAbsError: 6.01534e+17\n", - " Region: \"zone_1\"\tRelError: 8.57260e+00\tAbsError: 4.30788e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 8.56054e+00\tAbsError: 8.15209e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20604e-02\tAbsError: 4.22635e+00\n", - " Region: \"zone_3\"\tRelError: 3.00127e+02\tAbsError: 6.01534e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.88214e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.42861e+02\tAbsError: 3.13321e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 4.82531e+01\tAbsError: 8.15210e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20783e-02\tAbsError: 4.23287e+00\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.96439e+00\tAbsError: 2.12374e+16\n", - " Region: \"zone_1\"\tRelError: 1.45967e+00\tAbsError: 2.87618e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.45886e+00\tAbsError: 9.16520e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03570e-04\tAbsError: 2.78453e-01\n", - " Region: \"zone_3\"\tRelError: 2.50473e+00\tAbsError: 2.12374e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.31487e-01\tAbsError: 1.07624e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.30649e-02\tAbsError: 1.04749e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.30937e+00\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03570e-04\tAbsError: 2.78453e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 7.12900e-01\tAbsError: 2.65152e+16\n", - " Region: \"zone_1\"\tRelError: 2.51915e-01\tAbsError: 2.84686e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.51125e-01\tAbsError: 1.10522e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.89640e-04\tAbsError: 2.73634e-01\n", - " Region: \"zone_3\"\tRelError: 4.60986e-01\tAbsError: 2.65152e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.02169e-01\tAbsError: 1.32909e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.08802e-02\tAbsError: 1.32243e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.17147e-01\tAbsError: 1.10525e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.89640e-04\tAbsError: 2.73634e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.06736e+03\tAbsError: 8.87050e+16\n", - " Region: \"zone_1\"\tRelError: 1.23696e+00\tAbsError: 1.85167e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.23188e+00\tAbsError: 7.54578e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.08395e-03\tAbsError: 1.77622e+00\n", - " Region: \"zone_3\"\tRelError: 3.06612e+03\tAbsError: 8.87050e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.99485e+03\tAbsError: 5.55600e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.99885e+01\tAbsError: 3.31450e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.27295e+00\tAbsError: 7.54578e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.09190e-03\tAbsError: 1.77902e+00\n", - "Iteration: 16\n", - " Device: \"device\"\tRelError: 1.33093e-03\tAbsError: 6.47227e+11\n", - " Region: \"zone_1\"\tRelError: 3.76552e-04\tAbsError: 3.83474e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.75451e-04\tAbsError: 4.53566e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10153e-06\tAbsError: 3.83020e-04\n", - " Region: \"zone_3\"\tRelError: 9.54375e-04\tAbsError: 6.47227e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.44244e-05\tAbsError: 3.63104e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.40917e-05\tAbsError: 2.84123e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 8.24757e-04\tAbsError: 4.58961e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10198e-06\tAbsError: 3.83177e-04\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.81005e+01\tAbsError: 1.51046e+17\n", - " Region: \"zone_1\"\tRelError: 2.47539e+01\tAbsError: 8.87921e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.47516e+01\tAbsError: 7.77584e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.31701e-03\tAbsError: 8.10163e-01\n", - " Region: \"zone_3\"\tRelError: 1.33466e+01\tAbsError: 1.51046e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.06614e+00\tAbsError: 1.02024e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.23401e+00\tAbsError: 4.90221e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04413e+00\tAbsError: 7.77584e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.31701e-03\tAbsError: 8.10163e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.06736e+00\tAbsError: 1.67079e+15\n", - " Region: \"zone_1\"\tRelError: 1.87002e-01\tAbsError: 2.94468e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86917e-01\tAbsError: 5.45669e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.47563e-05\tAbsError: 2.93922e-02\n", - " Region: \"zone_3\"\tRelError: 1.88036e+00\tAbsError: 1.67079e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95806e-02\tAbsError: 8.61655e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.32450e-03\tAbsError: 8.09135e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.85737e+00\tAbsError: 5.47236e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.50770e-05\tAbsError: 2.95046e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.71203e-01\tAbsError: 2.64478e+15\n", - " Region: \"zone_1\"\tRelError: 7.37964e-02\tAbsError: 4.38243e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.36702e-02\tAbsError: 5.07687e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26208e-04\tAbsError: 4.37736e-02\n", - " Region: \"zone_3\"\tRelError: 1.97407e-01\tAbsError: 2.64478e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.32945e-02\tAbsError: 1.36876e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.09641e-03\tAbsError: 1.27602e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.81889e-01\tAbsError: 5.14090e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26670e-04\tAbsError: 4.39325e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.34773e+03\tAbsError: 2.46923e+16\n", - " Region: \"zone_1\"\tRelError: 5.61102e+00\tAbsError: 1.65414e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.60647e+00\tAbsError: 7.09984e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.55217e-03\tAbsError: 1.58314e+00\n", - " Region: \"zone_3\"\tRelError: 1.34212e+03\tAbsError: 2.46923e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.23183e+01\tAbsError: 1.45002e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.31944e+03\tAbsError: 1.01922e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.52564e-01\tAbsError: 7.09985e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.55217e-03\tAbsError: 1.58314e+00\n", - "Iteration: 17\n", - " Device: \"device\"\tRelError: 6.27078e-04\tAbsError: 3.72961e+11\n", - " Region: \"zone_1\"\tRelError: 1.71680e-04\tAbsError: 6.72679e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.71487e-04\tAbsError: 2.54116e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.92726e-07\tAbsError: 6.70138e-05\n", - " Region: \"zone_3\"\tRelError: 4.55398e-04\tAbsError: 3.72961e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.60431e-05\tAbsError: 2.04507e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.57839e-05\tAbsError: 1.68455e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.83378e-04\tAbsError: 2.56993e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.92766e-07\tAbsError: 6.70275e-05\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 4.59577e+02\tAbsError: 7.82143e+16\n", - " Region: \"zone_1\"\tRelError: 2.03812e+02\tAbsError: 2.08058e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03806e+02\tAbsError: 7.35754e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.77336e-03\tAbsError: 2.00701e+00\n", - " Region: \"zone_3\"\tRelError: 2.55765e+02\tAbsError: 7.82143e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.13137e+00\tAbsError: 4.66961e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.46425e+02\tAbsError: 3.15182e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03151e-01\tAbsError: 7.35755e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.77445e-03\tAbsError: 2.00753e+00\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.99757e-02\tAbsError: 6.03219e+13\n", - " Region: \"zone_1\"\tRelError: 5.28092e-03\tAbsError: 6.07421e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.26342e-03\tAbsError: 6.43272e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75062e-05\tAbsError: 6.06778e-03\n", - " Region: \"zone_3\"\tRelError: 2.46948e-02\tAbsError: 6.03219e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52421e-04\tAbsError: 2.92320e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.21852e-04\tAbsError: 3.10899e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.41030e-02\tAbsError: 6.47112e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75095e-05\tAbsError: 6.06885e-03\n", - "Iteration: 18\n", - " Device: \"device\"\tRelError: 1.26073e-04\tAbsError: 6.34613e+10\n", - " Region: \"zone_1\"\tRelError: 3.54567e-05\tAbsError: 2.82723e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.53755e-05\tAbsError: 4.27763e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.11860e-08\tAbsError: 2.82296e-05\n", - " Region: \"zone_3\"\tRelError: 9.06159e-05\tAbsError: 6.34613e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.26251e-06\tAbsError: 3.67455e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.22962e-06\tAbsError: 2.67158e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.80425e-05\tAbsError: 4.32836e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.12039e-08\tAbsError: 2.82359e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.02394e-03\tAbsError: 1.42075e+14\n", - " Region: \"zone_1\"\tRelError: 1.02173e-03\tAbsError: 4.60762e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00847e-03\tAbsError: 1.08220e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32649e-05\tAbsError: 4.59680e-03\n", - " Region: \"zone_3\"\tRelError: 4.00220e-03\tAbsError: 1.42075e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.14122e-04\tAbsError: 6.97525e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.15155e-04\tAbsError: 7.23226e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.35966e-03\tAbsError: 1.09108e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32665e-05\tAbsError: 4.59729e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.21180e+03\tAbsError: 2.42164e+15\n", - " Region: \"zone_1\"\tRelError: 6.49855e-01\tAbsError: 2.64728e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 6.49283e-01\tAbsError: 6.59600e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.71867e-04\tAbsError: 1.98768e-01\n", - " Region: \"zone_3\"\tRelError: 1.21115e+03\tAbsError: 2.42164e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.79812e+02\tAbsError: 1.29139e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.30741e+02\tAbsError: 1.13025e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.93252e-01\tAbsError: 6.59600e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.71867e-04\tAbsError: 1.98768e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.17213e+02\tAbsError: 1.25554e+16\n", - " Region: \"zone_1\"\tRelError: 2.19150e+00\tAbsError: 1.09716e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.19139e+00\tAbsError: 6.88787e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.17693e-04\tAbsError: 4.08372e-02\n", - " Region: \"zone_3\"\tRelError: 3.15021e+02\tAbsError: 1.25554e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 5.86596e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.05049e+02\tAbsError: 6.68940e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.71668e-01\tAbsError: 6.88788e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.17693e-04\tAbsError: 4.08372e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.10405e-01\tAbsError: 3.12560e+13\n", - " Region: \"zone_1\"\tRelError: 1.08840e-02\tAbsError: 4.61195e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08827e-02\tAbsError: 1.71511e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32204e-06\tAbsError: 4.59479e-04\n", - " Region: \"zone_3\"\tRelError: 9.95213e-02\tAbsError: 3.12560e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34947e-04\tAbsError: 1.52362e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.27748e-04\tAbsError: 1.60198e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.92573e-02\tAbsError: 1.72813e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32271e-06\tAbsError: 4.59705e-04\n", - "Iteration: 19\n", - " Device: \"device\"\tRelError: 4.83955e-05\tAbsError: 2.70607e+10\n", - " Region: \"zone_1\"\tRelError: 1.33880e-05\tAbsError: 6.01952e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33708e-05\tAbsError: 1.77378e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72607e-08\tAbsError: 6.00179e-06\n", - " Region: \"zone_3\"\tRelError: 3.50075e-05\tAbsError: 2.70607e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.61535e-06\tAbsError: 1.56370e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.59676e-06\tAbsError: 1.14238e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.97781e-05\tAbsError: 1.79440e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72632e-08\tAbsError: 6.00268e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:50\u001b[0m.\u001b[1;36m234\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.2\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.28731e-02\tAbsError: 3.02293e+13\n", - " Region: \"zone_1\"\tRelError: 3.52908e-03\tAbsError: 1.06265e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.52602e-03\tAbsError: 1.19751e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.05388e-06\tAbsError: 1.06145e-03\n", - " Region: \"zone_3\"\tRelError: 9.34401e-03\tAbsError: 3.02293e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.79799e-05\tAbsError: 1.49185e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.36191e-05\tAbsError: 1.53108e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.20936e-03\tAbsError: 1.20971e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.05536e-06\tAbsError: 1.06195e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.65504e+03\tAbsError: 6.16435e+14\n", - " Region: \"zone_1\"\tRelError: 1.90949e-01\tAbsError: 9.65343e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.90844e-01\tAbsError: 6.01966e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.04401e-04\tAbsError: 3.63377e-02\n", - " Region: \"zone_3\"\tRelError: 2.65485e+03\tAbsError: 6.16435e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.90035e+03\tAbsError: 4.15710e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.54397e+02\tAbsError: 2.00726e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04014e-01\tAbsError: 6.01966e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.04442e-04\tAbsError: 3.63528e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.04629e+04\tAbsError: 2.37437e+15\n", - " Region: \"zone_1\"\tRelError: 4.74917e-01\tAbsError: 2.24943e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.74453e-01\tAbsError: 6.35445e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.64520e-04\tAbsError: 1.61399e-01\n", - " Region: \"zone_3\"\tRelError: 1.04625e+04\tAbsError: 2.37437e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07391e+01\tAbsError: 1.41468e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.04516e+04\tAbsError: 9.59690e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.42411e-01\tAbsError: 6.35445e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.64913e-04\tAbsError: 1.61539e-01\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.63047e-03\tAbsError: 9.09027e+11\n", - " Region: \"zone_1\"\tRelError: 4.56990e-04\tAbsError: 3.44629e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.55999e-04\tAbsError: 1.41300e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.91190e-07\tAbsError: 3.44488e-04\n", - " Region: \"zone_3\"\tRelError: 4.17348e-03\tAbsError: 9.09027e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.33335e-06\tAbsError: 4.38047e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.02288e-05\tAbsError: 4.70980e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.15793e-03\tAbsError: 1.42246e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.91601e-07\tAbsError: 3.44637e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.87539e-04\tAbsError: 5.02822e+12\n", - " Region: \"zone_1\"\tRelError: 1.19584e-04\tAbsError: 2.34142e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18911e-04\tAbsError: 3.38653e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.72773e-07\tAbsError: 2.33803e-04\n", - " Region: \"zone_3\"\tRelError: 3.67955e-04\tAbsError: 5.02822e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.18819e-05\tAbsError: 2.47643e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.05162e-05\tAbsError: 2.55180e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.44883e-04\tAbsError: 3.41809e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.73051e-07\tAbsError: 2.33906e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.71665e+00\tAbsError: 8.34849e+15\n", - " Region: \"zone_1\"\tRelError: 2.08783e+00\tAbsError: 4.09564e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.08783e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.19011e-09\tAbsError: 2.15239e-06\n", - " Region: \"zone_3\"\tRelError: 1.62882e+00\tAbsError: 8.34849e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69544e-01\tAbsError: 4.67018e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69471e-01\tAbsError: 3.67831e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.98079e-02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.19102e-09\tAbsError: 2.15271e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.39969e+02\tAbsError: 2.18179e+14\n", - " Region: \"zone_1\"\tRelError: 8.33405e-02\tAbsError: 7.51246e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.32783e-02\tAbsError: 5.35128e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.22639e-05\tAbsError: 2.16117e-02\n", - " Region: \"zone_3\"\tRelError: 1.39885e+02\tAbsError: 2.18179e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.25875e+01\tAbsError: 9.31122e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.27214e+02\tAbsError: 1.25067e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.35329e-02\tAbsError: 5.35129e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.22639e-05\tAbsError: 2.16117e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.10179e+04\tAbsError: 1.16660e+15\n", - " Region: \"zone_1\"\tRelError: 3.25898e-01\tAbsError: 7.98044e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.25833e-01\tAbsError: 5.74069e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.45576e-05\tAbsError: 2.23976e-02\n", - " Region: \"zone_3\"\tRelError: 3.10176e+04\tAbsError: 1.16660e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39601e+03\tAbsError: 7.27993e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.66214e+04\tAbsError: 4.38604e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21043e-01\tAbsError: 5.74070e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.45735e-05\tAbsError: 2.24025e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.49771e-03\tAbsError: 1.64940e+12\n", - " Region: \"zone_1\"\tRelError: 6.42053e-04\tAbsError: 1.77929e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.42002e-04\tAbsError: 9.99896e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.09050e-08\tAbsError: 1.76929e-05\n", - " Region: \"zone_3\"\tRelError: 5.85566e-03\tAbsError: 1.64940e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.16109e-06\tAbsError: 8.03293e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.70130e-06\tAbsError: 8.46106e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.84174e-03\tAbsError: 1.00703e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.09341e-08\tAbsError: 1.77035e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.72996e-04\tAbsError: 1.42516e+12\n", - " Region: \"zone_1\"\tRelError: 1.84920e-04\tAbsError: 3.38943e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.84823e-04\tAbsError: 6.24884e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.73397e-08\tAbsError: 3.38318e-05\n", - " Region: \"zone_3\"\tRelError: 4.88075e-04\tAbsError: 1.42516e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.24640e-06\tAbsError: 7.04060e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.97985e-06\tAbsError: 7.21095e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.81752e-04\tAbsError: 6.30893e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.73857e-08\tAbsError: 3.38479e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 5.53468e+02\tAbsError: 1.83800e+14\n", - " Region: \"zone_1\"\tRelError: 6.52479e-02\tAbsError: 6.97119e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.51786e-02\tAbsError: 4.56537e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.93074e-05\tAbsError: 2.40582e-02\n", - " Region: \"zone_3\"\tRelError: 5.53402e+02\tAbsError: 1.83800e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.44590e+02\tAbsError: 3.99742e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.74701e+00\tAbsError: 1.43826e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.56062e-02\tAbsError: 4.56538e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.93074e-05\tAbsError: 2.40582e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.50135e+00\tAbsError: 2.91712e+14\n", - " Region: \"zone_1\"\tRelError: 6.56152e-02\tAbsError: 8.99313e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.54450e-02\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70195e-04\tAbsError: 5.91677e-02\n", - " Region: \"zone_3\"\tRelError: 1.43573e+00\tAbsError: 2.91712e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37692e-01\tAbsError: 1.49991e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32867e-01\tAbsError: 1.41722e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.50013e-02\tAbsError: 3.07641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70195e-04\tAbsError: 5.91677e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 5.52298e+03\tAbsError: 2.95926e+14\n", - " Region: \"zone_1\"\tRelError: 8.12337e-02\tAbsError: 8.96310e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.11201e-02\tAbsError: 5.02451e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13516e-04\tAbsError: 3.93859e-02\n", - " Region: \"zone_3\"\tRelError: 5.52289e+03\tAbsError: 2.95926e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.32970e+03\tAbsError: 4.16430e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.19311e+03\tAbsError: 2.54283e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.54394e-02\tAbsError: 5.02452e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13516e-04\tAbsError: 3.93859e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 5.44825e-04\tAbsError: 5.87780e+10\n", - " Region: \"zone_1\"\tRelError: 5.39394e-05\tAbsError: 2.02429e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.38812e-05\tAbsError: 6.87611e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.82246e-08\tAbsError: 2.02360e-05\n", - " Region: \"zone_3\"\tRelError: 4.90886e-04\tAbsError: 5.87780e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.46411e-07\tAbsError: 2.85251e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.30809e-07\tAbsError: 3.02529e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.90250e-04\tAbsError: 6.91269e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.82487e-08\tAbsError: 2.02448e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.68662e-05\tAbsError: 1.68112e+11\n", - " Region: \"zone_1\"\tRelError: 4.17110e-06\tAbsError: 1.20331e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.13651e-06\tAbsError: 1.05474e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.45951e-08\tAbsError: 1.20225e-05\n", - " Region: \"zone_3\"\tRelError: 1.26951e-05\tAbsError: 1.68112e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.02854e-07\tAbsError: 8.28209e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.89403e-07\tAbsError: 8.52907e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18682e-05\tAbsError: 1.06472e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.46105e-08\tAbsError: 1.20282e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:54\u001b[0m.\u001b[1;36m620\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.95 V. Current applied bias: 0.95\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 9.34092e-01\tAbsError: 3.63176e+13\n", - " Region: \"zone_1\"\tRelError: 4.74090e-02\tAbsError: 3.08418e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.73947e-02\tAbsError: 2.58899e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42438e-05\tAbsError: 4.95187e-03\n", - " Region: \"zone_3\"\tRelError: 8.86683e-01\tAbsError: 3.63176e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40041e-01\tAbsError: 2.66178e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.98904e-01\tAbsError: 9.69976e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.77237e-02\tAbsError: 2.58388e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42438e-05\tAbsError: 4.95187e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.06872e+01\tAbsError: 1.51429e+14\n", - " Region: \"zone_1\"\tRelError: 4.87097e-02\tAbsError: 6.88565e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.86160e-02\tAbsError: 3.63251e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.37085e-05\tAbsError: 3.25314e-02\n", - " Region: \"zone_3\"\tRelError: 4.06385e+01\tAbsError: 1.51429e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.01309e+01\tAbsError: 4.50003e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.58697e-01\tAbsError: 1.46929e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.87811e-02\tAbsError: 3.63252e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.37085e-05\tAbsError: 3.25314e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.43220e+02\tAbsError: 2.99755e+14\n", - " Region: \"zone_1\"\tRelError: 5.65647e-02\tAbsError: 8.60901e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.64370e-02\tAbsError: 4.17803e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27691e-04\tAbsError: 4.43098e-02\n", - " Region: \"zone_3\"\tRelError: 1.43164e+02\tAbsError: 2.99755e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.02854e+01\tAbsError: 6.91875e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.28172e+01\tAbsError: 2.92836e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.08944e-02\tAbsError: 4.17805e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27747e-04\tAbsError: 4.43292e-02\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.92595e-04\tAbsError: 9.49473e+10\n", - " Region: \"zone_1\"\tRelError: 3.87978e-05\tAbsError: 2.02444e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.87920e-05\tAbsError: 5.96621e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.80757e-09\tAbsError: 2.01847e-06\n", - " Region: \"zone_3\"\tRelError: 3.53797e-04\tAbsError: 9.49473e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.10989e-07\tAbsError: 4.62324e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.83783e-07\tAbsError: 4.87150e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.52997e-04\tAbsError: 6.00786e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.81025e-09\tAbsError: 2.01943e-06\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.10412e+00\tAbsError: 1.49221e+14\n", - " Region: \"zone_1\"\tRelError: 3.55745e-02\tAbsError: 6.71415e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.54542e-02\tAbsError: 2.53668e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20320e-04\tAbsError: 4.17747e-02\n", - " Region: \"zone_3\"\tRelError: 1.06855e+00\tAbsError: 1.49221e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.63379e-01\tAbsError: 1.22026e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.75653e-02\tAbsError: 1.37018e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.74841e-02\tAbsError: 2.57075e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20320e-04\tAbsError: 4.17747e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.84661e-01\tAbsError: 3.60686e+12\n", - " Region: \"zone_1\"\tRelError: 1.51217e-02\tAbsError: 1.24487e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51123e-02\tAbsError: 9.16566e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.44373e-06\tAbsError: 3.28309e-03\n", - " Region: \"zone_3\"\tRelError: 2.69539e-01\tAbsError: 3.60686e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12296e-01\tAbsError: 2.19866e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.19182e-02\tAbsError: 1.40820e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.53153e-02\tAbsError: 9.16570e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.44373e-06\tAbsError: 3.28309e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.50413e+02\tAbsError: 1.00117e+18\n", - " Region: \"zone_1\"\tRelError: 2.24824e+02\tAbsError: 4.22098e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.24824e+02\tAbsError: 4.22089e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.80922e-09\tAbsError: 9.76412e-07\n", - " Region: \"zone_3\"\tRelError: 2.55890e+01\tAbsError: 1.00117e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.19984e-01\tAbsError: 4.87971e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.98829e-01\tAbsError: 5.13196e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 2.41702e+01\tAbsError: 4.22091e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.81054e-09\tAbsError: 9.76858e-07\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.24163e+03\tAbsError: 3.12356e+14\n", - " Region: \"zone_1\"\tRelError: 4.63736e-02\tAbsError: 9.00220e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.62056e-02\tAbsError: 3.17369e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67936e-04\tAbsError: 5.82850e-02\n", - " Region: \"zone_3\"\tRelError: 3.24159e+03\tAbsError: 3.12356e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.24035e+03\tAbsError: 1.81390e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.18548e+00\tAbsError: 2.94217e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.76331e-02\tAbsError: 3.17371e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67973e-04\tAbsError: 5.82975e-02\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 5.03275e-05\tAbsError: 9.08763e+09\n", - " Region: \"zone_1\"\tRelError: 4.97773e-06\tAbsError: 1.23989e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.97416e-06\tAbsError: 6.85123e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.56554e-09\tAbsError: 1.23921e-06\n", - " Region: \"zone_3\"\tRelError: 4.53497e-05\tAbsError: 9.08763e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.78500e-08\tAbsError: 4.42118e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.59273e-08\tAbsError: 4.66645e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 4.52724e-05\tAbsError: 6.89457e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.56702e-09\tAbsError: 1.23975e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:37:56\u001b[0m.\u001b[1;36m819\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 0.9 V. Current applied bias: 0.9\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 5.25803e-01\tAbsError: 1.09345e+14\n", - " Region: \"zone_1\"\tRelError: 2.16781e-02\tAbsError: 6.89999e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.15304e-02\tAbsError: 1.77021e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47726e-04\tAbsError: 5.12977e-02\n", - " Region: \"zone_3\"\tRelError: 5.04125e-01\tAbsError: 1.09345e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.76084e-01\tAbsError: 8.19390e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.13922e-03\tAbsError: 1.01152e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.17546e-02\tAbsError: 1.77023e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47726e-04\tAbsError: 5.12977e-02\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.11827e+00\tAbsError: 2.77763e+14\n", - " Region: \"zone_1\"\tRelError: 3.25038e-02\tAbsError: 1.01854e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.22849e-02\tAbsError: 2.58441e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18958e-04\tAbsError: 7.60097e-02\n", - " Region: \"zone_3\"\tRelError: 1.08576e+00\tAbsError: 2.77763e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99187e-01\tAbsError: 1.92358e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.41534e-02\tAbsError: 2.58528e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.22056e-02\tAbsError: 2.42935e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18972e-04\tAbsError: 7.60143e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.15194e-02\tAbsError: 3.32535e+12\n", - " Region: \"zone_1\"\tRelError: 1.39864e-03\tAbsError: 2.06495e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39273e-03\tAbsError: 1.45908e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.90384e-06\tAbsError: 2.05036e-03\n", - " Region: \"zone_3\"\tRelError: 6.01208e-02\tAbsError: 3.32535e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.70408e-02\tAbsError: 2.05874e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.81904e-04\tAbsError: 1.26661e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49213e-03\tAbsError: 1.52370e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.90384e-06\tAbsError: 2.05036e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.17999e+04\tAbsError: 5.10978e+17\n", - " Region: \"zone_1\"\tRelError: 5.03027e+02\tAbsError: 1.04768e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.03024e+02\tAbsError: 3.22427e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.92198e-03\tAbsError: 1.01544e+00\n", - " Region: \"zone_3\"\tRelError: 1.12969e+04\tAbsError: 5.10978e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.85509e-01\tAbsError: 2.56157e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.59104e-01\tAbsError: 2.54821e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12959e+04\tAbsError: 3.22432e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.92235e-03\tAbsError: 1.01559e+00\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 6.87726e-02\tAbsError: 8.38083e+13\n", - " Region: \"zone_1\"\tRelError: 6.67215e-03\tAbsError: 8.75624e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.42056e-03\tAbsError: 1.74141e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.51596e-04\tAbsError: 8.73883e-02\n", - " Region: \"zone_3\"\tRelError: 6.21005e-02\tAbsError: 8.38083e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.18225e-02\tAbsError: 1.20575e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.74554e-03\tAbsError: 7.17508e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.80774e-04\tAbsError: 1.76570e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.51596e-04\tAbsError: 8.73883e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.75731e+01\tAbsError: 5.68784e+17\n", - " Region: \"zone_1\"\tRelError: 3.83859e+01\tAbsError: 4.09543e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.83859e+01\tAbsError: 4.09541e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.16236e-10\tAbsError: 1.79418e-07\n", - " Region: \"zone_3\"\tRelError: 1.91873e+01\tAbsError: 5.68784e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.35377e-01\tAbsError: 2.75826e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.22188e-01\tAbsError: 2.92959e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77297e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.16460e-10\tAbsError: 1.79501e-07\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 2.61096e+00\tAbsError: 5.27748e+14\n", - " Region: \"zone_1\"\tRelError: 1.33610e-02\tAbsError: 2.72747e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33123e-02\tAbsError: 1.03781e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.86757e-05\tAbsError: 1.68966e-02\n", - " Region: \"zone_3\"\tRelError: 2.59760e+00\tAbsError: 5.27748e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.56561e+00\tAbsError: 1.59867e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.17779e-03\tAbsError: 5.11762e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.67637e-02\tAbsError: 1.03782e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.86757e-05\tAbsError: 1.68966e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.41567e-04\tAbsError: 9.91707e+11\n", - " Region: \"zone_1\"\tRelError: 9.96191e-05\tAbsError: 1.41222e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.92175e-05\tAbsError: 1.43594e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.01560e-07\tAbsError: 1.39786e-04\n", - " Region: \"zone_3\"\tRelError: 5.41948e-04\tAbsError: 9.91707e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33847e-04\tAbsError: 2.52735e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.19507e-04\tAbsError: 7.38971e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88192e-04\tAbsError: 1.43639e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.01715e-07\tAbsError: 1.39842e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 4.09005e+04\tAbsError: 1.09186e+17\n", - " Region: \"zone_1\"\tRelError: 3.89562e+04\tAbsError: 4.08435e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.89562e+04\tAbsError: 2.58909e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10194e-03\tAbsError: 3.82544e-01\n", - " Region: \"zone_3\"\tRelError: 1.94429e+03\tAbsError: 1.09186e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.74831e-01\tAbsError: 5.48441e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.82033e-02\tAbsError: 5.43417e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.94402e+03\tAbsError: 2.58839e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10598e-03\tAbsError: 3.83947e-01\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 5.03731e-02\tAbsError: 4.41514e+13\n", - " Region: \"zone_1\"\tRelError: 1.13318e-02\tAbsError: 7.63919e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13298e-02\tAbsError: 5.65882e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.03424e-06\tAbsError: 7.07331e-04\n", - " Region: \"zone_3\"\tRelError: 3.90413e-02\tAbsError: 4.41514e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.03515e-03\tAbsError: 1.47172e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.05565e-03\tAbsError: 2.94343e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.69485e-02\tAbsError: 5.71003e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.03424e-06\tAbsError: 7.07331e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.10779e+01\tAbsError: 4.06443e+17\n", - " Region: \"zone_1\"\tRelError: 1.97168e+01\tAbsError: 4.69738e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.97155e+01\tAbsError: 3.07629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26517e-03\tAbsError: 4.38975e-01\n", - " Region: \"zone_3\"\tRelError: 1.13612e+01\tAbsError: 4.06443e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.26663e-01\tAbsError: 2.03016e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.10593e-01\tAbsError: 2.03427e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03227e+01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26614e-03\tAbsError: 4.39294e-01\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 4.70060e-01\tAbsError: 6.21356e+14\n", - " Region: \"zone_1\"\tRelError: 2.85732e-02\tAbsError: 2.05963e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.79813e-02\tAbsError: 3.65489e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.91933e-04\tAbsError: 2.05597e-01\n", - " Region: \"zone_3\"\tRelError: 4.41487e-01\tAbsError: 6.21356e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.81692e-01\tAbsError: 1.55850e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.38602e-02\tAbsError: 6.05771e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.53431e-02\tAbsError: 3.74070e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.91933e-04\tAbsError: 2.05597e-01\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 3.33365e-03\tAbsError: 6.06204e+11\n", - " Region: \"zone_1\"\tRelError: 9.58438e-04\tAbsError: 2.88131e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 9.50144e-04\tAbsError: 6.03756e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.29366e-06\tAbsError: 2.88071e-03\n", - " Region: \"zone_3\"\tRelError: 2.37521e-03\tAbsError: 6.06204e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05456e-04\tAbsError: 3.54398e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.77946e-04\tAbsError: 2.51806e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.98352e-03\tAbsError: 6.23154e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.29366e-06\tAbsError: 2.88071e-03\n", - "Iteration: 3\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.74454e+02\tAbsError: 8.01333e+15\n", - " Region: \"zone_1\"\tRelError: 6.80372e+01\tAbsError: 4.04598e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 6.80361e+01\tAbsError: 1.10518e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12846e-03\tAbsError: 3.93546e-01\n", - " Region: \"zone_3\"\tRelError: 7.06417e+02\tAbsError: 8.01333e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.62890e-02\tAbsError: 4.02354e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.06950e-02\tAbsError: 3.98978e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.06379e+02\tAbsError: 1.10525e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12877e-03\tAbsError: 3.93649e-01\n", - " Device: \"device\"\tRelError: 1.93100e-04\tAbsError: 1.20960e+11\n", - " Region: \"zone_1\"\tRelError: 5.19820e-05\tAbsError: 5.49694e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.18239e-05\tAbsError: 7.13688e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.58064e-07\tAbsError: 5.48980e-05\n", - " Region: \"zone_3\"\tRelError: 1.41118e-04\tAbsError: 1.20960e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98311e-06\tAbsError: 8.30760e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.89226e-06\tAbsError: 3.78838e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21085e-04\tAbsError: 7.51134e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.58064e-07\tAbsError: 5.48980e-05\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 1.22495e-01\tAbsError: 1.04521e+14\n", - " Region: \"zone_1\"\tRelError: 2.79563e-02\tAbsError: 3.74050e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.79459e-02\tAbsError: 1.32552e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.03633e-05\tAbsError: 3.60795e-03\n", - " Region: \"zone_3\"\tRelError: 9.45386e-02\tAbsError: 1.04521e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.42087e-02\tAbsError: 3.56076e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.42360e-02\tAbsError: 6.89134e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.60836e-02\tAbsError: 1.33749e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.03685e-05\tAbsError: 3.60983e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 4.48960e+02\tAbsError: 9.69691e+16\n", - " Region: \"zone_1\"\tRelError: 4.44741e+02\tAbsError: 1.46848e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.44741e+02\tAbsError: 2.58943e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.47880e-04\tAbsError: 1.20954e-01\n", - " Region: \"zone_3\"\tRelError: 4.21888e+00\tAbsError: 9.69691e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.30659e-01\tAbsError: 4.85459e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.34310e-01\tAbsError: 4.84232e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.85356e+00\tAbsError: 2.58906e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.48053e-04\tAbsError: 1.21009e-01\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 4.00677e-03\tAbsError: 2.81686e+12\n", - " Region: \"zone_1\"\tRelError: 1.05646e-03\tAbsError: 2.25120e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.05582e-03\tAbsError: 2.16769e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.41193e-07\tAbsError: 2.22952e-04\n", - " Region: \"zone_3\"\tRelError: 2.95031e-03\tAbsError: 2.81686e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.80261e-04\tAbsError: 1.33088e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.78330e-04\tAbsError: 1.48598e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.39107e-03\tAbsError: 2.19067e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.41428e-07\tAbsError: 2.23034e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.80767e-05\tAbsError: 4.88656e+10\n", - " Region: \"zone_1\"\tRelError: 1.14722e-05\tAbsError: 6.01770e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14550e-05\tAbsError: 4.42598e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71595e-08\tAbsError: 5.97344e-06\n", - " Region: \"zone_3\"\tRelError: 3.66045e-05\tAbsError: 4.88656e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.37873e-06\tAbsError: 1.78083e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.34140e-06\tAbsError: 3.10573e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78672e-05\tAbsError: 4.43720e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71671e-08\tAbsError: 5.97623e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 3.12975e+01\tAbsError: 3.16208e+15\n", - " Region: \"zone_1\"\tRelError: 2.83893e+01\tAbsError: 5.80956e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.83876e+01\tAbsError: 1.69468e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.66814e-03\tAbsError: 5.80787e-01\n", - " Region: \"zone_3\"\tRelError: 2.90821e+00\tAbsError: 3.16208e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12918e-02\tAbsError: 1.46803e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.97509e-03\tAbsError: 1.69405e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.89227e+00\tAbsError: 1.70953e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.66892e-03\tAbsError: 5.81053e-01\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 1.08908e-02\tAbsError: 3.13154e+12\n", - " Region: \"zone_1\"\tRelError: 3.20242e-03\tAbsError: 6.92103e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.18252e-03\tAbsError: 2.37467e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.98986e-05\tAbsError: 6.91866e-03\n", - " Region: \"zone_3\"\tRelError: 7.68840e-03\tAbsError: 3.13154e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.85378e-04\tAbsError: 2.02508e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.32251e-04\tAbsError: 1.10645e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 6.75087e-03\tAbsError: 2.45496e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.98986e-05\tAbsError: 6.91866e-03\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:02\u001b[0m.\u001b[1;36m208\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:02\u001b[0m.\u001b[1;36m208\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.03712e+00\tAbsError: 1.21527e+16\n", - " Region: \"zone_1\"\tRelError: 1.00977e+00\tAbsError: 5.07362e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00834e+00\tAbsError: 9.16487e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42992e-03\tAbsError: 4.98197e-01\n", - " Region: \"zone_3\"\tRelError: 4.02736e+00\tAbsError: 1.21527e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.24782e-02\tAbsError: 5.84262e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.44637e-02\tAbsError: 6.31012e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 3.96898e+00\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43302e-03\tAbsError: 4.99291e-01\n", - "Iteration: 16\n", - " Device: \"device\"\tRelError: 4.78745e-04\tAbsError: 2.09883e+11\n", - " Region: \"zone_1\"\tRelError: 1.37276e-04\tAbsError: 1.88799e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.36733e-04\tAbsError: 1.56735e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.42550e-07\tAbsError: 1.88642e-04\n", - " Region: \"zone_3\"\tRelError: 3.41469e-04\tAbsError: 2.09883e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.16342e-05\tAbsError: 1.14769e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.15603e-05\tAbsError: 9.51147e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.97732e-04\tAbsError: 1.58619e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.42742e-07\tAbsError: 1.88719e-04\n", - "Iteration: 16\n", - " Device: \"device\"\tRelError: 9.83445e-03\tAbsError: 6.77712e+12\n", - " Region: \"zone_1\"\tRelError: 2.60543e-03\tAbsError: 6.40859e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.60360e-03\tAbsError: 5.17337e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.82818e-06\tAbsError: 6.35685e-04\n", - " Region: \"zone_3\"\tRelError: 7.22901e-03\tAbsError: 6.77712e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.73598e-04\tAbsError: 3.24417e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.69049e-04\tAbsError: 3.53295e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.88454e-03\tAbsError: 5.22825e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.82857e-06\tAbsError: 6.35821e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.88061e+01\tAbsError: 2.85079e+15\n", - " Region: \"zone_1\"\tRelError: 6.73862e+00\tAbsError: 3.55831e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.73852e+00\tAbsError: 1.64420e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.01700e-04\tAbsError: 3.54187e-02\n", - " Region: \"zone_3\"\tRelError: 1.20674e+01\tAbsError: 2.85079e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.00192e-03\tAbsError: 1.41980e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.87415e-03\tAbsError: 1.43099e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20605e+01\tAbsError: 1.65854e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.01744e-04\tAbsError: 3.54336e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.29649e+01\tAbsError: 8.28032e+15\n", - " Region: \"zone_1\"\tRelError: 1.13261e+01\tAbsError: 4.09567e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13261e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.18750e-09\tAbsError: 2.49624e-06\n", - " Region: \"zone_3\"\tRelError: 1.63880e+00\tAbsError: 8.28032e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69633e-01\tAbsError: 4.77284e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.50748e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.95556e-02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.18842e-09\tAbsError: 2.49659e-06\n", - "Iteration: 17\n", - " Device: \"device\"\tRelError: 3.00999e-04\tAbsError: 1.84846e+11\n", - " Region: \"zone_1\"\tRelError: 8.19378e-05\tAbsError: 2.60922e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 8.18632e-05\tAbsError: 1.26660e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.46747e-08\tAbsError: 2.59655e-05\n", - " Region: \"zone_3\"\tRelError: 2.19061e-04\tAbsError: 1.84846e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.78055e-05\tAbsError: 9.99668e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.76719e-05\tAbsError: 8.48788e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.83509e-04\tAbsError: 1.28081e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.46923e-08\tAbsError: 2.59717e-05\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.22708e-01\tAbsError: 3.87768e+15\n", - " Region: \"zone_1\"\tRelError: 1.91968e-01\tAbsError: 6.75386e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.90026e-01\tAbsError: 2.52604e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94152e-03\tAbsError: 6.75134e-01\n", - " Region: \"zone_3\"\tRelError: 7.30741e-01\tAbsError: 3.87768e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.56619e-03\tAbsError: 1.77246e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.53274e-03\tAbsError: 2.10521e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.16698e-01\tAbsError: 2.55458e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94389e-03\tAbsError: 6.75970e-01\n", - "Iteration: 17\n", - " Device: \"device\"\tRelError: 1.33464e-03\tAbsError: 6.01865e+11\n", - " Region: \"zone_1\"\tRelError: 3.81615e-04\tAbsError: 4.62510e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.80286e-04\tAbsError: 4.26302e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32891e-06\tAbsError: 4.62083e-04\n", - " Region: \"zone_3\"\tRelError: 9.53024e-04\tAbsError: 6.01865e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.06082e-05\tAbsError: 3.41244e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.03411e-05\tAbsError: 2.60621e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 8.30746e-04\tAbsError: 4.31478e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32948e-06\tAbsError: 4.62282e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.17130e+00\tAbsError: 2.53243e+14\n", - " Region: \"zone_1\"\tRelError: 8.02048e-01\tAbsError: 2.24613e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.01984e-01\tAbsError: 1.17020e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.44660e-05\tAbsError: 2.24496e-02\n", - " Region: \"zone_3\"\tRelError: 2.36925e+00\tAbsError: 2.53243e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.56971e-04\tAbsError: 1.26152e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.59164e-04\tAbsError: 1.27091e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.36817e+00\tAbsError: 1.17921e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.44925e-05\tAbsError: 2.24588e-02\n", - "Iteration: 18\n", - " Device: \"device\"\tRelError: 5.05814e-05\tAbsError: 2.45283e+10\n", - " Region: \"zone_1\"\tRelError: 1.43034e-05\tAbsError: 1.34689e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.42647e-05\tAbsError: 1.69134e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.86869e-08\tAbsError: 1.34520e-05\n", - " Region: \"zone_3\"\tRelError: 3.62781e-05\tAbsError: 2.45283e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.44583e-06\tAbsError: 1.40482e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.43514e-06\tAbsError: 1.04801e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.13584e-05\tAbsError: 1.71147e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.86964e-08\tAbsError: 1.34553e-05\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.56865e+00\tAbsError: 2.86625e+14\n", - " Region: \"zone_1\"\tRelError: 1.21045e-01\tAbsError: 8.55195e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20888e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", - " Region: \"zone_3\"\tRelError: 1.44761e+00\tAbsError: 2.86625e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38556e-01\tAbsError: 1.75436e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32332e-01\tAbsError: 1.11189e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.65613e-02\tAbsError: 3.07640e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:05\u001b[0m.\u001b[1;36m386\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:05\u001b[0m.\u001b[1;36m386\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.20555555555555557\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 18\n", - " Device: \"device\"\tRelError: 7.45304e-04\tAbsError: 4.51516e+11\n", - " Region: \"zone_1\"\tRelError: 2.03387e-04\tAbsError: 6.97949e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03187e-04\tAbsError: 3.08050e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.99839e-07\tAbsError: 6.94869e-05\n", - " Region: \"zone_3\"\tRelError: 5.41916e-04\tAbsError: 4.51516e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.35288e-05\tAbsError: 2.46048e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.32078e-05\tAbsError: 2.05469e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.54980e-04\tAbsError: 3.11521e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.99878e-07\tAbsError: 6.95007e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.39826e+00\tAbsError: 3.43096e+15\n", - " Region: \"zone_1\"\tRelError: 2.04849e-01\tAbsError: 4.45309e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.04721e-01\tAbsError: 2.05839e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27433e-04\tAbsError: 4.43251e-02\n", - " Region: \"zone_3\"\tRelError: 2.19341e+00\tAbsError: 3.43096e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.46827e-03\tAbsError: 1.70482e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.46042e-03\tAbsError: 1.72614e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.18535e+00\tAbsError: 2.07760e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27493e-04\tAbsError: 4.43450e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 8.76689e+00\tAbsError: 1.50647e+14\n", - " Region: \"zone_1\"\tRelError: 3.16473e-01\tAbsError: 2.47908e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.16466e-01\tAbsError: 6.52205e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.12020e-06\tAbsError: 2.47256e-03\n", - " Region: \"zone_3\"\tRelError: 8.45042e+00\tAbsError: 1.50647e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.01195e-04\tAbsError: 7.50093e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10297e-04\tAbsError: 7.56382e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.45010e+00\tAbsError: 6.57560e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.12020e-06\tAbsError: 2.47256e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 9.63437e-01\tAbsError: 3.66677e+13\n", - " Region: \"zone_1\"\tRelError: 5.93231e-02\tAbsError: 3.16919e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.93064e-02\tAbsError: 2.58707e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", - " Region: \"zone_3\"\tRelError: 9.04114e-01\tAbsError: 3.66677e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40101e-01\tAbsError: 2.63702e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.04471e-01\tAbsError: 1.02975e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95256e-02\tAbsError: 2.58992e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", - "Iteration: 19\n", - " Device: \"device\"\tRelError: 1.33987e-04\tAbsError: 6.55810e+10\n", - " Region: \"zone_1\"\tRelError: 3.78368e-05\tAbsError: 3.33798e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.77409e-05\tAbsError: 4.45468e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.58696e-08\tAbsError: 3.33353e-05\n", - " Region: \"zone_3\"\tRelError: 9.61507e-05\tAbsError: 6.55810e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.50926e-06\tAbsError: 3.79987e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.47837e-06\tAbsError: 2.75823e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 8.30672e-05\tAbsError: 4.50780e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.58918e-08\tAbsError: 3.33430e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.62369e+00\tAbsError: 8.81229e+15\n", - " Region: \"zone_1\"\tRelError: 1.97477e+00\tAbsError: 4.20751e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.97477e+00\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.14730e-09\tAbsError: 2.48522e-06\n", - " Region: \"zone_3\"\tRelError: 1.64892e+00\tAbsError: 8.81229e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78993e-01\tAbsError: 4.92963e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.78922e-01\tAbsError: 3.88266e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.10055e-02\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.14845e-09\tAbsError: 2.48562e-06\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.26801e-01\tAbsError: 3.21780e+14\n", - " Region: \"zone_1\"\tRelError: 1.55999e-02\tAbsError: 2.70060e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55223e-02\tAbsError: 1.53596e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.76036e-05\tAbsError: 2.69907e-02\n", - " Region: \"zone_3\"\tRelError: 3.11201e-01\tAbsError: 3.21780e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.63679e-04\tAbsError: 1.60119e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.88527e-04\tAbsError: 1.61661e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.10171e-01\tAbsError: 1.54896e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.76380e-05\tAbsError: 2.70022e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.51438e-01\tAbsError: 2.02395e+13\n", - " Region: \"zone_1\"\tRelError: 3.57663e-02\tAbsError: 1.10130e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.57631e-02\tAbsError: 7.62074e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.16921e-06\tAbsError: 1.10054e-03\n", - " Region: \"zone_3\"\tRelError: 6.15671e-01\tAbsError: 2.02395e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.51143e-05\tAbsError: 1.00841e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.17050e-05\tAbsError: 1.01554e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.15601e-01\tAbsError: 7.68131e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.16965e-06\tAbsError: 1.10064e-03\n", - "Iteration: 20\n", - " Device: \"device\"\tRelError: 5.65881e-05\tAbsError: 3.20218e+10\n", - " Region: \"zone_1\"\tRelError: 1.56237e-05\tAbsError: 6.50398e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.56051e-05\tAbsError: 2.09852e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.86446e-08\tAbsError: 6.48299e-06\n", - " Region: \"zone_3\"\tRelError: 4.09644e-05\tAbsError: 3.20218e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.08913e-06\tAbsError: 1.84508e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.06663e-06\tAbsError: 1.35710e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.47900e-05\tAbsError: 2.12285e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.86473e-08\tAbsError: 6.48396e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:08\u001b[0m.\u001b[1;36m114\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.2\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.93334e-01\tAbsError: 6.56738e+12\n", - " Region: \"zone_1\"\tRelError: 1.86981e-02\tAbsError: 1.19586e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86900e-02\tAbsError: 9.16562e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03535e-06\tAbsError: 2.79297e-03\n", - " Region: \"zone_3\"\tRelError: 2.74636e-01\tAbsError: 6.56738e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11907e-01\tAbsError: 3.29549e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.38500e-02\tAbsError: 3.27189e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88710e-02\tAbsError: 9.16566e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03753e-06\tAbsError: 2.79381e-03\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.54137e+00\tAbsError: 3.24375e+14\n", - " Region: \"zone_1\"\tRelError: 7.11295e-02\tAbsError: 9.45006e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.09500e-02\tAbsError: 3.20824e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.79547e-04\tAbsError: 6.24182e-02\n", - " Region: \"zone_3\"\tRelError: 1.47024e+00\tAbsError: 3.24375e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.55196e-01\tAbsError: 1.67449e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.49237e-01\tAbsError: 1.56926e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.56262e-02\tAbsError: 3.20828e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.79547e-04\tAbsError: 6.24182e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.06749e-01\tAbsError: 1.86094e+14\n", - " Region: \"zone_1\"\tRelError: 8.34420e-03\tAbsError: 3.03935e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 8.33549e-03\tAbsError: 8.31449e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.71533e-06\tAbsError: 3.03103e-03\n", - " Region: \"zone_3\"\tRelError: 1.98405e-01\tAbsError: 1.86094e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.28032e-04\tAbsError: 9.25440e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.88076e-04\tAbsError: 9.35503e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.97980e-01\tAbsError: 8.38945e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.71848e-06\tAbsError: 3.03213e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 3.40943e-01\tAbsError: 8.80988e+12\n", - " Region: \"zone_1\"\tRelError: 1.44364e-02\tAbsError: 1.94211e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.44358e-02\tAbsError: 3.09686e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.57362e-07\tAbsError: 1.93901e-04\n", - " Region: \"zone_3\"\tRelError: 3.26507e-01\tAbsError: 8.80988e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.53349e-06\tAbsError: 4.38892e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.69254e-06\tAbsError: 4.42096e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.26487e-01\tAbsError: 3.12212e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.57570e-07\tAbsError: 1.93974e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.00158e-02\tAbsError: 2.47729e+12\n", - " Region: \"zone_1\"\tRelError: 6.29744e-04\tAbsError: 1.66755e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.24968e-04\tAbsError: 8.94858e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", - " Region: \"zone_3\"\tRelError: 5.93860e-02\tAbsError: 2.47729e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.68115e-02\tAbsError: 1.70064e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.91678e-04\tAbsError: 7.76647e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.27809e-03\tAbsError: 9.43816e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.71665e+00\tAbsError: 8.34849e+15\n", - " Region: \"zone_1\"\tRelError: 2.08783e+00\tAbsError: 4.09567e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.08783e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.19938e-09\tAbsError: 2.50333e-06\n", - " Region: \"zone_3\"\tRelError: 1.62882e+00\tAbsError: 8.34849e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69544e-01\tAbsError: 4.67018e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69471e-01\tAbsError: 3.67831e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.98079e-02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.20047e-09\tAbsError: 2.50372e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.00350e+00\tAbsError: 3.97769e+13\n", - " Region: \"zone_1\"\tRelError: 5.04291e-02\tAbsError: 3.12685e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.04136e-02\tAbsError: 2.58872e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54792e-05\tAbsError: 5.38132e-03\n", - " Region: \"zone_3\"\tRelError: 9.53067e-01\tAbsError: 3.97769e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.66315e-01\tAbsError: 2.91166e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.36187e-01\tAbsError: 1.06602e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.05491e-02\tAbsError: 2.58931e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54792e-05\tAbsError: 5.38132e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.88896e-02\tAbsError: 2.58485e+13\n", - " Region: \"zone_1\"\tRelError: 1.63690e-03\tAbsError: 1.31710e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.63310e-03\tAbsError: 9.88963e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.79528e-06\tAbsError: 1.31612e-03\n", - " Region: \"zone_3\"\tRelError: 3.72527e-02\tAbsError: 2.58485e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.09818e-05\tAbsError: 1.28647e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.53496e-05\tAbsError: 1.29838e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.71926e-02\tAbsError: 9.97598e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.79540e-06\tAbsError: 1.31620e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 6.52134e-02\tAbsError: 1.52515e+12\n", - " Region: \"zone_1\"\tRelError: 2.21558e-03\tAbsError: 7.17045e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.21537e-03\tAbsError: 5.18562e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.05963e-07\tAbsError: 7.16526e-05\n", - " Region: \"zone_3\"\tRelError: 6.29978e-02\tAbsError: 1.52515e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.01859e-06\tAbsError: 7.60051e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.48154e-06\tAbsError: 7.65095e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 6.29931e-02\tAbsError: 5.24017e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.06040e-07\tAbsError: 7.16803e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.31240e-04\tAbsError: 7.97937e+11\n", - " Region: \"zone_1\"\tRelError: 7.54533e-05\tAbsError: 1.27890e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.50894e-05\tAbsError: 1.20855e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.63943e-07\tAbsError: 1.26681e-04\n", - " Region: \"zone_3\"\tRelError: 3.55787e-04\tAbsError: 7.97937e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.38045e-05\tAbsError: 1.92064e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.48742e-05\tAbsError: 6.05872e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.76744e-04\tAbsError: 1.21338e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.64089e-07\tAbsError: 1.26735e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.50135e+00\tAbsError: 2.91712e+14\n", - " Region: \"zone_1\"\tRelError: 6.56152e-02\tAbsError: 8.99313e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.54450e-02\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70195e-04\tAbsError: 5.91677e-02\n", - " Region: \"zone_3\"\tRelError: 1.43573e+00\tAbsError: 2.91712e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37692e-01\tAbsError: 1.49991e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32867e-01\tAbsError: 1.41722e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.50013e-02\tAbsError: 3.07641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70195e-04\tAbsError: 5.91677e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.16475e-01\tAbsError: 3.15522e+12\n", - " Region: \"zone_1\"\tRelError: 1.81031e-02\tAbsError: 1.40659e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.80938e-02\tAbsError: 1.08348e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.29419e-06\tAbsError: 3.23108e-03\n", - " Region: \"zone_3\"\tRelError: 2.98372e-01\tAbsError: 3.15522e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.21375e-01\tAbsError: 1.95194e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.86610e-02\tAbsError: 1.20327e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.83264e-02\tAbsError: 1.08348e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.29673e-06\tAbsError: 3.23201e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.59304e-02\tAbsError: 1.10975e+13\n", - " Region: \"zone_1\"\tRelError: 6.60647e-04\tAbsError: 2.32906e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.59978e-04\tAbsError: 3.98553e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.68839e-07\tAbsError: 2.32508e-04\n", - " Region: \"zone_3\"\tRelError: 1.52698e-02\tAbsError: 1.10975e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.32236e-05\tAbsError: 5.52234e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.14382e-05\tAbsError: 5.57521e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.52444e-02\tAbsError: 4.02224e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.69094e-07\tAbsError: 2.32596e-04\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 2.27591e-02\tAbsError: 5.50028e+11\n", - " Region: \"zone_1\"\tRelError: 7.57810e-04\tAbsError: 1.50159e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.57766e-04\tAbsError: 1.82199e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.31100e-08\tAbsError: 1.49977e-05\n", - " Region: \"zone_3\"\tRelError: 2.20013e-02\tAbsError: 5.50028e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.28023e-07\tAbsError: 2.74093e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.25450e-07\tAbsError: 2.75935e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20000e-02\tAbsError: 1.84174e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.31264e-08\tAbsError: 1.50038e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.53826e-04\tAbsError: 1.09912e+11\n", - " Region: \"zone_1\"\tRelError: 2.29821e-05\tAbsError: 4.27473e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.28592e-05\tAbsError: 6.65170e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", - " Region: \"zone_3\"\tRelError: 1.30844e-04\tAbsError: 1.09912e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.01681e-06\tAbsError: 7.52234e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94349e-06\tAbsError: 3.46881e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14760e-04\tAbsError: 6.98367e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 9.34092e-01\tAbsError: 3.63176e+13\n", - " Region: \"zone_1\"\tRelError: 4.74090e-02\tAbsError: 3.08418e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.73947e-02\tAbsError: 2.58899e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42439e-05\tAbsError: 4.95189e-03\n", - " Region: \"zone_3\"\tRelError: 8.86683e-01\tAbsError: 3.63176e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40041e-01\tAbsError: 2.66178e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.98904e-01\tAbsError: 9.69977e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.77237e-02\tAbsError: 2.58388e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42439e-05\tAbsError: 4.95189e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.34486e-03\tAbsError: 1.97182e+12\n", - " Region: \"zone_1\"\tRelError: 1.39485e-04\tAbsError: 8.65138e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39236e-04\tAbsError: 6.47581e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.48683e-07\tAbsError: 8.64490e-05\n", - " Region: \"zone_3\"\tRelError: 3.20538e-03\tAbsError: 1.97182e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.27846e-06\tAbsError: 9.81632e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.12485e-06\tAbsError: 9.90188e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.20072e-03\tAbsError: 6.54815e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.48776e-07\tAbsError: 8.64826e-05\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 5.01087e-03\tAbsError: 1.11391e+11\n", - " Region: \"zone_1\"\tRelError: 1.44411e-04\tAbsError: 4.88363e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.44397e-04\tAbsError: 3.97189e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.40263e-08\tAbsError: 4.87966e-06\n", - " Region: \"zone_3\"\tRelError: 4.86646e-03\tAbsError: 1.11391e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.24940e-07\tAbsError: 5.55183e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.83217e-07\tAbsError: 5.58731e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.86614e-03\tAbsError: 4.01386e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.40317e-08\tAbsError: 4.88166e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.06954e-02\tAbsError: 2.66197e+12\n", - " Region: \"zone_1\"\tRelError: 9.55650e-04\tAbsError: 2.48145e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 9.48509e-04\tAbsError: 1.57463e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.14062e-06\tAbsError: 2.47987e-03\n", - " Region: \"zone_3\"\tRelError: 6.97397e-02\tAbsError: 2.66197e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.71718e-02\tAbsError: 1.64482e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.35073e-04\tAbsError: 1.01715e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.42575e-03\tAbsError: 1.64454e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.14062e-06\tAbsError: 2.47987e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.84860e-05\tAbsError: 3.70987e+10\n", - " Region: \"zone_1\"\tRelError: 3.74711e-06\tAbsError: 5.87951e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.73032e-06\tAbsError: 3.58594e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67880e-08\tAbsError: 5.84365e-06\n", - " Region: \"zone_3\"\tRelError: 2.47389e-05\tAbsError: 3.70987e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.96764e-06\tAbsError: 1.24118e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.94133e-06\tAbsError: 2.46869e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88131e-05\tAbsError: 3.59119e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67950e-08\tAbsError: 5.84625e-06\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.15137e-03\tAbsError: 7.06680e+11\n", - " Region: \"zone_1\"\tRelError: 4.79513e-05\tAbsError: 1.84347e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.78983e-05\tAbsError: 2.30046e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.29631e-08\tAbsError: 1.84117e-05\n", - " Region: \"zone_3\"\tRelError: 1.10342e-03\tAbsError: 7.06680e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.28767e-07\tAbsError: 3.51782e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.37241e-07\tAbsError: 3.54898e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10180e-03\tAbsError: 2.32700e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.29832e-08\tAbsError: 1.84191e-05\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 1.55548e-03\tAbsError: 3.57700e+10\n", - " Region: \"zone_1\"\tRelError: 4.47196e-05\tAbsError: 1.10628e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.47164e-05\tAbsError: 1.25298e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.17634e-09\tAbsError: 1.10503e-06\n", - " Region: \"zone_3\"\tRelError: 1.51077e-03\tAbsError: 3.57700e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.25221e-08\tAbsError: 1.78277e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.16249e-08\tAbsError: 1.79424e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51068e-03\tAbsError: 1.26647e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.17764e-09\tAbsError: 1.10551e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:13\u001b[0m.\u001b[1;36m829\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.4\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Iteration: 3\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 2.84661e-01\tAbsError: 3.60687e+12\n", - " Region: \"zone_1\"\tRelError: 1.51217e-02\tAbsError: 1.24488e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51123e-02\tAbsError: 9.16566e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.44375e-06\tAbsError: 3.28309e-03\n", - " Region: \"zone_3\"\tRelError: 2.69539e-01\tAbsError: 3.60687e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12296e-01\tAbsError: 2.19867e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.19182e-02\tAbsError: 1.40820e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.53153e-02\tAbsError: 9.16570e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.44375e-06\tAbsError: 3.28309e-03\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 9.26628e-04\tAbsError: 1.21933e+12\n", - " Region: \"zone_1\"\tRelError: 1.56167e-04\tAbsError: 1.24459e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55815e-04\tAbsError: 1.74943e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.52501e-07\tAbsError: 1.22710e-04\n", - " Region: \"zone_3\"\tRelError: 7.70461e-04\tAbsError: 1.21933e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.51322e-04\tAbsError: 3.29136e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.51151e-04\tAbsError: 8.90191e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.67636e-04\tAbsError: 1.74963e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.52654e-07\tAbsError: 1.22766e-04\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 2.60636e-04\tAbsError: 1.46372e+11\n", - " Region: \"zone_1\"\tRelError: 1.08690e-05\tAbsError: 6.03090e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08517e-05\tAbsError: 5.09600e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73339e-08\tAbsError: 6.02581e-06\n", - " Region: \"zone_3\"\tRelError: 2.49767e-04\tAbsError: 1.46372e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.68311e-07\tAbsError: 7.29196e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.63262e-07\tAbsError: 7.34528e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49418e-04\tAbsError: 5.15309e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73406e-08\tAbsError: 6.02830e-06\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 3.64915e-04\tAbsError: 7.98660e+09\n", - " Region: \"zone_1\"\tRelError: 9.72642e-06\tAbsError: 3.32542e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 9.72547e-06\tAbsError: 2.90945e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.55034e-10\tAbsError: 3.32251e-07\n", - " Region: \"zone_3\"\tRelError: 3.55189e-04\tAbsError: 7.98660e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.14142e-09\tAbsError: 3.98083e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.31282e-08\tAbsError: 4.00578e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.55167e-04\tAbsError: 2.94028e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.55427e-10\tAbsError: 3.32397e-07\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.15194e-02\tAbsError: 3.32535e+12\n", - " Region: \"zone_1\"\tRelError: 1.39864e-03\tAbsError: 2.06495e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39273e-03\tAbsError: 1.45908e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.90384e-06\tAbsError: 2.05036e-03\n", - " Region: \"zone_3\"\tRelError: 6.01208e-02\tAbsError: 3.32535e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.70408e-02\tAbsError: 2.05874e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.81904e-04\tAbsError: 1.26661e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49214e-03\tAbsError: 1.52370e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.90384e-06\tAbsError: 2.05036e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.87618e+01\tAbsError: 8.25603e+15\n", - " Region: \"zone_1\"\tRelError: 2.71120e+01\tAbsError: 4.09561e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.71120e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.29384e-09\tAbsError: 1.83846e-06\n", - " Region: \"zone_3\"\tRelError: 1.64979e+00\tAbsError: 8.25603e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69658e-01\tAbsError: 4.86497e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69634e-01\tAbsError: 3.39106e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10500e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.29480e-09\tAbsError: 1.83875e-06\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.48517e-04\tAbsError: 1.02383e+11\n", - " Region: \"zone_1\"\tRelError: 3.65622e-05\tAbsError: 7.18044e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.63556e-05\tAbsError: 5.91894e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.06572e-07\tAbsError: 7.17452e-05\n", - " Region: \"zone_3\"\tRelError: 1.11955e-04\tAbsError: 1.02383e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.94379e-06\tAbsError: 7.36990e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.86830e-06\tAbsError: 2.86838e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 9.59358e-05\tAbsError: 6.22686e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.06635e-07\tAbsError: 7.17655e-05\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 1.06447e-04\tAbsError: 2.38457e+09\n", - " Region: \"zone_1\"\tRelError: 2.83901e-06\tAbsError: 7.94085e-08\n", - " Equation: \"PotentialEquation\"\tRelError: 2.83878e-06\tAbsError: 8.58058e-11\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28004e-10\tAbsError: 7.93227e-08\n", - " Region: \"zone_3\"\tRelError: 1.03608e-04\tAbsError: 2.38457e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12667e-09\tAbsError: 1.18855e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.60756e-09\tAbsError: 1.19603e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03602e-04\tAbsError: 8.67255e-11\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28098e-10\tAbsError: 7.93566e-08\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 8.12930e-05\tAbsError: 4.69072e+10\n", - " Region: \"zone_1\"\tRelError: 3.38946e-06\tAbsError: 1.38742e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.38548e-06\tAbsError: 1.62196e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.98640e-09\tAbsError: 1.38580e-06\n", - " Region: \"zone_3\"\tRelError: 7.79035e-05\tAbsError: 4.69072e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.45193e-08\tAbsError: 2.33605e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.92263e-08\tAbsError: 2.35467e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.77958e-05\tAbsError: 1.64038e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.98804e-09\tAbsError: 1.38641e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.41565e-04\tAbsError: 9.91706e+11\n", - " Region: \"zone_1\"\tRelError: 9.96184e-05\tAbsError: 1.41222e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.92169e-05\tAbsError: 1.43594e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.01561e-07\tAbsError: 1.39787e-04\n", - " Region: \"zone_3\"\tRelError: 5.41946e-04\tAbsError: 9.91706e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33847e-04\tAbsError: 2.52735e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.19507e-04\tAbsError: 7.38971e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88191e-04\tAbsError: 1.43639e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.01716e-07\tAbsError: 1.39843e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.69855e+00\tAbsError: 3.40458e+14\n", - " Region: \"zone_1\"\tRelError: 2.34470e-01\tAbsError: 7.85796e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.34332e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", - " Region: \"zone_3\"\tRelError: 1.46408e+00\tAbsError: 3.40458e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39247e-01\tAbsError: 2.37038e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.31799e-01\tAbsError: 1.03420e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.29010e-02\tAbsError: 3.07639e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 7.22553e-05\tAbsError: 6.59420e+10\n", - " Region: \"zone_1\"\tRelError: 1.65241e-05\tAbsError: 3.84626e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65132e-05\tAbsError: 5.77443e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08827e-08\tAbsError: 3.78852e-06\n", - " Region: \"zone_3\"\tRelError: 5.57311e-05\tAbsError: 6.59420e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.89013e-06\tAbsError: 2.63777e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.84086e-06\tAbsError: 3.95643e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.39893e-05\tAbsError: 5.78772e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08882e-08\tAbsError: 3.79051e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:17\u001b[0m.\u001b[1;36m160\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:17\u001b[0m.\u001b[1;36m160\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.3111111111111111\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "Iteration: 16\n", - "number of equations 31816\n", - " Device: \"device\"\tRelError: 2.60018e-05\tAbsError: 5.65889e+08\n", - " Region: \"zone_1\"\tRelError: 6.67181e-07\tAbsError: 2.27233e-08\n", - " Equation: \"PotentialEquation\"\tRelError: 6.67116e-07\tAbsError: 2.08086e-11\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.52555e-11\tAbsError: 2.27025e-08\n", - " Region: \"zone_3\"\tRelError: 2.53346e-05\tAbsError: 5.65889e+08\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.46746e-10\tAbsError: 2.82069e+08\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.26145e-10\tAbsError: 2.83820e+08\n", - " Equation: \"PotentialEquation\"\tRelError: 2.53331e-05\tAbsError: 2.10295e-11\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.52825e-11\tAbsError: 2.27122e-08\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.93101e-04\tAbsError: 1.20960e+11\n", - " Region: \"zone_1\"\tRelError: 5.19822e-05\tAbsError: 5.49693e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.18241e-05\tAbsError: 7.13690e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.58064e-07\tAbsError: 5.48979e-05\n", - " Region: \"zone_3\"\tRelError: 1.41119e-04\tAbsError: 1.20960e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98314e-06\tAbsError: 8.30762e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.89229e-06\tAbsError: 3.78839e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21085e-04\tAbsError: 7.51136e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.58064e-07\tAbsError: 5.48979e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.10009e+00\tAbsError: 9.49766e+13\n", - " Region: \"zone_1\"\tRelError: 1.69910e-01\tAbsError: 3.26443e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.69891e-01\tAbsError: 2.58991e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", - " Region: \"zone_3\"\tRelError: 9.30185e-01\tAbsError: 9.49766e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40985e-01\tAbsError: 5.67002e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.12174e-01\tAbsError: 3.82763e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.70066e-02\tAbsError: 2.58994e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 4.53796e+01\tAbsError: 8.73906e+15\n", - " Region: \"zone_1\"\tRelError: 4.37173e+01\tAbsError: 4.20763e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.37173e+01\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06476e-08\tAbsError: 3.70148e-06\n", - " Region: \"zone_3\"\tRelError: 1.66235e+00\tAbsError: 8.73906e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.79081e-01\tAbsError: 5.04538e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.79062e-01\tAbsError: 3.69368e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04209e-01\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06482e-08\tAbsError: 3.70175e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:18\u001b[0m.\u001b[1;36m772\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:18\u001b[0m.\u001b[1;36m813\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.15 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:18\u001b[0m.\u001b[1;36m859\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.80765e-05\tAbsError: 4.88655e+10\n", - " Region: \"zone_1\"\tRelError: 1.14721e-05\tAbsError: 6.01773e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14550e-05\tAbsError: 4.42598e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71595e-08\tAbsError: 5.97347e-06\n", - " Region: \"zone_3\"\tRelError: 3.66044e-05\tAbsError: 4.88655e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.37873e-06\tAbsError: 1.78083e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.34139e-06\tAbsError: 3.10572e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78671e-05\tAbsError: 4.43720e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71671e-08\tAbsError: 5.97626e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:19\u001b[0m.\u001b[1;36m525\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:19\u001b[0m.\u001b[1;36m525\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30000000000000004\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.56252e-01\tAbsError: 3.42527e+13\n", - " Region: \"zone_1\"\tRelError: 6.41646e-02\tAbsError: 1.11813e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.41588e-02\tAbsError: 9.16555e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.79958e-06\tAbsError: 2.01571e-03\n", - " Region: \"zone_3\"\tRelError: 2.92088e-01\tAbsError: 3.42527e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07223e-01\tAbsError: 1.60452e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.07953e-02\tAbsError: 1.82076e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.40630e-02\tAbsError: 9.16559e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.80279e-06\tAbsError: 2.01683e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.90027e+03\tAbsError: 5.37118e+18\n", - " Region: \"zone_1\"\tRelError: 4.52123e+02\tAbsError: 8.96717e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.52123e+02\tAbsError: 8.96713e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20641e-09\tAbsError: 4.19390e-07\n", - " Region: \"zone_3\"\tRelError: 1.44814e+03\tAbsError: 5.37118e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.05875e+03\tAbsError: 2.27129e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.72871e+01\tAbsError: 3.09989e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 3.02108e+02\tAbsError: 8.96718e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20691e-09\tAbsError: 4.19574e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:19\u001b[0m.\u001b[1;36m874\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:19\u001b[0m.\u001b[1;36m903\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.2 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:19\u001b[0m.\u001b[1;36m941\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.78353e+00\tAbsError: 3.20634e+14\n", - " Region: \"zone_1\"\tRelError: 2.98373e-01\tAbsError: 8.95563e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.98208e-01\tAbsError: 3.20823e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.65352e-04\tAbsError: 5.74740e-02\n", - " Region: \"zone_3\"\tRelError: 1.48516e+00\tAbsError: 3.20634e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.55334e-01\tAbsError: 2.00005e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.49888e-01\tAbsError: 1.20629e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.97682e-02\tAbsError: 3.20828e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.65352e-04\tAbsError: 5.74740e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.00258e+03\tAbsError: 8.62732e+18\n", - " Region: \"zone_1\"\tRelError: 2.86622e+02\tAbsError: 9.11935e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.86622e+02\tAbsError: 9.11935e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.61299e-11\tAbsError: 5.61160e-09\n", - " Region: \"zone_3\"\tRelError: 7.15961e+02\tAbsError: 8.62732e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.81333e+02\tAbsError: 3.52151e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.81580e+02\tAbsError: 5.10581e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 3.53049e+02\tAbsError: 9.11941e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.61365e-11\tAbsError: 5.61401e-09\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.29649e+01\tAbsError: 8.28032e+15\n", - " Region: \"zone_1\"\tRelError: 1.13261e+01\tAbsError: 4.09567e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13261e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.18749e-09\tAbsError: 2.49623e-06\n", - " Region: \"zone_3\"\tRelError: 1.63880e+00\tAbsError: 8.28032e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69633e-01\tAbsError: 4.77284e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.50748e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.95556e-02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.18841e-09\tAbsError: 2.49658e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.59960e-02\tAbsError: 3.73217e+12\n", - " Region: \"zone_1\"\tRelError: 7.31305e-03\tAbsError: 2.21475e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.30674e-03\tAbsError: 2.57182e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", - " Region: \"zone_3\"\tRelError: 5.86829e-02\tAbsError: 3.73217e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.62142e-02\tAbsError: 2.07187e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.09163e-04\tAbsError: 1.66031e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65329e-03\tAbsError: 2.69578e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.46925e+02\tAbsError: 4.60507e+18\n", - " Region: \"zone_1\"\tRelError: 9.01379e+01\tAbsError: 2.15512e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 9.01319e+01\tAbsError: 8.66949e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.98322e-03\tAbsError: 2.06842e+00\n", - " Region: \"zone_3\"\tRelError: 1.56787e+02\tAbsError: 4.60507e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.98090e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.08643e+01\tAbsError: 2.62417e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06917e+02\tAbsError: 8.66950e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.98604e-03\tAbsError: 2.06939e+00\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.03427e+00\tAbsError: 4.51977e+13\n", - " Region: \"zone_1\"\tRelError: 6.36974e-02\tAbsError: 3.23235e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.36789e-02\tAbsError: 2.58918e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.85036e-05\tAbsError: 6.43172e-03\n", - " Region: \"zone_3\"\tRelError: 9.70572e-01\tAbsError: 4.51977e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.66780e-01\tAbsError: 3.22363e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.39601e-01\tAbsError: 1.29614e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.41727e-02\tAbsError: 2.58956e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.85036e-05\tAbsError: 6.43172e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.48404e+03\tAbsError: 7.29201e+18\n", - " Region: \"zone_1\"\tRelError: 6.70547e+02\tAbsError: 2.86307e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 6.70539e+02\tAbsError: 8.83464e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.90934e-03\tAbsError: 2.77472e+00\n", - " Region: \"zone_3\"\tRelError: 8.13489e+02\tAbsError: 7.29201e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.04808e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.08013e+02\tAbsError: 4.24393e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 9.64677e+01\tAbsError: 8.83466e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.92313e-03\tAbsError: 2.77963e+00\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.56865e+00\tAbsError: 2.86625e+14\n", - " Region: \"zone_1\"\tRelError: 1.21045e-01\tAbsError: 8.55195e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20888e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", - " Region: \"zone_3\"\tRelError: 1.44761e+00\tAbsError: 2.86625e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38556e-01\tAbsError: 1.75436e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32332e-01\tAbsError: 1.11189e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.65613e-02\tAbsError: 3.07640e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 8.14034e-04\tAbsError: 1.03618e+12\n", - " Region: \"zone_1\"\tRelError: 1.43803e-04\tAbsError: 7.79056e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43584e-04\tAbsError: 1.54074e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19396e-07\tAbsError: 7.63649e-05\n", - " Region: \"zone_3\"\tRelError: 6.70231e-04\tAbsError: 1.03618e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.21829e-04\tAbsError: 2.70793e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.05108e-04\tAbsError: 7.65387e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.43074e-04\tAbsError: 1.54210e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19498e-07\tAbsError: 7.64015e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.62556e+02\tAbsError: 6.63850e+17\n", - " Region: \"zone_1\"\tRelError: 1.41773e+01\tAbsError: 3.02150e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.41689e+01\tAbsError: 8.34500e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.43572e-03\tAbsError: 2.93805e+00\n", - " Region: \"zone_3\"\tRelError: 1.48378e+02\tAbsError: 6.63850e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.28198e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.21851e+02\tAbsError: 3.35652e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.75188e+01\tAbsError: 8.34501e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.43572e-03\tAbsError: 2.93805e+00\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.28178e-01\tAbsError: 8.08491e+12\n", - " Region: \"zone_1\"\tRelError: 2.27182e-02\tAbsError: 1.36097e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.27102e-02\tAbsError: 1.08347e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.98363e-06\tAbsError: 2.77500e-03\n", - " Region: \"zone_3\"\tRelError: 3.05460e-01\tAbsError: 8.08491e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.21319e-01\tAbsError: 3.95150e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.12011e-02\tAbsError: 4.13341e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29316e-02\tAbsError: 1.08348e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.98817e-06\tAbsError: 2.77667e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.14776e+02\tAbsError: 1.71822e+18\n", - " Region: \"zone_1\"\tRelError: 1.56981e+01\tAbsError: 2.79470e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.56903e+01\tAbsError: 8.52528e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.78337e-03\tAbsError: 2.70944e+00\n", - " Region: \"zone_3\"\tRelError: 9.90783e+01\tAbsError: 1.71822e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.15408e+01\tAbsError: 8.21769e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 8.96453e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 7.85297e+01\tAbsError: 8.52530e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.79850e-03\tAbsError: 2.71474e+00\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 9.63437e-01\tAbsError: 3.66677e+13\n", - " Region: \"zone_1\"\tRelError: 5.93231e-02\tAbsError: 3.16919e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.93064e-02\tAbsError: 2.58707e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", - " Region: \"zone_3\"\tRelError: 9.04114e-01\tAbsError: 3.66677e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40101e-01\tAbsError: 2.63702e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.04471e-01\tAbsError: 1.02975e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95256e-02\tAbsError: 2.58992e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.61312e-05\tAbsError: 5.74046e+10\n", - " Region: \"zone_1\"\tRelError: 1.61849e-05\tAbsError: 6.45313e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.59991e-05\tAbsError: 3.79845e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.85726e-07\tAbsError: 6.44934e-05\n", - " Region: \"zone_3\"\tRelError: 5.99464e-05\tAbsError: 5.74046e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.77906e-06\tAbsError: 4.68633e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.20461e-06\tAbsError: 1.05413e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.27769e-05\tAbsError: 3.95532e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.85828e-07\tAbsError: 6.45281e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.92816e+01\tAbsError: 2.74112e+17\n", - " Region: \"zone_1\"\tRelError: 3.85174e+01\tAbsError: 8.02176e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.85153e+01\tAbsError: 7.98884e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.07534e-03\tAbsError: 7.22287e-01\n", - " Region: \"zone_3\"\tRelError: 1.07642e+01\tAbsError: 2.74112e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.66332e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.94250e-01\tAbsError: 1.07780e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 7.67905e-01\tAbsError: 7.98885e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.07726e-03\tAbsError: 7.22960e-01\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:24\u001b[0m.\u001b[1;36m137\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.5\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.10167e-02\tAbsError: 2.38578e+12\n", - " Region: \"zone_1\"\tRelError: 1.03176e-03\tAbsError: 1.89283e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02633e-03\tAbsError: 7.31748e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.42975e-06\tAbsError: 1.88552e-03\n", - " Region: \"zone_3\"\tRelError: 6.99850e-02\tAbsError: 2.38578e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.73342e-02\tAbsError: 1.66489e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.74130e-04\tAbsError: 7.20890e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.27127e-03\tAbsError: 7.80004e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.42975e-06\tAbsError: 1.88552e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.23062e+03\tAbsError: 2.01573e+18\n", - " Region: \"zone_1\"\tRelError: 5.83577e+01\tAbsError: 5.52378e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.83563e+01\tAbsError: 8.18705e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.35598e-03\tAbsError: 4.70508e-01\n", - " Region: \"zone_3\"\tRelError: 4.17227e+03\tAbsError: 2.01573e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.67371e+01\tAbsError: 1.02135e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.06151e+03\tAbsError: 9.94376e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40204e+01\tAbsError: 8.18706e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.35728e-03\tAbsError: 4.70981e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.93334e-01\tAbsError: 6.56738e+12\n", - " Region: \"zone_1\"\tRelError: 1.86981e-02\tAbsError: 1.19586e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86900e-02\tAbsError: 9.16562e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03535e-06\tAbsError: 2.79297e-03\n", - " Region: \"zone_3\"\tRelError: 2.74636e-01\tAbsError: 6.56738e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11907e-01\tAbsError: 3.29549e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.38500e-02\tAbsError: 3.27189e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88710e-02\tAbsError: 9.16566e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03753e-06\tAbsError: 2.79381e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.41920e+01\tAbsError: 8.92286e+16\n", - " Region: \"zone_1\"\tRelError: 1.34180e+01\tAbsError: 2.47057e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.34176e+01\tAbsError: 7.59482e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.93256e-04\tAbsError: 1.71108e-01\n", - " Region: \"zone_3\"\tRelError: 8.07740e+01\tAbsError: 8.92286e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.11407e+01\tAbsError: 4.48730e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.88068e+01\tAbsError: 4.43556e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 8.26014e-01\tAbsError: 7.59483e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.93256e-04\tAbsError: 1.71108e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.61567e-04\tAbsError: 9.20598e+11\n", - " Region: \"zone_1\"\tRelError: 1.84125e-04\tAbsError: 1.22381e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.83778e-04\tAbsError: 1.37878e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.47625e-07\tAbsError: 1.21002e-04\n", - " Region: \"zone_3\"\tRelError: 4.77442e-04\tAbsError: 9.20598e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07278e-04\tAbsError: 2.31855e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.91369e-05\tAbsError: 6.88743e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.70679e-04\tAbsError: 1.38492e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.47770e-07\tAbsError: 1.21055e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.60199e+01\tAbsError: 8.22903e+15\n", - " Region: \"zone_1\"\tRelError: 3.43433e+01\tAbsError: 4.09555e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.43433e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.48443e-09\tAbsError: 1.21289e-06\n", - " Region: \"zone_3\"\tRelError: 1.67662e+00\tAbsError: 8.22903e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.78919e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.43984e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37338e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.48691e-09\tAbsError: 1.21378e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.70269e+02\tAbsError: 3.15415e+17\n", - " Region: \"zone_1\"\tRelError: 3.97348e+01\tAbsError: 1.66973e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 3.97302e+01\tAbsError: 7.81451e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.56613e-03\tAbsError: 1.59158e+00\n", - " Region: \"zone_3\"\tRelError: 2.30534e+02\tAbsError: 3.15415e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.16146e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.20185e+02\tAbsError: 1.99269e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.34469e+00\tAbsError: 7.81452e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.56613e-03\tAbsError: 1.59158e+00\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.00158e-02\tAbsError: 2.47729e+12\n", - " Region: \"zone_1\"\tRelError: 6.29744e-04\tAbsError: 1.66755e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.24968e-04\tAbsError: 8.94858e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", - " Region: \"zone_3\"\tRelError: 5.93860e-02\tAbsError: 2.47729e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.68115e-02\tAbsError: 1.70064e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.91678e-04\tAbsError: 7.76647e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.27809e-03\tAbsError: 9.43816e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.61868e+04\tAbsError: 2.45821e+16\n", - " Region: \"zone_1\"\tRelError: 5.96186e+01\tAbsError: 2.86664e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.96180e+01\tAbsError: 7.15490e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.18929e-04\tAbsError: 2.15115e-01\n", - " Region: \"zone_3\"\tRelError: 3.61271e+04\tAbsError: 2.45821e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.91378e+01\tAbsError: 1.52565e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.60678e+04\tAbsError: 9.32566e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.90477e-01\tAbsError: 7.15491e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.23341e-04\tAbsError: 2.16649e-01\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.40659e-04\tAbsError: 1.03289e+11\n", - " Region: \"zone_1\"\tRelError: 2.12574e-05\tAbsError: 5.16744e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.11088e-05\tAbsError: 6.24908e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.48618e-07\tAbsError: 5.16119e-05\n", - " Region: \"zone_3\"\tRelError: 1.19402e-04\tAbsError: 1.03289e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.27254e-06\tAbsError: 7.22229e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.20253e-06\tAbsError: 3.10661e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04778e-04\tAbsError: 6.53626e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.48618e-07\tAbsError: 5.16119e-05\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.73485e+00\tAbsError: 1.08973e+15\n", - " Region: \"zone_1\"\tRelError: 2.25350e+00\tAbsError: 6.85700e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.25339e+00\tAbsError: 3.07635e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", - " Region: \"zone_3\"\tRelError: 1.48136e+00\tAbsError: 1.08973e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41054e-01\tAbsError: 6.25022e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.24005e-01\tAbsError: 4.64711e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16189e-01\tAbsError: 3.07637e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.23073e+02\tAbsError: 2.54941e+16\n", - " Region: \"zone_1\"\tRelError: 4.95529e+00\tAbsError: 3.09553e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.95461e+00\tAbsError: 7.40071e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.76242e-04\tAbsError: 2.35546e-01\n", - " Region: \"zone_3\"\tRelError: 1.18117e+02\tAbsError: 2.54941e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.04760e+01\tAbsError: 1.58057e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.70604e+01\tAbsError: 9.68846e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.80403e-01\tAbsError: 7.40073e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.78155e-04\tAbsError: 2.36212e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.31240e-04\tAbsError: 7.97937e+11\n", - " Region: \"zone_1\"\tRelError: 7.54533e-05\tAbsError: 1.27890e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.50894e-05\tAbsError: 1.20855e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.63943e-07\tAbsError: 1.26681e-04\n", - " Region: \"zone_3\"\tRelError: 3.55787e-04\tAbsError: 7.97937e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.38045e-05\tAbsError: 1.92064e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.48742e-05\tAbsError: 6.05872e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.76744e-04\tAbsError: 1.21338e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.64089e-07\tAbsError: 1.26735e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 9.92388e+02\tAbsError: 7.05220e+15\n", - " Region: \"zone_1\"\tRelError: 1.96893e+00\tAbsError: 2.66104e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.96836e+00\tAbsError: 6.65853e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.74410e-04\tAbsError: 1.99519e-01\n", - " Region: \"zone_3\"\tRelError: 9.90419e+02\tAbsError: 7.05220e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46081e+01\tAbsError: 3.87813e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.75648e+02\tAbsError: 3.17407e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.62802e-01\tAbsError: 6.65854e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.74742e-04\tAbsError: 1.99639e-01\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.99773e-05\tAbsError: 4.61446e+10\n", - " Region: \"zone_1\"\tRelError: 5.47446e-06\tAbsError: 4.95784e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 5.46034e-06\tAbsError: 4.32646e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41187e-08\tAbsError: 4.91458e-06\n", - " Region: \"zone_3\"\tRelError: 3.45029e-05\tAbsError: 4.61446e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.64729e-06\tAbsError: 1.69007e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.61509e-06\tAbsError: 2.92439e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.72264e-05\tAbsError: 4.33338e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41253e-08\tAbsError: 4.91694e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:28\u001b[0m.\u001b[1;36m636\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:28\u001b[0m.\u001b[1;36m636\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.41666666666666674\u001b[0m \n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.38677e+00\tAbsError: 6.38966e+14\n", - " Region: \"zone_1\"\tRelError: 4.51470e-01\tAbsError: 3.37904e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.51448e-01\tAbsError: 2.58448e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", - " Region: \"zone_3\"\tRelError: 9.35299e-01\tAbsError: 6.38966e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42607e-01\tAbsError: 3.02038e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.95795e-01\tAbsError: 3.36928e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.68743e-02\tAbsError: 2.57679e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.67495e+02\tAbsError: 1.22523e+16\n", - " Region: \"zone_1\"\tRelError: 7.25799e+00\tAbsError: 1.33943e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 7.25433e+00\tAbsError: 6.93658e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.65903e-03\tAbsError: 1.27006e+00\n", - " Region: \"zone_3\"\tRelError: 6.60237e+02\tAbsError: 1.22523e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.16281e+01\tAbsError: 8.36742e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.28467e+02\tAbsError: 3.88490e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37665e-01\tAbsError: 6.93660e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.66331e-03\tAbsError: 1.27164e+00\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.53826e-04\tAbsError: 1.09912e+11\n", - " Region: \"zone_1\"\tRelError: 2.29821e-05\tAbsError: 4.27473e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.28592e-05\tAbsError: 6.65170e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", - " Region: \"zone_3\"\tRelError: 1.30844e-04\tAbsError: 1.09912e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.01681e-06\tAbsError: 7.52234e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94349e-06\tAbsError: 3.46881e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14760e-04\tAbsError: 6.98367e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.07565e+03\tAbsError: 2.97831e+15\n", - " Region: \"zone_1\"\tRelError: 7.88747e-01\tAbsError: 7.97100e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.88692e-01\tAbsError: 6.09159e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.42014e-05\tAbsError: 1.87941e-02\n", - " Region: \"zone_3\"\tRelError: 2.07486e+03\tAbsError: 2.97831e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.62931e+03\tAbsError: 1.45076e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.45419e+02\tAbsError: 1.52755e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31609e-01\tAbsError: 6.09160e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.42014e-05\tAbsError: 1.87941e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.41554e-01\tAbsError: 2.20715e+14\n", - " Region: \"zone_1\"\tRelError: 2.89595e-02\tAbsError: 1.67352e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.89377e-02\tAbsError: 9.16565e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18085e-05\tAbsError: 7.56954e-03\n", - " Region: \"zone_3\"\tRelError: 3.12594e-01\tAbsError: 2.20715e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.94155e-01\tAbsError: 1.01533e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.87246e-02\tAbsError: 1.19182e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.96932e-02\tAbsError: 9.16570e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18152e-05\tAbsError: 7.57200e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.78015e+00\tAbsError: 8.71104e+15\n", - " Region: \"zone_1\"\tRelError: 5.10762e+00\tAbsError: 4.20750e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.10762e+00\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.88726e-09\tAbsError: 2.39171e-06\n", - " Region: \"zone_3\"\tRelError: 1.67253e+00\tAbsError: 8.71104e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.79105e-01\tAbsError: 5.13893e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.79081e-01\tAbsError: 3.57211e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14344e-01\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.88765e-09\tAbsError: 2.39188e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 6.07056e+03\tAbsError: 2.63900e+15\n", - " Region: \"zone_1\"\tRelError: 5.09026e-01\tAbsError: 3.20040e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.08290e-01\tAbsError: 6.41007e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.36815e-04\tAbsError: 2.55940e-01\n", - " Region: \"zone_3\"\tRelError: 6.07005e+03\tAbsError: 2.63900e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.91925e+02\tAbsError: 1.14350e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.27722e+03\tAbsError: 1.49550e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.02237e-01\tAbsError: 6.41009e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.36815e-04\tAbsError: 2.55940e-01\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.84860e-05\tAbsError: 3.70987e+10\n", - " Region: \"zone_1\"\tRelError: 3.74711e-06\tAbsError: 5.87951e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.73032e-06\tAbsError: 3.58594e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67880e-08\tAbsError: 5.84365e-06\n", - " Region: \"zone_3\"\tRelError: 2.47389e-05\tAbsError: 3.70987e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.96764e-06\tAbsError: 1.24118e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.94133e-06\tAbsError: 2.46869e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88131e-05\tAbsError: 3.59119e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67950e-08\tAbsError: 5.84625e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:30\u001b[0m.\u001b[1;36m918\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.4\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 4.49636e+02\tAbsError: 4.51750e+14\n", - " Region: \"zone_1\"\tRelError: 1.00276e-01\tAbsError: 1.10034e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00116e-01\tAbsError: 5.43521e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60564e-04\tAbsError: 5.56816e-02\n", - " Region: \"zone_3\"\tRelError: 4.49536e+02\tAbsError: 4.51750e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.26716e+01\tAbsError: 5.47094e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.06762e+02\tAbsError: 3.97041e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02347e-01\tAbsError: 5.43523e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60564e-04\tAbsError: 5.56816e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.19808e-02\tAbsError: 3.06344e+13\n", - " Region: \"zone_1\"\tRelError: 2.04251e-02\tAbsError: 4.10278e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.04136e-02\tAbsError: 1.00349e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", - " Region: \"zone_3\"\tRelError: 6.15557e-02\tAbsError: 3.06344e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38926e-02\tAbsError: 1.71938e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.73234e-03\tAbsError: 1.34406e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.91920e-03\tAbsError: 1.01109e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.61144e+00\tAbsError: 4.09484e+14\n", - " Region: \"zone_1\"\tRelError: 1.09378e-01\tAbsError: 8.14870e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09236e-01\tAbsError: 3.20823e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42156e-04\tAbsError: 4.94047e-02\n", - " Region: \"zone_3\"\tRelError: 1.50206e+00\tAbsError: 4.09484e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.56231e-01\tAbsError: 2.78101e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.48983e-01\tAbsError: 1.31383e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.67091e-02\tAbsError: 3.20827e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42156e-04\tAbsError: 4.94047e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.85182e+03\tAbsError: 1.09273e+15\n", - " Region: \"zone_1\"\tRelError: 2.54667e-01\tAbsError: 9.80021e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.54552e-01\tAbsError: 5.80508e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.14819e-04\tAbsError: 3.99513e-02\n", - " Region: \"zone_3\"\tRelError: 2.85157e+03\tAbsError: 1.09273e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.67991e+03\tAbsError: 5.50437e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.71484e+02\tAbsError: 5.42289e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74947e-01\tAbsError: 5.80510e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.14878e-04\tAbsError: 3.99728e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.37289e+02\tAbsError: 6.00976e+14\n", - " Region: \"zone_1\"\tRelError: 7.57511e-02\tAbsError: 9.88774e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.56005e-02\tAbsError: 4.66459e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.50592e-04\tAbsError: 5.22315e-02\n", - " Region: \"zone_3\"\tRelError: 4.37214e+02\tAbsError: 6.00976e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.45336e+02\tAbsError: 8.47462e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.17993e+01\tAbsError: 5.16230e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.77179e-02\tAbsError: 4.66461e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.50762e-04\tAbsError: 5.22909e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.87618e+01\tAbsError: 8.25603e+15\n", - " Region: \"zone_1\"\tRelError: 2.71120e+01\tAbsError: 4.09561e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.71120e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.29384e-09\tAbsError: 1.83846e-06\n", - " Region: \"zone_3\"\tRelError: 1.64979e+00\tAbsError: 8.25603e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69658e-01\tAbsError: 4.86497e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69634e-01\tAbsError: 3.39106e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10500e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.29480e-09\tAbsError: 1.83875e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.53920e-03\tAbsError: 1.84314e+12\n", - " Region: \"zone_1\"\tRelError: 2.29752e-04\tAbsError: 2.41443e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29064e-04\tAbsError: 2.20702e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", - " Region: \"zone_3\"\tRelError: 1.30944e-03\tAbsError: 1.84314e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11485e-04\tAbsError: 5.81096e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.63190e-04\tAbsError: 1.26205e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 9.34079e-04\tAbsError: 2.25011e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.08321e+00\tAbsError: 1.41299e+14\n", - " Region: \"zone_1\"\tRelError: 8.35316e-02\tAbsError: 3.33734e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.35101e-02\tAbsError: 2.58986e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.15071e-05\tAbsError: 7.47472e-03\n", - " Region: \"zone_3\"\tRelError: 9.99677e-01\tAbsError: 1.41299e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.67960e-01\tAbsError: 8.48978e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.47194e-01\tAbsError: 5.64012e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.45021e-02\tAbsError: 2.58966e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.15071e-05\tAbsError: 7.47472e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.62477e+02\tAbsError: 5.89812e+14\n", - " Region: \"zone_1\"\tRelError: 7.13628e-02\tAbsError: 1.06744e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 7.12020e-02\tAbsError: 5.10011e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60747e-04\tAbsError: 5.57429e-02\n", - " Region: \"zone_3\"\tRelError: 4.62405e+02\tAbsError: 5.89812e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.02675e+02\tAbsError: 1.03408e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.59659e+02\tAbsError: 4.86405e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.13133e-02\tAbsError: 5.10013e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60928e-04\tAbsError: 5.58062e-02\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 4.32712e+03\tAbsError: 5.18829e+14\n", - " Region: \"zone_1\"\tRelError: 5.29324e-02\tAbsError: 1.07188e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.27316e-02\tAbsError: 3.75038e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.00872e-04\tAbsError: 6.96844e-02\n", - " Region: \"zone_3\"\tRelError: 4.32706e+03\tAbsError: 5.18829e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.69765e+03\tAbsError: 1.02592e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.29359e+02\tAbsError: 5.08570e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.53905e-02\tAbsError: 3.75040e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.01052e-04\tAbsError: 6.97476e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.69855e+00\tAbsError: 3.40458e+14\n", - " Region: \"zone_1\"\tRelError: 2.34470e-01\tAbsError: 7.85796e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.34332e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", - " Region: \"zone_3\"\tRelError: 1.46408e+00\tAbsError: 3.40458e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39247e-01\tAbsError: 2.37038e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.31799e-01\tAbsError: 1.03420e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.29010e-02\tAbsError: 3.07639e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.51045e-04\tAbsError: 2.02519e+11\n", - " Region: \"zone_1\"\tRelError: 4.54891e-05\tAbsError: 1.12868e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.51644e-05\tAbsError: 1.25671e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.24705e-07\tAbsError: 1.12743e-04\n", - " Region: \"zone_3\"\tRelError: 2.05556e-04\tAbsError: 2.02519e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12163e-05\tAbsError: 1.36505e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10724e-05\tAbsError: 6.60139e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82943e-04\tAbsError: 1.30848e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.24777e-07\tAbsError: 1.12769e-04\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.61508e-01\tAbsError: 5.27550e+13\n", - " Region: \"zone_1\"\tRelError: 2.94145e-02\tAbsError: 1.33202e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.94073e-02\tAbsError: 1.08347e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.15182e-06\tAbsError: 2.48551e-03\n", - " Region: \"zone_3\"\tRelError: 3.32093e-01\tAbsError: 5.27550e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.19610e-01\tAbsError: 2.36056e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.27630e-02\tAbsError: 2.91494e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.97131e-02\tAbsError: 1.08347e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.15458e-06\tAbsError: 2.48651e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.09883e+00\tAbsError: 5.25102e+14\n", - " Region: \"zone_1\"\tRelError: 5.64206e-02\tAbsError: 1.09629e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.62276e-02\tAbsError: 4.26776e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93033e-04\tAbsError: 6.69518e-02\n", - " Region: \"zone_3\"\tRelError: 2.04241e+00\tAbsError: 5.25102e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99889e-01\tAbsError: 4.07884e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.86014e-01\tAbsError: 4.84314e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.63142e-02\tAbsError: 4.26779e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93295e-04\tAbsError: 6.70436e-02\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 2.08201e+00\tAbsError: 5.20386e+14\n", - " Region: \"zone_1\"\tRelError: 4.27554e-02\tAbsError: 1.19970e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.24867e-02\tAbsError: 2.67288e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.68705e-04\tAbsError: 9.32414e-02\n", - " Region: \"zone_3\"\tRelError: 2.03925e+00\tAbsError: 5.20386e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99075e-01\tAbsError: 3.26587e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.95085e-01\tAbsError: 4.87727e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.48223e-02\tAbsError: 2.67290e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.68907e-04\tAbsError: 9.33127e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.10009e+00\tAbsError: 9.49766e+13\n", - " Region: \"zone_1\"\tRelError: 1.69910e-01\tAbsError: 3.26443e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.69891e-01\tAbsError: 2.58991e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", - " Region: \"zone_3\"\tRelError: 9.30185e-01\tAbsError: 9.49766e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40985e-01\tAbsError: 5.67002e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.12174e-01\tAbsError: 3.82763e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.70066e-02\tAbsError: 2.58994e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.09882e-04\tAbsError: 1.05387e+11\n", - " Region: \"zone_1\"\tRelError: 1.91896e-05\tAbsError: 8.11152e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.91665e-05\tAbsError: 7.26801e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.30974e-08\tAbsError: 8.03884e-06\n", - " Region: \"zone_3\"\tRelError: 9.06925e-05\tAbsError: 1.05387e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41210e-06\tAbsError: 4.74044e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.36012e-06\tAbsError: 5.79823e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.78972e-05\tAbsError: 7.44246e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.31071e-08\tAbsError: 8.04242e-06\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 2.05544e+04\tAbsError: 5.11096e+14\n", - " Region: \"zone_1\"\tRelError: 4.16734e-02\tAbsError: 1.22443e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.14150e-02\tAbsError: 3.27969e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.58397e-04\tAbsError: 8.96461e-02\n", - " Region: \"zone_3\"\tRelError: 2.05544e+04\tAbsError: 5.11096e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05540e+04\tAbsError: 2.67910e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.81524e-01\tAbsError: 4.84305e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.14810e-02\tAbsError: 3.27973e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.58690e-04\tAbsError: 8.97486e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.43219e-02\tAbsError: 8.92461e+12\n", - " Region: \"zone_1\"\tRelError: 3.17549e-03\tAbsError: 1.97067e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.16999e-03\tAbsError: 6.21400e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.49648e-06\tAbsError: 1.90853e-03\n", - " Region: \"zone_3\"\tRelError: 7.11465e-02\tAbsError: 8.92461e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.59529e-02\tAbsError: 4.79040e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.16358e-03\tAbsError: 4.13421e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.02452e-03\tAbsError: 6.75565e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.49648e-06\tAbsError: 1.90853e-03\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.41006e+03\tAbsError: 3.66092e+14\n", - " Region: \"zone_1\"\tRelError: 2.46352e-02\tAbsError: 1.36306e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.43003e-02\tAbsError: 2.00640e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.34877e-04\tAbsError: 1.16242e-01\n", - " Region: \"zone_3\"\tRelError: 1.41003e+03\tAbsError: 3.66092e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.40999e+03\tAbsError: 1.95915e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.08043e-02\tAbsError: 3.46501e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.43534e-02\tAbsError: 2.00645e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.35242e-04\tAbsError: 1.16370e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.56252e-01\tAbsError: 3.42527e+13\n", - " Region: \"zone_1\"\tRelError: 6.41646e-02\tAbsError: 1.11813e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.41588e-02\tAbsError: 9.16555e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.79958e-06\tAbsError: 2.01571e-03\n", - " Region: \"zone_3\"\tRelError: 2.92088e-01\tAbsError: 3.42527e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07223e-01\tAbsError: 1.60452e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.07953e-02\tAbsError: 1.82076e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.40630e-02\tAbsError: 9.16559e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.80279e-06\tAbsError: 2.01683e-03\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.07439e+00\tAbsError: 4.50827e+14\n", - " Region: \"zone_1\"\tRelError: 3.23408e-02\tAbsError: 1.43038e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.20031e-02\tAbsError: 2.58285e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.37733e-04\tAbsError: 1.17210e-01\n", - " Region: \"zone_3\"\tRelError: 1.04205e+00\tAbsError: 4.50827e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99839e-01\tAbsError: 2.39300e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03729e-02\tAbsError: 4.26898e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.14983e-02\tAbsError: 2.48472e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.38088e-04\tAbsError: 1.17334e-01\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 7.21635e-06\tAbsError: 6.66070e+09\n", - " Region: \"zone_1\"\tRelError: 1.30608e-06\tAbsError: 5.92265e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28905e-06\tAbsError: 4.03393e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70320e-08\tAbsError: 5.91862e-06\n", - " Region: \"zone_3\"\tRelError: 5.91027e-06\tAbsError: 6.66070e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.61854e-07\tAbsError: 4.98332e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.27195e-07\tAbsError: 1.67738e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 5.20418e-06\tAbsError: 4.19235e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70346e-08\tAbsError: 5.91965e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:37\u001b[0m.\u001b[1;36m149\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.6\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 1.04005e+00\tAbsError: 3.08997e+14\n", - " Region: \"zone_1\"\tRelError: 1.65306e-02\tAbsError: 2.11910e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.59217e-02\tAbsError: 4.23946e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.08889e-04\tAbsError: 2.11486e-01\n", - " Region: \"zone_3\"\tRelError: 1.02352e+00\tAbsError: 3.08997e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.97860e-01\tAbsError: 2.83986e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.30303e-02\tAbsError: 2.80599e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.02464e-03\tAbsError: 4.31042e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.09325e-04\tAbsError: 2.11636e-01\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.70071e-04\tAbsError: 8.96392e+11\n", - " Region: \"zone_1\"\tRelError: 6.25886e-05\tAbsError: 1.24071e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.22353e-05\tAbsError: 1.27887e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.53296e-07\tAbsError: 1.22792e-04\n", - " Region: \"zone_3\"\tRelError: 5.07482e-04\tAbsError: 8.96392e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.41319e-04\tAbsError: 2.22546e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.52685e-05\tAbsError: 6.73846e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.80541e-04\tAbsError: 1.28523e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.53296e-07\tAbsError: 1.22792e-04\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 5.68541e-01\tAbsError: 7.02334e+14\n", - " Region: \"zone_1\"\tRelError: 1.54198e-02\tAbsError: 2.11319e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.53930e-02\tAbsError: 1.18259e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.68150e-05\tAbsError: 9.30596e-03\n", - " Region: \"zone_3\"\tRelError: 5.53122e-01\tAbsError: 7.02334e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.05728e-01\tAbsError: 1.92390e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.12305e-03\tAbsError: 6.83095e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.82429e-02\tAbsError: 1.18264e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.73828e-05\tAbsError: 9.50321e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.59960e-02\tAbsError: 3.73217e+12\n", - " Region: \"zone_1\"\tRelError: 7.31305e-03\tAbsError: 2.21475e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.30674e-03\tAbsError: 2.57182e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", - " Region: \"zone_3\"\tRelError: 5.86829e-02\tAbsError: 3.73217e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.62142e-02\tAbsError: 2.07187e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.09163e-04\tAbsError: 1.66031e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65329e-03\tAbsError: 2.69578e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 1.21559e-01\tAbsError: 1.10756e+14\n", - " Region: \"zone_1\"\tRelError: 2.72340e-02\tAbsError: 1.44568e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.72302e-02\tAbsError: 1.38679e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.75405e-06\tAbsError: 1.30700e-03\n", - " Region: \"zone_3\"\tRelError: 9.43255e-02\tAbsError: 1.10756e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46517e-02\tAbsError: 3.54716e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.47228e-02\tAbsError: 7.52840e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.49472e-02\tAbsError: 1.39930e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.75631e-06\tAbsError: 1.30781e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.39312e-04\tAbsError: 1.02416e+11\n", - " Region: \"zone_1\"\tRelError: 2.32943e-05\tAbsError: 5.15110e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.31462e-05\tAbsError: 6.75166e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.48145e-07\tAbsError: 5.14435e-05\n", - " Region: \"zone_3\"\tRelError: 1.16018e-04\tAbsError: 1.02416e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.61621e-06\tAbsError: 7.10207e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.54305e-06\tAbsError: 3.13952e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02711e-04\tAbsError: 7.04991e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.48150e-07\tAbsError: 5.14440e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.57743e+01\tAbsError: 8.48667e+15\n", - " Region: \"zone_1\"\tRelError: 1.40602e+01\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40602e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.57556e-10\tAbsError: 1.24451e-07\n", - " Region: \"zone_3\"\tRelError: 1.71408e+00\tAbsError: 8.48667e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69582e-01\tAbsError: 4.51146e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69441e-01\tAbsError: 3.97521e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.75053e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.57765e-10\tAbsError: 1.24526e-07\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 2.35931e-01\tAbsError: 5.99701e+14\n", - " Region: \"zone_1\"\tRelError: 3.40560e-02\tAbsError: 2.88091e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.32274e-02\tAbsError: 2.88427e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.28612e-04\tAbsError: 2.87802e-01\n", - " Region: \"zone_3\"\tRelError: 2.01875e-01\tAbsError: 5.99701e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.30353e-01\tAbsError: 1.08748e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.09805e-02\tAbsError: 5.88826e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.97122e-02\tAbsError: 2.98244e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.28690e-04\tAbsError: 2.87826e-01\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 7.61787e-03\tAbsError: 9.86476e+11\n", - " Region: \"zone_1\"\tRelError: 2.17871e-03\tAbsError: 7.09517e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.15829e-03\tAbsError: 1.18681e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.04238e-05\tAbsError: 7.09399e-03\n", - " Region: \"zone_3\"\tRelError: 5.43916e-03\tAbsError: 9.86476e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.18505e-04\tAbsError: 6.62872e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.39063e-04\tAbsError: 3.23604e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.46117e-03\tAbsError: 1.21591e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.04238e-05\tAbsError: 7.09399e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 8.14034e-04\tAbsError: 1.03618e+12\n", - " Region: \"zone_1\"\tRelError: 1.43803e-04\tAbsError: 7.79056e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43584e-04\tAbsError: 1.54074e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19396e-07\tAbsError: 7.63649e-05\n", - " Region: \"zone_3\"\tRelError: 6.70231e-04\tAbsError: 1.03618e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.21829e-04\tAbsError: 2.70793e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.05108e-04\tAbsError: 7.65387e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.43074e-04\tAbsError: 1.54210e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19498e-07\tAbsError: 7.64015e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.04978e-05\tAbsError: 4.60868e+10\n", - " Region: \"zone_1\"\tRelError: 6.27408e-06\tAbsError: 4.91709e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.26006e-06\tAbsError: 3.99684e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.40124e-08\tAbsError: 4.87713e-06\n", - " Region: \"zone_3\"\tRelError: 3.42237e-05\tAbsError: 4.60868e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.17357e-06\tAbsError: 1.73419e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.14611e-06\tAbsError: 2.87449e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78900e-05\tAbsError: 4.01687e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.40185e-08\tAbsError: 4.87937e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 4.55570e+00\tAbsError: 5.16331e+15\n", - " Region: \"zone_1\"\tRelError: 3.06111e+00\tAbsError: 6.97364e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.06100e+00\tAbsError: 3.07634e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12162e-04\tAbsError: 3.89730e-02\n", - " Region: \"zone_3\"\tRelError: 1.49459e+00\tAbsError: 5.16331e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38938e-01\tAbsError: 2.46191e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.11412e-01\tAbsError: 2.70140e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.44124e-01\tAbsError: 3.07634e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12162e-04\tAbsError: 3.89730e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:40\u001b[0m.\u001b[1;36m216\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:40\u001b[0m.\u001b[1;36m216\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5222222222222223\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 1.70543e-01\tAbsError: 1.53613e+14\n", - " Region: \"zone_1\"\tRelError: 3.87769e-02\tAbsError: 4.70916e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.87639e-02\tAbsError: 1.90017e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.29805e-05\tAbsError: 4.51914e-03\n", - " Region: \"zone_3\"\tRelError: 1.31767e-01\tAbsError: 1.53613e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.99046e-02\tAbsError: 4.95216e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.98996e-02\tAbsError: 1.04092e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.19493e-02\tAbsError: 1.91751e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.29871e-05\tAbsError: 4.52153e-03\n", - "Iteration: 16\n", - " Device: \"device\"\tRelError: 9.70203e-03\tAbsError: 6.93690e+12\n", - " Region: \"zone_1\"\tRelError: 2.55139e-03\tAbsError: 5.07427e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.54994e-03\tAbsError: 5.36335e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.44390e-06\tAbsError: 5.02063e-04\n", - " Region: \"zone_3\"\tRelError: 7.15064e-03\tAbsError: 6.93690e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.86533e-04\tAbsError: 3.22511e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.81873e-04\tAbsError: 3.71179e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.78079e-03\tAbsError: 5.41986e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.44435e-06\tAbsError: 5.02223e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.61312e-05\tAbsError: 5.74046e+10\n", - " Region: \"zone_1\"\tRelError: 1.61849e-05\tAbsError: 6.45313e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.59991e-05\tAbsError: 3.79845e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.85726e-07\tAbsError: 6.44934e-05\n", - " Region: \"zone_3\"\tRelError: 5.99464e-05\tAbsError: 5.74046e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.77906e-06\tAbsError: 4.68633e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.20461e-06\tAbsError: 1.05413e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.27769e-05\tAbsError: 3.95532e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.85828e-07\tAbsError: 6.45281e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:41\u001b[0m.\u001b[1;36m131\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.5\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.13964e+00\tAbsError: 3.47644e+15\n", - " Region: \"zone_1\"\tRelError: 1.85284e-01\tAbsError: 3.50197e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.85258e-01\tAbsError: 2.58979e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.62526e-05\tAbsError: 9.12177e-03\n", - " Region: \"zone_3\"\tRelError: 9.54354e-01\tAbsError: 3.47644e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.46208e-01\tAbsError: 1.62778e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.89583e-01\tAbsError: 1.84866e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18536e-01\tAbsError: 2.53855e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.62526e-05\tAbsError: 9.12177e-03\n", - "Iteration: 16\n", - " Device: \"device\"\tRelError: 1.46078e-02\tAbsError: 3.77706e+12\n", - " Region: \"zone_1\"\tRelError: 4.27318e-03\tAbsError: 9.90979e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 4.24466e-03\tAbsError: 3.01565e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.85219e-05\tAbsError: 9.90677e-03\n", - " Region: \"zone_3\"\tRelError: 1.03346e-02\tAbsError: 3.77706e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.16204e-04\tAbsError: 2.52925e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.13632e-04\tAbsError: 1.24782e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.97622e-03\tAbsError: 3.10988e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.85219e-05\tAbsError: 9.90677e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.50028e+01\tAbsError: 8.69204e+15\n", - " Region: \"zone_1\"\tRelError: 1.32965e+01\tAbsError: 4.20750e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.32965e+01\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.88775e-09\tAbsError: 2.39373e-06\n", - " Region: \"zone_3\"\tRelError: 1.70633e+00\tAbsError: 8.69204e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.79110e-01\tAbsError: 5.01048e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.79048e-01\tAbsError: 3.68156e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.48173e-01\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.88775e-09\tAbsError: 2.39373e-06\n", - "Iteration: 17\n", - " Device: \"device\"\tRelError: 1.10960e-03\tAbsError: 4.73055e+11\n", - " Region: \"zone_1\"\tRelError: 3.19443e-04\tAbsError: 4.59195e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.18123e-04\tAbsError: 3.53097e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.31966e-06\tAbsError: 4.58842e-04\n", - " Region: \"zone_3\"\tRelError: 7.90154e-04\tAbsError: 4.73055e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.87591e-05\tAbsError: 2.60324e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.85853e-05\tAbsError: 2.12731e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 6.91489e-04\tAbsError: 3.57389e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32008e-06\tAbsError: 4.59002e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.60199e+01\tAbsError: 8.22903e+15\n", - " Region: \"zone_1\"\tRelError: 3.43433e+01\tAbsError: 4.09555e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.43433e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.48443e-09\tAbsError: 1.21289e-06\n", - " Region: \"zone_3\"\tRelError: 1.67662e+00\tAbsError: 8.22903e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.78919e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.43984e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37338e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.48691e-09\tAbsError: 1.21378e-06\n", - "Iteration: 17\n", - " Device: \"device\"\tRelError: 1.38450e-02\tAbsError: 9.74863e+12\n", - " Region: \"zone_1\"\tRelError: 3.65570e-03\tAbsError: 8.68864e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.65323e-03\tAbsError: 7.50160e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.47721e-06\tAbsError: 8.61362e-04\n", - " Region: \"zone_3\"\tRelError: 1.01893e-02\tAbsError: 9.74863e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.63103e-04\tAbsError: 4.56281e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.56704e-04\tAbsError: 5.18582e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.26705e-03\tAbsError: 7.58052e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.47776e-06\tAbsError: 8.61555e-04\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 8.24095e-01\tAbsError: 1.04537e+15\n", - " Region: \"zone_1\"\tRelError: 4.93544e-01\tAbsError: 2.65000e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.93494e-01\tAbsError: 9.16559e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.98913e-05\tAbsError: 1.73344e-02\n", - " Region: \"zone_3\"\tRelError: 3.30551e-01\tAbsError: 1.04537e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84640e-01\tAbsError: 5.55503e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10521e-01\tAbsError: 4.89866e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.53403e-02\tAbsError: 9.16565e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.98913e-05\tAbsError: 1.73344e-02\n", - "Iteration: 18\n", - " Device: \"device\"\tRelError: 7.28348e-04\tAbsError: 4.51092e+11\n", - " Region: \"zone_1\"\tRelError: 1.97998e-04\tAbsError: 6.10956e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.97823e-04\tAbsError: 3.10291e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.74814e-07\tAbsError: 6.07853e-05\n", - " Region: \"zone_3\"\tRelError: 5.30351e-04\tAbsError: 4.51092e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.34024e-05\tAbsError: 2.42281e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.30773e-05\tAbsError: 2.08811e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.43696e-04\tAbsError: 3.13762e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.74855e-07\tAbsError: 6.07996e-05\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.05847e+00\tAbsError: 1.57080e+15\n", - " Region: \"zone_1\"\tRelError: 5.40974e-01\tAbsError: 7.04816e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.40864e-01\tAbsError: 3.20822e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10500e-04\tAbsError: 3.83994e-02\n", - " Region: \"zone_3\"\tRelError: 1.51749e+00\tAbsError: 1.57080e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.58067e-01\tAbsError: 8.77233e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.38564e-01\tAbsError: 6.93563e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20752e-01\tAbsError: 3.20823e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10500e-04\tAbsError: 3.83994e-02\n", - "Iteration: 18\n", - " Device: \"device\"\tRelError: 1.82717e-03\tAbsError: 8.17722e+11\n", - " Region: \"zone_1\"\tRelError: 5.23067e-04\tAbsError: 6.56535e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.21181e-04\tAbsError: 5.84430e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.88656e-06\tAbsError: 6.55950e-04\n", - " Region: \"zone_3\"\tRelError: 1.30410e-03\tAbsError: 8.17722e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.24609e-05\tAbsError: 4.60486e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.20813e-05\tAbsError: 3.57236e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13767e-03\tAbsError: 5.91533e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.88721e-06\tAbsError: 6.56204e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.73485e+00\tAbsError: 1.08973e+15\n", - " Region: \"zone_1\"\tRelError: 2.25350e+00\tAbsError: 6.85700e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.25339e+00\tAbsError: 3.07635e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", - " Region: \"zone_3\"\tRelError: 1.48136e+00\tAbsError: 1.08973e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41054e-01\tAbsError: 6.25022e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.24005e-01\tAbsError: 4.64711e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16189e-01\tAbsError: 3.07637e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", - "Iteration: 19\n", - " Device: \"device\"\tRelError: 1.19276e-04\tAbsError: 5.73966e+10\n", - " Region: \"zone_1\"\tRelError: 3.37665e-05\tAbsError: 3.26250e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.36728e-05\tAbsError: 3.96778e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.37128e-08\tAbsError: 3.25853e-05\n", - " Region: \"zone_3\"\tRelError: 8.55093e-05\tAbsError: 5.73966e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.73159e-06\tAbsError: 3.28659e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.70707e-06\tAbsError: 2.45307e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.39769e-05\tAbsError: 4.01507e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.37366e-08\tAbsError: 3.25937e-05\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.23262e-02\tAbsError: 1.95138e+14\n", - " Region: \"zone_1\"\tRelError: 2.57438e-02\tAbsError: 3.23382e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.56511e-02\tAbsError: 1.67807e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.26701e-05\tAbsError: 3.21704e-02\n", - " Region: \"zone_3\"\tRelError: 6.65824e-02\tAbsError: 1.95138e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.49682e-02\tAbsError: 6.65802e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.06072e-03\tAbsError: 1.28558e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.46071e-03\tAbsError: 1.74923e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.26947e-05\tAbsError: 3.21777e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.13949e+00\tAbsError: 9.80441e+14\n", - " Region: \"zone_1\"\tRelError: 1.44938e-01\tAbsError: 3.48926e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.44912e-01\tAbsError: 2.57892e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.62274e-05\tAbsError: 9.10345e-03\n", - " Region: \"zone_3\"\tRelError: 9.94556e-01\tAbsError: 9.80441e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.69397e-01\tAbsError: 4.46559e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.17171e-01\tAbsError: 5.33882e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07961e-01\tAbsError: 2.56709e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.62374e-05\tAbsError: 9.10715e-03\n", - "Iteration: 19\n", - " Device: \"device\"\tRelError: 1.05186e-03\tAbsError: 6.43794e+11\n", - " Region: \"zone_1\"\tRelError: 2.86577e-04\tAbsError: 9.66109e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.86301e-04\tAbsError: 4.41981e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.76574e-07\tAbsError: 9.61689e-05\n", - " Region: \"zone_3\"\tRelError: 7.65285e-04\tAbsError: 6.43794e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.19983e-05\tAbsError: 3.47387e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.15429e-05\tAbsError: 2.96408e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 6.41467e-04\tAbsError: 4.46942e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.76632e-07\tAbsError: 9.61892e-05\n", - "Iteration: 20\n", - " Device: \"device\"\tRelError: 5.47743e-05\tAbsError: 3.14060e+10\n", - " Region: \"zone_1\"\tRelError: 1.50907e-05\tAbsError: 5.90998e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.50738e-05\tAbsError: 2.06583e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69372e-08\tAbsError: 5.88932e-06\n", - " Region: \"zone_3\"\tRelError: 3.96836e-05\tAbsError: 3.14060e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.02542e-06\tAbsError: 1.79710e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.00299e-06\tAbsError: 1.34350e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.36383e-05\tAbsError: 2.08968e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69400e-08\tAbsError: 5.89028e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.38677e+00\tAbsError: 6.38966e+14\n", - " Region: \"zone_1\"\tRelError: 4.51470e-01\tAbsError: 3.37904e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.51448e-01\tAbsError: 2.58448e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", - " Region: \"zone_3\"\tRelError: 9.35299e-01\tAbsError: 6.38966e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42607e-01\tAbsError: 3.02038e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.95795e-01\tAbsError: 3.36928e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.68743e-02\tAbsError: 2.57679e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:45\u001b[0m.\u001b[1;36m645\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: 0.205\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.13427e-02\tAbsError: 1.62210e+13\n", - " Region: \"zone_1\"\tRelError: 1.73710e-02\tAbsError: 1.21679e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.73676e-02\tAbsError: 1.36050e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.46587e-06\tAbsError: 1.20318e-03\n", - " Region: \"zone_3\"\tRelError: 1.39717e-02\tAbsError: 1.62210e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.19687e-03\tAbsError: 6.47584e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.09668e-03\tAbsError: 9.74512e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16747e-02\tAbsError: 1.39577e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.46587e-06\tAbsError: 1.20318e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.05949e-01\tAbsError: 3.74511e+14\n", - " Region: \"zone_1\"\tRelError: 3.59347e-02\tAbsError: 2.23497e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.59015e-02\tAbsError: 1.08348e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.31757e-05\tAbsError: 1.15148e-02\n", - " Region: \"zone_3\"\tRelError: 3.70014e-01\tAbsError: 3.74511e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.16593e-01\tAbsError: 1.81213e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.16499e-01\tAbsError: 1.93297e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.68890e-02\tAbsError: 1.08349e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.31840e-05\tAbsError: 1.15180e-02\n", - "Iteration: 20\n", - " Device: \"device\"\tRelError: 1.85934e-04\tAbsError: 9.08573e+10\n", - " Region: \"zone_1\"\tRelError: 5.25212e-05\tAbsError: 4.72565e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.23854e-05\tAbsError: 6.20121e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.35728e-07\tAbsError: 4.71945e-05\n", - " Region: \"zone_3\"\tRelError: 1.33413e-04\tAbsError: 9.08573e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.02696e-06\tAbsError: 5.24312e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.98446e-06\tAbsError: 3.84261e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15266e-04\tAbsError: 6.27511e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.35761e-07\tAbsError: 4.72061e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.41554e-01\tAbsError: 2.20715e+14\n", - " Region: \"zone_1\"\tRelError: 2.89595e-02\tAbsError: 1.67352e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.89377e-02\tAbsError: 9.16565e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18085e-05\tAbsError: 7.56954e-03\n", - " Region: \"zone_3\"\tRelError: 3.12594e-01\tAbsError: 2.20715e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.94155e-01\tAbsError: 1.01533e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.87246e-02\tAbsError: 1.19182e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.96932e-02\tAbsError: 9.16570e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18152e-05\tAbsError: 7.57200e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.53065e-03\tAbsError: 7.24481e+11\n", - " Region: \"zone_1\"\tRelError: 1.49459e-03\tAbsError: 1.07639e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49149e-03\tAbsError: 6.55190e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.09641e-06\tAbsError: 1.07573e-03\n", - " Region: \"zone_3\"\tRelError: 1.03606e-03\tAbsError: 7.24481e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73129e-05\tAbsError: 2.45596e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.81580e-05\tAbsError: 4.78885e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 9.37490e-04\tAbsError: 6.76708e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.09642e-06\tAbsError: 1.07576e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.63329e+00\tAbsError: 8.76591e+15\n", - " Region: \"zone_1\"\tRelError: 1.98501e+00\tAbsError: 4.19653e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.98501e+00\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.95648e-09\tAbsError: 2.41887e-06\n", - " Region: \"zone_3\"\tRelError: 1.64829e+00\tAbsError: 8.76591e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78082e-01\tAbsError: 4.90369e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.78012e-01\tAbsError: 3.86222e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.21916e-02\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.95760e-09\tAbsError: 2.41927e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.20098e-02\tAbsError: 6.36915e+13\n", - " Region: \"zone_1\"\tRelError: 1.64825e-02\tAbsError: 5.73455e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.64665e-02\tAbsError: 1.85410e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59822e-05\tAbsError: 5.54914e-03\n", - " Region: \"zone_3\"\tRelError: 7.55273e-02\tAbsError: 6.36915e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.16855e-02\tAbsError: 3.79951e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.17477e-03\tAbsError: 2.56964e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.65102e-03\tAbsError: 1.86769e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59822e-05\tAbsError: 5.54914e-03\n", - "Iteration: 21\n", - " Device: \"device\"\tRelError: 7.98541e-05\tAbsError: 4.54186e+10\n", - " Region: \"zone_1\"\tRelError: 2.20300e-05\tAbsError: 9.07155e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20040e-05\tAbsError: 2.98550e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.60032e-08\tAbsError: 9.04169e-06\n", - " Region: \"zone_3\"\tRelError: 5.78241e-05\tAbsError: 4.54186e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.37976e-06\tAbsError: 2.60573e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.34782e-06\tAbsError: 1.93613e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.90705e-05\tAbsError: 3.02004e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.60072e-08\tAbsError: 9.04309e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:47\u001b[0m.\u001b[1;36m660\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.21\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.19808e-02\tAbsError: 3.06344e+13\n", - " Region: \"zone_1\"\tRelError: 2.04251e-02\tAbsError: 4.10278e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.04136e-02\tAbsError: 1.00349e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", - " Region: \"zone_3\"\tRelError: 6.15557e-02\tAbsError: 3.06344e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38926e-02\tAbsError: 1.71938e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.73234e-03\tAbsError: 1.34406e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.91920e-03\tAbsError: 1.01109e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.69038e-03\tAbsError: 1.04370e+12\n", - " Region: \"zone_1\"\tRelError: 1.58975e-03\tAbsError: 1.04879e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.58945e-03\tAbsError: 5.38488e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.00336e-07\tAbsError: 1.04341e-04\n", - " Region: \"zone_3\"\tRelError: 1.10063e-03\tAbsError: 1.04370e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.23814e-05\tAbsError: 5.26651e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.22994e-05\tAbsError: 5.17045e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 9.95649e-04\tAbsError: 5.63224e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.00360e-07\tAbsError: 1.04351e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.53740e+00\tAbsError: 3.20837e+14\n", - " Region: \"zone_1\"\tRelError: 7.05045e-02\tAbsError: 9.40579e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.03259e-02\tAbsError: 3.19529e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.78646e-04\tAbsError: 6.21050e-02\n", - " Region: \"zone_3\"\tRelError: 1.46689e+00\tAbsError: 3.20837e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.53121e-01\tAbsError: 1.65481e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.48279e-01\tAbsError: 1.55355e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.53121e-02\tAbsError: 3.19533e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.78646e-04\tAbsError: 6.21050e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.29067e-03\tAbsError: 2.61140e+12\n", - " Region: \"zone_1\"\tRelError: 3.53522e-04\tAbsError: 4.23373e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.52311e-04\tAbsError: 2.81142e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.21022e-06\tAbsError: 4.20562e-04\n", - " Region: \"zone_3\"\tRelError: 1.93715e-03\tAbsError: 2.61140e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.11236e-04\tAbsError: 8.82953e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.20779e-04\tAbsError: 1.72845e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40392e-03\tAbsError: 2.86772e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.21055e-06\tAbsError: 4.20672e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.56709e+00\tAbsError: 9.18334e+15\n", - " Region: \"zone_1\"\tRelError: 1.89994e+00\tAbsError: 4.29373e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.89994e+00\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.01691e-08\tAbsError: 3.53594e-06\n", - " Region: \"zone_3\"\tRelError: 1.66716e+00\tAbsError: 9.18334e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86011e-01\tAbsError: 5.13720e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.85942e-01\tAbsError: 4.04614e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.52021e-02\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.01707e-08\tAbsError: 3.53650e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.53920e-03\tAbsError: 1.84314e+12\n", - " Region: \"zone_1\"\tRelError: 2.29752e-04\tAbsError: 2.41443e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29064e-04\tAbsError: 2.20702e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", - " Region: \"zone_3\"\tRelError: 1.30944e-03\tAbsError: 1.84314e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11485e-04\tAbsError: 5.81096e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.63190e-04\tAbsError: 1.26205e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 9.34079e-04\tAbsError: 2.25011e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.67954e-04\tAbsError: 1.01821e+11\n", - " Region: \"zone_1\"\tRelError: 2.21136e-04\tAbsError: 6.97280e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20936e-04\tAbsError: 5.57180e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.00534e-07\tAbsError: 6.96723e-05\n", - " Region: \"zone_3\"\tRelError: 1.46817e-04\tAbsError: 1.01821e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.39462e-06\tAbsError: 5.27392e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.41727e-06\tAbsError: 4.90816e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35805e-04\tAbsError: 5.79583e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.00607e-07\tAbsError: 6.96980e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 9.95713e-01\tAbsError: 3.95001e+13\n", - " Region: \"zone_1\"\tRelError: 5.02856e-02\tAbsError: 3.12537e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.02701e-02\tAbsError: 2.58959e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54113e-05\tAbsError: 5.35772e-03\n", - " Region: \"zone_3\"\tRelError: 9.45427e-01\tAbsError: 3.95001e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.63975e-01\tAbsError: 2.89237e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.31137e-01\tAbsError: 1.05765e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.02993e-02\tAbsError: 2.58992e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54113e-05\tAbsError: 5.35772e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.21506e-04\tAbsError: 3.42031e+11\n", - " Region: \"zone_1\"\tRelError: 7.74355e-05\tAbsError: 1.55466e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.69883e-05\tAbsError: 2.05924e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.47168e-07\tAbsError: 1.55260e-04\n", - " Region: \"zone_3\"\tRelError: 3.44070e-04\tAbsError: 3.42031e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.94758e-05\tAbsError: 2.19652e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.92382e-05\tAbsError: 1.22379e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.04909e-04\tAbsError: 2.14465e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.47202e-07\tAbsError: 1.55274e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.57053e+00\tAbsError: 3.51169e+14\n", - " Region: \"zone_1\"\tRelError: 7.27979e-02\tAbsError: 9.81640e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.26108e-02\tAbsError: 3.31004e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.87158e-04\tAbsError: 6.50636e-02\n", - " Region: \"zone_3\"\tRelError: 1.49773e+00\tAbsError: 3.51169e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67194e-01\tAbsError: 1.81651e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.62787e-01\tAbsError: 1.69517e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.75645e-02\tAbsError: 3.31009e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.87158e-04\tAbsError: 6.50636e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.51045e-04\tAbsError: 2.02519e+11\n", - " Region: \"zone_1\"\tRelError: 4.54891e-05\tAbsError: 1.12868e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.51644e-05\tAbsError: 1.25671e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.24705e-07\tAbsError: 1.12743e-04\n", - " Region: \"zone_3\"\tRelError: 2.05556e-04\tAbsError: 2.02519e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12163e-05\tAbsError: 1.36505e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10724e-05\tAbsError: 6.60139e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82943e-04\tAbsError: 1.30848e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.24777e-07\tAbsError: 1.12769e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.02562e-04\tAbsError: 6.84436e+10\n", - " Region: \"zone_1\"\tRelError: 1.21040e-04\tAbsError: 1.06970e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21010e-04\tAbsError: 3.27450e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.06942e-08\tAbsError: 1.06642e-05\n", - " Region: \"zone_3\"\tRelError: 8.15214e-05\tAbsError: 6.84436e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.33271e-06\tAbsError: 3.86456e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.32148e-06\tAbsError: 2.97979e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.48365e-05\tAbsError: 3.43670e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.07019e-08\tAbsError: 1.06669e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.11842e-01\tAbsError: 3.16076e+12\n", - " Region: \"zone_1\"\tRelError: 1.77920e-02\tAbsError: 1.38281e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77828e-02\tAbsError: 1.06618e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.10787e-06\tAbsError: 3.16630e-03\n", - " Region: \"zone_3\"\tRelError: 2.94050e-01\tAbsError: 3.16076e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.19046e-01\tAbsError: 1.95134e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.69828e-02\tAbsError: 1.20942e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.80124e-02\tAbsError: 1.06619e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.11145e-06\tAbsError: 3.16760e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.54214e-04\tAbsError: 1.46404e+11\n", - " Region: \"zone_1\"\tRelError: 2.76236e-05\tAbsError: 1.48453e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.75812e-05\tAbsError: 9.43789e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.23843e-08\tAbsError: 1.47509e-05\n", - " Region: \"zone_3\"\tRelError: 1.26590e-04\tAbsError: 1.46404e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.54821e-06\tAbsError: 6.79464e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.47893e-06\tAbsError: 7.84580e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09521e-04\tAbsError: 9.70963e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.24007e-08\tAbsError: 1.47569e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.05165e+00\tAbsError: 4.28494e+13\n", - " Region: \"zone_1\"\tRelError: 5.19381e-02\tAbsError: 3.16775e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.19214e-02\tAbsError: 2.58745e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.66923e-05\tAbsError: 5.80302e-03\n", - " Region: \"zone_3\"\tRelError: 9.99707e-01\tAbsError: 4.28494e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.86538e-01\tAbsError: 3.13497e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.61055e-01\tAbsError: 1.14997e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.20976e-02\tAbsError: 2.58960e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.66923e-05\tAbsError: 5.80302e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.09882e-04\tAbsError: 1.05387e+11\n", - " Region: \"zone_1\"\tRelError: 1.91896e-05\tAbsError: 8.11152e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.91665e-05\tAbsError: 7.26801e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.30974e-08\tAbsError: 8.03884e-06\n", - " Region: \"zone_3\"\tRelError: 9.06925e-05\tAbsError: 1.05387e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41210e-06\tAbsError: 4.74044e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.36012e-06\tAbsError: 5.79823e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.78972e-05\tAbsError: 7.44246e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.31071e-08\tAbsError: 8.04242e-06\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.67619e-05\tAbsError: 1.02422e+10\n", - " Region: \"zone_1\"\tRelError: 2.21445e-05\tAbsError: 4.91320e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.21303e-05\tAbsError: 5.33976e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41260e-08\tAbsError: 4.90786e-06\n", - " Region: \"zone_3\"\tRelError: 1.46175e-05\tAbsError: 1.02422e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.20200e-07\tAbsError: 5.93794e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.20801e-07\tAbsError: 4.30423e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35623e-05\tAbsError: 5.58038e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41284e-08\tAbsError: 4.90869e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:52\u001b[0m.\u001b[1;36m686\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.7000000000000001\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.96216e-02\tAbsError: 2.61141e+12\n", - " Region: \"zone_1\"\tRelError: 9.45920e-04\tAbsError: 2.53689e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 9.38620e-04\tAbsError: 1.55354e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.30033e-06\tAbsError: 2.53534e-03\n", - " Region: \"zone_3\"\tRelError: 6.86757e-02\tAbsError: 2.61141e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.61725e-02\tAbsError: 1.62602e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.25124e-04\tAbsError: 9.85396e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.37081e-03\tAbsError: 1.62129e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.30033e-06\tAbsError: 2.53534e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.51422e-05\tAbsError: 1.31444e+10\n", - " Region: \"zone_1\"\tRelError: 2.80105e-06\tAbsError: 8.02449e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.77798e-06\tAbsError: 7.54204e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.30711e-08\tAbsError: 8.01695e-06\n", - " Region: \"zone_3\"\tRelError: 1.23412e-05\tAbsError: 1.31444e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.72219e-07\tAbsError: 9.04197e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.59854e-07\tAbsError: 4.10243e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09860e-05\tAbsError: 7.84254e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.30755e-08\tAbsError: 8.01862e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:53\u001b[0m.\u001b[1;36m150\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:53\u001b[0m.\u001b[1;36m150\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6277777777777779\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.59925e-01\tAbsError: 3.29836e+12\n", - " Region: \"zone_1\"\tRelError: 2.06968e-02\tAbsError: 1.57227e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06868e-02\tAbsError: 1.22658e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.94394e-06\tAbsError: 3.45693e-03\n", - " Region: \"zone_3\"\tRelError: 3.39228e-01\tAbsError: 3.29836e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.44822e-01\tAbsError: 2.09132e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.34529e-02\tAbsError: 1.20705e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.09440e-02\tAbsError: 1.22658e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.94500e-06\tAbsError: 3.45736e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 7.21635e-06\tAbsError: 6.66072e+09\n", - " Region: \"zone_1\"\tRelError: 1.30608e-06\tAbsError: 5.92265e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28905e-06\tAbsError: 4.03393e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70320e-08\tAbsError: 5.91862e-06\n", - " Region: \"zone_3\"\tRelError: 5.91027e-06\tAbsError: 6.66072e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.61854e-07\tAbsError: 4.98334e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.27195e-07\tAbsError: 1.67738e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 5.20418e-06\tAbsError: 4.19235e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70346e-08\tAbsError: 5.91965e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:53\u001b[0m.\u001b[1;36m909\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.6\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 9.79272e-04\tAbsError: 1.24789e+12\n", - " Region: \"zone_1\"\tRelError: 1.69378e-04\tAbsError: 1.19504e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.69039e-04\tAbsError: 1.78974e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.38150e-07\tAbsError: 1.17714e-04\n", - " Region: \"zone_3\"\tRelError: 8.09894e-04\tAbsError: 1.24789e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.56091e-04\tAbsError: 3.40106e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.55755e-04\tAbsError: 9.07785e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.97709e-04\tAbsError: 1.78994e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.38303e-07\tAbsError: 1.17770e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.11982e+00\tAbsError: 2.71568e+16\n", - " Region: \"zone_1\"\tRelError: 3.35178e+00\tAbsError: 4.09552e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.35178e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.75560e-09\tAbsError: 9.57391e-07\n", - " Region: \"zone_3\"\tRelError: 1.76804e+00\tAbsError: 2.71568e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68907e-01\tAbsError: 1.36090e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.68433e-01\tAbsError: 1.35478e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.30705e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.75592e-09\tAbsError: 9.57503e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.47130e+01\tAbsError: 9.34749e+15\n", - " Region: \"zone_1\"\tRelError: 1.29635e+01\tAbsError: 4.20730e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29635e+01\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19790e-09\tAbsError: 4.16910e-07\n", - " Region: \"zone_3\"\tRelError: 1.74948e+00\tAbsError: 9.34749e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78965e-01\tAbsError: 4.96596e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.78797e-01\tAbsError: 4.38153e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.91722e-01\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19845e-09\tAbsError: 4.17112e-07\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.15556e-02\tAbsError: 2.83277e+12\n", - " Region: \"zone_1\"\tRelError: 9.61766e-04\tAbsError: 2.53657e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 9.54467e-04\tAbsError: 1.76904e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.29883e-06\tAbsError: 2.53480e-03\n", - " Region: \"zone_3\"\tRelError: 8.05939e-02\tAbsError: 2.83277e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77894e-02\tAbsError: 1.76360e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.00698e-04\tAbsError: 1.06917e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.59647e-03\tAbsError: 1.83630e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.29883e-06\tAbsError: 2.53480e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.57743e+01\tAbsError: 8.48667e+15\n", - " Region: \"zone_1\"\tRelError: 1.40602e+01\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40602e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.57556e-10\tAbsError: 1.24451e-07\n", - " Region: \"zone_3\"\tRelError: 1.71408e+00\tAbsError: 8.48667e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69582e-01\tAbsError: 4.51146e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69441e-01\tAbsError: 3.97521e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.75053e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.57765e-10\tAbsError: 1.24526e-07\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.39118e-04\tAbsError: 9.70617e+10\n", - " Region: \"zone_1\"\tRelError: 3.44334e-05\tAbsError: 7.42120e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.42198e-05\tAbsError: 5.61163e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.13513e-07\tAbsError: 7.41559e-05\n", - " Region: \"zone_3\"\tRelError: 1.04685e-04\tAbsError: 9.70617e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.45419e-06\tAbsError: 7.08787e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.38136e-06\tAbsError: 2.61830e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 8.96357e-05\tAbsError: 5.90320e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.13597e-07\tAbsError: 7.41831e-05\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.73275e+00\tAbsError: 2.68838e+16\n", - " Region: \"zone_1\"\tRelError: 1.92080e-01\tAbsError: 1.46306e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.91747e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.32681e-04\tAbsError: 1.15542e-01\n", - " Region: \"zone_3\"\tRelError: 1.54067e+00\tAbsError: 2.68838e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.36324e-01\tAbsError: 1.35736e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.01335e-01\tAbsError: 1.33102e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.02681e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.32681e-04\tAbsError: 1.15542e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.79022e+00\tAbsError: 8.31075e+15\n", - " Region: \"zone_1\"\tRelError: 2.52292e-01\tAbsError: 8.08004e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.52152e-01\tAbsError: 3.20821e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.40217e-04\tAbsError: 4.87183e-02\n", - " Region: \"zone_3\"\tRelError: 1.53793e+00\tAbsError: 8.31075e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.54947e-01\tAbsError: 4.05111e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.26465e-01\tAbsError: 4.25964e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.56377e-01\tAbsError: 3.20821e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.40217e-04\tAbsError: 4.87183e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 8.98909e-04\tAbsError: 1.24657e+12\n", - " Region: \"zone_1\"\tRelError: 1.38349e-04\tAbsError: 1.35913e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37964e-04\tAbsError: 1.78869e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.85293e-07\tAbsError: 1.34125e-04\n", - " Region: \"zone_3\"\tRelError: 7.60560e-04\tAbsError: 1.24657e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.53737e-04\tAbsError: 3.31798e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.52329e-04\tAbsError: 9.14768e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.54109e-04\tAbsError: 1.78889e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.85453e-07\tAbsError: 1.34183e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 4.55570e+00\tAbsError: 5.16331e+15\n", - " Region: \"zone_1\"\tRelError: 3.06111e+00\tAbsError: 6.97364e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.06100e+00\tAbsError: 3.07634e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12162e-04\tAbsError: 3.89730e-02\n", - " Region: \"zone_3\"\tRelError: 1.49459e+00\tAbsError: 5.16331e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38938e-01\tAbsError: 2.46191e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.11412e-01\tAbsError: 2.70140e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.44124e-01\tAbsError: 3.07634e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12162e-04\tAbsError: 3.89730e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 7.65717e-05\tAbsError: 6.84700e+10\n", - " Region: \"zone_1\"\tRelError: 1.77384e-05\tAbsError: 3.36342e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77290e-05\tAbsError: 5.96230e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.49029e-09\tAbsError: 3.30380e-06\n", - " Region: \"zone_3\"\tRelError: 5.88333e-05\tAbsError: 6.84700e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.12243e-06\tAbsError: 2.77477e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.07134e-06\tAbsError: 4.07222e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.66300e-05\tAbsError: 5.97642e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.49511e-09\tAbsError: 3.30555e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:57\u001b[0m.\u001b[1;36m242\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:57\u001b[0m.\u001b[1;36m242\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.30999999999999994\u001b[0m \n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.12307e+00\tAbsError: 1.60442e+16\n", - " Region: \"zone_1\"\tRelError: 1.49907e-01\tAbsError: 9.31426e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49713e-01\tAbsError: 2.58569e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93773e-04\tAbsError: 6.72856e-02\n", - " Region: \"zone_3\"\tRelError: 9.73164e-01\tAbsError: 1.60442e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39500e-01\tAbsError: 8.04160e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.83757e-01\tAbsError: 8.00261e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49713e-01\tAbsError: 2.43087e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93773e-04\tAbsError: 6.72856e-02\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.15814e+00\tAbsError: 5.80361e+15\n", - " Region: \"zone_1\"\tRelError: 1.26863e-01\tAbsError: 3.43366e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.26839e-01\tAbsError: 2.58230e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.45030e-05\tAbsError: 8.51362e-03\n", - " Region: \"zone_3\"\tRelError: 1.03128e+00\tAbsError: 5.80361e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.72077e-01\tAbsError: 2.80851e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.21781e-01\tAbsError: 2.99509e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37397e-01\tAbsError: 2.54077e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.45030e-05\tAbsError: 8.51362e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.63415e-04\tAbsError: 1.13123e+11\n", - " Region: \"zone_1\"\tRelError: 3.79718e-05\tAbsError: 7.25317e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.77632e-05\tAbsError: 6.55707e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.08649e-07\tAbsError: 7.24662e-05\n", - " Region: \"zone_3\"\tRelError: 1.25443e-04\tAbsError: 1.13123e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.83965e-06\tAbsError: 8.03487e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.75746e-06\tAbsError: 3.27748e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07637e-04\tAbsError: 6.89964e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.08694e-07\tAbsError: 7.24802e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.13964e+00\tAbsError: 3.47644e+15\n", - " Region: \"zone_1\"\tRelError: 1.85284e-01\tAbsError: 3.50197e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.85258e-01\tAbsError: 2.58979e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.62526e-05\tAbsError: 9.12177e-03\n", - " Region: \"zone_3\"\tRelError: 9.54354e-01\tAbsError: 3.47644e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.46208e-01\tAbsError: 1.62778e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.89583e-01\tAbsError: 1.84866e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18536e-01\tAbsError: 2.53855e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.62526e-05\tAbsError: 9.12177e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.25010e-01\tAbsError: 4.83168e+15\n", - " Region: \"zone_1\"\tRelError: 9.35029e-02\tAbsError: 6.02167e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.33558e-02\tAbsError: 9.16529e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47066e-04\tAbsError: 5.10514e-02\n", - " Region: \"zone_3\"\tRelError: 3.31507e-01\tAbsError: 4.83168e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.74852e-01\tAbsError: 2.44485e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.96161e-02\tAbsError: 2.38683e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.68922e-02\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47066e-04\tAbsError: 5.10514e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 8.30180e+01\tAbsError: 8.69319e+15\n", - " Region: \"zone_1\"\tRelError: 8.13582e+01\tAbsError: 4.19668e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.13582e+01\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12128e-08\tAbsError: 3.89796e-06\n", - " Region: \"zone_3\"\tRelError: 1.65986e+00\tAbsError: 8.69319e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78172e-01\tAbsError: 5.01810e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.78152e-01\tAbsError: 3.67509e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03541e-01\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12137e-08\tAbsError: 3.89832e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.77709e-01\tAbsError: 1.99046e+15\n", - " Region: \"zone_1\"\tRelError: 1.89574e-01\tAbsError: 5.36432e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.89451e-01\tAbsError: 1.08352e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.23374e-04\tAbsError: 4.28080e-02\n", - " Region: \"zone_3\"\tRelError: 3.88135e-01\tAbsError: 1.99046e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.09762e-01\tAbsError: 1.04397e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.33212e-01\tAbsError: 9.46486e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.50372e-02\tAbsError: 1.08353e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.23409e-04\tAbsError: 4.28198e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 6.96510e-05\tAbsError: 6.62345e+10\n", - " Region: \"zone_1\"\tRelError: 1.48805e-05\tAbsError: 4.57579e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.48675e-05\tAbsError: 5.85229e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.29763e-08\tAbsError: 4.51726e-06\n", - " Region: \"zone_3\"\tRelError: 5.47705e-05\tAbsError: 6.62345e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.88319e-06\tAbsError: 2.60340e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.83380e-06\tAbsError: 4.02005e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.30405e-05\tAbsError: 5.86366e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.29828e-08\tAbsError: 4.51964e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:59\u001b[0m.\u001b[1;36m373\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:38:59\u001b[0m.\u001b[1;36m373\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.31999999999999995\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 8.24095e-01\tAbsError: 1.04537e+15\n", - " Region: \"zone_1\"\tRelError: 4.93544e-01\tAbsError: 2.65000e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.93494e-01\tAbsError: 9.16559e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.98913e-05\tAbsError: 1.73344e-02\n", - " Region: \"zone_3\"\tRelError: 3.30551e-01\tAbsError: 1.04537e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84640e-01\tAbsError: 5.55503e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10521e-01\tAbsError: 4.89866e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.53403e-02\tAbsError: 9.16565e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.98913e-05\tAbsError: 1.73344e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.30868e-01\tAbsError: 1.08442e+15\n", - " Region: \"zone_1\"\tRelError: 2.27753e-02\tAbsError: 2.15920e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.21537e-02\tAbsError: 2.84606e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.21607e-04\tAbsError: 2.15635e-01\n", - " Region: \"zone_3\"\tRelError: 1.08092e-01\tAbsError: 1.08442e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.76472e-02\tAbsError: 4.26455e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.43864e-02\tAbsError: 6.57964e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.54371e-02\tAbsError: 2.84606e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.21607e-04\tAbsError: 2.15635e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.92283e+00\tAbsError: 3.17185e+14\n", - " Region: \"zone_1\"\tRelError: 4.41326e-01\tAbsError: 8.91561e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.41161e-01\tAbsError: 3.19528e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.64573e-04\tAbsError: 5.72033e-02\n", - " Region: \"zone_3\"\tRelError: 1.48150e+00\tAbsError: 3.17185e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.53774e-01\tAbsError: 1.97498e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.48120e-01\tAbsError: 1.19687e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.94425e-02\tAbsError: 3.19533e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.64573e-04\tAbsError: 5.72033e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.01956e-01\tAbsError: 3.30280e+14\n", - " Region: \"zone_1\"\tRelError: 1.23511e-02\tAbsError: 4.29826e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.22278e-02\tAbsError: 2.11230e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.23221e-04\tAbsError: 4.27714e-02\n", - " Region: \"zone_3\"\tRelError: 8.96046e-02\tAbsError: 3.30280e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38647e-02\tAbsError: 1.85641e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.06846e-02\tAbsError: 1.44639e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49319e-02\tAbsError: 2.22573e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.23378e-04\tAbsError: 4.28245e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.23262e-02\tAbsError: 1.95138e+14\n", - " Region: \"zone_1\"\tRelError: 2.57438e-02\tAbsError: 3.23382e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.56511e-02\tAbsError: 1.67807e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.26701e-05\tAbsError: 3.21704e-02\n", - " Region: \"zone_3\"\tRelError: 6.65824e-02\tAbsError: 1.95138e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.49682e-02\tAbsError: 6.65802e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.06072e-03\tAbsError: 1.28558e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.46071e-03\tAbsError: 1.74923e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.26947e-05\tAbsError: 3.21777e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.13208e+01\tAbsError: 9.10596e+15\n", - " Region: \"zone_1\"\tRelError: 9.64710e+00\tAbsError: 4.29375e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.64710e+00\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.05103e-08\tAbsError: 3.65373e-06\n", - " Region: \"zone_3\"\tRelError: 1.67375e+00\tAbsError: 9.10596e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86100e-01\tAbsError: 5.26385e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.86081e-01\tAbsError: 3.84211e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01565e-01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.05107e-08\tAbsError: 3.65390e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.55617e-01\tAbsError: 2.35794e+14\n", - " Region: \"zone_1\"\tRelError: 4.99367e-02\tAbsError: 1.38607e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.98970e-02\tAbsError: 6.98741e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.97528e-05\tAbsError: 1.37908e-02\n", - " Region: \"zone_3\"\tRelError: 1.05680e-01\tAbsError: 2.35794e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.27300e-03\tAbsError: 1.18548e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.21148e-03\tAbsError: 1.17246e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.51557e-02\tAbsError: 7.06637e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.97528e-05\tAbsError: 1.37908e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.02753e+00\tAbsError: 4.41602e+13\n", - " Region: \"zone_1\"\tRelError: 6.32910e-02\tAbsError: 3.22538e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.32727e-02\tAbsError: 2.58901e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83078e-05\tAbsError: 6.36365e-03\n", - " Region: \"zone_3\"\tRelError: 9.64244e-01\tAbsError: 4.41602e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.64145e-01\tAbsError: 3.14880e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.36393e-01\tAbsError: 1.26721e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.36877e-02\tAbsError: 2.58901e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83078e-05\tAbsError: 6.36365e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.32647e-02\tAbsError: 2.33464e+13\n", - " Region: \"zone_1\"\tRelError: 5.25069e-03\tAbsError: 7.72764e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.24852e-03\tAbsError: 1.62921e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17940e-06\tAbsError: 7.56472e-04\n", - " Region: \"zone_3\"\tRelError: 1.80140e-02\tAbsError: 2.33464e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.47882e-03\tAbsError: 1.05981e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.34887e-03\tAbsError: 1.27483e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51841e-02\tAbsError: 1.70811e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18436e-06\tAbsError: 7.58194e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.13427e-02\tAbsError: 1.62210e+13\n", - " Region: \"zone_1\"\tRelError: 1.73710e-02\tAbsError: 1.21679e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.73676e-02\tAbsError: 1.36050e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.46587e-06\tAbsError: 1.20318e-03\n", - " Region: \"zone_3\"\tRelError: 1.39717e-02\tAbsError: 1.62210e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.19687e-03\tAbsError: 6.47584e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.09668e-03\tAbsError: 9.74512e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16747e-02\tAbsError: 1.39577e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.46587e-06\tAbsError: 1.20318e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.60555e+00\tAbsError: 3.49070e+14\n", - " Region: \"zone_1\"\tRelError: 9.22733e-02\tAbsError: 9.26848e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.21018e-02\tAbsError: 3.31004e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71426e-04\tAbsError: 5.95845e-02\n", - " Region: \"zone_3\"\tRelError: 1.51327e+00\tAbsError: 3.49070e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67916e-01\tAbsError: 2.20940e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.62728e-01\tAbsError: 1.28130e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 8.24571e-02\tAbsError: 3.31008e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71426e-04\tAbsError: 5.95845e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.12114e-02\tAbsError: 1.98754e+13\n", - " Region: \"zone_1\"\tRelError: 7.04172e-03\tAbsError: 6.58751e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.02275e-03\tAbsError: 5.51750e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.89733e-05\tAbsError: 6.58199e-03\n", - " Region: \"zone_3\"\tRelError: 1.41697e-02\tAbsError: 1.98754e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43525e-04\tAbsError: 1.00008e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.47254e-04\tAbsError: 9.87467e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.32599e-02\tAbsError: 5.78756e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.89775e-05\tAbsError: 6.58354e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.22606e-01\tAbsError: 7.84939e+12\n", - " Region: \"zone_1\"\tRelError: 2.22941e-02\tAbsError: 1.32945e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.22866e-02\tAbsError: 1.06618e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.57416e-06\tAbsError: 2.63278e-03\n", - " Region: \"zone_3\"\tRelError: 3.00312e-01\tAbsError: 7.84939e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.18420e-01\tAbsError: 3.81260e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.93810e-02\tAbsError: 4.03679e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.25037e-02\tAbsError: 1.06618e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.57783e-06\tAbsError: 2.63407e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 5.71129e-04\tAbsError: 4.64479e+11\n", - " Region: \"zone_1\"\tRelError: 1.36872e-04\tAbsError: 1.33677e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33025e-04\tAbsError: 4.45593e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.84708e-06\tAbsError: 1.33633e-03\n", - " Region: \"zone_3\"\tRelError: 4.34257e-04\tAbsError: 4.64479e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.87135e-05\tAbsError: 2.05740e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.04630e-05\tAbsError: 2.58739e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.91233e-04\tAbsError: 4.55558e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.84714e-06\tAbsError: 1.33637e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.53065e-03\tAbsError: 7.24481e+11\n", - " Region: \"zone_1\"\tRelError: 1.49459e-03\tAbsError: 1.07639e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49149e-03\tAbsError: 6.55190e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.09641e-06\tAbsError: 1.07573e-03\n", - " Region: \"zone_3\"\tRelError: 1.03606e-03\tAbsError: 7.24481e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73129e-05\tAbsError: 2.45596e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.81580e-05\tAbsError: 4.78885e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 9.37490e-04\tAbsError: 6.76708e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.09642e-06\tAbsError: 1.07576e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.08576e+00\tAbsError: 5.42272e+13\n", - " Region: \"zone_1\"\tRelError: 6.57302e-02\tAbsError: 3.25935e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.57103e-02\tAbsError: 2.56636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.99371e-05\tAbsError: 6.92989e-03\n", - " Region: \"zone_3\"\tRelError: 1.02003e+00\tAbsError: 5.42272e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.86826e-01\tAbsError: 3.87041e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.66488e-01\tAbsError: 1.55232e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.66923e-02\tAbsError: 2.58213e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.99371e-05\tAbsError: 6.92989e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.24258e-02\tAbsError: 1.10918e+13\n", - " Region: \"zone_1\"\tRelError: 4.12899e-03\tAbsError: 9.16825e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.12635e-03\tAbsError: 2.69238e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.63359e-06\tAbsError: 9.14133e-04\n", - " Region: \"zone_3\"\tRelError: 8.29681e-03\tAbsError: 1.10918e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.48339e-04\tAbsError: 5.58229e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.46113e-04\tAbsError: 5.50951e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.79972e-03\tAbsError: 2.89698e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.63458e-06\tAbsError: 9.14508e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.78415e-03\tAbsError: 1.30628e+12\n", - " Region: \"zone_1\"\tRelError: 4.28818e-04\tAbsError: 8.25926e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.28582e-04\tAbsError: 6.47778e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36078e-07\tAbsError: 8.19448e-05\n", - " Region: \"zone_3\"\tRelError: 1.35533e-03\tAbsError: 1.30628e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.11544e-05\tAbsError: 6.56040e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.08446e-05\tAbsError: 6.50242e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.23310e-03\tAbsError: 6.64003e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36136e-07\tAbsError: 8.19661e-05\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.99142e-02\tAbsError: 2.26296e+12\n", - " Region: \"zone_1\"\tRelError: 1.29118e-03\tAbsError: 2.02776e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28536e-03\tAbsError: 6.01525e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.82204e-06\tAbsError: 2.02174e-03\n", - " Region: \"zone_3\"\tRelError: 6.86230e-02\tAbsError: 2.26296e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.61419e-02\tAbsError: 1.56909e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.27666e-04\tAbsError: 6.93869e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.14763e-03\tAbsError: 6.34080e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.82204e-06\tAbsError: 2.02174e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.69038e-03\tAbsError: 1.04370e+12\n", - " Region: \"zone_1\"\tRelError: 1.58975e-03\tAbsError: 1.04879e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.58945e-03\tAbsError: 5.38488e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.00336e-07\tAbsError: 1.04341e-04\n", - " Region: \"zone_3\"\tRelError: 1.10063e-03\tAbsError: 1.04370e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.23814e-05\tAbsError: 5.26651e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.22994e-05\tAbsError: 5.17045e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 9.95649e-04\tAbsError: 5.63224e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.00360e-07\tAbsError: 1.04351e-04\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.73642e-01\tAbsError: 9.69815e+12\n", - " Region: \"zone_1\"\tRelError: 2.63134e-02\tAbsError: 1.52684e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.63048e-02\tAbsError: 1.22657e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.63884e-06\tAbsError: 3.00266e-03\n", - " Region: \"zone_3\"\tRelError: 3.47328e-01\tAbsError: 9.69815e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.43903e-01\tAbsError: 4.70596e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.68748e-02\tAbsError: 4.99219e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.65414e-02\tAbsError: 1.22658e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.64176e-06\tAbsError: 3.00375e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.18008e-03\tAbsError: 1.59787e+12\n", - " Region: \"zone_1\"\tRelError: 7.30404e-04\tAbsError: 4.14536e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.29211e-04\tAbsError: 3.64518e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19313e-06\tAbsError: 4.14171e-04\n", - " Region: \"zone_3\"\tRelError: 1.44968e-03\tAbsError: 1.59787e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.59026e-05\tAbsError: 8.02763e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.55751e-05\tAbsError: 7.95108e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37700e-03\tAbsError: 3.97752e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19336e-06\tAbsError: 4.14251e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 8.55127e-04\tAbsError: 9.93238e+11\n", - " Region: \"zone_1\"\tRelError: 2.79859e-04\tAbsError: 1.10574e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.79545e-04\tAbsError: 1.48236e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.13406e-07\tAbsError: 1.09091e-04\n", - " Region: \"zone_3\"\tRelError: 5.75269e-04\tAbsError: 9.93238e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.15795e-04\tAbsError: 2.59345e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.09339e-04\tAbsError: 7.33893e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.49821e-04\tAbsError: 1.48909e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.13540e-07\tAbsError: 1.09141e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.67945e-04\tAbsError: 7.85934e+10\n", - " Region: \"zone_1\"\tRelError: 4.12351e-05\tAbsError: 8.21508e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.09987e-05\tAbsError: 4.70612e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36350e-07\tAbsError: 8.21038e-05\n", - " Region: \"zone_3\"\tRelError: 1.26710e-04\tAbsError: 7.85934e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.14413e-06\tAbsError: 3.68644e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.17345e-06\tAbsError: 4.17290e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18156e-04\tAbsError: 4.78948e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36434e-07\tAbsError: 8.21331e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.67954e-04\tAbsError: 1.01821e+11\n", - " Region: \"zone_1\"\tRelError: 2.21136e-04\tAbsError: 6.97280e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20936e-04\tAbsError: 5.57180e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.00534e-07\tAbsError: 6.96723e-05\n", - " Region: \"zone_3\"\tRelError: 1.46817e-04\tAbsError: 1.01821e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.39462e-06\tAbsError: 5.27392e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.41727e-06\tAbsError: 4.90816e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35805e-04\tAbsError: 5.79583e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.00607e-07\tAbsError: 6.96980e-05\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.13764e-02\tAbsError: 2.60011e+12\n", - " Region: \"zone_1\"\tRelError: 5.15644e-04\tAbsError: 1.86139e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.10306e-04\tAbsError: 7.73509e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.33805e-06\tAbsError: 1.85366e-03\n", - " Region: \"zone_3\"\tRelError: 8.08607e-02\tAbsError: 2.60011e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77471e-02\tAbsError: 1.74501e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.39413e-04\tAbsError: 8.55098e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.46890e-03\tAbsError: 8.53513e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.33805e-06\tAbsError: 1.85366e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 9.04358e-04\tAbsError: 6.91618e+11\n", - " Region: \"zone_1\"\tRelError: 3.02587e-04\tAbsError: 7.78938e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.02363e-04\tAbsError: 1.55785e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.23501e-07\tAbsError: 7.77380e-05\n", - " Region: \"zone_3\"\tRelError: 6.01772e-04\tAbsError: 6.91618e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.55559e-05\tAbsError: 3.47877e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.53466e-05\tAbsError: 3.43741e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.70646e-04\tAbsError: 1.69595e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.23586e-07\tAbsError: 7.77681e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.20053e-04\tAbsError: 9.08394e+10\n", - " Region: \"zone_1\"\tRelError: 1.81544e-05\tAbsError: 5.77969e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.79881e-05\tAbsError: 5.48804e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.66269e-07\tAbsError: 5.77420e-05\n", - " Region: \"zone_3\"\tRelError: 1.01899e-04\tAbsError: 9.08394e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.23512e-06\tAbsError: 6.54956e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.17106e-06\tAbsError: 2.53438e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 8.93263e-05\tAbsError: 5.73246e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.66303e-07\tAbsError: 5.77524e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.27074e-04\tAbsError: 8.15536e+10\n", - " Region: \"zone_1\"\tRelError: 3.09063e-05\tAbsError: 9.88116e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.08780e-05\tAbsError: 3.69812e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.83382e-08\tAbsError: 9.84418e-06\n", - " Region: \"zone_3\"\tRelError: 9.61679e-05\tAbsError: 8.15536e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.70448e-06\tAbsError: 4.58581e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.67779e-06\tAbsError: 3.56955e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 8.87573e-05\tAbsError: 3.76646e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.83462e-08\tAbsError: 9.84698e-06\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.02562e-04\tAbsError: 6.84436e+10\n", - " Region: \"zone_1\"\tRelError: 1.21040e-04\tAbsError: 1.06970e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21010e-04\tAbsError: 3.27450e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.06942e-08\tAbsError: 1.06642e-05\n", - " Region: \"zone_3\"\tRelError: 8.15214e-05\tAbsError: 6.84436e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.33271e-06\tAbsError: 3.86457e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.32148e-06\tAbsError: 2.97979e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.48365e-05\tAbsError: 3.43670e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.07019e-08\tAbsError: 1.06669e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.48966e-04\tAbsError: 8.96566e+11\n", - " Region: \"zone_1\"\tRelError: 5.28566e-05\tAbsError: 1.37320e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.24660e-05\tAbsError: 1.35084e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.90631e-07\tAbsError: 1.35969e-04\n", - " Region: \"zone_3\"\tRelError: 3.96109e-04\tAbsError: 8.96566e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98545e-05\tAbsError: 2.13909e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.29182e-05\tAbsError: 6.82656e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.02946e-04\tAbsError: 1.35679e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.90791e-07\tAbsError: 1.36028e-04\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.87260e-04\tAbsError: 1.29403e+11\n", - " Region: \"zone_1\"\tRelError: 6.28801e-05\tAbsError: 2.91909e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.27963e-05\tAbsError: 3.06059e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.38368e-08\tAbsError: 2.91603e-05\n", - " Region: \"zone_3\"\tRelError: 1.24379e-04\tAbsError: 1.29403e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91169e-06\tAbsError: 6.49895e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.87741e-06\tAbsError: 6.44135e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18506e-04\tAbsError: 3.32307e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.38700e-08\tAbsError: 2.91722e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.89211e-05\tAbsError: 9.50180e+09\n", - " Region: \"zone_1\"\tRelError: 4.65037e-06\tAbsError: 5.55191e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.63440e-06\tAbsError: 4.80136e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59683e-08\tAbsError: 5.54711e-06\n", - " Region: \"zone_3\"\tRelError: 1.42707e-05\tAbsError: 9.50180e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.61313e-07\tAbsError: 5.41394e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.61345e-07\tAbsError: 4.08786e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33321e-05\tAbsError: 4.89497e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59706e-08\tAbsError: 5.54792e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:08\u001b[0m.\u001b[1;36m665\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:08\u001b[0m.\u001b[1;36m665\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7333333333333334\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.92305e-05\tAbsError: 5.26360e+10\n", - " Region: \"zone_1\"\tRelError: 6.83936e-06\tAbsError: 3.78015e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.82864e-06\tAbsError: 4.82672e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.07211e-08\tAbsError: 3.73188e-06\n", - " Region: \"zone_3\"\tRelError: 4.23911e-05\tAbsError: 5.26360e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.17044e-06\tAbsError: 2.04349e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.13380e-06\tAbsError: 3.22010e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.40762e-05\tAbsError: 4.83420e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.07265e-08\tAbsError: 3.73386e-06\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:08\u001b[0m.\u001b[1;36m840\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:08\u001b[0m.\u001b[1;36m840\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.4149999999999999\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.67619e-05\tAbsError: 1.02422e+10\n", - " Region: \"zone_1\"\tRelError: 2.21445e-05\tAbsError: 4.91320e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.21303e-05\tAbsError: 5.33976e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41260e-08\tAbsError: 4.90786e-06\n", - " Region: \"zone_3\"\tRelError: 1.46175e-05\tAbsError: 1.02422e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.20200e-07\tAbsError: 5.93796e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.20801e-07\tAbsError: 4.30421e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35623e-05\tAbsError: 5.58038e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41284e-08\tAbsError: 4.90869e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:09\u001b[0m.\u001b[1;36m165\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.7000000000000001\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 6.51617e-05\tAbsError: 4.65398e+10\n", - " Region: \"zone_1\"\tRelError: 2.18609e-05\tAbsError: 6.36014e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.18427e-05\tAbsError: 1.11819e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.82534e-08\tAbsError: 6.34896e-06\n", - " Region: \"zone_3\"\tRelError: 4.33008e-05\tAbsError: 4.65398e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04809e-06\tAbsError: 2.33986e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03254e-06\tAbsError: 2.31412e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.12019e-05\tAbsError: 1.20844e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.82605e-08\tAbsError: 6.35150e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:09\u001b[0m.\u001b[1;36m620\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.8\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Iteration: 6\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 1.64329e-04\tAbsError: 1.17757e+11\n", - " Region: \"zone_1\"\tRelError: 2.50373e-05\tAbsError: 4.84121e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.48981e-05\tAbsError: 7.17289e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39198e-07\tAbsError: 4.83403e-05\n", - " Region: \"zone_3\"\tRelError: 1.39291e-04\tAbsError: 1.17757e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.33650e-06\tAbsError: 8.08468e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.26154e-06\tAbsError: 3.69104e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.22554e-04\tAbsError: 7.49738e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.39198e-07\tAbsError: 4.83403e-05\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.05900e+01\tAbsError: 4.46557e+16\n", - " Region: \"zone_1\"\tRelError: 6.87743e+01\tAbsError: 4.20735e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.87743e+01\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.70008e-09\tAbsError: 9.37962e-07\n", - " Region: \"zone_3\"\tRelError: 1.81571e+00\tAbsError: 4.46557e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77865e-01\tAbsError: 2.21789e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.77152e-01\tAbsError: 2.24768e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.60688e-01\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.70036e-09\tAbsError: 9.38061e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.20408e+00\tAbsError: 8.66556e+15\n", - " Region: \"zone_1\"\tRelError: 5.53406e+00\tAbsError: 4.19658e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.53406e+00\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.30170e-09\tAbsError: 2.88550e-06\n", - " Region: \"zone_3\"\tRelError: 1.67003e+00\tAbsError: 8.66556e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78195e-01\tAbsError: 5.11161e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.78171e-01\tAbsError: 3.55395e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13660e-01\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.30183e-09\tAbsError: 2.88560e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.11982e+00\tAbsError: 2.71568e+16\n", - " Region: \"zone_1\"\tRelError: 3.35178e+00\tAbsError: 4.09552e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.35178e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.75560e-09\tAbsError: 9.57391e-07\n", - " Region: \"zone_3\"\tRelError: 1.76804e+00\tAbsError: 2.71568e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68907e-01\tAbsError: 1.36090e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.68433e-01\tAbsError: 1.35478e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.30705e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.75592e-09\tAbsError: 9.57503e-07\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.29104e-05\tAbsError: 4.21734e+10\n", - " Region: \"zone_1\"\tRelError: 4.44495e-06\tAbsError: 6.18426e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.42730e-06\tAbsError: 4.07074e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.76498e-08\tAbsError: 6.14355e-06\n", - " Region: \"zone_3\"\tRelError: 2.84655e-05\tAbsError: 4.21734e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.29169e-06\tAbsError: 1.42178e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.26285e-06\tAbsError: 2.79556e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.18933e-05\tAbsError: 4.07772e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.76574e-08\tAbsError: 6.14636e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:11\u001b[0m.\u001b[1;36m152\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:11\u001b[0m.\u001b[1;36m152\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.42999999999999994\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.97502e+01\tAbsError: 1.32808e+17\n", - " Region: \"zone_1\"\tRelError: 2.76074e+01\tAbsError: 4.09563e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.76074e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.00798e-09\tAbsError: 2.08971e-06\n", - " Region: \"zone_3\"\tRelError: 2.14284e+00\tAbsError: 1.32808e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.64512e-01\tAbsError: 6.68287e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.62033e-01\tAbsError: 6.59795e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.16298e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.01029e-09\tAbsError: 2.09057e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 7.17594e+00\tAbsError: 4.58261e+16\n", - " Region: \"zone_1\"\tRelError: 5.57923e+00\tAbsError: 2.03711e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.57873e+00\tAbsError: 3.20819e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.94325e-04\tAbsError: 1.71629e-01\n", - " Region: \"zone_3\"\tRelError: 1.59671e+00\tAbsError: 4.58261e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.50864e-01\tAbsError: 2.32601e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.14248e-01\tAbsError: 2.25660e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.31103e-01\tAbsError: 3.20820e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.94325e-04\tAbsError: 1.71629e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.60672e+00\tAbsError: 4.02263e+14\n", - " Region: \"zone_1\"\tRelError: 1.08205e-01\tAbsError: 8.12031e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08064e-01\tAbsError: 3.19528e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41712e-04\tAbsError: 4.92503e-02\n", - " Region: \"zone_3\"\tRelError: 1.49852e+00\tAbsError: 4.02263e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.54640e-01\tAbsError: 2.74026e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.47272e-01\tAbsError: 1.28237e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.64644e-02\tAbsError: 3.19531e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41712e-04\tAbsError: 4.92503e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.73275e+00\tAbsError: 2.68838e+16\n", - " Region: \"zone_1\"\tRelError: 1.92080e-01\tAbsError: 1.46306e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.91747e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.32681e-04\tAbsError: 1.15542e-01\n", - " Region: \"zone_3\"\tRelError: 1.54067e+00\tAbsError: 2.68838e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.36324e-01\tAbsError: 1.35736e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.01335e-01\tAbsError: 1.33102e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.02681e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.32681e-04\tAbsError: 1.15542e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 8.61535e+00\tAbsError: 1.17905e+17\n", - " Region: \"zone_1\"\tRelError: 7.44285e-01\tAbsError: 3.38569e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 7.43397e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.87545e-04\tAbsError: 3.07806e-01\n", - " Region: \"zone_3\"\tRelError: 7.87107e+00\tAbsError: 1.17905e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17750e-01\tAbsError: 5.81639e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.67341e-01\tAbsError: 5.97408e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.58509e+00\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.87924e-04\tAbsError: 3.07944e-01\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 4.99434e+00\tAbsError: 9.07460e+15\n", - " Region: \"zone_1\"\tRelError: 3.30452e+00\tAbsError: 4.29359e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.30452e+00\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.08442e-09\tAbsError: 2.11298e-06\n", - " Region: \"zone_3\"\tRelError: 1.68981e+00\tAbsError: 9.07460e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86122e-01\tAbsError: 5.35667e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.86097e-01\tAbsError: 3.71793e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17595e-01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.08597e-09\tAbsError: 2.11346e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 3.35530e+00\tAbsError: 2.87948e+16\n", - " Region: \"zone_1\"\tRelError: 2.27290e+00\tAbsError: 1.15223e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.27265e+00\tAbsError: 2.57661e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.57720e-04\tAbsError: 8.94567e-02\n", - " Region: \"zone_3\"\tRelError: 1.08240e+00\tAbsError: 2.87948e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.59123e-01\tAbsError: 1.44061e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.01637e-01\tAbsError: 1.43888e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.21384e-01\tAbsError: 2.47220e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.57720e-04\tAbsError: 8.94567e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.07637e+00\tAbsError: 1.35812e+14\n", - " Region: \"zone_1\"\tRelError: 8.30797e-02\tAbsError: 3.32939e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.30584e-02\tAbsError: 2.58851e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.13173e-05\tAbsError: 7.40875e-03\n", - " Region: \"zone_3\"\tRelError: 9.93286e-01\tAbsError: 1.35812e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.65266e-01\tAbsError: 8.15592e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.44014e-01\tAbsError: 5.42533e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.39844e-02\tAbsError: 2.58851e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.13173e-05\tAbsError: 7.40875e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.12307e+00\tAbsError: 1.60442e+16\n", - " Region: \"zone_1\"\tRelError: 1.49907e-01\tAbsError: 9.31426e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49713e-01\tAbsError: 2.58569e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93773e-04\tAbsError: 6.72856e-02\n", - " Region: \"zone_3\"\tRelError: 9.73164e-01\tAbsError: 1.60442e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39500e-01\tAbsError: 8.04160e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.83757e-01\tAbsError: 8.00261e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49713e-01\tAbsError: 2.43087e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93773e-04\tAbsError: 6.72856e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 6.05251e+00\tAbsError: 7.12298e+16\n", - " Region: \"zone_1\"\tRelError: 9.54106e-01\tAbsError: 5.37894e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.54025e-01\tAbsError: 2.58886e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.04593e-05\tAbsError: 2.79009e-02\n", - " Region: \"zone_3\"\tRelError: 5.09841e+00\tAbsError: 7.12298e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.89784e-01\tAbsError: 3.67872e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.99659e-01\tAbsError: 3.44425e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 4.40888e+00\tAbsError: 2.58912e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.04593e-05\tAbsError: 2.79009e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.64725e+00\tAbsError: 4.74556e+14\n", - " Region: \"zone_1\"\tRelError: 1.16564e-01\tAbsError: 8.37432e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16418e-01\tAbsError: 3.31003e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.45721e-04\tAbsError: 5.06428e-02\n", - " Region: \"zone_3\"\tRelError: 1.53069e+00\tAbsError: 4.74556e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.69093e-01\tAbsError: 3.14532e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.61063e-01\tAbsError: 1.60024e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00388e-01\tAbsError: 3.31007e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.45721e-04\tAbsError: 5.06428e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.48868e+00\tAbsError: 8.66364e+15\n", - " Region: \"zone_1\"\tRelError: 1.06272e+00\tAbsError: 3.63205e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06265e+00\tAbsError: 1.08343e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.34266e-05\tAbsError: 2.54862e-02\n", - " Region: \"zone_3\"\tRelError: 4.25956e-01\tAbsError: 8.66364e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.94615e-01\tAbsError: 4.46596e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.11861e-01\tAbsError: 4.19767e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19407e-01\tAbsError: 1.08344e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.34266e-05\tAbsError: 2.54862e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.54994e-01\tAbsError: 5.06788e+13\n", - " Region: \"zone_1\"\tRelError: 2.88221e-02\tAbsError: 1.30680e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88152e-02\tAbsError: 1.06617e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.92395e-06\tAbsError: 2.40632e-03\n", - " Region: \"zone_3\"\tRelError: 3.26172e-01\tAbsError: 5.06788e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.16815e-01\tAbsError: 2.27548e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.02389e-02\tAbsError: 2.79240e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.91117e-02\tAbsError: 1.06618e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.92713e-06\tAbsError: 2.40746e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.25010e-01\tAbsError: 4.83168e+15\n", - " Region: \"zone_1\"\tRelError: 9.35029e-02\tAbsError: 6.02167e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.33558e-02\tAbsError: 9.16529e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47066e-04\tAbsError: 5.10514e-02\n", - " Region: \"zone_3\"\tRelError: 3.31507e-01\tAbsError: 4.83168e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.74852e-01\tAbsError: 2.44485e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.96161e-02\tAbsError: 2.38683e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.68922e-02\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47066e-04\tAbsError: 5.10514e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.96439e+00\tAbsError: 2.12374e+16\n", - " Region: \"zone_1\"\tRelError: 1.45967e+00\tAbsError: 2.87618e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.45886e+00\tAbsError: 9.16520e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03570e-04\tAbsError: 2.78453e-01\n", - " Region: \"zone_3\"\tRelError: 2.50473e+00\tAbsError: 2.12374e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.31487e-01\tAbsError: 1.07624e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.30649e-02\tAbsError: 1.04749e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.30937e+00\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03570e-04\tAbsError: 2.78453e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.13875e+00\tAbsError: 1.91429e+14\n", - " Region: \"zone_1\"\tRelError: 8.72362e-02\tAbsError: 3.41775e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.72123e-02\tAbsError: 2.58950e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.38317e-05\tAbsError: 8.28251e-03\n", - " Region: \"zone_3\"\tRelError: 1.05151e+00\tAbsError: 1.91429e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.88183e-01\tAbsError: 1.14582e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.74391e-01\tAbsError: 7.68472e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.89114e-02\tAbsError: 2.58546e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.38317e-05\tAbsError: 8.28251e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.05269e-01\tAbsError: 2.00168e+15\n", - " Region: \"zone_1\"\tRelError: 1.01873e-01\tAbsError: 2.51091e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01150e-01\tAbsError: 3.37405e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.23145e-04\tAbsError: 2.50754e-01\n", - " Region: \"zone_3\"\tRelError: 1.03396e-01\tAbsError: 2.00168e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.03281e-02\tAbsError: 1.03044e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.61663e-02\tAbsError: 9.71243e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.61783e-02\tAbsError: 3.37405e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.23145e-04\tAbsError: 2.50754e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.30726e-02\tAbsError: 8.23927e+12\n", - " Region: \"zone_1\"\tRelError: 3.37848e-03\tAbsError: 2.02621e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.37281e-03\tAbsError: 5.95073e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.66400e-06\tAbsError: 1.96670e-03\n", - " Region: \"zone_3\"\tRelError: 6.96941e-02\tAbsError: 8.23927e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.48256e-02\tAbsError: 4.47787e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.90463e-03\tAbsError: 3.76140e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.95818e-03\tAbsError: 6.43767e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.66400e-06\tAbsError: 1.96670e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.30868e-01\tAbsError: 1.08442e+15\n", - " Region: \"zone_1\"\tRelError: 2.27753e-02\tAbsError: 2.15920e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.21537e-02\tAbsError: 2.84606e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.21607e-04\tAbsError: 2.15635e-01\n", - " Region: \"zone_3\"\tRelError: 1.08092e-01\tAbsError: 1.08442e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.76472e-02\tAbsError: 4.26455e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.43864e-02\tAbsError: 6.57964e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.54371e-02\tAbsError: 2.84606e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.21607e-04\tAbsError: 2.15635e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.06736e+00\tAbsError: 1.67079e+15\n", - " Region: \"zone_1\"\tRelError: 1.87002e-01\tAbsError: 2.94468e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86917e-01\tAbsError: 5.45669e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.47563e-05\tAbsError: 2.93922e-02\n", - " Region: \"zone_3\"\tRelError: 1.88036e+00\tAbsError: 1.67079e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95806e-02\tAbsError: 8.61655e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.32450e-03\tAbsError: 8.09135e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.85737e+00\tAbsError: 5.47236e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.50770e-05\tAbsError: 2.95046e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.13297e-01\tAbsError: 7.52929e+13\n", - " Region: \"zone_1\"\tRelError: 3.44170e-02\tAbsError: 1.51248e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.44088e-02\tAbsError: 1.22657e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.23601e-06\tAbsError: 2.85918e-03\n", - " Region: \"zone_3\"\tRelError: 3.78880e-01\tAbsError: 7.52929e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.42275e-01\tAbsError: 3.28684e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.01785e-01\tAbsError: 4.24245e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.48113e-02\tAbsError: 1.22657e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.23601e-06\tAbsError: 2.85918e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.73594e-01\tAbsError: 4.04568e+14\n", - " Region: \"zone_1\"\tRelError: 1.14252e-01\tAbsError: 1.60779e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14206e-01\tAbsError: 6.91107e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.61654e-05\tAbsError: 1.60088e-02\n", - " Region: \"zone_3\"\tRelError: 1.59342e-01\tAbsError: 4.04568e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.16744e-03\tAbsError: 2.05385e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.06128e-03\tAbsError: 1.99183e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49067e-01\tAbsError: 7.27188e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.61654e-05\tAbsError: 1.60088e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.22575e-04\tAbsError: 9.29075e+11\n", - " Region: \"zone_1\"\tRelError: 7.12288e-05\tAbsError: 1.15614e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.09000e-05\tAbsError: 1.32871e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.28820e-07\tAbsError: 1.14285e-04\n", - " Region: \"zone_3\"\tRelError: 5.51346e-04\tAbsError: 9.29075e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.42058e-04\tAbsError: 2.36026e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.92710e-05\tAbsError: 6.93050e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.19689e-04\tAbsError: 1.33393e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.28820e-07\tAbsError: 1.14285e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.55617e-01\tAbsError: 2.35794e+14\n", - " Region: \"zone_1\"\tRelError: 4.99367e-02\tAbsError: 1.38607e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.98970e-02\tAbsError: 6.98741e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.97528e-05\tAbsError: 1.37908e-02\n", - " Region: \"zone_3\"\tRelError: 1.05680e-01\tAbsError: 2.35794e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.27300e-03\tAbsError: 1.18548e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.21148e-03\tAbsError: 1.17246e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.51557e-02\tAbsError: 7.06637e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.97528e-05\tAbsError: 1.37908e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.99757e-02\tAbsError: 6.03219e+13\n", - " Region: \"zone_1\"\tRelError: 5.28092e-03\tAbsError: 6.07421e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.26342e-03\tAbsError: 6.43272e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75062e-05\tAbsError: 6.06778e-03\n", - " Region: \"zone_3\"\tRelError: 2.46948e-02\tAbsError: 6.03219e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52421e-04\tAbsError: 2.92320e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.21852e-04\tAbsError: 3.10899e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.41030e-02\tAbsError: 6.47112e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75095e-05\tAbsError: 6.06885e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.55296e-02\tAbsError: 1.46785e+13\n", - " Region: \"zone_1\"\tRelError: 2.49644e-03\tAbsError: 2.18616e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49041e-03\tAbsError: 9.01307e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.03652e-06\tAbsError: 2.09603e-03\n", - " Region: \"zone_3\"\tRelError: 8.30332e-02\tAbsError: 1.46785e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.51171e-02\tAbsError: 7.64842e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.70344e-03\tAbsError: 7.03012e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20658e-03\tAbsError: 1.00679e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.03652e-06\tAbsError: 2.09603e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.46364e-02\tAbsError: 3.29563e+13\n", - " Region: \"zone_1\"\tRelError: 1.47274e-02\tAbsError: 7.28157e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.47064e-02\tAbsError: 5.33486e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.09833e-05\tAbsError: 7.27623e-03\n", - " Region: \"zone_3\"\tRelError: 1.99090e-02\tAbsError: 3.29563e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.19292e-04\tAbsError: 1.67682e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.25236e-04\tAbsError: 1.61881e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.90434e-02\tAbsError: 5.85649e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.09915e-05\tAbsError: 7.27922e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.27650e-04\tAbsError: 9.52408e+10\n", - " Region: \"zone_1\"\tRelError: 2.13213e-05\tAbsError: 5.43725e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.11649e-05\tAbsError: 6.28014e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.56399e-07\tAbsError: 5.43097e-05\n", - " Region: \"zone_3\"\tRelError: 1.06329e-04\tAbsError: 9.52408e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.09144e-06\tAbsError: 6.70989e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.02116e-06\tAbsError: 2.81420e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 9.40598e-05\tAbsError: 6.55661e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.56426e-07\tAbsError: 5.43178e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.12114e-02\tAbsError: 1.98754e+13\n", - " Region: \"zone_1\"\tRelError: 7.04172e-03\tAbsError: 6.58751e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.02275e-03\tAbsError: 5.51750e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.89733e-05\tAbsError: 6.58199e-03\n", - " Region: \"zone_3\"\tRelError: 1.41697e-02\tAbsError: 1.98754e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43525e-04\tAbsError: 1.00008e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.47254e-04\tAbsError: 9.87467e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.32599e-02\tAbsError: 5.78756e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.89775e-05\tAbsError: 6.58354e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.10405e-01\tAbsError: 3.12560e+13\n", - " Region: \"zone_1\"\tRelError: 1.08840e-02\tAbsError: 4.61195e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08827e-02\tAbsError: 1.71511e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32204e-06\tAbsError: 4.59479e-04\n", - " Region: \"zone_3\"\tRelError: 9.95213e-02\tAbsError: 3.12560e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34947e-04\tAbsError: 1.52362e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.27748e-04\tAbsError: 1.60198e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.92573e-02\tAbsError: 1.72813e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32271e-06\tAbsError: 4.59705e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.58436e-04\tAbsError: 9.76197e+11\n", - " Region: \"zone_1\"\tRelError: 6.87963e-05\tAbsError: 1.52764e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.83606e-05\tAbsError: 1.30863e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.35775e-07\tAbsError: 1.51456e-04\n", - " Region: \"zone_3\"\tRelError: 5.89639e-04\tAbsError: 9.76197e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.93148e-04\tAbsError: 2.43686e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.21484e-05\tAbsError: 7.32511e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.03907e-04\tAbsError: 1.33351e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.35775e-07\tAbsError: 1.51456e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.13924e-02\tAbsError: 1.85414e+13\n", - " Region: \"zone_1\"\tRelError: 9.11864e-03\tAbsError: 9.59661e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.11588e-03\tAbsError: 2.59243e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.75871e-06\tAbsError: 9.57068e-04\n", - " Region: \"zone_3\"\tRelError: 1.22737e-02\tAbsError: 1.85414e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.38572e-04\tAbsError: 9.41604e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.34475e-04\tAbsError: 9.12538e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17979e-02\tAbsError: 2.84729e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.75985e-06\tAbsError: 9.57492e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.50840e-05\tAbsError: 4.91699e+10\n", - " Region: \"zone_1\"\tRelError: 7.02249e-06\tAbsError: 4.27319e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 7.01033e-06\tAbsError: 4.22210e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.21557e-08\tAbsError: 4.23096e-06\n", - " Region: \"zone_3\"\tRelError: 3.80615e-05\tAbsError: 4.91699e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.39542e-06\tAbsError: 1.90691e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.36606e-06\tAbsError: 3.01008e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.12878e-05\tAbsError: 4.24207e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.21614e-08\tAbsError: 4.23302e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:20\u001b[0m.\u001b[1;36m551\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:20\u001b[0m.\u001b[1;36m551\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5199999999999999\u001b[0m \n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.24258e-02\tAbsError: 1.10918e+13\n", - " Region: \"zone_1\"\tRelError: 4.12899e-03\tAbsError: 9.16825e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.12635e-03\tAbsError: 2.69238e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.63359e-06\tAbsError: 9.14133e-04\n", - " Region: \"zone_3\"\tRelError: 8.29681e-03\tAbsError: 1.10918e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.48339e-04\tAbsError: 5.58229e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.46113e-04\tAbsError: 5.50951e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.79972e-03\tAbsError: 2.89698e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.63458e-06\tAbsError: 9.14508e-04\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.63047e-03\tAbsError: 9.09027e+11\n", - " Region: \"zone_1\"\tRelError: 4.56990e-04\tAbsError: 3.44629e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.55999e-04\tAbsError: 1.41300e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.91190e-07\tAbsError: 3.44488e-04\n", - " Region: \"zone_3\"\tRelError: 4.17348e-03\tAbsError: 9.09027e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.33335e-06\tAbsError: 4.38047e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.02288e-05\tAbsError: 4.70980e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.15793e-03\tAbsError: 1.42246e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.91601e-07\tAbsError: 3.44637e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.65798e-04\tAbsError: 1.22174e+11\n", - " Region: \"zone_1\"\tRelError: 2.79805e-05\tAbsError: 5.56854e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78204e-05\tAbsError: 8.16520e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60127e-07\tAbsError: 5.56037e-05\n", - " Region: \"zone_3\"\tRelError: 1.37818e-04\tAbsError: 1.22174e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.04045e-06\tAbsError: 8.28593e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.95339e-06\tAbsError: 3.93150e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21664e-04\tAbsError: 8.53009e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60129e-07\tAbsError: 5.56037e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.60352e-03\tAbsError: 2.57243e+12\n", - " Region: \"zone_1\"\tRelError: 1.54297e-03\tAbsError: 4.44694e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.54169e-03\tAbsError: 3.49758e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27787e-06\tAbsError: 4.44344e-04\n", - " Region: \"zone_3\"\tRelError: 2.06056e-03\tAbsError: 2.57243e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.32361e-05\tAbsError: 1.30390e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.27108e-05\tAbsError: 1.26853e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.99333e-03\tAbsError: 3.79227e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27835e-06\tAbsError: 4.44517e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.18008e-03\tAbsError: 1.59787e+12\n", - " Region: \"zone_1\"\tRelError: 7.30404e-04\tAbsError: 4.14536e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.29211e-04\tAbsError: 3.64518e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19313e-06\tAbsError: 4.14171e-04\n", - " Region: \"zone_3\"\tRelError: 1.44968e-03\tAbsError: 1.59787e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.59026e-05\tAbsError: 8.02763e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.55751e-05\tAbsError: 7.95108e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37700e-03\tAbsError: 3.97752e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19336e-06\tAbsError: 4.14251e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.98221e+01\tAbsError: 8.64531e+15\n", - " Region: \"zone_1\"\tRelError: 1.81187e+01\tAbsError: 4.19656e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.81187e+01\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.58846e-09\tAbsError: 2.63725e-06\n", - " Region: \"zone_3\"\tRelError: 1.70342e+00\tAbsError: 8.64531e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78201e-01\tAbsError: 4.98895e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.78139e-01\tAbsError: 3.65636e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.47079e-01\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.58846e-09\tAbsError: 2.63727e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.49771e-03\tAbsError: 1.64940e+12\n", - " Region: \"zone_1\"\tRelError: 6.42053e-04\tAbsError: 1.77929e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.42002e-04\tAbsError: 9.99896e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.09050e-08\tAbsError: 1.76929e-05\n", - " Region: \"zone_3\"\tRelError: 5.85566e-03\tAbsError: 1.64940e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.16109e-06\tAbsError: 8.03293e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.70130e-06\tAbsError: 8.46106e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.84174e-03\tAbsError: 1.00703e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.09341e-08\tAbsError: 1.77035e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.29840e-05\tAbsError: 4.97114e+10\n", - " Region: \"zone_1\"\tRelError: 6.74775e-06\tAbsError: 6.07457e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.73042e-06\tAbsError: 4.22286e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73315e-08\tAbsError: 6.03234e-06\n", - " Region: \"zone_3\"\tRelError: 3.62362e-05\tAbsError: 4.97114e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.35448e-06\tAbsError: 1.86949e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.32535e-06\tAbsError: 3.10165e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.95390e-05\tAbsError: 4.25647e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73388e-08\tAbsError: 6.03496e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:22\u001b[0m.\u001b[1;36m766\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.5399999999999999\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.51864e-03\tAbsError: 1.12473e+12\n", - " Region: \"zone_1\"\tRelError: 6.50046e-04\tAbsError: 8.14798e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.49813e-04\tAbsError: 1.44801e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.33906e-07\tAbsError: 8.13350e-05\n", - " Region: \"zone_3\"\tRelError: 8.68591e-04\tAbsError: 1.12473e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.45444e-05\tAbsError: 5.70557e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.42123e-05\tAbsError: 5.54169e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 8.39600e-04\tAbsError: 1.62373e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.34000e-07\tAbsError: 8.13686e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 9.04358e-04\tAbsError: 6.91618e+11\n", - " Region: \"zone_1\"\tRelError: 3.02587e-04\tAbsError: 7.78938e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.02363e-04\tAbsError: 1.55785e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.23501e-07\tAbsError: 7.77380e-05\n", - " Region: \"zone_3\"\tRelError: 6.01772e-04\tAbsError: 6.91618e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.55559e-05\tAbsError: 3.47877e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.53466e-05\tAbsError: 3.43741e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.70646e-04\tAbsError: 1.69595e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.23586e-07\tAbsError: 7.77681e-05\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.39508e+00\tAbsError: 1.51600e+15\n", - " Region: \"zone_1\"\tRelError: 8.81064e-01\tAbsError: 7.03064e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.80954e-01\tAbsError: 3.19527e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10369e-04\tAbsError: 3.83537e-02\n", - " Region: \"zone_3\"\tRelError: 1.51402e+00\tAbsError: 1.51600e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.56486e-01\tAbsError: 8.49352e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.37103e-01\tAbsError: 6.66645e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20319e-01\tAbsError: 3.19528e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10369e-04\tAbsError: 3.83537e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 5.44825e-04\tAbsError: 5.87780e+10\n", - " Region: \"zone_1\"\tRelError: 5.39394e-05\tAbsError: 2.02429e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.38812e-05\tAbsError: 6.87611e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.82246e-08\tAbsError: 2.02360e-05\n", - " Region: \"zone_3\"\tRelError: 4.90886e-04\tAbsError: 5.87780e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.46411e-07\tAbsError: 2.85251e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.30809e-07\tAbsError: 3.02529e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.90250e-04\tAbsError: 6.91269e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.82487e-08\tAbsError: 2.02448e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.05747e-04\tAbsError: 2.04109e+11\n", - " Region: \"zone_1\"\tRelError: 1.31137e-04\tAbsError: 3.07956e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31048e-04\tAbsError: 2.77993e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.84829e-08\tAbsError: 3.07678e-05\n", - " Region: \"zone_3\"\tRelError: 1.74610e-04\tAbsError: 2.04109e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.64104e-06\tAbsError: 1.03365e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.58639e-06\tAbsError: 1.00744e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.69295e-04\tAbsError: 3.09340e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.85176e-08\tAbsError: 3.07806e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.79935e+00\tAbsError: 9.07065e+15\n", - " Region: \"zone_1\"\tRelError: 6.07018e+00\tAbsError: 4.29363e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.07018e+00\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.28179e-09\tAbsError: 2.52849e-06\n", - " Region: \"zone_3\"\tRelError: 1.72916e+00\tAbsError: 9.07065e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.86123e-01\tAbsError: 5.17830e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.86053e-01\tAbsError: 3.89234e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.56989e-01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.28214e-09\tAbsError: 2.52864e-06\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.87260e-04\tAbsError: 1.29403e+11\n", - " Region: \"zone_1\"\tRelError: 6.28801e-05\tAbsError: 2.91909e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.27963e-05\tAbsError: 3.06059e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.38368e-08\tAbsError: 2.91603e-05\n", - " Region: \"zone_3\"\tRelError: 1.24379e-04\tAbsError: 1.29403e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91169e-06\tAbsError: 6.49895e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.87741e-06\tAbsError: 6.44135e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18506e-04\tAbsError: 3.32307e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.38700e-08\tAbsError: 2.91722e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.26009e+00\tAbsError: 9.34620e+14\n", - " Region: \"zone_1\"\tRelError: 2.72242e-01\tAbsError: 3.47960e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.72216e-01\tAbsError: 2.58901e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.56581e-05\tAbsError: 8.90586e-03\n", - " Region: \"zone_3\"\tRelError: 9.87851e-01\tAbsError: 9.34620e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.66784e-01\tAbsError: 4.28739e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.14300e-01\tAbsError: 5.05881e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06741e-01\tAbsError: 2.58901e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.56594e-05\tAbsError: 8.90651e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.92595e-04\tAbsError: 9.49473e+10\n", - " Region: \"zone_1\"\tRelError: 3.87978e-05\tAbsError: 2.02444e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.87920e-05\tAbsError: 5.96621e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.80757e-09\tAbsError: 2.01847e-06\n", - " Region: \"zone_3\"\tRelError: 3.53797e-04\tAbsError: 9.49473e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.10989e-07\tAbsError: 4.62324e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.83783e-07\tAbsError: 4.87150e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.52997e-04\tAbsError: 6.00786e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.81025e-09\tAbsError: 2.01943e-06\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.06787e-04\tAbsError: 7.36056e+10\n", - " Region: \"zone_1\"\tRelError: 4.57872e-05\tAbsError: 6.53937e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.57685e-05\tAbsError: 1.01369e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.87770e-08\tAbsError: 6.52923e-06\n", - " Region: \"zone_3\"\tRelError: 6.10000e-05\tAbsError: 7.36056e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.53086e-07\tAbsError: 3.73114e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.28982e-07\tAbsError: 3.62943e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.90992e-05\tAbsError: 1.13481e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.87845e-08\tAbsError: 6.53202e-06\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 6.51617e-05\tAbsError: 4.65398e+10\n", - " Region: \"zone_1\"\tRelError: 2.18609e-05\tAbsError: 6.36014e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.18427e-05\tAbsError: 1.11819e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.82534e-08\tAbsError: 6.34896e-06\n", - " Region: \"zone_3\"\tRelError: 4.33008e-05\tAbsError: 4.65398e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04809e-06\tAbsError: 2.33986e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03254e-06\tAbsError: 2.31412e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.12019e-05\tAbsError: 1.20844e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.82605e-08\tAbsError: 6.35150e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:25\u001b[0m.\u001b[1;36m809\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.8\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.87726e+00\tAbsError: 2.07784e+15\n", - " Region: \"zone_1\"\tRelError: 3.30726e-01\tAbsError: 7.19464e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.30614e-01\tAbsError: 3.31002e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11788e-04\tAbsError: 3.88462e-02\n", - " Region: \"zone_3\"\tRelError: 1.54653e+00\tAbsError: 2.07784e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.70151e-01\tAbsError: 1.12779e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.49677e-01\tAbsError: 9.50051e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.26591e-01\tAbsError: 3.31003e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11788e-04\tAbsError: 3.88462e-02\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 5.03275e-05\tAbsError: 9.08763e+09\n", - " Region: \"zone_1\"\tRelError: 4.97773e-06\tAbsError: 1.23989e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.97416e-06\tAbsError: 6.85123e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.56554e-09\tAbsError: 1.23921e-06\n", - " Region: \"zone_3\"\tRelError: 4.53497e-05\tAbsError: 9.08763e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.78500e-08\tAbsError: 4.42118e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.59273e-08\tAbsError: 4.66645e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 4.52724e-05\tAbsError: 6.89457e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.56702e-09\tAbsError: 1.23975e-06\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 2.39966e-05\tAbsError: 1.56028e+10\n", - " Region: \"zone_1\"\tRelError: 1.02996e-05\tAbsError: 2.15196e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02934e-05\tAbsError: 2.21173e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.18226e-09\tAbsError: 2.14975e-06\n", - " Region: \"zone_3\"\tRelError: 1.36971e-05\tAbsError: 1.56028e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.02027e-07\tAbsError: 7.89960e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.97311e-07\tAbsError: 7.70324e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.32915e-05\tAbsError: 2.46563e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.18487e-09\tAbsError: 2.15070e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:26\u001b[0m.\u001b[1;36m431\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 0.9\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:26\u001b[0m.\u001b[1;36m492\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:26\u001b[0m.\u001b[1;36m492\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.8388888888888889\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Iteration: 3\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 4.15200e-01\tAbsError: 3.54843e+14\n", - " Region: \"zone_1\"\tRelError: 5.18783e-02\tAbsError: 2.16460e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.18467e-02\tAbsError: 1.06619e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.16468e-05\tAbsError: 1.09842e-02\n", - " Region: \"zone_3\"\tRelError: 3.63322e-01\tAbsError: 3.54843e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.13274e-01\tAbsError: 1.70567e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.13884e-01\tAbsError: 1.84276e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.61323e-02\tAbsError: 1.06619e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.16468e-05\tAbsError: 1.09846e-02\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.15795e+00\tAbsError: 1.43317e+15\n", - " Region: \"zone_1\"\tRelError: 1.12652e-01\tAbsError: 3.52450e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12625e-01\tAbsError: 2.58896e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69531e-05\tAbsError: 9.35535e-03\n", - " Region: \"zone_3\"\tRelError: 1.04530e+00\tAbsError: 1.43317e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.89809e-01\tAbsError: 6.27661e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.39858e-01\tAbsError: 8.05511e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15604e-01\tAbsError: 2.58543e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69724e-05\tAbsError: 9.36224e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.97502e+01\tAbsError: 1.32808e+17\n", - " Region: \"zone_1\"\tRelError: 2.76074e+01\tAbsError: 4.09563e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.76074e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.00798e-09\tAbsError: 2.08971e-06\n", - " Region: \"zone_3\"\tRelError: 2.14284e+00\tAbsError: 1.32808e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.64512e-01\tAbsError: 6.68287e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.62033e-01\tAbsError: 6.59795e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.16298e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.01029e-09\tAbsError: 2.09057e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.01228e-01\tAbsError: 6.23996e+13\n", - " Region: \"zone_1\"\tRelError: 2.72826e-02\tAbsError: 5.51066e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.72672e-02\tAbsError: 1.71694e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.53768e-05\tAbsError: 5.33897e-03\n", - " Region: \"zone_3\"\tRelError: 7.39455e-02\tAbsError: 6.23996e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.10935e-02\tAbsError: 3.59735e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.41458e-03\tAbsError: 2.64261e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.42212e-03\tAbsError: 1.72806e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.53768e-05\tAbsError: 5.33897e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.75731e+01\tAbsError: 5.68784e+17\n", - " Region: \"zone_1\"\tRelError: 3.83859e+01\tAbsError: 4.09543e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.83859e+01\tAbsError: 4.09541e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.16236e-10\tAbsError: 1.79418e-07\n", - " Region: \"zone_3\"\tRelError: 1.91873e+01\tAbsError: 5.68784e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.35377e-01\tAbsError: 2.75826e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.22188e-01\tAbsError: 2.92959e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77297e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.16460e-10\tAbsError: 1.79501e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.99733e+01\tAbsError: 2.26128e+17\n", - " Region: \"zone_1\"\tRelError: 2.03845e+01\tAbsError: 4.20731e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03845e+01\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43640e-09\tAbsError: 4.99480e-07\n", - " Region: \"zone_3\"\tRelError: 9.58886e+00\tAbsError: 2.26128e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69382e-01\tAbsError: 1.14820e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.65088e-01\tAbsError: 1.11307e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 8.05439e+00\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43701e-09\tAbsError: 4.99700e-07\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.66101e-01\tAbsError: 5.71776e+14\n", - " Region: \"zone_1\"\tRelError: 4.21342e-02\tAbsError: 2.70003e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.20918e-02\tAbsError: 1.22659e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.24522e-05\tAbsError: 1.47344e-02\n", - " Region: \"zone_3\"\tRelError: 4.23967e-01\tAbsError: 5.71776e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.40635e-01\tAbsError: 2.83777e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.40006e-01\tAbsError: 2.87999e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.32840e-02\tAbsError: 1.22660e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.24816e-05\tAbsError: 1.47449e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 8.61535e+00\tAbsError: 1.17905e+17\n", - " Region: \"zone_1\"\tRelError: 7.44285e-01\tAbsError: 3.38569e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 7.43397e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.87545e-04\tAbsError: 3.07806e-01\n", - " Region: \"zone_3\"\tRelError: 7.87107e+00\tAbsError: 1.17905e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17750e-01\tAbsError: 5.81639e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.67341e-01\tAbsError: 5.97408e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.58509e+00\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.87924e-04\tAbsError: 3.07944e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.18909e-03\tAbsError: 2.50797e+12\n", - " Region: \"zone_1\"\tRelError: 3.37136e-04\tAbsError: 3.99230e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.35995e-04\tAbsError: 2.73321e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.14096e-06\tAbsError: 3.96496e-04\n", - " Region: \"zone_3\"\tRelError: 1.85195e-03\tAbsError: 2.50797e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.95361e-04\tAbsError: 8.43932e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.13660e-04\tAbsError: 1.66404e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.34179e-03\tAbsError: 2.78356e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.14125e-06\tAbsError: 3.96599e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.10779e+01\tAbsError: 4.06443e+17\n", - " Region: \"zone_1\"\tRelError: 1.97168e+01\tAbsError: 4.69738e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.97155e+01\tAbsError: 3.07629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26517e-03\tAbsError: 4.38975e-01\n", - " Region: \"zone_3\"\tRelError: 1.13612e+01\tAbsError: 4.06443e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.26663e-01\tAbsError: 2.03016e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.10593e-01\tAbsError: 2.03427e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03227e+01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26614e-03\tAbsError: 4.39294e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 6.24242e+01\tAbsError: 2.24081e+17\n", - " Region: \"zone_1\"\tRelError: 2.85577e+00\tAbsError: 3.14825e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.85496e+00\tAbsError: 3.20819e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.15607e-04\tAbsError: 2.82743e-01\n", - " Region: \"zone_3\"\tRelError: 5.95684e+01\tAbsError: 2.24081e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.16910e-01\tAbsError: 1.12507e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.44277e-01\tAbsError: 1.11574e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 5.83064e+01\tAbsError: 3.20820e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.15607e-04\tAbsError: 2.82743e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.84053e-02\tAbsError: 1.08690e+14\n", - " Region: \"zone_1\"\tRelError: 8.68078e-03\tAbsError: 8.41083e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 8.65731e-03\tAbsError: 2.61591e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.34713e-05\tAbsError: 8.14923e-03\n", - " Region: \"zone_3\"\tRelError: 8.97245e-02\tAbsError: 1.08690e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.02382e-02\tAbsError: 6.26697e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.25943e-02\tAbsError: 4.60204e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.86852e-03\tAbsError: 2.62736e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.34713e-05\tAbsError: 8.14923e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 6.05251e+00\tAbsError: 7.12298e+16\n", - " Region: \"zone_1\"\tRelError: 9.54106e-01\tAbsError: 5.37894e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.54025e-01\tAbsError: 2.58886e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.04593e-05\tAbsError: 2.79009e-02\n", - " Region: \"zone_3\"\tRelError: 5.09841e+00\tAbsError: 7.12298e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.89784e-01\tAbsError: 3.67872e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.99659e-01\tAbsError: 3.44425e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 4.40888e+00\tAbsError: 2.58912e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.04593e-05\tAbsError: 2.79009e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.99123e-04\tAbsError: 3.24565e+11\n", - " Region: \"zone_1\"\tRelError: 7.31805e-05\tAbsError: 1.49703e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.27499e-05\tAbsError: 1.95433e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.30598e-07\tAbsError: 1.49507e-04\n", - " Region: \"zone_3\"\tRelError: 3.25943e-04\tAbsError: 3.24565e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84790e-05\tAbsError: 2.08597e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.82567e-05\tAbsError: 1.15968e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88776e-04\tAbsError: 2.03345e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.30635e-07\tAbsError: 1.49522e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 4.48960e+02\tAbsError: 9.69691e+16\n", - " Region: \"zone_1\"\tRelError: 4.44741e+02\tAbsError: 1.46848e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.44741e+02\tAbsError: 2.58943e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.47880e-04\tAbsError: 1.20954e-01\n", - " Region: \"zone_3\"\tRelError: 4.21888e+00\tAbsError: 9.69691e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.30659e-01\tAbsError: 4.85459e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.34310e-01\tAbsError: 4.84232e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.85356e+00\tAbsError: 2.58906e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.48053e-04\tAbsError: 1.21009e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.41397e+01\tAbsError: 1.19776e+17\n", - " Region: \"zone_1\"\tRelError: 1.71543e+01\tAbsError: 1.01229e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.71541e+01\tAbsError: 2.58798e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17159e-04\tAbsError: 7.53489e-02\n", - " Region: \"zone_3\"\tRelError: 6.98541e+00\tAbsError: 1.19776e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.67463e-01\tAbsError: 6.05237e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.74800e-01\tAbsError: 5.92520e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.34293e+00\tAbsError: 2.58798e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.17199e-04\tAbsError: 7.53648e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.70865e-03\tAbsError: 3.95368e+12\n", - " Region: \"zone_1\"\tRelError: 5.98822e-04\tAbsError: 5.60907e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.97219e-04\tAbsError: 3.89502e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60297e-06\tAbsError: 5.57012e-04\n", - " Region: \"zone_3\"\tRelError: 3.10982e-03\tAbsError: 3.95368e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.50396e-04\tAbsError: 1.41982e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.19860e-04\tAbsError: 2.53386e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.33796e-03\tAbsError: 3.96587e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60304e-06\tAbsError: 5.57046e-04\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.96439e+00\tAbsError: 2.12374e+16\n", - " Region: \"zone_1\"\tRelError: 1.45967e+00\tAbsError: 2.87618e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.45886e+00\tAbsError: 9.16520e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03570e-04\tAbsError: 2.78453e-01\n", - " Region: \"zone_3\"\tRelError: 2.50473e+00\tAbsError: 2.12374e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.31487e-01\tAbsError: 1.07624e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.30649e-02\tAbsError: 1.04749e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.30937e+00\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03570e-04\tAbsError: 2.78453e-01\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.48281e-04\tAbsError: 1.40879e+11\n", - " Region: \"zone_1\"\tRelError: 2.64953e-05\tAbsError: 1.39788e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.64554e-05\tAbsError: 9.13637e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.99031e-08\tAbsError: 1.38874e-05\n", - " Region: \"zone_3\"\tRelError: 1.21785e-04\tAbsError: 1.40879e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.26051e-06\tAbsError: 6.52185e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.19355e-06\tAbsError: 7.56605e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.05291e-04\tAbsError: 9.40395e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.99185e-08\tAbsError: 1.38930e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.03712e+00\tAbsError: 1.21527e+16\n", - " Region: \"zone_1\"\tRelError: 1.00977e+00\tAbsError: 5.07362e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00834e+00\tAbsError: 9.16487e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42992e-03\tAbsError: 4.98197e-01\n", - " Region: \"zone_3\"\tRelError: 4.02736e+00\tAbsError: 1.21527e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.24782e-02\tAbsError: 5.84262e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.44637e-02\tAbsError: 6.31012e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 3.96898e+00\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43302e-03\tAbsError: 4.99291e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.35007e+00\tAbsError: 2.67006e+16\n", - " Region: \"zone_1\"\tRelError: 7.34338e-01\tAbsError: 2.86457e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 7.33542e-01\tAbsError: 1.08342e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.95408e-04\tAbsError: 2.75623e-01\n", - " Region: \"zone_3\"\tRelError: 6.15729e-01\tAbsError: 2.67006e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04981e-01\tAbsError: 1.33915e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.31768e-02\tAbsError: 1.33091e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 4.66775e-01\tAbsError: 1.08344e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.95408e-04\tAbsError: 2.75623e-01\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 5.03905e-04\tAbsError: 4.29222e+11\n", - " Region: \"zone_1\"\tRelError: 9.36879e-05\tAbsError: 2.36804e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.30066e-05\tAbsError: 2.54166e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.81308e-07\tAbsError: 2.36550e-04\n", - " Region: \"zone_3\"\tRelError: 4.10217e-04\tAbsError: 4.29222e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.41988e-05\tAbsError: 2.77763e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.38677e-05\tAbsError: 1.51459e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.61470e-04\tAbsError: 2.67086e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.81308e-07\tAbsError: 2.36550e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.06736e+00\tAbsError: 1.67079e+15\n", - " Region: \"zone_1\"\tRelError: 1.87002e-01\tAbsError: 2.94468e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86917e-01\tAbsError: 5.45669e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.47563e-05\tAbsError: 2.93922e-02\n", - " Region: \"zone_3\"\tRelError: 1.88036e+00\tAbsError: 1.67079e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95806e-02\tAbsError: 8.61655e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.32450e-03\tAbsError: 8.09135e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.85737e+00\tAbsError: 5.47236e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.50770e-05\tAbsError: 2.95046e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.41293e-05\tAbsError: 1.23437e+10\n", - " Region: \"zone_1\"\tRelError: 2.60795e-06\tAbsError: 7.73969e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.58570e-06\tAbsError: 7.10643e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.22527e-08\tAbsError: 7.73258e-06\n", - " Region: \"zone_3\"\tRelError: 1.15214e-05\tAbsError: 1.23437e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.31680e-07\tAbsError: 8.51809e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.19940e-07\tAbsError: 3.82564e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02475e-05\tAbsError: 7.37729e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.22569e-08\tAbsError: 7.73418e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:33\u001b[0m.\u001b[1;36m460\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:33\u001b[0m.\u001b[1;36m460\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6249999999999999\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 3.86687e-01\tAbsError: 2.60316e+15\n", - " Region: \"zone_1\"\tRelError: 1.88189e-01\tAbsError: 3.83312e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88079e-01\tAbsError: 5.27222e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10379e-04\tAbsError: 3.82785e-02\n", - " Region: \"zone_3\"\tRelError: 1.98497e-01\tAbsError: 2.60316e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.41703e-02\tAbsError: 1.34666e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.26131e-03\tAbsError: 1.25651e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.81955e-01\tAbsError: 5.32997e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10741e-04\tAbsError: 3.84054e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.22708e-01\tAbsError: 3.87768e+15\n", - " Region: \"zone_1\"\tRelError: 1.91968e-01\tAbsError: 6.75386e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.90026e-01\tAbsError: 2.52604e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94152e-03\tAbsError: 6.75134e-01\n", - " Region: \"zone_3\"\tRelError: 7.30741e-01\tAbsError: 3.87768e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.56619e-03\tAbsError: 1.77246e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.53274e-03\tAbsError: 2.10521e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.16698e-01\tAbsError: 2.55458e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94389e-03\tAbsError: 6.75970e-01\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.52598e-04\tAbsError: 2.26713e+11\n", - " Region: \"zone_1\"\tRelError: 4.63661e-05\tAbsError: 1.62759e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.63197e-05\tAbsError: 1.37060e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.63731e-08\tAbsError: 1.61389e-05\n", - " Region: \"zone_3\"\tRelError: 2.06232e-04\tAbsError: 2.26713e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.28007e-05\tAbsError: 1.09151e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.27071e-05\tAbsError: 1.17562e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.80678e-04\tAbsError: 1.41716e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.63910e-08\tAbsError: 1.61454e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.99757e-02\tAbsError: 6.03219e+13\n", - " Region: \"zone_1\"\tRelError: 5.28092e-03\tAbsError: 6.07421e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.26342e-03\tAbsError: 6.43272e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75062e-05\tAbsError: 6.06778e-03\n", - " Region: \"zone_3\"\tRelError: 2.46948e-02\tAbsError: 6.03219e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52421e-04\tAbsError: 2.92320e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.21852e-04\tAbsError: 3.10899e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.41030e-02\tAbsError: 6.47112e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75095e-05\tAbsError: 6.06885e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.14246e+01\tAbsError: 9.22518e+15\n", - " Region: \"zone_1\"\tRelError: 9.67873e+00\tAbsError: 4.19633e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.67873e+00\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.09432e-09\tAbsError: 3.80869e-07\n", - " Region: \"zone_3\"\tRelError: 1.74591e+00\tAbsError: 9.22518e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.78063e-01\tAbsError: 4.88541e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.77898e-01\tAbsError: 4.33977e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.89954e-01\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.09484e-09\tAbsError: 3.81056e-07\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.68613e-03\tAbsError: 1.19599e+14\n", - " Region: \"zone_1\"\tRelError: 1.18191e-03\tAbsError: 4.76234e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16819e-03\tAbsError: 9.37959e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37156e-05\tAbsError: 4.75296e-03\n", - " Region: \"zone_3\"\tRelError: 2.50423e-03\tAbsError: 1.19599e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.83643e-04\tAbsError: 5.86149e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.96793e-04\tAbsError: 6.09836e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.91007e-03\tAbsError: 9.45545e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37174e-05\tAbsError: 4.75351e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.39826e+00\tAbsError: 3.43096e+15\n", - " Region: \"zone_1\"\tRelError: 2.04849e-01\tAbsError: 4.45309e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.04721e-01\tAbsError: 2.05839e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27433e-04\tAbsError: 4.43251e-02\n", - " Region: \"zone_3\"\tRelError: 2.19341e+00\tAbsError: 3.43096e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.46827e-03\tAbsError: 1.70482e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.46042e-03\tAbsError: 1.72614e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.18535e+00\tAbsError: 2.07760e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27493e-04\tAbsError: 4.43450e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.37529e-05\tAbsError: 1.40904e+10\n", - " Region: \"zone_1\"\tRelError: 2.56157e-06\tAbsError: 1.29255e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.52440e-06\tAbsError: 7.69838e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.71758e-08\tAbsError: 1.29178e-05\n", - " Region: \"zone_3\"\tRelError: 1.11914e-05\tAbsError: 1.40904e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.24225e-07\tAbsError: 1.00189e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.55953e-07\tAbsError: 4.07148e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 9.77400e-06\tAbsError: 8.06496e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.71861e-08\tAbsError: 1.29217e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:35\u001b[0m.\u001b[1;36m723\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.6499999999999999\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.10405e-01\tAbsError: 3.12560e+13\n", - " Region: \"zone_1\"\tRelError: 1.08840e-02\tAbsError: 4.61195e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08827e-02\tAbsError: 1.71511e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32204e-06\tAbsError: 4.59479e-04\n", - " Region: \"zone_3\"\tRelError: 9.95213e-02\tAbsError: 3.12560e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34947e-04\tAbsError: 1.52362e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.27748e-04\tAbsError: 1.60198e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.92573e-02\tAbsError: 1.72813e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32271e-06\tAbsError: 4.59705e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.76420e+00\tAbsError: 7.94231e+15\n", - " Region: \"zone_1\"\tRelError: 2.30780e-01\tAbsError: 7.95917e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.30643e-01\tAbsError: 3.19526e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37110e-04\tAbsError: 4.76392e-02\n", - " Region: \"zone_3\"\tRelError: 1.53342e+00\tAbsError: 7.94231e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.53576e-01\tAbsError: 3.86093e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.24579e-01\tAbsError: 4.08137e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55124e-01\tAbsError: 3.19526e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37110e-04\tAbsError: 4.76392e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.86896e-02\tAbsError: 3.12437e+13\n", - " Region: \"zone_1\"\tRelError: 9.26093e-03\tAbsError: 8.84290e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.25839e-03\tAbsError: 1.24238e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.54067e-06\tAbsError: 8.83047e-04\n", - " Region: \"zone_3\"\tRelError: 9.42871e-03\tAbsError: 3.12437e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.49244e-05\tAbsError: 1.53952e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.98149e-05\tAbsError: 1.58486e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.28143e-03\tAbsError: 1.25479e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.54187e-06\tAbsError: 8.83452e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.26801e-01\tAbsError: 3.21780e+14\n", - " Region: \"zone_1\"\tRelError: 1.55999e-02\tAbsError: 2.70060e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55223e-02\tAbsError: 1.53596e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.76036e-05\tAbsError: 2.69907e-02\n", - " Region: \"zone_3\"\tRelError: 3.11201e-01\tAbsError: 3.21780e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.63679e-04\tAbsError: 1.60119e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.88527e-04\tAbsError: 1.61661e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.10171e-01\tAbsError: 1.54896e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.76380e-05\tAbsError: 2.70022e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.63047e-03\tAbsError: 9.09027e+11\n", - " Region: \"zone_1\"\tRelError: 4.56990e-04\tAbsError: 3.44629e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.55999e-04\tAbsError: 1.41300e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.91190e-07\tAbsError: 3.44488e-04\n", - " Region: \"zone_3\"\tRelError: 4.17348e-03\tAbsError: 9.09027e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.33335e-06\tAbsError: 4.38047e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.02288e-05\tAbsError: 4.70980e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.15793e-03\tAbsError: 1.42246e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.91601e-07\tAbsError: 3.44637e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.52664e+01\tAbsError: 1.16964e+16\n", - " Region: \"zone_1\"\tRelError: 5.34885e+01\tAbsError: 4.29340e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.34885e+01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.65399e-10\tAbsError: 1.96786e-07\n", - " Region: \"zone_3\"\tRelError: 1.77791e+00\tAbsError: 1.16964e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.85913e-01\tAbsError: 5.96599e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.85711e-01\tAbsError: 5.73044e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06286e-01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.65730e-10\tAbsError: 1.96905e-07\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.15026e+00\tAbsError: 5.50806e+15\n", - " Region: \"zone_1\"\tRelError: 1.25602e-01\tAbsError: 3.46873e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.25576e-01\tAbsError: 2.58319e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.54865e-05\tAbsError: 8.85540e-03\n", - " Region: \"zone_3\"\tRelError: 1.02466e+00\tAbsError: 5.50806e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.69453e-01\tAbsError: 2.66067e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.19655e-01\tAbsError: 2.84739e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35522e-01\tAbsError: 2.53767e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.54865e-05\tAbsError: 8.85540e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.70169e-04\tAbsError: 3.89103e+12\n", - " Region: \"zone_1\"\tRelError: 1.11728e-04\tAbsError: 2.48812e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11013e-04\tAbsError: 2.80731e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.15158e-07\tAbsError: 2.48531e-04\n", - " Region: \"zone_3\"\tRelError: 1.58440e-04\tAbsError: 3.89103e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.86956e-06\tAbsError: 1.91259e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.01000e-05\tAbsError: 1.97844e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37755e-04\tAbsError: 2.83260e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.15453e-07\tAbsError: 2.48639e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.06749e-01\tAbsError: 1.86094e+14\n", - " Region: \"zone_1\"\tRelError: 8.34420e-03\tAbsError: 3.03935e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 8.33549e-03\tAbsError: 8.31449e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.71533e-06\tAbsError: 3.03103e-03\n", - " Region: \"zone_3\"\tRelError: 1.98405e-01\tAbsError: 1.86094e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.28032e-04\tAbsError: 9.25440e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.88076e-04\tAbsError: 9.35503e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.97980e-01\tAbsError: 8.38945e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.71848e-06\tAbsError: 3.03213e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.49771e-03\tAbsError: 1.64940e+12\n", - " Region: \"zone_1\"\tRelError: 6.42053e-04\tAbsError: 1.77929e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.42002e-04\tAbsError: 9.99896e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.09050e-08\tAbsError: 1.76929e-05\n", - " Region: \"zone_3\"\tRelError: 5.85566e-03\tAbsError: 1.64940e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.16109e-06\tAbsError: 8.03293e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.70130e-06\tAbsError: 8.46106e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.84174e-03\tAbsError: 1.00703e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.09341e-08\tAbsError: 1.77035e-05\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 6.33878e+00\tAbsError: 1.22675e+16\n", - " Region: \"zone_1\"\tRelError: 4.76725e+00\tAbsError: 9.34106e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.76707e+00\tAbsError: 3.31000e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73592e-04\tAbsError: 6.03106e-02\n", - " Region: \"zone_3\"\tRelError: 1.57153e+00\tAbsError: 1.22675e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67129e-01\tAbsError: 5.98252e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.36794e-01\tAbsError: 6.28496e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.67430e-01\tAbsError: 3.31000e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73592e-04\tAbsError: 6.03106e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.20405e-01\tAbsError: 1.87055e+15\n", - " Region: \"zone_1\"\tRelError: 1.38535e-01\tAbsError: 5.00612e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.38421e-01\tAbsError: 1.06622e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13548e-04\tAbsError: 3.93990e-02\n", - " Region: \"zone_3\"\tRelError: 3.81870e-01\tAbsError: 1.87055e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.06828e-01\tAbsError: 9.86809e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.30929e-01\tAbsError: 8.83740e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.39995e-02\tAbsError: 1.06623e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13572e-04\tAbsError: 3.94072e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.01858e-03\tAbsError: 1.52771e+12\n", - " Region: \"zone_1\"\tRelError: 5.05888e-04\tAbsError: 2.54426e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.05815e-04\tAbsError: 6.73730e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.30089e-08\tAbsError: 2.53753e-05\n", - " Region: \"zone_3\"\tRelError: 5.12693e-04\tAbsError: 1.52771e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.70016e-06\tAbsError: 7.53515e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.39004e-06\tAbsError: 7.74190e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.05530e-04\tAbsError: 6.80114e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.30427e-08\tAbsError: 2.53868e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.88896e-02\tAbsError: 2.58485e+13\n", - " Region: \"zone_1\"\tRelError: 1.63690e-03\tAbsError: 1.31710e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.63310e-03\tAbsError: 9.88963e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.79528e-06\tAbsError: 1.31612e-03\n", - " Region: \"zone_3\"\tRelError: 3.72527e-02\tAbsError: 2.58485e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.09818e-05\tAbsError: 1.28647e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.53496e-05\tAbsError: 1.29838e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.71926e-02\tAbsError: 9.97598e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.79540e-06\tAbsError: 1.31620e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 5.44825e-04\tAbsError: 5.87780e+10\n", - " Region: \"zone_1\"\tRelError: 5.39394e-05\tAbsError: 2.02429e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.38812e-05\tAbsError: 6.87611e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.82246e-08\tAbsError: 2.02360e-05\n", - " Region: \"zone_3\"\tRelError: 4.90886e-04\tAbsError: 5.87780e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.46411e-07\tAbsError: 2.85251e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.30809e-07\tAbsError: 3.02529e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.90250e-04\tAbsError: 6.91269e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.82487e-08\tAbsError: 2.02448e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.27823e+00\tAbsError: 8.68356e+15\n", - " Region: \"zone_1\"\tRelError: 1.88988e-01\tAbsError: 4.08652e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88944e-01\tAbsError: 2.57034e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.36930e-05\tAbsError: 1.51618e-02\n", - " Region: \"zone_3\"\tRelError: 1.08924e+00\tAbsError: 8.68356e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.90758e-01\tAbsError: 4.26881e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.47066e-01\tAbsError: 4.41475e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51374e-01\tAbsError: 2.52748e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.47625e-05\tAbsError: 1.55328e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.56859e-02\tAbsError: 3.07403e+14\n", - " Region: \"zone_1\"\tRelError: 8.91573e-03\tAbsError: 4.12176e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.79758e-03\tAbsError: 2.04906e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18153e-04\tAbsError: 4.10127e-02\n", - " Region: \"zone_3\"\tRelError: 8.67701e-02\tAbsError: 3.07403e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.27638e-02\tAbsError: 1.70944e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03232e-02\tAbsError: 1.36458e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35648e-02\tAbsError: 2.15801e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.18309e-04\tAbsError: 4.10657e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.11187e-05\tAbsError: 1.04011e+11\n", - " Region: \"zone_1\"\tRelError: 5.62860e-06\tAbsError: 1.33801e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.59012e-06\tAbsError: 7.79374e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.84793e-08\tAbsError: 1.33723e-05\n", - " Region: \"zone_3\"\tRelError: 5.49015e-06\tAbsError: 1.04011e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.73835e-07\tAbsError: 5.10986e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.84056e-07\tAbsError: 5.29122e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.79376e-06\tAbsError: 7.86425e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.84956e-08\tAbsError: 1.33784e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.59304e-02\tAbsError: 1.10975e+13\n", - " Region: \"zone_1\"\tRelError: 6.60647e-04\tAbsError: 2.32906e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.59978e-04\tAbsError: 3.98553e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.68839e-07\tAbsError: 2.32508e-04\n", - " Region: \"zone_3\"\tRelError: 1.52698e-02\tAbsError: 1.10975e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.32236e-05\tAbsError: 5.52234e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.14382e-05\tAbsError: 5.57521e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.52444e-02\tAbsError: 4.02224e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.69094e-07\tAbsError: 2.32596e-04\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:40\u001b[0m.\u001b[1;36m977\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:40\u001b[0m.\u001b[1;36m977\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.9444444444444445\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.92595e-04\tAbsError: 9.49473e+10\n", - " Region: \"zone_1\"\tRelError: 3.87978e-05\tAbsError: 2.02444e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.87920e-05\tAbsError: 5.96621e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.80757e-09\tAbsError: 2.01847e-06\n", - " Region: \"zone_3\"\tRelError: 3.53797e-04\tAbsError: 9.49473e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.10989e-07\tAbsError: 4.62324e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.83783e-07\tAbsError: 4.87150e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.52997e-04\tAbsError: 6.00786e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.81025e-09\tAbsError: 2.01943e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.24591e+00\tAbsError: 3.26346e+15\n", - " Region: \"zone_1\"\tRelError: 1.80867e+00\tAbsError: 8.31621e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.80847e+00\tAbsError: 1.22663e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.04347e-04\tAbsError: 7.08958e-02\n", - " Region: \"zone_3\"\tRelError: 4.37234e-01\tAbsError: 3.26346e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.32552e-01\tAbsError: 1.73554e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.50687e-01\tAbsError: 1.52791e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.37915e-02\tAbsError: 1.22664e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.04553e-04\tAbsError: 7.09655e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.23155e-02\tAbsError: 2.21938e+13\n", - " Region: \"zone_1\"\tRelError: 4.98263e-03\tAbsError: 7.88142e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.98041e-03\tAbsError: 1.57019e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.22537e-06\tAbsError: 7.72440e-04\n", - " Region: \"zone_3\"\tRelError: 1.73329e-02\tAbsError: 2.21938e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.42994e-03\tAbsError: 9.94824e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.30496e-03\tAbsError: 1.22456e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.45957e-02\tAbsError: 1.65306e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.22982e-06\tAbsError: 7.73986e-04\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.34486e-03\tAbsError: 1.97182e+12\n", - " Region: \"zone_1\"\tRelError: 1.39485e-04\tAbsError: 8.65138e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39236e-04\tAbsError: 6.47581e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.48683e-07\tAbsError: 8.64490e-05\n", - " Region: \"zone_3\"\tRelError: 3.20538e-03\tAbsError: 1.97182e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.27846e-06\tAbsError: 9.81632e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.12485e-06\tAbsError: 9.90188e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.20072e-03\tAbsError: 6.54815e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.48776e-07\tAbsError: 8.64826e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 5.03275e-05\tAbsError: 9.08763e+09\n", - " Region: \"zone_1\"\tRelError: 4.97773e-06\tAbsError: 1.23989e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.97416e-06\tAbsError: 6.85123e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.56554e-09\tAbsError: 1.23921e-06\n", - " Region: \"zone_3\"\tRelError: 4.53498e-05\tAbsError: 9.08763e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.78500e-08\tAbsError: 4.42118e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.59273e-08\tAbsError: 4.66645e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 4.52724e-05\tAbsError: 6.89457e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.56702e-09\tAbsError: 1.23975e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:42\u001b[0m.\u001b[1;36m573\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 0.9\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.22369e+02\tAbsError: 9.43638e+17\n", - " Region: \"zone_1\"\tRelError: 2.81696e+02\tAbsError: 4.20729e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.81696e+02\tAbsError: 4.20724e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.48401e-09\tAbsError: 5.15814e-07\n", - " Region: \"zone_3\"\tRelError: 4.06736e+01\tAbsError: 9.43638e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.21983e-01\tAbsError: 4.58740e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.01626e-01\tAbsError: 4.84898e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 3.92499e+01\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.48495e-09\tAbsError: 5.16134e-07\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.09725e-01\tAbsError: 5.66844e+14\n", - " Region: \"zone_1\"\tRelError: 9.74944e-02\tAbsError: 6.02281e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.73217e-02\tAbsError: 2.69090e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72760e-04\tAbsError: 5.99590e-02\n", - " Region: \"zone_3\"\tRelError: 1.12230e-01\tAbsError: 5.66844e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.16841e-02\tAbsError: 3.36059e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.40653e-02\tAbsError: 2.30785e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.63081e-02\tAbsError: 2.86751e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72917e-04\tAbsError: 6.00120e-02\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.15137e-03\tAbsError: 7.06680e+11\n", - " Region: \"zone_1\"\tRelError: 4.79513e-05\tAbsError: 1.84347e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.78983e-05\tAbsError: 2.30046e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.29631e-08\tAbsError: 1.84117e-05\n", - " Region: \"zone_3\"\tRelError: 1.10342e-03\tAbsError: 7.06680e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.28767e-07\tAbsError: 3.51782e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.37241e-07\tAbsError: 3.54898e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10180e-03\tAbsError: 2.32700e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.29832e-08\tAbsError: 1.84191e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.30610e-04\tAbsError: 4.37226e+11\n", - " Region: \"zone_1\"\tRelError: 1.49974e-04\tAbsError: 1.29107e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.46259e-04\tAbsError: 4.50181e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.71544e-06\tAbsError: 1.29062e-03\n", - " Region: \"zone_3\"\tRelError: 4.80636e-04\tAbsError: 4.37226e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05631e-05\tAbsError: 1.66427e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.21073e-05\tAbsError: 2.70799e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.34250e-04\tAbsError: 4.61483e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.71550e-06\tAbsError: 1.29067e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.46572e+02\tAbsError: 5.04463e+17\n", - " Region: \"zone_1\"\tRelError: 1.07438e+02\tAbsError: 9.56605e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07435e+02\tAbsError: 3.20815e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.66107e-03\tAbsError: 9.24524e-01\n", - " Region: \"zone_3\"\tRelError: 2.39134e+02\tAbsError: 5.04463e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.90578e-01\tAbsError: 2.52980e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.63428e-01\tAbsError: 2.51483e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 2.38177e+02\tAbsError: 3.20820e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.66135e-03\tAbsError: 9.24642e-01\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.75731e+01\tAbsError: 5.68784e+17\n", - " Region: \"zone_1\"\tRelError: 3.83859e+01\tAbsError: 4.09543e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.83859e+01\tAbsError: 4.09541e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.16236e-10\tAbsError: 1.79418e-07\n", - " Region: \"zone_3\"\tRelError: 1.91873e+01\tAbsError: 5.68784e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.35377e-01\tAbsError: 2.75826e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.22188e-01\tAbsError: 2.92959e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77297e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.16460e-10\tAbsError: 1.79501e-07\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.32859e-02\tAbsError: 3.83563e+13\n", - " Region: \"zone_1\"\tRelError: 8.24035e-03\tAbsError: 7.96612e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 8.23812e-03\tAbsError: 2.18441e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.23240e-06\tAbsError: 7.74768e-04\n", - " Region: \"zone_3\"\tRelError: 2.50456e-02\tAbsError: 3.83563e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.92826e-03\tAbsError: 1.79088e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.76021e-03\tAbsError: 2.04475e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.13549e-02\tAbsError: 2.23899e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.24276e-06\tAbsError: 7.78349e-04\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 2.60636e-04\tAbsError: 1.46372e+11\n", - " Region: \"zone_1\"\tRelError: 1.08690e-05\tAbsError: 6.03090e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08517e-05\tAbsError: 5.09600e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73339e-08\tAbsError: 6.02581e-06\n", - " Region: \"zone_3\"\tRelError: 2.49767e-04\tAbsError: 1.46372e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.68311e-07\tAbsError: 7.29196e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.63262e-07\tAbsError: 7.34528e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49418e-04\tAbsError: 5.15309e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73406e-08\tAbsError: 6.02830e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.71714e-03\tAbsError: 1.26020e+12\n", - " Region: \"zone_1\"\tRelError: 4.08492e-04\tAbsError: 8.25373e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.08256e-04\tAbsError: 6.27594e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.35973e-07\tAbsError: 8.19097e-05\n", - " Region: \"zone_3\"\tRelError: 1.30864e-03\tAbsError: 1.26020e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.94254e-05\tAbsError: 6.33437e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.91447e-05\tAbsError: 6.26764e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18984e-03\tAbsError: 6.44970e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36012e-07\tAbsError: 8.19244e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 3.60262e+03\tAbsError: 1.07930e+17\n", - " Region: \"zone_1\"\tRelError: 1.36612e+02\tAbsError: 3.37833e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.36611e+02\tAbsError: 2.58874e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.98630e-04\tAbsError: 3.11946e-01\n", - " Region: \"zone_3\"\tRelError: 3.46601e+03\tAbsError: 1.07930e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.81165e-01\tAbsError: 5.42175e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.02149e-01\tAbsError: 5.37124e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.46573e+03\tAbsError: 2.58951e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.02058e-04\tAbsError: 3.13136e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.10779e+01\tAbsError: 4.06443e+17\n", - " Region: \"zone_1\"\tRelError: 1.97168e+01\tAbsError: 4.69738e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.97155e+01\tAbsError: 3.07629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26517e-03\tAbsError: 4.38975e-01\n", - " Region: \"zone_3\"\tRelError: 1.13612e+01\tAbsError: 4.06443e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.26663e-01\tAbsError: 2.03016e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.10593e-01\tAbsError: 2.03427e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03227e+01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26614e-03\tAbsError: 4.39294e-01\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 8.12930e-05\tAbsError: 4.69072e+10\n", - " Region: \"zone_1\"\tRelError: 3.38946e-06\tAbsError: 1.38742e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.38548e-06\tAbsError: 1.62196e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.98640e-09\tAbsError: 1.38580e-06\n", - " Region: \"zone_3\"\tRelError: 7.79035e-05\tAbsError: 4.69072e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.45193e-08\tAbsError: 2.33605e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.92263e-08\tAbsError: 2.35467e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.77958e-05\tAbsError: 1.64038e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.98804e-09\tAbsError: 1.38641e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:45\u001b[0m.\u001b[1;36m754\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.0 V. Current applied bias: 1.0\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.77352e-04\tAbsError: 7.13394e+11\n", - " Region: \"zone_1\"\tRelError: 2.80569e-04\tAbsError: 1.79321e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.75403e-04\tAbsError: 4.87828e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.16541e-06\tAbsError: 1.79273e-03\n", - " Region: \"zone_3\"\tRelError: 1.96783e-04\tAbsError: 7.13394e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.19881e-05\tAbsError: 4.92944e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.32443e-05\tAbsError: 2.20450e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.46385e-04\tAbsError: 4.93945e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.16541e-06\tAbsError: 1.79273e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.66725e-04\tAbsError: 7.91368e+10\n", - " Region: \"zone_1\"\tRelError: 4.05183e-05\tAbsError: 7.96892e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.02890e-05\tAbsError: 4.69103e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.29260e-07\tAbsError: 7.96423e-05\n", - " Region: \"zone_3\"\tRelError: 1.26207e-04\tAbsError: 7.91368e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.17347e-06\tAbsError: 3.76121e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.20199e-06\tAbsError: 4.15247e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17602e-04\tAbsError: 4.78638e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.29342e-07\tAbsError: 7.96708e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 4.48960e+02\tAbsError: 9.69691e+16\n", - " Region: \"zone_1\"\tRelError: 4.44741e+02\tAbsError: 1.46848e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.44741e+02\tAbsError: 2.58943e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.47880e-04\tAbsError: 1.20954e-01\n", - " Region: \"zone_3\"\tRelError: 4.21888e+00\tAbsError: 9.69691e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.30659e-01\tAbsError: 4.85459e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.34310e-01\tAbsError: 4.84232e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.85356e+00\tAbsError: 2.58906e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.48053e-04\tAbsError: 1.21009e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.81757e+03\tAbsError: 8.17376e+15\n", - " Region: \"zone_1\"\tRelError: 7.13883e+01\tAbsError: 4.06377e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 7.13872e+01\tAbsError: 1.08337e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13430e-03\tAbsError: 3.95543e-01\n", - " Region: \"zone_3\"\tRelError: 1.74618e+03\tAbsError: 8.17376e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.73025e-02\tAbsError: 4.10350e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.12778e-02\tAbsError: 4.07026e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74614e+03\tAbsError: 1.08344e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13497e-03\tAbsError: 3.95788e-01\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.49838e-03\tAbsError: 1.76569e+12\n", - " Region: \"zone_1\"\tRelError: 6.54941e-04\tAbsError: 9.30889e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.54675e-04\tAbsError: 8.39400e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.65787e-07\tAbsError: 9.22495e-05\n", - " Region: \"zone_3\"\tRelError: 1.84344e-03\tAbsError: 1.76569e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77494e-05\tAbsError: 8.82777e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.71860e-05\tAbsError: 8.82910e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.68824e-03\tAbsError: 8.40369e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.65787e-07\tAbsError: 9.22495e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.58363e+04\tAbsError: 1.47473e+18\n", - " Region: \"zone_1\"\tRelError: 6.98536e+03\tAbsError: 4.09543e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.98536e+03\tAbsError: 4.09539e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20641e-09\tAbsError: 4.19390e-07\n", - " Region: \"zone_3\"\tRelError: 2.88509e+04\tAbsError: 1.47473e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.64637e-01\tAbsError: 7.31003e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.38568e-01\tAbsError: 7.43726e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88496e+04\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20691e-09\tAbsError: 4.19574e-07\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.22730e-04\tAbsError: 7.90058e+10\n", - " Region: \"zone_1\"\tRelError: 2.95470e-05\tAbsError: 9.77951e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.95189e-05\tAbsError: 3.60460e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.80478e-08\tAbsError: 9.74347e-06\n", - " Region: \"zone_3\"\tRelError: 9.31834e-05\tAbsError: 7.90058e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.61463e-06\tAbsError: 4.44513e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.59003e-06\tAbsError: 3.45545e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 8.59506e-05\tAbsError: 3.66667e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.80556e-08\tAbsError: 9.74620e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.03712e+00\tAbsError: 1.21527e+16\n", - " Region: \"zone_1\"\tRelError: 1.00977e+00\tAbsError: 5.07362e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00834e+00\tAbsError: 9.16487e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42992e-03\tAbsError: 4.98197e-01\n", - " Region: \"zone_3\"\tRelError: 4.02736e+00\tAbsError: 1.21527e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.24782e-02\tAbsError: 5.84262e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.44637e-02\tAbsError: 6.31012e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 3.96898e+00\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43302e-03\tAbsError: 4.99291e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.54793e+00\tAbsError: 3.30288e+15\n", - " Region: \"zone_1\"\tRelError: 4.07651e-01\tAbsError: 6.07886e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.05905e-01\tAbsError: 1.75242e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.74578e-03\tAbsError: 6.07711e-01\n", - " Region: \"zone_3\"\tRelError: 1.14027e+00\tAbsError: 3.30288e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.14712e-02\tAbsError: 1.50798e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.76038e-03\tAbsError: 1.79491e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12430e+00\tAbsError: 1.77365e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.74637e-03\tAbsError: 6.07935e-01\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.85627e-05\tAbsError: 9.39763e+09\n", - " Region: \"zone_1\"\tRelError: 4.51595e-06\tAbsError: 5.40487e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.50041e-06\tAbsError: 4.76968e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.55448e-08\tAbsError: 5.40010e-06\n", - " Region: \"zone_3\"\tRelError: 1.40468e-05\tAbsError: 9.39763e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.58508e-07\tAbsError: 5.36588e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.58619e-07\tAbsError: 4.03174e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31141e-05\tAbsError: 4.85651e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.55471e-08\tAbsError: 5.40090e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.99060e-04\tAbsError: 9.07144e+10\n", - " Region: \"zone_1\"\tRelError: 5.32122e-05\tAbsError: 1.06982e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.29043e-05\tAbsError: 5.30299e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.07864e-07\tAbsError: 1.06929e-04\n", - " Region: \"zone_3\"\tRelError: 1.45848e-04\tAbsError: 9.07144e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.37854e-06\tAbsError: 4.24042e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.42241e-06\tAbsError: 4.83102e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.36739e-04\tAbsError: 5.34823e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.07966e-07\tAbsError: 1.06964e-04\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:48\u001b[0m.\u001b[1;36m797\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:48\u001b[0m.\u001b[1;36m797\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7299999999999999\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 8.73385e+02\tAbsError: 4.80817e+17\n", - " Region: \"zone_1\"\tRelError: 4.36320e+02\tAbsError: 1.19061e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 4.36317e+02\tAbsError: 3.07626e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.33293e-03\tAbsError: 1.15985e+00\n", - " Region: \"zone_3\"\tRelError: 4.37065e+02\tAbsError: 4.80817e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.79759e-01\tAbsError: 2.41402e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.64874e-01\tAbsError: 2.39414e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 4.36317e+02\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.33331e-03\tAbsError: 1.15994e+00\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.22708e-01\tAbsError: 3.87768e+15\n", - " Region: \"zone_1\"\tRelError: 1.91968e-01\tAbsError: 6.75386e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.90026e-01\tAbsError: 2.52604e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94152e-03\tAbsError: 6.75134e-01\n", - " Region: \"zone_3\"\tRelError: 7.30741e-01\tAbsError: 3.87768e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.56619e-03\tAbsError: 1.77246e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.53274e-03\tAbsError: 2.10521e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.16698e-01\tAbsError: 2.55458e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94389e-03\tAbsError: 6.75970e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.59463e+01\tAbsError: 2.98114e+15\n", - " Region: \"zone_1\"\tRelError: 2.97245e-01\tAbsError: 3.65177e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.97140e-01\tAbsError: 1.73243e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.04375e-04\tAbsError: 3.63445e-02\n", - " Region: \"zone_3\"\tRelError: 4.56490e+01\tAbsError: 2.98114e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.10791e-03\tAbsError: 1.48408e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.01404e-03\tAbsError: 1.49706e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 4.56418e+01\tAbsError: 1.74736e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.04419e-04\tAbsError: 3.63588e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.73943e-04\tAbsError: 1.07365e+11\n", - " Region: \"zone_1\"\tRelError: 4.60985e-05\tAbsError: 1.16082e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.60652e-05\tAbsError: 4.61233e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.32888e-08\tAbsError: 1.15620e-05\n", - " Region: \"zone_3\"\tRelError: 1.27845e-04\tAbsError: 1.07365e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.59108e-06\tAbsError: 6.01847e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.54678e-06\tAbsError: 4.71802e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18674e-04\tAbsError: 4.74794e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.32988e-08\tAbsError: 1.15655e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.66204e+03\tAbsError: 6.93474e+16\n", - " Region: \"zone_1\"\tRelError: 8.76338e+02\tAbsError: 4.68048e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 8.76336e+02\tAbsError: 2.58614e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26825e-03\tAbsError: 4.42186e-01\n", - " Region: \"zone_3\"\tRelError: 7.85702e+02\tAbsError: 6.93474e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.33245e-02\tAbsError: 3.47970e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.15582e-02\tAbsError: 3.45503e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 7.85556e+02\tAbsError: 2.58778e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26845e-03\tAbsError: 4.42250e-01\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.02177e+01\tAbsError: 4.24857e+16\n", - " Region: \"zone_1\"\tRelError: 5.84071e+01\tAbsError: 4.19638e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.84071e+01\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.65927e-09\tAbsError: 9.23800e-07\n", - " Region: \"zone_3\"\tRelError: 1.81056e+00\tAbsError: 4.24857e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77015e-01\tAbsError: 2.10830e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.76332e-01\tAbsError: 2.14027e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.57212e-01\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.65955e-09\tAbsError: 9.23899e-07\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.30314e+00\tAbsError: 2.60062e+14\n", - " Region: \"zone_1\"\tRelError: 5.30757e-02\tAbsError: 2.35199e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.30082e-02\tAbsError: 1.21066e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.75164e-05\tAbsError: 2.35078e-02\n", - " Region: \"zone_3\"\tRelError: 6.25006e+00\tAbsError: 2.60062e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.72969e-04\tAbsError: 1.29545e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.51490e-04\tAbsError: 1.30517e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.24897e+00\tAbsError: 1.22004e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.75445e-05\tAbsError: 2.35175e-02\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.39826e+00\tAbsError: 3.43096e+15\n", - " Region: \"zone_1\"\tRelError: 2.04849e-01\tAbsError: 4.45309e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.04721e-01\tAbsError: 2.05839e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27433e-04\tAbsError: 4.43251e-02\n", - " Region: \"zone_3\"\tRelError: 2.19341e+00\tAbsError: 3.43096e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.46827e-03\tAbsError: 1.70482e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.46042e-03\tAbsError: 1.72614e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.18535e+00\tAbsError: 2.07760e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27493e-04\tAbsError: 4.43450e-02\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.42423e-05\tAbsError: 1.13845e+10\n", - " Region: \"zone_1\"\tRelError: 6.77172e-06\tAbsError: 7.06656e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.75139e-06\tAbsError: 5.42330e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.03301e-08\tAbsError: 7.06113e-06\n", - " Region: \"zone_3\"\tRelError: 1.74705e-05\tAbsError: 1.13845e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.20454e-07\tAbsError: 6.31989e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.20087e-07\tAbsError: 5.06458e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.64097e-05\tAbsError: 5.58892e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.03324e-08\tAbsError: 7.06195e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:39:51\u001b[0m.\u001b[1;36m386\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.7599999999999999\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.46324e+03\tAbsError: 5.14576e+15\n", - " Region: \"zone_1\"\tRelError: 6.87978e+02\tAbsError: 7.78255e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 6.87976e+02\tAbsError: 9.16449e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19704e-03\tAbsError: 7.69091e-01\n", - " Region: \"zone_3\"\tRelError: 7.75259e+02\tAbsError: 5.14576e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52317e-02\tAbsError: 2.57522e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.85097e-03\tAbsError: 2.57054e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.75237e+02\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19704e-03\tAbsError: 7.69091e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.09627e+00\tAbsError: 4.36555e+16\n", - " Region: \"zone_1\"\tRelError: 5.02975e-01\tAbsError: 1.96470e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.02501e-01\tAbsError: 3.19524e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73827e-04\tAbsError: 1.64518e-01\n", - " Region: \"zone_3\"\tRelError: 1.59330e+00\tAbsError: 4.36555e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.49345e-01\tAbsError: 2.19735e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.13383e-01\tAbsError: 2.16820e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.30094e-01\tAbsError: 3.19525e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.73827e-04\tAbsError: 1.64518e-01\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.26801e-01\tAbsError: 3.21780e+14\n", - " Region: \"zone_1\"\tRelError: 1.55999e-02\tAbsError: 2.70060e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55223e-02\tAbsError: 1.53596e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.76036e-05\tAbsError: 2.69907e-02\n", - " Region: \"zone_3\"\tRelError: 3.11201e-01\tAbsError: 3.21780e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.63679e-04\tAbsError: 1.60119e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.88527e-04\tAbsError: 1.61661e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.10171e-01\tAbsError: 1.54896e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.76380e-05\tAbsError: 2.70022e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.68467e+00\tAbsError: 1.58417e+14\n", - " Region: \"zone_1\"\tRelError: 2.74530e-02\tAbsError: 2.54276e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.74457e-02\tAbsError: 6.86415e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.30395e-06\tAbsError: 2.53589e-03\n", - " Region: \"zone_3\"\tRelError: 3.65721e+00\tAbsError: 1.58417e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.03404e-04\tAbsError: 7.88728e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.05406e-04\tAbsError: 7.95438e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.65690e+00\tAbsError: 6.92132e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.30395e-06\tAbsError: 2.53589e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.96023e+00\tAbsError: 5.32372e+15\n", - " Region: \"zone_1\"\tRelError: 4.54639e+00\tAbsError: 1.02863e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 4.54344e+00\tAbsError: 2.66559e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.94644e-03\tAbsError: 1.02837e+00\n", - " Region: \"zone_3\"\tRelError: 2.41384e+00\tAbsError: 5.32372e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.51219e-02\tAbsError: 2.60450e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.65403e-03\tAbsError: 2.71922e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.38011e+00\tAbsError: 2.68000e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.95139e-03\tAbsError: 1.03011e+00\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.66197e+01\tAbsError: 6.69458e+16\n", - " Region: \"zone_1\"\tRelError: 1.47623e+01\tAbsError: 4.29349e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.47623e+01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.23687e-09\tAbsError: 1.12425e-06\n", - " Region: \"zone_3\"\tRelError: 1.85742e+00\tAbsError: 6.69458e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.84273e-01\tAbsError: 3.33953e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.83269e-01\tAbsError: 3.35506e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.89878e-01\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.23715e-09\tAbsError: 1.12434e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.23598e+00\tAbsError: 2.71916e+16\n", - " Region: \"zone_1\"\tRelError: 1.81508e-01\tAbsError: 1.13965e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.81254e-01\tAbsError: 2.57850e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.54037e-04\tAbsError: 8.81803e-02\n", - " Region: \"zone_3\"\tRelError: 1.05447e+00\tAbsError: 2.71916e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.57503e-01\tAbsError: 1.35855e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.99712e-01\tAbsError: 1.36061e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.97001e-01\tAbsError: 2.47369e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.54037e-04\tAbsError: 8.81803e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.06749e-01\tAbsError: 1.86094e+14\n", - " Region: \"zone_1\"\tRelError: 8.34420e-03\tAbsError: 3.03935e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 8.33549e-03\tAbsError: 8.31449e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.71533e-06\tAbsError: 3.03103e-03\n", - " Region: \"zone_3\"\tRelError: 1.98405e-01\tAbsError: 1.86094e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.28032e-04\tAbsError: 9.25440e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.88076e-04\tAbsError: 9.35503e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.97980e-01\tAbsError: 8.38945e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.71848e-06\tAbsError: 3.03213e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.06513e-01\tAbsError: 2.09865e+13\n", - " Region: \"zone_1\"\tRelError: 5.18521e-03\tAbsError: 1.14757e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.18190e-03\tAbsError: 7.90884e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.30299e-06\tAbsError: 1.14677e-03\n", - " Region: \"zone_3\"\tRelError: 3.01328e-01\tAbsError: 2.09865e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.56136e-05\tAbsError: 1.04559e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.15612e-05\tAbsError: 1.05307e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.01257e-01\tAbsError: 7.97233e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.30324e-06\tAbsError: 1.14681e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.90017e+00\tAbsError: 6.90569e+16\n", - " Region: \"zone_1\"\tRelError: 2.57152e-01\tAbsError: 2.59228e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.56500e-01\tAbsError: 3.31000e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.51506e-04\tAbsError: 2.26128e-01\n", - " Region: \"zone_3\"\tRelError: 1.64302e+00\tAbsError: 6.90569e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.60822e-01\tAbsError: 3.53198e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.20888e-01\tAbsError: 3.37371e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.60656e-01\tAbsError: 3.31000e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.51506e-04\tAbsError: 2.26128e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.07732e+01\tAbsError: 5.66142e+15\n", - " Region: \"zone_1\"\tRelError: 6.09549e-01\tAbsError: 6.00187e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.09378e-01\tAbsError: 2.72034e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71203e-04\tAbsError: 5.97467e-02\n", - " Region: \"zone_3\"\tRelError: 6.01636e+01\tAbsError: 5.66142e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.13691e-02\tAbsError: 2.75447e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.48872e-03\tAbsError: 2.90695e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 6.01496e+01\tAbsError: 2.74039e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71270e-04\tAbsError: 5.97699e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.40788e+00\tAbsError: 8.15212e+15\n", - " Region: \"zone_1\"\tRelError: 9.95059e-01\tAbsError: 3.32770e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.94994e-01\tAbsError: 1.06614e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.51530e-05\tAbsError: 2.26155e-02\n", - " Region: \"zone_3\"\tRelError: 4.12819e-01\tAbsError: 8.15212e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.93063e-01\tAbsError: 4.25836e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10930e-01\tAbsError: 3.89376e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08761e-01\tAbsError: 1.06615e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.51530e-05\tAbsError: 2.26155e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.88896e-02\tAbsError: 2.58485e+13\n", - " Region: \"zone_1\"\tRelError: 1.63690e-03\tAbsError: 1.31710e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.63310e-03\tAbsError: 9.88963e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.79528e-06\tAbsError: 1.31612e-03\n", - " Region: \"zone_3\"\tRelError: 3.72527e-02\tAbsError: 2.58485e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.09818e-05\tAbsError: 1.28647e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.53496e-05\tAbsError: 1.29838e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.71926e-02\tAbsError: 9.97598e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.79540e-06\tAbsError: 1.31620e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.41465e-01\tAbsError: 9.26962e+12\n", - " Region: \"zone_1\"\tRelError: 2.09965e-03\tAbsError: 1.99365e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.09908e-03\tAbsError: 3.25300e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.72195e-07\tAbsError: 1.99040e-04\n", - " Region: \"zone_3\"\tRelError: 1.39366e-01\tAbsError: 9.26962e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.52741e-06\tAbsError: 4.61773e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.59504e-06\tAbsError: 4.65189e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39346e-01\tAbsError: 3.27986e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.72409e-07\tAbsError: 1.99115e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 3.51587e+00\tAbsError: 4.22581e+16\n", - " Region: \"zone_1\"\tRelError: 1.92551e+00\tAbsError: 1.21029e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.92524e+00\tAbsError: 2.58362e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.74346e-04\tAbsError: 9.51931e-02\n", - " Region: \"zone_3\"\tRelError: 1.59036e+00\tAbsError: 4.22581e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.69859e-01\tAbsError: 2.15299e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.09624e-01\tAbsError: 2.07282e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 7.10598e-01\tAbsError: 2.40553e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.74346e-04\tAbsError: 9.51931e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.18137e+00\tAbsError: 3.71256e+14\n", - " Region: \"zone_1\"\tRelError: 8.31734e-02\tAbsError: 3.74686e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.30661e-02\tAbsError: 1.92544e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.07324e-04\tAbsError: 3.74493e-02\n", - " Region: \"zone_3\"\tRelError: 1.09819e+00\tAbsError: 3.71256e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.23962e-03\tAbsError: 1.84907e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.91184e-04\tAbsError: 1.86349e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09615e+00\tAbsError: 1.93888e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.07368e-04\tAbsError: 3.74645e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.21400e-01\tAbsError: 1.89468e+15\n", - " Region: \"zone_1\"\tRelError: 1.16917e-01\tAbsError: 2.47871e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16203e-01\tAbsError: 3.32836e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.13838e-04\tAbsError: 2.47538e-01\n", - " Region: \"zone_3\"\tRelError: 1.04483e-01\tAbsError: 1.89468e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.02995e-02\tAbsError: 9.56907e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.60325e-02\tAbsError: 9.37771e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.74370e-02\tAbsError: 3.32836e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.13838e-04\tAbsError: 2.47538e-01\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.23651e-02\tAbsError: 1.59153e+12\n", - " Region: \"zone_1\"\tRelError: 4.30371e-04\tAbsError: 7.45029e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.30157e-04\tAbsError: 5.34684e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.14025e-07\tAbsError: 7.44495e-05\n", - " Region: \"zone_3\"\tRelError: 2.19347e-02\tAbsError: 1.59153e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.02759e-06\tAbsError: 7.93109e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.49227e-06\tAbsError: 7.98425e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.19300e-02\tAbsError: 5.40337e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.14105e-07\tAbsError: 7.44781e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.59304e-02\tAbsError: 1.10975e+13\n", - " Region: \"zone_1\"\tRelError: 6.60647e-04\tAbsError: 2.32906e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.59978e-04\tAbsError: 3.98553e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.68839e-07\tAbsError: 2.32508e-04\n", - " Region: \"zone_3\"\tRelError: 1.52698e-02\tAbsError: 1.10975e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.32236e-05\tAbsError: 5.52234e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.14382e-05\tAbsError: 5.57521e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.52444e-02\tAbsError: 4.02224e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.69094e-07\tAbsError: 2.32596e-04\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.78234e+01\tAbsError: 1.53845e+16\n", - " Region: \"zone_1\"\tRelError: 2.71002e+01\tAbsError: 6.40599e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.71001e+01\tAbsError: 1.22653e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.49294e-04\tAbsError: 5.17946e-02\n", - " Region: \"zone_3\"\tRelError: 7.23191e-01\tAbsError: 1.53845e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05690e-01\tAbsError: 7.89233e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.16443e-01\tAbsError: 7.49218e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 4.00908e-01\tAbsError: 1.22654e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.49294e-04\tAbsError: 5.17946e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.46007e+00\tAbsError: 2.29640e+14\n", - " Region: \"zone_1\"\tRelError: 4.03111e-02\tAbsError: 3.94907e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 4.02998e-02\tAbsError: 1.05545e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13173e-05\tAbsError: 3.93851e-03\n", - " Region: \"zone_3\"\tRelError: 1.41976e+00\tAbsError: 2.29640e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16328e-04\tAbsError: 1.14327e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.52600e-04\tAbsError: 1.15314e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.41908e+00\tAbsError: 1.06317e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13180e-05\tAbsError: 3.93853e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.51782e-01\tAbsError: 3.85189e+14\n", - " Region: \"zone_1\"\tRelError: 1.01301e-01\tAbsError: 1.58596e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01255e-01\tAbsError: 6.95270e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.55327e-05\tAbsError: 1.57901e-02\n", - " Region: \"zone_3\"\tRelError: 1.50482e-01\tAbsError: 3.85189e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.20144e-03\tAbsError: 1.95375e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.09233e-03\tAbsError: 1.89813e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40142e-01\tAbsError: 7.28790e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.55327e-05\tAbsError: 1.57901e-02\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 7.73891e-03\tAbsError: 5.79413e+11\n", - " Region: \"zone_1\"\tRelError: 1.48362e-04\tAbsError: 1.55214e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.48317e-04\tAbsError: 1.89932e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.45655e-08\tAbsError: 1.55024e-05\n", - " Region: \"zone_3\"\tRelError: 7.59054e-03\tAbsError: 5.79413e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.23531e-07\tAbsError: 2.88725e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.27579e-07\tAbsError: 2.90688e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 7.58925e-03\tAbsError: 1.92003e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.45824e-08\tAbsError: 1.55087e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.34486e-03\tAbsError: 1.97182e+12\n", - " Region: \"zone_1\"\tRelError: 1.39485e-04\tAbsError: 8.65138e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39236e-04\tAbsError: 6.47581e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.48683e-07\tAbsError: 8.64490e-05\n", - " Region: \"zone_3\"\tRelError: 3.20538e-03\tAbsError: 1.97182e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.27846e-06\tAbsError: 9.81632e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.12485e-06\tAbsError: 9.90188e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.20072e-03\tAbsError: 6.54815e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.48776e-07\tAbsError: 8.64826e-05\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 5.78429e-01\tAbsError: 3.07251e+15\n", - " Region: \"zone_1\"\tRelError: 5.04734e-01\tAbsError: 2.71742e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.03951e-01\tAbsError: 3.65281e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.82895e-04\tAbsError: 2.71377e-01\n", - " Region: \"zone_3\"\tRelError: 7.36955e-02\tAbsError: 3.07251e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.87825e-02\tAbsError: 1.69644e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.61675e-02\tAbsError: 1.37607e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.96264e-03\tAbsError: 3.65281e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.82895e-04\tAbsError: 2.71377e-01\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.11111e-01\tAbsError: 2.79827e+13\n", - " Region: \"zone_1\"\tRelError: 7.25122e-03\tAbsError: 1.74217e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.24621e-03\tAbsError: 1.19347e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.00326e-06\tAbsError: 1.74098e-03\n", - " Region: \"zone_3\"\tRelError: 2.03859e-01\tAbsError: 2.79827e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67617e-05\tAbsError: 1.39372e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.89481e-05\tAbsError: 1.40455e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03729e-01\tAbsError: 1.20196e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.00391e-06\tAbsError: 1.74126e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.20699e-02\tAbsError: 3.14591e+13\n", - " Region: \"zone_1\"\tRelError: 1.31625e-02\tAbsError: 7.22224e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31417e-02\tAbsError: 5.37434e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.08111e-05\tAbsError: 7.21687e-03\n", - " Region: \"zone_3\"\tRelError: 1.89074e-02\tAbsError: 3.14591e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.22927e-04\tAbsError: 1.59868e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.28367e-04\tAbsError: 1.54723e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.80353e-02\tAbsError: 5.87419e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.08190e-05\tAbsError: 7.21971e-03\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.51790e-03\tAbsError: 1.16805e+11\n", - " Region: \"zone_1\"\tRelError: 3.28893e-05\tAbsError: 5.08720e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.28747e-05\tAbsError: 4.12395e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.46125e-08\tAbsError: 5.08307e-06\n", - " Region: \"zone_3\"\tRelError: 1.48501e-03\tAbsError: 1.16805e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.24655e-07\tAbsError: 5.82147e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.85069e-07\tAbsError: 5.85901e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.48469e-03\tAbsError: 4.16773e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.46182e-08\tAbsError: 5.08516e-06\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.15137e-03\tAbsError: 7.06680e+11\n", - " Region: \"zone_1\"\tRelError: 4.79513e-05\tAbsError: 1.84347e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.78983e-05\tAbsError: 2.30046e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.29631e-08\tAbsError: 1.84117e-05\n", - " Region: \"zone_3\"\tRelError: 1.10342e-03\tAbsError: 7.06680e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.28767e-07\tAbsError: 3.51782e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.37241e-07\tAbsError: 3.54898e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10180e-03\tAbsError: 2.32700e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.29832e-08\tAbsError: 1.84191e-05\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 4.72898e-04\tAbsError: 3.77480e+10\n", - " Region: \"zone_1\"\tRelError: 1.02547e-05\tAbsError: 1.14933e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02514e-05\tAbsError: 1.31017e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.30027e-09\tAbsError: 1.14802e-06\n", - " Region: \"zone_3\"\tRelError: 4.62644e-04\tAbsError: 3.77480e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.21419e-08\tAbsError: 1.88129e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.21462e-08\tAbsError: 1.89351e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.62556e-04\tAbsError: 1.32435e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.30162e-09\tAbsError: 1.14852e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.28286e+00\tAbsError: 5.88773e+14\n", - " Region: \"zone_1\"\tRelError: 8.55347e-01\tAbsError: 1.74049e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.55297e-01\tAbsError: 6.30266e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.00269e-05\tAbsError: 1.73418e-02\n", - " Region: \"zone_3\"\tRelError: 4.27508e-01\tAbsError: 5.88773e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.63052e-03\tAbsError: 2.89838e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.58578e-03\tAbsError: 2.98935e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.18242e-01\tAbsError: 6.77930e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.00342e-05\tAbsError: 1.73447e-02\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 2.60636e-04\tAbsError: 1.46372e+11\n", - " Region: \"zone_1\"\tRelError: 1.08690e-05\tAbsError: 6.03090e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08517e-05\tAbsError: 5.09600e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73339e-08\tAbsError: 6.02581e-06\n", - " Region: \"zone_3\"\tRelError: 2.49767e-04\tAbsError: 1.46372e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.68311e-07\tAbsError: 7.29196e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.63262e-07\tAbsError: 7.34528e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49418e-04\tAbsError: 5.15309e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73406e-08\tAbsError: 6.02830e-06\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 9.24879e-02\tAbsError: 1.23871e+13\n", - " Region: \"zone_1\"\tRelError: 2.93353e-03\tAbsError: 2.91323e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.93269e-03\tAbsError: 4.76030e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.36559e-07\tAbsError: 2.90847e-04\n", - " Region: \"zone_3\"\tRelError: 8.95543e-02\tAbsError: 1.23871e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95573e-05\tAbsError: 6.16953e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.91930e-05\tAbsError: 6.21758e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.95147e-02\tAbsError: 4.79468e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.36647e-07\tAbsError: 2.90878e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.97135e-02\tAbsError: 1.77017e+13\n", - " Region: \"zone_1\"\tRelError: 8.10974e-03\tAbsError: 9.56061e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 8.10699e-03\tAbsError: 2.58822e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.74820e-06\tAbsError: 9.53472e-04\n", - " Region: \"zone_3\"\tRelError: 1.16038e-02\tAbsError: 1.77017e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.40550e-04\tAbsError: 8.98186e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.36238e-04\tAbsError: 8.71985e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11242e-02\tAbsError: 2.86154e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.74933e-06\tAbsError: 9.53894e-04\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 1.04494e-04\tAbsError: 8.40909e+09\n", - " Region: \"zone_1\"\tRelError: 2.40898e-06\tAbsError: 3.47308e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.40799e-06\tAbsError: 3.03615e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.97547e-10\tAbsError: 3.47005e-07\n", - " Region: \"zone_3\"\tRelError: 1.02085e-04\tAbsError: 8.40909e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.09555e-09\tAbsError: 4.19130e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.33180e-08\tAbsError: 4.21779e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02063e-04\tAbsError: 3.06848e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.97958e-10\tAbsError: 3.47157e-07\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 8.12930e-05\tAbsError: 4.69072e+10\n", - " Region: \"zone_1\"\tRelError: 3.38946e-06\tAbsError: 1.38742e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.38548e-06\tAbsError: 1.62196e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.98640e-09\tAbsError: 1.38580e-06\n", - " Region: \"zone_3\"\tRelError: 7.79035e-05\tAbsError: 4.69072e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.45193e-08\tAbsError: 2.33605e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.92263e-08\tAbsError: 2.35467e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.77958e-05\tAbsError: 1.64038e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.98804e-09\tAbsError: 1.38641e-06\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.79957e-02\tAbsError: 2.00241e+12\n", - " Region: \"zone_1\"\tRelError: 5.80226e-04\tAbsError: 1.06766e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.79919e-04\tAbsError: 7.62075e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.06294e-07\tAbsError: 1.06690e-04\n", - " Region: \"zone_3\"\tRelError: 1.74155e-02\tAbsError: 2.00241e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.83435e-06\tAbsError: 9.97535e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.43171e-06\tAbsError: 1.00487e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74069e-02\tAbsError: 7.69605e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.06408e-07\tAbsError: 1.06730e-04\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:01\u001b[0m.\u001b[1;36m462\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 1.0\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.69760e-01\tAbsError: 4.68334e+13\n", - " Region: \"zone_1\"\tRelError: 1.19569e-01\tAbsError: 7.61832e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19547e-01\tAbsError: 4.95901e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19618e-05\tAbsError: 7.61337e-03\n", - " Region: \"zone_3\"\tRelError: 5.01907e-02\tAbsError: 4.68334e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.70213e-04\tAbsError: 2.32020e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.79865e-04\tAbsError: 2.36314e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.94186e-02\tAbsError: 5.44228e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19693e-05\tAbsError: 7.61572e-03\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.33124e-03\tAbsError: 2.46309e+12\n", - " Region: \"zone_1\"\tRelError: 1.37719e-03\tAbsError: 4.41878e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37593e-03\tAbsError: 3.50170e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26973e-06\tAbsError: 4.41528e-04\n", - " Region: \"zone_3\"\tRelError: 1.95405e-03\tAbsError: 2.46309e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.36051e-05\tAbsError: 1.24745e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.30473e-05\tAbsError: 1.21564e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88613e-03\tAbsError: 3.81559e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27021e-06\tAbsError: 4.41698e-04\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 3.06417e-05\tAbsError: 2.52206e+09\n", - " Region: \"zone_1\"\tRelError: 7.05538e-07\tAbsError: 8.28433e-08\n", - " Equation: \"PotentialEquation\"\tRelError: 7.05300e-07\tAbsError: 8.99798e-11\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.37890e-10\tAbsError: 8.27533e-08\n", - " Region: \"zone_3\"\tRelError: 2.99361e-05\tAbsError: 2.52206e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.10205e-09\tAbsError: 1.25704e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.66190e-09\tAbsError: 1.26502e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 2.99301e-05\tAbsError: 9.09499e-11\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.37988e-10\tAbsError: 8.27887e-08\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 6.16882e-03\tAbsError: 7.25783e+11\n", - " Region: \"zone_1\"\tRelError: 1.98056e-04\tAbsError: 2.16951e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.97994e-04\tAbsError: 2.65471e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.22079e-08\tAbsError: 2.16685e-05\n", - " Region: \"zone_3\"\tRelError: 5.97077e-03\tAbsError: 7.25783e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.06142e-06\tAbsError: 3.61574e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.32785e-06\tAbsError: 3.64210e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.96832e-03\tAbsError: 2.68167e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.22311e-08\tAbsError: 2.16771e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:02\u001b[0m.\u001b[1;36m607\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.05 V. Current applied bias: 1.05\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.03310e-01\tAbsError: 2.63271e+13\n", - " Region: \"zone_1\"\tRelError: 7.05840e-02\tAbsError: 9.69314e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.05812e-02\tAbsError: 2.64907e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.78758e-06\tAbsError: 9.66665e-04\n", - " Region: \"zone_3\"\tRelError: 3.27258e-02\tAbsError: 2.63271e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.20183e-04\tAbsError: 1.30792e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.13005e-04\tAbsError: 1.32480e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.22898e-02\tAbsError: 2.66390e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.78870e-06\tAbsError: 9.67064e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.58363e+04\tAbsError: 1.47473e+18\n", - " Region: \"zone_1\"\tRelError: 6.98536e+03\tAbsError: 4.09543e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.98536e+03\tAbsError: 4.09539e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20641e-09\tAbsError: 4.19390e-07\n", - " Region: \"zone_3\"\tRelError: 2.88509e+04\tAbsError: 1.47473e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.64637e-01\tAbsError: 7.31003e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.38568e-01\tAbsError: 7.43726e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88496e+04\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20691e-09\tAbsError: 4.19574e-07\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.40229e-03\tAbsError: 1.07633e+12\n", - " Region: \"zone_1\"\tRelError: 5.79486e-04\tAbsError: 8.11928e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.79253e-04\tAbsError: 1.44943e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.33074e-07\tAbsError: 8.10479e-05\n", - " Region: \"zone_3\"\tRelError: 8.22800e-04\tAbsError: 1.07633e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.46984e-05\tAbsError: 5.45591e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.43521e-05\tAbsError: 5.30742e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 7.93516e-04\tAbsError: 1.63890e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.33168e-07\tAbsError: 8.10816e-05\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.32512e-03\tAbsError: 1.39840e+11\n", - " Region: \"zone_1\"\tRelError: 4.25623e-05\tAbsError: 6.99519e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.25422e-05\tAbsError: 5.61701e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.00663e-08\tAbsError: 6.98958e-06\n", - " Region: \"zone_3\"\tRelError: 1.28256e-03\tAbsError: 1.39840e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.35090e-07\tAbsError: 6.96726e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.14577e-07\tAbsError: 7.01672e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28199e-03\tAbsError: 5.67287e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.00739e-08\tAbsError: 6.99239e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.21198e+03\tAbsError: 1.97975e+18\n", - " Region: \"zone_1\"\tRelError: 5.40129e+03\tAbsError: 4.20722e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.40129e+03\tAbsError: 4.20722e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.83456e-11\tAbsError: 2.37750e-08\n", - " Region: \"zone_3\"\tRelError: 8.10687e+02\tAbsError: 1.97975e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39347e-01\tAbsError: 9.86517e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.18133e-01\tAbsError: 9.93237e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 8.09430e+02\tAbsError: 4.20726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.83739e-11\tAbsError: 2.37852e-08\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.82959e-04\tAbsError: 1.95824e+11\n", - " Region: \"zone_1\"\tRelError: 1.17187e-04\tAbsError: 3.06697e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17099e-04\tAbsError: 2.78943e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.81182e-08\tAbsError: 3.06418e-05\n", - " Region: \"zone_3\"\tRelError: 1.65772e-04\tAbsError: 1.95824e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.67567e-06\tAbsError: 9.90968e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.61832e-06\tAbsError: 9.67276e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.60389e-04\tAbsError: 3.12886e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.81525e-08\tAbsError: 3.06545e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.71612e-02\tAbsError: 3.55945e+12\n", - " Region: \"zone_1\"\tRelError: 1.18000e-02\tAbsError: 4.59042e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17987e-02\tAbsError: 3.51306e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.31945e-06\tAbsError: 4.58691e-04\n", - " Region: \"zone_3\"\tRelError: 5.36119e-03\tAbsError: 3.55945e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.95552e-05\tAbsError: 1.76936e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.88055e-05\tAbsError: 1.79009e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.30151e-03\tAbsError: 3.53210e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.31997e-06\tAbsError: 4.58880e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 8.73385e+02\tAbsError: 4.80817e+17\n", - " Region: \"zone_1\"\tRelError: 4.36320e+02\tAbsError: 1.19061e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 4.36317e+02\tAbsError: 3.07626e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.33293e-03\tAbsError: 1.15985e+00\n", - " Region: \"zone_3\"\tRelError: 4.37065e+02\tAbsError: 4.80817e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.79759e-01\tAbsError: 2.41402e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.64874e-01\tAbsError: 2.39414e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 4.36317e+02\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.33331e-03\tAbsError: 1.15994e+00\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 4.07310e-04\tAbsError: 4.47841e+10\n", - " Region: \"zone_1\"\tRelError: 1.30926e-05\tAbsError: 1.54205e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.30881e-05\tAbsError: 1.75011e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.42203e-09\tAbsError: 1.54030e-06\n", - " Region: \"zone_3\"\tRelError: 3.94218e-04\tAbsError: 4.47841e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.33915e-08\tAbsError: 2.23135e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.92263e-08\tAbsError: 2.24706e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.94061e-04\tAbsError: 1.76782e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.42382e-09\tAbsError: 1.54097e-06\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 9.88095e-05\tAbsError: 7.06114e+10\n", - " Region: \"zone_1\"\tRelError: 4.09067e-05\tAbsError: 6.52689e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.08879e-05\tAbsError: 1.01656e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.87404e-08\tAbsError: 6.51672e-06\n", - " Region: \"zone_3\"\tRelError: 5.79028e-05\tAbsError: 7.06114e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.65522e-07\tAbsError: 3.57680e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.40427e-07\tAbsError: 3.48434e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.59781e-05\tAbsError: 1.14697e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.87479e-08\tAbsError: 6.51948e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:05\u001b[0m.\u001b[1;36m605\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:05\u001b[0m.\u001b[1;36m605\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.8349999999999999\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Iteration: 1\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - " Device: \"device\"\tRelError: 1.42901e+02\tAbsError: 5.66273e+17\n", - " Region: \"zone_1\"\tRelError: 1.35535e+01\tAbsError: 1.67685e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35488e+01\tAbsError: 3.20812e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.71225e-03\tAbsError: 1.64477e+00\n", - " Region: \"zone_3\"\tRelError: 1.29347e+02\tAbsError: 5.66273e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.34240e-01\tAbsError: 2.83703e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.33762e-01\tAbsError: 2.82571e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28675e+02\tAbsError: 3.20820e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.71256e-03\tAbsError: 1.64494e+00\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 7.29149e-03\tAbsError: 1.57099e+12\n", - " Region: \"zone_1\"\tRelError: 5.00283e-03\tAbsError: 8.22643e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.00259e-03\tAbsError: 1.42637e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36225e-07\tAbsError: 8.21216e-05\n", - " Region: \"zone_3\"\tRelError: 2.28866e-03\tAbsError: 1.57099e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.32701e-05\tAbsError: 7.81015e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.27720e-05\tAbsError: 7.89977e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.26238e-03\tAbsError: 1.43454e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.36315e-07\tAbsError: 8.21544e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.66204e+03\tAbsError: 6.93474e+16\n", - " Region: \"zone_1\"\tRelError: 8.76338e+02\tAbsError: 4.68048e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 8.76336e+02\tAbsError: 2.58614e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26825e-03\tAbsError: 4.42186e-01\n", - " Region: \"zone_3\"\tRelError: 7.85702e+02\tAbsError: 6.93474e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.33245e-02\tAbsError: 3.47970e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.15582e-02\tAbsError: 3.45503e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 7.85556e+02\tAbsError: 2.58778e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26845e-03\tAbsError: 4.42250e-01\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 9.30929e-05\tAbsError: 9.62198e+09\n", - " Region: \"zone_1\"\tRelError: 2.99044e-06\tAbsError: 4.57774e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.98913e-06\tAbsError: 3.95789e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.31308e-09\tAbsError: 4.57379e-07\n", - " Region: \"zone_3\"\tRelError: 9.01025e-05\tAbsError: 9.62198e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50292e-08\tAbsError: 4.79430e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.16874e-08\tAbsError: 4.82769e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 9.00644e-05\tAbsError: 3.99741e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.31362e-09\tAbsError: 4.57578e-07\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.44483e-03\tAbsError: 2.78794e+11\n", - " Region: \"zone_1\"\tRelError: 9.92254e-04\tAbsError: 3.13341e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 9.92164e-04\tAbsError: 2.69105e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.00557e-08\tAbsError: 3.13071e-05\n", - " Region: \"zone_3\"\tRelError: 4.52576e-04\tAbsError: 2.78794e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.33571e-06\tAbsError: 1.38640e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.25733e-06\tAbsError: 1.40155e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.47893e-04\tAbsError: 2.70655e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.00927e-08\tAbsError: 3.13209e-05\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 8.75970e+00\tAbsError: 5.63764e+16\n", - " Region: \"zone_1\"\tRelError: 6.92610e+00\tAbsError: 3.03076e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 6.91755e+00\tAbsError: 2.58876e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.55205e-03\tAbsError: 3.00487e+00\n", - " Region: \"zone_3\"\tRelError: 1.83361e+00\tAbsError: 5.63764e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.50579e-02\tAbsError: 2.82845e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.12026e-02\tAbsError: 2.80919e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.68878e+00\tAbsError: 2.58755e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.56303e-03\tAbsError: 3.00881e+00\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 9.05392e+01\tAbsError: 2.15165e+17\n", - " Region: \"zone_1\"\tRelError: 8.45050e+01\tAbsError: 4.19650e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.45050e+01\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.17054e-09\tAbsError: 2.14572e-06\n", - " Region: \"zone_3\"\tRelError: 6.03424e+00\tAbsError: 2.15165e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69072e-01\tAbsError: 1.09160e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.65008e-01\tAbsError: 1.06006e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 4.50016e+00\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.17312e-09\tAbsError: 2.14667e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.46324e+03\tAbsError: 5.14576e+15\n", - " Region: \"zone_1\"\tRelError: 6.87978e+02\tAbsError: 7.78255e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 6.87976e+02\tAbsError: 9.16449e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19704e-03\tAbsError: 7.69091e-01\n", - " Region: \"zone_3\"\tRelError: 7.75259e+02\tAbsError: 5.14576e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52317e-02\tAbsError: 2.57522e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.85097e-03\tAbsError: 2.57054e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.75237e+02\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19704e-03\tAbsError: 7.69091e-01\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 5.06646e-04\tAbsError: 1.01086e+11\n", - " Region: \"zone_1\"\tRelError: 3.47894e-04\tAbsError: 6.54239e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.47875e-04\tAbsError: 9.81295e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.87909e-08\tAbsError: 6.53257e-06\n", - " Region: \"zone_3\"\tRelError: 1.58752e-04\tAbsError: 1.01086e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.54559e-07\tAbsError: 5.02676e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.21808e-07\tAbsError: 5.08185e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.57057e-04\tAbsError: 9.96756e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.87988e-08\tAbsError: 6.53547e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.51142e+01\tAbsError: 2.01718e+16\n", - " Region: \"zone_1\"\tRelError: 3.62794e+00\tAbsError: 1.96542e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 3.62235e+00\tAbsError: 1.08333e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.59401e-03\tAbsError: 1.95458e+00\n", - " Region: \"zone_3\"\tRelError: 2.14863e+01\tAbsError: 2.01718e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.53811e-02\tAbsError: 1.01125e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.94421e-02\tAbsError: 1.00593e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.14358e+01\tAbsError: 1.08344e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.60311e-03\tAbsError: 1.95781e+00\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:08\u001b[0m.\u001b[1;36m726\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 6.86875e+01\tAbsError: 2.11173e+17\n", - " Region: \"zone_1\"\tRelError: 6.09541e+01\tAbsError: 3.17091e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 6.09532e+01\tAbsError: 3.19523e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.22478e-04\tAbsError: 2.85139e-01\n", - " Region: \"zone_3\"\tRelError: 7.73346e+00\tAbsError: 2.11173e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17930e-01\tAbsError: 1.06081e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.46503e-01\tAbsError: 1.05092e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 6.46820e+00\tAbsError: 3.19525e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.22478e-04\tAbsError: 2.85139e-01\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:08\u001b[0m.\u001b[1;36m754\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.25 bias\u001b[0m \n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.96023e+00\tAbsError: 5.32372e+15\n", - " Region: \"zone_1\"\tRelError: 4.54639e+00\tAbsError: 1.02863e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 4.54344e+00\tAbsError: 2.66559e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.94644e-03\tAbsError: 1.02837e+00\n", - " Region: \"zone_3\"\tRelError: 2.41384e+00\tAbsError: 5.32372e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.51219e-02\tAbsError: 2.60450e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.65403e-03\tAbsError: 2.71922e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.38011e+00\tAbsError: 2.68000e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.95139e-03\tAbsError: 1.03011e+00\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:08\u001b[0m.\u001b[1;36m778\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.12327e-04\tAbsError: 2.10463e+10\n", - " Region: \"zone_1\"\tRelError: 7.71522e-05\tAbsError: 2.15853e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 7.71460e-05\tAbsError: 2.11540e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.20283e-09\tAbsError: 2.15642e-06\n", - " Region: \"zone_3\"\tRelError: 3.51752e-05\tAbsError: 2.10463e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.76939e-07\tAbsError: 1.04674e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.70744e-07\tAbsError: 1.05789e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.48213e-05\tAbsError: 2.13769e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.20541e-09\tAbsError: 2.15735e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.45067e+01\tAbsError: 1.87553e+16\n", - " Region: \"zone_1\"\tRelError: 2.46370e+00\tAbsError: 1.47436e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 2.45948e+00\tAbsError: 1.97736e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.21275e-03\tAbsError: 1.47416e+00\n", - " Region: \"zone_3\"\tRelError: 1.20431e+01\tAbsError: 1.87553e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.15213e-02\tAbsError: 9.01113e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.31331e-03\tAbsError: 9.74413e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20100e+01\tAbsError: 1.98904e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.21492e-03\tAbsError: 1.47492e+00\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.19880e+03\tAbsError: 1.25545e+19\n", - " Region: \"zone_1\"\tRelError: 5.00629e+02\tAbsError: 9.26313e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.00629e+02\tAbsError: 9.26312e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.05730e-10\tAbsError: 1.06495e-07\n", - " Region: \"zone_3\"\tRelError: 6.98175e+02\tAbsError: 1.25545e+19\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.32269e+02\tAbsError: 5.15576e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.45517e+02\tAbsError: 7.39872e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20389e+02\tAbsError: 9.26320e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.05855e-10\tAbsError: 1.06540e-07\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.07732e+01\tAbsError: 5.66142e+15\n", - " Region: \"zone_1\"\tRelError: 6.09549e-01\tAbsError: 6.00187e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.09378e-01\tAbsError: 2.72034e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71203e-04\tAbsError: 5.97467e-02\n", - " Region: \"zone_3\"\tRelError: 6.01636e+01\tAbsError: 5.66142e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.13691e-02\tAbsError: 2.75447e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.48872e-03\tAbsError: 2.90695e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 6.01496e+01\tAbsError: 2.74039e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71270e-04\tAbsError: 5.97699e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.23338e+01\tAbsError: 1.14319e+17\n", - " Region: \"zone_1\"\tRelError: 9.07204e+00\tAbsError: 8.83948e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.07186e+00\tAbsError: 2.58559e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.80215e-04\tAbsError: 6.25389e-02\n", - " Region: \"zone_3\"\tRelError: 1.32617e+01\tAbsError: 1.14319e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.70133e-01\tAbsError: 5.77957e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.80255e-01\tAbsError: 5.65233e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.26112e+01\tAbsError: 2.58311e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.80264e-04\tAbsError: 6.25548e-02\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 3.52975e-05\tAbsError: 6.76967e+09\n", - " Region: \"zone_1\"\tRelError: 2.42437e-05\tAbsError: 4.94954e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.42423e-05\tAbsError: 6.80309e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42175e-09\tAbsError: 4.94273e-07\n", - " Region: \"zone_3\"\tRelError: 1.10538e-05\tAbsError: 6.76967e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.72210e-08\tAbsError: 3.36682e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.50231e-08\tAbsError: 3.40285e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09401e-05\tAbsError: 6.93709e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42234e-09\tAbsError: 4.94487e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:10\u001b[0m.\u001b[1;36m530\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.8699999999999999\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.24072e+00\tAbsError: 9.43976e+15\n", - " Region: \"zone_1\"\tRelError: 5.40200e+00\tAbsError: 5.25342e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.40185e+00\tAbsError: 3.80157e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.49014e-04\tAbsError: 5.21540e-02\n", - " Region: \"zone_3\"\tRelError: 8.38724e-01\tAbsError: 9.43976e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52880e-02\tAbsError: 4.61247e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.01775e-03\tAbsError: 4.82729e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.20269e-01\tAbsError: 3.82769e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.49095e-04\tAbsError: 5.21821e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.64735e+02\tAbsError: 1.04135e+19\n", - " Region: \"zone_1\"\tRelError: 5.00518e+01\tAbsError: 4.83021e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.00380e+01\tAbsError: 8.99016e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37870e-02\tAbsError: 4.74031e+00\n", - " Region: \"zone_3\"\tRelError: 3.14684e+02\tAbsError: 1.04135e+19\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 4.33275e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.73820e+02\tAbsError: 6.08074e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 1.31850e+02\tAbsError: 8.99018e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37888e-02\tAbsError: 4.74083e+00\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.18137e+00\tAbsError: 3.71256e+14\n", - " Region: \"zone_1\"\tRelError: 8.31734e-02\tAbsError: 3.74686e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.30661e-02\tAbsError: 1.92544e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.07324e-04\tAbsError: 3.74493e-02\n", - " Region: \"zone_3\"\tRelError: 1.09819e+00\tAbsError: 3.71256e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.23962e-03\tAbsError: 1.84907e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.91184e-04\tAbsError: 1.86349e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09615e+00\tAbsError: 1.93888e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.07368e-04\tAbsError: 3.74645e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.56211e+00\tAbsError: 2.66918e+16\n", - " Region: \"zone_1\"\tRelError: 1.69107e+00\tAbsError: 2.89241e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.69026e+00\tAbsError: 1.06612e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03961e-04\tAbsError: 2.78580e-01\n", - " Region: \"zone_3\"\tRelError: 3.87104e+00\tAbsError: 2.66918e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07163e-01\tAbsError: 1.33931e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.50486e-02\tAbsError: 1.32988e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.71803e+00\tAbsError: 1.06615e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03961e-04\tAbsError: 2.78580e-01\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.78693e+01\tAbsError: 3.39789e+17\n", - " Region: \"zone_1\"\tRelError: 6.85783e+01\tAbsError: 4.29339e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.85783e+01\tAbsError: 4.29337e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.31349e-10\tAbsError: 1.49959e-07\n", - " Region: \"zone_3\"\tRelError: 9.29095e+00\tAbsError: 3.39789e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.70074e-01\tAbsError: 1.69409e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.63422e-01\tAbsError: 1.70379e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 7.75745e+00\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.31527e-10\tAbsError: 1.50023e-07\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.06185e-01\tAbsError: 3.08037e+14\n", - " Region: \"zone_1\"\tRelError: 1.71268e-01\tAbsError: 4.84174e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.71130e-01\tAbsError: 1.73950e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.38313e-04\tAbsError: 4.84000e-02\n", - " Region: \"zone_3\"\tRelError: 3.49170e-02\tAbsError: 3.08037e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.42050e-03\tAbsError: 1.49668e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.55604e-04\tAbsError: 1.58369e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.29026e-02\tAbsError: 1.74981e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.38368e-04\tAbsError: 4.84192e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 9.29490e+02\tAbsError: 3.51023e+18\n", - " Region: \"zone_1\"\tRelError: 1.98238e+01\tAbsError: 4.32385e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.98116e+01\tAbsError: 8.69446e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.21421e-02\tAbsError: 4.23691e+00\n", - " Region: \"zone_3\"\tRelError: 9.09666e+02\tAbsError: 3.51023e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.82099e+01\tAbsError: 1.78518e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.52423e+02\tAbsError: 1.72505e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 2.89021e+02\tAbsError: 8.69449e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.21450e-02\tAbsError: 4.23806e+00\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.46007e+00\tAbsError: 2.29640e+14\n", - " Region: \"zone_1\"\tRelError: 4.03111e-02\tAbsError: 3.94907e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 4.02998e-02\tAbsError: 1.05545e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13173e-05\tAbsError: 3.93851e-03\n", - " Region: \"zone_3\"\tRelError: 1.41976e+00\tAbsError: 2.29640e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16328e-04\tAbsError: 1.14327e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.52600e-04\tAbsError: 1.15314e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.41908e+00\tAbsError: 1.06317e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13180e-05\tAbsError: 3.93853e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.83788e+00\tAbsError: 2.55334e+15\n", - " Region: \"zone_1\"\tRelError: 1.17954e+00\tAbsError: 3.25510e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17945e+00\tAbsError: 5.46819e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.37076e-05\tAbsError: 3.24963e-02\n", - " Region: \"zone_3\"\tRelError: 6.58336e-01\tAbsError: 2.55334e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.48841e-02\tAbsError: 1.31730e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.42693e-03\tAbsError: 1.23604e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 6.40932e-01\tAbsError: 5.52119e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.38423e-05\tAbsError: 3.25425e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.56499e+01\tAbsError: 3.39345e+17\n", - " Region: \"zone_1\"\tRelError: 1.75628e+00\tAbsError: 2.28368e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.75572e+00\tAbsError: 3.30998e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.63387e-04\tAbsError: 1.95268e-01\n", - " Region: \"zone_3\"\tRelError: 2.38936e+01\tAbsError: 3.39345e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.04191e-01\tAbsError: 1.72005e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.19865e-01\tAbsError: 1.67340e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 2.26690e+01\tAbsError: 3.31000e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.63387e-04\tAbsError: 1.95268e-01\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 7.52589e-01\tAbsError: 2.90021e+14\n", - " Region: \"zone_1\"\tRelError: 6.78925e-01\tAbsError: 3.33813e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.78915e-01\tAbsError: 1.33213e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.50121e-06\tAbsError: 3.32481e-03\n", - " Region: \"zone_3\"\tRelError: 7.36636e-02\tAbsError: 2.90021e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.74372e-04\tAbsError: 1.44443e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.19813e-04\tAbsError: 1.45579e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.27599e-02\tAbsError: 1.34085e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.50505e-06\tAbsError: 3.32614e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.72759e+02\tAbsError: 3.80692e+18\n", - " Region: \"zone_1\"\tRelError: 4.22886e+01\tAbsError: 1.58295e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 4.22843e+01\tAbsError: 8.37231e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.31494e-03\tAbsError: 1.49922e+00\n", - " Region: \"zone_3\"\tRelError: 1.30470e+02\tAbsError: 3.80692e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.29125e+01\tAbsError: 1.92102e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.31882e+01\tAbsError: 1.88590e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 6.43655e+01\tAbsError: 8.37233e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.31623e-03\tAbsError: 1.49970e+00\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.11111e-01\tAbsError: 2.79827e+13\n", - " Region: \"zone_1\"\tRelError: 7.25122e-03\tAbsError: 1.74217e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.24621e-03\tAbsError: 1.19347e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.00326e-06\tAbsError: 1.74098e-03\n", - " Region: \"zone_3\"\tRelError: 2.03859e-01\tAbsError: 2.79827e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67617e-05\tAbsError: 1.39372e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.89481e-05\tAbsError: 1.40455e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03729e-01\tAbsError: 1.20196e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.00391e-06\tAbsError: 1.74126e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.44853e-03\tAbsError: 9.65526e+13\n", - " Region: \"zone_1\"\tRelError: 5.54449e-03\tAbsError: 4.95915e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.53020e-03\tAbsError: 7.89077e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42878e-05\tAbsError: 4.95125e-03\n", - " Region: \"zone_3\"\tRelError: 9.04033e-04\tAbsError: 9.65526e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.44309e-04\tAbsError: 4.72399e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.72867e-04\tAbsError: 4.93127e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.72567e-04\tAbsError: 7.95387e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42898e-05\tAbsError: 4.95186e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.42340e+01\tAbsError: 1.51712e+17\n", - " Region: \"zone_1\"\tRelError: 8.67693e+00\tAbsError: 2.15109e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 8.67638e+00\tAbsError: 2.58904e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.45520e-04\tAbsError: 1.89218e-01\n", - " Region: \"zone_3\"\tRelError: 5.55710e+00\tAbsError: 1.51712e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.40518e-01\tAbsError: 7.62921e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.28757e-01\tAbsError: 7.54196e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 4.98728e+00\tAbsError: 2.58830e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.45609e-04\tAbsError: 1.89245e-01\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.95001e-02\tAbsError: 1.96145e+13\n", - " Region: \"zone_1\"\tRelError: 6.19508e-02\tAbsError: 1.94459e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.19452e-02\tAbsError: 1.07047e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.56869e-06\tAbsError: 1.94352e-03\n", - " Region: \"zone_3\"\tRelError: 7.54931e-03\tAbsError: 1.96145e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.16796e-05\tAbsError: 9.76745e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.02449e-05\tAbsError: 9.84707e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.42181e-03\tAbsError: 1.07732e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.56990e-06\tAbsError: 1.94402e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 9.24879e-02\tAbsError: 1.23871e+13\n", - " Region: \"zone_1\"\tRelError: 2.93353e-03\tAbsError: 2.91323e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.93269e-03\tAbsError: 4.76030e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.36559e-07\tAbsError: 2.90847e-04\n", - " Region: \"zone_3\"\tRelError: 8.95543e-02\tAbsError: 1.23871e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95573e-05\tAbsError: 6.16953e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.91930e-05\tAbsError: 6.21758e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.95147e-02\tAbsError: 4.79468e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.36647e-07\tAbsError: 2.90878e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.70615e+03\tAbsError: 4.52231e+17\n", - " Region: \"zone_1\"\tRelError: 4.09008e+01\tAbsError: 7.77968e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.08988e+01\tAbsError: 8.01892e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.01232e-03\tAbsError: 6.97779e-01\n", - " Region: \"zone_3\"\tRelError: 1.66525e+03\tAbsError: 4.52231e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.99679e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.65067e+03\tAbsError: 2.52552e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 5.57927e+00\tAbsError: 8.01894e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.01232e-03\tAbsError: 6.97779e-01\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 9.75163e-02\tAbsError: 3.25390e+13\n", - " Region: \"zone_1\"\tRelError: 6.42969e-02\tAbsError: 6.98099e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.42949e-02\tAbsError: 1.30012e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.00484e-06\tAbsError: 6.96799e-04\n", - " Region: \"zone_3\"\tRelError: 3.32194e-02\tAbsError: 3.25390e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.22317e-05\tAbsError: 1.60110e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.63713e-05\tAbsError: 1.65281e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.30588e-02\tAbsError: 1.31290e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.00578e-06\tAbsError: 6.97121e-04\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.13410e+02\tAbsError: 2.22863e+16\n", - " Region: \"zone_1\"\tRelError: 1.13012e+02\tAbsError: 2.95028e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13011e+02\tAbsError: 1.22650e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.15806e-04\tAbsError: 2.82763e-01\n", - " Region: \"zone_3\"\tRelError: 3.97767e-01\tAbsError: 2.22863e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.56928e-02\tAbsError: 1.11657e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.97555e-02\tAbsError: 1.11206e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.81503e-01\tAbsError: 1.22654e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.15806e-04\tAbsError: 2.82763e-01\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.70469e-02\tAbsError: 1.30475e+13\n", - " Region: \"zone_1\"\tRelError: 4.22512e-02\tAbsError: 2.14289e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.22506e-02\tAbsError: 5.27007e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.13323e-07\tAbsError: 2.13762e-04\n", - " Region: \"zone_3\"\tRelError: 4.79561e-03\tAbsError: 1.30475e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.37860e-05\tAbsError: 6.50229e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.14826e-05\tAbsError: 6.54518e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.74973e-03\tAbsError: 5.30379e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.13323e-07\tAbsError: 2.13762e-04\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.79957e-02\tAbsError: 2.00241e+12\n", - " Region: \"zone_1\"\tRelError: 5.80226e-04\tAbsError: 1.06766e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.79919e-04\tAbsError: 7.62075e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.06294e-07\tAbsError: 1.06690e-04\n", - " Region: \"zone_3\"\tRelError: 1.74155e-02\tAbsError: 2.00241e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.83435e-06\tAbsError: 9.97535e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.43171e-06\tAbsError: 1.00487e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74069e-02\tAbsError: 7.69605e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.06408e-07\tAbsError: 1.06730e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.37479e+02\tAbsError: 4.65758e+16\n", - " Region: \"zone_1\"\tRelError: 6.64495e+00\tAbsError: 3.31762e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 6.64421e+00\tAbsError: 7.62823e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.36217e-04\tAbsError: 2.55480e-01\n", - " Region: \"zone_3\"\tRelError: 2.30834e+02\tAbsError: 4.65758e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.28075e+02\tAbsError: 3.44923e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.30645e+00\tAbsError: 1.20835e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 4.52764e-01\tAbsError: 7.62825e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.36217e-04\tAbsError: 2.55480e-01\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.13157e-03\tAbsError: 2.71555e+12\n", - " Region: \"zone_1\"\tRelError: 7.85615e-04\tAbsError: 2.66866e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.84848e-04\tAbsError: 2.19182e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.67288e-07\tAbsError: 2.66647e-04\n", - " Region: \"zone_3\"\tRelError: 3.45960e-04\tAbsError: 2.71555e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.38252e-06\tAbsError: 1.33180e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.48145e-06\tAbsError: 1.38375e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.28328e-04\tAbsError: 2.21071e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.67607e-07\tAbsError: 2.66762e-04\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 6.50941e-03\tAbsError: 1.40933e+12\n", - " Region: \"zone_1\"\tRelError: 5.82453e-03\tAbsError: 1.02397e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.82424e-03\tAbsError: 6.23406e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.93614e-07\tAbsError: 1.02335e-04\n", - " Region: \"zone_3\"\tRelError: 6.84879e-04\tAbsError: 1.40933e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.79459e-06\tAbsError: 7.02415e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.91114e-06\tAbsError: 7.06915e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 6.76879e-04\tAbsError: 6.27266e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.93670e-07\tAbsError: 1.02355e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.61604e+00\tAbsError: 2.71406e+15\n", - " Region: \"zone_1\"\tRelError: 1.44549e+00\tAbsError: 4.95422e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.44535e+00\tAbsError: 4.48303e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42647e-04\tAbsError: 4.94973e-02\n", - " Region: \"zone_3\"\tRelError: 1.70549e-01\tAbsError: 2.71406e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.01740e-03\tAbsError: 1.39529e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.58382e-03\tAbsError: 1.31876e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.59805e-01\tAbsError: 4.55618e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42858e-04\tAbsError: 4.95718e-02\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 6.16882e-03\tAbsError: 7.25783e+11\n", - " Region: \"zone_1\"\tRelError: 1.98056e-04\tAbsError: 2.16951e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.97994e-04\tAbsError: 2.65471e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.22079e-08\tAbsError: 2.16685e-05\n", - " Region: \"zone_3\"\tRelError: 5.97077e-03\tAbsError: 7.25783e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.06142e-06\tAbsError: 3.61574e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.32785e-06\tAbsError: 3.64210e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.96832e-03\tAbsError: 2.68167e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.22311e-08\tAbsError: 2.16771e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.74025e+02\tAbsError: 3.37469e+16\n", - " Region: \"zone_1\"\tRelError: 1.68589e+01\tAbsError: 1.25546e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.68588e+01\tAbsError: 7.19237e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54526e-04\tAbsError: 5.36225e-02\n", - " Region: \"zone_3\"\tRelError: 7.57166e+02\tAbsError: 3.37469e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.78798e+02\tAbsError: 1.89188e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.78203e+02\tAbsError: 1.48281e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65070e-01\tAbsError: 7.19239e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.54982e-04\tAbsError: 5.37834e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 5.55248e-03\tAbsError: 1.64976e+12\n", - " Region: \"zone_1\"\tRelError: 3.67085e-03\tAbsError: 1.64025e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.67080e-03\tAbsError: 7.32464e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.69818e-08\tAbsError: 1.63293e-05\n", - " Region: \"zone_3\"\tRelError: 1.88163e-03\tAbsError: 1.64976e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.20100e-06\tAbsError: 8.12537e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.84601e-06\tAbsError: 8.37224e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87354e-03\tAbsError: 7.39315e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.70059e-08\tAbsError: 1.63376e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 2.83782e-03\tAbsError: 6.55135e+11\n", - " Region: \"zone_1\"\tRelError: 2.54483e-03\tAbsError: 1.58738e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.54479e-03\tAbsError: 2.47047e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.54187e-08\tAbsError: 1.58491e-05\n", - " Region: \"zone_3\"\tRelError: 2.92993e-04\tAbsError: 6.55135e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.14183e-06\tAbsError: 3.26636e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.34656e-06\tAbsError: 3.28499e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.90460e-04\tAbsError: 2.49353e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.54356e-08\tAbsError: 1.58552e-05\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.32512e-03\tAbsError: 1.39840e+11\n", - " Region: \"zone_1\"\tRelError: 4.25623e-05\tAbsError: 6.99519e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.25422e-05\tAbsError: 5.61701e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.00663e-08\tAbsError: 6.98958e-06\n", - " Region: \"zone_3\"\tRelError: 1.28256e-03\tAbsError: 1.39840e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.35090e-07\tAbsError: 6.96726e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.14577e-07\tAbsError: 7.01672e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28199e-03\tAbsError: 5.67287e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.00739e-08\tAbsError: 6.99239e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.39978e-01\tAbsError: 1.73686e+14\n", - " Region: \"zone_1\"\tRelError: 4.36730e-01\tAbsError: 5.01253e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 4.36716e-01\tAbsError: 1.35366e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43838e-05\tAbsError: 4.99899e-03\n", - " Region: \"zone_3\"\tRelError: 3.24796e-03\tAbsError: 1.73686e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.93699e-04\tAbsError: 8.57881e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.16982e-04\tAbsError: 8.78978e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.62289e-03\tAbsError: 1.36588e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43893e-05\tAbsError: 5.00091e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.10144e+04\tAbsError: 6.94366e+15\n", - " Region: \"zone_1\"\tRelError: 2.97996e-01\tAbsError: 3.02085e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.97319e-01\tAbsError: 6.70102e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.76859e-04\tAbsError: 2.35075e-01\n", - " Region: \"zone_3\"\tRelError: 1.10141e+04\tAbsError: 6.94366e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.37954e+02\tAbsError: 2.52596e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.04760e+04\tAbsError: 4.41770e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29582e-01\tAbsError: 6.70105e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.76859e-04\tAbsError: 2.35075e-01\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.41098e-04\tAbsError: 3.70638e+10\n", - " Region: \"zone_1\"\tRelError: 1.60736e-04\tAbsError: 1.49732e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.60693e-04\tAbsError: 4.79644e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.30721e-08\tAbsError: 1.49684e-05\n", - " Region: \"zone_3\"\tRelError: 8.03619e-05\tAbsError: 3.70638e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.16860e-07\tAbsError: 1.81925e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.69346e-07\tAbsError: 1.88712e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.98326e-05\tAbsError: 4.83644e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.30899e-08\tAbsError: 1.49749e-05\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 4.86432e-04\tAbsError: 9.58669e+10\n", - " Region: \"zone_1\"\tRelError: 4.35367e-04\tAbsError: 6.01843e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.35349e-04\tAbsError: 4.20846e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72349e-08\tAbsError: 6.01422e-06\n", - " Region: \"zone_3\"\tRelError: 5.10657e-05\tAbsError: 9.58669e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.16308e-07\tAbsError: 4.78066e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.72686e-07\tAbsError: 4.80603e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.05595e-05\tAbsError: 4.24652e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.72414e-08\tAbsError: 6.01658e-06\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 4.07310e-04\tAbsError: 4.47841e+10\n", - " Region: \"zone_1\"\tRelError: 1.30926e-05\tAbsError: 1.54205e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.30881e-05\tAbsError: 1.75011e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.42203e-09\tAbsError: 1.54030e-06\n", - " Region: \"zone_3\"\tRelError: 3.94218e-04\tAbsError: 4.47841e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.33915e-08\tAbsError: 2.23135e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.92263e-08\tAbsError: 2.24706e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.94061e-04\tAbsError: 1.76782e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.42382e-09\tAbsError: 1.54097e-06\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 5.52811e-02\tAbsError: 3.34954e+13\n", - " Region: \"zone_1\"\tRelError: 4.72342e-02\tAbsError: 1.34444e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 4.72304e-02\tAbsError: 1.28454e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.86347e-06\tAbsError: 1.34316e-03\n", - " Region: \"zone_3\"\tRelError: 8.04684e-03\tAbsError: 3.34954e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.41615e-05\tAbsError: 1.66223e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.16688e-05\tAbsError: 1.68731e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.93715e-03\tAbsError: 1.29905e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.86527e-06\tAbsError: 1.34377e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.20598e-04\tAbsError: 9.09573e+10\n", - " Region: \"zone_1\"\tRelError: 2.12041e-04\tAbsError: 7.95285e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.12039e-04\tAbsError: 4.17842e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.27632e-09\tAbsError: 7.91107e-07\n", - " Region: \"zone_3\"\tRelError: 1.08557e-04\tAbsError: 9.09573e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.30667e-07\tAbsError: 4.48081e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.10381e-07\tAbsError: 4.61492e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08113e-04\tAbsError: 4.21673e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.27757e-09\tAbsError: 7.91562e-07\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 1.70591e-04\tAbsError: 3.56847e+10\n", - " Region: \"zone_1\"\tRelError: 1.52882e-04\tAbsError: 1.12241e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.52879e-04\tAbsError: 1.48688e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.21221e-09\tAbsError: 1.12092e-06\n", - " Region: \"zone_3\"\tRelError: 1.77094e-05\tAbsError: 3.56847e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.12857e-08\tAbsError: 1.77986e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.30410e-08\tAbsError: 1.78861e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.75618e-05\tAbsError: 1.50077e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.21347e-09\tAbsError: 1.12138e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.75750e+03\tAbsError: 1.37117e+15\n", - " Region: \"zone_1\"\tRelError: 2.98702e-01\tAbsError: 1.04404e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.98578e-01\tAbsError: 6.14041e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.24025e-04\tAbsError: 4.29995e-02\n", - " Region: \"zone_3\"\tRelError: 1.75720e+03\tAbsError: 1.37117e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.49632e+01\tAbsError: 7.96171e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.71211e+03\tAbsError: 5.74998e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.27908e-01\tAbsError: 6.14044e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.24152e-04\tAbsError: 4.30433e-02\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 9.30929e-05\tAbsError: 9.62198e+09\n", - " Region: \"zone_1\"\tRelError: 2.99044e-06\tAbsError: 4.57774e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.98912e-06\tAbsError: 3.95789e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.31308e-09\tAbsError: 4.57379e-07\n", - " Region: \"zone_3\"\tRelError: 9.01024e-05\tAbsError: 9.62198e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50292e-08\tAbsError: 4.79430e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.16874e-08\tAbsError: 4.82769e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 9.00644e-05\tAbsError: 3.99740e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.31362e-09\tAbsError: 4.57578e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:21\u001b[0m.\u001b[1;36m631\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.1 V. Current applied bias: 1.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.15711e-02\tAbsError: 6.36169e+12\n", - " Region: \"zone_1\"\tRelError: 1.14125e-02\tAbsError: 2.54396e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14118e-02\tAbsError: 4.20700e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.30748e-07\tAbsError: 2.53975e-04\n", - " Region: \"zone_3\"\tRelError: 1.58593e-04\tAbsError: 6.36169e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12626e-05\tAbsError: 3.14963e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.04677e-05\tAbsError: 3.21206e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.36131e-04\tAbsError: 4.24482e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.31084e-07\tAbsError: 2.54099e-04\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 2.75135e-05\tAbsError: 3.73693e+09\n", - " Region: \"zone_1\"\tRelError: 1.82469e-05\tAbsError: 8.76012e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82444e-05\tAbsError: 2.95833e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.51991e-09\tAbsError: 8.75716e-07\n", - " Region: \"zone_3\"\tRelError: 9.26653e-06\tAbsError: 3.73693e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.40675e-09\tAbsError: 1.84743e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.59836e-08\tAbsError: 1.88950e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 9.23962e-06\tAbsError: 2.97952e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.52095e-09\tAbsError: 8.76100e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:22\u001b[0m.\u001b[1;36m518\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:22\u001b[0m.\u001b[1;36m518\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.9399999999999998\u001b[0m \n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 3.34213e-05\tAbsError: 6.34810e+09\n", - " Region: \"zone_1\"\tRelError: 2.99161e-05\tAbsError: 3.62915e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.99150e-05\tAbsError: 2.90104e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.03917e-09\tAbsError: 3.62625e-07\n", - " Region: \"zone_3\"\tRelError: 3.50522e-06\tAbsError: 6.34810e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.29546e-08\tAbsError: 3.16684e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.80776e-08\tAbsError: 3.18126e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.47315e-06\tAbsError: 2.92745e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.03959e-09\tAbsError: 3.62778e-07\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.36485e+03\tAbsError: 5.29564e+14\n", - " Region: \"zone_1\"\tRelError: 7.97414e-02\tAbsError: 1.00536e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 7.96098e-02\tAbsError: 5.49210e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.31553e-04\tAbsError: 4.56155e-02\n", - " Region: \"zone_3\"\tRelError: 1.36477e+03\tAbsError: 5.29564e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.77527e+01\tAbsError: 1.11987e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.34694e+03\tAbsError: 4.17577e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.97382e-02\tAbsError: 5.49213e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.31589e-04\tAbsError: 4.56279e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.20731e+02\tAbsError: 2.29552e+18\n", - " Region: \"zone_1\"\tRelError: 1.41155e+02\tAbsError: 4.09537e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.41155e+02\tAbsError: 4.09536e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.05730e-10\tAbsError: 1.06495e-07\n", - " Region: \"zone_3\"\tRelError: 7.95757e+01\tAbsError: 2.29552e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.78600e-01\tAbsError: 1.14566e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.65499e-01\tAbsError: 1.14986e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 7.84316e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.05855e-10\tAbsError: 1.06540e-07\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.83911e-03\tAbsError: 1.58905e+12\n", - " Region: \"zone_1\"\tRelError: 2.42692e-03\tAbsError: 4.33674e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.42679e-03\tAbsError: 6.60095e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.24553e-07\tAbsError: 4.33014e-05\n", - " Region: \"zone_3\"\tRelError: 4.12192e-04\tAbsError: 1.58905e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.62381e-06\tAbsError: 7.89358e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.44568e-06\tAbsError: 7.99689e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.06997e-04\tAbsError: 6.67114e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.24610e-07\tAbsError: 4.33209e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.69832e+03\tAbsError: 4.26164e+14\n", - " Region: \"zone_1\"\tRelError: 6.43653e-02\tAbsError: 1.10643e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 6.41827e-02\tAbsError: 4.73176e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.82596e-04\tAbsError: 6.33253e-02\n", - " Region: \"zone_3\"\tRelError: 1.69826e+03\tAbsError: 4.26164e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.64637e+03\tAbsError: 3.14969e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.18213e+01\tAbsError: 3.94667e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.42828e-02\tAbsError: 4.73180e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.82818e-04\tAbsError: 6.34031e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.30223e+01\tAbsError: 9.02224e+17\n", - " Region: \"zone_1\"\tRelError: 1.21751e+01\tAbsError: 4.19628e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21751e+01\tAbsError: 4.19627e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.54552e-10\tAbsError: 8.84641e-08\n", - " Region: \"zone_3\"\tRelError: 4.08472e+01\tAbsError: 9.02224e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.23540e-01\tAbsError: 4.39797e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.03855e-01\tAbsError: 4.62427e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 3.94198e+01\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.54670e-10\tAbsError: 8.85062e-08\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.75350e+01\tAbsError: 4.89721e+17\n", - " Region: \"zone_1\"\tRelError: 1.04844e+01\tAbsError: 2.18917e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04782e+01\tAbsError: 3.07622e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.15763e-03\tAbsError: 2.15840e+00\n", - " Region: \"zone_3\"\tRelError: 2.70506e+01\tAbsError: 4.89721e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.63139e-01\tAbsError: 2.45322e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.63561e-01\tAbsError: 2.44399e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 2.65177e+01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.15822e-03\tAbsError: 2.15862e+00\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 3.37999e-04\tAbsError: 2.19561e+11\n", - " Region: \"zone_1\"\tRelError: 3.30295e-04\tAbsError: 1.28810e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.30258e-04\tAbsError: 1.32795e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.70226e-08\tAbsError: 1.28677e-05\n", - " Region: \"zone_3\"\tRelError: 7.70331e-06\tAbsError: 2.19561e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.91687e-07\tAbsError: 1.08742e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.84773e-07\tAbsError: 1.10819e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 6.88981e-06\tAbsError: 1.34007e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.70399e-08\tAbsError: 1.28739e-05\n", - "Iteration: 11\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:25\u001b[0m.\u001b[1;36m205\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - " Device: \"device\"\tRelError: 5.20273e+00\tAbsError: 4.35026e+14\n", - " Region: \"zone_1\"\tRelError: 4.96120e-02\tAbsError: 1.17626e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.93834e-02\tAbsError: 3.83021e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28674e-04\tAbsError: 7.93235e-02\n", - " Region: \"zone_3\"\tRelError: 5.15312e+00\tAbsError: 4.35026e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.11960e+00\tAbsError: 2.44354e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.83833e-01\tAbsError: 4.10591e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.94610e-02\tAbsError: 3.83026e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28965e-04\tAbsError: 7.94253e-02\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:25\u001b[0m.\u001b[1;36m240\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mSolving for 1.3 bias\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:25\u001b[0m.\u001b[1;36m273\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.1\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 6.87971e+02\tAbsError: 4.98361e+17\n", - " Region: \"zone_1\"\tRelError: 5.59464e+01\tAbsError: 8.86546e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.59439e+01\tAbsError: 3.19520e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.46028e-03\tAbsError: 8.54594e-01\n", - " Region: \"zone_3\"\tRelError: 6.32024e+02\tAbsError: 4.98361e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.94559e-01\tAbsError: 2.49995e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.67050e-01\tAbsError: 2.48366e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 6.31060e+02\tAbsError: 3.19525e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.46050e-03\tAbsError: 8.54692e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 8.28645e+00\tAbsError: 2.11022e+16\n", - " Region: \"zone_1\"\tRelError: 5.89404e-01\tAbsError: 1.45838e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.85324e-01\tAbsError: 2.58807e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.07995e-03\tAbsError: 1.43250e+00\n", - " Region: \"zone_3\"\tRelError: 7.69704e+00\tAbsError: 2.11022e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.08442e-02\tAbsError: 1.06070e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.62030e-02\tAbsError: 1.04952e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 7.63591e+00\tAbsError: 2.58945e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.08866e-03\tAbsError: 1.43560e+00\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.45915e-04\tAbsError: 8.08391e+10\n", - " Region: \"zone_1\"\tRelError: 1.24746e-04\tAbsError: 1.31713e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.24742e-04\tAbsError: 3.37234e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.77890e-09\tAbsError: 1.31375e-06\n", - " Region: \"zone_3\"\tRelError: 2.11692e-05\tAbsError: 8.08391e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33248e-07\tAbsError: 4.01619e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.22615e-07\tAbsError: 4.06772e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.09096e-05\tAbsError: 3.40780e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.78064e-09\tAbsError: 1.31434e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.16272e+04\tAbsError: 1.65651e+19\n", - " Region: \"zone_1\"\tRelError: 5.47132e+03\tAbsError: 9.39932e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.47132e+03\tAbsError: 9.39932e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.14944e-10\tAbsError: 7.50065e-08\n", - " Region: \"zone_3\"\tRelError: 6.15585e+03\tAbsError: 1.65651e+19\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.46920e+02\tAbsError: 6.83449e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.37613e+02\tAbsError: 9.73060e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 5.47132e+03\tAbsError: 9.39941e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.15031e-10\tAbsError: 7.50384e-08\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.29573e+02\tAbsError: 4.13765e+14\n", - " Region: \"zone_1\"\tRelError: 3.52781e-02\tAbsError: 1.30848e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.49807e-02\tAbsError: 2.76565e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.97391e-04\tAbsError: 1.03191e-01\n", - " Region: \"zone_3\"\tRelError: 1.29538e+02\tAbsError: 4.13765e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.29495e+02\tAbsError: 2.36393e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.96741e-03\tAbsError: 3.90126e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.44822e-02\tAbsError: 2.76571e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.97727e-04\tAbsError: 1.03308e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 6.68715e+03\tAbsError: 1.06709e+17\n", - " Region: \"zone_1\"\tRelError: 9.31135e+02\tAbsError: 3.18177e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 9.31134e+02\tAbsError: 2.58394e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.42262e-04\tAbsError: 2.92337e-01\n", - " Region: \"zone_3\"\tRelError: 5.75601e+03\tAbsError: 1.06709e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.85918e-01\tAbsError: 5.35954e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.04848e-01\tAbsError: 5.31133e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 5.75572e+03\tAbsError: 2.58980e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.45507e-04\tAbsError: 2.93463e-01\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.20617e-05\tAbsError: 6.32499e+09\n", - " Region: \"zone_1\"\tRelError: 1.19314e-05\tAbsError: 6.73382e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19294e-05\tAbsError: 3.90152e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93636e-09\tAbsError: 6.72992e-07\n", - " Region: \"zone_3\"\tRelError: 1.30317e-07\tAbsError: 6.32499e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.16766e-08\tAbsError: 3.13129e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.61351e-08\tAbsError: 3.19370e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00568e-07\tAbsError: 3.93788e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93725e-09\tAbsError: 6.73321e-07\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.26646e+01\tAbsError: 1.05374e+16\n", - " Region: \"zone_1\"\tRelError: 1.63183e+01\tAbsError: 9.50748e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.63156e+01\tAbsError: 9.16413e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.68897e-03\tAbsError: 9.41583e-01\n", - " Region: \"zone_3\"\tRelError: 1.63463e+01\tAbsError: 1.05374e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.31069e-02\tAbsError: 5.23674e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.49207e-02\tAbsError: 5.30063e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.63156e+01\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69706e-03\tAbsError: 9.44437e-01\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:27\u001b[0m.\u001b[1;36m531\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 0.9799999999999999\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 1.05780e+00\tAbsError: 3.05662e+14\n", - " Region: \"zone_1\"\tRelError: 2.67418e-02\tAbsError: 1.45754e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.63846e-02\tAbsError: 2.17874e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.57135e-04\tAbsError: 1.23966e-01\n", - " Region: \"zone_3\"\tRelError: 1.03105e+00\tAbsError: 3.05662e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.94911e-01\tAbsError: 1.68377e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.34032e-03\tAbsError: 2.88825e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.64454e-02\tAbsError: 2.17884e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.57674e-04\tAbsError: 1.24155e-01\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.41894e+03\tAbsError: 1.35937e+19\n", - " Region: \"zone_1\"\tRelError: 1.85742e+02\tAbsError: 6.38901e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.85724e+02\tAbsError: 9.13709e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83513e-02\tAbsError: 6.29764e+00\n", - " Region: \"zone_3\"\tRelError: 1.23320e+03\tAbsError: 1.35937e+19\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.01893e+01\tAbsError: 5.66687e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.02727e+03\tAbsError: 7.92686e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 1.85724e+02\tAbsError: 9.13711e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83531e-02\tAbsError: 6.29836e+00\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.21987e+03\tAbsError: 8.24482e+15\n", - " Region: \"zone_1\"\tRelError: 3.00138e+01\tAbsError: 4.30823e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.00126e+01\tAbsError: 1.06608e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20499e-03\tAbsError: 4.20162e-01\n", - " Region: \"zone_3\"\tRelError: 1.18986e+03\tAbsError: 8.24482e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.87149e-02\tAbsError: 4.14039e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.24213e-02\tAbsError: 4.10443e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18981e+03\tAbsError: 1.06615e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20811e-03\tAbsError: 4.21255e-01\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 6.32323e-01\tAbsError: 2.46877e+14\n", - " Region: \"zone_1\"\tRelError: 1.44271e-02\tAbsError: 2.19080e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37974e-02\tAbsError: 3.60850e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.29714e-04\tAbsError: 2.18720e-01\n", - " Region: \"zone_3\"\tRelError: 6.17896e-01\tAbsError: 2.46877e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.96130e-01\tAbsError: 2.65737e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.01118e-02\tAbsError: 2.20303e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02356e-03\tAbsError: 3.67196e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.30442e-04\tAbsError: 2.18971e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.58482e+00\tAbsError: 6.34667e+15\n", - " Region: \"zone_1\"\tRelError: 2.32125e+00\tAbsError: 4.26139e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.32004e+00\tAbsError: 1.24165e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.21533e-03\tAbsError: 4.26014e-01\n", - " Region: \"zone_3\"\tRelError: 7.26357e+00\tAbsError: 6.34667e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.94984e-03\tAbsError: 3.16660e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.69319e-03\tAbsError: 3.18007e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.25171e+00\tAbsError: 1.24217e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.21533e-03\tAbsError: 4.26014e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 6.42571e+03\tAbsError: 3.63018e+18\n", - " Region: \"zone_1\"\tRelError: 1.34190e+02\tAbsError: 5.02469e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.34176e+02\tAbsError: 8.85378e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41527e-02\tAbsError: 4.93615e+00\n", - " Region: \"zone_3\"\tRelError: 6.29152e+03\tAbsError: 3.63018e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.08475e+01\tAbsError: 1.83022e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.01410e+03\tAbsError: 1.79996e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 2.26563e+02\tAbsError: 8.85383e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41605e-02\tAbsError: 4.93901e+00\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.93301e+02\tAbsError: 1.31505e+18\n", - " Region: \"zone_1\"\tRelError: 1.95954e+02\tAbsError: 4.29335e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.95954e+02\tAbsError: 4.29335e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.68896e-11\tAbsError: 3.02084e-08\n", - " Region: \"zone_3\"\tRelError: 1.97347e+02\tAbsError: 1.31505e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.08391e-01\tAbsError: 6.47452e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.84050e-01\tAbsError: 6.67602e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.95954e+02\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.69341e-11\tAbsError: 3.02237e-08\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.32324e+01\tAbsError: 3.47658e+15\n", - " Region: \"zone_1\"\tRelError: 1.40157e+00\tAbsError: 6.21297e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39978e+00\tAbsError: 1.87854e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.78446e-03\tAbsError: 6.21109e-01\n", - " Region: \"zone_3\"\tRelError: 1.18308e+01\tAbsError: 3.47658e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.16646e-02\tAbsError: 1.57709e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.67921e-03\tAbsError: 1.89949e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18147e+01\tAbsError: 1.89642e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.78707e-03\tAbsError: 6.22021e-01\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 1.29115e-01\tAbsError: 1.32053e+14\n", - " Region: \"zone_1\"\tRelError: 2.82697e-02\tAbsError: 1.98958e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.82644e-02\tAbsError: 1.53505e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.28053e-06\tAbsError: 1.83608e-03\n", - " Region: \"zone_3\"\tRelError: 1.00845e-01\tAbsError: 1.32053e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.75059e-02\tAbsError: 3.65219e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.55584e-02\tAbsError: 9.55313e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.77759e-02\tAbsError: 1.54907e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.28053e-06\tAbsError: 1.83608e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 8.10109e-01\tAbsError: 2.49944e+15\n", - " Region: \"zone_1\"\tRelError: 2.73036e-01\tAbsError: 9.44224e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.73009e-01\tAbsError: 7.54274e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.67762e-05\tAbsError: 9.36682e-03\n", - " Region: \"zone_3\"\tRelError: 5.37074e-01\tAbsError: 2.49944e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.44605e-03\tAbsError: 1.22669e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.58618e-04\tAbsError: 1.27274e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.30942e-01\tAbsError: 7.59068e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.67897e-05\tAbsError: 9.37175e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.56234e+02\tAbsError: 3.86174e+18\n", - " Region: \"zone_1\"\tRelError: 9.84721e+01\tAbsError: 1.34442e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 9.84684e+01\tAbsError: 8.54615e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.62295e-03\tAbsError: 1.25896e+00\n", - " Region: \"zone_3\"\tRelError: 1.57762e+02\tAbsError: 3.86174e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 1.90968e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.54700e+01\tAbsError: 1.95206e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33289e+02\tAbsError: 8.54619e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.62534e-03\tAbsError: 1.25982e+00\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.56288e+04\tAbsError: 5.38567e+17\n", - " Region: \"zone_1\"\tRelError: 1.76987e+04\tAbsError: 1.13670e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.76987e+04\tAbsError: 3.30995e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.17394e-03\tAbsError: 1.10360e+00\n", - " Region: \"zone_3\"\tRelError: 7.93012e+03\tAbsError: 5.38567e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.56981e-01\tAbsError: 2.69605e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.34515e-01\tAbsError: 2.68963e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 7.92923e+03\tAbsError: 3.31000e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.17480e-03\tAbsError: 1.10385e+00\n", - "Iteration: 16\n", - " Device: \"device\"\tRelError: 8.88619e-03\tAbsError: 1.78189e+12\n", - " Region: \"zone_1\"\tRelError: 2.52826e-03\tAbsError: 8.16927e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.50475e-03\tAbsError: 1.59088e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.35150e-05\tAbsError: 8.16768e-03\n", - " Region: \"zone_3\"\tRelError: 6.35793e-03\tAbsError: 1.78189e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.21800e-04\tAbsError: 9.23827e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.70720e-04\tAbsError: 8.58065e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.24188e-03\tAbsError: 1.64521e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.35243e-05\tAbsError: 8.17101e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.69926e+01\tAbsError: 3.06470e+15\n", - " Region: \"zone_1\"\tRelError: 3.61874e+00\tAbsError: 3.80545e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.61863e+00\tAbsError: 1.78178e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08789e-04\tAbsError: 3.78763e-02\n", - " Region: \"zone_3\"\tRelError: 1.33739e+01\tAbsError: 3.06470e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.13423e-03\tAbsError: 1.52459e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.10898e-03\tAbsError: 1.54011e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33665e+01\tAbsError: 1.79720e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08834e-04\tAbsError: 3.78912e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.50361e-02\tAbsError: 6.78895e+13\n", - " Region: \"zone_1\"\tRelError: 2.37122e-02\tAbsError: 9.45855e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.36853e-02\tAbsError: 1.50946e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69242e-05\tAbsError: 9.45704e-03\n", - " Region: \"zone_3\"\tRelError: 5.13239e-02\tAbsError: 6.78895e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.92168e-04\tAbsError: 3.35710e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.54573e-05\tAbsError: 3.43185e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.10793e-02\tAbsError: 1.52419e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69352e-05\tAbsError: 9.46083e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 5.50347e+01\tAbsError: 5.37694e+17\n", - " Region: \"zone_1\"\tRelError: 3.46780e+01\tAbsError: 2.34127e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 3.46715e+01\tAbsError: 8.20994e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.49885e-03\tAbsError: 2.25917e+00\n", - " Region: \"zone_3\"\tRelError: 2.03567e+01\tAbsError: 5.37694e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.66469e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.48157e+00\tAbsError: 2.71225e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86864e+00\tAbsError: 8.20997e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.49885e-03\tAbsError: 2.25917e+00\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.05630e+03\tAbsError: 1.09979e+17\n", - " Region: \"zone_1\"\tRelError: 6.84710e+01\tAbsError: 1.43360e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 6.84670e+01\tAbsError: 2.58653e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.03563e-03\tAbsError: 1.40773e+00\n", - " Region: \"zone_3\"\tRelError: 9.87830e+02\tAbsError: 1.09979e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.53181e-01\tAbsError: 5.51560e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.23559e-02\tAbsError: 5.48228e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 9.87580e+02\tAbsError: 2.58990e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.03726e-03\tAbsError: 1.40831e+00\n", - "Iteration: 17\n", - " Device: \"device\"\tRelError: 1.06506e-02\tAbsError: 7.97564e+12\n", - " Region: \"zone_1\"\tRelError: 2.78167e-03\tAbsError: 6.19119e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.77991e-03\tAbsError: 6.29442e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.76249e-06\tAbsError: 6.12825e-04\n", - " Region: \"zone_3\"\tRelError: 7.86894e-03\tAbsError: 7.97564e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77812e-04\tAbsError: 3.49434e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.72807e-04\tAbsError: 4.48130e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 6.31656e-03\tAbsError: 6.35969e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.76291e-06\tAbsError: 6.12981e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.03191e-01\tAbsError: 2.72789e+14\n", - " Region: \"zone_1\"\tRelError: 2.06386e-01\tAbsError: 2.41437e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06317e-01\tAbsError: 1.26354e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.93158e-05\tAbsError: 2.41310e-02\n", - " Region: \"zone_3\"\tRelError: 4.96805e-01\tAbsError: 2.72789e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.84659e-04\tAbsError: 1.35879e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.50454e-04\tAbsError: 1.36910e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.95700e-01\tAbsError: 1.27340e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.93447e-05\tAbsError: 2.41410e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.59505e-02\tAbsError: 5.66225e+13\n", - " Region: \"zone_1\"\tRelError: 1.83279e-02\tAbsError: 3.54044e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.83269e-02\tAbsError: 2.54887e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00068e-06\tAbsError: 3.51495e-04\n", - " Region: \"zone_3\"\tRelError: 3.76225e-02\tAbsError: 5.66225e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.14084e-04\tAbsError: 2.81906e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.55711e-05\tAbsError: 2.84319e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.74519e-02\tAbsError: 2.56399e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00120e-06\tAbsError: 3.51676e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.54457e+01\tAbsError: 6.07481e+17\n", - " Region: \"zone_1\"\tRelError: 1.68554e+01\tAbsError: 9.24586e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.68529e+01\tAbsError: 7.90690e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.42851e-03\tAbsError: 8.45517e-01\n", - " Region: \"zone_3\"\tRelError: 1.85903e+01\tAbsError: 6.07481e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 3.48424e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.00000e+00\tAbsError: 2.59058e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 5.87875e-01\tAbsError: 7.97171e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.42851e-03\tAbsError: 8.45517e-01\n", - "Iteration: 18\n", - " Device: \"device\"\tRelError: 1.29712e-03\tAbsError: 5.87386e+11\n", - " Region: \"zone_1\"\tRelError: 3.70662e-04\tAbsError: 5.19442e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.69169e-04\tAbsError: 4.49040e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.49266e-06\tAbsError: 5.18993e-04\n", - " Region: \"zone_3\"\tRelError: 9.26462e-04\tAbsError: 5.87386e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.02618e-05\tAbsError: 3.09222e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.99825e-05\tAbsError: 2.78164e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 8.04725e-04\tAbsError: 4.54374e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.49297e-06\tAbsError: 5.19109e-04\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.81032e+02\tAbsError: 1.06939e+16\n", - " Region: \"zone_1\"\tRelError: 3.59115e+01\tAbsError: 1.10074e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 3.59084e+01\tAbsError: 1.22645e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.13015e-03\tAbsError: 1.08847e+00\n", - " Region: \"zone_3\"\tRelError: 2.45121e+02\tAbsError: 1.06939e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.93839e-03\tAbsError: 5.35877e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.63056e-03\tAbsError: 5.33515e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.45104e+02\tAbsError: 1.22654e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.13222e-03\tAbsError: 1.08919e+00\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.03284e-01\tAbsError: 1.63576e+14\n", - " Region: \"zone_1\"\tRelError: 1.28869e-01\tAbsError: 2.63492e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28862e-01\tAbsError: 7.07903e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.56988e-06\tAbsError: 2.62784e-03\n", - " Region: \"zone_3\"\tRelError: 3.74414e-01\tAbsError: 1.63576e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.03440e-04\tAbsError: 8.14376e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.09112e-04\tAbsError: 8.21383e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.74094e-01\tAbsError: 7.13869e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.56988e-06\tAbsError: 2.62784e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 7.88395e-04\tAbsError: 2.50647e+12\n", - " Region: \"zone_1\"\tRelError: 2.67678e-04\tAbsError: 3.14356e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.66781e-04\tAbsError: 1.15072e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.96866e-07\tAbsError: 3.14241e-04\n", - " Region: \"zone_3\"\tRelError: 5.20717e-04\tAbsError: 2.50647e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.42005e-06\tAbsError: 1.25767e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.70094e-06\tAbsError: 1.24880e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.06699e-04\tAbsError: 1.15714e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.97159e-07\tAbsError: 3.14358e-04\n", - "Iteration: 19\n", - " Device: \"device\"\tRelError: 8.17397e-04\tAbsError: 5.15616e+11\n", - " Region: \"zone_1\"\tRelError: 2.21585e-04\tAbsError: 7.19865e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.21379e-04\tAbsError: 3.60966e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.05989e-07\tAbsError: 7.16255e-05\n", - " Region: \"zone_3\"\tRelError: 5.95812e-04\tAbsError: 5.15616e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.95401e-05\tAbsError: 2.69910e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.91786e-05\tAbsError: 2.45706e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.96887e-04\tAbsError: 3.64971e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.06048e-07\tAbsError: 7.16460e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.84121e+02\tAbsError: 1.44265e+17\n", - " Region: \"zone_1\"\tRelError: 5.71048e+00\tAbsError: 1.11506e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.70750e+00\tAbsError: 7.53891e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.97769e-03\tAbsError: 1.03967e+00\n", - " Region: \"zone_3\"\tRelError: 1.78411e+02\tAbsError: 1.44265e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.76628e+02\tAbsError: 8.85546e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.29644e+00\tAbsError: 5.57103e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 4.83668e-01\tAbsError: 7.54990e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.98423e-03\tAbsError: 1.04201e+00\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.53710e+00\tAbsError: 2.54910e+15\n", - " Region: \"zone_1\"\tRelError: 5.24107e+00\tAbsError: 6.37323e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.23924e+00\tAbsError: 8.89899e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.82814e-03\tAbsError: 6.37234e-01\n", - " Region: \"zone_3\"\tRelError: 1.29603e+00\tAbsError: 2.54910e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.24987e-03\tAbsError: 1.26463e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.60265e-03\tAbsError: 1.28447e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28435e+00\tAbsError: 8.97922e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.82881e-03\tAbsError: 6.37461e-01\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 5.72516e-02\tAbsError: 2.19421e+13\n", - " Region: \"zone_1\"\tRelError: 1.48305e-02\tAbsError: 1.17957e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.48271e-02\tAbsError: 8.22812e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.39557e-06\tAbsError: 1.17875e-03\n", - " Region: \"zone_3\"\tRelError: 4.24210e-02\tAbsError: 2.19421e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.59385e-05\tAbsError: 1.09315e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.17160e-05\tAbsError: 1.10106e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.23500e-02\tAbsError: 8.29477e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.39575e-06\tAbsError: 1.17875e-03\n", - "Iteration: 20\n", - " Device: \"device\"\tRelError: 1.38505e-04\tAbsError: 6.81064e+10\n", - " Region: \"zone_1\"\tRelError: 3.90974e-05\tAbsError: 3.71466e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.89907e-05\tAbsError: 4.75526e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06694e-07\tAbsError: 3.70991e-05\n", - " Region: \"zone_3\"\tRelError: 9.94077e-05\tAbsError: 6.81064e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.78802e-06\tAbsError: 3.83732e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.75686e-06\tAbsError: 2.97332e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 8.57561e-05\tAbsError: 4.81148e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.06725e-07\tAbsError: 3.71098e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 3.01493e-03\tAbsError: 2.03887e+12\n", - " Region: \"zone_1\"\tRelError: 9.68351e-04\tAbsError: 1.94584e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 9.68295e-04\tAbsError: 8.45891e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.51588e-08\tAbsError: 1.93738e-05\n", - " Region: \"zone_3\"\tRelError: 2.04658e-03\tAbsError: 2.03887e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.90840e-06\tAbsError: 1.01569e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.17272e-06\tAbsError: 1.02318e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03944e-03\tAbsError: 8.50612e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.51787e-08\tAbsError: 1.93808e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 6.75152e+01\tAbsError: 2.34147e+16\n", - " Region: \"zone_1\"\tRelError: 6.77463e+00\tAbsError: 1.30865e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 6.77107e+00\tAbsError: 7.09390e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.55708e-03\tAbsError: 1.23771e+00\n", - " Region: \"zone_3\"\tRelError: 6.07405e+01\tAbsError: 2.34147e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50402e+01\tAbsError: 1.47845e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.51639e+01\tAbsError: 8.63024e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.32943e-01\tAbsError: 7.10042e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.55708e-03\tAbsError: 1.23771e+00\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.35415e+01\tAbsError: 3.06408e+15\n", - " Region: \"zone_1\"\tRelError: 6.18020e-01\tAbsError: 1.25350e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.17985e-01\tAbsError: 1.70751e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.54599e-05\tAbsError: 1.23642e-02\n", - " Region: \"zone_3\"\tRelError: 1.29235e+01\tAbsError: 3.06408e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.52438e-03\tAbsError: 1.48406e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.62072e-03\tAbsError: 1.58001e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29163e+01\tAbsError: 1.72074e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.54833e-05\tAbsError: 1.23722e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.35289e-02\tAbsError: 9.60642e+12\n", - " Region: \"zone_1\"\tRelError: 6.04878e-03\tAbsError: 2.06342e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.04819e-03\tAbsError: 3.36274e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.92268e-07\tAbsError: 2.06006e-04\n", - " Region: \"zone_3\"\tRelError: 1.74801e-02\tAbsError: 9.60642e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.46802e-06\tAbsError: 4.78532e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.53648e-06\tAbsError: 4.82110e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74605e-02\tAbsError: 3.39077e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.92490e-07\tAbsError: 2.06084e-04\n", - "Iteration: 21\n", - " Device: \"device\"\tRelError: 6.21763e-05\tAbsError: 3.59047e+10\n", - " Region: \"zone_1\"\tRelError: 1.71124e-05\tAbsError: 6.88377e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.70927e-05\tAbsError: 2.38408e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.97286e-08\tAbsError: 6.85993e-06\n", - " Region: \"zone_3\"\tRelError: 4.50639e-05\tAbsError: 3.59047e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.45923e-06\tAbsError: 2.03147e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.43392e-06\tAbsError: 1.55900e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.81510e-05\tAbsError: 2.41148e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.97322e-08\tAbsError: 6.86120e-06\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.13878e-04\tAbsError: 1.24488e+11\n", - " Region: \"zone_1\"\tRelError: 6.77267e-05\tAbsError: 1.32659e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.76887e-05\tAbsError: 6.49775e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.79174e-08\tAbsError: 1.32594e-05\n", - " Region: \"zone_3\"\tRelError: 1.46151e-04\tAbsError: 1.24488e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.41336e-07\tAbsError: 6.10291e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.66825e-07\tAbsError: 6.34588e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.45305e-04\tAbsError: 6.53401e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.79209e-08\tAbsError: 1.32605e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:37\u001b[0m.\u001b[1;36m142\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:37\u001b[0m.\u001b[1;36m142\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.20454545454545453\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.21566e-01\tAbsError: 5.27559e+13\n", - " Region: \"zone_1\"\tRelError: 4.28919e-02\tAbsError: 2.15949e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.28300e-02\tAbsError: 5.21547e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.19265e-05\tAbsError: 2.15897e-02\n", - " Region: \"zone_3\"\tRelError: 3.78674e-01\tAbsError: 5.27559e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.23521e-04\tAbsError: 2.51687e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.13347e-04\tAbsError: 2.75872e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.77975e-01\tAbsError: 5.24851e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.19510e-05\tAbsError: 2.15981e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.97994e+03\tAbsError: 8.66817e+15\n", - " Region: \"zone_1\"\tRelError: 2.91022e+01\tAbsError: 2.56799e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.91016e+01\tAbsError: 6.59200e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.48255e-04\tAbsError: 1.90879e-01\n", - " Region: \"zone_3\"\tRelError: 1.95083e+03\tAbsError: 8.66817e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.96768e+01\tAbsError: 6.38297e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.91041e+03\tAbsError: 2.28521e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.45092e-01\tAbsError: 6.60324e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.48255e-04\tAbsError: 1.90879e-01\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.77929e-03\tAbsError: 1.66332e+12\n", - " Region: \"zone_1\"\tRelError: 9.67169e-04\tAbsError: 7.67803e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 9.66948e-04\tAbsError: 5.54707e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.20584e-07\tAbsError: 7.67248e-05\n", - " Region: \"zone_3\"\tRelError: 2.81212e-03\tAbsError: 1.66332e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.03133e-06\tAbsError: 8.28853e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.51523e-06\tAbsError: 8.34464e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.80736e-03\tAbsError: 5.60597e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.20667e-07\tAbsError: 7.67544e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.56196e-04\tAbsError: 8.22099e+10\n", - " Region: \"zone_1\"\tRelError: 4.96683e-05\tAbsError: 1.29947e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.96646e-05\tAbsError: 3.20602e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.70688e-09\tAbsError: 1.29627e-06\n", - " Region: \"zone_3\"\tRelError: 1.06527e-04\tAbsError: 8.22099e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.53254e-07\tAbsError: 4.09765e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.71613e-07\tAbsError: 4.12334e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06199e-04\tAbsError: 3.22381e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.70726e-09\tAbsError: 1.29639e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.63989e+00\tAbsError: 8.72797e+15\n", - " Region: \"zone_1\"\tRelError: 1.99354e+00\tAbsError: 4.18756e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.99354e+00\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.95179e-09\tAbsError: 2.76495e-06\n", - " Region: \"zone_3\"\tRelError: 1.64635e+00\tAbsError: 8.72797e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77333e-01\tAbsError: 4.88246e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.77262e-01\tAbsError: 3.84551e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.17559e-02\tAbsError: 4.18729e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.95320e-09\tAbsError: 2.76545e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.73598e-01\tAbsError: 1.28371e+14\n", - " Region: \"zone_1\"\tRelError: 4.88547e-02\tAbsError: 1.14618e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 4.88514e-02\tAbsError: 6.07608e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.27013e-06\tAbsError: 1.14010e-03\n", - " Region: \"zone_3\"\tRelError: 4.24743e-01\tAbsError: 1.28371e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05203e-04\tAbsError: 6.39050e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.33691e-05\tAbsError: 6.44661e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.24451e-01\tAbsError: 6.12305e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.27164e-06\tAbsError: 1.14062e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.40040e+02\tAbsError: 5.95948e+15\n", - " Region: \"zone_1\"\tRelError: 2.06907e+00\tAbsError: 2.31345e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.06858e+00\tAbsError: 6.01974e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.91826e-04\tAbsError: 1.71148e-01\n", - " Region: \"zone_3\"\tRelError: 4.37971e+02\tAbsError: 5.95948e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.55213e+01\tAbsError: 3.45726e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.72283e+02\tAbsError: 2.50222e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66656e-01\tAbsError: 6.02962e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.91826e-04\tAbsError: 1.71148e-01\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.29708e-03\tAbsError: 6.02455e+11\n", - " Region: \"zone_1\"\tRelError: 3.31625e-04\tAbsError: 1.60822e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.31578e-04\tAbsError: 1.96446e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.61796e-08\tAbsError: 1.60626e-05\n", - " Region: \"zone_3\"\tRelError: 9.65457e-04\tAbsError: 6.02455e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.18009e-07\tAbsError: 3.00196e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.30394e-07\tAbsError: 3.02259e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 9.64162e-04\tAbsError: 1.98596e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.61970e-08\tAbsError: 1.60691e-05\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.81376e-05\tAbsError: 8.11356e+09\n", - " Region: \"zone_1\"\tRelError: 5.70565e-06\tAbsError: 6.56313e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 5.70378e-06\tAbsError: 3.58334e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.87514e-09\tAbsError: 6.55955e-07\n", - " Region: \"zone_3\"\tRelError: 1.24320e-05\tAbsError: 8.11356e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.21600e-08\tAbsError: 4.01059e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.61223e-08\tAbsError: 4.10296e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.23818e-05\tAbsError: 3.60254e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.87583e-09\tAbsError: 6.56203e-07\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.53407e+00\tAbsError: 3.18169e+14\n", - " Region: \"zone_1\"\tRelError: 6.99964e-02\tAbsError: 9.36813e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.98185e-02\tAbsError: 3.18465e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77869e-04\tAbsError: 6.18348e-02\n", - " Region: \"zone_3\"\tRelError: 1.46407e+00\tAbsError: 3.18169e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.51841e-01\tAbsError: 1.64071e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.46818e-01\tAbsError: 1.54098e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.52372e-02\tAbsError: 3.18470e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.77869e-04\tAbsError: 6.18348e-02\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.63959e+02\tAbsError: 1.06048e+15\n", - " Region: \"zone_1\"\tRelError: 9.17504e-02\tAbsError: 8.49421e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.16600e-02\tAbsError: 5.35062e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.03724e-05\tAbsError: 3.14360e-02\n", - " Region: \"zone_3\"\tRelError: 1.63867e+02\tAbsError: 1.06048e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.53923e+01\tAbsError: 1.86773e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.83587e+01\tAbsError: 8.73706e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16150e-01\tAbsError: 5.36223e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.03724e-05\tAbsError: 3.14360e-02\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 2.54373e-04\tAbsError: 1.22168e+11\n", - " Region: \"zone_1\"\tRelError: 6.48326e-05\tAbsError: 5.25902e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 6.48175e-05\tAbsError: 4.28577e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.51072e-08\tAbsError: 5.25473e-06\n", - " Region: \"zone_3\"\tRelError: 1.89541e-04\tAbsError: 1.22168e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.24254e-07\tAbsError: 6.08856e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.87334e-07\tAbsError: 6.12822e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.89214e-04\tAbsError: 4.33147e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.51130e-08\tAbsError: 5.25689e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.70154e-02\tAbsError: 6.56308e+12\n", - " Region: \"zone_1\"\tRelError: 3.74108e-03\tAbsError: 9.10726e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.73847e-03\tAbsError: 3.93340e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.61130e-06\tAbsError: 9.10333e-04\n", - " Region: \"zone_3\"\tRelError: 3.32743e-02\tAbsError: 6.56308e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.73442e-05\tAbsError: 3.26782e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.61080e-05\tAbsError: 3.29526e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.32282e-02\tAbsError: 3.96200e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.61223e-06\tAbsError: 9.10648e-04\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.35968e+03\tAbsError: 8.04495e+14\n", - " Region: \"zone_1\"\tRelError: 1.05973e-01\tAbsError: 1.37456e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.05709e-01\tAbsError: 4.55960e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.64157e-04\tAbsError: 9.18597e-02\n", - " Region: \"zone_3\"\tRelError: 1.35957e+03\tAbsError: 8.04495e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12114e+03\tAbsError: 1.80902e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.38360e+02\tAbsError: 6.23593e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.02014e-02\tAbsError: 4.57362e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.64791e-04\tAbsError: 9.20824e-02\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 7.91529e-05\tAbsError: 3.93684e+10\n", - " Region: \"zone_1\"\tRelError: 2.01610e-05\tAbsError: 1.19278e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.01576e-05\tAbsError: 1.35948e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.42530e-09\tAbsError: 1.19142e-06\n", - " Region: \"zone_3\"\tRelError: 5.89918e-05\tAbsError: 3.93684e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.17561e-08\tAbsError: 1.96198e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.26426e-08\tAbsError: 1.97486e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.89040e-05\tAbsError: 1.37428e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.42670e-09\tAbsError: 1.19194e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:41\u001b[0m.\u001b[1;36m745\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: 1.045\u001b[0m \n", - "Iteration: 2\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - " Device: \"device\"\tRelError: 9.90613e-01\tAbsError: 3.91910e+13\n", - " Region: \"zone_1\"\tRelError: 5.00658e-02\tAbsError: 3.12049e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.00505e-02\tAbsError: 2.58893e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52900e-05\tAbsError: 5.31555e-03\n", - " Region: \"zone_3\"\tRelError: 9.40548e-01\tAbsError: 3.91910e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.61768e-01\tAbsError: 2.86987e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.28623e-01\tAbsError: 1.04923e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.01413e-02\tAbsError: 2.58992e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.52900e-05\tAbsError: 5.31555e-03\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.15775e-02\tAbsError: 6.52841e+12\n", - " Region: \"zone_1\"\tRelError: 3.74768e-03\tAbsError: 8.41878e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.74744e-03\tAbsError: 2.54753e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.41414e-07\tAbsError: 8.39331e-05\n", - " Region: \"zone_3\"\tRelError: 1.78298e-02\tAbsError: 6.52841e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.81966e-06\tAbsError: 3.25375e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.17497e-06\tAbsError: 3.27466e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.78136e-02\tAbsError: 2.56699e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.41425e-07\tAbsError: 8.39331e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:42\u001b[0m.\u001b[1;36m083\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 2.34511e+00\tAbsError: 5.09621e+14\n", - " Region: \"zone_1\"\tRelError: 5.20380e-02\tAbsError: 1.31206e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.17648e-02\tAbsError: 3.62022e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.73274e-04\tAbsError: 9.50040e-02\n", - " Region: \"zone_3\"\tRelError: 2.29307e+00\tAbsError: 5.09621e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98977e-01\tAbsError: 4.50759e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.24154e+00\tAbsError: 4.64545e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.22861e-02\tAbsError: 3.63670e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.74013e-04\tAbsError: 9.52636e-02\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.60801e-03\tAbsError: 6.28400e+11\n", - " Region: \"zone_1\"\tRelError: 4.80017e-04\tAbsError: 4.99622e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.79873e-04\tAbsError: 2.63411e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43739e-07\tAbsError: 4.99359e-05\n", - " Region: \"zone_3\"\tRelError: 2.12799e-03\tAbsError: 6.28400e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.51440e-06\tAbsError: 3.13250e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.43803e-06\tAbsError: 3.15151e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.12490e-03\tAbsError: 2.65357e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43764e-07\tAbsError: 4.99433e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.07403e-01\tAbsError: 3.15404e+12\n", - " Region: \"zone_1\"\tRelError: 1.75397e-02\tAbsError: 1.36790e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.75306e-02\tAbsError: 1.05213e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.08309e-06\tAbsError: 3.15769e-03\n", - " Region: \"zone_3\"\tRelError: 2.89863e-01\tAbsError: 3.15404e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.16679e-01\tAbsError: 1.94159e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.54178e-02\tAbsError: 1.21245e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77577e-02\tAbsError: 1.05213e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.08653e-06\tAbsError: 3.15894e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 8.34610e+03\tAbsError: 1.92933e+18\n", - " Region: \"zone_1\"\tRelError: 4.26264e+03\tAbsError: 4.19628e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.26264e+03\tAbsError: 4.19625e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.03425e-09\tAbsError: 3.59742e-07\n", - " Region: \"zone_3\"\tRelError: 4.08345e+03\tAbsError: 1.92933e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41966e-01\tAbsError: 9.61208e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.20078e-01\tAbsError: 9.68119e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 4.08219e+03\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.03467e-09\tAbsError: 3.59900e-07\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 3.52788e+03\tAbsError: 4.32630e+14\n", - " Region: \"zone_1\"\tRelError: 4.01861e-02\tAbsError: 1.26360e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.98969e-02\tAbsError: 2.58372e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.89232e-04\tAbsError: 1.00523e-01\n", - " Region: \"zone_3\"\tRelError: 3.52784e+03\tAbsError: 4.32630e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.52743e+03\tAbsError: 2.30095e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.69800e-01\tAbsError: 4.09620e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.98969e-02\tAbsError: 2.58297e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.89995e-04\tAbsError: 1.00791e-01\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.13819e-03\tAbsError: 3.64637e+11\n", - " Region: \"zone_1\"\tRelError: 2.54157e-04\tAbsError: 7.12832e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.54137e-04\tAbsError: 1.24280e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.04405e-08\tAbsError: 7.11590e-06\n", - " Region: \"zone_3\"\tRelError: 8.84029e-04\tAbsError: 3.64637e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.46080e-07\tAbsError: 1.81784e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.16766e-07\tAbsError: 1.82853e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 8.83046e-04\tAbsError: 1.25227e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.04481e-08\tAbsError: 7.11864e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.87045e-02\tAbsError: 2.59902e+12\n", - " Region: \"zone_1\"\tRelError: 9.55560e-04\tAbsError: 2.51710e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 9.48317e-04\tAbsError: 1.56340e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.24331e-06\tAbsError: 2.51554e-03\n", - " Region: \"zone_3\"\tRelError: 6.77490e-02\tAbsError: 2.59902e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.52595e-02\tAbsError: 1.62510e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.16575e-04\tAbsError: 9.73920e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.36568e-03\tAbsError: 1.63021e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.24331e-06\tAbsError: 2.51554e-03\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 1.05564e+00\tAbsError: 3.23529e+14\n", - " Region: \"zone_1\"\tRelError: 2.30958e-02\tAbsError: 1.15810e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.28120e-02\tAbsError: 1.72033e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.83799e-04\tAbsError: 9.86067e-02\n", - " Region: \"zone_3\"\tRelError: 1.03254e+00\tAbsError: 3.23529e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.99080e-01\tAbsError: 2.28336e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.47263e-03\tAbsError: 3.00696e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.37034e-02\tAbsError: 1.75137e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.84528e-04\tAbsError: 9.88623e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.65476e+02\tAbsError: 5.59439e+17\n", - " Region: \"zone_1\"\tRelError: 2.09387e+02\tAbsError: 1.61986e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 2.09383e+02\tAbsError: 3.19517e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.55078e-03\tAbsError: 1.58791e+00\n", - " Region: \"zone_3\"\tRelError: 5.60883e+01\tAbsError: 5.59439e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.38234e-01\tAbsError: 2.80542e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.36773e-01\tAbsError: 2.78897e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 5.54088e+01\tAbsError: 3.19525e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.55115e-03\tAbsError: 1.58798e+00\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.81704e-04\tAbsError: 5.07534e+10\n", - " Region: \"zone_1\"\tRelError: 4.22123e-05\tAbsError: 3.15701e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.22032e-05\tAbsError: 1.92390e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.06297e-09\tAbsError: 3.15509e-06\n", - " Region: \"zone_3\"\tRelError: 1.39492e-04\tAbsError: 5.07534e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.09178e-08\tAbsError: 2.53054e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.11487e-07\tAbsError: 2.54481e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39280e-04\tAbsError: 1.94322e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.06645e-09\tAbsError: 3.15634e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 9.67688e-04\tAbsError: 1.23705e+12\n", - " Region: \"zone_1\"\tRelError: 1.68013e-04\tAbsError: 1.19594e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.67674e-04\tAbsError: 1.77521e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.38451e-07\tAbsError: 1.17819e-04\n", - " Region: \"zone_3\"\tRelError: 7.99675e-04\tAbsError: 1.23705e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.54849e-04\tAbsError: 3.36529e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.54324e-04\tAbsError: 9.00523e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.90164e-04\tAbsError: 1.77541e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.38603e-07\tAbsError: 1.17875e-04\n", - "Iteration: 15\n", - " Device: \"device\"\tRelError: 3.12813e-01\tAbsError: 1.66549e+14\n", - " Region: \"zone_1\"\tRelError: 4.25373e-03\tAbsError: 1.24404e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 3.89579e-03\tAbsError: 8.19650e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.57939e-04\tAbsError: 1.24322e-01\n", - " Region: \"zone_3\"\tRelError: 3.08559e-01\tAbsError: 1.66549e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.97543e-01\tAbsError: 2.07326e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.99228e-03\tAbsError: 1.45816e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.66473e-03\tAbsError: 8.31001e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.58829e-04\tAbsError: 1.24634e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.87295e+01\tAbsError: 5.78845e+16\n", - " Region: \"zone_1\"\tRelError: 1.56484e+00\tAbsError: 2.87198e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55673e+00\tAbsError: 2.57917e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.10568e-03\tAbsError: 2.84619e+00\n", - " Region: \"zone_3\"\tRelError: 1.71646e+01\tAbsError: 5.78845e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.63325e-02\tAbsError: 2.90346e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.16626e-02\tAbsError: 2.88498e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.70185e+01\tAbsError: 2.58445e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.13005e-03\tAbsError: 2.85483e+00\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 6.62313e-05\tAbsError: 2.17613e+10\n", - " Region: \"zone_1\"\tRelError: 1.67469e-05\tAbsError: 5.67281e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.67453e-05\tAbsError: 7.83574e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62726e-09\tAbsError: 5.66497e-07\n", - " Region: \"zone_3\"\tRelError: 4.94844e-05\tAbsError: 2.17613e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.55855e-08\tAbsError: 1.08504e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.54124e-08\tAbsError: 1.09109e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.94217e-05\tAbsError: 7.91795e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.62789e-09\tAbsError: 5.66732e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:46\u001b[0m.\u001b[1;36m247\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 1.0899999999999999\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 16\n", - " Device: \"device\"\tRelError: 7.10114e-02\tAbsError: 5.29987e+13\n", - " Region: \"zone_1\"\tRelError: 1.65212e-02\tAbsError: 3.86093e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65102e-02\tAbsError: 6.43187e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.09308e-05\tAbsError: 3.79661e-03\n", - " Region: \"zone_3\"\tRelError: 5.44903e-02\tAbsError: 5.29987e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.03260e-03\tAbsError: 2.14256e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.99838e-03\tAbsError: 3.15731e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.84483e-02\tAbsError: 6.48297e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.09464e-05\tAbsError: 3.80212e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.40125e-04\tAbsError: 9.72535e+10\n", - " Region: \"zone_1\"\tRelError: 3.49219e-05\tAbsError: 7.34639e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.47105e-05\tAbsError: 5.62705e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.11358e-07\tAbsError: 7.34076e-05\n", - " Region: \"zone_3\"\tRelError: 1.05203e-04\tAbsError: 9.72535e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.48707e-06\tAbsError: 7.09164e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.41428e-06\tAbsError: 2.63371e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 9.00902e-05\tAbsError: 5.91937e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.11437e-07\tAbsError: 7.34332e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.00400e+01\tAbsError: 1.94504e+16\n", - " Region: \"zone_1\"\tRelError: 5.83181e+00\tAbsError: 1.79058e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.82672e+00\tAbsError: 1.06604e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.09493e-03\tAbsError: 1.77992e+00\n", - " Region: \"zone_3\"\tRelError: 4.20814e+00\tAbsError: 1.94504e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.31217e-02\tAbsError: 9.68151e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.63990e-02\tAbsError: 9.76891e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 4.16350e+00\tAbsError: 1.06615e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.12059e-03\tAbsError: 1.78891e+00\n", - "Iteration: 17\n", - " Device: \"device\"\tRelError: 5.34056e-03\tAbsError: 2.07454e+12\n", - " Region: \"zone_1\"\tRelError: 1.49812e-03\tAbsError: 3.37903e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.48841e-03\tAbsError: 2.66958e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.71068e-06\tAbsError: 3.37636e-03\n", - " Region: \"zone_3\"\tRelError: 3.84243e-03\tAbsError: 2.07454e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.06191e-04\tAbsError: 8.27083e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.14714e-04\tAbsError: 1.24746e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.21181e-03\tAbsError: 2.69702e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.71398e-06\tAbsError: 3.37760e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.15381e+03\tAbsError: 2.37220e+18\n", - " Region: \"zone_1\"\tRelError: 6.51804e+02\tAbsError: 4.29334e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.51804e+02\tAbsError: 4.29332e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.86751e-10\tAbsError: 2.04266e-07\n", - " Region: \"zone_3\"\tRelError: 5.02007e+02\tAbsError: 2.37220e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.18418e-01\tAbsError: 1.18342e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.02784e-01\tAbsError: 1.18878e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 5.00786e+02\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.86983e-10\tAbsError: 2.04352e-07\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 7.56709e-05\tAbsError: 6.77210e+10\n", - " Region: \"zone_1\"\tRelError: 1.76311e-05\tAbsError: 3.41657e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.76214e-05\tAbsError: 5.90161e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.64471e-09\tAbsError: 3.35756e-06\n", - " Region: \"zone_3\"\tRelError: 5.80398e-05\tAbsError: 6.77210e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.05802e-06\tAbsError: 2.73831e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.00749e-06\tAbsError: 4.03378e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.59647e-05\tAbsError: 5.91576e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.64956e-09\tAbsError: 3.35932e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:48\u001b[0m.\u001b[1;36m289\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:48\u001b[0m.\u001b[1;36m289\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.3090909090909091\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 5.29647e+00\tAbsError: 1.75873e+16\n", - " Region: \"zone_1\"\tRelError: 2.79182e+00\tAbsError: 1.48863e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78757e+00\tAbsError: 1.73604e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.25501e-03\tAbsError: 1.48846e+00\n", - " Region: \"zone_3\"\tRelError: 2.50465e+00\tAbsError: 1.75873e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.28043e-02\tAbsError: 8.38773e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.83546e-03\tAbsError: 9.19953e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.47175e+00\tAbsError: 1.74563e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.25799e-03\tAbsError: 1.48951e+00\n", - "Iteration: 18\n", - " Device: \"device\"\tRelError: 5.03612e-03\tAbsError: 2.83265e+12\n", - " Region: \"zone_1\"\tRelError: 1.36798e-03\tAbsError: 3.45924e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.36699e-03\tAbsError: 1.97871e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.89159e-07\tAbsError: 3.43945e-04\n", - " Region: \"zone_3\"\tRelError: 3.66814e-03\tAbsError: 2.83265e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.03983e-04\tAbsError: 1.71027e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.01328e-04\tAbsError: 1.12238e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.06184e-03\tAbsError: 2.00125e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.89570e-07\tAbsError: 3.44089e-04\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.27235e+02\tAbsError: 6.01131e+17\n", - " Region: \"zone_1\"\tRelError: 6.37236e+01\tAbsError: 2.15555e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 6.37175e+01\tAbsError: 3.30990e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.06216e-03\tAbsError: 2.12245e+00\n", - " Region: \"zone_3\"\tRelError: 6.35112e+01\tAbsError: 6.01131e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.07135e-01\tAbsError: 3.01236e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.10530e-01\tAbsError: 2.99895e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 6.28874e+01\tAbsError: 3.31000e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.06277e-03\tAbsError: 2.12266e+00\n", - "Iteration: 19\n", - " Device: \"device\"\tRelError: 6.84071e-04\tAbsError: 3.16352e+11\n", - " Region: \"zone_1\"\tRelError: 1.94288e-04\tAbsError: 2.17034e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.93664e-04\tAbsError: 2.29632e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.23513e-07\tAbsError: 2.16805e-04\n", - " Region: \"zone_3\"\tRelError: 4.89784e-04\tAbsError: 3.16352e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.26466e-05\tAbsError: 1.76971e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.25924e-05\tAbsError: 1.39381e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.23921e-04\tAbsError: 2.32333e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.23623e-07\tAbsError: 2.16843e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.83500e+02\tAbsError: 8.65566e+15\n", - " Region: \"zone_1\"\tRelError: 2.81843e+02\tAbsError: 4.18767e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.81843e+02\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10669e-08\tAbsError: 3.84725e-06\n", - " Region: \"zone_3\"\tRelError: 1.65782e+00\tAbsError: 8.65566e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77422e-01\tAbsError: 4.99578e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.77402e-01\tAbsError: 3.65988e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02995e-01\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10677e-08\tAbsError: 3.84759e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.16935e+01\tAbsError: 9.40991e+15\n", - " Region: \"zone_1\"\tRelError: 5.40803e-01\tAbsError: 5.56761e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.40645e-01\tAbsError: 3.86146e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.58024e-04\tAbsError: 5.52900e-02\n", - " Region: \"zone_3\"\tRelError: 1.11527e+01\tAbsError: 9.40991e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.54329e-02\tAbsError: 4.59548e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.04663e-03\tAbsError: 4.81443e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11341e+01\tAbsError: 3.88837e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.58109e-04\tAbsError: 5.53189e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 4.46534e+01\tAbsError: 4.26935e+16\n", - " Region: \"zone_1\"\tRelError: 4.31929e+01\tAbsError: 3.34889e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 4.31834e+01\tAbsError: 2.58895e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.42928e-03\tAbsError: 3.32300e+00\n", - " Region: \"zone_3\"\tRelError: 1.46059e+00\tAbsError: 4.26935e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.12272e-02\tAbsError: 2.14191e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.32369e-02\tAbsError: 2.12744e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33669e+00\tAbsError: 2.58962e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.43739e-03\tAbsError: 3.32593e+00\n", - "Iteration: 20\n", - " Device: \"device\"\tRelError: 3.63414e-04\tAbsError: 2.02249e+11\n", - " Region: \"zone_1\"\tRelError: 1.00386e-04\tAbsError: 3.49527e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00286e-04\tAbsError: 1.28886e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00150e-07\tAbsError: 3.48238e-05\n", - " Region: \"zone_3\"\tRelError: 2.63028e-04\tAbsError: 2.02249e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.97081e-05\tAbsError: 1.21339e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.95483e-05\tAbsError: 8.09100e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.23671e-04\tAbsError: 1.30395e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00167e-07\tAbsError: 3.48297e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.48557e+00\tAbsError: 3.20270e+14\n", - " Region: \"zone_1\"\tRelError: 3.05154e-02\tAbsError: 4.95864e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.03737e-02\tAbsError: 1.84386e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41696e-04\tAbsError: 4.95679e-02\n", - " Region: \"zone_3\"\tRelError: 1.45505e+00\tAbsError: 3.20270e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.47383e-03\tAbsError: 1.55510e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.13814e-04\tAbsError: 1.64760e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.45293e+00\tAbsError: 1.85478e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41753e-04\tAbsError: 4.95877e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.21069e+00\tAbsError: 3.14375e+14\n", - " Region: \"zone_1\"\tRelError: 7.32124e-01\tAbsError: 8.88279e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.31960e-01\tAbsError: 3.18465e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.63935e-04\tAbsError: 5.69815e-02\n", - " Region: \"zone_3\"\tRelError: 1.47857e+00\tAbsError: 3.14375e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.52488e-01\tAbsError: 1.95459e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.46660e-01\tAbsError: 1.18916e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.92560e-02\tAbsError: 3.18469e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.63935e-04\tAbsError: 5.69815e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 6.06957e+01\tAbsError: 2.39287e+16\n", - " Region: \"zone_1\"\tRelError: 2.18674e+01\tAbsError: 2.38118e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 2.18606e+01\tAbsError: 1.22639e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.76748e-03\tAbsError: 2.36892e+00\n", - " Region: \"zone_3\"\tRelError: 3.88283e+01\tAbsError: 2.39287e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.22362e-02\tAbsError: 1.20542e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.10394e-02\tAbsError: 1.18745e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.87582e+01\tAbsError: 1.22654e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.77515e-03\tAbsError: 2.37164e+00\n", - "Iteration: 21\n", - " Device: \"device\"\tRelError: 6.67627e-05\tAbsError: 3.26147e+10\n", - " Region: \"zone_1\"\tRelError: 1.88501e-05\tAbsError: 1.56670e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88051e-05\tAbsError: 2.18141e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.49944e-08\tAbsError: 1.56452e-05\n", - " Region: \"zone_3\"\tRelError: 4.79126e-05\tAbsError: 3.26147e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.23517e-06\tAbsError: 1.91761e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.22128e-06\tAbsError: 1.34386e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.14111e-05\tAbsError: 2.20748e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.49994e-08\tAbsError: 1.56470e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:52\u001b[0m.\u001b[1;36m013\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.2\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.02209e+00\tAbsError: 4.33246e+13\n", - " Region: \"zone_1\"\tRelError: 6.28792e-02\tAbsError: 3.21867e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.28610e-02\tAbsError: 2.58707e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.81707e-05\tAbsError: 6.31601e-03\n", - " Region: \"zone_3\"\tRelError: 9.59212e-01\tAbsError: 4.33246e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.62006e-01\tAbsError: 3.08852e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.33712e-01\tAbsError: 1.24394e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 6.34763e-02\tAbsError: 2.58963e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.81707e-05\tAbsError: 6.31601e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 7.70029e-01\tAbsError: 2.97081e+14\n", - " Region: \"zone_1\"\tRelError: 4.96016e-02\tAbsError: 3.55497e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 4.95915e-02\tAbsError: 1.36673e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.01232e-05\tAbsError: 3.54131e-03\n", - " Region: \"zone_3\"\tRelError: 7.20428e-01\tAbsError: 2.97081e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.85363e-04\tAbsError: 1.47966e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.28655e-04\tAbsError: 1.49115e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.19504e-01\tAbsError: 1.37577e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.01271e-05\tAbsError: 3.54267e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.78067e+01\tAbsError: 2.47144e+16\n", - " Region: \"zone_1\"\tRelError: 1.44384e+01\tAbsError: 1.28516e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.44348e+01\tAbsError: 2.79036e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.66119e-03\tAbsError: 1.28488e+00\n", - " Region: \"zone_3\"\tRelError: 3.36829e+00\tAbsError: 2.47144e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.53457e-02\tAbsError: 1.23209e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.28668e-02\tAbsError: 1.23934e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.33641e+00\tAbsError: 2.81211e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.66490e-03\tAbsError: 1.28619e+00\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.71665e+00\tAbsError: 8.34849e+15\n", - " Region: \"zone_1\"\tRelError: 2.08783e+00\tAbsError: 4.09574e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.08783e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.12481e-09\tAbsError: 3.17283e-06\n", - " Region: \"zone_3\"\tRelError: 1.62882e+00\tAbsError: 8.34849e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69544e-01\tAbsError: 4.67018e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69471e-01\tAbsError: 3.67831e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.98080e-02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.12585e-09\tAbsError: 3.17320e-06\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.18153e-01\tAbsError: 7.69318e+12\n", - " Region: \"zone_1\"\tRelError: 2.19507e-02\tAbsError: 1.30281e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.19435e-02\tAbsError: 1.05212e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.21201e-06\tAbsError: 2.50690e-03\n", - " Region: \"zone_3\"\tRelError: 2.96202e-01\tAbsError: 7.69318e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.16081e-01\tAbsError: 3.71910e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.79572e-02\tAbsError: 3.97407e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.21572e-02\tAbsError: 1.05213e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.21469e-06\tAbsError: 2.50784e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 9.06918e-02\tAbsError: 2.13818e+13\n", - " Region: \"zone_1\"\tRelError: 5.41321e-03\tAbsError: 2.02187e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.40742e-03\tAbsError: 1.13615e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.79189e-06\tAbsError: 2.02073e-03\n", - " Region: \"zone_3\"\tRelError: 8.52786e-02\tAbsError: 2.13818e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.50647e-05\tAbsError: 1.06492e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.41669e-05\tAbsError: 1.07325e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.51436e-02\tAbsError: 1.14349e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.79312e-06\tAbsError: 2.02124e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.32287e+00\tAbsError: 9.07118e+15\n", - " Region: \"zone_1\"\tRelError: 1.41239e+00\tAbsError: 4.08445e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.41227e+00\tAbsError: 3.17019e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.15460e-04\tAbsError: 4.05275e-02\n", - " Region: \"zone_3\"\tRelError: 4.91049e+00\tAbsError: 9.07118e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.35706e-02\tAbsError: 4.44589e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.94902e-03\tAbsError: 4.62529e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 4.89385e+00\tAbsError: 3.18982e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.15534e-04\tAbsError: 4.05531e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.50135e+00\tAbsError: 2.91713e+14\n", - " Region: \"zone_1\"\tRelError: 6.56152e-02\tAbsError: 8.99319e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.54450e-02\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70197e-04\tAbsError: 5.91682e-02\n", - " Region: \"zone_3\"\tRelError: 1.43573e+00\tAbsError: 2.91713e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.37692e-01\tAbsError: 1.49991e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32867e-01\tAbsError: 1.41722e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.50013e-02\tAbsError: 3.07641e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70197e-04\tAbsError: 5.91682e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.93773e-02\tAbsError: 2.16739e+12\n", - " Region: \"zone_1\"\tRelError: 1.94704e-03\tAbsError: 2.16033e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.94083e-03\tAbsError: 5.39856e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.20559e-06\tAbsError: 2.15493e-03\n", - " Region: \"zone_3\"\tRelError: 6.74303e-02\tAbsError: 2.16739e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.50959e-02\tAbsError: 1.50592e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.92088e-04\tAbsError: 6.61468e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03608e-03\tAbsError: 5.64194e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.20559e-06\tAbsError: 2.15493e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 5.23204e-02\tAbsError: 1.36111e+13\n", - " Region: \"zone_1\"\tRelError: 3.25743e-03\tAbsError: 2.33620e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.25676e-03\tAbsError: 5.48360e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.68920e-07\tAbsError: 2.33072e-04\n", - " Region: \"zone_3\"\tRelError: 4.90630e-02\tAbsError: 1.36111e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.46005e-05\tAbsError: 6.78353e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.23853e-05\tAbsError: 6.82756e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.90154e-02\tAbsError: 5.51914e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.68941e-07\tAbsError: 2.33078e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.37835e-02\tAbsError: 3.06207e+14\n", - " Region: \"zone_1\"\tRelError: 1.75914e-02\tAbsError: 3.79806e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74832e-02\tAbsError: 1.26171e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08186e-04\tAbsError: 3.79680e-02\n", - " Region: \"zone_3\"\tRelError: 4.61921e-02\tAbsError: 3.06207e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.09564e-03\tAbsError: 1.49901e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.92419e-04\tAbsError: 1.56306e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.47958e-02\tAbsError: 1.26817e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08228e-04\tAbsError: 3.79829e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 9.34092e-01\tAbsError: 3.63180e+13\n", - " Region: \"zone_1\"\tRelError: 4.74089e-02\tAbsError: 3.08418e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.73947e-02\tAbsError: 2.58899e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42440e-05\tAbsError: 4.95193e-03\n", - " Region: \"zone_3\"\tRelError: 8.86683e-01\tAbsError: 3.63180e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40041e-01\tAbsError: 2.66182e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.98904e-01\tAbsError: 9.69984e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 4.77236e-02\tAbsError: 2.58388e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42440e-05\tAbsError: 4.95193e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 7.80215e-03\tAbsError: 1.53595e+12\n", - " Region: \"zone_1\"\tRelError: 4.80636e-04\tAbsError: 1.08236e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.80325e-04\tAbsError: 6.67270e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.10441e-07\tAbsError: 1.08169e-04\n", - " Region: \"zone_3\"\tRelError: 7.32151e-03\tAbsError: 1.53595e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.01724e-06\tAbsError: 7.65591e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.19179e-06\tAbsError: 7.70356e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 7.31299e-03\tAbsError: 6.71457e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.10496e-07\tAbsError: 1.08189e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.14583e-03\tAbsError: 1.06368e+12\n", - " Region: \"zone_1\"\tRelError: 4.77108e-04\tAbsError: 9.99144e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.76825e-04\tAbsError: 1.58343e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.82488e-07\tAbsError: 9.83309e-05\n", - " Region: \"zone_3\"\tRelError: 6.68723e-04\tAbsError: 1.06368e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.24784e-04\tAbsError: 2.85656e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.19154e-04\tAbsError: 7.78029e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.24501e-04\tAbsError: 1.59076e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.82620e-07\tAbsError: 9.83784e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 6.91540e-01\tAbsError: 2.30901e+14\n", - " Region: \"zone_1\"\tRelError: 9.68543e-02\tAbsError: 2.30691e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 9.68477e-02\tAbsError: 1.04073e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.54344e-06\tAbsError: 2.29650e-03\n", - " Region: \"zone_3\"\tRelError: 5.94685e-01\tAbsError: 2.30901e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73544e-04\tAbsError: 1.14971e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.60432e-04\tAbsError: 1.15930e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 5.93945e-01\tAbsError: 1.04696e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.54610e-06\tAbsError: 2.29743e-03\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 3.24839e-03\tAbsError: 6.94914e+11\n", - " Region: \"zone_1\"\tRelError: 2.00839e-04\tAbsError: 1.73175e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.00789e-04\tAbsError: 2.61827e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.95620e-08\tAbsError: 1.72913e-05\n", - " Region: \"zone_3\"\tRelError: 3.04755e-03\tAbsError: 6.94914e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.19854e-06\tAbsError: 3.46484e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.41935e-06\tAbsError: 3.48429e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.04488e-03\tAbsError: 2.64294e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.95807e-08\tAbsError: 1.72981e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.84661e-01\tAbsError: 3.60691e+12\n", - " Region: \"zone_1\"\tRelError: 1.51217e-02\tAbsError: 1.24488e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51123e-02\tAbsError: 9.16566e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.44392e-06\tAbsError: 3.28315e-03\n", - " Region: \"zone_3\"\tRelError: 2.69539e-01\tAbsError: 3.60691e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.12296e-01\tAbsError: 2.19870e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.19182e-02\tAbsError: 1.40820e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.53153e-02\tAbsError: 9.16570e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.44392e-06\tAbsError: 3.28315e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.01321e-04\tAbsError: 7.94947e+10\n", - " Region: \"zone_1\"\tRelError: 1.53281e-05\tAbsError: 6.36624e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.51449e-05\tAbsError: 4.80125e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83179e-07\tAbsError: 6.36144e-05\n", - " Region: \"zone_3\"\tRelError: 8.59926e-05\tAbsError: 7.94947e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.36957e-06\tAbsError: 5.94263e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.23031e-06\tAbsError: 2.00684e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.52095e-05\tAbsError: 5.01215e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83260e-07\tAbsError: 6.36408e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 4.26812e-02\tAbsError: 1.20947e+13\n", - " Region: \"zone_1\"\tRelError: 6.40537e-03\tAbsError: 1.38235e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.40142e-03\tAbsError: 7.35377e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.94662e-06\tAbsError: 1.38161e-03\n", - " Region: \"zone_3\"\tRelError: 3.62758e-02\tAbsError: 1.20947e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.08131e-05\tAbsError: 6.01724e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.02534e-05\tAbsError: 6.07742e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.61908e-02\tAbsError: 7.39578e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.94693e-06\tAbsError: 1.38178e-03\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 5.79766e-04\tAbsError: 1.04851e+11\n", - " Region: \"zone_1\"\tRelError: 3.57298e-05\tAbsError: 6.44419e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.57113e-05\tAbsError: 4.57262e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84578e-08\tAbsError: 6.43961e-06\n", - " Region: \"zone_3\"\tRelError: 5.44036e-04\tAbsError: 1.04851e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.31216e-07\tAbsError: 5.22891e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.92773e-07\tAbsError: 5.25616e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.43493e-04\tAbsError: 4.61453e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84647e-08\tAbsError: 6.44213e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.15194e-02\tAbsError: 3.32539e+12\n", - " Region: \"zone_1\"\tRelError: 1.39866e-03\tAbsError: 2.06500e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39275e-03\tAbsError: 1.45908e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.90398e-06\tAbsError: 2.05041e-03\n", - " Region: \"zone_3\"\tRelError: 6.01208e-02\tAbsError: 3.32539e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.70408e-02\tAbsError: 2.05877e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.81898e-04\tAbsError: 1.26662e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49218e-03\tAbsError: 1.52369e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.90398e-06\tAbsError: 2.05041e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.79799e-05\tAbsError: 5.88284e+10\n", - " Region: \"zone_1\"\tRelError: 8.12709e-06\tAbsError: 2.69739e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 8.11950e-06\tAbsError: 5.30618e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.59657e-09\tAbsError: 2.64433e-06\n", - " Region: \"zone_3\"\tRelError: 4.98528e-05\tAbsError: 5.88284e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.66980e-06\tAbsError: 2.37822e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.62891e-06\tAbsError: 3.50462e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.05465e-05\tAbsError: 5.31420e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.60077e-09\tAbsError: 2.64586e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:58\u001b[0m.\u001b[1;36m982\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:40:58\u001b[0m.\u001b[1;36m982\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.4136363636363636\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 3.80030e-02\tAbsError: 9.01767e+12\n", - " Region: \"zone_1\"\tRelError: 5.48386e-03\tAbsError: 1.27682e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.48349e-03\tAbsError: 3.71300e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.63667e-07\tAbsError: 1.27311e-04\n", - " Region: \"zone_3\"\tRelError: 3.25191e-02\tAbsError: 9.01767e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.75047e-05\tAbsError: 4.49288e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.54817e-05\tAbsError: 4.52478e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.24858e-02\tAbsError: 3.73422e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.63688e-07\tAbsError: 1.27324e-04\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 1.98524e-04\tAbsError: 3.83891e+10\n", - " Region: \"zone_1\"\tRelError: 1.22506e-05\tAbsError: 1.22488e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.22471e-05\tAbsError: 1.59287e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.50629e-09\tAbsError: 1.22328e-06\n", - " Region: \"zone_3\"\tRelError: 1.86273e-04\tAbsError: 3.83891e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.51745e-08\tAbsError: 1.91479e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.84174e-08\tAbsError: 1.92412e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86116e-04\tAbsError: 1.60789e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.50766e-09\tAbsError: 1.22379e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.41584e-04\tAbsError: 9.91747e+11\n", - " Region: \"zone_1\"\tRelError: 9.96217e-05\tAbsError: 1.41225e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.92201e-05\tAbsError: 1.43599e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.01567e-07\tAbsError: 1.39789e-04\n", - " Region: \"zone_3\"\tRelError: 5.41962e-04\tAbsError: 9.91747e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33850e-04\tAbsError: 2.52742e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.19510e-04\tAbsError: 7.39006e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88200e-04\tAbsError: 1.43643e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.01722e-07\tAbsError: 1.39845e-04\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 4.19075e-03\tAbsError: 7.89543e+11\n", - " Region: \"zone_1\"\tRelError: 6.21903e-04\tAbsError: 6.47135e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.21718e-04\tAbsError: 3.87952e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.85083e-07\tAbsError: 6.46747e-05\n", - " Region: \"zone_3\"\tRelError: 3.56885e-03\tAbsError: 7.89543e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.42620e-06\tAbsError: 3.93310e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.36465e-06\tAbsError: 3.96233e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.56387e-03\tAbsError: 3.90104e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.85135e-07\tAbsError: 6.46926e-05\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 3.99229e-05\tAbsError: 6.97672e+09\n", - " Region: \"zone_1\"\tRelError: 2.45928e-06\tAbsError: 3.92297e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.45815e-06\tAbsError: 3.16056e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12353e-09\tAbsError: 3.91981e-07\n", - " Region: \"zone_3\"\tRelError: 3.74636e-05\tAbsError: 6.97672e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.39643e-08\tAbsError: 3.48049e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.94984e-08\tAbsError: 3.49623e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 3.74291e-05\tAbsError: 3.18973e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12398e-09\tAbsError: 3.92148e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:00\u001b[0m.\u001b[1;36m481\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.15 V. Current applied bias: 1.15\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.61224e+00\tAbsError: 8.62836e+15\n", - " Region: \"zone_1\"\tRelError: 5.94427e+00\tAbsError: 4.18762e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.94427e+00\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.66010e-09\tAbsError: 3.35766e-06\n", - " Region: \"zone_3\"\tRelError: 1.66797e+00\tAbsError: 8.62836e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77445e-01\tAbsError: 5.08925e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.77421e-01\tAbsError: 3.53911e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13100e-01\tAbsError: 4.18729e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.66084e-09\tAbsError: 3.35797e-06\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 2.04888e-03\tAbsError: 3.95899e+11\n", - " Region: \"zone_1\"\tRelError: 3.00068e-04\tAbsError: 8.61802e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.00043e-04\tAbsError: 1.55122e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.46182e-08\tAbsError: 8.60250e-06\n", - " Region: \"zone_3\"\tRelError: 1.74881e-03\tAbsError: 3.95899e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.45561e-07\tAbsError: 1.97350e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.77697e-07\tAbsError: 1.98549e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74716e-03\tAbsError: 1.56449e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.46222e-08\tAbsError: 8.60394e-06\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.93103e-04\tAbsError: 1.20962e+11\n", - " Region: \"zone_1\"\tRelError: 5.19828e-05\tAbsError: 5.49714e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.18247e-05\tAbsError: 7.13700e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.58070e-07\tAbsError: 5.49001e-05\n", - " Region: \"zone_3\"\tRelError: 1.41120e-04\tAbsError: 1.20962e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.98328e-06\tAbsError: 8.30775e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.89243e-06\tAbsError: 3.78845e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21087e-04\tAbsError: 7.51147e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.58070e-07\tAbsError: 5.49001e-05\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.60249e+00\tAbsError: 3.96429e+14\n", - " Region: \"zone_1\"\tRelError: 1.07248e-01\tAbsError: 8.09693e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07107e-01\tAbsError: 3.18464e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41344e-04\tAbsError: 4.91228e-02\n", - " Region: \"zone_3\"\tRelError: 1.49524e+00\tAbsError: 3.96429e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.53329e-01\tAbsError: 2.70708e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.45859e-01\tAbsError: 1.25720e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.59117e-02\tAbsError: 3.18468e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41344e-04\tAbsError: 4.91228e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.83148e+01\tAbsError: 2.68702e+18\n", - " Region: \"zone_1\"\tRelError: 2.03151e+01\tAbsError: 4.19622e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03151e+01\tAbsError: 4.19622e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.35537e-10\tAbsError: 8.21757e-08\n", - " Region: \"zone_3\"\tRelError: 3.79998e+01\tAbsError: 2.68702e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.54751e-01\tAbsError: 1.34192e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.46027e-01\tAbsError: 1.34511e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 3.68990e+01\tAbsError: 4.19629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.35633e-10\tAbsError: 8.22106e-08\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 3.03214e-04\tAbsError: 4.92871e+10\n", - " Region: \"zone_1\"\tRelError: 4.51218e-05\tAbsError: 3.43658e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.51120e-05\tAbsError: 2.30653e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.82274e-09\tAbsError: 3.43427e-06\n", - " Region: \"zone_3\"\tRelError: 2.58092e-04\tAbsError: 4.92871e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.25663e-07\tAbsError: 2.45763e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.58064e-07\tAbsError: 2.47109e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.57799e-04\tAbsError: 2.32525e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.82653e-09\tAbsError: 3.43564e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.80784e-05\tAbsError: 4.88675e+10\n", - " Region: \"zone_1\"\tRelError: 1.14726e-05\tAbsError: 6.01777e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14554e-05\tAbsError: 4.42616e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71596e-08\tAbsError: 5.97350e-06\n", - " Region: \"zone_3\"\tRelError: 3.66059e-05\tAbsError: 4.88675e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.37889e-06\tAbsError: 1.78089e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.34156e-06\tAbsError: 3.10586e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.78682e-05\tAbsError: 4.43738e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71672e-08\tAbsError: 5.97630e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:02\u001b[0m.\u001b[1;36m635\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.3\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 1.11857e-04\tAbsError: 1.91944e+10\n", - " Region: \"zone_1\"\tRelError: 1.64982e-05\tAbsError: 5.77398e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.64966e-05\tAbsError: 8.51680e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.64906e-09\tAbsError: 5.76547e-07\n", - " Region: \"zone_3\"\tRelError: 9.53587e-05\tAbsError: 1.91944e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.58573e-08\tAbsError: 9.57503e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.95353e-08\tAbsError: 9.61942e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 9.52717e-05\tAbsError: 8.59043e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.64968e-09\tAbsError: 5.76776e-07\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.07043e+00\tAbsError: 1.31538e+14\n", - " Region: \"zone_1\"\tRelError: 8.24569e-02\tAbsError: 3.32321e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.24358e-02\tAbsError: 2.58877e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.11320e-05\tAbsError: 7.34439e-03\n", - " Region: \"zone_3\"\tRelError: 9.87970e-01\tAbsError: 1.31538e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.63108e-01\tAbsError: 7.89650e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.41314e-01\tAbsError: 5.25731e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 8.35277e-02\tAbsError: 2.58940e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.11320e-05\tAbsError: 7.34439e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.02099e+00\tAbsError: 4.94342e+17\n", - " Region: \"zone_1\"\tRelError: 7.12206e-01\tAbsError: 2.83587e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 7.04244e-01\tAbsError: 3.19512e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.96131e-03\tAbsError: 2.80392e+00\n", - " Region: \"zone_3\"\tRelError: 1.30878e+00\tAbsError: 4.94342e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.47535e-01\tAbsError: 2.47513e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.43748e-01\tAbsError: 2.46828e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 8.09539e-01\tAbsError: 3.19525e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.96220e-03\tAbsError: 2.80430e+00\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 1.97623e-05\tAbsError: 3.02692e+09\n", - " Region: \"zone_1\"\tRelError: 2.94371e-06\tAbsError: 1.91382e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.94316e-06\tAbsError: 1.50936e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.46965e-10\tAbsError: 1.91231e-07\n", - " Region: \"zone_3\"\tRelError: 1.68186e-05\tAbsError: 3.02692e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.91444e-09\tAbsError: 1.51040e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.89961e-09\tAbsError: 1.51652e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.68012e-05\tAbsError: 1.52167e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.47183e-10\tAbsError: 1.91311e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.29649e+01\tAbsError: 8.28032e+15\n", - " Region: \"zone_1\"\tRelError: 1.13261e+01\tAbsError: 4.09567e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13261e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.18781e-09\tAbsError: 2.49634e-06\n", - " Region: \"zone_3\"\tRelError: 1.63880e+00\tAbsError: 8.28032e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69633e-01\tAbsError: 4.77284e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.50748e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.95556e-02\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.18873e-09\tAbsError: 2.49669e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:04\u001b[0m.\u001b[1;36m321\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.2 V. Current applied bias: 1.2\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.49932e-01\tAbsError: 4.88492e+13\n", - " Region: \"zone_1\"\tRelError: 2.83428e-02\tAbsError: 1.27049e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.83365e-02\tAbsError: 1.05212e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.28298e-06\tAbsError: 2.18369e-03\n", - " Region: \"zone_3\"\tRelError: 3.21589e-01\tAbsError: 4.88492e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.14470e-01\tAbsError: 2.20257e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.84871e-02\tAbsError: 2.68235e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.86258e-02\tAbsError: 1.05212e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.28763e-06\tAbsError: 2.18531e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 4.51056e-01\tAbsError: 2.05364e+16\n", - " Region: \"zone_1\"\tRelError: 2.00144e-01\tAbsError: 2.42988e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.93339e-01\tAbsError: 2.58995e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.80518e-03\tAbsError: 2.40398e+00\n", - " Region: \"zone_3\"\tRelError: 2.50912e-01\tAbsError: 2.05364e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.66526e-02\tAbsError: 1.02176e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.39299e-02\tAbsError: 1.03188e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.93523e-01\tAbsError: 2.58382e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.80635e-03\tAbsError: 2.40440e+00\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.56865e+00\tAbsError: 2.86625e+14\n", - " Region: \"zone_1\"\tRelError: 1.21045e-01\tAbsError: 8.55195e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20888e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", - " Region: \"zone_3\"\tRelError: 1.44761e+00\tAbsError: 2.86625e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38556e-01\tAbsError: 1.75436e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.32332e-01\tAbsError: 1.11189e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 7.65613e-02\tAbsError: 3.07640e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.57530e-04\tAbsError: 5.47559e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 7.18685e-02\tAbsError: 7.74299e+12\n", - " Region: \"zone_1\"\tRelError: 3.51475e-03\tAbsError: 2.24246e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 3.50846e-03\tAbsError: 5.73988e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.29286e-06\tAbsError: 2.18506e-03\n", - " Region: \"zone_3\"\tRelError: 6.83538e-02\tAbsError: 7.74299e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38946e-02\tAbsError: 4.23379e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.68308e-03\tAbsError: 3.50920e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.76980e-03\tAbsError: 6.12737e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.29286e-06\tAbsError: 2.18506e-03\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.21968e+01\tAbsError: 3.03714e+18\n", - " Region: \"zone_1\"\tRelError: 9.28674e+00\tAbsError: 4.29329e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.28674e+00\tAbsError: 4.29329e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.04601e-10\tAbsError: 3.65708e-08\n", - " Region: \"zone_3\"\tRelError: 2.91002e+00\tAbsError: 3.03714e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.35154e-01\tAbsError: 1.51734e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.27699e-01\tAbsError: 1.51980e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 1.84717e+00\tAbsError: 4.29338e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.04643e-10\tAbsError: 3.65865e-08\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.67468e-01\tAbsError: 2.46843e+16\n", - " Region: \"zone_1\"\tRelError: 2.30517e-01\tAbsError: 1.62585e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 2.25924e-01\tAbsError: 1.06599e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.59329e-03\tAbsError: 1.61519e+00\n", - " Region: \"zone_3\"\tRelError: 3.36951e-01\tAbsError: 2.46843e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.21049e-02\tAbsError: 1.22878e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.07419e-02\tAbsError: 1.23965e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.79509e-01\tAbsError: 1.06615e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.59568e-03\tAbsError: 1.61602e+00\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 9.63437e-01\tAbsError: 3.66677e+13\n", - " Region: \"zone_1\"\tRelError: 5.93231e-02\tAbsError: 3.16919e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.93064e-02\tAbsError: 2.58707e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", - " Region: \"zone_3\"\tRelError: 9.04114e-01\tAbsError: 3.66677e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40101e-01\tAbsError: 2.63702e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.04471e-01\tAbsError: 1.02975e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.95256e-02\tAbsError: 2.58992e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67471e-05\tAbsError: 5.82123e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 7.99896e-04\tAbsError: 1.04663e+12\n", - " Region: \"zone_1\"\tRelError: 9.91619e-05\tAbsError: 9.43866e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 9.88950e-05\tAbsError: 1.48652e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.66917e-07\tAbsError: 9.29001e-05\n", - " Region: \"zone_3\"\tRelError: 7.00734e-04\tAbsError: 1.04663e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52150e-04\tAbsError: 2.81168e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.02994e-04\tAbsError: 7.65464e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.45323e-04\tAbsError: 1.48982e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.67024e-07\tAbsError: 9.29392e-05\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.02943e+00\tAbsError: 4.87297e+17\n", - " Region: \"zone_1\"\tRelError: 2.94499e-01\tAbsError: 3.54798e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 2.84574e-01\tAbsError: 3.30986e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.92456e-03\tAbsError: 3.51488e+00\n", - " Region: \"zone_3\"\tRelError: 7.34931e-01\tAbsError: 4.87297e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.40933e-01\tAbsError: 2.43918e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.31212e-01\tAbsError: 2.43379e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 2.52860e-01\tAbsError: 3.31000e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.92599e-03\tAbsError: 3.51524e+00\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.37043e-01\tAbsError: 1.75835e+16\n", - " Region: \"zone_1\"\tRelError: 9.99402e-02\tAbsError: 6.83854e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 9.80013e-02\tAbsError: 2.45416e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93890e-03\tAbsError: 6.83608e-01\n", - " Region: \"zone_3\"\tRelError: 1.37102e-01\tAbsError: 1.75835e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.69191e-03\tAbsError: 8.79303e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.90089e-03\tAbsError: 8.79044e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18571e-01\tAbsError: 2.45694e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93890e-03\tAbsError: 6.83676e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.93334e-01\tAbsError: 6.56738e+12\n", - " Region: \"zone_1\"\tRelError: 1.86981e-02\tAbsError: 1.19586e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86900e-02\tAbsError: 9.16562e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03535e-06\tAbsError: 2.79297e-03\n", - " Region: \"zone_3\"\tRelError: 2.74636e-01\tAbsError: 6.56738e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11907e-01\tAbsError: 3.29549e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.38500e-02\tAbsError: 3.27189e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88710e-02\tAbsError: 9.16566e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03753e-06\tAbsError: 2.79381e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 9.49822e-05\tAbsError: 7.54263e+10\n", - " Region: \"zone_1\"\tRelError: 1.58303e-05\tAbsError: 6.41477e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.56457e-05\tAbsError: 5.00952e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84592e-07\tAbsError: 6.40976e-05\n", - " Region: \"zone_3\"\tRelError: 7.91520e-05\tAbsError: 7.54263e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.86789e-06\tAbsError: 5.64456e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.57072e-06\tAbsError: 1.89807e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 6.95287e-05\tAbsError: 5.22726e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84689e-07\tAbsError: 6.41318e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:08\u001b[0m.\u001b[1;36m373\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:08\u001b[0m.\u001b[1;36m373\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.5181818181818182\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 3.06598e-01\tAbsError: 2.94721e+16\n", - " Region: \"zone_1\"\tRelError: 1.45043e-01\tAbsError: 1.82604e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39960e-01\tAbsError: 2.58619e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.08227e-03\tAbsError: 1.80018e+00\n", - " Region: \"zone_3\"\tRelError: 1.61555e-01\tAbsError: 2.94721e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.33714e-02\tAbsError: 1.46903e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.75328e-03\tAbsError: 1.47818e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.24339e-01\tAbsError: 2.58957e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.09128e-03\tAbsError: 1.80342e+00\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.89351e-02\tAbsError: 5.69657e+15\n", - " Region: \"zone_1\"\tRelError: 1.78144e-02\tAbsError: 2.12673e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77545e-02\tAbsError: 1.45761e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.98502e-05\tAbsError: 2.11215e-02\n", - " Region: \"zone_3\"\tRelError: 3.11207e-02\tAbsError: 5.69657e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.04402e-03\tAbsError: 2.80640e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.66054e-03\tAbsError: 2.89016e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.13562e-02\tAbsError: 1.46554e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.98901e-05\tAbsError: 2.11355e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.00158e-02\tAbsError: 2.47729e+12\n", - " Region: \"zone_1\"\tRelError: 6.29744e-04\tAbsError: 1.66755e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.24968e-04\tAbsError: 8.94858e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", - " Region: \"zone_3\"\tRelError: 5.93860e-02\tAbsError: 2.47729e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.68115e-02\tAbsError: 1.70064e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.91678e-04\tAbsError: 7.76647e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.27809e-03\tAbsError: 9.43816e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.77624e-06\tAbsError: 1.65860e-03\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.63007e-01\tAbsError: 3.52970e+16\n", - " Region: \"zone_1\"\tRelError: 6.71069e-02\tAbsError: 1.93853e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 6.17159e-02\tAbsError: 1.22632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.39099e-03\tAbsError: 1.92627e+00\n", - " Region: \"zone_3\"\tRelError: 9.59006e-02\tAbsError: 3.52970e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.68566e-02\tAbsError: 1.57552e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.19087e-02\tAbsError: 1.95418e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.17335e-02\tAbsError: 1.22654e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.40172e-03\tAbsError: 1.93013e+00\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.81665e-03\tAbsError: 2.73535e+14\n", - " Region: \"zone_1\"\tRelError: 5.85407e-04\tAbsError: 1.66466e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.38239e-04\tAbsError: 5.18612e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.71682e-05\tAbsError: 1.66414e-02\n", - " Region: \"zone_3\"\tRelError: 1.23124e-03\tAbsError: 2.73535e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.87007e-04\tAbsError: 1.35327e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.35619e-05\tAbsError: 1.38209e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.53493e-04\tAbsError: 5.21633e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.71777e-05\tAbsError: 1.66444e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.75723e+01\tAbsError: 8.60719e+15\n", - " Region: \"zone_1\"\tRelError: 2.58712e+01\tAbsError: 4.18752e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.58712e+01\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.78795e-09\tAbsError: 2.36269e-06\n", - " Region: \"zone_3\"\tRelError: 1.70103e+00\tAbsError: 8.60719e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77451e-01\tAbsError: 4.97125e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.77390e-01\tAbsError: 3.63594e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.46185e-01\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.79151e-09\tAbsError: 2.36399e-06\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 4.31240e-04\tAbsError: 7.97937e+11\n", - " Region: \"zone_1\"\tRelError: 7.54533e-05\tAbsError: 1.27890e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.50894e-05\tAbsError: 1.20855e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.63943e-07\tAbsError: 1.26681e-04\n", - " Region: \"zone_3\"\tRelError: 3.55787e-04\tAbsError: 7.97937e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.38045e-05\tAbsError: 1.92064e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.48742e-05\tAbsError: 6.05872e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.76744e-04\tAbsError: 1.21338e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.64089e-07\tAbsError: 1.26735e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.47662e-01\tAbsError: 3.16243e+16\n", - " Region: \"zone_1\"\tRelError: 3.98076e-02\tAbsError: 2.53120e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 3.26748e-02\tAbsError: 5.98930e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.13283e-03\tAbsError: 2.53060e+00\n", - " Region: \"zone_3\"\tRelError: 1.07855e-01\tAbsError: 3.16243e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.60729e-02\tAbsError: 1.56428e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.59129e-02\tAbsError: 1.59815e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.87247e-02\tAbsError: 6.01846e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.14424e-03\tAbsError: 2.53465e+00\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.81145e-03\tAbsError: 1.18428e+14\n", - " Region: \"zone_1\"\tRelError: 1.12103e-03\tAbsError: 1.02830e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.11813e-03\tAbsError: 4.60822e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.90087e-06\tAbsError: 1.02370e-03\n", - " Region: \"zone_3\"\tRelError: 1.69042e-03\tAbsError: 1.18428e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.20860e-04\tAbsError: 5.74187e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.20476e-04\tAbsError: 6.10095e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.34619e-03\tAbsError: 4.63235e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.90208e-06\tAbsError: 1.02411e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.41217e+00\tAbsError: 1.46955e+15\n", - " Region: \"zone_1\"\tRelError: 1.90056e+00\tAbsError: 7.00012e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.90045e+00\tAbsError: 3.18463e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.09797e-04\tAbsError: 3.81549e-02\n", - " Region: \"zone_3\"\tRelError: 1.51161e+00\tAbsError: 1.46955e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.54837e-01\tAbsError: 8.24639e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.36560e-01\tAbsError: 6.44909e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20103e-01\tAbsError: 3.18464e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.09797e-04\tAbsError: 3.81549e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.53826e-04\tAbsError: 1.09912e+11\n", - " Region: \"zone_1\"\tRelError: 2.29821e-05\tAbsError: 4.27473e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.28592e-05\tAbsError: 6.65170e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", - " Region: \"zone_3\"\tRelError: 1.30844e-04\tAbsError: 1.09912e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.01681e-06\tAbsError: 7.52234e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.94349e-06\tAbsError: 3.46881e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14760e-04\tAbsError: 6.98367e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.22899e-07\tAbsError: 4.26808e-05\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 9.29504e-02\tAbsError: 2.02898e+16\n", - " Region: \"zone_1\"\tRelError: 2.42374e-02\tAbsError: 1.35837e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.38563e-02\tAbsError: 5.99628e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.81112e-04\tAbsError: 1.35237e-01\n", - " Region: \"zone_3\"\tRelError: 6.87131e-02\tAbsError: 2.02898e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.13966e-02\tAbsError: 9.99359e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.26787e-02\tAbsError: 1.02962e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.42566e-02\tAbsError: 6.02384e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.81172e-04\tAbsError: 1.35256e-01\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.53154e-04\tAbsError: 8.06031e+12\n", - " Region: \"zone_1\"\tRelError: 5.59360e-05\tAbsError: 5.13628e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.44781e-05\tAbsError: 3.07943e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.45792e-06\tAbsError: 5.13320e-04\n", - " Region: \"zone_3\"\tRelError: 9.72179e-05\tAbsError: 8.06031e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.01846e-05\tAbsError: 4.02722e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.01144e-05\tAbsError: 4.03309e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 6.54610e-05\tAbsError: 3.09481e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.45792e-06\tAbsError: 5.13320e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.91173e+00\tAbsError: 9.44487e+14\n", - " Region: \"zone_1\"\tRelError: 9.30696e-01\tAbsError: 3.44982e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.30671e-01\tAbsError: 2.57987e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.50635e-05\tAbsError: 8.69950e-03\n", - " Region: \"zone_3\"\tRelError: 9.81030e-01\tAbsError: 9.44487e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.64864e-01\tAbsError: 4.17722e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.10409e-01\tAbsError: 5.26765e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.05732e-01\tAbsError: 2.57987e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.50635e-05\tAbsError: 8.69950e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.84860e-05\tAbsError: 3.70987e+10\n", - " Region: \"zone_1\"\tRelError: 3.74711e-06\tAbsError: 5.87951e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.73032e-06\tAbsError: 3.58594e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67880e-08\tAbsError: 5.84365e-06\n", - " Region: \"zone_3\"\tRelError: 2.47389e-05\tAbsError: 3.70987e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.96764e-06\tAbsError: 1.24118e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.94133e-06\tAbsError: 2.46869e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88131e-05\tAbsError: 3.59119e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67950e-08\tAbsError: 5.84625e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:13\u001b[0m.\u001b[1;36m144\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.4\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 9.94238e-03\tAbsError: 1.75530e+15\n", - " Region: \"zone_1\"\tRelError: 2.72108e-03\tAbsError: 6.51934e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.53712e-03\tAbsError: 4.37532e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.83960e-04\tAbsError: 6.51496e-02\n", - " Region: \"zone_3\"\tRelError: 7.22130e-03\tAbsError: 1.75530e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.68752e-03\tAbsError: 8.73995e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.71657e-03\tAbsError: 8.81305e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.63317e-03\tAbsError: 4.39323e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.84040e-04\tAbsError: 6.51817e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.22471e-04\tAbsError: 4.45531e+12\n", - " Region: \"zone_1\"\tRelError: 4.99766e-05\tAbsError: 4.36982e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.98529e-05\tAbsError: 1.36252e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.23724e-07\tAbsError: 4.35619e-05\n", - " Region: \"zone_3\"\tRelError: 7.24948e-05\tAbsError: 4.45531e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.55059e-06\tAbsError: 2.20957e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.76525e-06\tAbsError: 2.24574e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 6.00552e-05\tAbsError: 1.36901e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.23756e-07\tAbsError: 4.35755e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.03756e-01\tAbsError: 3.40533e+14\n", - " Region: \"zone_1\"\tRelError: 1.45274e-01\tAbsError: 2.12309e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.45243e-01\tAbsError: 1.05213e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.08557e-05\tAbsError: 1.07096e-02\n", - " Region: \"zone_3\"\tRelError: 3.58482e-01\tAbsError: 3.40533e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11349e-01\tAbsError: 1.63183e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.11582e-01\tAbsError: 1.77350e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.55205e-02\tAbsError: 1.05214e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.08557e-05\tAbsError: 1.07096e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.87618e+01\tAbsError: 8.25603e+15\n", - " Region: \"zone_1\"\tRelError: 2.71120e+01\tAbsError: 4.09561e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.71120e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.29384e-09\tAbsError: 1.83846e-06\n", - " Region: \"zone_3\"\tRelError: 1.64979e+00\tAbsError: 8.25603e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69658e-01\tAbsError: 4.86497e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69634e-01\tAbsError: 3.39106e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10500e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.29480e-09\tAbsError: 1.83875e-06\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.92011e-03\tAbsError: 8.10197e+14\n", - " Region: \"zone_1\"\tRelError: 1.17391e-03\tAbsError: 5.91365e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.15725e-03\tAbsError: 1.80237e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.66570e-05\tAbsError: 5.89563e-03\n", - " Region: \"zone_3\"\tRelError: 2.74620e-03\tAbsError: 8.10197e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.58915e-04\tAbsError: 4.03140e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.69237e-04\tAbsError: 4.07057e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.20139e-03\tAbsError: 1.80976e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.66578e-05\tAbsError: 5.89585e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.18840e-05\tAbsError: 4.54852e+11\n", - " Region: \"zone_1\"\tRelError: 4.72208e-06\tAbsError: 1.92624e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.66726e-06\tAbsError: 1.32255e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.48147e-08\tAbsError: 1.92492e-05\n", - " Region: \"zone_3\"\tRelError: 7.16189e-06\tAbsError: 4.54852e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.67326e-07\tAbsError: 2.25761e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.20704e-07\tAbsError: 2.29091e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.61904e-06\tAbsError: 1.32868e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.48217e-08\tAbsError: 1.92513e-05\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.48050e-01\tAbsError: 5.89756e+13\n", - " Region: \"zone_1\"\tRelError: 7.54406e-02\tAbsError: 5.31011e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.54258e-02\tAbsError: 1.65561e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.48169e-05\tAbsError: 5.14455e-03\n", - " Region: \"zone_3\"\tRelError: 7.26095e-02\tAbsError: 5.89756e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.02125e-02\tAbsError: 3.40063e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.08011e-03\tAbsError: 2.49693e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.30209e-03\tAbsError: 1.66795e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.48169e-05\tAbsError: 5.14455e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.69855e+00\tAbsError: 3.40458e+14\n", - " Region: \"zone_1\"\tRelError: 2.34470e-01\tAbsError: 7.85796e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.34332e-01\tAbsError: 3.07636e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", - " Region: \"zone_3\"\tRelError: 1.46408e+00\tAbsError: 3.40458e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.39247e-01\tAbsError: 2.37038e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.31799e-01\tAbsError: 1.03420e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.29010e-02\tAbsError: 3.07639e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.37582e-04\tAbsError: 4.78161e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 4.70389e-04\tAbsError: 9.42013e+13\n", - " Region: \"zone_1\"\tRelError: 1.42301e-04\tAbsError: 1.88289e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.36972e-04\tAbsError: 1.70810e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.32876e-06\tAbsError: 1.88118e-03\n", - " Region: \"zone_3\"\tRelError: 3.28088e-04\tAbsError: 9.42013e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.75156e-05\tAbsError: 4.70617e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.29791e-05\tAbsError: 4.71396e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.42264e-04\tAbsError: 1.71441e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.32907e-06\tAbsError: 1.88126e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.65005e-03\tAbsError: 2.41163e+12\n", - " Region: \"zone_1\"\tRelError: 8.79965e-04\tAbsError: 3.88210e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 8.78855e-04\tAbsError: 2.64921e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10949e-06\tAbsError: 3.85561e-04\n", - " Region: \"zone_3\"\tRelError: 1.77009e-03\tAbsError: 2.41163e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.84226e-04\tAbsError: 8.06651e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.06220e-04\tAbsError: 1.60498e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.27853e-03\tAbsError: 2.69927e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.10977e-06\tAbsError: 3.85658e-04\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.10009e+00\tAbsError: 9.49766e+13\n", - " Region: \"zone_1\"\tRelError: 1.69910e-01\tAbsError: 3.26443e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.69891e-01\tAbsError: 2.58991e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", - " Region: \"zone_3\"\tRelError: 9.30185e-01\tAbsError: 9.49766e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.40985e-01\tAbsError: 5.67002e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.12174e-01\tAbsError: 3.82763e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 7.70066e-02\tAbsError: 2.58994e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94075e-05\tAbsError: 6.74514e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.34845e-04\tAbsError: 2.94286e+13\n", - " Region: \"zone_1\"\tRelError: 4.32006e-05\tAbsError: 2.52107e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.24876e-05\tAbsError: 4.63339e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.12954e-07\tAbsError: 2.51644e-04\n", - " Region: \"zone_3\"\tRelError: 9.16446e-05\tAbsError: 2.94286e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05158e-05\tAbsError: 1.46773e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.62690e-05\tAbsError: 1.47513e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.41466e-05\tAbsError: 4.64656e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.13167e-07\tAbsError: 2.51723e-04\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:17\u001b[0m.\u001b[1;36m277\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.13540e-04\tAbsError: 3.16813e+11\n", - " Region: \"zone_1\"\tRelError: 9.41932e-05\tAbsError: 1.43816e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.37795e-05\tAbsError: 1.91137e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.13656e-07\tAbsError: 1.43625e-04\n", - " Region: \"zone_3\"\tRelError: 3.19347e-04\tAbsError: 3.16813e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.80678e-05\tAbsError: 2.03480e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.78522e-05\tAbsError: 1.13333e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.83013e-04\tAbsError: 1.98913e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.13699e-07\tAbsError: 1.43642e-04\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.94716e-05\tAbsError: 4.16395e+12\n", - " Region: \"zone_1\"\tRelError: 6.26797e-06\tAbsError: 6.64104e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.07999e-06\tAbsError: 6.50466e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.87972e-07\tAbsError: 6.63453e-05\n", - " Region: \"zone_3\"\tRelError: 1.32037e-05\tAbsError: 4.16395e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.51497e-06\tAbsError: 2.07998e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.18689e-06\tAbsError: 2.08397e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 6.31380e-06\tAbsError: 6.54431e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.87998e-07\tAbsError: 6.63553e-05\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.56252e-01\tAbsError: 3.42527e+13\n", - " Region: \"zone_1\"\tRelError: 6.41646e-02\tAbsError: 1.11813e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.41588e-02\tAbsError: 9.16555e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.79958e-06\tAbsError: 2.01571e-03\n", - " Region: \"zone_3\"\tRelError: 2.92088e-01\tAbsError: 3.42527e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.07223e-01\tAbsError: 1.60452e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.07953e-02\tAbsError: 1.82076e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.40630e-02\tAbsError: 9.16559e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.80279e-06\tAbsError: 2.01683e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.41492e-04\tAbsError: 1.35155e+11\n", - " Region: \"zone_1\"\tRelError: 2.52187e-05\tAbsError: 1.37752e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.51794e-05\tAbsError: 8.81239e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.93274e-08\tAbsError: 1.36871e-05\n", - " Region: \"zone_3\"\tRelError: 1.16273e-04\tAbsError: 1.35155e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.95011e-06\tAbsError: 6.23423e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.88512e-06\tAbsError: 7.28125e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00399e-04\tAbsError: 9.07384e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.93425e-08\tAbsError: 1.36926e-05\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.59960e-02\tAbsError: 3.73217e+12\n", - " Region: \"zone_1\"\tRelError: 7.31305e-03\tAbsError: 2.21475e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.30674e-03\tAbsError: 2.57182e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", - " Region: \"zone_3\"\tRelError: 5.86829e-02\tAbsError: 3.73217e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.62142e-02\tAbsError: 2.07187e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.09163e-04\tAbsError: 1.66031e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65329e-03\tAbsError: 2.69578e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.30425e-06\tAbsError: 2.18904e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.51133e-05\tAbsError: 1.21830e+10\n", - " Region: \"zone_1\"\tRelError: 3.62597e-06\tAbsError: 7.39674e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.60471e-06\tAbsError: 7.04171e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.12658e-08\tAbsError: 7.38970e-06\n", - " Region: \"zone_3\"\tRelError: 1.14873e-05\tAbsError: 1.21830e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.26936e-07\tAbsError: 8.38779e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.15498e-07\tAbsError: 3.79516e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.02236e-05\tAbsError: 7.31166e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.12697e-08\tAbsError: 7.39118e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:19\u001b[0m.\u001b[1;36m974\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:19\u001b[0m.\u001b[1;36m974\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.6227272727272727\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:20\u001b[0m.\u001b[1;36m349\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 8.14034e-04\tAbsError: 1.03618e+12\n", - " Region: \"zone_1\"\tRelError: 1.43803e-04\tAbsError: 7.79056e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43584e-04\tAbsError: 1.54074e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19396e-07\tAbsError: 7.63649e-05\n", - " Region: \"zone_3\"\tRelError: 6.70231e-04\tAbsError: 1.03618e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.21829e-04\tAbsError: 2.70793e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.05108e-04\tAbsError: 7.65387e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.43074e-04\tAbsError: 1.54210e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19498e-07\tAbsError: 7.64015e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 9.74930e+00\tAbsError: 9.12751e+15\n", - " Region: \"zone_1\"\tRelError: 8.00632e+00\tAbsError: 4.18732e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.00632e+00\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12025e-09\tAbsError: 3.89888e-07\n", - " Region: \"zone_3\"\tRelError: 1.74298e+00\tAbsError: 9.12751e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.77319e-01\tAbsError: 4.82174e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.77156e-01\tAbsError: 4.30577e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88507e-01\tAbsError: 4.18729e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12077e-09\tAbsError: 3.90077e-07\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.61312e-05\tAbsError: 5.74046e+10\n", - " Region: \"zone_1\"\tRelError: 1.61849e-05\tAbsError: 6.45313e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.59991e-05\tAbsError: 3.79845e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.85726e-07\tAbsError: 6.44934e-05\n", - " Region: \"zone_3\"\tRelError: 5.99464e-05\tAbsError: 5.74046e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.77906e-06\tAbsError: 4.68633e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.20461e-06\tAbsError: 1.05413e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.27769e-05\tAbsError: 3.95532e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.85828e-07\tAbsError: 6.45281e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:21\u001b[0m.\u001b[1;36m713\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.5\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.76014e+00\tAbsError: 7.64952e+15\n", - " Region: \"zone_1\"\tRelError: 2.30453e-01\tAbsError: 7.86318e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.30319e-01\tAbsError: 3.18462e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.34653e-04\tAbsError: 4.67856e-02\n", - " Region: \"zone_3\"\tRelError: 1.52969e+00\tAbsError: 7.64952e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.52442e-01\tAbsError: 3.70961e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.23039e-01\tAbsError: 3.93991e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.54074e-01\tAbsError: 3.18463e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.34653e-04\tAbsError: 4.67856e-02\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.60199e+01\tAbsError: 8.22903e+15\n", - " Region: \"zone_1\"\tRelError: 3.43433e+01\tAbsError: 4.09555e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.43433e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.48443e-09\tAbsError: 1.21289e-06\n", - " Region: \"zone_3\"\tRelError: 1.67662e+00\tAbsError: 8.22903e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69667e-01\tAbsError: 4.78919e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69613e-01\tAbsError: 3.43984e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37338e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.48691e-09\tAbsError: 1.21378e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.14370e+00\tAbsError: 5.28119e+15\n", - " Region: \"zone_1\"\tRelError: 1.24540e-01\tAbsError: 3.42249e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.24516e-01\tAbsError: 2.58826e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.40097e-05\tAbsError: 8.34232e-03\n", - " Region: \"zone_3\"\tRelError: 1.01916e+00\tAbsError: 5.28119e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.67272e-01\tAbsError: 2.54892e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.17893e-01\tAbsError: 2.73227e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.33973e-01\tAbsError: 2.53440e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.40097e-05\tAbsError: 8.34232e-03\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.73485e+00\tAbsError: 1.08973e+15\n", - " Region: \"zone_1\"\tRelError: 2.25350e+00\tAbsError: 6.85700e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.25339e+00\tAbsError: 3.07635e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", - " Region: \"zone_3\"\tRelError: 1.48136e+00\tAbsError: 1.08973e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41054e-01\tAbsError: 6.25022e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.24005e-01\tAbsError: 4.64711e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16189e-01\tAbsError: 3.07637e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08792e-04\tAbsError: 3.78065e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.95220e-01\tAbsError: 1.79561e+15\n", - " Region: \"zone_1\"\tRelError: 1.18421e-01\tAbsError: 4.83315e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18312e-01\tAbsError: 1.05217e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08967e-04\tAbsError: 3.78098e-02\n", - " Region: \"zone_3\"\tRelError: 3.76798e-01\tAbsError: 1.79561e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.04475e-01\tAbsError: 9.41675e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.29051e-01\tAbsError: 8.53937e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.31629e-02\tAbsError: 1.05218e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.08989e-04\tAbsError: 3.78175e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.38677e+00\tAbsError: 6.38966e+14\n", - " Region: \"zone_1\"\tRelError: 4.51470e-01\tAbsError: 3.37904e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.51448e-01\tAbsError: 2.58448e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", - " Region: \"zone_3\"\tRelError: 9.35299e-01\tAbsError: 6.38966e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.42607e-01\tAbsError: 3.02038e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.95795e-01\tAbsError: 3.36928e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.68743e-02\tAbsError: 2.57679e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.28638e-05\tAbsError: 7.94563e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.33633e-02\tAbsError: 2.89598e+14\n", - " Region: \"zone_1\"\tRelError: 8.40256e-03\tAbsError: 3.97616e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.28859e-03\tAbsError: 1.99593e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13973e-04\tAbsError: 3.95620e-02\n", - " Region: \"zone_3\"\tRelError: 8.49608e-02\tAbsError: 2.89598e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.18487e-02\tAbsError: 1.59566e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.99528e-03\tAbsError: 1.30032e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.30026e-02\tAbsError: 2.10101e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.14128e-04\tAbsError: 3.96148e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.41554e-01\tAbsError: 2.20715e+14\n", - " Region: \"zone_1\"\tRelError: 2.89595e-02\tAbsError: 1.67352e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.89377e-02\tAbsError: 9.16565e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18085e-05\tAbsError: 7.56954e-03\n", - " Region: \"zone_3\"\tRelError: 3.12594e-01\tAbsError: 2.20715e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.94155e-01\tAbsError: 1.01533e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.87246e-02\tAbsError: 1.19182e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.96932e-02\tAbsError: 9.16570e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.18152e-05\tAbsError: 7.57200e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.14441e-02\tAbsError: 2.12438e+13\n", - " Region: \"zone_1\"\tRelError: 4.74421e-03\tAbsError: 7.64054e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.74205e-03\tAbsError: 1.52893e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.15714e-06\tAbsError: 7.48765e-04\n", - " Region: \"zone_3\"\tRelError: 1.66999e-02\tAbsError: 2.12438e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.38752e-03\tAbsError: 9.42368e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.26682e-03\tAbsError: 1.18201e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40434e-02\tAbsError: 1.60606e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.16115e-06\tAbsError: 7.50158e-04\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.19808e-02\tAbsError: 3.06344e+13\n", - " Region: \"zone_1\"\tRelError: 2.04251e-02\tAbsError: 4.10278e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.04136e-02\tAbsError: 1.00349e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", - " Region: \"zone_3\"\tRelError: 6.15557e-02\tAbsError: 3.06344e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.38926e-02\tAbsError: 1.71938e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.73234e-03\tAbsError: 1.34406e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.91920e-03\tAbsError: 1.01109e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.15275e-05\tAbsError: 4.00243e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 6.16301e-04\tAbsError: 4.20516e+11\n", - " Region: \"zone_1\"\tRelError: 1.45428e-04\tAbsError: 1.24820e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.41835e-04\tAbsError: 4.38423e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.59201e-06\tAbsError: 1.24776e-03\n", - " Region: \"zone_3\"\tRelError: 4.70873e-04\tAbsError: 4.20516e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.02345e-05\tAbsError: 1.56877e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.16841e-05\tAbsError: 2.63639e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.25363e-04\tAbsError: 4.49118e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.59205e-06\tAbsError: 1.24780e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.53920e-03\tAbsError: 1.84314e+12\n", - " Region: \"zone_1\"\tRelError: 2.29752e-04\tAbsError: 2.41443e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.29064e-04\tAbsError: 2.20702e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", - " Region: \"zone_3\"\tRelError: 1.30944e-03\tAbsError: 1.84314e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.11485e-04\tAbsError: 5.81096e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.63190e-04\tAbsError: 1.26205e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 9.34079e-04\tAbsError: 2.25011e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.88407e-07\tAbsError: 2.39236e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.65259e-03\tAbsError: 1.21744e+12\n", - " Region: \"zone_1\"\tRelError: 3.89816e-04\tAbsError: 8.01243e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.89587e-04\tAbsError: 6.08661e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.29074e-07\tAbsError: 7.95156e-05\n", - " Region: \"zone_3\"\tRelError: 1.26277e-03\tAbsError: 1.21744e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.77440e-05\tAbsError: 6.11805e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.74827e-05\tAbsError: 6.05636e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.14732e-03\tAbsError: 6.26783e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.29108e-07\tAbsError: 7.95286e-05\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.51045e-04\tAbsError: 2.02519e+11\n", - " Region: \"zone_1\"\tRelError: 4.54891e-05\tAbsError: 1.12868e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.51644e-05\tAbsError: 1.25671e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.24705e-07\tAbsError: 1.12743e-04\n", - " Region: \"zone_3\"\tRelError: 2.05556e-04\tAbsError: 2.02519e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.12163e-05\tAbsError: 1.36505e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10724e-05\tAbsError: 6.60139e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82943e-04\tAbsError: 1.30848e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.24777e-07\tAbsError: 1.12769e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.61183e-04\tAbsError: 7.68860e+10\n", - " Region: \"zone_1\"\tRelError: 3.88511e-05\tAbsError: 7.71614e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.86291e-05\tAbsError: 4.56521e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.21984e-07\tAbsError: 7.71157e-05\n", - " Region: \"zone_3\"\tRelError: 1.22332e-04\tAbsError: 7.68860e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.07272e-06\tAbsError: 3.66037e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.10133e-06\tAbsError: 4.02822e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13936e-04\tAbsError: 4.66713e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.22064e-07\tAbsError: 7.71436e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.09882e-04\tAbsError: 1.05387e+11\n", - " Region: \"zone_1\"\tRelError: 1.91896e-05\tAbsError: 8.11152e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.91665e-05\tAbsError: 7.26801e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.30974e-08\tAbsError: 8.03884e-06\n", - " Region: \"zone_3\"\tRelError: 9.06925e-05\tAbsError: 1.05387e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.41210e-06\tAbsError: 4.74044e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.36012e-06\tAbsError: 5.79823e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.78972e-05\tAbsError: 7.44246e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.31071e-08\tAbsError: 8.04242e-06\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.18292e-04\tAbsError: 7.64415e+10\n", - " Region: \"zone_1\"\tRelError: 2.82416e-05\tAbsError: 9.49574e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.82143e-05\tAbsError: 3.50165e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.72335e-08\tAbsError: 9.46073e-06\n", - " Region: \"zone_3\"\tRelError: 9.00505e-05\tAbsError: 7.64415e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.51691e-06\tAbsError: 4.30037e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.49401e-06\tAbsError: 3.34378e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 8.30124e-05\tAbsError: 3.56592e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.72411e-08\tAbsError: 9.46340e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 7.21635e-06\tAbsError: 6.66072e+09\n", - " Region: \"zone_1\"\tRelError: 1.30608e-06\tAbsError: 5.92265e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28905e-06\tAbsError: 4.03393e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70320e-08\tAbsError: 5.91862e-06\n", - " Region: \"zone_3\"\tRelError: 5.91027e-06\tAbsError: 6.66072e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.61854e-07\tAbsError: 4.98334e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.27195e-07\tAbsError: 1.67738e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 5.20418e-06\tAbsError: 4.19235e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.70346e-08\tAbsError: 5.91965e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:31\u001b[0m.\u001b[1;36m388\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.6\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.79359e-05\tAbsError: 9.12029e+09\n", - " Region: \"zone_1\"\tRelError: 4.32768e-06\tAbsError: 5.24059e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.31261e-06\tAbsError: 4.64642e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.50721e-08\tAbsError: 5.23594e-06\n", - " Region: \"zone_3\"\tRelError: 1.36082e-05\tAbsError: 9.12029e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.47236e-07\tAbsError: 5.20850e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.47461e-07\tAbsError: 3.91180e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.26984e-05\tAbsError: 4.72645e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.50744e-08\tAbsError: 5.23674e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:31\u001b[0m.\u001b[1;36m732\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:31\u001b[0m.\u001b[1;36m732\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.7272727272727272\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.57743e+01\tAbsError: 8.48667e+15\n", - " Region: \"zone_1\"\tRelError: 1.40602e+01\tAbsError: 4.09544e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.40602e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.57556e-10\tAbsError: 1.24451e-07\n", - " Region: \"zone_3\"\tRelError: 1.71408e+00\tAbsError: 8.48667e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.69582e-01\tAbsError: 4.51146e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.69441e-01\tAbsError: 3.97521e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.75053e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.57765e-10\tAbsError: 1.24526e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.49189e+01\tAbsError: 4.08174e+16\n", - " Region: \"zone_1\"\tRelError: 2.31126e+01\tAbsError: 4.18737e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.31126e+01\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.58304e-09\tAbsError: 8.97333e-07\n", - " Region: \"zone_3\"\tRelError: 1.80635e+00\tAbsError: 4.08174e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.76313e-01\tAbsError: 2.02615e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.75653e-01\tAbsError: 2.05560e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.54388e-01\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.58332e-09\tAbsError: 8.97431e-07\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 4.55570e+00\tAbsError: 5.16331e+15\n", - " Region: \"zone_1\"\tRelError: 3.06111e+00\tAbsError: 6.97364e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.06100e+00\tAbsError: 3.07634e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12162e-04\tAbsError: 3.89730e-02\n", - " Region: \"zone_3\"\tRelError: 1.49459e+00\tAbsError: 5.16331e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.38938e-01\tAbsError: 2.46191e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.11412e-01\tAbsError: 2.70140e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.44124e-01\tAbsError: 3.07634e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.12162e-04\tAbsError: 3.89730e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.86954e+00\tAbsError: 4.19041e+16\n", - " Region: \"zone_1\"\tRelError: 2.86521e-01\tAbsError: 1.91688e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.86060e-01\tAbsError: 3.18461e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.60347e-04\tAbsError: 1.59842e-01\n", - " Region: \"zone_3\"\tRelError: 1.58302e+00\tAbsError: 4.19041e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.48427e-01\tAbsError: 2.09916e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.11904e-01\tAbsError: 2.09125e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.22232e-01\tAbsError: 3.18461e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.60347e-04\tAbsError: 1.59842e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.13964e+00\tAbsError: 3.47644e+15\n", - " Region: \"zone_1\"\tRelError: 1.85284e-01\tAbsError: 3.50197e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.85258e-01\tAbsError: 2.58979e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.62526e-05\tAbsError: 9.12177e-03\n", - " Region: \"zone_3\"\tRelError: 9.54354e-01\tAbsError: 3.47644e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.46208e-01\tAbsError: 1.62778e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.89583e-01\tAbsError: 1.84866e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18536e-01\tAbsError: 2.53855e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.62526e-05\tAbsError: 9.12177e-03\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.21420e+00\tAbsError: 2.59228e+16\n", - " Region: \"zone_1\"\tRelError: 1.78553e-01\tAbsError: 1.14359e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.78297e-01\tAbsError: 2.55828e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.55742e-04\tAbsError: 8.87761e-02\n", - " Region: \"zone_3\"\tRelError: 1.03565e+00\tAbsError: 2.59228e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.56028e-01\tAbsError: 1.29282e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.99653e-01\tAbsError: 1.29946e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.79713e-01\tAbsError: 2.47400e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.55742e-04\tAbsError: 8.87761e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 8.24095e-01\tAbsError: 1.04537e+15\n", - " Region: \"zone_1\"\tRelError: 4.93544e-01\tAbsError: 2.65000e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.93494e-01\tAbsError: 9.16559e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.98913e-05\tAbsError: 1.73344e-02\n", - " Region: \"zone_3\"\tRelError: 3.30551e-01\tAbsError: 1.04537e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.84640e-01\tAbsError: 5.55503e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10521e-01\tAbsError: 4.89866e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.53403e-02\tAbsError: 9.16565e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.98913e-05\tAbsError: 1.73344e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 7.80503e-01\tAbsError: 7.70857e+15\n", - " Region: \"zone_1\"\tRelError: 3.75236e-01\tAbsError: 3.59699e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.75163e-01\tAbsError: 1.05209e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.33305e-05\tAbsError: 2.54491e-02\n", - " Region: \"zone_3\"\tRelError: 4.05267e-01\tAbsError: 7.70857e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.91232e-01\tAbsError: 4.05990e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.09957e-01\tAbsError: 3.64868e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04004e-01\tAbsError: 1.05209e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.33305e-05\tAbsError: 2.54491e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.23262e-02\tAbsError: 1.95138e+14\n", - " Region: \"zone_1\"\tRelError: 2.57438e-02\tAbsError: 3.23382e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.56511e-02\tAbsError: 1.67807e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.26701e-05\tAbsError: 3.21704e-02\n", - " Region: \"zone_3\"\tRelError: 6.65824e-02\tAbsError: 1.95138e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.49682e-02\tAbsError: 6.65802e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.06072e-03\tAbsError: 1.28558e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.46071e-03\tAbsError: 1.74923e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.26947e-05\tAbsError: 3.21777e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.49304e-01\tAbsError: 1.80910e+15\n", - " Region: \"zone_1\"\tRelError: 4.17844e-02\tAbsError: 2.45403e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.10777e-02\tAbsError: 3.29923e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.06706e-04\tAbsError: 2.45073e-01\n", - " Region: \"zone_3\"\tRelError: 1.07520e-01\tAbsError: 1.80910e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.01149e-02\tAbsError: 8.96543e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.60138e-02\tAbsError: 9.12557e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.06845e-02\tAbsError: 3.29923e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.06706e-04\tAbsError: 2.45073e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 3.13427e-02\tAbsError: 1.62210e+13\n", - " Region: \"zone_1\"\tRelError: 1.73710e-02\tAbsError: 1.21679e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.73676e-02\tAbsError: 1.36050e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.46587e-06\tAbsError: 1.20318e-03\n", - " Region: \"zone_3\"\tRelError: 1.39717e-02\tAbsError: 1.62210e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.19687e-03\tAbsError: 6.47584e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.09668e-03\tAbsError: 9.74512e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16747e-02\tAbsError: 1.39577e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.46587e-06\tAbsError: 1.20318e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.37718e-01\tAbsError: 3.70307e+14\n", - " Region: \"zone_1\"\tRelError: 9.30668e-02\tAbsError: 1.58018e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.30214e-02\tAbsError: 6.99005e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.53632e-05\tAbsError: 1.57319e-02\n", - " Region: \"zone_3\"\tRelError: 1.44651e-01\tAbsError: 3.70307e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.23209e-03\tAbsError: 1.87637e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.12058e-03\tAbsError: 1.82670e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.34253e-01\tAbsError: 7.30395e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.53632e-05\tAbsError: 1.57319e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.53065e-03\tAbsError: 7.24481e+11\n", - " Region: \"zone_1\"\tRelError: 1.49459e-03\tAbsError: 1.07639e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49149e-03\tAbsError: 6.55190e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.09641e-06\tAbsError: 1.07573e-03\n", - " Region: \"zone_3\"\tRelError: 1.03606e-03\tAbsError: 7.24481e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.73129e-05\tAbsError: 2.45596e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.81580e-05\tAbsError: 4.78885e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 9.37490e-04\tAbsError: 6.76708e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.09642e-06\tAbsError: 1.07576e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.06829e-02\tAbsError: 3.05635e+13\n", - " Region: \"zone_1\"\tRelError: 1.22718e-02\tAbsError: 7.18985e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.22511e-02\tAbsError: 5.44565e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.07168e-05\tAbsError: 7.18441e-03\n", - " Region: \"zone_3\"\tRelError: 1.84111e-02\tAbsError: 3.05635e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.29967e-04\tAbsError: 1.55164e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.34908e-04\tAbsError: 1.50471e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.75255e-02\tAbsError: 5.93302e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.07242e-05\tAbsError: 7.18712e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.69038e-03\tAbsError: 1.04370e+12\n", - " Region: \"zone_1\"\tRelError: 1.58975e-03\tAbsError: 1.04879e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.58945e-03\tAbsError: 5.38488e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.00336e-07\tAbsError: 1.04341e-04\n", - " Region: \"zone_3\"\tRelError: 1.10063e-03\tAbsError: 1.04370e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.23814e-05\tAbsError: 5.26651e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.22994e-05\tAbsError: 5.17045e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 9.95649e-04\tAbsError: 5.63224e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.00360e-07\tAbsError: 1.04351e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.86421e-02\tAbsError: 1.70748e+13\n", - " Region: \"zone_1\"\tRelError: 7.47202e-03\tAbsError: 9.61059e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.46926e-03\tAbsError: 2.58943e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.76244e-06\tAbsError: 9.58470e-04\n", - " Region: \"zone_3\"\tRelError: 1.11701e-02\tAbsError: 1.70748e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.42677e-04\tAbsError: 8.65778e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.38187e-04\tAbsError: 8.41703e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06865e-02\tAbsError: 2.88374e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.76358e-06\tAbsError: 9.58882e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.67954e-04\tAbsError: 1.01821e+11\n", - " Region: \"zone_1\"\tRelError: 2.21136e-04\tAbsError: 6.97280e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 2.20936e-04\tAbsError: 5.57180e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.00534e-07\tAbsError: 6.96723e-05\n", - " Region: \"zone_3\"\tRelError: 1.46817e-04\tAbsError: 1.01821e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.39462e-06\tAbsError: 5.27392e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.41727e-06\tAbsError: 4.90816e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35805e-04\tAbsError: 5.79583e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.00607e-07\tAbsError: 6.96980e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.17252e-03\tAbsError: 2.39421e+12\n", - " Region: \"zone_1\"\tRelError: 1.27830e-03\tAbsError: 4.41120e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.27703e-03\tAbsError: 3.52817e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26752e-06\tAbsError: 4.40767e-04\n", - " Region: \"zone_3\"\tRelError: 1.89422e-03\tAbsError: 2.39421e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.41609e-05\tAbsError: 1.21178e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.35709e-05\tAbsError: 1.18243e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.82522e-03\tAbsError: 3.85960e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26800e-06\tAbsError: 4.40936e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.02562e-04\tAbsError: 6.84436e+10\n", - " Region: \"zone_1\"\tRelError: 1.21040e-04\tAbsError: 1.06970e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.21010e-04\tAbsError: 3.27450e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.06942e-08\tAbsError: 1.06642e-05\n", - " Region: \"zone_3\"\tRelError: 8.15214e-05\tAbsError: 6.84436e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.33271e-06\tAbsError: 3.86456e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.32148e-06\tAbsError: 2.97979e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.48365e-05\tAbsError: 3.43670e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.07019e-08\tAbsError: 1.06669e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.32904e-03\tAbsError: 1.04115e+12\n", - " Region: \"zone_1\"\tRelError: 5.35241e-04\tAbsError: 8.15222e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.35007e-04\tAbsError: 1.45533e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.34015e-07\tAbsError: 8.13766e-05\n", - " Region: \"zone_3\"\tRelError: 7.93795e-04\tAbsError: 1.04115e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.48691e-05\tAbsError: 5.27432e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.45106e-05\tAbsError: 5.13716e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 7.64181e-04\tAbsError: 1.65639e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.34109e-07\tAbsError: 8.14107e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.67619e-05\tAbsError: 1.02422e+10\n", - " Region: \"zone_1\"\tRelError: 2.21445e-05\tAbsError: 4.91320e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.21303e-05\tAbsError: 5.33976e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41260e-08\tAbsError: 4.90786e-06\n", - " Region: \"zone_3\"\tRelError: 1.46175e-05\tAbsError: 1.02422e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.20200e-07\tAbsError: 5.93794e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.20801e-07\tAbsError: 4.30423e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35623e-05\tAbsError: 5.58038e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.41284e-08\tAbsError: 4.90869e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:42\u001b[0m.\u001b[1;36m989\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.7\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.69383e-04\tAbsError: 1.90424e+11\n", - " Region: \"zone_1\"\tRelError: 1.08741e-04\tAbsError: 3.06906e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08652e-04\tAbsError: 2.81501e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.81753e-08\tAbsError: 3.06624e-05\n", - " Region: \"zone_3\"\tRelError: 1.60642e-04\tAbsError: 1.90424e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.72095e-06\tAbsError: 9.63082e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.66101e-06\tAbsError: 9.41161e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55172e-04\tAbsError: 3.17766e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.82093e-08\tAbsError: 3.06751e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 9.38488e-05\tAbsError: 6.84833e+10\n", - " Region: \"zone_1\"\tRelError: 3.78678e-05\tAbsError: 6.55657e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.78490e-05\tAbsError: 1.02277e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.88252e-08\tAbsError: 6.54634e-06\n", - " Region: \"zone_3\"\tRelError: 5.59810e-05\tAbsError: 6.84833e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.79292e-07\tAbsError: 3.46701e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.53325e-07\tAbsError: 3.38132e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 5.40295e-05\tAbsError: 1.16112e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.88326e-08\tAbsError: 6.54910e-06\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.11982e+00\tAbsError: 2.71568e+16\n", - " Region: \"zone_1\"\tRelError: 3.35178e+00\tAbsError: 4.09552e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.35178e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.75560e-09\tAbsError: 9.57391e-07\n", - " Region: \"zone_3\"\tRelError: 1.76804e+00\tAbsError: 2.71568e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68907e-01\tAbsError: 1.36090e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.68433e-01\tAbsError: 1.35478e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.30705e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.75592e-09\tAbsError: 9.57503e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:44\u001b[0m.\u001b[1;36m274\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:44\u001b[0m.\u001b[1;36m274\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.8318181818181818\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.73275e+00\tAbsError: 2.68838e+16\n", - " Region: \"zone_1\"\tRelError: 1.92080e-01\tAbsError: 1.46306e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.91747e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.32681e-04\tAbsError: 1.15542e-01\n", - " Region: \"zone_3\"\tRelError: 1.54067e+00\tAbsError: 2.68838e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.36324e-01\tAbsError: 1.35736e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.01335e-01\tAbsError: 1.33102e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.02681e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.32681e-04\tAbsError: 1.15542e-01\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 6.26409e+01\tAbsError: 2.06464e+17\n", - " Region: \"zone_1\"\tRelError: 5.29122e+01\tAbsError: 4.18750e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.29122e+01\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.18828e-09\tAbsError: 2.15194e-06\n", - " Region: \"zone_3\"\tRelError: 9.72871e+00\tAbsError: 2.06464e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.68786e-01\tAbsError: 1.04673e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.64901e-01\tAbsError: 1.01791e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 8.19502e+00\tAbsError: 4.18729e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.19085e-09\tAbsError: 2.15289e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.12307e+00\tAbsError: 1.60442e+16\n", - " Region: \"zone_1\"\tRelError: 1.49907e-01\tAbsError: 9.31426e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49713e-01\tAbsError: 2.58569e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93773e-04\tAbsError: 6.72856e-02\n", - " Region: \"zone_3\"\tRelError: 9.73164e-01\tAbsError: 1.60442e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.39500e-01\tAbsError: 8.04160e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.83757e-01\tAbsError: 8.00261e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49713e-01\tAbsError: 2.43087e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.93773e-04\tAbsError: 6.72856e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 1.35511e+01\tAbsError: 2.00721e+17\n", - " Region: \"zone_1\"\tRelError: 9.05776e+00\tAbsError: 3.17953e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 9.05694e+00\tAbsError: 3.18460e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.25235e-04\tAbsError: 2.86107e-01\n", - " Region: \"zone_3\"\tRelError: 4.49330e+00\tAbsError: 2.00721e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.18665e-01\tAbsError: 1.00830e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.48184e-01\tAbsError: 9.98909e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.22562e+00\tAbsError: 3.18461e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.25235e-04\tAbsError: 2.86107e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.25010e-01\tAbsError: 4.83168e+15\n", - " Region: \"zone_1\"\tRelError: 9.35029e-02\tAbsError: 6.02167e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.33558e-02\tAbsError: 9.16529e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47066e-04\tAbsError: 5.10514e-02\n", - " Region: \"zone_3\"\tRelError: 3.31507e-01\tAbsError: 4.83168e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.74852e-01\tAbsError: 2.44485e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.96161e-02\tAbsError: 2.38683e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.68922e-02\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.47066e-04\tAbsError: 5.10514e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.64600e+01\tAbsError: 1.09755e+17\n", - " Region: \"zone_1\"\tRelError: 8.60535e+00\tAbsError: 7.85504e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.60519e+00\tAbsError: 2.58355e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.51895e-04\tAbsError: 5.27150e-02\n", - " Region: \"zone_3\"\tRelError: 7.85464e+00\tAbsError: 1.09755e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.72183e-01\tAbsError: 5.54608e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.84598e-01\tAbsError: 5.42941e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 7.19770e+00\tAbsError: 2.58833e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.51931e-04\tAbsError: 5.27291e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.30868e-01\tAbsError: 1.08442e+15\n", - " Region: \"zone_1\"\tRelError: 2.27753e-02\tAbsError: 2.15920e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.21537e-02\tAbsError: 2.84606e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.21607e-04\tAbsError: 2.15635e-01\n", - " Region: \"zone_3\"\tRelError: 1.08092e-01\tAbsError: 1.08442e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.76472e-02\tAbsError: 4.26455e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.43864e-02\tAbsError: 6.57964e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 4.54371e-02\tAbsError: 2.84606e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.21607e-04\tAbsError: 2.15635e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.39576e+01\tAbsError: 2.65299e+16\n", - " Region: \"zone_1\"\tRelError: 4.26722e+00\tAbsError: 2.88514e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.26642e+00\tAbsError: 1.05207e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.02275e-04\tAbsError: 2.77993e-01\n", - " Region: \"zone_3\"\tRelError: 9.69036e+00\tAbsError: 2.65299e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.08928e-01\tAbsError: 1.33171e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.65693e-02\tAbsError: 1.32128e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 9.53406e+00\tAbsError: 1.05209e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.02275e-04\tAbsError: 2.77993e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.55617e-01\tAbsError: 2.35794e+14\n", - " Region: \"zone_1\"\tRelError: 4.99367e-02\tAbsError: 1.38607e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 4.98970e-02\tAbsError: 6.98741e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.97528e-05\tAbsError: 1.37908e-02\n", - " Region: \"zone_3\"\tRelError: 1.05680e-01\tAbsError: 2.35794e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.27300e-03\tAbsError: 1.18548e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.21148e-03\tAbsError: 1.17246e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.51557e-02\tAbsError: 7.06637e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.97528e-05\tAbsError: 1.37908e-02\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.42859e+00\tAbsError: 2.49911e+15\n", - " Region: \"zone_1\"\tRelError: 5.91891e-01\tAbsError: 3.18861e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.91799e-01\tAbsError: 5.49238e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.17909e-05\tAbsError: 3.18312e-02\n", - " Region: \"zone_3\"\tRelError: 8.36703e-01\tAbsError: 2.49911e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.54401e-02\tAbsError: 1.28918e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.49463e-03\tAbsError: 1.20992e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 8.18676e-01\tAbsError: 5.54292e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.19256e-05\tAbsError: 3.18774e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.12114e-02\tAbsError: 1.98754e+13\n", - " Region: \"zone_1\"\tRelError: 7.04172e-03\tAbsError: 6.58751e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.02275e-03\tAbsError: 5.51750e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.89733e-05\tAbsError: 6.58199e-03\n", - " Region: \"zone_3\"\tRelError: 1.41697e-02\tAbsError: 1.98754e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.43525e-04\tAbsError: 1.00008e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.47254e-04\tAbsError: 9.87467e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.32599e-02\tAbsError: 5.78756e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.89775e-05\tAbsError: 6.58354e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.80948e-02\tAbsError: 9.31122e+13\n", - " Region: \"zone_1\"\tRelError: 2.56313e-02\tAbsError: 4.95623e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.56170e-02\tAbsError: 7.64802e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42800e-05\tAbsError: 4.94858e-03\n", - " Region: \"zone_3\"\tRelError: 2.46352e-03\tAbsError: 9.31122e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.46073e-04\tAbsError: 4.55140e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.72001e-04\tAbsError: 4.75982e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.93116e-03\tAbsError: 7.70864e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42820e-05\tAbsError: 4.94922e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.24258e-02\tAbsError: 1.10918e+13\n", - " Region: \"zone_1\"\tRelError: 4.12899e-03\tAbsError: 9.16825e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.12635e-03\tAbsError: 2.69238e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.63359e-06\tAbsError: 9.14133e-04\n", - " Region: \"zone_3\"\tRelError: 8.29681e-03\tAbsError: 1.10918e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.48339e-04\tAbsError: 5.58229e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.46113e-04\tAbsError: 5.50951e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.79972e-03\tAbsError: 2.89698e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.63458e-06\tAbsError: 9.14508e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.25345e-02\tAbsError: 3.21244e+13\n", - " Region: \"zone_1\"\tRelError: 3.04273e-02\tAbsError: 6.71597e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.04254e-02\tAbsError: 1.30196e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.92861e-06\tAbsError: 6.70295e-04\n", - " Region: \"zone_3\"\tRelError: 4.21072e-02\tAbsError: 3.21244e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.48791e-05\tAbsError: 1.57862e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.89246e-05\tAbsError: 1.63382e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.19414e-02\tAbsError: 1.31464e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.92951e-06\tAbsError: 6.70605e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.18008e-03\tAbsError: 1.59787e+12\n", - " Region: \"zone_1\"\tRelError: 7.30404e-04\tAbsError: 4.14536e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.29211e-04\tAbsError: 3.64518e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19313e-06\tAbsError: 4.14171e-04\n", - " Region: \"zone_3\"\tRelError: 1.44968e-03\tAbsError: 1.59787e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.59026e-05\tAbsError: 8.02763e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.55751e-05\tAbsError: 7.95108e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37700e-03\tAbsError: 3.97752e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.19336e-06\tAbsError: 4.14251e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.17447e-03\tAbsError: 2.58043e+12\n", - " Region: \"zone_1\"\tRelError: 7.71621e-04\tAbsError: 2.66830e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 7.70854e-04\tAbsError: 2.10775e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.67206e-07\tAbsError: 2.66619e-04\n", - " Region: \"zone_3\"\tRelError: 4.02848e-04\tAbsError: 2.58043e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.32310e-06\tAbsError: 1.26387e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.42751e-06\tAbsError: 1.31656e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 3.85330e-04\tAbsError: 2.12566e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.67527e-07\tAbsError: 2.66734e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 9.04358e-04\tAbsError: 6.91618e+11\n", - " Region: \"zone_1\"\tRelError: 3.02587e-04\tAbsError: 7.78938e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 3.02363e-04\tAbsError: 1.55785e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.23501e-07\tAbsError: 7.77380e-05\n", - " Region: \"zone_3\"\tRelError: 6.01772e-04\tAbsError: 6.91618e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.55559e-05\tAbsError: 3.47877e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.53466e-05\tAbsError: 3.43741e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.70646e-04\tAbsError: 1.69595e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.23586e-07\tAbsError: 7.77681e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 4.12184e-03\tAbsError: 1.62887e+12\n", - " Region: \"zone_1\"\tRelError: 1.73087e-03\tAbsError: 1.53873e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.73082e-03\tAbsError: 7.35260e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.40606e-08\tAbsError: 1.53138e-05\n", - " Region: \"zone_3\"\tRelError: 2.39098e-03\tAbsError: 1.62887e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.33503e-06\tAbsError: 8.01201e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.97355e-06\tAbsError: 8.27667e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 2.38262e-03\tAbsError: 7.42067e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.40835e-08\tAbsError: 1.53217e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.87260e-04\tAbsError: 1.29403e+11\n", - " Region: \"zone_1\"\tRelError: 6.28801e-05\tAbsError: 2.91909e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.27963e-05\tAbsError: 3.06059e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.38368e-08\tAbsError: 2.91603e-05\n", - " Region: \"zone_3\"\tRelError: 1.24379e-04\tAbsError: 1.29403e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91169e-06\tAbsError: 6.49895e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.87741e-06\tAbsError: 6.44135e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.18506e-04\tAbsError: 3.32307e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.38700e-08\tAbsError: 2.91722e-05\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.79168e-04\tAbsError: 3.20906e+10\n", - " Region: \"zone_1\"\tRelError: 7.55189e-05\tAbsError: 1.50080e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 7.54758e-05\tAbsError: 4.46211e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.31734e-08\tAbsError: 1.50036e-05\n", - " Region: \"zone_3\"\tRelError: 1.03649e-04\tAbsError: 3.20906e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.07218e-07\tAbsError: 1.57169e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.64373e-07\tAbsError: 1.63737e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03134e-04\tAbsError: 4.49804e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.31912e-08\tAbsError: 1.50100e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 6.51617e-05\tAbsError: 4.65398e+10\n", - " Region: \"zone_1\"\tRelError: 2.18609e-05\tAbsError: 6.36014e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 2.18427e-05\tAbsError: 1.11819e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.82534e-08\tAbsError: 6.34896e-06\n", - " Region: \"zone_3\"\tRelError: 4.33008e-05\tAbsError: 4.65398e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04809e-06\tAbsError: 2.33986e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.03254e-06\tAbsError: 2.31412e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.12019e-05\tAbsError: 1.20844e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.82605e-08\tAbsError: 6.35150e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:55\u001b[0m.\u001b[1;36m272\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.7999999999999999\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.38551e-04\tAbsError: 8.98512e+10\n", - " Region: \"zone_1\"\tRelError: 1.00201e-04\tAbsError: 8.19631e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00199e-04\tAbsError: 4.20573e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.34630e-09\tAbsError: 8.15425e-07\n", - " Region: \"zone_3\"\tRelError: 1.38350e-04\tAbsError: 8.98512e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.38157e-07\tAbsError: 4.42059e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.17525e-07\tAbsError: 4.56453e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37892e-04\tAbsError: 4.24388e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.34751e-09\tAbsError: 8.15869e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.97502e+01\tAbsError: 1.32808e+17\n", - " Region: \"zone_1\"\tRelError: 2.76074e+01\tAbsError: 4.09563e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.76074e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.00798e-09\tAbsError: 2.08971e-06\n", - " Region: \"zone_3\"\tRelError: 2.14284e+00\tAbsError: 1.32808e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.64512e-01\tAbsError: 6.68287e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.62033e-01\tAbsError: 6.59795e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.16298e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.01029e-09\tAbsError: 2.09057e-06\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 2.07212e-05\tAbsError: 3.92078e+09\n", - " Region: \"zone_1\"\tRelError: 8.71999e-06\tAbsError: 8.80168e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 8.71745e-06\tAbsError: 3.03329e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.53184e-09\tAbsError: 8.79864e-07\n", - " Region: \"zone_3\"\tRelError: 1.20013e-05\tAbsError: 3.92078e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.24810e-09\tAbsError: 1.93525e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.55241e-08\tAbsError: 1.98553e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19739e-05\tAbsError: 3.05503e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.53289e-09\tAbsError: 8.80250e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:56\u001b[0m.\u001b[1;36m825\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:41:56\u001b[0m.\u001b[1;36m825\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m0.9363636363636363\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 8.61535e+00\tAbsError: 1.17905e+17\n", - " Region: \"zone_1\"\tRelError: 7.44285e-01\tAbsError: 3.38569e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 7.43397e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.87545e-04\tAbsError: 3.07806e-01\n", - " Region: \"zone_3\"\tRelError: 7.87107e+00\tAbsError: 1.17905e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.17750e-01\tAbsError: 5.81639e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.67341e-01\tAbsError: 5.97408e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.58509e+00\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.87924e-04\tAbsError: 3.07944e-01\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.48867e+01\tAbsError: 8.69121e+17\n", - " Region: \"zone_1\"\tRelError: 1.65971e+01\tAbsError: 4.18727e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65971e+01\tAbsError: 4.18726e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.60155e-10\tAbsError: 9.04112e-08\n", - " Region: \"zone_3\"\tRelError: 1.82897e+01\tAbsError: 8.69121e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.24787e-01\tAbsError: 4.24939e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.05667e-01\tAbsError: 4.44182e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.68592e+01\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.60276e-10\tAbsError: 9.04544e-08\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 6.05251e+00\tAbsError: 7.12298e+16\n", - " Region: \"zone_1\"\tRelError: 9.54106e-01\tAbsError: 5.37894e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 9.54025e-01\tAbsError: 2.58886e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.04593e-05\tAbsError: 2.79009e-02\n", - " Region: \"zone_3\"\tRelError: 5.09841e+00\tAbsError: 7.12298e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.89784e-01\tAbsError: 3.67872e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.99659e-01\tAbsError: 3.44425e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 4.40888e+00\tAbsError: 2.58912e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.04593e-05\tAbsError: 2.79009e-02\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.50101e+01\tAbsError: 4.92774e+17\n", - " Region: \"zone_1\"\tRelError: 2.38889e+01\tAbsError: 8.39239e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.38866e+01\tAbsError: 3.18457e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.32486e-03\tAbsError: 8.07393e-01\n", - " Region: \"zone_3\"\tRelError: 1.11212e+01\tAbsError: 4.92774e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.97767e-01\tAbsError: 2.47241e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.70128e-01\tAbsError: 2.45533e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.01510e+01\tAbsError: 3.18461e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.32553e-03\tAbsError: 8.07646e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.96439e+00\tAbsError: 2.12374e+16\n", - " Region: \"zone_1\"\tRelError: 1.45967e+00\tAbsError: 2.87618e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.45886e+00\tAbsError: 9.16520e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03570e-04\tAbsError: 2.78453e-01\n", - " Region: \"zone_3\"\tRelError: 2.50473e+00\tAbsError: 2.12374e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.31487e-01\tAbsError: 1.07624e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.30649e-02\tAbsError: 1.04749e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 2.30937e+00\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.03570e-04\tAbsError: 2.78453e-01\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.35926e+03\tAbsError: 1.05438e+17\n", - " Region: \"zone_1\"\tRelError: 2.03313e+03\tAbsError: 2.96967e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03313e+03\tAbsError: 2.58401e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.81226e-04\tAbsError: 2.71127e-01\n", - " Region: \"zone_3\"\tRelError: 3.26125e+02\tAbsError: 1.05438e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.89823e-01\tAbsError: 5.29897e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.07843e-01\tAbsError: 5.24486e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.25827e+02\tAbsError: 2.58968e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.84277e-04\tAbsError: 2.72186e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.06736e+00\tAbsError: 1.67079e+15\n", - " Region: \"zone_1\"\tRelError: 1.87002e-01\tAbsError: 2.94468e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.86917e-01\tAbsError: 5.45669e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.47563e-05\tAbsError: 2.93922e-02\n", - " Region: \"zone_3\"\tRelError: 1.88036e+00\tAbsError: 1.67079e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95806e-02\tAbsError: 8.61655e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.32450e-03\tAbsError: 8.09135e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.85737e+00\tAbsError: 5.47236e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.50770e-05\tAbsError: 2.95046e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 2.39810e+03\tAbsError: 8.38928e+15\n", - " Region: \"zone_1\"\tRelError: 1.19903e+03\tAbsError: 3.97682e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19903e+03\tAbsError: 1.05203e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11056e-03\tAbsError: 3.87162e-01\n", - " Region: \"zone_3\"\tRelError: 1.19907e+03\tAbsError: 8.38928e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.91275e-02\tAbsError: 4.21388e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.23084e-02\tAbsError: 4.17540e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19903e+03\tAbsError: 1.05209e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.11347e-03\tAbsError: 3.88174e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.99757e-02\tAbsError: 6.03219e+13\n", - " Region: \"zone_1\"\tRelError: 5.28092e-03\tAbsError: 6.07421e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 5.26342e-03\tAbsError: 6.43272e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75062e-05\tAbsError: 6.06778e-03\n", - " Region: \"zone_3\"\tRelError: 2.46948e-02\tAbsError: 6.03219e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.52421e-04\tAbsError: 2.92320e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.21852e-04\tAbsError: 3.10899e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.41030e-02\tAbsError: 6.47112e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.75095e-05\tAbsError: 6.06885e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 5.74169e+00\tAbsError: 3.25633e+15\n", - " Region: \"zone_1\"\tRelError: 4.07651e+00\tAbsError: 5.82288e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.07484e+00\tAbsError: 1.78290e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67256e-03\tAbsError: 5.82110e-01\n", - " Region: \"zone_3\"\tRelError: 1.66518e+00\tAbsError: 3.25633e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.05814e-02\tAbsError: 1.48807e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.36399e-03\tAbsError: 1.76827e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.65055e+00\tAbsError: 1.80419e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.67601e-03\tAbsError: 5.83306e-01\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.10405e-01\tAbsError: 3.12560e+13\n", - " Region: \"zone_1\"\tRelError: 1.08840e-02\tAbsError: 4.61195e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08827e-02\tAbsError: 1.71511e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32204e-06\tAbsError: 4.59479e-04\n", - " Region: \"zone_3\"\tRelError: 9.95213e-02\tAbsError: 3.12560e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.34947e-04\tAbsError: 1.52362e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.27748e-04\tAbsError: 1.60198e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 9.92573e-02\tAbsError: 1.72813e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.32271e-06\tAbsError: 4.59705e-04\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.39772e+01\tAbsError: 2.88783e+15\n", - " Region: \"zone_1\"\tRelError: 1.07664e+01\tAbsError: 3.55558e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07663e+01\tAbsError: 1.67865e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.01653e-04\tAbsError: 3.53879e-02\n", - " Region: \"zone_3\"\tRelError: 3.21075e+00\tAbsError: 2.88783e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.72695e-03\tAbsError: 1.43653e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.01817e-03\tAbsError: 1.45130e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 3.20390e+00\tAbsError: 1.69327e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.01695e-04\tAbsError: 3.54018e-02\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 4.63047e-03\tAbsError: 9.09027e+11\n", - " Region: \"zone_1\"\tRelError: 4.56990e-04\tAbsError: 3.44629e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.55999e-04\tAbsError: 1.41300e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.91190e-07\tAbsError: 3.44488e-04\n", - " Region: \"zone_3\"\tRelError: 4.17348e-03\tAbsError: 9.09027e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.33335e-06\tAbsError: 4.38047e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.02288e-05\tAbsError: 4.70980e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 4.15793e-03\tAbsError: 1.42246e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.91601e-07\tAbsError: 3.44637e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.54985e+00\tAbsError: 2.55969e+14\n", - " Region: \"zone_1\"\tRelError: 3.36029e+00\tAbsError: 2.26869e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.36022e+00\tAbsError: 1.18562e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.51403e-05\tAbsError: 2.26750e-02\n", - " Region: \"zone_3\"\tRelError: 1.89556e-01\tAbsError: 2.55969e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.34677e-04\tAbsError: 1.27496e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.19133e-04\tAbsError: 1.28473e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.88537e-01\tAbsError: 1.19493e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.51674e-05\tAbsError: 2.26844e-02\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 6.49771e-03\tAbsError: 1.64940e+12\n", - " Region: \"zone_1\"\tRelError: 6.42053e-04\tAbsError: 1.77929e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.42002e-04\tAbsError: 9.99896e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.09050e-08\tAbsError: 1.76929e-05\n", - " Region: \"zone_3\"\tRelError: 5.85566e-03\tAbsError: 1.64940e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.16109e-06\tAbsError: 8.03293e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.70130e-06\tAbsError: 8.46106e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.84174e-03\tAbsError: 1.00703e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.09341e-08\tAbsError: 1.77035e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 7.69184e-01\tAbsError: 1.54336e+14\n", - " Region: \"zone_1\"\tRelError: 6.51898e-01\tAbsError: 2.46820e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.51891e-01\tAbsError: 6.67604e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.08303e-06\tAbsError: 2.46152e-03\n", - " Region: \"zone_3\"\tRelError: 1.17286e-01\tAbsError: 1.54336e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.86365e-04\tAbsError: 7.68336e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.04654e-04\tAbsError: 7.75022e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.16988e-01\tAbsError: 6.73289e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.08303e-06\tAbsError: 2.46238e-03\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 5.44825e-04\tAbsError: 5.87780e+10\n", - " Region: \"zone_1\"\tRelError: 5.39394e-05\tAbsError: 2.02429e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.38812e-05\tAbsError: 6.87611e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.82246e-08\tAbsError: 2.02360e-05\n", - " Region: \"zone_3\"\tRelError: 4.90886e-04\tAbsError: 5.87780e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.46411e-07\tAbsError: 2.85251e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.30809e-07\tAbsError: 3.02529e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 4.90250e-04\tAbsError: 6.91269e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.82487e-08\tAbsError: 2.02448e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.01432e-01\tAbsError: 2.06717e+13\n", - " Region: \"zone_1\"\tRelError: 8.22439e-02\tAbsError: 1.10802e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 8.22407e-02\tAbsError: 7.73664e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.18996e-06\tAbsError: 1.10725e-03\n", - " Region: \"zone_3\"\tRelError: 1.91883e-02\tAbsError: 2.06717e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.30941e-05\tAbsError: 1.02983e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.90681e-05\tAbsError: 1.03734e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.91229e-02\tAbsError: 7.79971e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.19006e-06\tAbsError: 1.10725e-03\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.92595e-04\tAbsError: 9.49473e+10\n", - " Region: \"zone_1\"\tRelError: 3.87978e-05\tAbsError: 2.02444e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.87920e-05\tAbsError: 5.96621e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.80757e-09\tAbsError: 2.01847e-06\n", - " Region: \"zone_3\"\tRelError: 3.53797e-04\tAbsError: 9.49473e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.10989e-07\tAbsError: 4.62323e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.83783e-07\tAbsError: 4.87150e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.52997e-04\tAbsError: 6.00786e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.81025e-09\tAbsError: 2.01944e-06\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 4.02759e-02\tAbsError: 9.07693e+12\n", - " Region: \"zone_1\"\tRelError: 3.24485e-02\tAbsError: 1.93405e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 3.24480e-02\tAbsError: 3.17337e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.55164e-07\tAbsError: 1.93088e-04\n", - " Region: \"zone_3\"\tRelError: 7.82740e-03\tAbsError: 9.07693e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.61255e-06\tAbsError: 4.52137e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.67188e-06\tAbsError: 4.55556e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 7.80956e-03\tAbsError: 3.20002e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.55372e-07\tAbsError: 1.93161e-04\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 5.03275e-05\tAbsError: 9.08763e+09\n", - " Region: \"zone_1\"\tRelError: 4.97773e-06\tAbsError: 1.23989e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.97416e-06\tAbsError: 6.85123e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.56554e-09\tAbsError: 1.23921e-06\n", - " Region: \"zone_3\"\tRelError: 4.53497e-05\tAbsError: 9.08763e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.78500e-08\tAbsError: 4.42118e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.59273e-08\tAbsError: 4.66645e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 4.52724e-05\tAbsError: 6.89457e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.56702e-09\tAbsError: 1.23975e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:42:07\u001b[0m.\u001b[1;36m715\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.8999999999999999\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 6.82510e-03\tAbsError: 1.57093e+12\n", - " Region: \"zone_1\"\tRelError: 5.21350e-03\tAbsError: 7.21717e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.21329e-03\tAbsError: 5.21383e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.07357e-07\tAbsError: 7.21195e-05\n", - " Region: \"zone_3\"\tRelError: 1.61160e-03\tAbsError: 1.57093e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.85877e-06\tAbsError: 7.82787e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.31443e-06\tAbsError: 7.88140e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.60722e-03\tAbsError: 5.26937e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.07435e-07\tAbsError: 7.21474e-05\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 5.75731e+01\tAbsError: 5.68784e+17\n", - " Region: \"zone_1\"\tRelError: 3.83859e+01\tAbsError: 4.09543e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.83859e+01\tAbsError: 4.09541e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.16236e-10\tAbsError: 1.79418e-07\n", - " Region: \"zone_3\"\tRelError: 1.91873e+01\tAbsError: 5.68784e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.35377e-01\tAbsError: 2.75826e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.22188e-01\tAbsError: 2.92959e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.77297e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.16460e-10\tAbsError: 1.79501e-07\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 2.34680e-03\tAbsError: 5.70100e+11\n", - " Region: \"zone_1\"\tRelError: 1.79139e-03\tAbsError: 1.51124e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.79135e-03\tAbsError: 1.85167e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.33973e-08\tAbsError: 1.50939e-05\n", - " Region: \"zone_3\"\tRelError: 5.55408e-04\tAbsError: 5.70100e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.68877e-07\tAbsError: 2.84063e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.69915e-07\tAbsError: 2.86037e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.54226e-04\tAbsError: 1.87202e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.34137e-08\tAbsError: 1.51000e-05\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 4.73793e-04\tAbsError: 1.15623e+11\n", - " Region: \"zone_1\"\tRelError: 3.50083e-04\tAbsError: 4.95174e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.50068e-04\tAbsError: 4.03930e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42254e-08\tAbsError: 4.94770e-06\n", - " Region: \"zone_3\"\tRelError: 1.23711e-04\tAbsError: 1.15623e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.13155e-07\tAbsError: 5.76217e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.72856e-07\tAbsError: 5.80008e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.23410e-04\tAbsError: 4.08249e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42309e-08\tAbsError: 4.94974e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.10779e+01\tAbsError: 4.06443e+17\n", - " Region: \"zone_1\"\tRelError: 1.97168e+01\tAbsError: 4.69738e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.97155e+01\tAbsError: 3.07629e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26517e-03\tAbsError: 4.38975e-01\n", - " Region: \"zone_3\"\tRelError: 1.13612e+01\tAbsError: 4.06443e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.26663e-01\tAbsError: 2.03016e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.10593e-01\tAbsError: 2.03427e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03227e+01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26614e-03\tAbsError: 4.39294e-01\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 1.47757e-04\tAbsError: 3.73129e+10\n", - " Region: \"zone_1\"\tRelError: 1.09182e-04\tAbsError: 1.12329e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09178e-04\tAbsError: 1.28385e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.22595e-09\tAbsError: 1.12201e-06\n", - " Region: \"zone_3\"\tRelError: 3.85756e-05\tAbsError: 3.73129e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.96287e-08\tAbsError: 1.85947e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.85050e-08\tAbsError: 1.87182e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.84943e-05\tAbsError: 1.29789e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.22727e-09\tAbsError: 1.12250e-06\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 4.48960e+02\tAbsError: 9.69691e+16\n", - " Region: \"zone_1\"\tRelError: 4.44741e+02\tAbsError: 1.46848e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 4.44741e+02\tAbsError: 2.58943e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.47880e-04\tAbsError: 1.20954e-01\n", - " Region: \"zone_3\"\tRelError: 4.21888e+00\tAbsError: 9.69691e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.30659e-01\tAbsError: 4.85459e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.34310e-01\tAbsError: 4.84232e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.85356e+00\tAbsError: 2.58906e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.48053e-04\tAbsError: 1.21009e-01\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 3.31804e-05\tAbsError: 8.35153e+09\n", - " Region: \"zone_1\"\tRelError: 2.40833e-05\tAbsError: 3.39599e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.40823e-05\tAbsError: 2.98627e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.75541e-10\tAbsError: 3.39301e-07\n", - " Region: \"zone_3\"\tRelError: 9.09711e-06\tAbsError: 8.35153e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.30953e-09\tAbsError: 4.16234e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.24972e-08\tAbsError: 4.18919e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 9.07633e-06\tAbsError: 3.01836e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.75943e-10\tAbsError: 3.39450e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:42:11\u001b[0m.\u001b[1;36m695\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:42:11\u001b[0m.\u001b[1;36m695\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m1.0409090909090908\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 5.03712e+00\tAbsError: 1.21527e+16\n", - " Region: \"zone_1\"\tRelError: 1.00977e+00\tAbsError: 5.07362e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00834e+00\tAbsError: 9.16487e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42992e-03\tAbsError: 4.98197e-01\n", - " Region: \"zone_3\"\tRelError: 4.02736e+00\tAbsError: 1.21527e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.24782e-02\tAbsError: 5.84262e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.44637e-02\tAbsError: 6.31012e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 3.96898e+00\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.43302e-03\tAbsError: 4.99291e-01\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.16228e+03\tAbsError: 1.88827e+18\n", - " Region: \"zone_1\"\tRelError: 1.58051e+03\tAbsError: 4.18725e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.58051e+03\tAbsError: 4.18724e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.33433e-10\tAbsError: 8.11914e-08\n", - " Region: \"zone_3\"\tRelError: 1.58177e+03\tAbsError: 1.88827e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.44099e-01\tAbsError: 9.40408e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.21680e-01\tAbsError: 9.47859e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.58051e+03\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.33530e-10\tAbsError: 8.12262e-08\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.22708e-01\tAbsError: 3.87768e+15\n", - " Region: \"zone_1\"\tRelError: 1.91968e-01\tAbsError: 6.75386e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.90026e-01\tAbsError: 2.52604e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94152e-03\tAbsError: 6.75134e-01\n", - " Region: \"zone_3\"\tRelError: 7.30741e-01\tAbsError: 3.87768e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.56619e-03\tAbsError: 1.77246e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.53274e-03\tAbsError: 2.10521e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.16698e-01\tAbsError: 2.55458e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.94389e-03\tAbsError: 6.75970e-01\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.55529e+01\tAbsError: 5.53890e+17\n", - " Region: \"zone_1\"\tRelError: 5.41760e+00\tAbsError: 1.57448e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.41318e+00\tAbsError: 3.18453e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.42211e-03\tAbsError: 1.54263e+00\n", - " Region: \"zone_3\"\tRelError: 2.01353e+01\tAbsError: 5.53890e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.41602e-01\tAbsError: 2.77810e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.39263e-01\tAbsError: 2.76080e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.94500e+01\tAbsError: 3.18461e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.42270e-03\tAbsError: 1.54278e+00\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 2.39826e+00\tAbsError: 3.43096e+15\n", - " Region: \"zone_1\"\tRelError: 2.04849e-01\tAbsError: 4.45309e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.04721e-01\tAbsError: 2.05839e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27433e-04\tAbsError: 4.43251e-02\n", - " Region: \"zone_3\"\tRelError: 2.19341e+00\tAbsError: 3.43096e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.46827e-03\tAbsError: 1.70482e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.46042e-03\tAbsError: 1.72614e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.18535e+00\tAbsError: 2.07760e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.27493e-04\tAbsError: 4.43450e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 7.83305e+00\tAbsError: 5.91291e+16\n", - " Region: \"zone_1\"\tRelError: 1.19920e+00\tAbsError: 2.77579e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19136e+00\tAbsError: 2.58851e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.83491e-03\tAbsError: 2.74991e+00\n", - " Region: \"zone_3\"\tRelError: 6.63386e+00\tAbsError: 5.91291e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.76383e-02\tAbsError: 2.96632e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.22448e-02\tAbsError: 2.94659e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 6.48613e+00\tAbsError: 2.58913e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.84346e-03\tAbsError: 2.75299e+00\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 3.26801e-01\tAbsError: 3.21780e+14\n", - " Region: \"zone_1\"\tRelError: 1.55999e-02\tAbsError: 2.70060e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55223e-02\tAbsError: 1.53596e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.76036e-05\tAbsError: 2.69907e-02\n", - " Region: \"zone_3\"\tRelError: 3.11201e-01\tAbsError: 3.21780e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.63679e-04\tAbsError: 1.60119e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.88527e-04\tAbsError: 1.61661e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 3.10171e-01\tAbsError: 1.54896e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.76380e-05\tAbsError: 2.70022e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.82267e+01\tAbsError: 1.87951e+16\n", - " Region: \"zone_1\"\tRelError: 7.24256e-01\tAbsError: 1.62549e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 7.19633e-01\tAbsError: 1.05198e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.62256e-03\tAbsError: 1.61497e+00\n", - " Region: \"zone_3\"\tRelError: 1.75024e+01\tAbsError: 1.87951e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.04520e-02\tAbsError: 9.32017e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.38432e-02\tAbsError: 9.47491e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74635e+01\tAbsError: 1.05209e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.62918e-03\tAbsError: 1.61732e+00\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 2.06749e-01\tAbsError: 1.86094e+14\n", - " Region: \"zone_1\"\tRelError: 8.34420e-03\tAbsError: 3.03935e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 8.33549e-03\tAbsError: 8.31449e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.71533e-06\tAbsError: 3.03103e-03\n", - " Region: \"zone_3\"\tRelError: 1.98405e-01\tAbsError: 1.86094e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.28032e-04\tAbsError: 9.25440e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.88076e-04\tAbsError: 9.35503e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.97980e-01\tAbsError: 8.38945e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.71848e-06\tAbsError: 3.03213e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.42936e+00\tAbsError: 1.70570e+16\n", - " Region: \"zone_1\"\tRelError: 2.60997e-01\tAbsError: 1.59580e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 2.56434e-01\tAbsError: 1.61896e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.56257e-03\tAbsError: 1.59564e+00\n", - " Region: \"zone_3\"\tRelError: 1.16837e+00\tAbsError: 1.70570e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.62388e-02\tAbsError: 8.19423e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.33442e-03\tAbsError: 8.86273e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13323e+00\tAbsError: 1.64968e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.56346e-03\tAbsError: 1.59594e+00\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.88896e-02\tAbsError: 2.58485e+13\n", - " Region: \"zone_1\"\tRelError: 1.63690e-03\tAbsError: 1.31710e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.63310e-03\tAbsError: 9.88963e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.79528e-06\tAbsError: 1.31612e-03\n", - " Region: \"zone_3\"\tRelError: 3.72527e-02\tAbsError: 2.58485e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.09818e-05\tAbsError: 1.28647e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.53496e-05\tAbsError: 1.29838e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.71926e-02\tAbsError: 9.97598e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.79540e-06\tAbsError: 1.31620e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.15862e+00\tAbsError: 9.93947e+15\n", - " Region: \"zone_1\"\tRelError: 1.49341e-01\tAbsError: 6.40088e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49159e-01\tAbsError: 4.15530e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.81803e-04\tAbsError: 6.35932e-02\n", - " Region: \"zone_3\"\tRelError: 1.00928e+00\tAbsError: 9.93947e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.65718e-02\tAbsError: 4.85353e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.35033e-03\tAbsError: 5.08594e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 9.89178e-01\tAbsError: 4.18389e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.81889e-04\tAbsError: 6.36236e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.59304e-02\tAbsError: 1.10975e+13\n", - " Region: \"zone_1\"\tRelError: 6.60647e-04\tAbsError: 2.32906e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.59978e-04\tAbsError: 3.98553e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.68839e-07\tAbsError: 2.32508e-04\n", - " Region: \"zone_3\"\tRelError: 1.52698e-02\tAbsError: 1.10975e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.32236e-05\tAbsError: 5.52234e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.14382e-05\tAbsError: 5.57521e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.52444e-02\tAbsError: 4.02224e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.69094e-07\tAbsError: 2.32596e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.98332e-02\tAbsError: 3.63196e+14\n", - " Region: \"zone_1\"\tRelError: 1.09015e-02\tAbsError: 5.38113e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.07477e-02\tAbsError: 2.10916e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.53806e-04\tAbsError: 5.37902e-02\n", - " Region: \"zone_3\"\tRelError: 6.89316e-02\tAbsError: 3.63196e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.63442e-03\tAbsError: 1.76292e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.28654e-04\tAbsError: 1.86904e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 6.65147e-02\tAbsError: 2.12170e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.53867e-04\tAbsError: 5.38113e-02\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 3.34486e-03\tAbsError: 1.97182e+12\n", - " Region: \"zone_1\"\tRelError: 1.39485e-04\tAbsError: 8.65138e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.39236e-04\tAbsError: 6.47581e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.48683e-07\tAbsError: 8.64490e-05\n", - " Region: \"zone_3\"\tRelError: 3.20538e-03\tAbsError: 1.97182e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.27846e-06\tAbsError: 9.81632e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.12485e-06\tAbsError: 9.90188e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.20072e-03\tAbsError: 6.54815e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.48776e-07\tAbsError: 8.64826e-05\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.15137e-03\tAbsError: 7.06680e+11\n", - " Region: \"zone_1\"\tRelError: 4.79513e-05\tAbsError: 1.84347e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.78983e-05\tAbsError: 2.30046e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.29631e-08\tAbsError: 1.84117e-05\n", - " Region: \"zone_3\"\tRelError: 1.10342e-03\tAbsError: 7.06680e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.28767e-07\tAbsError: 3.51782e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.37241e-07\tAbsError: 3.54898e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10180e-03\tAbsError: 2.32700e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.29832e-08\tAbsError: 1.84191e-05\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.10734e-01\tAbsError: 3.23140e+14\n", - " Region: \"zone_1\"\tRelError: 1.41532e-02\tAbsError: 4.07427e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.41415e-02\tAbsError: 1.48652e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.16074e-05\tAbsError: 4.05941e-03\n", - " Region: \"zone_3\"\tRelError: 9.65805e-02\tAbsError: 3.23140e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.34482e-04\tAbsError: 1.60954e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.62448e-04\tAbsError: 1.62186e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 9.55720e-02\tAbsError: 1.49643e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.16120e-05\tAbsError: 4.06102e-03\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 2.60636e-04\tAbsError: 1.46372e+11\n", - " Region: \"zone_1\"\tRelError: 1.08690e-05\tAbsError: 6.03090e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08517e-05\tAbsError: 5.09600e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73339e-08\tAbsError: 6.02581e-06\n", - " Region: \"zone_3\"\tRelError: 2.49767e-04\tAbsError: 1.46372e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.68311e-07\tAbsError: 7.29196e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.63262e-07\tAbsError: 7.34528e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 2.49418e-04\tAbsError: 5.15309e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.73406e-08\tAbsError: 6.02830e-06\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.30760e-02\tAbsError: 2.51950e+13\n", - " Region: \"zone_1\"\tRelError: 1.67509e-03\tAbsError: 2.23250e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66869e-03\tAbsError: 1.29509e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.39687e-06\tAbsError: 2.23120e-03\n", - " Region: \"zone_3\"\tRelError: 1.14009e-02\tAbsError: 2.51950e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.40076e-05\tAbsError: 1.25506e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.29176e-05\tAbsError: 1.26444e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12476e-02\tAbsError: 1.30350e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.39807e-06\tAbsError: 2.23171e-03\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 8.12930e-05\tAbsError: 4.69072e+10\n", - " Region: \"zone_1\"\tRelError: 3.38946e-06\tAbsError: 1.38742e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 3.38548e-06\tAbsError: 1.62196e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.98640e-09\tAbsError: 1.38580e-06\n", - " Region: \"zone_3\"\tRelError: 7.79035e-05\tAbsError: 4.69072e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.45193e-08\tAbsError: 2.33605e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.92263e-08\tAbsError: 2.35467e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.77958e-05\tAbsError: 1.64038e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.98804e-09\tAbsError: 1.38641e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:42:21\u001b[0m.\u001b[1;36m924\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 0.9999999999999999\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 7.34066e-03\tAbsError: 1.50746e+13\n", - " Region: \"zone_1\"\tRelError: 9.38378e-04\tAbsError: 2.73944e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 9.37593e-04\tAbsError: 6.05377e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.84664e-07\tAbsError: 2.73339e-04\n", - " Region: \"zone_3\"\tRelError: 6.40228e-03\tAbsError: 1.50746e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.70757e-05\tAbsError: 7.51334e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.49476e-05\tAbsError: 7.56129e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 6.34947e-03\tAbsError: 6.09341e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.84733e-07\tAbsError: 2.73360e-04\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.58363e+04\tAbsError: 1.47473e+18\n", - " Region: \"zone_1\"\tRelError: 6.98536e+03\tAbsError: 4.09543e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.98536e+03\tAbsError: 4.09539e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20641e-09\tAbsError: 4.19390e-07\n", - " Region: \"zone_3\"\tRelError: 2.88509e+04\tAbsError: 1.47473e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.64637e-01\tAbsError: 7.31003e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.38568e-01\tAbsError: 7.43726e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 2.88496e+04\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.20691e-09\tAbsError: 4.19574e-07\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.13955e-03\tAbsError: 1.79629e+12\n", - " Region: \"zone_1\"\tRelError: 1.45110e-04\tAbsError: 1.21666e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.44761e-04\tAbsError: 7.64701e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.49037e-07\tAbsError: 1.21590e-04\n", - " Region: \"zone_3\"\tRelError: 9.94436e-04\tAbsError: 1.79629e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.54025e-06\tAbsError: 8.95445e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.81841e-06\tAbsError: 9.00849e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 9.84728e-04\tAbsError: 7.69552e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.49092e-07\tAbsError: 1.21609e-04\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 4.58110e-04\tAbsError: 7.82252e+11\n", - " Region: \"zone_1\"\tRelError: 5.84708e-05\tAbsError: 2.02313e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 5.84129e-05\tAbsError: 2.95470e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.79137e-08\tAbsError: 2.02017e-05\n", - " Region: \"zone_3\"\tRelError: 3.99639e-04\tAbsError: 7.82252e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.33892e-06\tAbsError: 3.90049e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.59692e-06\tAbsError: 3.92202e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 3.96645e-04\tAbsError: 2.98275e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.79359e-08\tAbsError: 2.02098e-05\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 8.73385e+02\tAbsError: 4.80817e+17\n", - " Region: \"zone_1\"\tRelError: 4.36320e+02\tAbsError: 1.19061e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 4.36317e+02\tAbsError: 3.07626e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.33293e-03\tAbsError: 1.15985e+00\n", - " Region: \"zone_3\"\tRelError: 4.37065e+02\tAbsError: 4.80817e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.79759e-01\tAbsError: 2.41402e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.64874e-01\tAbsError: 2.39414e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 4.36317e+02\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.33331e-03\tAbsError: 1.15994e+00\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 8.41870e-05\tAbsError: 1.22496e+11\n", - " Region: \"zone_1\"\tRelError: 1.07138e-05\tAbsError: 7.33542e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06928e-05\tAbsError: 5.31771e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.10137e-08\tAbsError: 7.33011e-06\n", - " Region: \"zone_3\"\tRelError: 7.34732e-05\tAbsError: 1.22496e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.63500e-07\tAbsError: 6.10925e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.36093e-07\tAbsError: 6.14040e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 7.28525e-05\tAbsError: 5.36696e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.10216e-08\tAbsError: 7.33297e-06\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:42:25\u001b[0m.\u001b[1;36m053\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: \u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:42:25\u001b[0m.\u001b[1;36m053\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39m1.1454545454545455\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 1.66204e+03\tAbsError: 6.93474e+16\n", - " Region: \"zone_1\"\tRelError: 8.76338e+02\tAbsError: 4.68048e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 8.76336e+02\tAbsError: 2.58614e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26825e-03\tAbsError: 4.42186e-01\n", - " Region: \"zone_3\"\tRelError: 7.85702e+02\tAbsError: 6.93474e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.33245e-02\tAbsError: 3.47970e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.15582e-02\tAbsError: 3.45503e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 7.85556e+02\tAbsError: 2.58778e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.26845e-03\tAbsError: 4.42250e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.46324e+03\tAbsError: 5.14576e+15\n", - " Region: \"zone_1\"\tRelError: 6.87978e+02\tAbsError: 7.78255e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 6.87976e+02\tAbsError: 9.16449e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19704e-03\tAbsError: 7.69091e-01\n", - " Region: \"zone_3\"\tRelError: 7.75259e+02\tAbsError: 5.14576e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.52317e-02\tAbsError: 2.57522e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.85097e-03\tAbsError: 2.57054e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.75237e+02\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.19704e-03\tAbsError: 7.69091e-01\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 3.59974e+03\tAbsError: 2.65317e+18\n", - " Region: \"zone_1\"\tRelError: 7.29760e+02\tAbsError: 4.18736e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.29760e+02\tAbsError: 4.18722e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.08424e-09\tAbsError: 1.42468e-06\n", - " Region: \"zone_3\"\tRelError: 2.86998e+03\tAbsError: 2.65317e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.56743e-01\tAbsError: 1.32495e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.47769e-01\tAbsError: 1.32822e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 2.86888e+03\tAbsError: 4.18730e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.08585e-09\tAbsError: 1.42528e-06\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 6.96023e+00\tAbsError: 5.32372e+15\n", - " Region: \"zone_1\"\tRelError: 4.54639e+00\tAbsError: 1.02863e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 4.54344e+00\tAbsError: 2.66559e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.94644e-03\tAbsError: 1.02837e+00\n", - " Region: \"zone_3\"\tRelError: 2.41384e+00\tAbsError: 5.32372e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.51219e-02\tAbsError: 2.60450e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.65403e-03\tAbsError: 2.71922e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.38011e+00\tAbsError: 2.68000e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.95139e-03\tAbsError: 1.03011e+00\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 2.84055e+00\tAbsError: 4.94765e+17\n", - " Region: \"zone_1\"\tRelError: 1.04493e+00\tAbsError: 2.77078e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.03715e+00\tAbsError: 3.18450e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.78051e-03\tAbsError: 2.73893e+00\n", - " Region: \"zone_3\"\tRelError: 1.79562e+00\tAbsError: 4.94765e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.48499e-01\tAbsError: 2.47705e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.45175e-01\tAbsError: 2.47060e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.29416e+00\tAbsError: 3.18462e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.78137e-03\tAbsError: 2.73932e+00\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 6.07732e+01\tAbsError: 5.66142e+15\n", - " Region: \"zone_1\"\tRelError: 6.09549e-01\tAbsError: 6.00187e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.09378e-01\tAbsError: 2.72034e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71203e-04\tAbsError: 5.97467e-02\n", - " Region: \"zone_3\"\tRelError: 6.01636e+01\tAbsError: 5.66142e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.13691e-02\tAbsError: 2.75447e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.48872e-03\tAbsError: 2.90695e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 6.01496e+01\tAbsError: 2.74039e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.71270e-04\tAbsError: 5.97699e-02\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 4.62423e-01\tAbsError: 1.95408e+16\n", - " Region: \"zone_1\"\tRelError: 2.05320e-01\tAbsError: 2.35938e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.98710e-01\tAbsError: 2.58598e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.60950e-03\tAbsError: 2.33352e+00\n", - " Region: \"zone_3\"\tRelError: 2.57103e-01\tAbsError: 1.95408e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.71902e-02\tAbsError: 9.71912e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.43718e-02\tAbsError: 9.82163e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.98929e-01\tAbsError: 2.58489e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.61200e-03\tAbsError: 2.33442e+00\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.18137e+00\tAbsError: 3.71256e+14\n", - " Region: \"zone_1\"\tRelError: 8.31734e-02\tAbsError: 3.74686e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 8.30661e-02\tAbsError: 1.92544e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.07324e-04\tAbsError: 3.74493e-02\n", - " Region: \"zone_3\"\tRelError: 1.09819e+00\tAbsError: 3.71256e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.23962e-03\tAbsError: 1.84907e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.91184e-04\tAbsError: 1.86349e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.09615e+00\tAbsError: 1.93888e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.07368e-04\tAbsError: 3.74645e-02\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 9.39209e-01\tAbsError: 2.29973e+16\n", - " Region: \"zone_1\"\tRelError: 3.62257e-01\tAbsError: 1.50539e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 3.58005e-01\tAbsError: 1.05196e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.25210e-03\tAbsError: 1.49487e+00\n", - " Region: \"zone_3\"\tRelError: 5.76952e-01\tAbsError: 2.29973e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88256e-02\tAbsError: 1.14448e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.88555e-02\tAbsError: 1.15525e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 5.25018e-01\tAbsError: 1.05211e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.25239e-03\tAbsError: 1.49497e+00\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.46007e+00\tAbsError: 2.29640e+14\n", - " Region: \"zone_1\"\tRelError: 4.03111e-02\tAbsError: 3.94907e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 4.02998e-02\tAbsError: 1.05545e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13173e-05\tAbsError: 3.93851e-03\n", - " Region: \"zone_3\"\tRelError: 1.41976e+00\tAbsError: 2.29640e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.16328e-04\tAbsError: 1.14327e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.52600e-04\tAbsError: 1.15314e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.41908e+00\tAbsError: 1.06317e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13180e-05\tAbsError: 3.93853e-03\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 3.51822e-01\tAbsError: 1.66219e+16\n", - " Region: \"zone_1\"\tRelError: 1.40128e-01\tAbsError: 7.95313e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37872e-01\tAbsError: 2.26078e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.25603e-03\tAbsError: 7.95087e-01\n", - " Region: \"zone_3\"\tRelError: 2.11694e-01\tAbsError: 1.66219e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.10115e-02\tAbsError: 8.31252e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.28653e-03\tAbsError: 8.30938e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.90131e-01\tAbsError: 2.26461e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.26521e-03\tAbsError: 7.98211e-01\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 2.11111e-01\tAbsError: 2.79827e+13\n", - " Region: \"zone_1\"\tRelError: 7.25122e-03\tAbsError: 1.74217e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 7.24621e-03\tAbsError: 1.19347e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.00326e-06\tAbsError: 1.74098e-03\n", - " Region: \"zone_3\"\tRelError: 2.03859e-01\tAbsError: 2.79827e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.67617e-05\tAbsError: 1.39372e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.89481e-05\tAbsError: 1.40455e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03729e-01\tAbsError: 1.20196e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.00391e-06\tAbsError: 1.74126e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 9.40066e-02\tAbsError: 6.30541e+15\n", - " Region: \"zone_1\"\tRelError: 3.48618e-02\tAbsError: 2.65888e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 3.47869e-02\tAbsError: 1.70704e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.48919e-05\tAbsError: 2.64181e-02\n", - " Region: \"zone_3\"\tRelError: 5.91448e-02\tAbsError: 6.30541e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.61160e-03\tAbsError: 3.10397e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.18077e-03\tAbsError: 3.20144e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 4.72775e-02\tAbsError: 1.71665e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.49375e-05\tAbsError: 2.64342e-02\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 9.24879e-02\tAbsError: 1.23871e+13\n", - " Region: \"zone_1\"\tRelError: 2.93353e-03\tAbsError: 2.91323e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.93269e-03\tAbsError: 4.76030e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.36559e-07\tAbsError: 2.90847e-04\n", - " Region: \"zone_3\"\tRelError: 8.95543e-02\tAbsError: 1.23871e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.95573e-05\tAbsError: 6.16953e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.91930e-05\tAbsError: 6.21758e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 8.95147e-02\tAbsError: 4.79468e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.36647e-07\tAbsError: 2.90878e-04\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 1.30073e-03\tAbsError: 2.64584e+14\n", - " Region: \"zone_1\"\tRelError: 2.52092e-04\tAbsError: 1.96953e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.96256e-04\tAbsError: 7.14084e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.58368e-05\tAbsError: 1.96882e-02\n", - " Region: \"zone_3\"\tRelError: 1.04864e-03\tAbsError: 2.64584e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.14833e-04\tAbsError: 1.30426e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.17855e-04\tAbsError: 1.34158e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 2.60109e-04\tAbsError: 7.17928e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.58455e-05\tAbsError: 1.96915e-02\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 1.79957e-02\tAbsError: 2.00241e+12\n", - " Region: \"zone_1\"\tRelError: 5.80226e-04\tAbsError: 1.06766e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 5.79919e-04\tAbsError: 7.62075e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.06294e-07\tAbsError: 1.06690e-04\n", - " Region: \"zone_3\"\tRelError: 1.74155e-02\tAbsError: 2.00241e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.83435e-06\tAbsError: 9.97535e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.43171e-06\tAbsError: 1.00487e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.74069e-02\tAbsError: 7.69605e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.06408e-07\tAbsError: 1.06730e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.57360e-03\tAbsError: 1.38202e+14\n", - " Region: \"zone_1\"\tRelError: 2.18644e-03\tAbsError: 1.28048e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.18283e-03\tAbsError: 5.49178e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.61467e-06\tAbsError: 1.27499e-03\n", - " Region: \"zone_3\"\tRelError: 3.38715e-03\tAbsError: 1.38202e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.63180e-04\tAbsError: 6.70794e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.54114e-04\tAbsError: 7.11228e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 2.96624e-03\tAbsError: 5.52045e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.61609e-06\tAbsError: 1.27549e-03\n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 6.16882e-03\tAbsError: 7.25783e+11\n", - " Region: \"zone_1\"\tRelError: 1.98056e-04\tAbsError: 2.16951e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.97994e-04\tAbsError: 2.65471e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.22079e-08\tAbsError: 2.16685e-05\n", - " Region: \"zone_3\"\tRelError: 5.97077e-03\tAbsError: 7.25783e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.06142e-06\tAbsError: 3.61574e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.32785e-06\tAbsError: 3.64210e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 5.96832e-03\tAbsError: 2.68167e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.22311e-08\tAbsError: 2.16771e-05\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.97838e-04\tAbsError: 1.04334e+13\n", - " Region: \"zone_1\"\tRelError: 1.51323e-04\tAbsError: 6.35179e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49519e-04\tAbsError: 4.00189e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.80376e-06\tAbsError: 6.34779e-04\n", - " Region: \"zone_3\"\tRelError: 2.46515e-04\tAbsError: 1.04334e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.56648e-05\tAbsError: 5.11483e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.60654e-05\tAbsError: 5.31857e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.02981e-04\tAbsError: 4.02172e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.80376e-06\tAbsError: 6.34779e-04\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.32512e-03\tAbsError: 1.39840e+11\n", - " Region: \"zone_1\"\tRelError: 4.25623e-05\tAbsError: 6.99519e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.25422e-05\tAbsError: 5.61701e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.00663e-08\tAbsError: 6.98958e-06\n", - " Region: \"zone_3\"\tRelError: 1.28256e-03\tAbsError: 1.39840e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.35090e-07\tAbsError: 6.96726e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.14577e-07\tAbsError: 7.01672e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.28199e-03\tAbsError: 5.67287e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.00739e-08\tAbsError: 6.99239e-06\n", - "Iteration: 13\n", - " Device: \"device\"\tRelError: 4.07310e-04\tAbsError: 4.47841e+10\n", - " Region: \"zone_1\"\tRelError: 1.30926e-05\tAbsError: 1.54205e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 1.30881e-05\tAbsError: 1.75011e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.42203e-09\tAbsError: 1.54030e-06\n", - " Region: \"zone_3\"\tRelError: 3.94218e-04\tAbsError: 4.47841e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.33915e-08\tAbsError: 2.23135e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.92263e-08\tAbsError: 2.24706e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 3.94061e-04\tAbsError: 1.76782e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.42382e-09\tAbsError: 1.54097e-06\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 2.53876e-04\tAbsError: 5.38820e+12\n", - " Region: \"zone_1\"\tRelError: 1.00966e-04\tAbsError: 5.99465e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.00796e-04\tAbsError: 1.68312e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69863e-07\tAbsError: 5.97782e-05\n", - " Region: \"zone_3\"\tRelError: 1.52910e-04\tAbsError: 5.38820e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.12473e-06\tAbsError: 2.67156e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.57726e-06\tAbsError: 2.71664e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 1.37038e-04\tAbsError: 1.69127e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.69863e-07\tAbsError: 5.97782e-05\n", - "Iteration: 14\n", - " Device: \"device\"\tRelError: 9.30929e-05\tAbsError: 9.62198e+09\n", - " Region: \"zone_1\"\tRelError: 2.99044e-06\tAbsError: 4.57774e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 2.98912e-06\tAbsError: 3.95789e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.31308e-09\tAbsError: 4.57379e-07\n", - " Region: \"zone_3\"\tRelError: 9.01024e-05\tAbsError: 9.62198e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50292e-08\tAbsError: 4.79430e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.16874e-08\tAbsError: 4.82769e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 9.00644e-05\tAbsError: 3.99740e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.31362e-09\tAbsError: 4.57578e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:42:36\u001b[0m.\u001b[1;36m668\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 1.0999999999999999\u001b[0m\n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.83984e-05\tAbsError: 6.20494e+11\n", - " Region: \"zone_1\"\tRelError: 1.11685e-05\tAbsError: 2.54379e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 1.10961e-05\tAbsError: 1.76630e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.24189e-08\tAbsError: 2.54203e-05\n", - " Region: \"zone_3\"\tRelError: 1.72299e-05\tAbsError: 6.20494e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.01596e-06\tAbsError: 3.08474e+11\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.06157e-06\tAbsError: 3.12020e+11\n", - " Equation: \"PotentialEquation\"\tRelError: 1.50799e-05\tAbsError: 1.77456e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.24363e-08\tAbsError: 2.54264e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:42:36\u001b[0m.\u001b[1;36m888\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.25 V. Current applied bias: 1.25\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.20731e+02\tAbsError: 2.29552e+18\n", - " Region: \"zone_1\"\tRelError: 1.41155e+02\tAbsError: 4.09537e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.41155e+02\tAbsError: 4.09536e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.05730e-10\tAbsError: 1.06495e-07\n", - " Region: \"zone_3\"\tRelError: 7.95757e+01\tAbsError: 2.29552e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.78600e-01\tAbsError: 1.14566e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.65499e-01\tAbsError: 1.14986e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 7.84316e+01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.05855e-10\tAbsError: 1.06540e-07\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 7.72551e+00\tAbsError: 3.07479e+18\n", - " Region: \"zone_1\"\tRelError: 5.80587e+00\tAbsError: 4.18750e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 5.80587e+00\tAbsError: 4.18717e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.52425e-09\tAbsError: 3.34314e-06\n", - " Region: \"zone_3\"\tRelError: 1.91964e+00\tAbsError: 3.07479e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.90381e-01\tAbsError: 1.53657e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.81658e-01\tAbsError: 1.53822e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 9.47601e-01\tAbsError: 4.18728e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.52641e-09\tAbsError: 3.34393e-06\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 3.75350e+01\tAbsError: 4.89721e+17\n", - " Region: \"zone_1\"\tRelError: 1.04844e+01\tAbsError: 2.18917e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04782e+01\tAbsError: 3.07622e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.15763e-03\tAbsError: 2.15840e+00\n", - " Region: \"zone_3\"\tRelError: 2.70506e+01\tAbsError: 4.89721e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.63139e-01\tAbsError: 2.45322e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.63561e-01\tAbsError: 2.44399e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 2.65177e+01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.15822e-03\tAbsError: 2.15862e+00\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 8.02267e-01\tAbsError: 3.87882e+17\n", - " Region: \"zone_1\"\tRelError: 1.96669e-01\tAbsError: 4.07465e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.85330e-01\tAbsError: 3.18444e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13395e-02\tAbsError: 4.04281e+00\n", - " Region: \"zone_3\"\tRelError: 6.05597e-01\tAbsError: 3.87882e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.15311e-01\tAbsError: 1.94168e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.98435e-01\tAbsError: 1.93714e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.80510e-01\tAbsError: 3.18460e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.13406e-02\tAbsError: 4.04330e+00\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 8.28645e+00\tAbsError: 2.11022e+16\n", - " Region: \"zone_1\"\tRelError: 5.89404e-01\tAbsError: 1.45838e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 5.85324e-01\tAbsError: 2.58807e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.07995e-03\tAbsError: 1.43250e+00\n", - " Region: \"zone_3\"\tRelError: 7.69704e+00\tAbsError: 2.11022e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.08442e-02\tAbsError: 1.06070e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.62030e-02\tAbsError: 1.04952e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 7.63591e+00\tAbsError: 2.58945e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.08866e-03\tAbsError: 1.43560e+00\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 3.26028e-01\tAbsError: 5.52255e+16\n", - " Region: \"zone_1\"\tRelError: 1.30298e-01\tAbsError: 6.51520e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12331e-01\tAbsError: 2.58932e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.79670e-02\tAbsError: 6.48931e+00\n", - " Region: \"zone_3\"\tRelError: 1.95730e-01\tAbsError: 5.52255e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.17944e-02\tAbsError: 2.75730e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.36243e-02\tAbsError: 2.76524e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.12331e-01\tAbsError: 2.58932e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.79798e-02\tAbsError: 6.49411e+00\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 3.26646e+01\tAbsError: 1.05374e+16\n", - " Region: \"zone_1\"\tRelError: 1.63183e+01\tAbsError: 9.50748e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.63156e+01\tAbsError: 9.16413e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.68897e-03\tAbsError: 9.41583e-01\n", - " Region: \"zone_3\"\tRelError: 1.63463e+01\tAbsError: 1.05374e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.31069e-02\tAbsError: 5.23674e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.49207e-02\tAbsError: 5.30063e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 1.63156e+01\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69706e-03\tAbsError: 9.44437e-01\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.01824e-01\tAbsError: 1.39289e+17\n", - " Region: \"zone_1\"\tRelError: 1.05892e-01\tAbsError: 5.70881e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 8.98624e-02\tAbsError: 1.05192e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60298e-02\tAbsError: 5.69829e+00\n", - " Region: \"zone_3\"\tRelError: 2.95932e-01\tAbsError: 1.39289e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.91152e-02\tAbsError: 6.95329e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.10025e-01\tAbsError: 6.97560e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 8.07486e-02\tAbsError: 1.05208e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.60433e-02\tAbsError: 5.70315e+00\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 9.58482e+00\tAbsError: 6.34667e+15\n", - " Region: \"zone_1\"\tRelError: 2.32125e+00\tAbsError: 4.26139e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 2.32004e+00\tAbsError: 1.24165e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.21533e-03\tAbsError: 4.26014e-01\n", - " Region: \"zone_3\"\tRelError: 7.26357e+00\tAbsError: 6.34667e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.94984e-03\tAbsError: 3.16660e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.69319e-03\tAbsError: 3.18007e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.25171e+00\tAbsError: 1.24217e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.21533e-03\tAbsError: 4.26014e-01\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 1.91415e-01\tAbsError: 1.00021e+17\n", - " Region: \"zone_1\"\tRelError: 5.15868e-02\tAbsError: 4.56806e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 5.03019e-02\tAbsError: 1.18963e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.28487e-03\tAbsError: 4.55616e-01\n", - " Region: \"zone_3\"\tRelError: 1.39828e-01\tAbsError: 1.00021e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.62230e-02\tAbsError: 4.99301e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.09910e-02\tAbsError: 5.00912e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 5.13235e-02\tAbsError: 1.18981e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.29038e-03\tAbsError: 4.57437e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 8.10109e-01\tAbsError: 2.49944e+15\n", - " Region: \"zone_1\"\tRelError: 2.73036e-01\tAbsError: 9.44224e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.73009e-01\tAbsError: 7.54274e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.67762e-05\tAbsError: 9.36682e-03\n", - " Region: \"zone_3\"\tRelError: 5.37074e-01\tAbsError: 2.49944e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.44605e-03\tAbsError: 1.22669e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 6.58618e-04\tAbsError: 1.27274e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 5.30942e-01\tAbsError: 7.59068e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.67897e-05\tAbsError: 9.37175e-03\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.04251e-02\tAbsError: 8.30667e+15\n", - " Region: \"zone_1\"\tRelError: 2.75203e-03\tAbsError: 6.42693e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.57122e-03\tAbsError: 6.56089e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.80808e-04\tAbsError: 6.42037e-02\n", - " Region: \"zone_3\"\tRelError: 7.67309e-03\tAbsError: 8.30667e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.62570e-03\tAbsError: 4.13378e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.11159e-03\tAbsError: 4.17290e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 7.54923e-04\tAbsError: 6.56149e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.80878e-04\tAbsError: 6.42290e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.50361e-02\tAbsError: 6.78895e+13\n", - " Region: \"zone_1\"\tRelError: 2.37122e-02\tAbsError: 9.45855e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.36853e-02\tAbsError: 1.50946e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69242e-05\tAbsError: 9.45704e-03\n", - " Region: \"zone_3\"\tRelError: 5.13239e-02\tAbsError: 6.78895e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.92168e-04\tAbsError: 3.35710e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.54573e-05\tAbsError: 3.43185e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 5.10793e-02\tAbsError: 1.52419e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.69352e-05\tAbsError: 9.46083e-03\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 2.43138e-03\tAbsError: 2.10283e+15\n", - " Region: \"zone_1\"\tRelError: 6.81118e-04\tAbsError: 9.31262e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 6.55096e-04\tAbsError: 1.84496e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.60224e-05\tAbsError: 9.29417e-03\n", - " Region: \"zone_3\"\tRelError: 1.75026e-03\tAbsError: 2.10283e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.38215e-04\tAbsError: 1.04835e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 7.17284e-04\tAbsError: 1.05448e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 6.68722e-04\tAbsError: 1.84544e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.60358e-05\tAbsError: 9.29887e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 5.59505e-02\tAbsError: 5.66225e+13\n", - " Region: \"zone_1\"\tRelError: 1.83279e-02\tAbsError: 3.54044e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 1.83269e-02\tAbsError: 2.54887e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00068e-06\tAbsError: 3.51495e-04\n", - " Region: \"zone_3\"\tRelError: 3.76225e-02\tAbsError: 5.66225e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.14084e-04\tAbsError: 2.81906e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.55711e-05\tAbsError: 2.84319e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.74519e-02\tAbsError: 2.56399e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.00120e-06\tAbsError: 3.51676e-04\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.03928e-04\tAbsError: 1.40333e+14\n", - " Region: \"zone_1\"\tRelError: 1.24164e-04\tAbsError: 2.26244e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17835e-04\tAbsError: 2.06645e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.32904e-06\tAbsError: 2.26038e-03\n", - " Region: \"zone_3\"\tRelError: 1.79764e-04\tAbsError: 1.40333e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.30254e-04\tAbsError: 6.96368e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.63288e-05\tAbsError: 7.06959e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.68486e-05\tAbsError: 2.06703e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.33247e-06\tAbsError: 2.26161e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 7.88395e-04\tAbsError: 2.50647e+12\n", - " Region: \"zone_1\"\tRelError: 2.67678e-04\tAbsError: 3.14356e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.66781e-04\tAbsError: 1.15072e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.96866e-07\tAbsError: 3.14241e-04\n", - " Region: \"zone_3\"\tRelError: 5.20717e-04\tAbsError: 2.50647e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 9.42005e-06\tAbsError: 1.25767e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.70094e-06\tAbsError: 1.24880e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.06699e-04\tAbsError: 1.15714e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.97159e-07\tAbsError: 3.14358e-04\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 5.99632e-05\tAbsError: 4.11052e+13\n", - " Region: \"zone_1\"\tRelError: 2.28310e-05\tAbsError: 2.19806e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 2.22169e-05\tAbsError: 4.64136e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.14063e-07\tAbsError: 2.19342e-04\n", - " Region: \"zone_3\"\tRelError: 3.71322e-05\tAbsError: 4.11052e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.38645e-05\tAbsError: 2.04271e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.71535e-06\tAbsError: 2.06782e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 3.93797e-06\tAbsError: 4.64170e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 6.14301e-07\tAbsError: 2.19426e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 3.01493e-03\tAbsError: 2.03887e+12\n", - " Region: \"zone_1\"\tRelError: 9.68351e-04\tAbsError: 1.94584e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 9.68295e-04\tAbsError: 8.45891e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.51588e-08\tAbsError: 1.93738e-05\n", - " Region: \"zone_3\"\tRelError: 2.04658e-03\tAbsError: 2.03887e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.90840e-06\tAbsError: 1.01569e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.17272e-06\tAbsError: 1.02318e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 2.03944e-03\tAbsError: 8.50612e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.51787e-08\tAbsError: 1.93808e-05\n", - "Iteration: 10\n", - " Device: \"device\"\tRelError: 2.13878e-04\tAbsError: 1.24488e+11\n", - " Region: \"zone_1\"\tRelError: 6.77267e-05\tAbsError: 1.32659e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 6.76887e-05\tAbsError: 6.49775e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.79174e-08\tAbsError: 1.32594e-05\n", - " Region: \"zone_3\"\tRelError: 1.46151e-04\tAbsError: 1.24488e+11\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.41336e-07\tAbsError: 6.10291e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.66825e-07\tAbsError: 6.34588e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.45305e-04\tAbsError: 6.53401e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.79209e-08\tAbsError: 1.32605e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:42:48\u001b[0m.\u001b[1;36m551\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "Iteration: 11\n", - " Device: \"device\"\tRelError: 1.56196e-04\tAbsError: 8.22099e+10\n", - " Region: \"zone_1\"\tRelError: 4.96683e-05\tAbsError: 1.29947e-06\n", - " Equation: \"PotentialEquation\"\tRelError: 4.96646e-05\tAbsError: 3.20602e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.70688e-09\tAbsError: 1.29627e-06\n", - " Region: \"zone_3\"\tRelError: 1.06527e-04\tAbsError: 8.22099e+10\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.53254e-07\tAbsError: 4.09765e+10\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.71613e-07\tAbsError: 4.12334e+10\n", - " Equation: \"PotentialEquation\"\tRelError: 1.06199e-04\tAbsError: 3.22381e-09\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.70726e-09\tAbsError: 1.29639e-06\n", - "Iteration: 12\n", - " Device: \"device\"\tRelError: 1.81376e-05\tAbsError: 8.11356e+09\n", - " Region: \"zone_1\"\tRelError: 5.70565e-06\tAbsError: 6.56313e-07\n", - " Equation: \"PotentialEquation\"\tRelError: 5.70378e-06\tAbsError: 3.58334e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.87514e-09\tAbsError: 6.55955e-07\n", - " Region: \"zone_3\"\tRelError: 1.24320e-05\tAbsError: 8.11356e+09\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.21600e-08\tAbsError: 4.01059e+09\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.61223e-08\tAbsError: 4.10296e+09\n", - " Equation: \"PotentialEquation\"\tRelError: 1.23818e-05\tAbsError: 3.60254e-10\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.87583e-09\tAbsError: 6.56203e-07\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:42:49\u001b[0m.\u001b[1;36m618\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 1.2\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 1.06075e+01\tAbsError: 2.79862e+18\n", - " Region: \"zone_1\"\tRelError: 7.94145e+00\tAbsError: 4.09534e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 7.94145e+00\tAbsError: 4.09533e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.59504e-10\tAbsError: 9.07782e-08\n", - " Region: \"zone_3\"\tRelError: 2.66604e+00\tAbsError: 2.79862e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.05077e-01\tAbsError: 1.39826e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.97560e-01\tAbsError: 1.40036e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 1.66340e+00\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.59605e-10\tAbsError: 9.08149e-08\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 8.81850e-01\tAbsError: 3.97971e+17\n", - " Region: \"zone_1\"\tRelError: 2.47010e-01\tAbsError: 3.38007e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 2.37556e-01\tAbsError: 3.07618e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.45414e-03\tAbsError: 3.34931e+00\n", - " Region: \"zone_3\"\tRelError: 6.34840e-01\tAbsError: 3.97971e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.14857e-01\tAbsError: 1.99270e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.03011e-01\tAbsError: 1.98701e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 2.07516e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 9.45541e-03\tAbsError: 3.34965e+00\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 3.67895e-01\tAbsError: 4.72516e+16\n", - " Region: \"zone_1\"\tRelError: 1.50726e-01\tAbsError: 5.59199e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35198e-01\tAbsError: 2.58844e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.55275e-02\tAbsError: 5.56611e+00\n", - " Region: \"zone_3\"\tRelError: 2.17169e-01\tAbsError: 4.72516e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.45897e-02\tAbsError: 2.35836e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.18017e-02\tAbsError: 2.36679e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.35232e-01\tAbsError: 2.58775e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.55454e-02\tAbsError: 5.57271e+00\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 4.33086e-01\tAbsError: 8.94267e+16\n", - " Region: \"zone_1\"\tRelError: 1.27506e-01\tAbsError: 5.03041e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.13299e-01\tAbsError: 9.16402e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42065e-02\tAbsError: 5.02125e+00\n", - " Region: \"zone_3\"\tRelError: 3.05581e-01\tAbsError: 8.94267e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 8.77157e-02\tAbsError: 4.46015e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.56957e-02\tAbsError: 4.48253e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17945e-01\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.42247e-02\tAbsError: 5.02775e+00\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 2.30726e-01\tAbsError: 6.72803e+16\n", - " Region: \"zone_1\"\tRelError: 7.35635e-02\tAbsError: 3.08358e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 7.26895e-02\tAbsError: 9.81454e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.74003e-04\tAbsError: 3.07376e-01\n", - " Region: \"zone_3\"\tRelError: 1.57162e-01\tAbsError: 6.72803e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.94071e-02\tAbsError: 3.35566e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.14449e-02\tAbsError: 3.37237e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 7.54322e-02\tAbsError: 9.82805e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 8.78127e-04\tAbsError: 3.08879e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 1.07982e-02\tAbsError: 4.75532e+15\n", - " Region: \"zone_1\"\tRelError: 2.87315e-03\tAbsError: 7.10545e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 2.67193e-03\tAbsError: 3.42983e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.01215e-04\tAbsError: 7.10202e-02\n", - " Region: \"zone_3\"\tRelError: 7.92501e-03\tAbsError: 4.75532e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.99321e-03\tAbsError: 2.36925e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.95393e-03\tAbsError: 2.38607e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.77664e-03\tAbsError: 3.43025e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.01229e-04\tAbsError: 7.10259e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 4.25637e-03\tAbsError: 1.33088e+15\n", - " Region: \"zone_1\"\tRelError: 1.51076e-03\tAbsError: 5.63944e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.49479e-03\tAbsError: 1.60161e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59642e-05\tAbsError: 5.62343e-03\n", - " Region: \"zone_3\"\tRelError: 2.74561e-03\tAbsError: 1.33088e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.72024e-04\tAbsError: 6.65349e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.04225e-04\tAbsError: 6.65530e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.55339e-03\tAbsError: 1.61219e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.59735e-05\tAbsError: 5.62680e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 3.40119e-04\tAbsError: 1.07870e+14\n", - " Region: \"zone_1\"\tRelError: 1.10130e-04\tAbsError: 1.99295e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.04476e-04\tAbsError: 1.10955e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.65450e-06\tAbsError: 1.99184e-03\n", - " Region: \"zone_3\"\tRelError: 2.29988e-04\tAbsError: 1.07870e+14\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.77399e-05\tAbsError: 5.36836e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 8.81953e-05\tAbsError: 5.41868e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.08396e-04\tAbsError: 1.11836e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 5.65725e-06\tAbsError: 1.99285e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 1.15955e-04\tAbsError: 3.29274e+13\n", - " Region: \"zone_1\"\tRelError: 4.09483e-05\tAbsError: 2.57424e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 4.02187e-05\tAbsError: 4.28366e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.29581e-07\tAbsError: 2.56996e-04\n", - " Region: \"zone_3\"\tRelError: 7.50067e-05\tAbsError: 3.29274e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.50866e-06\tAbsError: 1.64259e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.70008e-05\tAbsError: 1.65016e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 4.17673e-05\tAbsError: 4.31616e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.29977e-07\tAbsError: 2.57139e-04\n", - "Iteration: 9\n", - " Device: \"device\"\tRelError: 1.48312e-05\tAbsError: 3.74352e+12\n", - " Region: \"zone_1\"\tRelError: 5.08968e-06\tAbsError: 7.35732e-05\n", - " Equation: \"PotentialEquation\"\tRelError: 4.88096e-06\tAbsError: 5.18501e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.08719e-07\tAbsError: 7.35214e-05\n", - " Region: \"zone_3\"\tRelError: 9.74149e-06\tAbsError: 3.74352e+12\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 6.01215e-07\tAbsError: 1.86497e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.86664e-06\tAbsError: 1.87855e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.06480e-06\tAbsError: 5.22650e-08\n", - " Equation: \"TemperatureEquation\"\tRelError: 2.08829e-07\tAbsError: 7.35626e-05\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:42:59\u001b[0m.\u001b[1;36m266\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mIterating for bias 1.3 V. Current applied bias: 1.3\u001b[0m \n", - "Replacing Node Model zone_3_bc_4nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_5nodeelectrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeelectrons:T in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodeholes:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: ElectronContinuityEquation\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: HoleContinuityEquation\n", - "Replacing Node Model zone_3_bc_4nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_4nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_4, Equation: PotentialEquation\n", - "Replacing Node Model zone_3_bc_5nodemodel in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Potential in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Electrons in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:Holes in region zone_3 of material Si\n", - "Replacing Node Model zone_3_bc_5nodemodel:T in region zone_3 of material Si\n", - "Warning: Replacing Contact Equation with Contact Equation of the same name.\n", - "Contact: zone_3_bc_5, Equation: PotentialEquation\n", - "number of equations 31816\n", - "Iteration: 0\n", - " Device: \"device\"\tRelError: 2.95808e+00\tAbsError: 3.06192e+18\n", - " Region: \"zone_1\"\tRelError: 1.42698e+00\tAbsError: 4.09645e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 1.42698e+00\tAbsError: 4.09530e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.26923e-08\tAbsError: 1.15159e-05\n", - " Region: \"zone_3\"\tRelError: 1.53110e+00\tAbsError: 3.06192e+18\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 4.53961e-01\tAbsError: 1.53038e+18\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 4.42414e-01\tAbsError: 1.53154e+18\n", - " Equation: \"PotentialEquation\"\tRelError: 6.34728e-01\tAbsError: 4.09542e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.27089e-08\tAbsError: 1.15220e-05\n", - "Iteration: 1\n", - " Device: \"device\"\tRelError: 6.86333e-01\tAbsError: 3.15984e+17\n", - " Region: \"zone_1\"\tRelError: 1.55509e-01\tAbsError: 4.51190e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43034e-01\tAbsError: 3.07615e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.24749e-02\tAbsError: 4.48114e+00\n", - " Region: \"zone_3\"\tRelError: 5.30824e-01\tAbsError: 3.15984e+17\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.98537e-01\tAbsError: 1.58139e+17\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.76751e-01\tAbsError: 1.57845e+17\n", - " Equation: \"PotentialEquation\"\tRelError: 1.43059e-01\tAbsError: 3.07632e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.24763e-02\tAbsError: 4.48157e+00\n", - "Iteration: 2\n", - " Device: \"device\"\tRelError: 2.29936e-01\tAbsError: 6.93044e+16\n", - " Region: \"zone_1\"\tRelError: 9.97344e-02\tAbsError: 3.68280e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 8.96071e-02\tAbsError: 2.58695e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.01274e-02\tAbsError: 3.65693e+00\n", - " Region: \"zone_3\"\tRelError: 1.30201e-01\tAbsError: 6.93044e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.50308e-02\tAbsError: 3.46144e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.54055e-02\tAbsError: 3.46900e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 8.96375e-02\tAbsError: 2.58853e-02\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.01274e-02\tAbsError: 3.65693e+00\n", - "Iteration: 3\n", - " Device: \"device\"\tRelError: 1.89249e-01\tAbsError: 9.05371e+16\n", - " Region: \"zone_1\"\tRelError: 3.84471e-02\tAbsError: 2.79280e+00\n", - " Equation: \"PotentialEquation\"\tRelError: 3.06783e-02\tAbsError: 9.16366e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.76879e-03\tAbsError: 2.78363e+00\n", - " Region: \"zone_3\"\tRelError: 1.50802e-01\tAbsError: 9.05371e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 5.62900e-02\tAbsError: 4.52528e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.56716e-02\tAbsError: 4.52844e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 3.10713e-02\tAbsError: 9.16533e-03\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.76879e-03\tAbsError: 2.78363e+00\n", - "Iteration: 4\n", - " Device: \"device\"\tRelError: 8.05096e-02\tAbsError: 5.73831e+16\n", - " Region: \"zone_1\"\tRelError: 1.80246e-02\tAbsError: 2.55628e-01\n", - " Equation: \"PotentialEquation\"\tRelError: 1.73024e-02\tAbsError: 6.33722e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.22135e-04\tAbsError: 2.54994e-01\n", - " Region: \"zone_3\"\tRelError: 6.24850e-02\tAbsError: 5.73831e+16\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 2.05558e-02\tAbsError: 2.86776e+16\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 2.36736e-02\tAbsError: 2.87055e+16\n", - " Equation: \"PotentialEquation\"\tRelError: 1.75308e-02\tAbsError: 6.33885e-04\n", - " Equation: \"TemperatureEquation\"\tRelError: 7.24828e-04\tAbsError: 2.55896e-01\n", - "Iteration: 5\n", - " Device: \"device\"\tRelError: 5.27575e-03\tAbsError: 4.47182e+15\n", - " Region: \"zone_1\"\tRelError: 7.50950e-04\tAbsError: 4.10991e-02\n", - " Equation: \"PotentialEquation\"\tRelError: 6.36726e-04\tAbsError: 4.45500e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.14224e-04\tAbsError: 4.10545e-02\n", - " Region: \"zone_3\"\tRelError: 4.52480e-03\tAbsError: 4.47182e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.81462e-03\tAbsError: 2.22587e+15\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 3.36991e-04\tAbsError: 2.24595e+15\n", - " Equation: \"PotentialEquation\"\tRelError: 2.58880e-04\tAbsError: 4.45567e-05\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.14315e-04\tAbsError: 4.10905e-02\n", - "Iteration: 6\n", - " Device: \"device\"\tRelError: 7.81415e-04\tAbsError: 1.27438e+15\n", - " Region: \"zone_1\"\tRelError: 1.31156e-04\tAbsError: 4.99777e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 1.17293e-04\tAbsError: 9.92832e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.38636e-05\tAbsError: 4.98785e-03\n", - " Region: \"zone_3\"\tRelError: 6.50259e-04\tAbsError: 1.27438e+15\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 3.49678e-04\tAbsError: 6.34942e+14\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 1.67569e-04\tAbsError: 6.39442e+14\n", - " Equation: \"PotentialEquation\"\tRelError: 1.19142e-04\tAbsError: 9.93066e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 1.38699e-05\tAbsError: 4.99010e-03\n", - "Iteration: 7\n", - " Device: \"device\"\tRelError: 1.35366e-04\tAbsError: 7.12812e+13\n", - " Region: \"zone_1\"\tRelError: 2.99971e-05\tAbsError: 1.51242e-03\n", - " Equation: \"PotentialEquation\"\tRelError: 2.57968e-05\tAbsError: 1.28730e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.20023e-06\tAbsError: 1.51114e-03\n", - " Region: \"zone_3\"\tRelError: 1.05369e-04\tAbsError: 7.12812e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 7.89869e-05\tAbsError: 3.53434e+13\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 9.86099e-06\tAbsError: 3.59377e+13\n", - " Equation: \"PotentialEquation\"\tRelError: 1.23191e-05\tAbsError: 1.28770e-06\n", - " Equation: \"TemperatureEquation\"\tRelError: 4.20200e-06\tAbsError: 1.51177e-03\n", - "Iteration: 8\n", - " Device: \"device\"\tRelError: 3.58972e-05\tAbsError: 1.82475e+13\n", - " Region: \"zone_1\"\tRelError: 6.53529e-06\tAbsError: 1.30003e-04\n", - " Equation: \"PotentialEquation\"\tRelError: 6.17481e-06\tAbsError: 3.11367e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.60483e-07\tAbsError: 1.29691e-04\n", - " Region: \"zone_3\"\tRelError: 2.93619e-05\tAbsError: 1.82475e+13\n", - " Equation: \"ElectronContinuityEquation\"\tRelError: 1.88247e-05\tAbsError: 9.03485e+12\n", - " Equation: \"HoleContinuityEquation\"\tRelError: 5.04072e-06\tAbsError: 9.21267e+12\n", - " Equation: \"PotentialEquation\"\tRelError: 5.13603e-06\tAbsError: 3.12811e-07\n", - " Equation: \"TemperatureEquation\"\tRelError: 3.60523e-07\tAbsError: 1.29709e-04\n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:43:09\u001b[0m.\u001b[1;36m742\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:43:11\u001b[0m.\u001b[1;36m095\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mDEVSIM output has been saved!\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:43:11\u001b[0m.\u001b[1;36m104\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_0.0.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:43:11\u001b[0m.\u001b[1;36m218\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_0.5.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:43:11\u001b[0m.\u001b[1;36m350\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_0.55.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:43:11\u001b[0m.\u001b[1;36m479\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_0.6.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:43:11\u001b[0m.\u001b[1;36m602\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_0.65.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:43:11\u001b[0m.\u001b[1;36m740\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_0.7.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:43:11\u001b[0m.\u001b[1;36m839\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_0.75.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:43:11\u001b[0m.\u001b[1;36m971\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_0.8.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:43:12\u001b[0m.\u001b[1;36m100\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_0.85.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:43:12\u001b[0m.\u001b[1;36m234\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_0.9.vtu\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:43:12\u001b[0m.\u001b[1;36m394\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading file ./tmp/devsim_bias_0.95.vtu\u001b[0m \n", - 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"\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:43:13\u001b[0m.\u001b[1;36m449\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mSUPPORT\u001b[1m]\u001b[0m: \u001b[39mReading heat-charge solver CHARGE output.\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:43:13\u001b[0m.\u001b[1;36m569\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mProcessing data for monitor charge_global_mnt\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:43:14\u001b[0m.\u001b[1;36m815\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mProcessing data for monitor potential_global_mnt\u001b[0m \n", - "\u001b[1m[\u001b[0m\u001b[1;36m25\u001b[0m-\u001b[1;36m08\u001b[0m-\u001b[1;36m18\u001b[0m \u001b[1;92m15:43:15\u001b[0m.\u001b[1;36m464\u001b[0m\u001b[1m]\u001b[0m\u001b[1m[\u001b[0mUSER \u001b[1m]\u001b[0m: \u001b[39mProcessing data for monitor capacitance_global_mnt\u001b[0m \n", - 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"results = run_heat_sim(sim=sim, log_level=\"DEBUG\")\n", - "subprocess.run([\"cp\", \"-r\", \"tmp\", \"tmp_Ba_example\"]) \n", - "subprocess.run([\"cp\", \"output/simulation_data.hdf5\", \"tmp_Ba_example/\"]) " + "# TODO This will be removed\n", + "# results_iso = td.HeatChargeSimulationData.from_file(\"tmp_B_example_iso/simulation_data_iso.hdf5\")\n", + "# results_cst = td.HeatChargeSimulationData.from_file(\"tmp_Ba_example_cst/simulation_data_iso.hdf5\")\n", + "# results = td.HeatChargeSimulationData.from_file(\"tmp_Ba_example/simulation_data_iso.hdf5\")" + ] + }, + { + "cell_type": "code", + "execution_count": 26, + "id": "6a22a1b7-18da-4eff-b065-0628d63dba33", + "metadata": {}, + "outputs": [], + "source": [ + "# TODO This will be removed\n", + "results_iso = td.HeatChargeSimulationData.from_file(\"tmp_Ba_example_iso/simulation_data.hdf5\")\n", + "results_cst = td.HeatChargeSimulationData.from_file(\"tmp_Ba_example_cst/simulation_data.hdf5\")\n", + "results = td.HeatChargeSimulationData.from_file(\"tmp_Ba_example/simulation_data.hdf5\")" ] }, { @@ -59750,7 +879,7 @@ "## Post-processing and Plotting\n", "After the simulation is complete, this section processes the results and generates plots. The code reads the simulation data from the output files and plots:\n", "- **Potential**: How the potential is distributed in the simulation region.\n", - "- **Temperature**: Same for temperature.\n", + "- **Temperature**: How the temperature is distributed in the simulation region.\n", "- **I-V Curve**: The current-voltage characteristic of the device." ] }, @@ -59764,22 +893,33 @@ }, { "cell_type": "code", - "execution_count": 19, + "execution_count": 27, "id": "2eba199a-2240-4ca3-80e9-a417a19e94f4", "metadata": {}, "outputs": [], "source": [ + "# Non-isothermal - Effective DOS\n", "pot_05V = results[\"potential_global_mnt\"].potential.sel(voltage=0.5, z=0)\n", "pot_12V = results[\"potential_global_mnt\"].potential.sel(voltage=1.2, z=0)\n", + "# Non-isothermal - Constant DOS\n", "pot_05V_cst = results_cst[\"potential_global_mnt\"].potential.sel(voltage=0.5, z=0)\n", "pot_12V_cst = results_cst[\"potential_global_mnt\"].potential.sel(voltage=1.2, z=0)\n", + "# Isothermal\n", "pot_05V_iso = results_iso[\"potential_global_mnt\"].potential.sel(voltage=0.5, z=0)\n", "pot_12V_iso = results_iso[\"potential_global_mnt\"].potential.sel(voltage=1.2, z=0)" ] }, + { + "cell_type": "markdown", + "id": "f380baba-491a-4adf-aa7b-eb93dfb0ab81", + "metadata": {}, + "source": [ + "#### Effective DOS" + ] + }, { "cell_type": "code", - "execution_count": 20, + "execution_count": 28, "id": "5f0030ac-e615-4220-bbdd-6b94d3b37395", "metadata": { "scrolled": true @@ -59787,7 +927,7 @@ "outputs": [ { "data": { - "image/png": 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", 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", 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" ] @@ -59804,21 +944,29 @@ "cont1 = pot_05V.plot(grid=showGrid, ax=ax[0], cmap=\"turbo\")\n", "cont2 = pot_12V.plot(grid=showGrid, ax=ax[1], cmap=\"turbo\")\n", "\n", - "_ = ax[0].set_title(f\"Bias = {0.5:.1f} V - Potential distribution - Eff. DOS\")\n", - "_ = ax[1].set_title(f\"Bias = {1.2:.1f} V - Potential distribution - Eff. DOS\")\n", + "_ = ax[0].set_title(f\"Potential distribution: Effective DOS (Bias = {0.5:.1f} V)\")\n", + "_ = ax[1].set_title(f\"Potential distribution: Effective DOS (Bias = {1.2:.1f} V)\")\n", "\n", "plt.tight_layout()" ] }, + { + "cell_type": "markdown", + "id": "2940aa06-30a7-4235-aaf1-1e09f1cc7171", + "metadata": {}, + "source": [ + "#### Difference between constant DOS and effective DOS potential results" + ] + }, { "cell_type": "code", - "execution_count": 21, + "execution_count": 29, "id": "1c952c0a-6827-4c06-b3be-58da75f38b24", "metadata": {}, "outputs": [ { "data": { - "image/png": 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", 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11sDXv/51K5/nOQ444AA89NBD+MpXvoINN9wQTz31FC655BL897//xa233irqmDx5Mm644QaceOKJWHnllbHWWmth+vTp2GGHHaCUwoknnohVVlkFd911F4455hjMmjUrcMZ/0UUXIcsyfOMb38DMmTPxwx/+EIcddhgeeeQRKzNp0iTst99+WG211XDyySdj2LBhePbZZ3H77bfj5JNPBlD4Utp5550xfPhwnHHGGejfvz9uuOEGHHjggfjDH/4gXunZc889AaD2KyyzZ8/Ge++9F8SvtNJK3T7O3/3ud/Gd73wHO+20E8477zz06tULjzzyCCZPnoxPf/rTldeEj0MOOQSXXXYZ7rjjDnzxi1+08XPnzsWf/vQnHHXUUWhrawMAXHPNNRg3bhzGjBmDH/zgB5g7dy4uv/xy7LLLLnj88cex1lpr1Rq7GA466CAcc8wxuPfee/H9738fAPCnP/0Ja621Fnbddddonk9+8pNYa621cMcdd9i4kSNHYsqUKXj66aexySabdLg9zTB37lzcf//9+OQnP4k111yzqTwR4YADDsADDzyAY445BltssQXuuecenHbaaXjzzTdxySWXCPmHHnoIN998M7761a9ihRVWwM9+9jN84QtfwGuvvWbvj8cffzxuuukmnHjiidhoo43w/vvv46GHHsKzzz6LrbbaCmeddRZmzpyJN954w5Y/YMAAAMCsWbPw61//GmPHjsWxxx6L2bNn4ze/+Q3GjBmDf/zjH9hiiy1Ee7r63tgMbW1tGDt2LM4++2w89NBD2HfffXHXXXeh0WjgyCOPLM135JFH4oEHHsDdd9+NL3/5y/Y1yd///vfYeeedW35t9s0338Rrr72GrbbaKpreaDTsfWDhwoV49tlnce6552LdddfFzjvvXFn2VVddhQEDBmD8+PEYMGAAJk+ejHPOOQezZs3CxRdfDKB43WvMmDGYP38+vva1r2HYsGF48803cfvtt2PGjBkYNGhQaflz587F3Llzm/axra0NQ4YMqZR5/PHHsdVWWwWvc2633Xa44oor8N///hebbrppZRlz587FwIEDMXfuXAwZMgRjx47FD37wAzsny/DJT34Sa6yxBiZOnIjx48eLtIkTJ6Jfv372Qy8GG220Efr27Yu//e1v4j7P0V8RenfiNbkeS7fHp4RuRuKznUPis4nPJj6b+Gzis4nPAl3LZ7sD06ZNA1C4IahC//798dnPfhY33XQTPvjgA6y44oo27frrr0ej0cBhhx0W5Ntqq63wt7/9rbrsxGm7D4tb89tZmF9L7rvvPnr33Xfp9ddfp+uuu45WWmkl6tu3L73xxhv0xBNPEAD68pe/LPJ+4xvfCH59KXsN5fzzz6f+/fvTf//7XxF/xhlnUFtbG7322mtE5H4FW2mlleiDDz6wcn/84x8JAP3pT3+ycVWvH8CzEIi9IjVlyhQCQP/3f/9n47rKQoCIaNCgQbTlllvaMLcQMCj7ZWvkyJHBK0PXXHMNZVlGf/3rX0X8hAkTCAD97W9/s3EAKMsyeuaZZ4TsMcccQ6uttlrwGsShhx5KgwYNsuNkxmHDDTek+fPnW7mf/vSnBICeeuopIip+PRw1ahSNHDkyeAWH/9q655570qabbip+Yc/znHbaaSdab731gr7XeYWl7Fd+s7399ttWtjvG+fnnn6csy+hzn/tcYH3G+152TfhzLc9zGj58OH3hC18QcjfccIP4dX727Nk0ePBgOvbYY4XctGnTaNCgQUF8Wb1VlhWbb745DRkyhIiIZsyYQQDos5/9bGW5BxxwAAGwr0bde++91NbWRm1tbbTjjjvSN7/5TbrnnntowYIFleW0CmNRd/LJJ9eSv/XWWwkAfe973xPxBx10ECmlhHUKAOrVq5eIM/XxV5IGDRpEJ5xwQmW9Za9mtbe3i2uMqLCmGjp0KP3P//yPjeuqe2MMVRYCRES33HILAaCf/vSnRER0yimnEAB6/PHHS/NMnTpV/Oqc57m1lBg6dCiNHTuWLrvsstpWHffdd1/QT97+2D1gww03pJdeeknIxiwEYuvDcccdJyxIH3/88abXTRnMvb/ZVue+179/fzEvDO644w4CQHfffXdl/jPOOINOP/10uv766+naa6+1FiU777wzLVy4sGn9p512GgGg//znPzZu5syZ1KdPn1JXB+uvvz7ts88+QbyxDjizp6Lv9so6vJ3ZUyXrgITEZxOfJaLEZzkSn0181iDx2QKJzy45fJajqyxejznmGGprawvW5xgMb/7Vr34l4nfYYQcaPnx4cC8kKt4u69u3b7S8xGm7H4vOg3g3Y/To0VhllVUwYsQIHHrooRgwYABuueUWDB8+HHfeeScABBYu5ldV/qtgGW688UbsuuuuGDJkCN577z27jR49Go1GA3/5y1+E/CGHHCJ+KTG/TL700ksd6h93sLxw4UK8//77WHfddTF48ODaX4NuFQMGDKj9Ndg6uPHGG7Hhhhtigw02EGNonMY/8MADQn633XbDRhttZMNEhD/84Q/Yf//9QUSijDFjxmDmzJnBWBx99NHo1auXDfvn4fHHH8fLL7+MU045BYMHDxZ5jePpDz74AJMnT8bBBx9sf81/77338P7772PMmDF4/vnn8eabb9p8r7zySksO28855xxMmjQp2PivV62g7jjfeuutyPMc55xzTmB91hEn50opfPGLX8Sdd96JOXPm2Pjrr78ew4cPxy677AKgsMiYMWMGxo4dK9rX1taG7bffPpgHHQGfu2a/wgorVOYx6bNmzQIA7LXXXpgyZQoOOOAAPPnkk/jhD3+IMWPGYPjw4bjttts63UYDU1+z9hnceeedaGtrw0knnSTiv/71r4OIcNddd4n40aNHY5111rHhzTbbDAMHDhT3osGDB+ORRx7BW2+91XL729ra7DWW5zk++OADtLe3Y5tttonem7r63lgHxpqhlTnhzwelFO655x5873vfw5AhQ3DttdfihBNOwMiRI3HIIYc0/Qrp+++/DwClv6CvtdZa9tq/6667cOmll2LmzJnYZ599Kr9sDMj1wdyjdt11V8ydO9d+ndZYANxzzz21fu3nOPLII6P3KH/7/e9/37Ssjz/+GL179w7ijRP+jz/+uDL/hRdeiIsuuggHH3wwDj30UFx11VX4/ve/j7/97W+46aabmtZvvgI7ceJEG/eHP/wB8+bNi1oHALDrfhl6qM5vCQkGic92PRKfTXy2FSQ+2zEkPpv4LLD88NmuxsSJE/Gb3/wGX//615t+aBYAPv3pT2OVVVYRfPbll1/G3//+d4wdOzb6ocAhQ4bg448/rhy3xGm7D8uMq4HLLrsM66+/Pnr06IGhQ4fiE5/4hJ1wr776KrIsw7rrrivyDBs2DIMHD8arr77atPznn38e//rXv7DKKqtE09955x0R9l+xMDenDz/8sHafOD7++GNceOGFuPLKK/Hmm2+KryPOnDmzQ2U2w5w5c+yXnbsCzz//PJ599tnaYzhq1CgRfvfddzFjxgxcccUVuOKKK2qV0ew8mFf4ql69eeGFF0BEOPvss3H22WeX1jt8+PDSMqqw6aabYvTo0R3KG0PdcX7xxReRZZl4GOgsDjnkEFx66aW47bbb8KUvfQlz5szBnXfeaV/DMe0DEHyl1WDgwIGdbsecOXMs0TD7Zg9dMfKy7bbb4uabb8aCBQvw5JNP4pZbbsEll1yCgw46CE888UTp2M2ZM0eQ9ba2ttLzYfpb96Hw1Vdfxeqrrx6QrA033NCmc8Re9xoyZIi4F/3whz/EuHHjMGLECGy99db4zGc+gyOPPBJrr712rTZdffXV+PGPf4znnnsOCxcutPH+NRxrT2fvjXVgzkUrcyI2H3r37o2zzjoLZ511Ft5++238+c9/xk9/+lPccMMN6NmzJ373u981bQu/d3P0799f3Af23ntv7LLLLthmm21w0UUX4cc//nFpmc888wy+/e1vY/LkyZZYG5j1YdSoURg/fjx+8pOf4Pe//z123XVXHHDAATj88MMrX8sCgLXXXrv2XGiGvn37Yv78+UH8vHnzbHqrOPXUU3H22Wfjvvvuw6GHHlopu9lmm2GTTTbBtddei+985zsACrK78sorY8yYMdE8RLREfnH3sssuw8UXX4xp06Zh8803x89//nNst912pfI33ngjzj77bLzyyitYb7318IMf/ACf+cxnABQKsG9/+9u488478dJLL2HQoEEYPXo0LrroIqy++uq2jLXWWiu4x1x44YU444wzuqeTyyESn+16JD5bIPHZ+kh81tWf+GziszEs73y2K/HXv/4VxxxzDMaMGWPdijRDjx49cMghh+CXv/wl3nzzTQwfPtwqYcsMCcw5W9I47fLCZ5cZxet2222HbbbZplKmM5Msz3Pstdde+OY3vxlNX3/99UXY+P7xUXaTaoavfe1ruPLKK3HKKadgxx13xKBBg6CUwqGHHoo8zztUZhXeeOMNzJw5MyD3nUGe59h0003xk5/8JJo+YsQIEfYfwE0/Dz/8cIwbNy5axmabbSbCXXEeTL3f+MY3Sh/Mu3KcOotWx7krscMOO2CttdbCDTfcgC996Uv405/+hI8//hiHHHKIaB9Q+MUaNmxYUEarvoZ8LFy4EP/973/tw8egQYOw2mqr4V//+ldlvn/9618YPnx4lCj36tUL2267Lbbddlusv/76OProo3HjjTfi3HPPjZb1ox/9CN/97ndteOTIkaVWI+uuuy569OiBp556qmYPW0Oda+Dggw/GrrvuiltuuQX33nsvLr74YvzgBz/AzTffjH322aey/N/97nc46qijcOCBB+K0007Dqquuira2Nlx44YX2QbDV9nQ1nn76aQDuOjWk/l//+lfgs8vAzJeyh5HVVlsNhx56KL7whS9g4403xg033ICrrrqqdP4a/2OtEPKtt94agwYNCizQOGbMmIHddtsNAwcOxHnnnYd11lkHffr0wdSpU3H66aeL9eHHP/4xjjrqKPzxj3/Evffei5NOOgkXXngh/v73v2ONNdYorcN/8CpD1QOZwWqrrYa33347iDdxnBTVRd++fbHSSivhgw8+qCV/+OGH44wzzsA///lPrLHGGnjggQdw3HHHlZ67Dz/8sNL6oE0VW0cRvyKqcf3112P8+PGYMGECtt9+e1x66aUYM2YM/vOf/0QVTA8//DDGjh2LCy+8EPvttx8mTpyIAw88EFOnTsUmm2yCuXPnYurUqTj77LOx+eab48MPP8TJJ5+MAw44AP/85z9FWeedd57wlVnXuimhHhKf7VokPhvWm/hscyQ+WyDx2cRnfSQ+27V48sknccABB2CTTTbBTTfd1NJ94/DDD8cvfvELXHvttfjGN76Ba6+9FhtttFHpXPjwww/Rr1+/SiOHRc1plyc+u8woXqswcuRI5HmO559/3t6gAGD69OmYMWOGdTINlJPZddZZB3PmzOnSX3JbIc433XQTxo0bJ34lmjdvXtPXAToK4wS8jJh1BOussw6efPJJ7Lnnnh16aFhllVWwwgoroNFodNl5MK+sPP3006Vlml/Gevbs2aXnv7tQd5zXWWcd5HmOf//736U3aKD1B7yDDz4YP/3pTzFr1ixcf/31WGuttbDDDjuIegFg1VVX7ZbxvOmmm/Dxxx+Lubvffvvhf//3f/HQQw/ZV8Q4/vrXv+KVV17Bcccd17R880AcUx4ZHHnkkaKeqgWuX79++NSnPoXJkyfj9ddfb/ogMXLkSNx3332YPXu2WCDMKzj8ftYKVlttNXz1q1/FV7/6VbzzzjvYaqut8P3vf98S1bJ5cNNNN2HttdfGzTffLGTKSHwddOUvsY1Gw344yZyTffbZB21tbbjmmmtKP0jwf//3f+jRowf23nvvyvJ79uyJzTbbDM8//zzee++96MMXAGywwQYAiteAWm1/FUl88MEH8f777+Pmm2/GJz/5SRtfVs+mm26KTTfdFN/+9rfx8MMPY+edd8aECRPwve99r7QO/8GrDFUPZAZbbLEF/vrXvyLPc/Ea1COPPIJ+/foFSp86MK+j1SXJY8eOxZlnnomJEydi5MiRpR8hAID29na8/vrrOOCAA0rLWxyK15/85Cc49thjcfTRRwMAJkyYgDvuuAO//e1vo7/W//SnP8Xee++N0047DQBw/vnnY9KkSfjFL36BCRMmYNCgQZg0aZLI84tf/ALbbbcdXnvtNWHZs8IKK5TO84TuReKzrSPxWYfEZxOf5Uh8ViLx2cRnDerw2a7Aiy++iL333hurrroq7rzzzqYfifWx/fbbY5111sHEiROx11574Zlnnqm0mH355ZcFd4hhUXPa5YnPLjM+XqtgTI/9L7WaX1D33XdfG9e/f/8o+Tv44IMxZcoU3HPPPUHajBkz0N7e3nK7+vfvb/M3Q1tbW/AL2s9//nM0Go2W622GyZMn4/zzz8eoUaNKH0Y7goMPPhhvvvkm/vd//zdI+/jjj/HRRx9V5m9ra8MXvvAF/OEPf7C/+HE08xsTw1ZbbYVRo0bh0ksvDc6DGe9VV10Vu+++O371q19FyYlf74svvhj9ZXRRoe44H3jggciyDOedd15gZcLnWtk1UYZDDjkE8+fPx9VXX427774bBx98sEgfM2YMBg4ciAsuuEC8xmPQkfNo8OSTT+KUU07BkCFDcMIJJ9j40047DX379sVxxx1nfRMZfPDBBzj++OPRr18/exMHCt9hsV+tjY+9T3ziE6XtWHvttTF69Gi7NfuK57nnngsiwhFHHBElJY899hiuvvpqAMX9rNFo4Be/+IWQueSSS6CUavqLvo9GoxG83rnqqqti9dVXF6+E9+/fP/oaqPnFn4/VI488gilTprTUDo5W7o1VaDQaOOmkk/Dss8/ipJNOstYfI0aMwNFHH4377rsPl19+eZBvwoQJmDx5Mo455hj7y/nzzz+P1157LZCdMWMGpkyZgiFDhlQq/oYPH44RI0YEv7ZW4YEHHsCcOXOw+eabl8rExn/BggX45S9/KeRmzZoVrFObbropsiyLvvrP0ZU+sQ466CBMnz4dN998s4177733cOONN2L//fcX/l/9e+m8efOir9Odf/75IKKmDxUGa665JnbddVdcf/31+N3vfodRo0Zhp512isr++9//xrx580rTAaBNUae3VrBgwQI89thj4kE/yzKMHj269LqbMmVKoBgYM2ZM5XU6c+ZMKKUCf5EXXXQRVlppJWy55Za4+OKLO8R/EjqGxGdbQ+KzBRKfLZD4rETisxKJzyY+210+Xl977TX7g4LBtGnT8OlPfxpZluGee+7psIXtYYcdhscffxznnnsulFL40pe+VCo7derUSj4LLFpOu7zx2eXC4nXzzTfHuHHjcMUVV1gz9n/84x+4+uqrceCBB2KPPfawsltvvTUuv/xyfO9738O6666LVVddFZ/61Kdw2mmn4bbbbsN+++2Ho446CltvvTU++ugjPPXUU7jpppvwyiuvYOWVV26pXVtvvTUA4KSTTsKYMWPQ1tZW6p9uv/32wzXXXINBgwZho402wpQpU3DfffdZc/+O4q677sJzzz2H9vZ2TJ8+HZMnT8akSZMwcuRI3HbbbfaDJ12BI444AjfccAOOP/54PPDAA9h5553RaDTw3HPP4YYbbsA999zT9PW6iy66CA888AC23357HHvssdhoo43wwQcfYOrUqbjvvvtqv2pqkGUZLr/8cuy///7YYostcPTRR2O11VbDc889h2eeecY+mFx22WXYZZddsOmmm+LYY4/F2muvjenTp2PKlCl444038OSTT9oy99xzTwCo/UvZX//6V+vfkGOzzTYLXjWrg7rjvO666+Kss87C+eefj1133RWf//zn0bt3bzz66KNYffXVceGFFwIovybKsNVWW9my58+fL17LAgofUJdffjmOOOIIbLXVVjj00EOxyiqr4LXXXsMdd9yBnXfeOSBhMZhxazQaeP/99/G3v/0Nt912GwYNGoRbbrlF/IK13nrr4eqrr8Zhhx2GTTfdFMcccwxGjRqFV155Bb/5zW/w3nvv4dprrxVO+7/2ta9h7ty5+NznPocNNtgACxYswMMPP2ytHswvc12BnXbaCZdddhm++tWvYoMNNsARRxyB9dZbD7Nnz8aDDz6I2267zf6Cu//++2OPPfbAWWedhVdeeQWbb7457r33Xvzxj3/EKaecIvpQB7Nnz8Yaa6yBgw46CJtvvjkGDBiA++67D48++qiwSNp6663t6yDbbrstBgwYgP333x/77bcfbr75Znzuc5/Dvvvui5dffhkTJkzARhttVOt1nhhauTcazJw50/qkmjt3Ll544QXcfPPNePHFF3HooYfi/PPPF/KXXHIJnnvuOXz1q1/F3XffbZV299xzD/74xz9it912E/1/8skn8aUvfQn77LMPdt11V6y44op48803cfXVV+Ott97CpZdeWvramcFnP/tZ3HLLLVGfobz97e3t+M9//oPLL78cffv2rfQ3tNNOO2HIkCEYN24cTjrpJCilcM011wQPWZMnT8aJJ56IL37xi1h//fXR3t6Oa665xioAqtCVPrEOOugg7LDDDjj66KPx73//GyuvvDJ++ctfotFoBFYI/r102rRp2HLLLTF27FhrcXHPPffgzjvvxN57743Pfvaztdtx+OGH4ytf+QreeustnHXWWaVykyZNQr9+/bDXXnu12NPW4fsz6927d/RDZO+99x4ajQaGDh0q4ocOHRoQe4Np06ZF5adNmxaVnzdvHk4//XSMHTtWvK560kknYauttsKKK66Ihx9+GGeeeSbefvvt0leBE7oWic+WI/HZxGcTn018NvHZxGer0NU+Xs1cfuaZZwAUb1g89NBDAIBvf/vbVu7II4/En//8Z9GXvffeGy+99BK++c1v4qGHHrL5gIKf1eWdhx9+OM477zz88Y9/xM4774y11lorKvfYY4/hgw8+aIkrdwZ1OO1yx2dpKceVV15JAOjRRx+tlFu4cCF997vfpVGjRlHPnj1pxIgRdOaZZ9K8efOE3LRp02jfffelFVZYgQDQbrvtZtNmz55NZ555Jq277rrUq1cvWnnllWmnnXaiH/3oR7RgwQIiInr55ZcJAF188cVBGwDQueeea8Pt7e30ta99jVZZZRVSShE/Hb7shx9+SEcffTStvPLKNGDAABozZgw999xzNHLkSBo3bpyVe+CBBwgAPfDAA7XGzWy9evWiYcOG0V577UU//elPadasWUGec889l/wps9tuu9HGG28cyI4cOZL23XffIH7BggX0gx/8gDbeeGPq3bs3DRkyhLbeemv67ne/SzNnzhT9P+GEE6Jtnz59Op1wwgk0YsQI6tmzJw0bNoz23HNPuuKKK4JxuPHGG0Vec36uvPJKEf/QQw/RXnvtRSussAL179+fNttsM/r5z38uZF588UU68sgjadiwYdSzZ08aPnw47bfffnTTTTcFfR85cmS07RymjWUbP//dNc5ERL/97W9pyy23tHK77bYbTZo0yaaXXRNVc+2ss84iALTuuutW9n/MmDE0aNAg6tOnD62zzjp01FFH0T//+c+Wxq1nz560yiqr0Cc/+Un6/ve/T++8805p3n/96180duxYWm211ezcGTt2LD311FOB7F133UX/8z//QxtssAENGDCAevXqReuuuy597Wtfo+nTp1e2saN47LHH6Etf+hKtvvrq1LNnTxoyZAjtueeedPXVV1Oj0bBys2fPplNPPdXKrbfeenTxxRdTnueivLLriN835s+fT6eddhptvvnmdv5vvvnm9Mtf/lLkmTNnDn3pS1+iwYMHEwA7x/M8pwsuuIBGjhxJvXv3pi233JJuv/12GjdunLgOuureGMNuu+0m5sSAAQNovfXWo8MPP5zuvffe0nzz58+nSy65hLbeemvq378/9evXj7baaiu69NJL7T3dYPr06XTRRRfRbrvtRqutthr16NGDhgwZQp/61KeCe0AZpk6dSgDor3/9a2X7lVK04oor0gEHHECPPfaYkDX37pdfftnG/e1vf6MddtiB+vbtS6uvvjp985vfpHvuuUdcny+99BL9z//8D62zzjrUp08fWnHFFWmPPfag++67r1bbuxIffPABHXPMMbTSSitRv379aLfddouu4f699MMPP6TDDz+c1l13XerXrx/17t2bNt54Y7rggguC81WnDb179yYA9O9//7tUbvvtt6fDDz88mjZz5kwCQD/oB/pZf9Xh7Qf9mq8BHG+++SYBoIcffljEn3baabTddttF8/Ts2ZMmTpwo4i677DJaddVVA9kFCxbQ/vvvT1tuuWWwXvj4zW9+Qz169Ai4VELrSHw28dnEZxOfTXw28dnEZ5cePlt13+Mw41I3L1+v62DbbbclAMFc5zj99NNpzTXXDK4tg8XBaZc3PquIutEDdEJCQkJCQoLFnnvuidVXX936HUxYcvHEE09gq622wtSpU6N+A2fNmoVBgwbhRwOAvp3w4/YxEb4xB3j99dfFr/FlFq8LFixAv379cNNNN+HAAw+08ePGjcOMGTPwxz/+Mciz5pprYvz48TjllFNs3Lnnnotbb71VWLgtXLgQBx98MF566SVMnjy5qRXiM888g0022QTPPfdc5euqCQkJCQkJCcsOEp9dejB//nystdZaOOOMM3DyySdHZRYHp13e+Oxy4eM1ISEhISFhScAFF1yA66+/Hq+++uribkpCE1x00UU46KCDKj/W0pUYOHCg2GJKV6D4KvXWW2+N+++/38bleY77778fO+64YzTPjjvuKOSBwo0Clzck9fnnn6/96vcTTzyBLMuiX55NSEhISEhIWDaR+OzSgyuvvBI9e/bE8ccfv8jqrMNplzc+u1z4eE1ISEhISFgSsP3222PBggWLuxkJNXDdddfVklvUX4AFgPHjx2PcuHHYZpttsN122+HSSy/FRx99ZH31HXnkkRg+fLj1bXjyySdbP2/77rsvrrvuOvzzn//EFVdcAaAgqQcddBCmTp2K22+/HY1Gw/rLWnHFFdGrVy9MmTIFjzzyCPbYYw+ssMIKmDJlCk499VQcfvjhGDJkSMcHICEhISEhIWGpQuKzSw+OP/742krXRc1plyc+mxSvCQkJCQkJCQkdxOJQvB5yyCF49913cc4552DatGnYYostcPfdd9sPDrz22mvIMvdS00477YSJEyfi29/+Nr71rW9hvfXWw6233opNNtkEAPDmm2/itttuA4DAwveBBx7A7rvvjt69e+O6667Dd77zHcyfPx+jRo3CqaeeivHjx3eo3wkJCQkJCQkJCUsOFjWnXZ74bPLxmpCQkJCQkJDQIow/rMsGdd4f1gkziy8Bc39YCQkJCQkJCQkJCd2NxGm7H8nHa0JCQkJCQkJCQkJCQkJCQkJCQkJCFyO5GkhISEhISEhI6CDask6+lpXeO0pISEhISEhISFjMSJy2+5AUr02Q5zneeustrLDCClCdMLtOSEhISEhI6HoQEWbPno3VV19d+IFaVMjQOZKaJZKasAiQ+GxCQkJCQsKSi8XNZ4HEabsTSfHaBG+99RZGjBixuJuRkJCQkJCQUIHXX38da6yxxiKvt9MfIkg6sIRFgMRnExISEhISlnwsLj4LJE7bnUiK1yZYYYUVABQXQHIQnJCQkJCQsGRh1qxZGDFihF2vExISQiQ+m5CQkJCQsOQi8dllG0nx2gTmdayBAwcmopqQkJCQkLCEYnG9Pp1lxdbh/F3XlISEUiQ+m5CQkJCQsORjcboDSpy2+5AUrwkJCQkJCQkJHUR6LSshISEhISEhIWFpR+K03YeklE5ISEhISEhISEhISEhISEhISEhI6GIki9eEhISEhISEhA4iWQckJCQkJCQkJCQs7UictvuQFK8JCQkJCQkJCR1EW1ZsHc7fdU1JSEhISEhISEhI6BASp+0+JMVrQkJCQkJCQkIHkali60z+hISEhISEhISEhMWJxGm7D8nHa0JCQkJCQkJCQkJCQkJCQkJCQkJCFyNZvCYkJCQkJCQkdBBZptDWiZ/4i1/Aqauak5CQkJCQkJCQkNAyEqftPixVFq9/+ctfsP/++2P11VeHUgq33npr0zwPPvggttpqK/Tu3Rvrrrsurrrqqm5vZ0JCQkJCQsLyAfNaVme2hOULic8mJCQkJCQkLGlInLb7sFQpXj/66CNsvvnmuOyyy2rJv/zyy9h3332xxx574IknnsApp5yCL3/5y7jnnnu6uaUJCQkJCQkJCQkJIRKfTUhISEhISEhYfrBUuRrYZ599sM8++9SWnzBhAkaNGoUf//jHAIANN9wQDz30EC655BKMGTOmu5qZkJCQkJCQsJwgfQE2oVUkPpuQkJCQkJCwpCFx2u7DUmXx2iqmTJmC0aNHi7gxY8ZgypQpi6lFCQkJCQkJCcsS0mtZCd2NxGcTEhISEhISuhuJ03YfliqL11Yxbdo0DB06VMQNHToUs2bNwscff4y+ffsGeebPn4/58+fb8KxZs7qlbS+/3Y4z/ncO+vVR6Jb5qbq21JwIMz4C+vdV6NVTAVCwDferMnUrWDkK4v02qjCelU+8vGg9Yb1zFwALc2BgfwIpAIpAqjg2e/D4DCCQDmuZjGz5xORsHh0PLWfzAUAm64MyMiZOtqmBHO+0NzCgZ46BPQlZlkMpt2VoFPssB1SOTDWgFNl4leVQqoFMEZRqQCG38kW8zodC1uRXqlGkg6CyhquP1YuMhU2b0ECeLcQ8NQsr5v3RRkAbCG0gKCK0ESEjKuLNMUycSzNhnqZq5GtWZgYdp/dtRFA5oW3BO2hr74EsGwgQAQ0AOYCc2FaElRcO5BpUTM68KEeRjst1fMMvU+YPym+gaBMrm+YvAM36EBiwEgAFIuiNQISiHn1MeTGHRXquj3XRlBd5bDoAyikol2wGHZebqsgrh9WZF3nmvzsd1GigbeVhUEqZYoq6zDF5Yf9YhxHkY33RglZMH5uNh+HLc9mc8PF709Fz4BBkvXqjDFR2TE1kSMaLMkvy2jCFaQRg/swZyOcvQJ9VVi1tb3ehIy7z8/Z2ZL164pC/PYEekbV3aUayDkjobizJfBYATn9oIZ75gNC7ajLXoaURmej9RpVL1Lk/fdROmJcDQ3qT44GA42mgoA5SbM/loTke24tjtjd5RFm6xYbn2rqZfE6E99obGNyT0CtTup0EqNy2GapYlBVMfJFXWRm3OiqRt9gUjEyu88HJ6DKVaa9fJmuPKWc25mEeFmC1rDfaMkIGzT9Vwcsy5FDI7XGm87YhL3isSVO5OC7yETJVyCodl4G88kzYHbuyXZ2uvBzzMQM9kaEv9dPDR8jYHiBN993ePEqIsJ/PCyti+aDzeeVm5NWn88HWBVD+MSifhV5qZWTI+Ok0k9DFwTtl8E5dNKyCPC5dWRKlvHxKT+ZgehCABR9Cqd5QWT/HlQ0RsmFTJ0vXU9MRV3JhIQshqyplydWVM7LFZRsLgVnvgfoMBtp6wfBt0SZdB+lybDoKfml4NOfrIs7WrWV5HlM249ycm9t9rhtPQP7RLNC8j6EGruKejYnfG8lWF6Rpji3IOLicV0pQBgmeHcqRKBIAqJGjMeM9ZAMGQfXshWYgv4AulK8rm8+ZiSFHfAMrHXZqa41ZCpA4bfdhmVa8dgQXXnghvvvd73Z7Pa9Ob2DmR4SZH7V496iLLla8mjI/XsBX7DJlKbEwAVCOXIp8vpwpR8qRKL9cToZJ51WYvRBaWQqr8CTNkpwS1lOoGmWpL2PzyXhknoxW2goZBR3nKYIzKTNvYY738wbatBK0UJCyfdawilSxz7ywkPfKyRtM+cr21IiXlbM60HBKYGpHD9XAO+oj9IRTcMa2rCytSb7a5UQ20nujSeyR51BWoTlLK0bhFJ12X8QRV5w2ijgl4mR+isRxOcXjcgI1PDlWD3IC2vMirUHI584CkRKEzCpbmbLUKEnB42KKVVuOy+OncwVstByWx7Qpz4FcK2kbr70ouLAhY5ZLwnHX1tKotXyenJ9m4trnzBHlGAQEEt5xVRprW91y/bLLygWABbM7pkzxy1lUeRfMmrnMKV4TEpZELCo+CwDPfwi8+3ENQacD8ECBTCQlIiNTKUivbsdH7YgqRLkC1N8Leb0HaipkY0rXGnWYH+8/mp9DZWQVn0KBCk/JamTAZAJFbKQcVShHUZYPTMZT4Cr49ed4jWahrWGUnEaxmltFrIm3Yba1oTwtY2ltoiyZVqs8bWTQhhztIMxXM4of8JVWlpo9UCiOie0R2YPJl+0j+YrHicgehUFBsKdCybEwf1MqP4mdKlJSYWrjdZqbcizepbMp6ZVRodTlZRuOo6dERgqUfwTQB458cQWsryAVYSmrOpG3WpaFcxQ8fPY0rVR1MsTKI12+UIzGlK6sHqMwDZSyXr5YPSKdtZcIxbMLgHzubD34Eb6pianlp1Vpogxicl6aTg/r8tIibQKA9o/q81nRtsUkO//5f9UXTkjAMu5qYNiwYZg+fbqImz59OgYOHBi1DgCAM888EzNnzrTb66+/3i1ta8tUa1f34oZWfEouSyXHkezejT2+V03S68ixFmrCAMYVO70hjFMiTsm2WBn2tMFloOwCrKx8BiLzG7ySe6W6KL6gcsGmZJrNo/yytIzWf0MpkGc94W+qZGv1JERaHWzxvLk8V3Y285OLaFxBLHnZPJnstWwJKMhZNLA49zM3K5PIWTvwOCJjwGLJiZG1kcTbQ27z43ifbD6A9D/HfvwLykgZWZMSXvsEzQVZFcR/nAG7PJUswcR1eVrQymoBYsPG73XK/onE+5FdADG1YvG8Dd3wG1sVmo7jcohMKWRZJ7ZFfRITljosyXwWAPr00BxmUaAz1UR5nFtEjKUexN6r1l8mOZ+g6j0FZSu97ihdnJYz8mRzyTaU9asDCMv0OKr3tzjyV0I2dmbdV0pzvAykXLyluvZYCeruc4aAXismYxTbnqwge0F5+p/ln7GqGT8Vhh3Rkx/sqc6evH1VDorvFWT7fdihopL4SP/9+aCaxUuaZ2aDTbPcibx5w69BeMdmDvqk0SdEsWuPhcW85bJsrxCPdz0pMiszBxzBlfcEYiV4Uy86Hf08Ns6bU0S2DSYs0gWH5wUTG21ZkThfFTeXKDXpBF+h4MAveunhQkSErG+/xd2MbkHitN2HZdridccdd8Sdd94p4iZNmoQdd9yxNE/v3r3Ru3f5q6ZdCqWVbkv6BPXap6Dv+1bp1mxvArGyy/Z8dVD15UzF5LIVRJfCJnjNUmbtUnVlyMkwUqZAliyLn3rtwufJgC02tvkKOVnqYkmrI+h+vGLxKIkvky+Lz6AUgaCgqIhTOk0ppZtq5E2duSBpcosrR+soUltVtIYyOdr08Gf8lJJiSnkK2TuxEy44ONn8juuYAxbH2IV8KOWsg7FSHheZs1y3SiVh086ojCb4Qj8byJW5HfDK9soi4zLBA9nr0tUV8Ec+1OSF2bEd9uIKKkkTfLZWGo8D3K0ZXjw/rdF41t5YWp38kanTFLy9tfO0VkVCBTrr0yr5w0pohiWezwIF5yIlXrcPQFZUKsQiMrbYGHeLizrZkiYE8lAgIncPZTRSUbHEGxkoBUUEiuwBsn23Y0DKcSgYLqXlibQbHr3X+aEIZPKZ9tj1TskG2t64Y1OXjSeyfQhkqBgwHmtGyXBJw/SMTNEnsPbwVD0Owf2MdDtI99u9Zs+5oX92Qu7IqDejTUbxxzdZil+f2fh4un6YfEQkaRmV7COwBs6Q+7iwLEvkUe4Ryu1JyIWFlRxGfhgJr5dmi1GYbvih8tINn4vot/VJ84iQMm1kgxeke23npLGJfBGWJ69acU1W3t4DDC9nXBRw17S9Vj1ORqw9tgWSGgcNd9yZX/8USa/sAdtTCQcnduy1ycrJzpSVEaTxP15TbXTQBSXrq4mO2rJ1JJ+5by+rSJy2+7BUWbzOmTMHTzzxBJ544gkAwMsvv4wnnngCr732GoDi1/0jjzzSyh9//PF46aWX8M1vfhPPPfccfvnLX+KGG27AqaeeujiaH0dHnpgXJZreWJqqD6rTyLs7c5MzMOVkIAch51Z4024jHFv52N/Y0HuEKcIHdZxipIwr6+TTREA6CKJMJfLyPFnx5ogylNS3TjVx3l7F4vxyTFNlObnZq6IbxmOY3etycpOfNG2xCtuilPhG4l/Q6Zpb7F91nryU/MYf0sJJwf1xNZszzsKVHftzQscFr4BBxxnCXzFHeDv4616iTV5bxWthQi7SZ7GVX9sinV1SXGFLIkHuyYsLWuLn43krzoVfEHlxZXddO2y6yXxMFTuIxpdGtJhOYieOy2Z52RSp2qqqbzXP8gzjD6szW8LyhWWSzwJaMVTzqYuvYSWqsZgqLajQbKq6DHOfjJXALVN9BZJZs/21JaCbYAo3sT5TsC/yOEs287YL2N6NC9gbUZG+xeLYVm9s2TGZfAhklCcvx4qCdcjKqszmsRyUr/ex9R3N1x7JCptJ+OXoGEu25Jg4S9wS8lLvVT6xV7G9b9EYECJ/X/VopucY656BM82Q4rErTIyECuOFrL70SstQJixnj+yI8hJ8QR0QDfLDouDme5vX1M3SvOvPZdUx5i1QY/nKtJbCUBqQU8yP40V7F4Midt5NvB8W+RCE+ZUbm172+vXvcVG5sOpovSVlBNd6BaFcVErNjildF137FhcSp+0+LFVD889//hNbbrklttxySwDA+PHjseWWW+Kcc84BALz99tuWtALAqFGjcMcdd2DSpEnYfPPN8eMf/xi//vWvMWbMmMXS/lIsqcrXihtL07UNgH9XraJ8kZJhFjjhPyi6Z0ujsFaEI7FNVAmS9MSPozIqIuNbLrqEsIf6XSujhHN5i/icMuTE7QGcdWm57Se389R74mHIeHJydtPxQVnk8ghSbQ8VjO+v2JZVuByo2uq4LIjnye1cEYieIv6PzS8+U8llEUpTI8EJhSAXJJWjlkSTl4fsx7b4r8+kf2UvfAGHtiHNZzhZ4iM2L44H7IMKsQ3MdxO5MvPcyfiwXWXjSGzcAQRviIn8XpqYd568qF554Qrwdovr0+OqrRz77enMcW0s21wwIWGZwTLLZ4Hi1tylbgfid0P/fl9dAlXIaMVD5AYcqopq7vn65it2jJWptTZVuglyX/rpXbtOh3w3svh7efw03QJOCGB4M5Ox48NXYBLptn+MYFi+Q7ZgGGWcVdaZCJsIKQslFR18qE0Bio2Wv4iDlW16IIQ5Ny8a72SMBW+45+MXaNwDpazX7mg/xBQJ98q8cwb5+MGhE8W14fM8H1QSXwE+9DxW+WnKtDV8ggIkfw4MAwi2n1XpoiybTsF8jbZftEoyOdFi2w+IewWJ8Wb+mFksVOg+orjOXX1ejuhYReMoEqQwbO8zHOJWpf9GLrMuBYldpepjSVRuLg0vKScs2ViqXA3svvvulebnV111VTTP448/3o2t6iJ0tduBzipy9SITxIk6dKR7HyvSB2IZq479Stmx96EuyToKOWtRx1dDXrxpa05QmVlSvRWAdzVGRCwT00uY4q9DsFWZuIxcCEUPlRsFXpcZRtO/HNBKPkMulSAySo9JhkI5mlGhWM10frPgurfjDZ3w93w4VLA37VSqIBbiF9QiElDG4jbyzjnrX6uz3PpBZVuzJ47CE61+5SGYz+6XfwUUP0HlZbS0ybUU60wQpyCe6uzDAivfe9gIahYPM8UEJf5AY45tN9yxeIWIlePH2SIIhdsJN2l0pNLlkVbOo3AxwPvFLgme3ZI/c91QpClGJtYNdk3G0vxhil3e5B00O9vmkvfeLhOXecldq0tB3r4M3VV/QjWU9mvV4fzppC13WKb5LKCXvCZuBwBBBbvv/klNSYd5QV+Bvepvb/7F3ncNYF0JGBFbFpi7AFmWKMO+ruq7FyDBZznFjrfd1ur1RseTURbGZNgC5+cL2J+Ll3VyLmO4js/0DHctXA4QEaRuPsbj+N8wzVUd44SyXMkfw3q5uwTiMkoBFL41Zd6Ut3tUb2i2p5I9H0VzHs3wlhEYJQ6KMmx53gXH88WK86irLx5zIxBPM3MpJkkuAydv9mFIx0XDVfkpqN/NXZ9V+Z0MX++36lHRDjgZ/bYaaXKoyHBd5e4rJp1kunnoK9K9ZrFNe+uIXxIEuNcRvaG1h2zieMNl73feMNt8flpUrnmaqbOOmkI+ZzeTrVdmR7GsuxfgSJy2+7BUKV6XeSxRPl+ba5Ps2hP1zM2OjYxdw5TgazLM5erlc0pXlocjWA1k8+zaHCMh/IHArBZGjv2CbxZzLlOE2Qqo3MtQhb8grzt2oTYfJDDVtCFXhMxSQ+ftiu9zMOUrCsvUTLFwVTwVaspMUSSey2fISbdFMTpLnPYaglK9taJEZY5Yo/nFpgBFhCxnr/wE2Z3/LiJA5foxwn4dijz5ME5RTVk9V1QgyxgUJ025J+KabOdmrBhenQy46Rq8jhe7NvwA+QnymIjCevnmFVnMd4U8SATnr676qgcNe890l6Nflg+qSAsFWVEURIt+l42QDVflryHTrLm2rd1MPhNCJH9YCQkRKNRTvtYpqPYdUIL8m6ry4lUoTezVFPL2Bd2koIzYfVrEUYWcSdN7N2bGJ6zk24Ij+m9KwVOK6jxyAPxjRi68Y2UayPwyuY/FVviZVEDxdVCwMYf+eGtRhlXyimoVjIGBsgrjoOCwTtvPeLp748ZL88pXutecYROU9t1LofIPcA8RFXtjfWlOhaqRp6jC1ZlxolF1OXByGHluU1zOi1eQeZSfx49X9lKJ5vEVs5zKqcDPqwmzc2QP7cCxfhHk6fTz8/LL8itvLCnkr95Yu6uMlaPPb7EjHaXvE+Slw0u3dUa4NK+ewqZGmhcFN25wT5yiQzCP1f4wuXsP6zIgul8Z51/n4bT0GiuDrShfW0ErRRa3wOWHqCVO231YqlwNLFsgMNMytwHyeHGghZuLWHCFZqJkhbDHfpiXQV6ZxMqUddhFLPaOWFl7y0TIk4k1taS6mP8etznWyV5kdz4++aZYWdYNARB1BwDl+WiV8VBcMVv0LIxXLB4l8SXyxDc9cuK98ArlqBygSrnKMlRkQwOK+XWNw7N4NWFB3I1okzh2fqNx+ry7PGyuEJPVSl9HwmSLnY83b0OzOArixC1H5CMRtgpdKy+vTcpduYH+2dtyvyrzmqV32xDjw5pk5fzbhS+PMC5IrnF7De4oevj5vFLsIBq/mLAc8cOEhIQlBSXrU1O3A/7aVafcCC9rKtMUSq/XLK/tgwtL7gCRR0XyiLWhrDzbVjlWFImzCSX9E2u7FWfrrX1zBdo6zwgplpfJQDGuoCwXINZC20ymjYu6StDiuTFEsLzN5C0qKtwqad+s4m0hdnKtrGkuRdJdPvsvQtj9tvqPZdGTHJsozfaeOaOq2hPfe5Op7JKy41+4Z4hZpLp60OK1F1bqzxfO5wxvCl6C9Ov0i42GqTLdjFs5zJVUQRbFCffOFzsX9kIiQBBS0zDj/1WHncLO94ks5cQVw/pYm85VdN+5yQjnvuiKMaKJDgkbPTYMdsfzVMnBG7YaWJxKzyXGHi5hmUCyeF2SsTiu9rL6qtohfhZDzb1W9PnxRWW6XClbhLn2Q7k3mgwhMHJ+E8u6W5FmZcxrZTqHgrF+4LkVI3nmC7a6vcp8mgp2EeJNFo1k42DWR1OX8bsKU5qCDntuAVRBjAsLVTCLVWgLVmMZCxbvy4O5LdBv4gM6ntyNQ5wzJY4tEQ462Lmt2Ue1+IepWjG0ITjritijj0Cs4FhePk/CBFEOJ/6BhRDpnusxFUpQQQKLeGvdaoeFMSEvX1MZzZDsfNRx1rqbd5pfDgBynZc3Ea5I3VeXjxsqlFqwBhetvvZIRtc99bHfuUrvF6xdQV26XaVt8PoUyJWVW9GeKiwOy9fllaBmWbF1OP8iPk8JCYsadS1frcFa11QaKC3YEiXCYPGBmwBtVeqYnbFEdXtQ6EbA+OS0FqpkLCfdHta9AGOO7Fga5NVhrLJ/vOeMYTC5cMUJlVjxvEGbRJJ7rV9sCsx1FmAsXHndbuNe92W9wie/toxVLNWV4LeBf2yMM2fHVSgYF10m5YLKlbp1rQV/dWf7YhLavXCP0Kwun2PouSTkGVcVCmfi8eKPi/eobOF/Vz4BmC54T0jFuHoTkwj6hxk2h/wp2UqYd8RDnNdHBiwgmuz5TkQbwmeuU9IWBp5lK1PmWv7M6hbpJhtvVqSPAbfzuhH0zjU1Ei+Jq+sWs2ePkdEYoS1Lj7Szqv1xWXN/LSmjBdTlxsuTewGOxGm7D0nxuqRjUT7JdrCecipoFq+Otkf/4fo8vrfEhC2K1hGWrFsZ7aHXvKCFkTizKBoySnyxNQundbwDTZcZeYIjN3w5D0Ymy8GtSM1DitL9IpUhR65f8/cVrgV5dfFsryDDTD5wQ6Bi7gmywtWBypBDuxkgR6sLC9uiq6Rfg3NWuIYChJuwWq2QK8unQML3a5EWWrpyJaz/EGBldEhxVi3gMyF9/iNxgiVxucAinMVpc1DNycSP6lFCpMT0Mp0IL8QqBaYn40aYmIwTJEVWLtdkMrSIleGgPT6Z5Ane8AgZVq4dFiYTC1emif6WNjF+rNitx0U1Pe4oOpN/UStfl0N+CgDIOukPK5HUhOUBtZWvkbgglypZqo18pJ56Cl1z0zS80qpAYfl4sz1neoaf6kO+F1VpxU2hqAXjtCUDUrbSRFwPiH6pkrwEcAWoUExGy7REHIb1+nHmbSn5dhY0xXUv8lvosbEcouJ8+T+9+6kmNpRhMZZ7cuUie/vJ4yjG5YBdVEvcBBgeaVwTBHs93sbdgNjDkxd8DPCHrGRwIqPFP0IseYF43kHzeJumBYKyYkPc8hrnK0AjHff9UDFfqY7keRcbebLkd4KRRFFXZM/Ksr5aS10lIB6OVCEuZ5imu4rJ2/uxVtarh5kEMQ8PskE8CzEC6bdNyJUc27DXnNqctGSsWuW0HeXAy6vSFUictjuRFK9LAxaF8rWz5XOiKixUeZgcmbFERZXIAZywCjmz2vOVH/6xjCVi66Fts6umpTi9qBZxfBXyrGGN0lWPrW05iaIdVWXlOuKiXDwVMrniakJVsdelUYlClpS25lVQ0H63yISLPMZewI9HoL7kx3DnUilAK0NjG4CoQlSheCWmqasBtinkyKhsFiBYxO0ziGEG5OaJaZf/+pTT3HFSzlgIcXLLmTKTte0xhC9H8Qs4t+R10nbjfJBcOFB6mqpZu4VMJJ/tQ2nZ5GSJpFuuKNNyfTQkUAyjGUJLyCTTFGRNZJLH0TQ0T4u2NQJz77DHfrz3bOYbbpRVU4e0dhVvST5fux/JOiAhoR66xudrNaiFu2fMwpapWoUeh1NcsHiuoxNUV+SRVrJ2bdQ8yVjI1mm5U4SWaeTCYxWJVxF5/0NaHnuVHWcxcRhuZn4oh7OO1JZr9rV/ZmjgLChNPFuE7SC4mpt9ZsIcG0rnIhVLLuoxtbnsLl6x5xPzo7v3vlm9PVWkE99Tc/e8MfiTWkxk1ntL8rx4I8k4oc/T2dBIb1/gAt5YUiTO9/Pq96sqLIhomawc36hs1EqAo2T+6f6Gj64kuLQRNtUQKzbQkfpxtmmmDHZj0SNZ6v9UhUMUl2FvddoxYUPkHcsGl8WRkDfHneWi3eXv1cfyrHQFEqftTiTF69KC7lS+dkG5xaJj2igXeAG5XlTsVTzeaDq4DC+Xt0iu7qhLUB1zYPExC4IYI/IYSVRxEyFMYtGzDK9YYJUOF6VlWgmWa3Glu6r0gq4ppG8Ra8sowtbdABn3AXBuBoDC8hURNwOK0MMwB8Xays8JFDs/xsqBOQO1W9RrLaxCVWgP45vLk6PNJ4l+OLfVBkShIEySFRTTixXikQrJKMy+QlaYYup4IsB+f0KxIiOrlgLsL9Z8GLxhVaxPZTKw/WVDHciQK8+WQ4W1K2+fmM9U/UDA4RMyPyO77n0jhrJ7R7Ta6PVWD940kccKjmhHqope+1WVxOqt2dC6w7380siEhIQlBU2Vrx29WRHYD9+8Qrh108Zx7RAF9SmzJvlWr/7d1ssX65Vwfc+bp5wiwbi0EjozPg4EpuBVsjBekeC8YgBCrZg51jxOxSrlPbPaN7JNcO7uFYsvjuVr/a7eQten2RtlIKXf9lJO8VkHjuWW5eAcMWiFTRdjEZSlAJ5fKTjn9jY53HtpUeNo2G57xpJkZ1vA4UxL3Slovgl+JieseGSJJjAwzqaMkPKSvUspKIZKNpvGBtA/tbEw3JNO0IfotPBZXeRkBdpKcXLipenOE4/kJBDeeedVykNbsnIlVrS7+j7K2yOUwL4MFITRB2sksfGQtXl5ZNVBW5q2tyacMUHXs1pebi3+3fnuJCxnSIrXpQndoXztwvLsGmMOYtasdpXRS6X51Z4zCUt2WfuMHGcrfHUTlZt6XN9sMnM5YEtgN05vnSyPU16cCuWMPUG0RWUcD4WFqzJKOmuRSpaUFC4HlOdywN8jjGeWr9aS1dSHMgvXrPBFxuTkB6j4k4Qk/dwBgCTAemMWrT4La2bpKrdcuF/yz508kfE0QyLdg4cLOWIeWWEjr/QoLi6y6kkTSbdWpeYfkQ1z2ZifV1dkcSBcAFg5fczazeMIpn6Xz4oymcDFgG17PBwbIh4OKaQ7SYHFKhtjnuZfwxyCdMZFaiH2LAXI+0AZ6axz3Nn21UFI7DuPrqe9SyeSdUBCQmuopXwVGVR1OuS65fLFKi+pzycMxirT8lpoeqoYLyq4buDz1TI3cn21PmNNXc7q1T3v64rE6/2lXXYNY3kVjy859mUU76CuTekx8N/i4vnibXIruf1Ali2Hs0eyr9cL3scV4bZJjjFw5ilGJ7IguRwRYh9BvGxJ2I3LAVVKUuLMhu9FmwWRMfyYnf7Y4l21oLvJFPbLs3At0oQjgiBPjFdbn7oe9+UbYpvXTDfrdIe5jN9H/2IMLk6/ldRkz1vinxMZZY7tNR9JE64OxDgTy2OUs/I7CeaHIcG965BEPy6PyPhdl4cwj9Tllq/O4CN4HvbHKhJngx2xVC2Z58Wp71r26ZqXWG3itN2HpHhd2tCVyteqYjqaZpmpJ+vvS4tRohjDP218qC1jwubYJMZWrchqSYYl6HizGIo4QwQpLuO9qsKVrrJFZeRPl8mJPrkqyCiMTZgy5CqHsSYw5JIAOOtYz1drzKeriVclvl5tfFY4I1BGwaoYqdDUzK7eynIiRUrraRXIZwQkz0g9kPevULry9aF0enqV+dTLnB3FJRQ8SuqzQicXIIjjc8pFEQIeLFvhkRXuYsyEweNiRJeF7deIm8rp0TbHORWaV9Z22Zf6Z5KCAxcmNq7FfIa7D/jyEUIZtKLqAcVrdow7iufNmAxLD7pT0q4qPu1IanmbO4Vw4ncYiZ4WSP6wEhJaR1e6HbC+ybsQhZIF8kNbMIpLZqnqK1/1giU/pAW3Vhi6xPieoU/uNQnn0ieyzFVyGc45iwhiv4uT+GvbJfirSTVt8ZVVpKXCOFeG2ZTmgfqHe5HFcMcMhJxxIaNYEyfD1kPReDh+pVj9nLcrEtmcwtGNCZlz7q/SjK/acTTnq2xv2kThvtS/aw43Tqxuc6CCuAgMZ/LjzM4MhceJxeXjcUH/0jLPKGU+XIUdhle+9+QQe1AK+mIbVcXnorJszIK8fsNJ7sU5Y2n22jTXr74rlMWzyo2rAJvC/cOa2UVajl+rFGmpP+Zl4+KRSslnHUF1YmGcFasaLpYu7Odr3OL9U85jSk+3quhzi+g2vr2UInHa7kMn9NkJiw1dcYfgysyW629SbMWN2WkqKtLZsbvpk4uwqxBfPfxGVazMxI6teGQsyFswQu7mxSldqqWbdq8iaeKfgpRTYCFoIsn9h2YgyixRNC/t55oumj23Oi0UaRH7UorL5nqI3Rv6JE6BzGOOlXesdPna5YDKwX8SV2wLfi4v2VyeHJnyTinKj30oRi7s+dYddG7HSMTJjeJNRFmcfgAhQOUEZQbYm/NifrMm+pak3hQMtkr45YiCKShIOTbFBtAf0JK6VLxt0VuB4sc8ELaZWFpgeAJfMEzzhzw4BZFspXcV/lDTCmJ9QveRwOAhp4PopuYlJCQsZ1BdYrVE4svqQqFj0nm834aSeJ0V4kdmarLXefj6ZNKcERz/kdxrAHNYKmT9ZjVZmKSCLr5wq0i8EjJceyZHqHwNKFLi9iEluQgoHkdVxXzgjDme7re+LN1U6bspUJG48rarOH/z9/bjTU32eg5ZLsE6UW1rE3t2Mc8ZfB6wK0AVV4QdzYiPV1GDCuPNWClGjpWCfSHOPgsyPl1OVpW8fr1r2VTsX99GNjYc4fXunRzL/wXpjBBRP82L947tR66MkjN+M3BXtYpYQav4VS+62hESFptb4n5Q/FGM0MbmQi343LaE1JrnmrJ4P43H21PYScKclK4JixLJ4nVpRactXyvydpIHK+hf68xP6QAMzXHHKE8zH6PykwOfrkpmhSfvx/E2EgJda6iPMH3wUgPfrrm12uAWCmGTQuJquyM+rKXY+BVh+GFFIGRokEIboP2DFXUQOUrErV99dwPN4oWbAU53PQLHrVzFedJj3NTlgE2t2BRvWTF6Za80+eTQH3RJMygibew4mKsIW0mkwAB8rrA44Q+BkTjNUASHF2mGYcg5FjwfeGEp4ye4fvrPDrG+VboYoHg4JNfRoosgsWiRxl59MnOK5zNDreAeaimsllCeVtGsckvXsvhYOaq5/KKEuUSjN6oWykhwyFQnX8uKvR6YkLCcoI7la9U9p4vfOPXqNZatjnZbq1USdKeQJ0iXA9wqNjO8QrMhUx5Y4ZYp+eX7vNMtaKrGF5j8j2ZVy8RWspgjB7Y+Qy4qYvkXPEhkZ90x7zARjEmBMLUkcm4LwB0gufaZLS7hExLrRVX0NXzpvjye9CRQ2rJRaYvHYA/mOsBaP7O97l/GCU5AFOLXR52pb3kzL0K5/ps0Yhlcucb6ktVnHgVMXA4Uzy1FpPJPHfzZIbsm2sbJmk/sfDIl+sQeOoIaYy3wBlqIVdyL/PnrTX97fRvfzWCW76zO4pSSHndysZpM2xg2iW2rYnwy0uSyKcQNFcyVH1q+KtsO8czhF14jrrs/huU+uNX6QpCUrnEkTtt9SIrXpRkdVb62nKcDdcTa5lhm9ZpoCSugVzI4z/O6PWJx9Jf3sjaVh2NrrTKLnhV2r4+4xVovUZqYiGb6ZQVxjv6xKuSxIS+ayIhqCSDK0GBLZ0EPC7cAedmeColcUbGH3hOxeO12gLibgdig+izEMDKF4tU7/YqZ3hevlDWipShUnD1iA4IcGShwL2DzauLnrFbDrYgnN8ZmrrHx5pYPBdlkvnZF370T7p9D035TH/+4V7Sv7PSb+c7GoYhnLgCI+YriGS2HM+QtTIfIF0+nnF13fr9ERyShJW+zKeTFUZjG4wEliRvJ6slm9tJ8+LKdAH/FKeDeJONi7aiKXhRE0CpfW0STO+xyi06/lpXePUpYztEhtwME8eEXVxi/17MbNcvHZV0b5FLHReyP4RHfq5zDxvQ+xg2CVOI61wWFkpbxUFWxgpTehCNaoKAsT8lKMNpApi7lck6eqle1oJGF4hH2jZ/met+CH7rzpWxiaA3Jvzfgzm+Rzt8k814zt/HcGtSxETm0gugwn6uMF4oFX7CccE9m3PX48L15s4qPR9l4+YjGm4ko4wq3DzyP7LEdE0HeIp9H02nijS5RUkd5QuQByu97adiMH8nLMzp2Tc5VpFnunNS8DiyvJX0pRhrl+ag1Slp+E7E+oUu60spVWdVWPoXdKVDgLfe7Xly2jgzzdtRpU0e4bpl7gY4oX5PStRyJ03YfkuJ1aUdd5SuXi961uKzPOiPy3Et+BI5AGqJqM7JM7JgpZUP/TV6ECEYa0GQ4xDodI+OlcVzb4oit8GUDr7s6hSh8PSq2RBgy7iLcw4iCKZzZGFBhlZojj/huhQ57e6WQK2g5tlfQ8b48kCtCGxSEf1dlXp3T7gR4GCYOTAbaeLewa3CjILdKy1cQMnLEqhnZqwrHl2iKpLM4MZVj1wUjrqJI/ZBDOUDuw1nuNaQSlHTAfAHZ1kkACVZkBt5kIn1OTC4my0geaUnix+a8BbyxhA164diH6Er77C4rcbnBkKoYs4sNYVVaRKxZWkvHrN1++XXK6Qg6Qr5bzdMapV2+oDr5IQKVSGpCQrXyNUpDm3DZ+jXHK+DpRmFqpDUXcxasbG+UmUqut0YvQHZNBuO8euEQ9JgtiIq1ha/dkTGoz4MYt4SvPOHaJrBjbikaTy9zBhCFLYJs/4tx0cQG5sNc3II15I02Vsv6aaay0BbWtVW+VcX7VQGlCl7nCuFDEe4NSWQKW8VG1OeQyowFIvGV7Yo0nT22WYV4ZGVXbPNfD5RpvA6S3fS6zhGPY6/cc35p22BylvRNtLAJwbTHrDVUsWd8ssipf0Ah0X3ZQY9p272C47LMsrWY/npvr+9mH+BiRhU23OQ+xhoqm+zS7NthygUI4WkQhfh7061Fqd0UiuxqJKVrNRKn7T6koVkW0OwO0pJlbBc+WhO7S5fdnP2btGmDTVciPZbHQUXiymRdnPI1vYbv8bHQvjmdDGnC5KQMKQqtLblnqoh/V8D5/zR9ZmGTbsaCy5uac+OegJQdQxu28ZrWROPL5GW5voMAiBFw48fDjv76LgdysUmiHN8UcutHyqs1ehwLu3gvhXScIVcEex74uRSc3ZidgsUFZJ/FmTlurTm0cjrSW5vO40keg1XtLGCZHCNz/PqJyzFZ07eckXT/uouV57cj1i4zZHzomqTpQZO3A3HhhaNdltYRROdX1RxUYVxU0MOiJoN1h6celU1ISEjoHOr6fK2yju30bTRSgPSFyfbk7Vl+/ttkwS90mHFHocgy9cAwxThjjDBIIQnbVt5ed2z8+EuOwTkdWL6QhfFhKjYSx2IAmxE1rsVTyvqXJCHKuTI8+BzUj29llYuxN+VJhOWabxgw9l29J76n8jGKxUXSoz2MXQQRghGMUGxSRtJjhp8VlKweJAGWcSJMMizaUHH1B8TUK48rMMW/MMb9EEA2h9zLImXYkEfl2gFtUEJuD4C9mef2ygtXEu3ogwHctAsIN0v3iLTtg/eYFztFRZHdQ2jL1BnuCbm63qR0TVicSBavywqqlKvNlK6deaKueCKXtz8uGD82VgLul2AF5zTVEFrdT5uNIN7REn11aTaZgJDXB0uGK5sRJkf0TZyyN3DT1/AV5Bp3eNNHs+lXZYjHaTG+PtqFkQDKM+RZDmQqtHwFt3DlFrEKuYrIR+LjbpN8Nmi0TZqV6fPEXQ1UuRzg/l7jWy7GgI+PP1ZNQfZPEK28GNltw1aUp4g0pIUxEqHEVIwwGULidcSkg8lUyFlXGMTrZ/VqGVcW6zdJWcXaa35BN4pYn5+SHhUebgolZSv3SnaHh8VdxcscJVOROKpIi7UbXh/FcaQ5sXb7VcXKa4UMtjTN68hR+TIRXhMJPlSmoDrxWlayDkhIcGjmdsAwsDCjlLCRTLSck3FOWl6x78MR1p8rp6EmrSjXHcMSRdL8VPJetuAYKsFvwOxYWWvXkkXIyIkF1MkqXpeJt6/uuwqZx1nRCJ8Z8TTFflj2x8/+6Gw4otcvIoBU5s6THisCIm/Dhcf2R3lu9RqkG6tcstUb9ukr7lwaBR4gTA2By4G6ez26/PV/Pu25CyxRaQdh51NQhvuKgzAWhjuL4tIiMItZWb4/I/y00jjny8Gbk157RTiSLnsrE8mPo1Dc8GpfrIq0Ro65n1uyYePb2VjLuhEz/oJBKoz37lqtTgGZ1zUqMgrOdQvnr3aMSyxfOzEnuxrGjUsZc01K13pInLb7kIZmWULsjlLrLlNCkqLpMblYerEpf1Eq2ZMtx+w8VhXrRmwlIm8TcSo4VpF88i0lrkhTTKYgjtbylO8NhdFyzTbhQ0lYsrL8fDSYvGlX8TCQFZavVn3JLUwjv73r/rkhKEok3U/jUJ9Auk1yc3X4Vq0lYdJhMkNLIJVDmAizHHLL0SZnhEAZz28VcZsPGacA7Q6Ck0TZNuv3ys4BgsrZtCLYcTAWzhDjFMpZWTG+3ib67x5WquXCy8N+TEtFL5t4ObHbQvOo8Nr2rmvf8tW3uBEnxi+GPdc1Q3A7sfWF8UIPXhbPMnZyWnYYdeu1LrU7UcbyjCzr/NYRXHbZZVhrrbXQp08fbL/99vjHP/5RKX/jjTdigw02QJ8+fbDpppvizjvvtGkLFy7E6aefjk033RT9+/fH6quvjiOPPBJvvfWWKOODDz7AYYcdhoEDB2Lw4ME45phjMGfOnI51ICGhBDHOYVfjEgrq7NPi8VbpoCJpSv+4zuOV3ARFtUFWH7k0KFjrzYKfmGO9h4L+zwpFVKaFUat17LijaTRvuNl7tnuCnHCS4qfBLYTmh11WhSLzMSq9F1wJLl4XZWUtk/ThuFh8qGSs6xMJCdO2gM8FJMwU5I0B3OvnfB7E97o/sVNUctpi86QcsXmjjR8sT9YH5hUyRLrobQK8n2HtLUGWHWm733nlDZZ4ZlSRsLLnSBbo54mlVdUvxfgx6RNu5pvhyqYZxPMouPlkizFhNrdFOlghkeuiin+S3IsuiIaaOFYSa5a51G2xIi281/JnNHs6vHhbk3DsHHZPlcTbNHsHke1LqIfFwWmXFz6bFK/LGvy7YFNr10XwWC00IJbVQtzEAanJQNkxvD7aP/JYpBcIFysT9ldBV6WNEWGl/7pVwSlanWzEJb0sm2AtIazlIuuL8vtj41ifBPHRflXNxqiqcUWQw6gxzR5eWO9V4bM1ByuHl01m3PTYRTV0+vzmsHmKTdm9brUmoW6D2IpWQBN2U5CSAymIcODiK8Ygo2ma8liZ8PzZlwT1x7a4XzDlV8IIlSSvLIfy03zoOSbeszfzK9KXsjivr4Y0cctWExn8IOGXycIUlBUJexvgXe6AfwqDpnOyKpSv7DYRNC+SVmdKVB2XPlVU3EoDw2XeL8i4xQUzVRNah/kQQWe2VnH99ddj/PjxOPfcczF16lRsvvnmGDNmDN55552o/MMPP4yxY8fimGOOweOPP44DDzwQBx54IJ5++mkAwNy5czF16lScffbZmDp1Km6++Wb85z//wQEHHCDKOeyww/DMM89g0qRJuP322/GXv/wFX/nKV1oftISEJhAf7tE3cnPMlXl83eJ5OB/w4/gSzZUatu5IXAGtTGG+9v0l0upxTPtg3pCR17lNA2B+gC8tUOSJNitAvF9+RKg5kl5HdZxC4atf78GO3Z5Z8DLNiKSGjFMqxpisjBIywgmVx4H8AYjRoOhqb/mp5K2WyQlS5rt0CONNquFzbnK5PZ8zdnSJnc/oZIqc1LprdExOzHnXBt0ovSm7BT3ndJg/yvnNrupSs+bFiFetMJXz/jycFc1bg/jFVqbsi+6Z4xBiYfLizZuAui3l40alEgQAsS/JB9d/5F7C76O6fTbdn8psEkTnhCg4bEv0LTl7/QWnNEzjPJpYdkLwjMEbkrhta1jUnHZ54rOKFqnn46UPs2bNwqBBgzBz5kwMHDiwy8r967/m4/u/+6jLyouijlJ1EckQd8opju0fdyx4IE9z6RTNWy5v2kCZsV4AKCsYecG9nEWDkFFGhrQ8nC6OHfv6ZFNuqTxMmEA9GqAs1+Xn+liHsxykXJiynMWRleVxKmtHphrIsgaUypEpb+/FK9UojrOIrGogyxaip2pHDzTQQzX03gujnaXpcF15aqAHEdqiWwM9COhRdBFteosfK3dMJXINoEcDQIOgcgIaKPY5hXGRMHKCalDh+9TEtev8WhasPORFumoQKNcbP84J1IAXLvI5WZTmzdtJkxky3+2ySlTKiRGUMI7nselEyHNWhiE8nNSAvHCTdC2Ta1JouZ1HmsrSKmWJgrioIpa8NH2cs9UvILlUEl8jrU58rH910OqC3RH51ihTazjq+bfQb+iwLi2zu9bpuvU+vWsfrNCj46M2u52wyV/ntdT+7bffHttuuy1+8YtfAADyPMeIESPwta99DWeccUYgf8ghh+Cjjz7C7bffbuN22GEHbLHFFpgwYUK0jkcffRTbbbcdXn31Vay55pp49tlnsdFGG+HRRx/FNttsAwC4++678ZnPfAZvvPEGVl999Va7nrAI0Z3XyZfuWoiXZnZpkQJlH9IqYknEeTFwmgUvnmkWIs/qgFFxeJe2seaimGLN8Eg4fgm4Pc9n+aXO6+L8OmL5NcnRZSiwt4f0m0TFmzlMxr5hpNWZmZM1e1L14iDeWHJ7pRpoUw1kKkeGHJnK0caOi/gGO/b2quHJ5ujhy7HjNuTIFAXx8pi0XFF3G1x8Bv3RVrvlyIiHTbqTl+m5zE85MqD4CGzJPtNKwgzulNlj6NNChXLUHet4LWeOs9zlhZEl5VkZV8UrL2+hXPPtH+CFY/Eo2ddOy0lPTUbYWFjZcJgGqshr8uTE9hSJK/YUTfPq01zccGdoPm3DOYv3yiVdlg3nMl7m5e2S5dk8pm5Th75VEN+LuCJGGEHAO9bcWnBdv0xGqIVsGaHlbfHi2S7SGC/NE6SS+EgxXY7Bn/syhp1xWZeWubj4LK97UXPa5YnPJovXxQWzMLSytYKq64X/slmZHinHT/NlStKtVaDys3hK17JOkAu7m2wkXS/ixeaHieXmry2xeFUmA1S6F7AuAdgvmDGXAlwOSo8H/8XcCxOLId485ZEfUz7ALVvFq/7GMsGETe9UkWZ6bPea4Kuohllav1qLWDhrVuFWwA9beXiknm85Ml9Hz45V7Fgh0Ov7x7Gp646VV1/ZBcDCipfnWcDqrojL3ZxCccDD3lQFvwcQCxf1xdPk3C7q5/cQeWykrIsB1k5x3JGwfxlGNt4iqViV4SCNnY/gDunfHlhcs7upP9dix7UyV8T7/e0udKcSNaGA8YfVma0VLFiwAI899hhGjx5t47Isw+jRozFlypRonilTpgh5ABgzZkypPADMnDkTSikMHjzYljF48GBLUgFg9OjRyLIMjzzySEt9SFjG0OwmX3bjr1V0Z26S1OU3QVXCFuwRMT5Bcg+AWY8B3PqNN1keq2gXKGeLq+C/SnBF/y8RtzaVbqNQEgeRFnXAxI5CW1C/P45P+p1SQXoO6+UV/uQx3IUCGVlp8TEknubqCZ9JZLviXJB1RwgrGSsmhLEyZf3zj2Nbs3TveURULlx28DZ5vVZsIzdHxah4FB0kZf2rwefYPC7KzZUSz4jyGYmXYuRdmnPLEasJ7JxU3UsoOiVFpUG4xs3FJ3kk0+yVRbwNcb+uJP62dBMN69ZQTEZZGSXngDnHYh/2vds+qNXBtISOYVFy2uWNz6aPay2LMOt+2by3aZyA+Iet3MpqypKuWOlf7MyXqBQ0OSDWdn1gjyFlTfuDdN4WbxB8PhYhFsGaYZulbGkkkkjEFQmKxZFflD8okksqBGEFskNnygFJfmXe7jJk2ChFC9GCTZEmYEZZZT+kRf6HuPSeFDJkKH5G9umST639l5LMlqH4CVcTQJUBlEM6Zc1AnqoYKodiGjyhW0TFqSx5sGs6Qz1SwRMkcWSPGwTd1pLytEkl9yEXiFhR/uDgpZN3bAkPtyxVVmEar0BH+QWy+Wd+MQ/y+43xy46EVSQtuL78sfaqNk3j4RiK4VCuXyY+RjRrckI2xPHsSvalrIrg2Cuzuyxd68ry+tmbbonJtojO+Gk1+YHC2oCjd+/e6N27dyD/3nvvodFoYOjQoSJ+6NCheO6556J1TJs2LSo/bdq0qPy8efNw+umnY+zYsdZiYdq0aVh11VWFXI8ePbDiiiuWlpOQEEUL9xilyY1QNCjIh3xfv8I5buk9rfmd0q5bXn7zg6oVsDRUc1y9SFDki0wmzsjKNsaZYpwXM75AcB/MgmEuhr+YD/aULdCQ6YKHeHHEYyOrHVuKSRluA0vxw/OgZKTykjiPtP1mzw52bODxT38Myx+ITM+lhAIFaSqSR+Yq8hQuFzI9P5XmJ+LxipodU9iFJrDtJC8mwrXIn9RcRj9QCMpqKLxXl22ufnvKTi3DK1uN88fBDwdpVeNEnrA/lyNznrw0qkpjYSNHiMTLvsqmKW21qq9R4uTSK89c1e5SK+XG8SGhCl5LjteyvZPVf/l1bGV1u6tQYy6bZ+rK9LJk8g/0E1vs5p3QFIuS0y5vfDZZvC4taMUXq7nv5PbdY7mZBcMuBH58RJ6vjlV30Bo3V01F2ALkL/4eURBlKi8uQipqtMOSExIxkAyReIrYu2NfCenJlVm8WosERhWNHKuD/4IdDZs4r07YF6Ckvyxu/VoMXVGKVc4qFtbkUbx2rgmbs2SVUyjGY6p4j1sjlX3tDsq8tiXPl2Jl+FdD3B4EkuxUbbYtVBpHrFA/2Twg8I+hqdy1TXw0zb+EiM0gYx7aRM6kWQf0sX6LsOuAf8nbdECWpToSdhSt6VBXyRCCMRZN5efDZvK81ykbLerk2UpRdpvzOxKLZ2n8PqP8fDXulR2BnZNNbtUAhJWLybYo3H4nxDFixAgMGjTIbhdeeOFiacfChQtx8MEHg4hw+eWXL5Y2JCzfCG5dkXuueXsIbE00cvxNIJ4mFT4hn5KQ6rYgzZRnGIjvu5HFO5YS7sVm82nO6KeLDd59ng1S9LUVJfutjykSB8sRVDBW8udoyZDDVvoWpX5TTUVhF/jzh1vLHU90x4aCxU60aZ1hwK4lZPsStpBYn4Kml9JNzqNIU8Oif+ZDYqbwKJ+tc1zaqibwrp+CrlGFjDcCJW1QLEKFJ7/lreAvrKZmvCmY+4bomnBFq8UXmoIegU0sBKjxgS1bjSlKhJmlq54vNt6Uwa83fq3ynrbKI/n9UXZIDKEKZJXMJ/YKAHNzUFJnML1Iptlzb96mNFetvkXE1BYingDxJiZ/AEhYLFgSOO2SxmeTxevyiIIN8AMXj0iav36Rl+7fwc3NLnK/c78+6Tu7+cWfP/FHLVuLY/MxKrtIKL8PhErNgSdu4ow9gKsP+ldqr4leMTJOkjrwLthxCfOSUcrZd9KVi4MXZ8NFPuQKKmNxuQIyci4HlCP3ZPdFvwrLVmhLV2gL18I+NVPF6109SLOFCKPyX0cLw47YFq+2sXAsrXDyVPjCYvw1ymk87g3vGAhPcxk4wTBKdxdnmSBzIQG70svXCFkD2IJfWLuyVMZvXHfCF+UE3yQmx6xjCyW4vFYFOUEYlrU6Gd9iNMgQC6Mi3AzmIqiTxi6F4j7AqmThwrKbJ5bU0WpbWV2IDFNpfMVx9OGtA+3ywW+PraBsuBJtbY6OuAuQ+Yv966+/LvxhxaxdAWDllVdGW1sbpk+fLuKnT5+OYcPi/nOHDRtWS96Q1FdffRWTJ08W7Rk2bFjwsYP29nZ88MEHpfUmJARocqnEuBQUHE8qLdSlSarHWZrUpRRLt1YcxNYkn5dGajT8USnSnI/tTbzfFBskrwyUysZqdm8V+RnMCHLGCcTGKb4Ys7iQ/rGN5HHQ7mYrkfcMIki2+0FasQ9xybz63MGnKC7NrYdxCQUKlJDCbZRIoqD70XgoKHtejFJNN6fsdNhjqjplpVD8wCcYtgwlhM3pE7++MnkyffQ2Y6HKrVdjcW50Ys9MYVy0U4ILGsInnqIie1NJFQGsSBPFeHE1z4fMbd5Ic75TbSt8ymoNIYyQOUlUaeAbcN9oO7xjNhTEwrHfQnxDXJknPijB8AdNNBGKheL9oEhcZTwhGRJ0EIuS0y5vfDZZvC4tiFmiCjPDCOwCFSuvsw3qwAVJhsRwxVZkz8v3VooYz7N7/ziy2fUr1h3Fg9JKFSzM/WdJxZ9Ljzq2ZP2QccZpOhMITivZRc5fMG0cI1oEgChDThlyKtwG5JoGFvtC4WmsYsVeuc8FFIyVbXB734etJchWJnN54Of30vQDBOlfe/3FUpUcm3NVllZWhjeyQYj8QWbp4asw/KFKz41cKkfFCebnLSBR/mSJNN47VqbB3BSU/wys45S2uhAVE/QHtzwrZjbXXJjCdKofLppJwQarPI6HW5GVF40+l8qPMW2p2Fjf7bXIhpeXEYuPVRicWf/+ECmgIqmymHCG1tuadCGhBJnq5Bdg9Q1v4MCBYitTvPbq1Qtbb7017r//fhuX5znuv/9+7LjjjtE8O+64o5AHgEmTJgl5Q1Kff/553HfffVhppZWCMmbMmIHHHnvMxk2ePBl5nmP77bdvbdASll9U3ISIyL35EbtB+Twr53zL52B+OWG8Ymn840OCl5q43G+r4X0FnyFjKWo1fcq1GTrs3VDLZRHI+uAKQcX+gjgv4nt3TKZuq4EzP4Drt6RUEVc0T/6wbtrt/+juyuVDzjgetzAUPIal22M3BGTbkLFxKX9GYDlloqcadSnCM78YL/PWmBxpnhbGy3GguGFlJNhhNYc/D+os2p6MeS6zTfXTTbw3hE2tXBGWU4nYW1wi7GZgtEBP1u6Jh3myS4vQx+A+wKeVefuMv6nI56D8HaLc4l0pHvYkzKBbnql5LeP3OqYGv5M/Xvi3VXPdlV1e0bOnBcRjDtvsXPIuRxevxD1PyJfUVTc+KV07jkXJaZc3PpssXpcFVN1dmlp/mjtWhOwFDn54kEJ5Qaio/CYJAETW71FhpWYb5AoV779CHsfi4hXBmJ0qFAskGcWvLQgFYbZLk1vWRVW2vqg9hteMipBisWbR0RYRioVtu7hFLGAJvhLnQFkfokqHof2MGYtW4VbA7KkglQrmJSxjWavdDKB6IS9f4EsHJp6m25sRtJJNlRRWE7XzUrRpkiPHqEfM9yvJS8YSD8UICYk0K2oICDw5IK4MZKwocAXB8nDNblxG5y2xdrAR5hzxQeAs1cqbe4B3/bvLqxwkdnES7B2bJvp59NmAsYzwdNB1p0Z51ZX3NtaequYrr4/1m9TlspYgV5SVSGw5VAb7C39H87eK8ePHY9y4cdhmm22w3Xbb4dJLL8VHH32Eo48+GgBw5JFHYvjw4fbVrpNPPhm77bYbfvzjH2PffffFddddh3/+85+44oorABQk9aCDDsLUqVNx++23o9FoWD9XK664Inr16oUNN9wQe++9N4499lhMmDABCxcuxIknnohDDz20274Am7D8IM6sAqES5ZVR/jEeBH+Fp2g899Vu2SHjaZYZljTNfAHALYuFb1dnuQZ3Q7Zrqea4RI5eC15rOJ+TCfvPGWqweIvWy5WP+2hlBCGaB+I4/smf4lioL3XzC+5sCYnkBqLZTkapgkvZDy0RijjTBqvhYu1X3rAwKLa5HsZ8u5LtoUyTq6mR8pwbibL5GHhDX8pnSiJahnyC8Ytl8X5VcjiD8SS401f1SGaLI3daK61ivbRgfKrGi5thirDXQkXuuvOvF5MmZDh8GZlU65RFzrO9ooiFOX+0fffvbO7eYXw5N29CuQQFf/0c0jiISvaltegmV7WxLK1pnohAqE+II3HacixqTrs88dmkeF3aUefOoZWbXVdnRWSzaiwRlVoHxeOMIta0u3RVrxnnt9QsAIKPG8IXckKpYyJL8CoXOi8xJk+WiYCxvDDMOaslRSVxhrzIcJnLARRjDeZuANrNgCL0hLb+UO5Vr6JNClYJZ479NDt4mr6RlC0UYcxSQkwfjzDpfngc2xts/hDFxt0jbYav22zszLi6Q9IlCTZvHwuXsIDYh7WC5qOEOkUIaNEaxmLse2v6+mH9Klw5UNBXx4Sc+4pSRWedcF3oh1FxCuCaxxWnYs+JG+9mSRqrENGbQp32V13k/EGZt7MZAfXa4M+kDqOTBdRZIrp6GUnoHA455BC8++67OOecczBt2jRsscUWuPvuu+0HB1577TVk7OsIO+20EyZOnIhvf/vb+Na3voX11lsPt956KzbZZBMAwJtvvonbbrsNALDFFluIuh544AHsvvvuAIDf//73OPHEE7HnnnsiyzJ84QtfwM9+9rPu73DCMo1aSlcgzu/8WzxFZLnyMibj80IyrfLjXAFmLfbXK8sZ9A2TyHFLhQhlYvHRfjJ+RIgvTaY1jjbp/loNqNFMEsJ1MXZcN84dK2HayaHcxv1viSKU5YvFj8Ga8thj45bKfKA1LD0KxVWsLoeuycun9Eh65VWtr2LNL2rKoIrvFFBxrJoWwsvSbeC8tcX1XZ8NGelPmrJ57zU14/xWWADU2FohJqx+Uqb/5D+ARfphSJ9P/ry6TXmxdlFMxhOLklZvz5W2pU1x5fvXs9szFyVmCMxjVU72+Zh44bGhLiPYCOsH6Z+PtIytl5NtXk20/9FqYl0PCvSHKBosOaVBkQR9L6pG4rRLDpYnPpsUr0s76ppM5Xn8DuMT1g5B377LFBXRO5uuOGA3hvg4kkhyeYi3uW6cSJeLubFMrKKaYUtjaeRu+iTluZTilqvastV85da+rm8tWZmrA2V/T3evuakcxoJV8TAUQG3aujGHpZqKWbwyCqpUpi2CuU9WxqNEZzhTQvgEYRWs0NYfukxDApTbxcHmAosR31TwjmNhkyfqcoLJWzLE917nA8fyKIiQygnISRJT0WqA0/9gTE1ZxCwxKC7n+3kFmRwl1zfPzwoUFq8mmneBW9L6aYFsvbAdb9OmYADKw75SNiZLUVlOZ8PySlGVTtHD+I2iBvxni0q5ekXWhrl0a8lSIqoxZG0KWVvHBybLm8vEcOKJJ+LEE0+Mpj344INB3Be/+EV88YtfjMqvtdZazkKvAiuuuCImTpzYUjsTEqrQVOkaWxci4k5t5jK5kNQsGQrD3yBRLN3kFv44QUxvqEpuxrG7tGyTXfs8DZ9QwPB7LbnqfCUN75OsMmSytqtKp2uCFHh9MtSxWbyot4zVeGmhfwQbbx0XKK+ZNl7/VK8NBty4aE5Udkqic4tZvEYylcU7gfAMuGGJ/Ywel4+3sHMrffVKFKbqpwkx/wFfYWx6R9F2x+s0V0rsnHuo6q4/HN41KQiUIM9sb+twissiju/5XGZnMZJm6zVh7o/Vl6vqIMWOdQe5ha75BSLoq+TWpWVGrAKIpZmmB1as5K414rIIZc01w+42EooNk9dVcUo7TXRLFoiYZOK0USwOTru88NmkeE2oARU9FBFV16d4hamiCsEq+SLDcyuxJtkPUIkvEnhl+lH2nuwElPm1T9YELkqgQM5rWRgn+bYs11iAem4EYNwh2IqLRbcYDsN8SY8Bs8bUFbpHBoArahvI0AayPreEywHt16uwfC18wYqvSvLNKlHZHsZKgaeZ9jD/YOacssEqJ8smvxs5n9bLmcWsZ/kDQgsLePCVV9bU6PNCDqGgJULh3zXnr/9zNsPaY/L48UBAklRMjh0rU4/Ja9OItc0pdPNcPqg4BXk8LLg3b2eL4YAbqvKhCfaebCxsx9NPk1dzgOic8vruk82gfZ4cj4/PWQ8152qnOWmkvFaQiGqIrvoQQULC8oZmSteo8ovrJVxBzYkZX8d4WMSVW7k6zhltTs36tJ2s5m6US/qqlBkRbnTAa7HvvITKOgKEewKWLzBgsJwpjHPyMs5xLB3HLGktX41avarIFqZbrsjPreaRltCxxcfSScVKiEylgtm6AguuwWad0AYp11MnwNLJRplxdr0yTrvK1lUztkBWsYhXrSR1rV8V/MlnEJv0sKTP9cOdg+JxzJsR0Qlf3hpBkNhGhIiRg0KgobMPbyUQHJrP9fj1ECGJcJYhVWk8Dlbp6etvCSXxIkz6mHQevY+FmZw/pqVDI+IUq1imUcnezNUwrcy1Ab9vKNfmknYFKZE2xQT9S1GkETN8qonEaUMkTtt9SIrX5QXsNf4AbhU1wi4eXppgpCzNvwHWNqECpJKVHAtVLJ2TSmMVKhSWrghZdqQ+vip6dDSyNNuFxhCR4Bc7Ty6KGNHXjEP8WqkLEq4EYnGojgMBlAPIeFghz4rGFG4FmHsBYm4GoN0MAIWbAceqEZJmHvZJtSSrxnLBhqGJMoH57/JOGEk+FqPrQZhlCPxreWUDFCWywuqV7cUxWWrhNqGVIxFtXA74r+74ffSTRQ1KHttXGeFZp/KCXWddn/2CWZP9ton6bflxq9xmW5TPlu19OdkFIV+V5sL+A2UTUHho+sDbY+Fd48TjS24LAcrKroEOZOkw4UxEVUK1KahOWAeoDlq8JiQszajtXqAEQU5C9Dd4mcmlWk4hFsRYwUVbs4jStbp1Xks8F1suztWd68PA7UC0UwqUK6iMkx7WD7tah3EQcX56k7igLX4eNo4mSRxTSbw+9l0OGJ5hjwuXA+LHY8s9OVnz2+SYgNvC/vhMVqYrBB+iisqhdCF36ldlT5edi/ZYPlUIpWe01Fg9KmyjbVtZKeUqW1G/0mNOIaNS3r4qzX+CsHtLttgkAHOnEVWqxlrL97E0WRS/FuNpsjNKue+GmKlL+jLkz4siHiRvBf41wJvArC6KW4V2P8eIZmn3RZvdx8PKrVp9Geen2o/3ZW18dSNEVJDSCleOyLk2x7NUfvImcVqBxGm7D0nxujyh6Ye2Wi2vIq0lzUGUeYVxYiXzVjQYRWxRt/lYULMuGXtRXiu8FijxF/6P7kK+VlcVYJXJKPphPmxl+mldCTACa5Z296DgWbcKOifDRSgDoQ1Euba2gK2XVOGfy4bByG5lR1zYWLlyimvGSvFsbMzMV2GtRWxkYwMAPlKRIqNhUWEVYgs5vLlBKEiW3uKaRx7PjnO9QYGQw/qGK2lwM5+vipEi+z4ka4cjVWxDYWFT5mLA1UOuLv9klIVblY30qVlYd0HS6Zq3mmKsHYEvlYEcC4oJxKKopCkl7asierHn8+5AZ4immHoJCQkJLaBS6Vp27/PjC+9JJfA1GH68CfIbt/LekuEMpOpGV6IxaEWRwGuxyzlbq5SzgzV8iJHBghlapbJkrxEmA3MGEEmXedAkj5TQ2ihEEiQRLCFx0rWAZpqMRxbHLl0Pjf7YrCYywReaeGWudwX3kT78fSrHe25tZU0bhQKWfRTMhE0ayb39Q8x1hTw1Yu6okuMqBLNeRJQpyDoA9uN/fGZ0HOK5wT+dodaPCcWuRWLXVBkEwY7fOiiSZh4Mg+uM4vkDGW8vfMWy61L/EkFcho+F3wtza/M5s2hZq1atRX2t0VP2rOI1NIiNcW+KiMSK64C1q8yf+GxC9yMpXpc3VN1ZLGfzVpSAv5CU52jJ0jUaCOPKrGB9VwQsTnl5eLeN3oW7DfCXSf4CVtz9vmBkLG8Z2fd6539Yi1sO67BdT20cZBwjbFyXVFjBOhJeyDhfsTkyKKLC4tW4F6AiPgPpH8JVfFM87MvJMTJkWYgFx2Q7wVyOxTd9zgwjdsfh7Cnh9JWvaYnpCFau+UWf10XuPASvSeVeWBRqjt1k5DpawXzIfYiK629NudbPq060suz6dHGAsYq1lUTJY530SLgl2YoPbDXb+wSyKuzfpmyasqeIo+KNqIAgUlQogurbQHVyzQesDoonktmV6ORrWUivZSUsZ8iko9ByVN3UVESAUT+eX/A/nTegs4pzBO7PtQb8ek2hqknY9kPJRSgSJ4yIGGGpfm/Lz0Si6uagyiO7qgoC1ax0kmMhKZHnvorREivvuCgByJW+hXLuagwyBINnfl1NFH9rDt75Zu3LUGyKC/v9FYQ9bvKlwHmuU/qWcdYqVMkpKvupgMXapof8vRnC02dGploBWzdOTF/iEeaaUIi1ojg3keuBqtIgZXgdnEiSlomlcRneMdRJM3PAPHey5099TyLo+4uxruXPiNG+RNpm2yHnvNhHiLWUiVvONjcU8G/ALrapwXKN+ILPdp7QJl6skThttyEpXhcXWpnPXW36VGqHb9JZ43xNVTMm2qStceVANUGUVmo+qdR7sUIpdzfXecUHmjSTEwua7ARMjjhJ8Cw1FGsJ1SEVRmnI2sv9urJw8SCg7GJfRMkwYD6yRXpxVNoas6iccgVkxFwOtCHPcmSZo3zaKwFyRWizHVIQym3lxo3Ty6IqRx7FohXjRaXH8Y9PiXpst4wHNGXLCBSgLW7WUMK0iZ1PY+Uat3CNbKIQMVCyMx5EdtuwQExm0Ah8zYq6dXxO8eZEwpX1VrSjLuL3gopyfWE2NIJj8ngvzMvwp6CZ9n7ZAIS/OW+KBM/LIl0hLCtSfym8spuhrii7nJtV37wsSkR1cX1cKyFhSYH/JkoZjK/8LkOMk8ZuruZmJ276haDwJ2paqVQ9f5qEkofMskawynxuq/kf/9nfcltoNaPi1mNMLqKIatWvq1FklpVXHmfVnXoe8H8sTXc5muZvxCxegyo5aVPeUJcSMkDUySYEmSOupDXPDt5Z9OaE6FukH75cAHIqS6A8T/SYCFlkHKPtg7tGXX3+B7T8FnQEukSiljm5MFa2ilJTLomdOy5jV2bvjgtORiyfJ980zVyPLM0/YS1xYQpDPq+1RgoU8lzWDvMWG5+/Xs9ZWIn4ECqSJ75vikBQhfWycYuMSHlRQWrXrCtOmV1XdtlD4rTdh6R4XdLRHVd12ZOyeRr34wysyUCZQE0EdXusqkyBalYk7q/WLoSxFY/HFeUppYCcFZPFaGVIRvwFzW+1LUFJGV6MpK3FR6ikn1od539oyzi1Z2EAQnlrKWRJ2DZDl0/IkBPZ17MKNwT642HK40MmjlC4cLDDoimcgvYFC1imbPrvk5Locc2lPGCX8gGiw1eKaSpvMo/jZBCGUGoSpi1NA0cJQkkbDys/DYZoedn4BArS3Hl1L8IxGdtsKv/togTkb7a8Ev+u5B2XDYHrriSYXrgqrTIc2fvHdtbwsYCXsWRMuhQ1CuT3p65C19BTB3MOlncFbEJCQjlqKV2rbnRlab7LAU6rINPcJwOIi3utrP74Ub12MR4LfoM0cTqjH8ddCvCvG5lW2nW8cFnkN0FB9s3vV524sEtUeaQ0v5D+WNlbOJY/Mj6gGI8Q8aZkftLgHTvuWcQp+60Ct2CqigWJMUd/AEh+TpYzCGXTwNJNshyPgK6WERSw/pJrV/S7Av5xSe9kBXFyw38o8Z9tOgo+/NZQIzyboWwMigmJc2TGPEZkvUzyC20szhBMPTHB4+ClgU0BL86mMaILFtZlKntetXLUhDUXtq3W41U89np27IGceY4sAqbq3PRHNkHI+Ps6MmLP5G13W9VVlImLeO/kl+Sp62KgNSOBpjM0IaFDSIrXJRnd9VNK1Ye2xJ3NJz5d0J6mfVJuVYkmc2Urb5yJY2RXOPBXom77uy+FxNMVzcmx34/qXgRrR5BQrF5mEbOrKcKw/YAWY1zmK6M8LHgG3DC4MFfKFkpe0uS0sHg1DtY1YTWvAioXR0wxC2ifVmKMiDUo0v8Akp7y4ZBb2W+z/GzJDwn4xNeQ2YBsek0XBMx3G2DGmdyYg1B8yMxLDzf2VBIUqS14Yx3Q/Q8eLB3DFXOBPSe4qByi7lCOxE7IVBGfZumRL9MaElmKVtJ4s1lVAV8mb7xZeqw9salQJz2QLSu3AwiePzqI7qSTy6v1a/oQQUJCNTqtdG2tsgKqtXDMh3whV7dhxV1arCkx/mfXQee1VSgMDaexdNezgoW5z2r2lSugzVVhVLe8Sl9B5ZfHlVYUiSvKoiDOP2mOb1VYvtZIF6VxJaqo2sQrABnI3Eg1oSscacmV046PWPQZGVJeG7nVa7zL9rFFtj1ElJOC5y3ayqlZbLSjdXiUW7mBiHSTebWtU0GkQj7Hy2yo5XiJz4mJJsUer+QcYPMucIBfwdCiz5JeRBUh9aoWCex1SfeBLfMmHsvGmmv5qdjrq409i5YbF5DmnCTi7bDkrtGCE4thCPvqZPx7hi9YkrcZSoTKnuqoJEBBokH9D2r5ctV8tTvZ8pKNxGm7D0nxuqSiu+3Xm/l5BeKEsTyi8yBAWLpGZcwKo2VjrCH48BbEeCpSoAaKn8eVkm5Ls9ittlrl4eRrqEaMhs+zVhXuBOxqXZA+HjaWkgQXtqydh3MFZDJMmVT0FlavOTIyH9YqyhG/9yt2TNAfD1DIlCZQZYStFlM0icW+lJBSMT7cfUJAgiJnohIVPKson6ByadkKIiAnfQ68eEKpktZtbPxzFGXlLs2kS06pRH7efmGBqn+MoNwwNDdWlHP/r7LJpWG0EO7ghrJ9FVHVl5gfH6SZqc/KsbI8k2JleXPClFNaX+S4o+mtoKP5DFqhUpWXblkeakZmlz0ohU75w1K1FTsJCUsfOupeoHYOnwa6iuXNSN/kifMX00JV/PgcRUXbCSj9yJdTgZSpljhnMWrfso9eOUWOsnzMdCuDogaocBhl1zXTvTJ9YbQvpWmx1KKWTMWUjrEVvyKdDxMB0p1AhYwhVcp7q0fxeiJ1K3nIt9JsgFCwBnmayEeHgMuiOLdKJ3ZkRXFF1vDxKh5ZwqeeJhPCkw6F7WlQ0D8yiNi4bEn+eFsMOYsxLNnQ+OvtZSe5WVqTeM+FSFQhG0m1e0XsRxn+swv7UUT32/J7NhSkCTDxQTXZ+D4YPkZ4RXmQQxwj7hQflmqEz+cmNjr8kbjOflCrOTrCgpd+JE7bfUiK18UFQvmNvcNldqC8yhtWN1w4VW20rLLiDu67FwisW9mx+GXUY1lU5HOx+tgQ6AzeguWNUyk7UyIqSiaUITXKbqSY31fuHqAFdwS2WRXuBmyLdRk53EtRpsviF37bK0auZULtYzLNjR3zjdgm0iKv04t87qufVc0RoKJvnIeD83xWAU8nPw6RDAFTcQRQfFpKdJY0YTKv7lGhMDcKVbBiAVkNb5tN02XxS8EMCLFMpcS2BDxvpA0lXbdjGxArv+4aYVtkRRpX4pp4/kNs7HYkyKrXlVg+UURZeRF0lNK0eqpEWzpRb0v10PKlfO20dUAn8iYkLBHw1wEb7fnEj+XrqrTKG6Nef4MbKMGjSC2htGeWqrIK7aF7w8Xck62iRTFR6xpK8zgnbZVZ1jVBrqAyMN+0RgnrlDVCccPUP/E4yPqs2oyvIkrLshfzLa8rfri3ake+ICiXt2k6fw3II3UKhdGAcXXlDAi8E2H7Ik+O1wLNfyNxLC3ScsGZa22xOgKi4Xz51uKysXTBv/jECnNVceR6KAqOcgzBlww/b4GNRMkXP6+G6HnXiOk3RWRaTkPIbd1F7ohljP9G+1G/v87C1bWDbDtds+0ZYM8BlDsy5nNmOeU8K1keZ2TIkw3KaIJSIe63OpKtJKkrlK71uKo/55Z9JE7bfUiK1+UdVfb5QVJHH/dr1Bdtg66yzKdrS0pXEn2yih9tNcutDBSK8skoYQMljEfggnZTxVCRW4xLXAtwsmSbbGVY21keZYpmXMbGcT5rmHHE5UBBmKVnK65wLWV/TVmhrYnRdG+vmCP+jqJg3igsQFWoA41trnmgHMXrEYE1qx6RSHx0a6CG9asTd08rbG6YcI7CehkAUR5arprme/3helxr2cOnpUk0A+ePu6+lFRn9QS9LM+kyPjb8gSVrRdhc6pY88mOeh19O7LjWHPMuYZ4viC+Tr1tXBxB7lGwGdmtYJFjelK8JCQkS3aZ0rcrjVeffK2MrVqU1bkc1spy/RRpgeRxvKMlDTmOLOM92zvxgD6Cwdm24xdIoLUkBOs3SP69JkaZHUymyyikiz/cp32KEyx8kRoQ4XeBEV7gNczLOj6z7cZmU+VhaaDFKRMhgNsNBGXkI+kdMscoNEqKrvRwXVKy3nn7Q8Hr78TGzB3OJ0MI0VOIM67f6utrQx3suMs8bMcRfYtRW295FK0JR13Jc0muPsDqQ9btyShrZNA3xdpjnUf/i9Y/LyiyDNpoojt0mlK9GxuO6chQUexPOcVmhuPUJuU6zh5E0VgEj2dWEr3oKRj661QWI1dnM/UAZlGrex4SEZkiK1+UdpU/H3aQxaAp2Y7MLHUEqX+EpXZVb9QkQWhnlrW68nOCXQFd33BuRSQ40sSyHTg8YH+uSQmGpYF6f12UaH6DOd5dznO7i3Osjwk+tLthaV5CuQzlfX9CkVBBSUiCVoYEG2ti4KRSeCuwzByceqD4OLVlVi/uANvknoCTNiMQaVgKTXbgVcBzcWr7mMgwWH8SZY+5XNbq5uohbvdqGeazIfrhManXjen4FazVLQZXxsJWt8fGsZl3zNyXlw9Z68b6QPzTm0Iw3ZDofOX7txSxVA74YeSrl3LqMV0d5dAm5jo1Bh1G3sBqXQxSd4JnLi/I1WQckJEh0SumKDt52Sqgscd5GpnWMr1WV19RFQuwGz8mTU5qGslHvrUAQoyzNNWuao7xk+SDlSr+tZXggV/9lgMoBykBaCauUq6vMr6s5k36cPTZjG1ismgO++ZDpvnTUByyjQoqMtasS8XKtIzv61ojAlMPrUpE4k91HSZzIS55skz1Xbsl6i0aT5npNFXa6EDd+cajIURmaSpQRuyZZzHON+ZBUkG6P+D4Wx4lgjTQhE08jQ+Qpks9PM7yQvLoEAeXtiYThlKhcAUmiPTIOclc+PObZkUeT+YBfbGTDtLr7SjSZu/ZjYR5iilFj7dpMaRr9jngkTx2eWvDZjhLppQuJ03YfssXdgFZx2WWXYa211kKfPn2w/fbb4x//+Eep7FVXXeVeQ9Fbnz59FmFrW0Bda7qqrSMIHJWb9nRk62T7c32Xz/00eHtySi27p7AdTcZV2Xxkf7V3aRA+RQsfowVvFXovN5CVw0xBgLcXrL28D6bucKzrxCkelwMwfbBxyo137pzDK81Cqcjiiqx5XHNIBELCXZXaLKd5CIiXEoCPGzu3sTGumkN8swQsj6fHtmKn3QoY/682P6vb6zdvniHoZOr0Oy0eRkqG0x+bumH/muBhCtOjtzDv0kVFGh8KXo3fB7/JVQjH0uuGinfJ/7EhSI8PQdegznVG9YhlNGsnG9zZ/EsDVFvW6S1h+cSyyGmtT9eqm2B3bZG3TRTb3NJXwh34VqM+RRm42yhLgiJxxdsnyr15pGPdIsa+NG/Kt3mUrk8fw5TL69Feas0P+0KhyVWZGcxP8mXLNunzGK5n5B27f1FwzlHGD5WVqOCW5rsDLF4cO95Hwr2Cp2Q0XMLra7T5LaxdUkloe9N0U5GtjDWYMS+F5kWk51Kz88tHpsPLdEnGloZTnzt7HkieN3HtBhMA7DqA2+s04nF8bxvkp4mGlfebp4lD1VJWGa3vE+Z+Ya9/WGW8/UCwfa5AbKoEezKW8WIyKE+G7cm7LupN56ZbczVG/LkmGKsu/kW/Lk81z2nLOhKn7T4sVRav119/PcaPH48JEyZg++23x6WXXooxY8bgP//5D1ZdddVonoEDB+I///mPDXevE+YOYrFfxGVj0g2G/2L8CXaxU16c146odav5+YwgFcj8g1qRDyuEVq+AudHzcn0LBUNUikUPxc8WBPbzhckXGdGgf0V/7EceTF2qoGLKC8PSZNNWFrbt578aS+JpP9xlSE2ubD6l2oq8ba6XgoGUkWVvZCr3ioWjpgAVvluDzbPmLNuCc6qPiSxxUUwxalugFaru12tdKxu/6BBQcOjabNvlnOCbXlOkEJ5W5Hd+X22BZVcneccdDIu2V4WbbuW+eVF3zy5vU79tI3nyFB5zudgQoSTNRPhxFBxUlxmgKq2DqCyy5rJXvhJ0uMgiP3Vc8ZuQsKxiWeS0tT6kVev+18F+GdrmU01zoNC8fQDjKR2AVz/p4giafhr+Rk6Ue81SpCw3dEyUORqwGeAWNkN7cwXVpnORKZ3xZ1OiKhS41kUBKztm4Sptc02vgMxYnHoqzsiANknXEnqtiB+TPY6NNbFxzBSQgbs/MC4RWNiUq/siZT052z5ZRgb3SYiObEHfq/Zaspk1uUhjjzHCENtYC2pROz0QZvUuH3n5KhknZw7Z3//9mRM7Np0s+JPsI8k/PNZvkWPRQWNNAymeq1Q+7LO7cFkJnqwIcw5ra3T3APuHTDzZceADwB5JPBCr0/PXSvLYfIxXtIWXL9rI+xTx7Srka9wz2Tg0RYlcXT7ZvUujv8gkJNTDUqWS/slPfoJjjz0WRx99NDbaaCNMmDAB/fr1w29/+9vSPEopDBs2zG5Dhw5dhC2uga5SutawqCv/iYmAPBdxUslTZ+tk/U5bFpEBvFVD9rns2K8jMuaFAq6Ic7+oFnU5K1iTzqxi4ekPCdaKwVokeHv7KyZgw+6XTRc2ilIeFnEsLOLML8G5sWxVhYI1L+IzypDlbcjyNqi8TYczqDxDlvdEe94DDWRseIIlVu479dXCsrJrwrLx5hspp4B1Y0com8vC0hWRuE5tmlUay2ltdUx+enDswm5KG4YKWLZqLydPwcsvL1S5IHBuBkKUnCOqSPNPh5LHJr2qKiKA9O0pZtgeC5siSlvln2OvvWUR3rSIzt6y47Lqu2orQ2eu0iq0Wm5XLXVLIsxrWZ3ZEpY/LIuctpZSk8uXbE3lqyhAJM3csWqt5YZvdnadZ1aqUSs9xhHjm5YDgjSrkCPzqr3S1reeBa4ZtUqLXKei5FTaQKwxpX025IMJi2NWcFQmwlnEsecCyVrAKncM7bIL7Ed3XUjgRiASB54ngthHtGwfWlwRbRtQj0pLJax3hdgx1ArwZpfgIlpuqE5brKyGHVj21h2RJxVhWVaZSkESeP4aRVWSvCBOX6fKl3GW7fE9f4YktiPRbhJ73cOc+XY1lx0v02tjMHxgzx05u3S5lTDBuljr6k2hpmwJloTfGu25WkaROG33YalRvC5YsACPPfYYRo8ebeOyLMPo0aMxZcqU0nxz5szByJEjMWLECHz2s5/FM888U1nP/PnzMWvWLLF1B+Yv5HfDJQCK046O3E07ASoNuLjIguSS2VgKZSsPe2lETtnsKZ25LNljiAXJvQoOqFxZFwScQInF1SvHFRgPKz/dxNn6NQnkCrwcyHKnTFVWqdqGLM+AvCDkKs8Ksp8rQMsjV8ipDe3UhoXogYXUhgYyreiq4ZtV1ZSze0aaUb5VPopFH1JKNhSkgsR4yjlmPqAgMnJlO1XE2znljimW7pcDLo+KPOHcFi/4sevBKlZFFi3Lr5tW1kX/sqwKe7eEqkuw2eVqvwnApoApOni+Z3rooHmMQEaf/eSlJtJJl83r523w5e2xCsvxhmaRYEmiP0vSkteVSCQ1oVUsCk67qPgsAMycj+qbW+QGqMrS/Zt7xbpemi7u+SR/3O7qjf9jYcAoXeHiSMZZPqL7nGm5wopSsbD50V2rkdlaxsdDAfaDnICn2BVxQFwxW/BEImU9HTlGahSdKF7tF2imNo+ki3PI0onlsfFaqWw+jSXkpbJVKXKPNFrDyikiDAEs03pKjaqLCiasLx/rWARUgwd4ZCZ+CTifmKpSm1XWRnkhVa5CHV27K/I1K5K4kEfW+FtvBVTJHuz5NpYWyR+IRdI4vMkhLg1zzEiu9eVK8FzswT5zuscER4hJnq5at8Fg+GxzVDzeKGWblMk5cy39LHlbHRlvy3MKH9e9jaOuXJl8MxAB7R+801xwKUTitN2HpcbVwHvvvYdGoxH8uj906FA899xz0Tyf+MQn8Nvf/habbbYZZs6ciR/96EfYaaed8Mwzz2CNNdaI5rnwwgvx3e9+t8vb72OXzXrhied7Y9CALtJ9d3RRZHjng3b85cn5i75y/kuhDLg48TEtIPBN2yzM4/je1JgDyMLXqcQXZHVq0WNl/4Kl2hVI80J+63HNZmRY98vG2TAAUoUjby1LuYLKCCrPCm6cKyDLoXIFQq7jCCorFKpADqUyEHJA6TBloCzXdWdQikCZVnHmbWhkGdpUhga1oR2kPzhAyPRHzeJWJiT3ioVVJD2yz2D86sqtbBWPL9zlr7Tr4SyOGlT8yis+mOUpZb26bBz7YBY1aSPPG2UrrabZiUTS/2sOOFcEZJMLcscemCiikLXH7BUjkebyBJdlF9xz/OJMkbZO1nWbTiVynqyR4+XyZvtxisL4WFiZevS1QPr2ELtzlcHdYboXW5w0vqVXkbuzTZQTVFuGvqvEX6FemqGyzhFNlSWSurxhUXDaRcVnAeD/bZ7h3+8T+sSeKkpujOWzPqJ47QDu/C9h5gK05o6hI2/ykGGH0kGVggIp9wHMQj/DJMw6Qu718YInUsEJARevIk3jNNcWmwGKbJnmA6ukFa4uTtdlC3bKS2V95Gs3BGLBYo0wDeJpwvrAj/dWY19BpcPOipUC41/r5YspUotjzSMVs3lUQEakVbVuM/rW8Of90MWAdSVAoSmA093KNK0ajsjJMGJpVFJHRIY/x5CJ86e6eRAJ5omZiiqI7yqI+R4pu/KqVCy/4e42F3OrplBwYEv4GJE12Yyxgp/GiyUW4cXFfuCAH2fuARFSGnwgixFU0hWYPSe3gu/yPOLVr3DoStvpnQc3HMUF7hS77MYiyvLOpW1Dx+6ZLYkT0GvdjTFop70r5Wrf6mvKVYm1z3gXQw7+as0Kly4kTtt9WGoUrx3BjjvuiB133NGGd9ppJ2y44Yb41a9+hfPPPz+a58wzz8T48eNteNasWRgxYkSXt61PrwzfGDuwy8vtDP7z6gL89Yl5ANy9t1thyFxA6gLm4AQLVijZptWEgOX1y/FZh2F4xIiBYhJORlNR8K++Sg+qTAGrilTO/GT3CpJrF1JePaFwE5CRVZwSZVCZpppK16RMOIeCVqTmhQJfqbygfEwGyAAjk+WFNYTKkGmla+HnlpBRhpx6IAeBVI5cZciRIUcPtMO0k6BUjjbb+OjqHuwrFaId2GIoJavQ5JmArKFljV9X/+NXsQ9h+bU3a0iQEBHkhIUTN/arNuXENghFa9mWtwPtuo+Fha8hfGyDPOZkL5RRjlcRBXndsXlF0VPumq4prfi1YVcfr1eMlsfv4KUH3NlPL5MrAZUcl+WL/bretGAe1033V1Nd1rMndr3gR91TSUJCwiJHq5x2UfFZANh3nQz7rtMtRXcYr36QY8obAEDirYlKWEVU1WrRHJxp+t8LkBKxcIkWTEcrq4wCxMLHiCjlCmgzXNRm1MohGScsX62zT9OGDKRyFNamDRAUs650zSo2Y0Dgd0VLqMLIwL7p5B9DIVcKGbE3othxTgpZNC9rhObn/ElAjp8lW54AOZkgI3nx5XOjaorFuKlsW7iv5LVKISvhFz7FiFGO2jSkpLvVeb1M/JGL16+8qcuPNSeGkTOKP1sgv8Lck1u8pRSMhzwqI2qA++WEEVWRZjrFHgxIP/XYILG9MXTgJJe5FbBE2ZFpK27K4S03vJtMkXIs3F6xunmae1ZwcbH8LNSJ22Mrelr+bDBkzKEY+uUzOl5xQsISgKVG8bryyiujra0N06dPF/HTp0/HsGHDapXRs2dPbLnllnjhhRdKZXr37o3evXt3qq1LLRiZMocsVAOdI6quEYw12JVZq0KDj2ixhStiSSDLhSOVwgRBy5uf0iNt4krXYkGSNMH2PNd1MNPQgtcS0Ja71ZKMglbpehVTjOo9FcpXUFa4Q8gyqDwHZS4McvIqVyLNymoZleUFGeeWrjkBqrCWVXkG1WhDI2sgU1mhiFUZGsiQIUNObchVXljCAgAthAKhTTV0R/k4y6G3w6GYFayCs46t/JnfbGxMIS0M/POszGkgQqY5dpv+lVgZq9WcuQvgXwi1/pN0ekwZW6aote/BwMY5haTvTgBOLs+1FS5TtHraUr8MYeFKBGowpa1tgiZUSkw9tjES5zXJHZOID+U932w8zZImTwDu2F475hnRxHmXN+fcPiH0j2PcUBxXlBMtzw97bbPtb1ZvRX0JSy86+xXX4sOGCcsTFgWnXa75LKDX8OJQ6BNbUcDWQURrRCj4R6Go1Al6gRPvVin+075WHxGxeAhlVVGMt3DaDrI4JS1cXf1M4WoXLRZnF1pLtlhc8WN+wQly9ODroH5oIM3pxDiz6lUk3gy3fUvMk6GKvMUHwYjRQ+eoyrRfUc7imzi2IskvJZkoSIuoh2Q57rU3iRZmE6vPHQd0mFBpAe2mJNn85iSYbMIfM4npG29HJMmXd3H++4K6zliGWNmmzey5LpievEKdwerTlZcGcwwhZ5vA+KWFft7kVQVEj3RlXHHJlK7iWmWGEG7PFKFMznFhTqbhrF1l6/0WsnxSzCln4aUr0RYKwl48K9aWVQN1la4xLp2w6JA4bfdhqfHx2qtXL2y99da4//77bVye57j//vuFBUAVGo0GnnrqKay22mrd1cylG/bm7rbig1LsvezKrW49FWoO8lcK85qGUfaRlPXD/kpD5rUi0xeE+9wp51wa32QcTBwcMTNEjPeHkzZFgGpk2h+s9r9Kxb5QrBZ+VxX3w5orKMr0x7KKMPwwkw/STDji09XUbeowH+JSeQbK25BTGxowfl4zNKhQwDag06g4bkcPLKCeWEg90CA+Aq34ezX7EjrMfZRZ0qAtHtgUCM6ZOS9UKFszApjnNQiObI5zsvLWf65Oo9yTF/m8sJBhBEhbrZK/BZcTRcIkj42bgUaula6EPCeb5LIo+3EqItjjoj3Kv+SjG29LLXmwPH7zIZov7yCejCjKH5KK4bKnjUQzYjxUJlRsgVsJyIcOYtNKxMXq60I0PQ8J3Y7kDyuhVSRO2/3gCioFzQFypbkTat33ayFSlnFhVLWWmB/f5YdZ4XzHesd+eeL3as/frPPrqmzZdpHSC5VimmhVFcfYrvtgrHx8LNZhVycRs1bVx6Yt9k0aeOt8ZP2vOs6JKWp1bExfLk6j8lJ8v1ZCI8cJRGQyNJkflR/PYkREzFN/vvLusb1VMJq97ldUsV1YOUT4CftOAMvGhapWJqmQjPEdqS7mKm5/7x8rxTwls/Yrc2zIot1D1K5i50zE1UijsEfuhPGNxdnzo8SeE0QlRlWJPQVxpr/6+cq64bA9Zbcq94Za8Cht9nbM3JznVrhFfvN2myyPG3Z4RdRCHU5qDUpMu0yYqG41CV2AxGm7D0uNxSsAjB8/HuPGjcM222yD7bbbDpdeeik++ugjHH300QCAI488EsOHD8eFF14IADjvvPOwww47YN1118WMGTNw8cUX49VXX8WXv/zlxdmNJRvRO6OySk/L27q8DltVcRNn66r7wZNg30uxq5uKpEEsgGGEV4npEFGhnMxMiktTIP0xAeeHy1gKyJLJ/jU1gXLdDwW0Z0CPwrSWtA9WWB+ssBavlOWFMpX5Zy3bO7+tmXZ+RfonFebjNVeFFayxdCUCshxkymLkXDUyNLIMmfb1mqm8sHg1SlilRDhXbWggRzt6WrKj0EAWY4slS2fAY9gWMFe90Be+t4qPULQxymY+SmGtXXV6sYYbBTxn8mxDdZgg09jsEXFWwWkUnkzB6jZzoMvmBMOEPXcD1jWCdZXge0oobAxyfY0Ra7MhVPDJFKT/V/BmRdIt6RJlhMe8zqjOmI+nN9Q2r4n3xhZemphdXrp3emReE6Hit6XYbI3OYBYp7gdUIt8FSIrVJQhtqtg6kz9huUPitN0Mfx1Xmp2R0m9PobkLAn+RqpTzmCWjlgrQL1t5/lxtiHFOn79yhQ6vq1KuUHDGrF7ty/i2PSZzJE7xPIZ7FvE5Mu3eSg+1ckNu+27ilTtWmthZdwL62PmWjcSbNKZ4yiJmn8XbVLlQRxV9Yqo/ZSxVy1SDRi7Uq1k5Py4SNgMQ+G/ley7npTXL74OYvIvQB6RnBcvopr7vSA1SSJQl6+P6RuXFuzLj6bGyQMR+JHAdIRB7voB9HhOlU6QW8mR0HU3TeNn2epBxbg9LRAMfr7F9VVpkbz/G5ft2Lbstsednv0hzXYu33QI55npAlEOeHNt3ko+KZxBWnii2k3UktIDEabsNS5Xi9ZBDDsG7776Lc845B9OmTcMWW2yBu+++236c4LXXXkOWuV9hP/zwQxx77LGYNm0ahgwZgq233hoPP/wwNtpoo8XVhSUf0RubizSkryCrXXFheQul9Q9V4lrAahucXHAcgyCokYXVHCmezlsZ08z4rLeII14uV1brV7/QnhVuB7TvLKXbX9ShfbpqZaoyr3Yxn642rJWzxNwTFO4GUFi6Gv+vDQVkGbKc+3Q1PmCLZVflmWWBSrUhb+RoqAYyTa5zytBA4V/LKF0blOmwKtwRUIZMtSFDjoXoWYwGETLkbgzEeTf7CJkgeP5LCyKWkVG4xkizI7KcVGdU6LPdBwl49RT6eI2EVSzdU4KikesPd5kNUiYSNspUp1jlca4ZgSUjae8ETCGbszQgokwF0Nz1AMAtIAiWT3rHFMSH8qEMwQ0XWBy/ogCED5Q8yNJityt+aoO8XnwVfLGqunyiW5WnTlolKHaHSkhIWNqQOG03g6/1QUJxBxVeAEpvqipQ8JUVKT6yZTgHt9BTpiKziPGyOd9l5bIswqKTp0EWU3AArfEUylNC4OtVDwKPU5qTGos9o6g1byERAYoUctVmXSn4ilSyH/GKbW4UYhv8ON33gs8Q+4irqZkrJRXcXzdYIWcscTcQSeNjLmcCBceyLSUgYyRQsZXk979fFshEplHhX1fGuenCR8lNVxs2caxOv27ehrL0qny2r56LDfC6bbucOwvx2GcfUMGnte1I4KaAXzc2zV2rXL4oWhfqu6tjc0KZ7xn4ili2NYsTeQFxHMy2sgvIv4jg71VUSez4cTG4pg4y/QeVl1+CKs4t+sXmnDkIr66EhKUbS5XiFQBOPPFEnHjiidG0Bx98UIQvueQSXHLJJYugVcsKyN3oY/AJX7Aq1q2G18E1LMViRgT9molXB0k5x5QpUlYNmDL5PteLagbnm1VpH11KaYUz6V/gtRWsgkvPjO1CLgmsXex1urFmbVMg7X815uOV8hyK+3Tle++jWYUSFoWiMAMod1awKje+twiFT9dM+3elQsFLhkwXRDvL27SytfDvmqkMGdqQIy8UrjouR2HtavzB5todQUZUyCpCuxluAjI0Sh9wLLlmxEGRVpwS0EbO5QN3DZFxObg437erLTM357kGcfHJRRnZMOXlztdq1IKVEbJQo+rH6XBEcZu3O7cCRIXSNc+L2cVc2BZNZUWZGUg6scxiFU2a5B+HZYVWrgTnAtcMIVi7RJyXxsNCxgsbed/Lmj3PPJ48Ge/WEbuT1IkTYRX2wRy3qjit075W0hO6Dp19tSq9lrX8InHa7oNxG1QE4FFFfRf246OaLKC+z1ddLhUNMLatBKOUAXwr1zLrV+U3xNeYiX6xH/nJJDkFqbR6NX03ixPXMDluEHTbLlysZQRr+dqmRYRHBDbEcpOvm8dUoDasP6SV63HtoS1gbVkEkHIvzgtrV9ZaUaryrFYVnIsqo9Qll5aBkBEhU4XdLyccMYVpDFwm6ufPI0AxJSxXxpZNU6fEhJwrFeCXgONGzv6Vc5ay47Jym+YjFxMocLlCNHgeLJ7NSBLcsFf2PLHX1UmmicHnJFHEsT0rxzyzBEXZSKVDxIojsS+K8gkvELN25c9I/JlJPD9xxani3Fm+si+b7F37Ns3cneTwBN2NoSSRf/hXiPqnMXY6ErodidN2H5Y6xWtCd6PizmZZnR/PWEKH6nNLsVG6irtxM6WrAoSJHD8UizWrztzhhfLV7lxdoqVeW0WBZgFVAOXayEA0RPRJ5QpEGXIAaMuF8tVYsCr9SheZfgD69RpXNpECsuLVHMqK+lWm26aKtCzPCgVyRkxxS1pbqZWuWkYxJ1N5e0/kPfPC4tVYuKJwPVAoWLWVK4qPbrmw+ShXYf1qZNoVMaJlLGHN+VRaMcs2Rc61kyooWWiVIJ+TDEk2x0b5KrWPjnAZ116Uwx4Hm++/LeIXFjkVym1DjppauoZuBErzsLYTaaWrUWwyf63iy6ZumEuUqQUFFWnw0vz8fBhLjv06q5SusTtNjGwFeSg8tukk80TBby0l7ShLqxNnn+nLyib3cFMHpp8du78mLAqkDxEkJCyB4IuCQKjBtKo5cruO3XMNL9UlkmGO5cpVTksDmqrbafkmuVqkkJJh3XYi/YFV+6EgZXmk8bNQUGjTXvN6P2AsXsmWr+tXxYdilfUboN0OgNBmfLwqqTQ19qfchtRf1jjNsv3T+0KBS4ULK1UQC6Vi1qruODwvDdECt+Veq5pv3BWBHmhRk/XTatsVKk592Rin9fmKUOpSmM6TpIeuiCLfbwcLKKMxV86C25bbwjGayRK8j8+xBHJ9cOWFz3rmQ3ThFRRrgZdmCRtLM1atPJ+wdHVtcH/15mthCSDKYX6NqGUBC6Da2rUFf6eCIOsOx4g4AebDWTIubE9Ybu3W6NNqypJuLZopYevXktBZJE7bfUiK1wSHWjdQRyij+YHydCsXr4MAT+mqvEUR4YIofL7GFlqA/zoaLL7E+8PiTPUKMN8QkFRd0mgbQ7ldoy2T4U3TlrJF2cVr+6QAypzylbTylXIFlRVWr6StXGUYQh4sv/EBW5BsgtJKV1IFOTaWrtAfmqDc+dEipYBMISPt4xW5tXAtLGDbkFER11Da+lXHuXBWuCAgYy1b/GtAIaM2ZIqwENCq1wz9qIGMCgWys2aFODaEmhNZcczyZHqqtDHyVqpYBQpXAr6LAWbqqbyw2LQ7BKkA5f5cnZN4e42JcBHH84X1oHAn0G7KLV4T4tatuV8sGZ+vrG1w6S5MlgC5/NJVQdBkvzxxHCptm1q6VhEs5cl6aZwnBumIp0XlvXpiZZXFxdpV2uaasOMcf4qslT8hISFhuQVb42U8432cn/Ef4YGIFqy8mtJI+7q9UZ0yC1hWvVXCKk9OAVxNy3QWrA6/TtgFSFi9CuWqVMJyq1ibR6skodvh3BYoqEy3kvUzh3J+URGnW6YnJVRMxhXUBDkKXgeFwohAnyB7ethxxoier0iV54lgFLgcTnkb2uCKFtq8/iRz3xYIfK2yvXB91USGywZTkc8DVoQZFxMQbij8Y3MpUNF3EFe28r/ycuBt6QBFsf1xH9FiZfGK+DXqP8ZpAWc0Yy4Qb6+PlYhz5FE42CJdJm8osbJRnHvyppC7sr12a14Mvwhev1GuUiROWLt6x7Y43gPDwSkYBiJE4lg5kWEzgx+8EdsCyeTPBuYZnrz0oFhqqYqEhKUCSfGaIFHnlyuhrKwoo1RBy+swNCymdDV3Xb1yGeIXsIYqGQ8R3avok9kRnPaUKX75MueUroa15Lbb1vG7qCNUDKtcaZ+vKD52RdptgHYRQFaBWuxFOCvcFBg3AzBKVx1W+tWrYhy1paslrcbHa0EvnKuBzCkhFQHtPbTVq7NozeE+qCU/spVZ69girrCE5XHE4qwSVzPKNkjfrU6pSlIBS4WiVPlxhiiRU8DaN+nMaVAodNLcfyznVHyr+uqxScsJaOTCetVarHrKVeG71fflyjZ4YcqBvEHIGzB8z5I+GHcDxtWBrDLubiB6TCJeKFLhCFysjDKZZkpXRxLlsTkQpIzls3kiZfoIyq0RV/UAQd5B7C7jx7HbRy0SaediBxWuCYsBmercxwSydKITEroaQvnlJ5TSSH3ztQoTMKVP/DrNfIULAAJZ1wKaZTHW6FSxBd+MW7669hKEL1h/PWEZnDJPMYWa/jFeuBQwiZrbso9vGZUT99EaDpTbVKERBcx7TIpgv0nv+XwlFm/TFLOKZR/S4vH2zSeCtDRl4+3OgCrZMgDtokduYxa05BSXTvHp3AzYbw0ovScqPkJLVPzYr2XEiBEvK4RqJsP4rCnPJnBpk1c/ukjdJdljGGUnYBVqthQ7b6CnkdJzVNbIa66K87oBo/wstcAlWN/ComTFOkU8rhgQY6VLvOPmghDXcaSBlZ0y1555HmQ83I6hDmsfr+ZKl0RT82xfeWpIsOGV4rmBnzOEx+RF1IC555TDu5d5lZu3Ow1XrSrK3P+KnfccHRke0YIaHD+hm5A4bbchKV4TJKrubJx0xuR8UlqmgGVhooKc2tfBbbpZKEsYMpcxSUA9zYny9jEBIhQ+VMsymqWk0OSZdd64BFBGkWt4QqbEmDmao5WvpiLh41WFfl/53pfne1Xi0zUj5jeWtJuCDEZTlhEht5+gVWijDI28DVlWqE6lRWsm/L2GcUpbueowFR/nKj7HlaENmsyCNLnOhasBBe1+gNz3dI0ytvSYnJ/XNq0AVTlBaWWrykP/X6AKlwNVH95qENBgxIfAlLVGFlGXAXLz42TYKF2tewFyH9KyFq+5p+u1bZKWq+DF27Cy5ernLrkxXmjJIPzmxpWu5CldyxSw0V+7Y8eKtZ0fe+0N8lOkLK8tpXIe/LimMvLSL4WfJ2HpQfKHlZCwBIIv9Zwbmteom8VDczpThtEvxrRJ8BRtnj9XWZmoNDh2ihFWURlvddozlxTpA+UFD3VGAZp/Or0VjOunQs9LkbEpBoAUBQptxf7oT8a6JnNeoaS1q2km6SZZ+qSVmmQaZ3LYISEWb+h26GaAK1eLXJ7LKkUFXy+Dr9kKCECRXnxI1nFS7mrAz+IrWGM/DgQyrA9le//YhijML8LK1WPdm5EoQXN0CGWuHYKg3vIZ7k6jKpVxbxHGrxjVxLhGZQA1nALUET5DxjxSxgmliAPLC0s4LY81A8LqDq0bvDJ0WsxZQJm/V+9yLn901W1zU7aQJN58e1w/zaTLXvhMWc4AXi7AXAr4HNsfcq8eXz5h0SBx2u5DUrwmMHgEI0iOLK+qSbqNB3wFbEHIVJjOw7FjHyVpKrY6CZ+uJXuY9ZNgfpUl3WL/swdGWaUs6yxbGvnqEcqp3FgCOMvVokhjmRrbK4C0ewFyH+RSGTGfrqZPWqNIVPwSRQSoHKTyQvFrXAwo53Kg+FiYgsoz5JlCrjLxxdocGYjFWatWHWfDesv1x7lyo2RWRf+UIuT6gcaQQWtFYMPOzQCPMwS3+JiWU862wZuJuuuK7eFvQOhygBC3fM2pULx6LgicxSs5P63khUV6GGc/0JUTGg1tEWsJH3fkX8hzpWvuN9vEsSkoiBaPhyrqhuuSk4u7HgA7Ju+4zKerf8z3Is4jZOKKqiBvfjml5TeJKyurTryPqttXk7tuh5HI6iJEmwI64Q8LbelsJSR0OcxCCHi0i2DfQBJaHYJQvtpCjCCcGynAk4NVSlX6c9VKLr6mCUM+sLL924LyFj4vgzASNM3TMgU7akD4dUVBvMyxAoFyZ5kKrl5R5I1ECBdvPPjrUrXSlvt85Z5ZuTUsQSFXSlsRQ3/gNsYgZBz31erC0t2AeysqF+nFW1Wez1eS6cpPt3H62Fvk9ecXwJWnoPjY+UpYX8YOQYuw3oWZvtG+BabnhbRhUbadsTaauWpEyvpi++Qf6/r8Sy4KrtQMNK8sHNsT2OOmRyT1AXlxwfOC3xjGwUHavppzcVMWmevf6xjxWk1GiL0yMuZHFE3onSGFaUPJmHnD49cfoJKUK93PWLoS/WaPzuIZwPXbq5INl42Pn6Ywb8KiQeK03YakeE2QaGqa5S23wepbQc3Y3blYwMsUq4otupxJekQ51gibFssbsFgvja0cQhEry7J2BZqFWPKg9MeuDHsy2ZRyClDxDpM8zihDTnnh0DoraKtSxStipPcyDOfT1bobKBR2SitdC/+uuft4lo0vrF4VAdBE2ypcs4KMExVWsplqK9wGUF58MEuR9fvqPrilySv7mJZSTuWaUQalMmTUhh6q3RKxDOa1LmcXEkwnbX2rrHbP8XDFLFR5XKa1jcwdWEBuEdnsD+lVbga0paslQsxtgCFFpEkJEVmrTyLyXAv4YbflBFCDl2W2YpykxasjZyTiBVezU1aEiSIy8iNdUcWqJ8fTAK0M9sgVJ2O8PSaNn/LYcc4iyspsevtqgpiCNFYkRRIr5ViY3166Fd1dfkJCQsKSDCqzZozwQatwZdxNKxiCePOarWJFZfA+8lPIKcU+rmUUKlz55KikDBs54uuN47mB0srvkgK4BV1h9ar0y1VGA6dcX8CsYRWcT1hm6WpJFbnscgzNsBUlFuYB7hV+I8DplJLZgzj79pNyVrSF8s64JnB5/QYR5JCYuFwp6xLADa2ZK2bAWAYbNkTRxDFLV71v02OQeUUZ7kleuI61K29OTNnJ8wXH+keG0nxkpq8S011wtVj5Ndtkq6ESOX+cy8oLjGTg5qTNpVuvnx/t9WjNdx2B9B/t7OOmvugUvPogx8b9nGKr8zrs90s54qvL5gYVfC82VozgxsIIg/HvSFiSZFuAjSPRVorEFQf8mcBvh/gAGHlZ/Twdlel20pyQ0P1IitcEicobmyF9ngyxNB5po9jKqheWgpyZ8nhezjQdCQzWVl50qd9XiLU4YGDcb5ZvhmCy5AAyrhYE+y1T2zUYv0J2MCK0gWSaK0+2O8sz5MihtFUoMf+tvksBRdLHK1mLVrZXhRWsc3iq4/RHugpHsppwGgWe9u+qjDOtTAGNNjRUA5kq/Lla9wHar2uDCguF3HxwizIdVk4WCiojRsRzZCpnQ+S7G1CFDy0l/b4WH+Fy1gSFrGcRawiGsDSF7iskM2FhZXy+suEqyuHHVCivA7+u7gNZUatXW168bvtrdp5rpasjNEQo6iIg18raXCt185wCPbElTraKEncDjEiZOPNhBcbLZDN52DsGSpSu3rEfZzguPBnTtmg83KUv+u7XU5G/2XEsLOK9+0pMNojrgNK1RfEO50noGNJrWQkJSyD8RaGpMCd/Os5zNWDiFVSwyDgdpSpedxZ80Curqn7RFpILHTu0bTJZgrCSxSCDQgPC0lWFH/uKQ3dOK0EB/W0A4xuWbcr6Y2CWrxmzco34fZXxKBSh9lmjbIXndrOAUrlg37xVMk6xvMZoQH5XoHQj9s4XFSOqyFjSurE2dWXsGMS8l/E2UahoFWlNyIrVQ7J6/NkEhOPg6lAirwTLHeE7nv4yekzwHvNi/bSZyLXP6wD/DUCZZzYjGJiRuyYXnCvQsLp9lLhJcsz5tFWcutYjKCR4NvUVtFx1G9lTYVXrcrfKXlk5rCtB18y9y0uTceEAuccWhZw9LIhbnDe0/JmiKr1MJnHaRYfEabsPSfGa4NCUpFYRRxbJ30UpKZSgyYRxRK5/nXR3WeXYhv2V35SjvSZFlbBV7Y81gmdke/+XVSOGYqFRpgN68Xf9YUX5jERbtpK2OFCsTkc1tPLVkM48E8pXoWgFiuNGBtKKVWvRmhFUrj/IlZH276rfSVd6/DIqyjXMTul8QhFYKBYLq9ceaFCu/bm2IQcVYWRFOqj44Jb90FYRl1OOXClNog2LLMY1M+8BmrmgHAG2Hy7QCliXTYmPcImNuLUrI3DktkCp6m9AxOUAMfcCjoSFm0t3SlNyFq7sV+6om4FGrl/R11atubFuDT+iZS1tTb/g+hf4gPXS7TECfmnnYpFGLo3J+2EzbqVKVxYn4kuOUXFs2s55Oq/Dz1d6T6gZX3ZbqRNn2gr/ltis8ISlC22qcx8iSCQ1IaHLYThBCE7MmsWbApQMmgPNEVVeuGYC9NsZDYL8OlNxTNaaTsdnKlpNsE74zQGC78iqClcEBcUqrF5VBm3dCscduAJU+3E1mi4SprdlSlYl6lUskEPZIfBHmNMnxWKsElQxpacCO+YckLkRCFsTjaPgtZOiXqHIJa98FjZOtGy6NmCwH4IFUPzQr2z9YGUWx3FLVOXLleyLYxWm6fPu5OSoB1NNOaWg/9jD4fs3FjIka+HnM9POe30lsn9Ogjo5MeQNL9uHLXZlKyoXi/EwbumqSa5zL2COjdWpCzsRcyxliLVL3EpiW6R7UY5Z1S3zw0qJoPFFbfomlbIoVdy6Z4DiuyD2fDMrDH9YW1a8RuQTFhESp+02JMVrgocmdzZ+Z/Q/miVkyohtkVS8AqLJSjOnQYC7g5NC4a/UHMNpPMkdOwLHfl8u8ecaxLE0BWirV1gibX+FN+4CTLtNmxizIF4v70e0c+44yxVytEFlDQBZ4RqgxMer8eWqMmatatwRGD+vZe4G9Gv8ZF7n1/5eYz5fVXsb8p6FUpV/VCs3H9DSce4DXEp/UAvWFYElyzycu6/iFvauuR4JT7lqnmH0v9DHq7OCjREYE28fxiq2qMuBnIBGzqxcc6ZIzZHnubVKJcdKor5euRLWyOa584sa2/i3uoxSNde/uvs+Xu3cixEmE+bHkG4DeJohV8ZiIKqERYlPV0asCOXpPI01O+wHL8sXLMtbcezH+eTULz4I15Vntwku0xG/bQlLHlRbVriI6XD+NBESErocbP2XqCKakTh+I/fLN1mMG30FZFqxaS1JzQepVBFPloQoUEMfMyWt0jJKr7tKgX1pijVVLCawa3SgvFWO/0hfr7oD3OjB15x5C1fBG+XAukcBzdaMH1lrDRv6fLV+ZLnPVz1+vkLPRJh0R9X0P1Ucc3+uZSdf8SMFKO7v1fBS8sLiFBX+YAuu6axd+WZHQmuabXxw7E5Q1PUAheGm8HiUs19xSmD5yCGfv8Rp9+qLWeTa06O8OE3QrF9jX543gfFEl0Z23hoXHU47bPbkKiu9zl2NSpH8IJb04xHuyePTujzHPfmFAdmGMpJp9yyfdkfnlJ/m2cCUGx5z4w8eJj+cS8VpqEQtT+eWrlGlK+mrTifm+nle8mI9B/xhEONqhzsYqrKhTOheJE7bfUiK1wSJsp/FfESdIZJLKyKqi4BZQ9lSL/xseccAhJLVsBjre8odEwCVed8TtQpVvz7dF2N54MvnWi4zrgXAvgwLSWp58bY4cvrfXCtutSaR9LHyfb4SoY0UGlS8sA+VgTwfrwpwPl2VXrQVQam8INfGZ1XmuRvQcSpToX9XpnTlPl8LK1+FPG9DQ+XIlOdGgDLkyn1QK0fhkoBU8cOX0g8d7hwCYB9CIMMg9EC6V774F2j1Awj302TnD6y1a+H3lXQ6MQ4uCZX3s62IEy4HjBuBRkh2zAeyyChomVsD38pV+HrlVedA3mAEyewNIeJWraY+rXktI1zhx7aUq9cfAhTXjT0LnGCxK8j6dAUrQ4c74l7Aj4uSrhgZIxkWp9Yr5/+z97cxtyxneTB43dVrPXufg1/DjJ3xAcYJSQaNiXDsCQRjhEJGsTAT/lghHkKk8CFEFCmOEJZQMEKYiNEwRAKBBJJffvBrYoEsISsfiBGxBqQRlhDGDIP0GiXMi2AGjsEw2HB89n5Wd93z4/6oq6p7refZZ599tvc+fT9aT3dXV9dXV1ddddVdd41xjvGuntlq1rCWrThuc83Hcdz8csujDHuXXXbZ5XNdpNrPLviGNoeVuzsmRKzoJOGth6Gg+X1ty7YTRyld62plfhBKoU2Yx8E9V62Ix1fpXAaSrDZ3T1Y+KwBqFWBy0DIyaZnJsYcyPCiceHp+MxjyCbjmK5CarwoaLjigKw47eWVUxiGh9co/6c7Xd3pDTDqcb/WTl8wLTFqbpmu4a3sVWRaKJB8Lab2yGYJWfNqnXvs8XirfzQIfXuvms4nXtLey1hWItA3b2FXZx7mwG+G28qPDj+PuBlGgc/OYExqCZm4gvIyFlUE1PyJiqw4XbXGl5jHF5Ti7TZ7AMDnYSFwrCB6KAh6Pg0n+kvJc+dwJyxgv1BbuiFN7zH+OkNWV/zXhev78JrdYkWduGsUFQFArfdPe6CTu1fbtx/0uf1s4fvCzyy5PuuzE6y4k2rd852QkXZPQpOuNoLd66NbRRxjeGXZMJrAmXN19g3SNJGYPsNJwBXXIlJhKYVPHLarQUlLJFEVyGTuG2b0A0ZeYGO5ShcCFjkBDFVM1MlMmMzOgrrlq5KqVhy0bA53HRlxRfIVAbM1ESjUbsRLrf0rTvhxtvoYfWSYsZUGRKTfNSruumGjTLcFBnMsmO11teZidl9CMUNJ6lQC+cZTVeXtvQjZhHfh6dtiygQQhG78AeMQkMqma4CnYy9mOQjZd+TzNEGR4hHYivNHuqz9fFzXNVQUd2+MVdA89qdqZFOCkMzij6/F8BahGt7ge7L5yGA+ykdbqfIgP/AyG6zGOIbzx2VV4G89vum0k4MLnfOP12Mxs+bn1oGqXz00p8nBLq8ZJv1122eVlEO07gpQtkObu0TEw9Bwf07ivHdkSHqSyhmtA0P6amTWFYUoNYkjghG2zAym+isj64YrU9nSMpoTjADUb/go2XOrXhvm0BMqyxGtvQHPllsusQeYFEmQy0ckZG++R5ivbeUX0k60dHJSA6XwkX/tQ+hCbNiq/oeYmifGZZO2EQEEZ64wXVYap/TUiT6Ob9ufwfAQByGG9VNnCHZqlbAWqEf8mM3hBRj9Ch8zrBW056Q7kTgVzLg2R3sr+aEy6AnPrAHK42IB+D/50HexmkA0gb1wPILwDuuvz1OoF4WlFKnV0BOpwveXWX2sLD3Rvda5dFsZkR1jdMAcUTqSfyNfV56TUfA5leiNmf4jvYZcHlB3TPjLZidddOtkyop1CLWnO5J1rXVfPjhFtRk52XqX14gGGWUshe98NtEBk6OrTzyk37XuGs24+j1eRQCW0X9vul4QvOYliz6AGatQeq5Y+/TGzmmIMZG5ahcltvUo1W2JOmqama5oaMLMEnVmBUj0Pbg+2epxuYgDqtr8GrVc2NWCEc0GtE6pUIlxd4xWh8SruPZAjo1E/L8CU5hKkAzhVbClcI1NtA4N2bmUiUT8sy2nbNeEl4Z/2/v3V8j1K4uimUCJUe9MAKyDCIKcLpz3bXdMmWqnFGqCJTBZ0dlwr3YvNtvyZdmzgqSNwaw++RkB19l5ca7P7yn4qmemNI2PgETSNbvwcyzlABjTyufM7gDR2v5VbhHkGL1xK31k/1HyN/mS4frnlUYS5yxnZ7WHtssvnnkS/3snWtyYOO8dOZXhE6aafmxmAMmA/WmLtE+PNvBaYjxyZwD584i6lwMwSFI/Uea1UCBB0mrBFbKJea0I8aDEMsUyG5SBmn9GBJni6OwBtnof5rSDNzjRZl1qyIDt7zVelpehnQNvK3c5Vmtaq0Lvb6vvOvPUerns4a3MDFZOSjVf1lVhb9WEMDwCEtF61qybtGbWSN1wjXdpWmdoEL2fuAwPR1WvghvfUROzqMVp9HVGLtBByEZqS820BCL3aLr9nhnctbdIijKStbBFzmvtzQYw7xsIKt0GbFA0/8xi4uREmDdzN99COK2KTxxQUZmJtD3TrfOte/G9jgaZ9u8L7dH6TG2N/PfcM+mdXuHzD3yUt2NX1Lq+M7Jj2kclOvO4yyLkmTrKzYYXQNeH6cB+bNcLeYQYaONv7EvLtWBjvYFNjQKiTHtJ3iXStjASsWxNI2ujMNVFb/XoXx+jgaXcyl6fIwwZYboXq8ZWwf1qqgfwK11pQsu9aHaAXT596HsIuLLkVNeBNjOG4qVbx912jS3c3VNJ6VSNgqxQsrvF6BUUpNQFsR74mPDCaNq+pqEVhm4tF8YgPBURI06Fdqw82ii/Dz+WFDpRXKEE4n+jy3NCMXy/ozAakaQEiYLd+jZClcAEjWytMy3WJcN0MQBy7oJrb2Q2zMB7tmZGQTXMDyNe5Bk9+sulOby/yF0b1GUSt0qT9sxjDGz/dzTyd8b8Rx3jv1uf8/Q5Nyuj3Vtfn2gP3vGoWcMH/ptebPO/AZ5dddnkVC3dO7KjoR/tuToAtDWDrUYBwBHscfRrGEwi0OmkKNFuveReJqTXwDJO2MVlfLJwS/a0TqEGmplQQdgS6deLEQ0na9beVXJpYEcAUzzFuJrf46YaGq6vyxl/3DN0LzdeiNW3ZrlQ8hV4ed2VdljKmbRJ149EVoekEXKf12v2CdLXroq4AoK4EoOiUAgQtK0LXoOut88iyuWn37kaCFqtnefVcGzadKbbVZloR5TnEILrxQySmfSy3QRyjn7YsXTseNfxGDLx9Rn6+Xpc7cwNx5MqwCqz5sQkND6OSV3Ut9CwDw8/t8UZmcl7SSagN2LBBq9LAeRK80TatxiIgghbN/8Z1krqVwvBcXbLnepObjQUH93gZgJfF2qwAh9Xlf8D9EdZFUwTrYHbZ5YmTnXjdpUk05KOzImeTuePv5Ca7rux8sXdW6/BGswAcxlbPvErL2GKPCEN6t9Ff9i5+v4RagSUkCVioaYIGSxjIYQw+3Eq77HPdMiOA2171NLiGg1SBTgU4mK1XXW2qhTzvNtAqxbVebXm8acxitZGWhBbvDRtuiRRonVBLRZUJVRSLGURAwWJxR66SQKVNCtytGMO6BswSpVAJKEun7dppv9KmTxLMJJGkQcZ2pCyQtlvT/6LQxY5tHb8BCp1rmhWwzbVAwAi54VZdej/tGXi4QJ0r2XsFka3au1fTUlX1oy/p19qW9zMBOxKtCciifkW4cY410DI3q4cjL937AZZK5S49xmPw1bnpGX/o3TGcM8m8dX+M46yfM0BOxwRtX266bfo5E96lZ4B+3HmT0JCA/t8ikl1eftm1A3bZ5XNOkvQCGpbMZnOjoyCsmcaf+BlVt+8/PBiT6CO21LbZTGq+dhtttb4zNAvTHbCT0mBl4MqO5Fp1SLG3Qe3twFb4Si2eZPcITd21EUSbzZHjyaG3lt5LV/ib9wIXi6CWoelb7ay1nY6IlzVSB6jdiWy4r90IowKIrV6nuA6SbwtgxDuhY7fIK8hhem/nNF870wO4eXqVkzLWCXbLcxre8FAn+fvIYoRxJgFRZ2NMuCp/adfn0smfXVZF5XrVl3U+m7ZZh4DyeOb+Gckho5KyRD6ofqb+f7jHfsdnCTiLtykB0kP/g9/VJrikX2quKoYxRB+9jRkyajRFDCW3dv8mN1YISXdKs51L9yzgq+yoAtxEwHJ6Y2O67vYN73GXl1F2TPvIZCded+klG2bv/ETOk63moXvudjKAl3TLRFj858wOXAh1S7IRj3Qm0s3oWpLIvECnbVvFkLOge1YAI2ATrW1APs4qLwuLX+xW2yFBbeElSHLSc55QJ9cY5U0WxAG3mA0wKeam6kSsqrGOpRiZWgdzAoudr0wMdKSrGNFcbfOsMC1QRTBhMSVgBTpbrhs/YMGkFaI1N7JiHKMomEVxQJCr2s22FzXC1YCf+rmg+MZaeU9D57lZS0swmyQreiOpAHLrXGY4mdWsCiw1CVedK3Q2O7KxAVbucqxIo/lJpDowSiP1mW8COQH4OmCm6Qec3AEDKmWpUtid7Sj3qBwHX5+7V3uyNyMcQFI8e5aU3Tjfer6bGUcvXf5v8rNxf8ute3YLKN50fbmZuigvDVe2usDDtB2jvoJS5OFsWu32sHbZ5eWX6ItDGMzq6A7vw7R3505G3L5/hwM3gWR3NG05EPmKjmTtGEBt17kTfUWu7Imd6TWwo+M/yQ1c1Vk0Zjz82jtxqWLmqmKivUqaklIFUJfG31Ii0zRVJtjKoicwOc7xnuNL76mKb/jaT8rzNWFIIVJ0sCM1FmFzY3/rXzNUALLVa+hJHHt2G2jxuYcf55M6vKZ0sKYrwPsVkLti5Sbw90xYotN65efdtRtB0ZApXmHkTFLdle5pG0ZwJN3nstFFSbHVWxMEIyd9Y4+mrXy683PCLLEMbhKZ1lZmeuF+92HTt1rExgSePvsWkNqjhovbd5TPd0wkfWdoRGmEmeUZWJ7cdfzFLUVPfmrUXg6azA8MBKtSWket14bzKY8Y02EKUZHWSFP642vyA8A0/oXiIzl/HeYCXQv6nF2TXR6d7Jj2kclOvO7SS2hOxvUlQlVuur/x4Z31TgiD3bbI1zMbap3r6rsouSMGd8r++GgVPOxaAUiGNTtxyTBTSzMamzhOGx107hSgjZUS71wETnwGlKLnRaALnGAs0EOEV42JHO2p5nm4V2gpQHUbsLo2L8AbaQXDudpwqypEJtRFsRwWTAAOWLw4Ij6sjoZZNLFJAlepuXQrgXex6dyiirJYMU4qdkQDpwXAVAVTNaIVtUHQ3IxLbfCSRydNE4OtEQ5yyrhjLUGkami0gmaerW5mUGCwtgWCMgEDsAobru28abxqasJ2Jge0T2pHxNKRgdeNIIrOwy8pAjfStQW9AmCj4gHofj43xJ/PjqAM29cGOGXl1naqXcfT+0U+vxJZp+NcegB7P7clXcMQymakL1G4Jbxor3uXl1emYr+X/Pz+rnbZ5WWXGqt8/Hr8zGjtMred3ZpmwLDRyqbkGCgDyfVR4PitwHdmtzY6cJ+zbe1ePBPJd2iqvjRaD+jIGyYtWNPV+m4inRSOiyRxDYJkJZwALYn9GjPoG6FKJhibm2vRfc17Bdqsu/bkXjJ8HVJA4mV22/InbbMx9nNTq5rZyisjXCc1MtGI1gapu3ONc02IHYoHRTee8fKOBWHhztlPPtFZztDJ4BSCn0n/9ByV14gkmHSl0uuJ2bit7br3Hc9Y3SwxbtH+k+CvokvrcGJ5GjKluPX12tzA8J1uyXjPzbtJRfvOV/614SrVxPcdsF+FS+l05YtuDBA4W6munge6nX/+8JXOMzztHmmYnjVhEeH177wfFlpLdIlozfEP+nDQ3Rtq0pl307sLhXH+de7yCGTHtI9MduJ1l5R5ie0Tb/B4DsR2fh6QsTjrT82maaIA7tnaedIuowmBALaqoMU0eW+1PCwjluxsW1xjI9R3JgGOI9koAlmUsKk2kwREvoZtr4ZZHeR39q4iPRWYiinfzqa1YOYLHOk5CGXtV7PrSm5F1xtpufZDt9mWa0Kc23CrLAVLPWC686IRpo40bbMEAxJVgAWCReI3YZYJVyKYARwKfDZ5aUvGtEJ0wWFRI1S9dKWVcoP46mZvFzdBIIDUcckYvSFW1wysRhqtAQI1mExe4+5qqmE+IH9B4hLw6QBVAq70RDuVBlBqVZLtutIj2yCJwE8ciR+3o7uvbMMOICvjx2AHCqGd22G77sh2mVbAC31YF/1QHljGJkOH8zEcJsCpdcgmo3u+/4zXzdNGU7bVhOkDkK6XZUjQSwzhts3sLrvsssvTKP+fT2nf8QB90xr93GjjhZtgVZ9A1AY5O3NU6IHGhaM9Ls3mK/hI03+OH+M8/TArtrif0rDnJsSNDow6SSNeI8CG+Vj7te3G5RtwVUCmrWK0MBrB6vhR6BpC+TN8COly3BdSXlLB5jsJtg2ZJxn+QGk577bOi6Wo0pJ3LrcRdYBCbXWD9R9MY9Z+U3WtWC+LCG3UZF1ppA4lFLg1L6kiRT3O/Ax+O5wT2tTo48ngJrXl6tWwdZ8EAnw0WZBiewB3xXYZ0QSu30pJnIc/dRfxMUcAebrNRxke7e4N3zGQYzQlVfn4btcNiWZNULcRy3s/JHFZBzuuUS5bQPbcDzEuIDuu4zma2/iLOGOvh7yme+yWYwGQ3VZOzlYSNz4Xc+/fvq5OBryqG24A/up//m/YZZcnXR6Czt7laZPDJMSwPMQPt7i/+avb7nW5ZbyI3oJ7jnasteVv65jnca39r1NvrJTX3jCndEf7yWiQJzrmLq62dD3Tw2layG2xnywKWQqkFoiaCQHROC+u4dm7BcEqRLRKbb8A4KOf9LcUyOmAcv8K0+kZXM93UcUVQZ2cDfMDFXbNRgZCK8F0ZQEIUAtQxXayKqg4qmJyMBfLzVQDxLoZgQqUTDOylxY0t07roKrbeI336b8AX/nuAcz0jqh+hcZrVgU3NxDxKz2j1W3GZvUmTVa49momRenTa6YGlF6/ZjXh5/oqklnwNIxHRe+2cod2RcHhd59V3IdVDTZrkOBrbA5GN9AnO8QZQq/1bBOz1WQoP9+B095r5mH9aQ4AtP+NUqFpneK2v5jc2P49WFibP91K6S6PRMIe1sP8XoL89E//NL7kS74Ed+/exdve9jb8+q//+kX/H/rQh/CmN70Jd+/exZvf/Gb84i/+Ynf/F37hF/D1X//1eN3rXgcRwW/91m+twviH//Afutmb9vtX/+pfvaT077LLo5QvfC13YF0Hue02mhXya6nbP+vwHqzhlwrIAjeL1LAM26E3zEj+3WxRnBvuKYnrOtKU8ZqSbdHuJ+tn2YxA5+b+Ulo/FZ1e9sMu0dc3XIQsV3Nq+ePnzpmm6k0NsFt/HQGO19tuLa1xJY5VOxut/FPWgO371+RqO/896RomsIpKmsdisnr1vkDE6VZ5efXjNBQM75DpYXYec8Acd9x3bL6IbbIbOO88EqKkRngFxt9zVeveiPTPeVq2Qhf31PGpnBTlDAgFRuwrn3OgY4yh7EJpVPTXG6lr/1NZpgUdn8F4rXzNv/xe1niOn80mqw7NXYZFyh/xBmls09mNzWGu+oa/cEKZ0srx1na9Wn1H6Vi53fBbNdEVeOZ//bc2yn2XRyKPAdO+WvDsTrzuMgi1vueQ41m2I454sBa272k23bXWPm1DL2OP6PavDp2O1vWxO6cehTqmDKfWdl3He3Zf5sXJ0SVJ0vGnSaRSXmo1ojnI1Y5wVUg879exGZScBDKXRsIGwRrnNdwlQXegIVEG8O35fHYpjWw9HTGdrjAtR5TlCNQr3Jtfgxfnu5gxWQeLRr4mCdsRsQY1K61vM3taiqILplohi6DwLHEAUhj4LVVRZtN0zYEJD14UbscWkEUgM5ykVipXWNktwYQCuqiRqUs1u61evo0QV9sca3Y/sWGWh5Fka/VzIAnOsOkKgGxGBcLg+k/fg4uBesUyAyevUh3QGa7zc8RwrRbabT5JroL5s2LC4scRHIHcRk3bLTfOevWMcssDPj87vl0P02JwaJqvsgoPm+Gc/43C96rXzwf9rYeG203hAyWUf7J376+YlIcEqC/BHtbP//zP473vfS/e//734zd/8zfxlre8Be985zvxJ3/yJ5v+f+3Xfg3f8i3fgu/8zu/Exz/+cbzrXe/Cu971LvzO7/xO+nnhhRfwtV/7tfjRH/3Ri3F/13d9F/74j/84f//+3//7B07/Lrs8ajkWwkxbI3v/mRki/3Xkal13RsQKpd3Pi7+6PlbHbTEZrEaGNtv0jfyDEuEUbvDl7Il7pGE7PleaTN8iZYmAtV+Qf8PEe2ykOZB1Xd8s637Y9UdbP12MkBJI0ywUymOKtBi2TA1Ifx381ijn6bF2XoIjE8OgFlYLt0cVWQm4QrQkhqdIpjrpmkT7+V8Zs4U+HA4+45TBfxQZIk/00OC3vbcuqp4gFTWlirBNTH45TpWW+PE9dNcRX6gCg8ZlnkYhv/xcy3hLMxBhRYaHZ7ujDGUxpDTIWjKRJ0yebgTbXWW5ei1ZVVuld6nkFg/qxo+ejcfyp1RNQqljMK9BbdeIK5kw7ZtDJ9k1wo3rNo5uShrtGOlIvI81zo99i3k8UDGMEbQfAyh8yKwAJlK53+XRyiuMaV9NeHY3NbALydBKA9iGLrcJ54zzJkJiBLEtAljLO37MAmutc62zWM8WPXOgE/djNky5B69+Kq1z4/uZWEcLERenW+MZCyNTWPvGpy22suckwkrTAoBIRZpTSBuykZ1wq46OKqQ4JAwyNcwyFPcTxqbU3cSAuC4+y75hQgASMLMYcCwFWidoqdCpQs3IKPQAoC4QnXC/PoPDYgOL6TA72JbNY5SDQrAAmFAxwd5L8fK5UtfqkAZKp9QWsHuTD1QMsIqbuhUbzKiVb1F/J2yYVC0N9i6t/lgRsWonGlKgIuxwmPtVj0+h9j6cgOclfgnCGKyuzmmJP7R5J4A1LzwDbifV6xMTrAxikvCMaydTKQsdDgTaXICSnw7/kduWKH0aEXbLT/8sYUqKz7+RdbFtnt90HM853nP3z7mx1Js8vAzyUqN4BZK2y2OUH//xH8d3fdd34Tu+4zsAAB/4wAfwX/7Lf8HP/uzP4vu+7/tW/n/yJ38S3/AN34Dv/d7vBQD88A//MH75l38ZP/VTP4UPfOADAIB/8S/+BQDg93//9y/G/eyzz+K55557GXOzyy6PQtT7dwVqmGUiDJkdjG66re26bhzrGfc8Eial42rDLcAIrOJuFWlGIDaoCcVTs0VJPWTMsTFcRUsDL0eH46XEjeyXNWfd3IBWgRTbTFW0tn59KL7gthRdCUeEzd4sJzSwswwrowRIqlNh5QXmzdb6kh2nRrIeWeiwOZch05IoVfPBxEdReF6WvbUwzessX2ncXqRpvVz/QkI9uiyeC/4NTUvveEloWKNwm7PnHgv7rQvs/WgblmSdhVdrD3sV1DkgInygDN8WuXTDs2H8lt/sEG4HDPl7BJTef8PranWPgw90Gu8n0SpnWLusM15PjDuA0/N4ml5W1Pd4XtmsQPO3xeF2SVMLab0Jl2adzzTH/Qe85vzzK4jmcry/cZpjF076Lk+nvJrw7K4Ss0sTXisLoJsWG3+bLfsZ99UM3g1+Mp6NuDdNIdwizMgLH9mEwVa4Kzd+vq7d5tkIyVptk51l6TVYx5+HE0Sm+dNBzbC6VqZrR7iGplT7mbmB2rQzUvt1giy9pitc89UIVTJHUAtK+FsKZJ4wLQdM8xFlPkKWQ/vN/qsHoE4Z5lKPqHrArFe4tzyL+8sVZoew1auWvU1FcaoQoE7Vy1CgTqy2SXEmI1OTNQcIcK1W78z9dcSSsCg7VTQSNQZLEDSzAe7Hz7vvILRdlS1zRZodrMBnfQkldO7hNwhS/75iSU8AKHNTr+p2viyKZVacTspmZeFKM6hVsFS1DbdSu5s+60xPy9OqqlN1C2Xt0GjNWWnttV27L5X9xfuOsMkPX/Pny26WXIOzdYhrnBm/qak51yS9HBZVarzrM6KfA79dXiF5mZZlfeYzn+l+9+/f34zu+voaH/vYx/COd7wj3UopeMc73oGPfvSjm8989KMf7fwDwDvf+c6z/i/Jf/gP/wGvf/3r8eVf/uV43/veh89+9rMPHMYuuzxyGUw5SawWWnV86N2W6nhg6Gy6GUx9wAaZn7ejeIfatF6RGqbntFdZE7WkxqpQB0nkqROnN2m8rkwM0Lk4wxUE2RYFGlSKah8G90GaR+2vo6PuWSEisqQ9t8E+Flkv/M5rBz0XTRggVlz1AWh33mO/sXcVPvEssHbyS5ZIx4VwJN+Me7wF96rtld0OJwgRrvTj+6s4wg9XJ76vyKW9LRK0iCKdVPLdO1BtbtqtderP++q6Zuh5kNFY8ixVGdhkirW73nTTIc8YsDk1IYnNw13Hc1e6UKVz5PCTreOZO636xKDRqi3PSv67MGKYPA6blZ8580N/PTafK81XHdNu459FB1NpXHi7PFp5BTHtqw3P7hqvu5CsulOTql1nuCk8+/hyJKO7GOLWBdlDltLiVvRTr3nozxVoRtm7cHV75jTOC0EzTlYyWq0QcmF8bICwniZv4SYQ8OfZX6ZDMv2WRUMxkloENo+YNqrCsBIUWkwTE1UNUPiGCdGbajV/toNqgQYZPDVyGKW/rqLQujhJWFDrEfMy4YAJi0w46RXuLRUCYJpmVDMkkJq1icRwQMUJQMy8s0kBczuqoMC1WcVI1YK2FK/4fXGGrigc5bVlgqHxKmxENFBGvM98JQKVxqqFvSvxzSBCM9b8+THCiSoQmXCCN4BNoBJBS0aCswAfVYmfp3MCL2Ef9jxII/AFoLp2TRsvSkfQrsaS2opk65yLzZ4/0z4kOKZiXhd55w6oh9cGXLx1AzcPeuZ4ye0cdrtN89VxrbcY4NwkD9JkvgzR7fKopMhLMhfQPQ/gjW98Y+f8/ve/Hz/0Qz+08v6pT30Ky7LgDW94Q+f+hje8AZ/4xCc2o3j++ec3/T///PMPlNR//s//Of7G3/gb+KIv+iL89m//Nv7tv/23+N3f/V38wi/8wgOFs8suj16iv2+ATQInrvBfOzHf2vrzlY5WsFC6xm5MfnVHx3Ws+RprgFyDFVPTQGUt19RwjXvS4Kl4+qQUpNolwdEiQ7+l8A1nebWUUKCSGq/ZD4tCUFDVTCVEGsaSkS6aIL2a3VTm1ppfmowOrIVRwg7qWLY9vmjvxMqhwWsiWSndcW8iNCLDPb7mMgwpCY4I3gNt9/hVXm4vuYL/QteiVE1HrdpL4UY1vfGJyF9VVyB17A3pl/xvbdZFn9+WzVxE3nKs1Y6Ntu/PG1CPU7ENgxfOi90MXI0bjg3HWv6Y4GtDwMD7w/cH/xZ4vJjtQ/XFmFQLArtTvYlysiEZ+0V/7vkNpY8or9j3gfF7FybonPC36Qa1cjqHlbtwL16399+V6xi+XprGgI9HshXus7/LKyOvIKZ9teHZnXjdpZezrET2Pmv3XOb/KCTZqzFB9lsC6UhzFuqccelcyH+gJYaPA5RUXiThz1QKT6hnEQfBqgCmAXE0dJbdT4DxKMshGnSgXgBx8tm1HVLToBjpqqip0aCTd9SlQsWW5DcwPKFMJQnXkWAVMi+gWqFlwXIozgTCScgJqAfMekTFCVUnVD2YBmy9wj1UFKmYcI1ncbLBANyelgoqyLZWAhGnjwljQW0AIgHioygVRiJKAEq/WameKHfh4iOZvlZIzKiqAgtSC9ZgX+1BHFXDdArgFeBJe4+xfJDtMVU/pnK0om2i5T8DSDrMNovbWepBUKXznmDd9gu0Ge1OEzVSHf7pvAb4a0UwnLA4APY63ZGufA57h/Et6hBGmFPoB3aefl27RdrZfZXeC7Ll5xxQ5BblQWVoYR44TS+n/11euuhk7ezDPA8Af/iHf4jXvva16X7nzp2HTtvLLf/yX/7LPH/zm9+ML/zCL8Q/+kf/CL/3e7+Hv/23//ZjTNkuuwwSGq8AsqVlDTseWCaEHDqODk+GR12d9pKoYvvYBefkXkyOwuGjwbuOdNUCW+ET9+CYQgXq5g+TDKMOT4bOT3y1UMk5eEGtkmWi3g8LCFsGnvTsieczqMkwImVcrmbRZh+XJqy2yool9fm6n/0X6HBf4HZzxXYTKG6rtcS9WEIuYUagt0BbfHzBZOuYntW5g1UhgCSgJaQBZdDjkAeV2+ADg52a5b9FW18M/8YI2k+q9EQwYTgEIak9qcrDnj7eftyY+D3LzQlXgY9V4tyxeqSdx6YUyarcV5+idtdJJIubDIvxQ36y49voDMehNyTH2pmh1dvqjt1qYa8akXX1t1BJWQJAjlGYYA3/o7sObjnegBAW167sIrwuGVvnOfRpCiHjO+Cw7N52XV0ybun9D+Ht8mjl1YJpHwee3YnXXQa50LJlq06Iopvle6mSPV/vpty8Uxpky+FBrGZE5xVown6SBC5TKRR/Rd9pD3i+A/baPJutrkAMgUQko+4JVbTz6MK3yFcVYCpGlMIBsbr6qxrpqqWBZZu9KpCy2GZZKpBJiFAtA8FK9lyDkC3VGtNSTSOiwnrvZQJkwVyOWMoBC2YsmFBlchJ2wvV8B5iAu+UeXiufRcFiQAqmvQoRK15Vs8sds+oK2u1X3SSCF0VVX3oXu/xqqxGzto0nlgaQFWgbZhRBGjKN96e+1F8cGIr2s/oEcANoJN+e2p3uhxCPEa1IlKJaUXOTLAJUAYxq818XXRGxViTSE6oDwKrQM+5xHWSutPtAfz64gY8Yjqtvs/8utsBcXMfsNoaws9i7MPpIVuBuI13r8M7L1r3NJs6TfAma3NQyni+z8zKOq0f3W0e+y+ecvPa1r+1A6jl5/etfj2ma8MlPfrJz/+QnP3nWVtVzzz33QP5vK29729sAAP/9v//3nXjd5XNLeIYR6CGdKLCIQ0dpnRyrRIY/gNy13S/ncGc07HQM3Bh0g59rBObBF7eAhQk2uS3IlU1S0aAu3YMqpiLIPWgng2iZhKHv3tzwcWNNtj3asLlp5xbfTGnAx5xj2eh+sq9b98bKDB0VdbvgdxKEMFBkgcBIXvIFQwxNw5XvRc6aiQGy69reRhZTApYzJFlqciZQ6uMrqyceQKIcfTixBRUelGwdgr9Z8nuho65vjUXDNWmMLDB8Vgn/p64JHu8j0DYAUxoJwMRDUHgdjbD5c+XPsP/4+/w1DQ60l0jn8XS8bJ8AiTu9/ibhcoqiYemWjmYOoMfozT+ZF8hvWN20gCaBqhTRSLB24WobE7SEIeOIMm1pbu8B6MPrrv2BbiXccJ4llOemPBKmJnTj+f6r3OVJlNtg2lcbnt1tvO6SEvYoz/7yfg3fD/63GXbduDdakYwfLX+PX13sl9s01svnQa4xw1UXXzq/rMNnm66x7jtshbFRnPHnhjhzV93uPj3L9wZ/qoPfMb5Fm8Gc4Z5QmHJaUK4V5foImY9AnSDLBKkTpB7smNdTux7coGTbVScgTBrohLleodZGti7+m+uEGUcsOOIz9fNxH0cjDR2tTt7Dpq2qCkC1LYeqwFQFE2JzLfEdYiVn+8N/0bafmCi8J28zum2TLfj7l3yejdODCc1UDUWCLmVcxkxY5EPQzUYjQE+1o5GpdsNsK7Vj2GAK20ZL7b+dZsdV16+dzrWatsra3a7nKjhVWZur4/P114caYW78GPB199DcmPxNswlDPFYuGMov7uvgd6st64Fnd+8BUFyE011H2mVdPl053SL8G7VNxrRQ+GMZbKVjl1dIYlnWw/weQK6urvAVX/EV+MhHPpJutVZ85CMfwdvf/vbNZ97+9rd3/gHgl3/5l8/6v6381m/9FgDgC7/wCx8qnF12edmFMd4KN/o9x3Jis6BuHz6OjcjpGQm/PNcRbnaOPhG86mzbT2ptk82L+ZGxwa8b1yppK9bwkaDMMNv3hFWk+zU7r3Bbsk2zNfxL59fwjW0jv9XHZM9Mh9FHka2toPpF/b311Y3XCqCImWkI4rR0T3lIsg6N7X9OXeg+QR/nMoTFP226u9UrSLs3cPbK+XxwcZh6wcODhR457InqC0IkZ9pp9aoSgbC2avhZ4RD+bqSZKVC6YfzrQMR3JPxG2oK53crMahJlDMfRZFfJeqJfunM/VZAd2FGPu68Plq/I7FbhZEFkeA30ItsdGwpqDkVb8xH32zi9y5D2byJweA41KcpKRzuXZqZs1K7t0hDJlO56Zb5M+7FAVUlzaktdp2HruMsrJK8gpn214dld43WXXm7VslkDLLCGOeUCi6AXbxv5NUKsLdB2dmbXtt1EbzaAOt0unRE4dYbkJ+yQNg3YkJha5M48AstA0aMFP9biDVHrZC9qukYauvsUdXSwxUBw01wIdFRsN1p+rhSU6wKpB+h8QD0swHFJbVaUXru1MzNQKpbDgqbpCtMWWcQ0XkuF1AOu9YCDHrDojGU5YMaCUo4oWlF0whHALAfcxwF39JTjhgGi4aCCScN+K711T24MCGwTCm2z296zC2Dkc/T0HEWSruRevZC0vWOBksYD1xnNMjWbuu3avHnYxQY+iZ0ChFSevXbAhAAiBKxUcz5hJDf7cyKJM0zKJrmPgItwXVbjVVhYn+PM8TbNx6rolep3St8ajMHylzb62yRbh/PxubPx3JCfm7Ib5fVQA68z13LBzzm3XR6NvFzLsh5E3vve9+Lbvu3b8JVf+ZX4qq/6KvzET/wEXnjhhdwV9lu/9VvxxV/8xfiRH/kRAMB3f/d34+u+7uvwYz/2Y/jGb/xG/NzP/Rx+4zd+Az/zMz+TYf75n/85/uAP/gB/9Ed/BAD43d/9XQCmXfDcc8/h937v9/DBD34Q//gf/2O87nWvw2//9m/je77ne/AP/sE/wN/9u3/3Jed/l10eiUSnB6wb/bCzqoaxFJo28hM4uWpKh6P8mF+stDDyWCl8Zt4GuBg2MxtjZ/bihQyz6hR4xp8btF9Vm9YYa6EWDyP6+U5x1PFimhFg0wIYzh3nSmZAbMOuxNqkn0jNmEY8QmE68dRINw8Po53X4TVuuIjnVzu34af1RhMDLVcmZRVhDnaADKchFGm+AvblxcP0/Vl1oq6cCYur1m00Xx84PT283bwtw28TYGXduyFhymWrdPvMd+xuomLa3wCBwHMoUteJHsIU8TpJEy7aeRQ3/dHqBUej5NS+jcEvpZVXvY3h1Nrumxft7tuPVuLRj/1c3JsazbYtF18mKcyM+PiIxwX8DM9PUTLTPYornq/eGMSi0NVzdNwx7SsnrzSmfTXh2Z143WWQC02bt4j8OXVAq2Mp+o+ugbZtiuB2n2jM5o1CPbYCkKDqzkCVwMEBkjsqpiFi9aDFOzwppS0tS1us544elschWntAn/aIAtjq4BbHOMfwLMWlAh02/tK6mL3XyESBEYFOutluuRPqPEGPC3RaoIfzZgZ0WnxpvhPcKoAuUEyAFqAWqE441StUOWHBhLlMmHTCAv/phAoxTVg54FqOuKv3zSQBluSlTf/Z8lYIjUsVm0irrtUqCJ+AmqkB8SMUzVgQwtRAvHg0FAB2D7AXJhiGKhF+rYq5CQmYZkqgTZ/drj5KUnFNWgmgQzWYwNZaEUedJNW1tiiBJtMYbWPLtY3XBrgWvka7H89YAK3aMmBSTgPIP50HYLrNxzyCtgGz9q8I63txXcmfXPDXncstAJxu53HD262Eq9LLJS93eLs8hHj7+lDPP6B88zd/M/70T/8UP/iDP4jnn38eb33rW/FLv/RLueHAH/zBH6BQv/A1X/M1+OAHP4gf+IEfwPd///fjS7/0S/HhD38YX/7lX55+/uN//I8JdAHgn/2zfwagbYhwdXWF//pf/2uC4je+8Y34pm/6JvzAD/zAS8z4Lrs8QonONbEY0FFVvgGnBBYsJe1GqkjbQyDMEXSECRGmidnQd0Q3sVUAuo2F4qYnVaqZYIr2RYFGuAKm0VqKparCNhmKjtFRcFomSLITEClQqWbLktBy69yDWqSOmbT1RApUFyOe0EjQ9pzkZkR237G7qfwOBTEWTJOOzMviUtN29bAtuWOYI0rhlK01ZIEN0paCFTUM2TXzCufKW8EmvtCW7gdUSO3Se3bI1MkDIoF10dyckKFqWzBtHwahaiL8HKIshM63k5QjMB7zRLxZkA3vQ7WNb5THhs027MV8xr3QGF/dwEDKphXjriy0eDvhHjtSdPwlfs4vov/kKitb0NhAhx8tgFwpR9AP5MYb9Mb4ApymuOdvgwnUjkxFI3jDscsbEbPre325ADSuoWYZGON88Gq7y0PKK4xpX014dided2nCLePm/ej0DIxebgS1daIR9iqyB03cLcGFLq61GhtctR547F7Xi57aUaG8BxN08fwXAsqBJFK71ntqBvheBlJtbYo6wM/oGLjz0hgfAGRYIymranbAEEvDXINBPF/S4jZzAKb+YNqyZue1THavTgVaq2nBxuZafjSALW6KAalcrALT5K2TM3sLqhywyIRFjljiT/0HU/88wQlYFMxJViI1PARsLkCaTVdtfgLDF7i2dFpk1xZevJdk5qJstV/r7oAn3NSX8/TsZXhTAtgD1Td8O1prU6BVByR+HqZl+yia5iqDKjYR4OPEYRWjnLfnqr6EB+3e0merI1kjOyNASpK2z/EaHEV17YNbySrOLb/06rb8bKZ9Iz6+zrkWut4K/9at0wM0Y6u2ZyioS01vhjE+c8HvDlKffnnPe96D97znPZv3fuVXfmXl9u53vxvvfve7z4b37d/+7fj2b//2s/ff+MY34ld/9VcfNJm77PJ4JDpBeMOfjaJmn06evfF3DEUroZQ3Px37/ZHU5Ql1xoe5mQ/h0XE3ooC5Cl+u6Sb1A6ky+SoG67p8LGYIQItn2zvsNGOrBou1CKrGzloUEPoNtWyXerunHqH4M6oTsFTooWUXkdWuYJ3ylHP2TkOPUPoXIoQ/YFqqMeow0jTQu81+Cz9IBWp2Xs+bGJBVPRjIQwdwOfZB0kqrh9j8FG9odsuRy3mJ6qNj2XJqbxFLQOHb+e6eYYdce8hgzL+vqMKcvCDjyuB+DizaJsDtY8gwHUfzsDJI1izvGPcM31pjdtvRXqe2wt1Cf3SpZ85tPOxmQjp6lsaYgrRh27UdEUliae2VK2LMkUcvEQVdN/9jGm3jPCJyVfsxgJLfvKZVeRt+1uf+Jjw+5edaUhHFzfcruQPDe+Q4hnexy9MnrxY8uxOvuzTpelITw43NTd1fgJhLuqoMVBTRoD5My3nu2VVX3wAv2Rk5C67GIKoSkOwRsVa15e2lEALijrRQYH6s1YHAYr5FYIwn0BG1tHQrlr6hlJaHAV8Jd8DFNWoretI1QYi6uQMD+xUAJgPXWsLKQAHmYhqwrv1aywJcedoVCcZFF+tsazFTA6iAHqGquFfuoUwzCiYUnWDWWSdMEEAKZj1ApcD2oD1iwclKWCS4Ye9kDbKICoprWxSfnY6Ns6BN+7VVX9NYFYGbG7Bn4BuHxSZcAJkSILVPTSDWXofmq+EliW4TjkxBsIYI72RqIMWeGUFSzmrHT83m0Tw3G64BxoIfvmQ/9RzhyjPS6nWgASDJWp45GYDXlj8+Bogad6/dki2ScWtDjnPXWzPn/AnrxjMWyYV7Nz27JbKdl9sIg+QHsfUaz24m56FHeLu8FNEJD7ks62VMzC677GKSNv6BIFRVWx8V6DR3WFegkasNWKRGrLtpasHiTCexhUnRkz9ACzMn7mk7ocAlYnZMk3w1/tPOY+JYxjCNnKwBR321kBbHEwKUWlAXwjphfoDTnAUllH47l1pspZXangw1ik6HLMa5ZyqJTlmVkGNZ6tXFzQKQUoJAe3IGNvnM2rVsMCECbiYGls5fu9+PdQTa6k7GJfm6Egk16Nj8hbIAZWsLpzxoj7HlX71+aufvZQQCnp9ty7wbfnXtFFictatXJgeGa7YUB8fAEu+APcfHIkhgpBLmxzQ3wmrGTOM5B2CrNEsLL96cA2CBNgUKdxfHyqJwpY1xZWai7Fylt0LQgdtJDbVpusY+FLLSgjUzY9R2uaIJK2GEDdW83gC4Q5baOfrzld+8Lzm2qErX9EyWxHC+ShOlLRcDUCnu8srIjmkfnezE6y4puRx7dGNxANpcb2gKebY4/TJKDKcLH/iWGt3qeV3fU7dJ6oZ/zuFjCcJz7JBk7JHViEZRaC5BK9TZm0kBs/FVu16j2eGSBvKLM3rd7CwBRSlG9MZAQNCbOpDId4GRkYRU4n6oGZTinLDlQapCj5Plv6gtl1HPjpsgwKECVwDmgtCKkLrYJlunBeXOhHqYE0AXEdQFWPQuTjrjgBkVU/5UgUUnnOoRSzEzAgrBNSY4pGnIPbIBGiz5deAhkQbiEsgxnskfadSyBixoHGHI0N5T8Xcc6qVZpah8fYYXZEogzQ4MSQAEWqsDNDvvbCkRqAGQ+8XFrDSTrEttFhS6Da28yo0mBagI2kZW44y0u/OwgydURnC0AmCDW4wFzwm/Jva3RSaOTptx3hDXpfAv+n/AZ28bbucu7f6tIM5tmtuN810esYg88AZZq+d32WWXl1dilhJAMAX5pdEn13TqRibTO1ci3ZKXSVwmwFQaGxHf8rjUMhmngMWOdUY4HGBmMB+Vmq9BJAXmAPUfoQmbUQbWRBJQZXJyphbUUlF8Ax2p4klyjVfPu2SeBagCLQLRCYql5VWNjDbSuKz6sjQJ5bg0g0cEESaabJJdHXsL2G5sI0/XYE/GV0rEmV3YWfWiaKYEOnuw5DNLUJ0uZNyo7cfxSlQhbfA/Ju67vnmVcrRy3pAcAm3c55zfBkfIVuQ3PQMqSc9LoZJigrtTR+X0y5oODo3IVd7CPylENCvD/k1qjE+l5Z4nTCLgSAebBaPvuE8QncdMQgDsZB+70nAsr2RaA934I4fVSaDG4wTU0/OYJu3C4fBqroDT5o52P4lZTpITumySLN5DPpt56u+3MHr/4R6r7xij8/iM4+FnFH1Y4/vIb+icn10ejeyY9pHJTrzuMoje3MKlmhas5b+0ZvZcazrSMzc2qGsot7rc+tBjKvJMI2ChFKiDrmQRuZPvHqgw5OuAu1ZrnITsqW6kWzItjrK1IjfcYq3XDolViJBmrYgxb2EMVQwIG2/pz3emCgIAuZpDQS5fkyrGSasb0FZaYlYrShXoSVCPR5TFtWlRIbVAlgqZBDgI6v1nLBxPj0CBesRpuYtSFpTSNF+tvAULDliq2VBTFKhMWCCYIThCMHlaAqBziXaDptR4lX4TLQSYBjDBNoJYBvKfAFDQt8plt1WFY4DE6IHi7CSqeIWR54ATnhXVdytOwOlpjxnv3PxKkTPITLqOy4Ryc2YFTkH8CgYwNfjHcE+7LHfgCPQcBr/jZxsYdQReY7gPIgzuOBzlC7R8nFuOv3WvC0/76wdK48vgn8tsl1122WWXhxQ1E0gAzncMQSoK2sRreggM1TwngajayNEl7CRJY9CqtsZcQkVVYDaSSsMS3Es6GSvw1VXF7xlYQ/G+H8VWKknyxNKI3sWozxrpjjAgzTSB/0otqKpEJNpEcmBB22AogFhMe7sN+9ycTCx/mtYhh/5fh6InPCtGtsYqLMN9iuKbX4kzL2YqIJ5mkNzCq1kg8fqo/B2QTdDeicIs0NwYa2XvlbFai6APK37S4Gkc00QwsEp99+pxXi7dU/H9DS746RmwGwIcnlOuq15XukC4Codrx09KDi3p0o7FvpVITvdF+BhFBpuvneetMWZUywgs/Bf6Lj0PHRnKaY7NccO0XJYDuuftWXNg8nXcj6StlHP30XZrmDrTlqW2GZY27K7NZAA4CWjYvK6eQTeWWBGnFAYojHxnuu0Hg7+q/f0sKm3vvCNr6Zq1XldvtLbnd9nlSZedeN2llxoLkKlXzs5aB/C6QauMnaCO3nV98xxh2oULtC0rt2QAyBxm2Aoq6+dtxnRxsC0NTKYtngi2pUcC6GbPQ6RnZ36A8hL3FI3gwwJgSlCulYnFCCuWsjt6iEFClH1dgOloGhcxQxUgP8jYqq7K6s96WYpW6LE0pVnX0i0OHkQE8umC+fMmyEFQp4pa7LccCupRARxxkgq5AhZUoBwgywQpB8xyF/fKDJEZxd/dohNmnaA4ALjvNa1CpUDFNpJakPoRSNtQi6JU6rljxttJTOP/1YtNW5WJd5q7j8bzfLSykthVWH2pUJicGDv8EohO8x2tX7ndTxNpCxCJamBrWBK0KJYF3Uz14sBrqcAc92pLdhqmB3AibVdQVoOErao2I401UBsBEbi40MItZ5qGOB81O7KIBr9bz29JgrgR32+ANAZ6YxiKtmvqZvgcNt0b3baEp5BuGsvocOwytxHAeni5DutsupblBh+7vFyixTTBHub5XXbZ5eWVF+8tq9VHK8nVQd5Zuf8O7jr+Uu7QAEiEnVqu0eFrw2oRdmiRQYwMnkrrlJIc0pYe7lQSz6lpAYoAh2JEKsHB7GsVKAdptl69YzYYZB2emXAqqLUa1lOB1IICxQzbOEuDVPWkqTT7k0FPSrJcrsCQmEgtvdF3SzNQZsHR+8jyjcSv35UVwWDcTBEsYDrwhll2bRtxFe9rRauTrPGrvuZq6GNVmmZslq+VY+d3Df9WJOrYxSdO0f58E0DI4O+lil7GKV1R0isE+iKWvC8rf4AkNG6TCqCAAtdTOPYUoX70hSReD0EEvmZtWeelS8+GxDdS43kLuzO9GkFRslXge35o5i81Qx3Yq2qXL+U0BikrgC5b+0gMRghiDEHjhUjTHM+HfwqmVtuUN0yKMenaE7EcVz8OWKrkS1opJAx+O7KXyizduSypHp9TAOni4ndRgfn6Gru8MrJj2kcnO/G6S8r1tYNUACsKQrgnBJIpDK+KDpBuCrfynTv3btz1DJ32pUXMGloNZc2U8fQh94rsqboWQjelWZsP7hDqicC2HSWQFZsC4LgDpHTmBGCMmkwITjVPXMNAOU+JUryc0tBPteX/7i+fiR1771wBk4FglGIasqH1GsVaJAllLQYwpUyQqhCZsNwR1KNgKWJL1QSop0Om6RoKkQpZKrAcgTJDyoI6P4P7UnEs96ASG2oVvKh38HnyIo4iqArMAI4OgCYpbayhtsSusBYsgTsbo2guv9NYhRaIgVFBuuXrdbAT4Mn/e1EFyOjQHpSmZqVHpPx5FKuSdWmALIhWBlPwpC2LGbwPcwBm29WO89KbG2Abr1F1TxWYKc1KSUIlYERgh68XNcKbFwlyGAGKqqD7AsfPTAc3yHmlYACrr3n8MscmQ+k3mtjL1z6EmeUccQyfZjw7ti6rvGxI1BnTDur9c0mqrss1RhVdHNrfzaa1D/BCWnZ5HKIFvsP3S39+l112eXnl//vH95rGK0D28rkxlcR9rDMoZWoNrzNjSSoyPlPSkq0AYgl+rDuXPs7Q2NQljK2yvQAPP8niYgRt9ATuR9QIWFUb4OakcUS7COoBiWUQ2EMJO/lKobIULKX6tcdZ/LxK9quWRjHsmJqwaB2UAtAgX1tv1ErV+ruq4q8h2akWhwAopr2qvm+Bulas2Y9foFKTTE1brhKQrsBMIKSBK8eRrs0qZiezmR+stPRe2/tRdbu+XS3JhAb5lqichg2hF1DVMMpWty3DCZP8OjyT2oK68bw/cCPFMT679YDSi9R4YxZxmKxodYd+lP94j51W8gBMOpzFn5OOedMIzOuTeY7XElj6DLe7ASLj2/LrEuC0gctmvGzAh3HuShRtBNAI4x6Hhmarpxnw/UG8PoaFOg0sTlqsROimiQv/djW++bpOX9sPAj2fC2QKZ1YIp2d1CGfUpm3xWJ7OjSWAXmED5IfjjHSwO4+JOF0c///vv/037PLKyI5pH53sxOsuKVfH7T1HU80upNPsHPwBBCDPiI7NMLkJsL1rgTbNzTHoboptcQKSw4gOkJkR2Xi+JnmZcYU7o6FAVqVkujTKhJa1xVKtuA5UJoyiVAHMnq/QVG3kMZmiR9t5k8oEMLBbK+RgRKiFv6AuJ3t+WYCrK7fz6j8Jm1wArg6QSWyjhAJgg2mUoQABAABJREFUKp5cK48iZhZhuj/hUApOzxogrscKFIXKhMP9O5iLYpkqME8QOQKwWdkZC+5Pn8X9esSEGQcULOWAF/Uu7uIaignXcsCVnDCXgqoLqoQVBQNeYVEhsZwDbd7zwTnwBKqS78qKSqu2pXlRfPFAMJpiy9X6uQGlX7xGbeMxaUAcAUgWmg33T6dWI2INZDSgVRfFPBv5WVV9B9KYuTbiFULEa5gVcOX0CgMyYft1CwCZxmoPaZmTnr1Qw6xV+CQTWwmkxv6UFRsi3I1SyzC7z3f4lreM7PfAr7lV6T2Ev1ihyekeByr9V9R8MAAd07cVTjwxziVxWLFZSjy/4XXzuc6fbMQ/pGsV7k0TYbu8bLKD1F12+dyTv/HchD/78+uGw4KD5QZ72toFxHFBbqJK4GKrFQ6idMTJYRaq0/4xLGeb8QBAmKsCYjMtAE78qa1EinAi7cYyOk9r10pJLaLAycxIVXqEDLYiOvsCMQ030jqVKsBkC/ANH8Gwnlr6WzFI/wuIStpylvUeCXivmSQVBLkdgWppcUkL2y4nJ7oWI5+DCVSFik2iq9OvoBgL3FxBLCvzvrso0G/GRT+xd2A2XoHg+MIkQ1dbCHuFWYGABzf191EltjBE3ONwLvXqm8YGlNJ+i2clzI7BNzEbZpQlxiX0Stu2WRGfdBgqsDpa9W5+qcA7rnsYriUxK2Ia0UqBUjwJlgU2BhvfgCdGvFA0ci8AlJVtWrj5DrI8KtX1/h1LlEex/RxWjGKoz0bMilQaYVLVhiWaw29VWxFXK9lt7fzJ4C6+d4Ndx2a7ID/5uigsW/HX3g/jaoU0f2MYlMWRNE0lEXfncQUorFhZt4lzFfj8/+3f2bizy6OQHdM+OtmJ111S5jAeCaDv7QcqwFHXiBNax5s9FIFVtB43eiumC3JaF8gpSV7e5ZAqO/3o3rjnSyKmUsgN4hUQsZzZlD7Pq56J08rpD9thAVgLxp4nZ33DjAFLGf0vCM3XhhZLhmXXrtUa8UeYRQGp0Lman6pAXRxYFGhdzCTB8QiZpgTxuRHYdQHuXKF4OhUVuDoCZTLtgjqhHBR6x5a2LVNBEcU0H6AKHE8F+oxC5wP03l3M5Ro6+e6eZYaI4LrexYwDrnGFgooX6z3cme7gHu7gNbgP3zIBkyqW0upXkmsFtqEZLW9S0Aa4FeCdgVvP3hDb1jhhfGdtx1ISAnxhv0mKQGfN5UqhVRoIPWaqE8RoWxpUl0a69rPNmhtknWbXgI0fkbcLGtE6L/1YUmEAK7U7vWgWXYOZGE+ZBm27y5oHy+BfpO1PEOPE7pOJnw4AG5TPwTG8hVLyOECI8GM/u+7e8K6CfA6/8eZTKyE/9TZQUKKSk0D354QvwToMUUJR5yL9VNfSb1tEd0n7l5/IMMZmkgOHZp3n9w3Y+yz7Up9ddtnlVSyffeEEnU9Oro74k5rSUtCbk5KmDadAKhtIQZKXMUEu0UxLw3XhPw0gSsbDxJ8tvy8EMSU1LTWe14iSOkAFtLhV1Ai7qg12vd0Pe7CxAkg18JQCKCiukjnbVZogsDISs40/ecKC1HGsJcUVCwKGetqTwIp9E9z8ALQYriyO69RMWjUJvJyXqOLaq1kAng8IKoqbAZBc9WRZF6QhW6cPnXomMjX6ZM3rri5wljb6Y/H6sSJf0V4t7/0VbvGKVyLtJkGI9W0eG6wC61Q0unIc87YS3T6PFWaReBFaudNeR//8CN5Is1G2/AMdxrLhmOZ5txFYROD1NM2Ikba6qpvi4PjGvDJgFfgsfaiKits5bokN26tZJlYYPh51fF+RGq3tO2mgrTNnUG2SwE4dUxb4eCIeMe1WGw8omL9l0jMIWdVAp8ixRZoVU1L6p2e7YslnWhzhvoVZIwxF23MiXnJM9ISk+TN/sGKdBiOPbdVej52RQ/SqwOmzn91IzS67PFnyxHHSP/3TP40v+ZIvwd27d/G2t70Nv/7rv37R/4c+9CG86U1vwt27d/HmN78Zv/iLv/gKpfTJk8otqC7WGbVmEm25tBqZp7X71bpA6wLV6v4qXfv5cL9WvzeGD3XA1npuATyMCK/1Eqp9z6S55aMit4lXZ7XiXl2AZUb2rLXC14d7S78A8wmY5+Y/863NT12A5WRhLTNQZw8n4liguniZ2nmtdrRfhS4L6myDBK0naJ3tfJmhy8nyPV+jzvehyzV0WcxPnVu8pxNwfR+Yr93N81cXc7v3IvT+fej1NXB9z/J2urZ7n/0s6r170HsvAvfvA/eugZOFKfOCcn2CzAqZgcM94PjihKvPHHG8PuKwHHGYJ5S5YDodIKdnUJcJVc20QNUJp3qFa73CjANmLU4IFtzHFf4Kd2wbBcdRtQiWsPc6KRZpoAIw7YVGsrf6yyBNaYDSCaMxaVBfE1GjPVek01RRB2ZJgsUAyOtrY1EJOqgBp2UBkthFzBqL2XStDazYJlqKWqXbZCu0Wu8vtoFW2HNdYJtxzQ5aFgVO2jbhOlVgroJZxe+L/+IZu464qyIJ30X7qh5Ykv0G3op7vOSoAcP+Vzd+zcyCgdFI/6xUPl700SrFM4CRwUumRyitlrelit8PjWPpNxrIpo8rwVh9zL2iWZHLutHVrfbTHBJu6dScE3pWOJwGpO1X2jgCfdlAgMraV7s8UtFJHvq3y6tTdkz76OTTn76G1AV6ugZO9w3v1IbNDEfO0MBJfk9rNbdlwLl1oY6q+qS2OuFiuNMwLXV+AHV+ldy9t6q1+3WdZLTwsQym60jROusgo2aFnKpNSFe1jvGkOFRgOgnKtUBORpiWWYA5SEJaTg4i+Tz9mpqyBcj+TH0EWYAaxmQjxW5BNUgsDzRs5AqiDzatvOhthVlQNzGAuEcosCJMEACpfBHlHOQPGsFl5qm0BY0gUqlnTQK3acAij/5fkFqwjA5GmKnoB9ehiWvjmrX/y8xoI303/cu2Mzvo1r3BG6OS3v4unzh5GGjGiyHI/zA/0J51gl459AaVEnIhefsVhO7F3inGMlT4eJACHu6jf2UZqQD9/h+ZVKfeJSYTCBNGfY7ZfYFr4kaBS4tPGqzsMWNDhDZXIzlG0EVNs7U2ZQwmYauvhLPmQqh5IZNmqtDFzJh1xbCB20NBhOtmjDuSEqBmSbU1PRm2rJsoHsMs9Fvh/wrMnu5wm6v9rmm885ef/OOxQuzyiGTHtI9Oniji9ed//ufx3ve+F+9///vxm7/5m3jLW96Cd77znfiTP/mTTf+/9mu/hm/5lm/Bd37nd+LjH/843vWud+Fd73oXfud3fucVTvmTIcerWBph10me5k8JhOrqJ3yvNevom3lqxR30rMhTtJ4mCS3y570skOszeI1GPXNPnbBthHB10hNOfGpdnOScndy8buRoB8yJmK1EbnaEa09KCz9bKySfCVJ4gdTBbXZSlJ6VGAwEobssTs7ORtguM+p83cjaSF8Qwtf3gPv3oKdT+13fN4L13j0jbk8n4N6LwL37kPvu/tn7KC/cRzlVTPcWHO4prj5bcLx3wDQXlFPBdH2FshxR6gF6uoNFD0a81glaj3jh9Aw+O9/FvXoH9+WIaxRUKGaZcK9MuHY6FoBtCjEZnp+Lga1agMVBdWpuBHIpPjgQbZtfaQPTHVALbRRCGbGBWczyiwMpCf9hAzfIUwV4WaE666cOfGxi3rV+3RD+7JtnLYvmr4Z2qmpqnMwVaec1gMuyGAC5JkAyV+C6ihGtTrBeL5Lk6lwbyWok5nAOaWNIrH+LlzOP7xKMxX2s3TuMK2u38ccz4G0wRgAvAB2DuCCe1fJv41ClcImo9Fc4DqvW23Ccx+c3ufP16H/ruQeRPpw+3UzKroZPu6mBV0xiWdbD/HZ59cmOaR+tvPbzxPBXYMblZL8Oa1XHVNHBjPgtADEGnOnadQMxK4lTMRCtLh156r0fP8P4WeFxuDuxFbLUthTe0xLLlnGqkFlR5oppBuQaKPcV07XgcCqY7hebKK8FqIDUknAqiC0j1iTTlFazAFsJFW1WMLXdwq7oncz+bBJXgamor+KeLFk4z35xPGjL37NI3Oarab5GaPGYZEIKKQmHZqLm5loTvVcux+49oetRm01TAIwdAMIxTrTFXrAtgeL3jIR1GrZFJxTYKJ6IoXgfXrSRpzzpnO+d41N/D/FMgmp+Z9o/g8z6KrjMw0hKFkEoRYQ/zvcqbY7/OZoO+pwlcTmN2r9obWF2cEr6YMTnIewTECJflZ5zzXC12g72i4ZPg5S35sjGB9fXwOmkmGe7nmcfE1SkwkeYHuAmh+dmPHdtHgd9ExSka9fMjAoXoOYvrrX/dWTq4Cd1nXT9nCmQ9ATtrKaJv0AzXYsCz7z+DRsvcZdHITumfXTyRBXNj//4j+O7vuu78B3f8R34O3/n7+ADH/gAnn32Wfzsz/7spv+f/MmfxDd8wzfge7/3e/FlX/Zl+OEf/mH8vb/39/BTP/VTr3DKnwxZZmtSQ6u01+ysTqxGi9lNwxFQ9WY53c/4T2I0p+0csDrhmlqoQWgaaSpAcyMtVonnMg7yk/6cfBzypknUNiI2fnldXfM0fvP9jtzc+iHPZ9egcDfXYq3L3Pwvi2u7zk6mEhEcxOp8gp7uN2J1mV0j92QE7fU94PpFI2fndk/jd7pPv2vgdA09Xbd7910j9nSCXp+AF/4S+pd/AbzwIuT6BHnxPuQzn4XcW3C4D0wzcHxRcPhLwXQ6YpoPEBVMpwMwT1iWA2qdMNeDmxMrmPWIGUe8uNyxOocJi4ORUyn4bCk4wUDrIppajIvYT0VRfXOw6tcxoxzjFYEaOKNlgEj7Z07KMpJ1khQEzgHkzHFU6QSLCrMXGzPg4b+2e8tstltTgaVqA1pKS4fAM9qm5Zoz0gosahqt92vTZD35+f3FCUgnYNnP4sDlpIObNs3YUHAfZ55HrdcOGKG/nzabsE28jlqxPBPOyjoRtmmxslap0Ay9NsJRGCUH8XhuK4uXJpzu28orTXVeSpvsxOsuu3xOy45pH6189gVbiRQarLa6aIbOoc3q+NMntLW2lUkIHNxhXGYlaBVVuJM/Hd352cTG6MleJoCjo+zUx4bnwubQEsSroqjZsi/VVijJXE0LdlZM1xXlPoLVgC4KqeLKCIGDgIaPxEnPQvyzotPoC4ZlcbdaEpDlamsHT4FzqhZfCh19PRBGASokDAxg0ZJ9Pvtz+jdSA6XrhkR6VGJJqa6LW30aNtBGQxFGODuiiOJQsqvZl9BKuE9uxSQMV5IZXPXfxGGuwtTmvtnv6xn3c8+Qg6scdCXbAyCvU4qGrZ1I7nhNWWcgg4iykKGM3K0KVR3G9Ku0UynwK8/bShhxfJgq5CoRHiQpTrjDWHLt2ahe0mrYOrXa3ytOuuYQxNIiMPMCRrAa6ZrKGTWaAl51irSQELZg56VljbF3l01tx8T+PLQ/g9lZA5YJWB4XsMJENFWxMi3HFLUfjyyD36YVK1hqcSUSy+Nn/+LT63exyy5PmDwxNl6vr6/xsY99DO973/vSrZSCd7zjHfjoRz+6+cxHP/pRvPe97+3c3vnOd+LDH/7w2Xju37+P+/fv5/VnPvOZh0v4Bfmrv7rO/ZikuDlzhc8K27n4zF/Jhr3NF291ss1k6dpv16HKGIbi+rS4Np+33mdj2UpJs6MYbr2fcDvjJ2cx2Y4iwQAirdbp4gy1GJDxNF/hJ93SZmr68P/xXIWmbViON9Ll9/y99aUUXpkg4nQLtAj1dBVYaJOt3NRr9QahEhtCBMgo5t/BsleeHnwU8lPCrpjPvRwObvN1og3MPL7r+5DDEXL3LqRMKMszwDyj3DmaxsSxQI9HTFWwFIPMy3QFvT+jaoWWE5bTAffLhHKcTOtzmlArcD0dIFDMKKgoOJWC+6XiJOIA2TdGQDEbUyWIOLWNIxaxVUKLtg2VqhdHbC4cwChAjoM0LX6er02sfHizLInCc+3VAEkiqIaWrMjdkH74CQ3YwG02p6CdvaZlUR9L+dJ6vxfarMtihOpSfakN34NpuHaApqt0Pejqa11/vox+tPfTvgpZ3Ws1ULjJaa3BphpHEOLRbmwnTkdHbws3N5DYZSVaK+59ugFVej3ZRnCrIoBtuKfa+z/j15YRup1C1S789BvtkMvh6gpXzzzzaDL8GGXfiGCXB5VXAtO+knj2dJrx2RcrRICp+Py6rHFtrWH2Xhpe7fpacm9OazTa9Tdb2Fbw2te4jdHra3RNUXF0kZtKwbAPgLDlqgJIrbbpaJ28z3KCKuz2sxpoYEGZLPHFTcGElmdkXNVs7Q9tY9vIy85FxbvPwMEIEONhig8MqFN2ENRs1BrGlFDVVLPtXyYBloIT5lwtVKfFtV2lgYfo2jWW+tt9YRuuuSeD+VcJLVZ7j7UaRrOjgBUWo16oxmoU27hVoi6Ir4CRgqlDKjE60KYtKG0Fnfh53IMARQ0jHrRi0ooJFZP6Ghht4U2VltHTcQK6jbbAx0iVNP8B3as0e7tRN+1+M++QdZYq+WoUE+WLYa+2zlPXy69B4Bq8rSSqE+ej1OFRCneFCyjvgQ+82qQ911yhn3WG4vJE2DeD9tAGAcrl3Y17YiepMc9WIVuKCetwAxKolGMMUwY6pkP7e6IxNrDEiQ7jPn8+tF5lEiyLa5BLhK85B6MedxRBRM8mAqxeuPYrSFlB0U1+hKJHhuXPph9yZw1YLv4kVtE/3ylZcPyUbn6uZrrjWTM7orCVevC3VL2iTCK48wVfgHuf/jSqKoqbegg7u4xVuT5k/Rz9DnUmsSziPSqNOVr5BN4Neea1r30qlRx2TPvo5IkhXj/1qU9hWRa84Q29qvkb3vAGfOITn9h85vnnn9/0//zzz5+N50d+5Efw7/7dv3v4BN8gH/m//b/wf/qx34Uc70Lk4Wso9zlbE3S38hObBSQSPhMQuC9rvfro1l9vuW2Fs/1cn+CtdCk5X/A7PqoLtqSnb2u6rgLi588V1/li7GdqL6RnLadb+ruNSG/jqHM/APc+CxyvgPvPQK/uQuYFuL4Dme9CljuQZw+QvyqQKnimANeYsEwzdKrQaUad72IRxWk+YSrAs9MB9/UKf6H/A95Q/xRzUd9IwYFBEfzlQVOBoiELAWYDgbExQ4wReNNfEThgkzbgEzihFOjPQW/DvUOHDISZC3FQkHBMHGi5DabQHKm+2Va9r24s39ItvjarKb5Yx82KLjbjK1iUNtiqvc3Wk7s1W63DbDK/t4eUdZXd+lKHex3eZ7ft9GwRqDel/OmDN49QVPHDr3/dxU5BSoHWmsdtT/b8rfzeQn7gTz+FZ77gC17y85+LsoPUXR5UXglM+0rhWQD4+v/Dz0GOr4WUqScUbyEvC34FfAJU7SgHlOMdAAIss/UdQW5WdcamtA4t1qWjESb2bM17YZIIVZ1ElcYixSxuMlY2Ayyc6FrXGcnJcWcmaOPV2KQzO77aokTgnNQLEOSukjA344IdOwnSHIEqsBwtiKVU1FJz9VAWSPTdvlFjdbyUydZi8/hTEM6eYgWgBSK8DWdpGeiAmv0a6drIV7hGrKbiAT2ThZBv3kMSt3rAVtib8YHJNV0n/8XkvvlRTGgpjlQH8tuq0Zp++qKL8ov9a1Hs1cCr3RQPqBoxy6EHJ0iXPBTKBVuciK4U1kLwuHvGwpa8qZ4+zk//bNuSNN71GCNrwa5Zq95Ns44CvX6LY47A59LS0jB8I0gzL903xYU41KGq/bvKQmphZ13v2OIg5zSTmc9RvEHOiQi0ADKJ1YWo/gV2fxLoopgmw/5R2qeTKWUEcagAYsMsen1EiKpPXjTStfOn7LfPesW6KGKcg/G5uKa4lcIIt3H1Wx3PyU9sAhbka3/Pi97j/3/8+x/FR/4vP5q2nxOL3qLjeFjcek6ee8tb8G9+42Mve7iPW3ZM++hkL5pB3ve+9+HTn/50/v7wD//wkcTze3+4QKbDFovxkoQbxpfsRxWoscjn1S2vLoLHkLiOP6NBASh0nt1ebNi3VSBsjJ2sG5xmB2JVIItpzeoyIdDUggOWOkGw4CgzJlRUmVBwwAkHCIrtVSuCMsWyI20zpmIEaz24dmuAIsQ5Iz4HQEACutS0iMGTEJEK5ABH83nyk7BBIIUHW7ByipnzNFPQ4lJHZ7FxhO0OG4bkA1hFmSNtlbYBTsz6IjVXVPPNNAyZaGmXXUgudAoBRC8C0qzbt/B7C7n3CLXuHpfEMsmX/Ns/210egbxSeBYAIHcHMuz28qD4NTWOxFYIGdkbBhf9qNZW1dN9mK3+WP6/EWFon/EKIbuBbpikDSv1MLnhhU69KzTSELc9DlZdy/sbz49SKI2eHt0svObGy8gBNFajGHmKqijBfpGtTKkFUo0W1QRKQZQa9uAt6WOSOwLYpiqlJZOItUhx6pep4blwS+LT7bO22fWEbVCVfmMs1zQuHjqvycs8ej4Cmyk43kxxs2kaGnHtZuNEt7ObXCMzupbmpv0b75D3FoviTQdahj8SvCH9irrhnvR+Mi5Ze+coQnM4iE8ln1wXs4g4THFseyZNGaC2Z7PwI86E3qQt7ZFp1je+194/gKai2SWCEprxtnKJFGfK01RZFwLCZEDO17jfrkxgBKzVUY1qlOVndmHt+TK1dES+NovOxw55GeMDDMUr/fuI99WSqOknwonmMYZ52LpHx9UegpTW1a+9LnJ3sx5jWumncAUUDFYlAoveouN4FKQrADz/P/1PjyTcxy07pn108sRovL7+9a/HNE345Cc/2bl/8pOfxHPPPbf5zHPPPfdA/gHgzp07uHPnzsMn+Aa5f1JILhf/XJELjdcuT7foVqdUnIgX4FCcBFTo6QQ5HtuyuQrIAlTRnO0+LEecamkzxg7aTaegQLWg4ASFbfIkWDBDMIt19tcADiI4FUU5AoeqOAA2i+ZLd0QkQXUA01w5SGAie+9is8ttAwVHdKrO6DYAzCAuA3JzIHXs5Ak4dm5og8SGn3SFEXgyvtZIcBMGPzV2MBW4sXrahGDv6HZ5AuRpXJa1yy4PKq8Epn2l8CwAlOMVGgvxCIS0Q4W0JZHkh123gbsC8zViqbORJ8yKuGklmoQVisM9IVeCkazaMNnIt3SHzXC65y9JkkRkv9LT2j05poO1aSG5Rl0OAl2qUbIxN55RxYS0+kZQnoBg1oJg1VauQbO2peWNNWypqQAWlKCz1NxKIhg3q5ZW/z010kKZkpWrNqEtprnKhFOE1zi9hrkM+/n9Uat4GP8ozDxBK/pW1qu3JVQ9N+Ch0BEGNTFRSEam0r4BESfF1Z0zvtX+fr4DDodg7GpzqgiG/EBg2pkRiAZxeF5bqyPKVLt4wqwCmxuIODhf9HpbPrkARwZ3615ovSv54wfHCYqMTzylSuFFQYcyRCwzb2HE8vROnXRgIttEUTh3H1wbiri5MXMeJgrinXb5sghziTw905Q/kJrJXK9aWpufsYjPzRFh8APdWLw5+kGrYzleGYohnFiJP+ehYKv9IuzPGRT5iAjdXZ5eeWI0Xq+urvAVX/EV+MhHPpJutVZ85CMfwdvf/vbNZ97+9rd3/gHgl3/5l8/6fyWlTAeb3tpc4r3LLp8DEjPHDtpj1t/AY28bV2ezuWo7XhVoAcpygOgELBPgxtEFC+7rHcwKHARYfL7zhCMAs/W6QIxELUAgguo9csz4n4r66j9pNtSABOkM1rsBR0Pn5s+XHrKxexvMSDtPTRRLV+40BaSGK6OAwF0GMnyDLvcX4In76hgmMMCIGwpanEcEbixvy/EQ4Jq1u+zyuS0rG2lPgew7wO7yoPK0YVqUwyPFs0njuZZrkIwdCdsJk5B9n44kpqKTdcqBVsO0iIeB9RbJOrJtmSbr1PWShivQsxtjGoIpCaI10r6VjnPasoM/VcWkBacyQ2rZmEwOvCRejNphJL9r+Ytt7iM5wljH7ln0JVfsxLsooOciqVCyAytQLUnLpp1+z1PuRu9SkyzrdF/NHmS76gim5OvQk4ddlQosl6naEB2eHcIfr1XHcGSlSbsp4ysfCO6OvG2vZvX8ufAL+ZOxGmGbhGtFNSgWqKWntErTkhCE31YiBE2blQqD61e+ev82xjwmQbpqFuL7Qjv6p5/kN3167RmPlsYYQZhDm3kBYw6lL6gMTxqrSGUU92oFyiTbTczwSKc9ynmgJIfnVue0zTEk+9nGHcrpackevs++6KK+d8llghWtid0a3yRRfCZ+i6vfPlfGevY45SklXndM++jkidF4BYD3vve9+LZv+zZ85Vd+Jb7qq74KP/ETP4EXXngB3/Ed3wEA+NZv/VZ88Rd/MX7kR34EAPDd3/3d+Lqv+zr82I/9GL7xG78RP/dzP4ff+I3fwM/8zM88zmwA2PnWXT63JW0YaQBnAXTJnXrFdktI7UscBUUUxQ2zqiyAAnWaoToBOuEoCujktouA2VnURXx3W9eYhQCzX8+T4rAA82RasFM1G686+VIIQdtUS2C23XJ2ejCkHkvsRHww1QYIWtpgIq0qBSaLHr6omdZNtEeH0Jbt0IOmKbiFQEKPF8QN82uMF4AZrVzpqdjV164MpNvKSemA2C67fC7L06jxGsurHub5XV598jRh2kcqocUn1knaYP+GdiRVEA0kGBYYqS4gDXHSShpT7Yt190SijMC90ygd/LCGLmB4yZ+RDT+r605NzPMxhslno/+RCQmHYjZFlwJMKpilooisloamuSkNo1Omnhi7vou0DXJy/XuoRGaZaZJgpVR/A0G31EyiJbmiSGxuKu5mps+0rW1yjbjqxE6BYkFsoKUoWKCYlMlbx2J8CYGK694q24NFvmtZMTsbG09SmJea8PDPmqpN67WFlkRnkLgUUVdWnCqy+8kEZ0eaxjPEhjH5GdGEH1JY7vJ/SYL+lfiv7bhKDwa3SBenL3G9J553b4rPgTVbiWjMTGyxx3nJ1OCG87Cm3rcJpKcsjnDRrmBbvo11BFiTtksREbHTJLi+X7u5k9UcCqI4NO8nobmhfMFZCek33BriyXEPxRnZYTeg+6aCjI33E3HUjXykzdfRD8dP8TEZ3uanVl/h45GnEM8CO6Z9lPJEEa/f/M3fjD/90z/FD/7gD+L555/HW9/6VvzSL/1SbjbwB3/wBygEjL7ma74GH/zgB/EDP/AD+P7v/3586Zd+KT784Q/jy7/8yx9XFlKeffaJKvpdXm2STJ4DGB+cpBaDGzQ3cGi9rALQgz1S6uQQTCFSveMuyA0txLY1qL7wbIJCcUDFApXFyVjXcChAWQLa2I6hKoI6KVAF4h3EBDMlkECmCKQSSi0Y1sMIWFNDRYDiu5B63tuuodpMETD48GVNZoi1lV0DB4IlbQV4eYAACoBSfPMHX2Y03g8gO4nvnYEGmvtNH55OALDL0yUb468nXvaNCHZ5KfI0YdpHKqy5etuBbqqCCUzbUshtw5+ASNcNP0B27FptY5zV/XietfVymUpxwlWJHD0TD8VlG4KBgMEtZeQliJhSVdQFmIuZG8gNhNhvR4YlC5YEVGQhbb0mG2aRaEzYo1Kyk7JqHJoaxjO8ZZgs7Yr2bBpiUy11MNfI2xav2c1EkqlxfwLZkXSylYnUlvcg1NYFqiJpfqArYGmvKwnToTiV7vWvpuVRQSSTNqKW/W9Ta2e21Yq4eo5x/ZR2ji1lxK4F+Sbsnx7jVVjhoJXMJwQHyvwk++dw3S03+pINf+rfqxdo1KX0EOzh+CJHVm9gFDUy2xnBtQg7sjHrF9WVSJe/uzNR9FlZYjNeS/N0EFSyLxZNijqR3IowzB5k85X7YWRyhiwEsVlgZGezotzi2RI2EcA/6ECacnF5PosND+G6OgD6oZhAbeKHXlkOO5XiivBgiw4/Z8Y7T6kW3Y5pH508cezfe97zHrznPe/ZvPcrv/IrK7d3v/vdePe73/2IU/Xgcn3/cadgl10ui9Gc1AsyCK41dwhO8nWp0KIOnE3bVRCbUcVYo6KUiqrSZkRxhRknLABUitktLcA8A3cUOIntAnsELHzYDqE2I1chIpjEl2n5KkS1nrl1zRogcwRT6Ht2AN0MO5fHaKcJmYEMW13jI+xjaYdK2kYYpdhmyQAt/REDKUvD8g3IUrLCe/EBUeSx6oONy3bZ5bHIU7o0a5ddXoo8LZj20QqRpqOW6CVxRsH6UWbHJNg+8jOSns4IqsI6edKADcahqHfEGyQqJ6Kz7yrrexkux4+0o2/pQOMXuwwOYYqsnPLBSKoCegCuliPu6f3O/EsQKqKkJezlo7F2vRVcCzvZG9ngRBrICQpLdELVxVcsBaEree6UDERmFNiKn4nAWmw4CqoOk1TfYAsZomG/thFXkDnNxisw0GeRazCbapt3cc7N/FYBejukWxLp3PDCdk+T3NSBqBwfZDjO5CmX+0CU5muhtKwfovCH9MHTxaTyMCpYk6kSOFlWZHQX9qpQ/DltnyIXQpKxShekCiw1PGDNJnbqpBFXO3IsrGgRwfPmW6GwkdqszgqqDiH5Z7FlZkmkr3tadbMpMVMGyPybdn6fvRgzjGRoHwaVEySb045c1fWzo9uqWOkY45NFew/BZ1cfXTY/2dIAslZu5tZpe9O+xyjL8rhTsMsTJjsn/ZjkdDo97iTssstZiV04DaX7Mq/caOvKetB5sU5SAJ2AUgVyAqDAgmqk4PUV1IGIyAKF4CgniBSccOVLThYH1gcsKriGbeQ1CUzzVQxALxPSxmuBHRcBtFhHDnhHXZypFYGWRBg2AzdJa/XIqFeCEUe+SZhSlx/gWiZHtLU9p0rhEa4T8QnRRLzNflOhsVh14DYV5GAhiFQKtks2PDuZ75f6snfZ5ZWUp1BDQMvD7QC7awfssssFSZU3YJOVOPdMqIKNpGv6Kec7zs4YYrcYva38WdsE2kpIi39UR0uWY3A/m5YhuZlEDyPzC3QJHten+4ZaAUtK1yYbu5Z8CIez2AMai4UFiBnvlmxKB4AAXLzhU6I1n2iPyBRA1YK2gVH1cI2OrZSJIrZWqm3FZaFWBEHlG3dJQVAjtoeS5qIo9Vj5TUdYUYTNKBX/Nxm5z02RDSJMHcPSa0m+fA0918FvxbfB6naajhHm+E43gu3r2Blt2g05E2wf70AWZn0dI64xpzHEnmU5FGqEv5D9T2EPET+B5k6Zom1KlnA9jsqm1/xxHycwUcpL4lf5oTIQ0qhnrdUu/D7Xm6RtH3irT2kaYOWDikSR5O25usZFNN4Lh3Geh79GPt9KfdOHlu41Z1UZE8NpuFger5zIK7R55SstO6Z9dLIXzWOSaHi1+xuv+c4uu7wCIgVSJsQGFjJN/jvarsXTZPdLAY6T9YLHYjbUigBBjk62LEvLQj2zbWow1wnXOuGkR5hNriNOmCComKVggmKBa34WQEUxu8LH7KDNwLB17bUAOkm3LEsBGzw4CtHiRGwMCEpDDMpAx5GLSGjqimuaSi4/DHtivOQx3QJG+HK3LVtNNt5itJlDEwcb/VK5wGhmOk19uZzphkQ2iud3l112eeVFiz70b5ddXg3ykmr6g2i5AmiTnAIRGuaMWqUrTU/qpJO9YDJmIKEEcAPvyJyx2YFkOGqLI+51BPBADOeM7SCxBP5cWaRaGoMPIgzDZJIIdFLUye22LgpB6QmYYHBE2qoeLxPGQyndtXbLvjfJm1AmFnom8VPbGksT7ZhfsgxrdwW5N4DZwffNs1TSLr50m22Fe2Aw+3kJuBkCUDknNZQEnMO9hjXjNY8Eq1+MRWXKAoMbYCvHmMii8ulw6iqSsXB7PwJ09mLbHIZsPobwj+71rAKW8b0SKdnch2+GPuUOsg5kYSvfFpdEmoV9WKAdWcqJCJDMkwEjM0nfo80DDGTtkKcYF4zp7oooxgOFnok4uHxKeymqQO1W6zWPofEa30xsKijSnqUHk4Ad4+tbBDlzb026Jhnq4U7eBNyk8D984lw8AJHdLOwiFEcGsWJlH5/oPD/uJDwS2THto5MnztTA0yK1mln19VzipcYkOpqVscqUrpHrnrnJ7Vxc5+NYx7Utl/z39wLYRRPv89LdegoOhc6zI/Vnc4nYpRTF+cOKIJeSVYWh1KGXKI4OOX/ZgwKbJaTx3A3JTXCodJ9KNrQ6kgmMXpIRUJT1BC20eYUIMN0BjlfAnWeAaQLuXAF3jtDjAcvVhHpULAfFfJixTAuWaUYtMypOQInl9WaPC1qxqEBrRZkWnOoBJ1FcQ3ASwRGLmxywfawmWC2YJGx0KaZipGwRwTJZfqSoEbAHAFUhEyBVIBXQyQYBqgbedCoQ3yTMdpRom3phMjMGKOqvVYzU9c24pLgd2VgzkzWAlhvl6xOUoqjVw+y+WfM4FbPnVCGYikJrs0N2mAQ6G0gv1Y7HagTz5H5mr0eL2M6xPCu+gGfWEjIhYGX4LHm3+WnTPX2d3G5NFG2pYP+d9m78TKQivgvdbCBUpfuUGIzavTiPJiA278A6sK2PJz+T/n1uetryk4liP2N6H71calv5Ghv+Xs44d9lll1er3AZX3tBmBG4b19DGk6s2fow3yJOw6UrrRfw86L3WfgV+a2FpEKzEXmgpSXY07MSsgzTM1JEC0adiTTKM5Cs/K+35riRUnZQd8C9r9wI+yexxBzwsZsZJFcAM1FmBRSDTuKy61wNVMRwnAGqsN1dbMIzi2AiG89RJ04Yp4P10wwYS+DfzWD0vbUpdVSGFzF3FKipPiwqSQDVY6ylQS2MzC9ByUgXQavq6i9cxX89lqdD2HITtYA5vwe+F39iYzOFnIq3Y3F4RpqHQQfVKrzrKNib6FTSsAXqij4cOXd3w++SfqhG/gkzDWFW10nBD/Wuh15ffDIXVpWOIowOb4z2g2xuh/bQdKeCsU0rXneZ4Jtzxfu/WHTlD7IfORRsSjgKL74Tfi45hRz5alfY0uSpVlP+iqLVimRXzXPtwpX0iXWvHeJNRuniJaGu78hPL5lQ3w9OhKKI+YvA7llecRj2fAMwcDkH7AqvvXf0Gsl1pr9ow/6Q2hol0TAAWb7sn6Vc59mIhb449uNgudUTdd2on49wYjz922eVBZCdeH5O8/nV3IdPx1v7bhP8wlB46JnEAYl5bC2NLvdctDbc/vVIB3RkAsAzHmyQ3WepavAAz5CeBMmBLjBQiU/OuCzpbWapQre4nWsXFGsRCgLuqc42jBoGXXxK9Y5d0y/yFhmgXMoFg73Al0q4VqDMUvtlCoCuttC7d/KnWzIuIEZZS2l6oUQ5huye0NBPXCpWrP49imqxu/d4zIWZ7cTpApkMD71DI3WchxzvAwUhZffYKuHMH9c6EetfIz+tnF5zuLjjdOWE5njAfTtA7M/RwDZSKMs2YpooiBYojpBwxyx1M8pcoMgGYoDgAKKix8VZRLGrarkdfurBcAfU+sBwUk9vcqmLEo0Bcs0BQZusuSwEwFyNST5U46uJoYYFRlgDElw2pbXJlgLJ6OUVhV0gVs+Pk5K69Lt+UqzTUXQqweOd8OCLrl1U5MVuwUOjBNVyXqC6mybpUI5qLo/NaDbgcBDgVYK7AFYClmL3ckz8XGrXV60CUiQ0WWv3utE0cJQnMTwMZkkOi0XuEHSCqgqwvOQEZFpkc8/UKR2h1LMeu3TeEHDRJurRvvx+zBtjSVQjiGjDcbuWOqOmo3VNxLPkEpZNjyOuIuQ3yhJ591NJvJKKoGlrT7V5oCsVAM4a0TG6/lDhvl8fmt0zTg0f2OS77DrC7vNqlHA+p/HlJ+wkIMqDYhGanlUo9THQyRCBK9imETTuMAwTLmLgweiABRKbExg0jC1CmPp645z8ppeG3EUcWcu9I02iAY1MtNLyX4aM9l32RryAKP8mEyKC9R+FMso5bNVf62OofW/lTjz5hfQQCXhctmOpkq4wO2bHnBDTEtZii2FH9XkUz/LnY5qRk8NQmn9s2OvyG432C3ydizwDbdDT6aqEeVQMLa4FKdVuvAqi0e268KjCwKfoWVFXUIOPV0q9aMYkAqKiIOqRIml5ik1XDl1EkBdqIJG02LdO6lVfh0GnI74KYrVAGSD0If58NS4St2VadnFsz/wojujXqi52PsCbLPMEYMp/xUjNpEXZ+S6D3M0irHr32q8Y9yfi6tCj7QUC1DEe0JcJerRWshNFQfi7GWJTPZgpEfLzV0ptjsPRDxRI7QSG+GcuDxjC0en2A+nt1G6lhhVgF1XfIleLapKmq63XRE64+LsxhvNfVaRJcXRnen2cbD4ib4yiijuvF649k2Xacr8Q4oo0DovSpyNIERpiQVm0mMIoXX9hbjTiiykSQExV1VeCoiFFTYui4F+8sNgEL3RfVtrdFbiImbSIDHobvp4yqNg6KsCraNwgfs8TYA2hpzm+IqjNV2xZ/tnNMrrJZhjbW+F/9b/4WnkbZMe2jk514fUxy545v/+4NJIORaAqsgZy8k1BDSWMzQSQkAjSkO4GxujS3MNifDZODyyDhOB3eQSWJB0WnTeqdmEhJctfAdGmzpWI2oUSc6JPiG6wIqdsZuCll8ixOPYki5tZaTndO0jTyXAaIIMAUaR+ldX4SAC2CiZnP1XPRKTsI1Jpgj+MMoB09XAIXgb2ncqDyjHflhEQuSysoRWjtSYEcIu6YjUUOCDIFCvCCrAhXyoTUAkngHttMOtkagwQBcLgDOUym5SpuWuCZu6gTgDsT9FBQr4D5LnC6OmE5VugE1IMCBzUzA9MMKYsTb+pF17RN6zThhCME97C4rbCKYgMEdTMCCiwHm0nFApwmAyKnSR0EC6rYICPAAypiWhQ6RTH4+62wlu+k5kdhxlVREx2ImKarJaB2Gssi4hto2XI9VLjdV0vXdDB4Mzu2s908JXf1tKqh/gqsYy8lza4lcFcBDqV9BSd/twd/bYcCnHz8A3USlqpuAIiaQAEQcW0PRQ4kBL3mRVScxatv7jaKhlWr++NaH3SaDvcS89qnCN9TrH3d5zG9A18nEtHIxOrfWzQfEUgqLGir4vF9J/hFayWi9ei/3m3ZakLG5xwytq8vSGy0smPgG01NEt3SlzXfC7/Nj+t+qWQcZUiVZVla+qK5OZvLM3nPZ1ubLB5Y7UpQ1wVK8dsHOULdJ192kLrLq12ujkdcn1pr3NkkjEZN1SeO2zLyNOuTHhsG7gLwBljarKDfKv0mVPA2T+g5oQXP6Tfu+6Q0EcCGBSNd3okH4ZrPU3jhPyaVoq0XQXEQIAEGLILWIYQN/eL+2mwpYUPpnyseSZpQirwETBEnWj0tpRhBcRTUg6IeFHoEtITf6Cds1Y2ShqqiQqVCimm+isDDVdN2DQLWcQ2xZ5RdAy2tWwiCVm3DLDEi05YuVyJkayNAs2DtqEmwthWADQUzkS/tORHMWnDwsGNS1mhZQxOKZgOW8btp/VpQRuSKYwlNN/UHI0WTF0l0iR3eoH4y9X0VNO6Rru/nR/J6qxsPvDF2xRe6XRn85bN53rY8Mz9+PYbp4Cu/Px+6ctXgKpJuGI5epaKcsryGVDO5dlMeszAYvPIGupFeuIJKao4SWJ3E2XU0YJtVy+qIEa6aL3vcPEvUlBuakqwbwfCmaPKdhG0Fu2JZpCNWscDrYsOwMUEQ0SwLcsKhNGeqWZb1qRBmpizFor6qbYgUyiBw96izUa51iCvclOIq2rRe8zWot1nacHMoOaiqbZysYptwiY+TpCkSC5yglXwV3SZ4rSWL8m7N6YBcnSTmVgq5p4hAcjVmcc+qwLOvfS2eRtkx7aOTnXh9THI4Tj0ATTBpTYEAaBqSbZCLIC99ZB7g1i4bNBGefefrjnzNprPdC/Ca9xweZ1DS0gFyS41aQWgaiASoFAgiL44Eo8XPJe5o/rMl9B6XAHXGl1JbeiNvGiUSPRv654msttn0VvbdUrIuPm15T9LZyWF/DxJlRgZpVJoNngyjSANT3jOKa3lKKdbpS0EJDdjp0IjzAOmR/njv+b6zN2/nbq8VUqDTIesJhOpVmeCMoV1PB+DOHbu+OgAq0GeO0MMEnRTLUVAnYLmrqEdFPVYshxm1LKjTDD3cd1BegWnBYZotaK0oWs1kgMxQNVXWe3KFOzjhWk64IxXXi2Jy7YkjFsywoigKI3dhGpZz9L5FUIsRn1UAmQRSDdVlFSu+LG1ejHgr9lxubsxV3mutFjWidvIb1aH2suRgxcjwagCpOEidxMwDVDXy3KtNmcz0wDQpFgeWk99U/2aOk+C0+LIzjzo+i+ulbagVFYFnn1WBU402Jb6QIOgbkDoosGjNulk04XKvCSsDiNFWzaKqJGAZno3aWEDL7xxoxWfaWry18Cx9NBehjDB2XImBJZvGHKgp0Cktd3hA2xg3Y5OWT55fAoHRSN+KjI3y7K6pJZVurilvCh+pPHi8zXF4S5uZEGlxAA0Ac15D84DjiM1GOrdoPwdNWCmtb7I0hTY0IfcMj9JG8a7svT0lUouiPoRNq4d5dpddPhfkzjNXuF5O3paV3DW+CU9AC1Br2zwnsSn6ToQ7h9BKDakLUIpNPJWpeXQMlSRqxNeRmNquHa9JTKpG+oMoHfEup5VwdcNikQ4Zrgdt11IauQe1mdTor/wo0+TAIUCKa7EGG+IkrCb2c9NIBcDk4RfDFrWYTdd6tMlxLTZRjoMVwezvR6dquhHi602KxZPGhyTQV7wgTfMCwcQIs2zpz/8TvjJC03KrlHdzKa7Zp121EL+wp2uDvSJdmpL1i9eWKREs3kfF6MT2GrAc2m4DhigKwrwCUNSItdTc846cRlE9DkLT/BNp/uKXz7VX14kpKLQO28YM273n+PilPrYViXSYQeOeNH9CGpWmuOm4wD0lCeUqhbGMHHyMzPpr8SpicZFZg5F47fKhnCcvMKVzBpeRh0r+mTyN8o7nVs1U89tZlxIxZRcJLVzkiw6t6FV44uMKxGqymgpJpQDLou1+AbBoI18pOZksL8+lmjIH3DRFmNuIFW+lNGI20lG0x9Cxl0So+XCdCUUM1ydpdZ7q8Uhu8vsqwyuiT9TIV7QmDPm8tLGBP6tBHhdKOGIcI6kcovB6CHTfQoQT+enHBhx3n/5wd92dDKdo6w6iPbp69lk8jbJj2kcnO/H6mKQqfFkDgKlYg5OtVbSwOUS3X4nZ9MYUuY6fY8hBE5VBapnWPXO35CZAabTKBbmteqSpPUhhR3yc1niOyV8CvJkGCotbZu5Mu/AiHFC6PQ+F8073AaztYYXmQrTGrrOVGr+ef+pYM73euaq49mgu1QdQ3HRE9pTxGhpoDgCdYwwpCWLiHcrkGhQawJ3KcbJP1mwXRdw0OIhyqAuVR7H3fzgOy3ypnh2PkEOYvqjQq6tGxB4OZmLgOEEnQT0A9VnBfKeiTmq/Q0U9GPm6XL0ITAHOK6ZyH8dywkEWHKVCcXBg7tqtamlcMKHigAUn1DJh9vX+12IDtGVSzDBi8bD48vapLVFBVZSY6S1AnQRlQWJwLV5uh+IDhWLr9QNBTFbntapP+WoDWAHsYilSEZSDL2dbFFIFZSpYdEFBQdWKcgC0ChYoZFEDD2oDoGky0LMIIGLga4GTqq70zcuA5uqEKRGI1oY4CU2fZ2iGLv56jyK51Cd2900NmRhOCVCibnuRNSUkyeobWC546PhE8hPmZoE+Yy/avu7Ts6lgTrUzPptc6iSm7cvdeQJNtHSP2He1sQUBNNpjrSNSaW6iJWq4l00RpxkEUjfuje5cduxvFML+I8fZk6Pkf4xvy21CA5AhJV7kasZaVum0cpeuCQ96xVs1KNr7yUzssssuT5VUM6zea3XmyNpbZ153PQWukdYJAGjqXeKT1NoTmBH2wWgx2wypdBPeaWoqGnAmSkFu4/0Iu11kmG12a8PvObcgb7OhJxMCTMhmK9nuyRiOwMiU2NUmlhsX2Oocmn3TJGSRdl3rBMNuRYGiWKYwH+AD7EmdnYHbcfUkOUlZoVCpUFm8SAwjNXME4SaAVIjEqh7dnqSEaZ1GH5ETeFlt7GLRApHarVKxrNoEvgCuu4oMq2RyCioWhEKFZkILFAtRtJJ9lNmHbfZiW99mK29ivJUhUd3NJdZUpcOt5ahVrU6TESN2kc6/BLhAb1AJ5GclHmBwgiPpyhGOmqfJxDKBN2CbVg3GFXdws13ShZtpEAqLjgCgqijBmStMgSLAYtdGhB/N40UZgaHyNX073RvoJSc4VmCOgKzAlDw43RGFz4ir+jgDQBLGAERsFVotiqKC49HCzi0pfMg3FUHx7ypMCdhwSfJ+dQsLDV+7AkYoh7ACkDS0xtg/SoKhINfJURFjVeR+Ly04DGMA0PPsP8cWlIZJJK8nrzDsR2GmFQDkpnqItFL44/fG45FMirZ70oq1lQGlUZYFu+zyILITr49JXvMaN7AUswIFyNacZ+fy6+6GrsiHxtZO0LeGHcB0yZG2tFYpe2FB32L5SaEWa1hGDw9izSIQuMy0cRrG7FCaMw0cxqq3G9Lj4QbzEUvmc4OFRgp0IgFCDq65Gq10gTF2no5cR1HNJIJFngOD0dyAEaKUz0BxWY5TD66jaFzbQioBxslhZyxrC+JVI/8CTFNbGqeKOs8GNacDcDj6QIc0nxUWxtUVME251A0CMy8QcR0PqHeK3weWZ4DlaGTrcqxYpKKWimWaMV/dg5YFKgu0zJimE66gmLRtlCUOpotv/3SNI670ZPaLUHDChDuocAoT98uEUmcrk6Iok+CwVEylWJGqzRLLEZghrVErZqJgmkHMj9gSplgXcwD05EVSBHqwSRANo0Fhr0m8fgZYcXStsfRIYCYtNGa+TXtVimlKVDSALr4cqRAKPRwtzHmGL7FyMladGxbLQwCY+/QpLkqEKtorLrWf6Q37ZJFcFJs553mXmjhb0ZawuyNpeHSAjD7XVofbMT6BmMTvSFZp42WleyzR9MjwfHzVHdmLtuQpPqtsmiLALYTI4bBIO3CzWDe8jc2m0MWZKLcB3flkXL5BiLjENVqTU9g/pWsLjK4Tun1DIi66zvC47AIdC5oZlqdIqjzksqyzL3iXXZ4M+bxnr/BXn61okMbxA+CNZmyVUtqMl5IJrJR1o2hNR8Nl3W7s0ehskbir7bDteYufcCMG7VQmRZlAlRZ+miaItLA/jjeJU0EQqhp4MtNfWmYKXUfHEvgD0nbWFCSpmpOj4S6ATv5z80L1aERraL7q1Gy21lJNw1WAMDmQNowANzVQzXxUUSThiuHHeFfb9dZcm03Bw7UqxetK66Bi+bW9Oulwh9Ci5Iwuikqrm0pAkqoHf1/B7UaYCkWVWPFjIKOpX6inM/loT4+kJmxLgRHThYYvrKvSTcb6JHSEmdUksVfrMyWWlEc98CFJlKlGSSlhEN0c5TThtIzXSsese5xQyUQ2hbbW2Utc+qsXBwId6cpVBANWiUJWzerThZ5gQpCBDmF2+YjMdZVHKDH8jG4D0K5crI5oqo0OhSVI0lUOAj1pA7AdQNQ8F2mkpHizJNo25j0cgHlW19sxQnUJWwBqChOBj2u1+qJo8zmj7lDlJIOSR/54uN/qvbuziregsxqYZsWAtqEf2uRD2GdNo4kCsGI3V78xnYnl4zVE/O425bcrucqOV8J1NMLwWuNC4Jq45CfGk5XKg0wQ47Vf9EV4GmXHtI9OduL1Mcn9a4XZ3pzdhYFgtIQ0vDfmB51R8GSEqEXwoFoHBfSoR1qHk4BXWisGoCN+txATqBVLLVvWdGhg1EjJ/lFLai5WcYch8V1LGaKtjEb/Gb40RMBg3MMM4NTZBgqNCspukGcrWkEAkWPHFvXzz2Pa6d5kEaTNSSIgxMGAdXK+eVYBmvkGMTI0+2vbWMwuii2140GDCMp0sF7xzhXaYCN6djESsRToQdpApAi0iGndwojaeqcAB0E9mHkBdRth9eDarlPFfDyhHhbooeavHK9xLDMOUBRVlKqQUlFQMeuVaTA46J4xoUos+SquXeEz/ioADgaSYZttLaWaSQHRnCVWsZliC9KRgGt6iNtYFbVeX8Oi+8F0G3TxOqxWFjIZeNJQQcUCVCNMo+ysdhSzaesgsUwFtVYzTyDFX0nb1EuKk7FwTleiGoSNY6Rm6TShA6ynqF4K3BXgem4AYJyRdmsV/ecVeNOrXg0gNwAusx0saUfJwiSgiBXUznjjnlLdV+kHAsoBkfAyt1jeEzHErSSIoxnkFAzNADuPBCeDvHPuox+e+prQpyEz5unb0hDIJvYMtud0n7sPrIF0uo9FyuVD4Q4tZobDcZ4Lq0/Ime4BBNyzTWvpqE+hhsC+LGuXV7uYTVQ3n8VL8INI6VrW4hpXoVsY7tSoeEMnw3VH1I5kaa5U8iATYznuSrf+uWZ/lR5OnETHzKdNhOckEpsRiLww4cpppT602ywr1RKDdG3+zfy9Pximi8RJ11gF0+AUakwqiw+gxbVb43ewIyZFlbDTatqvEDdDALtWWWBLiXTo/LVpu4491qqTabbIs8xBRArcDFT6b/bLrWzs3VYsiU+MMCX7th6GoPjqnTBmEISu5tLl7IsUpt1KrKelhzdrkrRLCaDbcCgszPJkYxzZPmYO16hEOkyidN19Dm6yLTpkJ7kiTMY+jL8w3qdwbcjINnNbRy3Aio+MCOIe+xFnoQSWtqzCoLg3wktt1o305XcffoPR04YqLdWC1JX2MkodYV69GBElcPLIA5g4w5vVbMRC4a8S2c84zjMrWbiRhNDUh39XQ5jhUYAyAUttYxlMTtaX2H/E2sEYI+TmvxLfjuZ3UJk2yKT3ZTde8LfYme2iIsuxRl9lutVsnXpY+PVvZ2WigMBoapYzZqS0gML1Ktfm1vhL1eYnhoBbMn5q8R7FNeg1X2z0Qa0tUJC5BgDL/RfPxPJky45pH53sxOtjkjtXAUw3XkEALp7yacyNe4oZ8lV362EAkH43b75pDRO3rNFVRgtITVbHgGhLH6VXMXmjSU1vAFqKIZp/GZFKICEmdAGs8uWdTGgNbOWtLU+jfA1pFg4/WmnKj4xTgCA/sQlWtsZUhgyyOxkGDUlYk7vvnKvhrlNfHsHYMWSyadBeG0PQawGzliv50yLQg2ldKxGKKJJAX4tAj7CdcO9EY1yxHKoRrocFy/FktsPKAp1OfryPq+mESdTtufoKOQCiigmzVzUDrgcAsx6gcg0gbEjZr9SEOwmKT4Bp0iKAjQNi13ItCt8kAvapHABdxOctFLkeLNQ/C1wl01HEyfyIIu2lQRfoKV5zsycmpUBLtR1XI74AcQWYDgXL4pZWffDRluEhr0sJ2042sJgcBekEHMRszdbapmqOk2nDdiDR/9H+eU3D1AFNmCuYYIOyhcNQpCZOaEk2LVh0YC3eRQwKwku8rWguOH1RHZlY5ZvhFJoj0QSy6Wd49T7zhaVCUDdj36Wtd1ulD+sWNdNF5+Ev7neKnPRwNm2dAzV7G/ng+FnbF9hoWihtW8J5vTSBPeb5TDSrNI3+xvR13RSA8jRqvJaH1A54+opkl1eZHK6mNgE8NljeZ/JGoYYPw9MGUu2wVbiVdcfR7V/g8SWObS16rAbS+B/EMIQ6FH4Ga2yFwLTeoA+Yqk+XrH+ctxHTT967SHtWgUa4EuZlwqf9BHCt1SRYXeM1j6VhJftVmzAPDdZSjZAVBWRBbp7l9E5yYDBTAoEBJLVl/W0O9sFHabqtvSdFbGDlO777WvwgRIJIjUyrgz8jVIVWTSmutLaVN2j2Y6P8xMGhppXL9moidUnA0hBonPlUVVRlIwYuJRdM9dmkfj9rvTS8dg4TRAIiPUGEcfCGKeRsOBmnhN+Wl/FNROGFfdf0tDHUzGo7hGVV0sPSHvOMeKilfyPtAlMICTAaTB4930h9An6xDp/jqTT0YpAI2JgnQSfnVZGmAbsHgNhUK5xScZawb2xg17HaEvug+DuJTbk8e3a07+hwENRabUFnbfi+awo9iVkvpEXHZG2Luz3fYfzash5DwhxLIJvzLFLet6D22csiTpNetAovJC2taB6yTh1KK0ee0Ijm29IgpCBi/xWWMCmxkTCla+M8+4Qu7UYV876Pudou2hUF7jz7GjyNsmPaRyc78fqY5HAIsNbNEfWSy9lJmEzl9ZxoDXaAMgmQpqA4zH8hcFprbWCS/LQ4o5WplOZwJ7/ndqnx9LVcloFNUOR8GIPa8EtP2mMBwTYkd6VlmIVO86FLn7RnVuttWeM4HCP/jKZySZ1upymftmVNudEYx0npyB11A0xnHKWlGeKamcNAhxFPSEfKClCKAdWDAJOZMQiyVb3eMAFbDwX1ysH8FMvVKubDjHpcoFOFloo6LaiTka/Hco0DFkz0O2DGJDOm6T7uTtdYdIJWG9hUFMw4OAAI7QcHa2i2fRonXXCSCrlGkn8BEJeiblUhwA5yt9nq21/GWCZNB8SnFEDo0NCcLAZ4pBSgVMjRwbpSvJMAi2T9jBlu29ALEBSfmVVc3VHMc8Uye3evvgGXVYisFrZkyABmvPoqMALWceGitNlWABTJpGEKUnWYZ+DWQIrvVur+uA1RmF3Vqj7IkgZPWjjxbfd5aNWw1cU2bdSWOYYoWtw5f4D4HgaQ2cXS8tJdEyAXNC2V7ZSSu26ENZx3ZdqfbiZmKzweOEVasllA7372vAOg54WbklVA5Cn6i0thAa0p4eaLl6etEkTvoDfJsssuuzwNcjhOtkxjEz8qAL/vm2I1PMVYaGzkuS9p2FD5noSmrT+CSIL1IKMJAcmGDq0DHDFSpDs1WTfuwfpDSZNW/T0boTOh246ZqyiqULZF06oFpDcr4P5tP9IwMYAOu6lvMqoHJaLVMQ1dB9FaSQu2uqZrLQti06vo5WMiOTZijBUxrcNkfdVKVEhkcsTSWx2QEtpPIOvYOjBAMU3XjE3ayqj8L1ApZhsWitjCuDoxG/2m5wziNvkBYOKxBkCjDOto04yU46G035pjLe3MK8U5j9TCPR1XN1upqf/LTyjySf5TIzODaXns+vNgwjhq9TxG2FQxu68442+uaTYgnEINUFvcXZpBtt8HP4H9AMO3Y5Fkqv0Bew3akcfqyglAlDtlNn7ODGZRdMDSM+ljn35tectLBpDqv9KGqcIZQftuxmzQ86agYaRyjPk0NXBthZxWpH3YIDGXxTZ68x1SM/heI7blISzlLZ7EqBeJtwl7U2l0L6OIjRVi060sHq6PceyrA0JHKE3f0iuJ+p2arNHm+Xl8C0HihvZsplXNdAl/B2GvdgJWrdGWjENyiAzsg4+/yJMKcHzN550JcZddtmUnXh+TfOrPr9sGAAB0nL5TkOZZWwqP5pz3/MQOsrWMHehGxG1q0MKbbBfYFZHqfqwxdsR3cRpb1tfkZkslMuVduhNw6pCCTJO1ylK2bLRuTa00YLYCzEO6eraDyonXM4R0O+sKTeVFOsQ7DN1YsuM7sbLGVzBqw6AjG3cRgG2iBfFbimlIlCFv+XDkPdJNxG0Re/YgabdVS5wbOWzPADq5putBUcuC+bhgvjqhHip0MtuudVpMc2KaodMJV+UeDmJbZU1YjGyVGWWaIWXBYZptUwQBqtjOlKFPMesRkOvslMP+l2lCmLGBADcVMG1dFdSqvlEVUIpgPgBl9kFKlIaaDS49CrCok7HiNl017bbiMBmAU9dSrUa4hhawTGI9sK85S7Ay+Yw8ASktvvlHfD6ORKbJ0RQaiApAWYpgmjTtgIUxMMZ5AVYWMqCfgwltQGiiGeOoUow1FQbS0v7qcK9VQ+nuM3iyLGkHkm6SDtTFu0b7FAIYe6uW/vObviFszkF+Avlt2nWCNwzX0h7fAp9bKdi6vhW/ODQxqyZjiGDd9q2bqNHfZlpkGEeMAeiW45km3s/JvPQqH+xneRpNDcjD2bTa7WHt8qTLn/1FRawGilVJJt6KhmoT7xHAR4A6nyAvtPU/jCUh2X925GjEpmTuIDslxlDDL9KxwlJy8bkgSs6FodFAsvFO6kuBZv4KCNuvEQ66nwXjhGuYrXJckSYHBGliIDVfWdMVZG5A1LGbYw9ZzOxAmhqw51Fsk1TFApsFdjyj5i7SMBlvqpWZzPzpoATS+ndAUaCYUFHEtFermI1/KjgAQE29W5qQ987azsWHC8VTbRZijaD1BerS6lCMb2zzLCvaIFljCMAr9BREuPqrFY34BdXPu13Wo78NbBPlEphp6G8bZkU/Qes2X7vuwip8C2A1huLn+/MuJI3SoVSk+QXbKKu9uoatcpzjryXfVGDWAInxGKevfeYtyq4oyOQDDZEC7/aEtBekv6B8W1k+nC8koRl5T9u58BWAi9JjVH85P574fE8ZV9TKbUSXzZU0k3sSZK+wpzjlCmP3iitJVAmi1fJQAKAAS2w03AFz7chELusCQGnWYFQUFvvac8Vc4LzIsortz5cKDgMOzHfGEWubsM/FDEHOarRZaCSxFxEPe1vY0qU5Jz3oO+vewbqY6WEqMjTitgTPgnb/U7/z/8TTKDumfXSyE6+PSb7g8303HRfJmW7v5McR9ZlRfNucCci1B9lwjC3TGXGQ2matCESC2iuJJfwcVvMjl+KLsAStI0gUEjkfn7X82JX3Mh2Yp9Z3RHrxHJOV7E+ktcVUhgq0mdJADpyuJFeLL12j4or/wmC6pQcBa84CfKwBAhOtsWmD9zoG0klTY6VxHOkBOtLVTQwYWBfoJKlFgSINyFegPiNYDhXz1QnLcTaTAvlb3MSAXx9OOE73cZCKSSomWVCKA/HYiEEqiiwQmK3XAtiGVDDi9SQHO896YTZIYymMimBR02KoRbDAtLVj6U1VYHHSu5IiCgONCgDHsNHqZT55fTCjX8ZEhiX4xPmhySo+5cvrYMSX6AFlEtNmddJVJ9cwlx6KCaNGQgWxocJh8kFntbQuUQVhphtEgGcFmBdfTiNrsJLVD3RvcCsOpGrtlxwleOLy8+vAiA1i8kKd86CGwxHyyNiI4x81KGPgxu+Tj13rQOluvtoSyHitcWfSjbCkT2e3lGoAZ53/hxSuGTf5GyPsykSH9G3Ewe7RbeiYr5vSwNcXEi8ApmljJccTLrYs6zZv7Pzzu+zyJMtr/ocjXry2nSr7donwji8v6XAkkaZ9Y2Tfk2htuCmDlDaiLtOq0U5TAmx7NbVshzRtHcfzdOuvtQzhdZiLwuAdIr2RFYBWFtHzZMO1L0MkNrNJYG1YzYtDy2DPVUyTNeBybowlikVqar/WskDdrIAy5o0+vqhP0CtUKoDFCZTwWwFUlFjpQ8kGiDxHAXSxiXcYlmlvv3VW4v+bpmrCLNuxPK5hJO0kaASfmHvgRyNgi5sDCPMI8In8iAeA2komI1UDDFgdq16rwtwCY5EYL2SpCdm8FIORpbYy4YnyOHZmA+h8rT0rHTjoyaUGSJhwym+RsQvonBMe/hQY1/HE+2ICNPLdFCsdY2GQUESJl8hhRL5jiNAlNuy2UplxsJQX9QGA0Iy6Nzd9RFweBW67yxw0l+P7g6SFwEPrDMbHkVHP46Kr//T9aWTEPwVQedpQTzqQmfZtGa15gUsR6KLZZChc293rmmm+KhdQpld9Qkspi5B4JpStQokrqpb0eHx8CVGfgW6skUcqkh7w00uMphptHFArnWvT3M1soTWbnckBCj+eiRq9RYd0WZN+OF0wjI3iuwXwBW/86xuF8uTLjmkfnezE62OSw2FCTvFkS4QBYHawwGTVYgz3uunUB5PbPCHcuq5udt35cI81cJXS2H/Y0oUTQGD4+GPZ/Wbc4R5mEaa+BSWSVRBgsMWeV9Fyq6ZWsfBy/27X2jEdjDxpqVkS49JpJK+E44YAh6kNIFLzFY2M5YEBG6SJ4AS+HM78mImBIHGRRyHSVScD2YssmK+McDUwb0vRalmSfF18t1uZXsQkpgEhMdUtoRHhmhJlwaSKCeobE1RMpfpzVifmeIcqUJ2gqN55x3J3mPaCKnWEvnFCHoHlCJSTF2VpYFTE8hdAXatpvRri9h56EmAW6uUl35uW2IQLqVJq2rQF1clSI10BTECprmkRPb8iLYyUQwPwSlOzh0OrTrUCswNKm/E1MlpyUgJpfoBJVxUkEulw7hY4gldtbYSqhF8CnIzLY7lR+I8ZTonPYFUTqYpvgK7bdPHcMia4IvduHmqIO5tGEv4KWcGdmuQuXbFZRge+/R+1CDfLADY7ULqR9i05d1+Gi0thje5RbqF0tQm0hwe28h38Au+Amwr8u+yyy1Mnz37eEfgLbjCSTUCOUpOhoYZhc8WS3RbepW+4184v4U7C0x024+Pox/CFMK7a+nV29PvnuzADKzJmDJIn0kF2XK3N5g7U3UQIm9mjqcnq12k6QMi9GD6q0DxXQZqI0rKg3yTLsJvZba1ItUVp9wILGq5bGubLDV+NwRJnsiQBVu3eZ+u3lcjYViyxOD1NTzljlZtu+d30kyR+b64KYuenNFJgPZ2iwhBmQDNfXYV+ebKtlol4Akj2eCjrt5sG0Ag3qnx4iTxjWwJuMijIoKl8muf2ULzC7ovhsMaIzoh/BW1USqAn39GAvQInRuxbX2W8mXSLMEZQBSs/oavz6fS4O4KSc+EKLzmuYmAjfcGSxmwfdW7P1qdnsCORpgHCixLu1uHZSIFV6VzttohS8yEIDfOa6p7oNFvHzbRCCSWeX8KEAaRx88zoo08vEMNIybFC3C5oNo+ZWOXvIDRqw/IEhuNZCHhpnIGWrsrq5kNpDlw5ANJWlTV2ZxnTNV5PgrbtDpBjyWf/l/+LcznaZZdN2YnXxykM2BCdAYGzhkqIEbipedjycxtZUQnbEmnZiuMcAGYQGveYfBX0jMel9LN2xMU4p/7ebc7HcldYKx8d1HRMENzycSZ9Kz/Sr4+4zTsKBMbaEEy+jtquK+0Myo4AkAKdihGvZF5AJwPzddI8D0BvbtpI1sPSjocFy2THeryPqdDsL5Gt6gSskbCzg3T7FWn72QYRq1WxQLCogZCDd5ix9MF2tFXbGGqyTajCCH1x8K3h14siO1x3s0GLoE5GmJrdOY8ktFqLhasxaxzG/YuRtSgKVDOQr2E6YBJgrs7Pi+8lormUBorO5EABgMlI1+I7SsXGcPaK7b0fi6Aspr0yx6x8pMGrRmy0Fb8K54WjOhEIZPzZAShtnybDxDynpojBUMLYm6p1eHQlpVQYRmsGAnQ1IE/CQNDTTOZpu/hvM9ZY+ZGWrpueW9nuwkZ6z4n0p927GcI5t2TnNnFlWT6AcAsbA8hLvocWub+b2hIvsVt6QkTLw83w664dsMsTLiKFzCg1EJVkGKnhSTNq2lYO9aERVkLrGPh+i3jtBqDt2jJgrg2idXVvhaXovMNaFPUqrK5wCIgBtmIKucoon0980tzSnMAEx1Puh0jXtWkB9TaJr51S9DY9tFzT5quHDdEkH9POvL3JvB8YT1z9M5MsABAT79tHWzSmOTkvzroVInfZiAAjWVVpWq/xdqX3WSFJogLRT4unc2pGCqSiaMHi2LOhplZvRGrDP9rSEaFT7epEEeViODWqfy6SG/r7MwH0mGjszBkrUZjsVzrvnqeWu4yKl/p3bgwYHRx1Q1GKM7CTpZljIGE/8Rxt+iSU7yF36NQzOW8O2DQv6J6faCgpdOVn7yffZA5eHIdLQWws1wFr1Ya9vWKo2/4qpaAGE8pYlMet8Y0JcqwS33NopQbZCvh4IzSGJfBUK5tobrZKfJpcy1WtDBJva/u2U2tavXlr2eqwec3y6V+goJkZSxFAFqz8du+Nw/CuIepdWmah88hkoTHNUMwdLo+0h5lslhFvh/8Mc+ujhhNmfi8Uk894feJlx7SPTnbi9THJi/cWrMAjb6Z1RiN0u0U43/XfXoYppIutiW6n45zb2TRzbz/k9Wz4QwfWnzQ/Hbl6IY1boJ0BdJkgy2Jap8FwbcUvw7PsxqBdyE/pAllLYg7Xmh21XaVsE648OIgoFNBSUI/FZkknNfIrN8wC/dp1nUy7VWPjrFIHcwMV9dDstwIKIS0Js/cV15Vsv4bWa5gcUEyYcYUTDlIMDBXT7JxVMKlpD6Sma5wLAS5tG0LEMr0aRRKzwIoGtXwAUYuiHAqk+g6+oc3aWXFHewdhYFWM7K3FydkikEPBJAK5rtBFgaKop2ocraOmAtsFN5Shy1QwqTbgUwwkTZNHRZtp1SKm+VoVM5r2ayxfW4h8jS8qgRYh8w5HAkmoBvCq2mbSO1MDWJ938PhCdR5BVOA43vRqK57uk9hoIsRRYhHZfGaViHPfHAEp1gpOtzEo3KKpvKXk4HEjA+UlRvLS0rXeIFCG++HSFmpuvfduW5I8Wh4ftG/63JcaS3of4vlddnmS5YV7QKe9KnZtXXKO0hFMUrYDncbrGbxIz9n1Bl7r/Ec4RL5yQ9VNkMvwDJ1vEbDjBHpgA6Vrjm9086PCk0f4YkW6EiaL+6zhmqSNZ7XDcUGm8uZZk6KGLdcpiJukWREsmBAZS2vEAZjde8USHa/zSGImIaSRpuMRlNX1662tozjXsSZ2ESxaMEFwFCOQqm9eakYp2oZbkYKgUyuAA2LPAFlF0zbxijrK/X6PAvhZ9tM2e6IqKxRPhCnAqtnnvAdc40iiOg/lkiv3oqrrmK6Ncnc8mJ+ARq8dJtHCW8tPvj8CaNnTK+WHQRS4rLYADjrytffPL4HyGGQfmXAYyy6PsVdK7L+ADX+Ag7CGVizf2r8LikgVhvFrNE9e2wiHtqapJl5qyR3qU5TnJGZebBLoUv2ri5dqChqam+ba/hZUOhSeuacZtiod9pJVnqkogDX5qS0/TfdK6bz5Va+rtc/yOg76WcDkYTgXaWniMcOmjN3NUDicj/Gx/CbOJdz9xYq/e3/2p5dS8sTKjmkfnezE62OSMpX8+lUKVjs9Z4M4dO23VhvqG/Xb+ae4gR7obqXtLIkZ1+Vyes9pvW6F1bkxihncRluuGL3Ss10cG+exNGxy7dl8J/ReVqgqwpV2D4COu9tupuGMBPHKpGpqu5L7pkaG/WwjBUAPNc0IsL2w7prOl6miHhTLpKiTYjkQ4VpscwaZrlGmBVIqpDi8IBMDQb5KWTBJJbK1OglbccCMK9huukagxrIpq4O1uAasKhYRTE7AGhlrgNtelyborsXqaJhibQMbH8io+Ze4PohrsKKZEai2KYOZdagGeMJEg4qbMLD7qhWSR0mitxyKhT/XtlWEA8kwPzBNQXRaQvNTqPBNwJwu9s+uilWLuiiWitxYLMlXgdl6ksCsmmBoNDGgoPLxewU227k03Jngk2eU+biNVsjDxmcOtLFEDDIYE3fBDE1O+LXiaTC2a1KGMFbNDIW98ucnnfmBjbyd/YTXSPiMx+b9NgbpVeVis7Fqhm+OOkLefH4dWvi1UtrQa8F2yaN900+ZLMV+D/P8Lrs8yTId5IIJpkINqbczoyp8txT/nGyN5AkDhowbeGHwco54jePFX+nDiWSzHVcKSzlMikcTq4FwnD8jSAyGOE/8oiuNV8NIbGZgbee1mYtS+DKhtg4+yjbwEdEhhhu0mSgIs1Fb5ZoTykEG8dFXN6kmQSt+b8rz/hkJjMbuXo+qKIfquM/LNp/oQrPnIGlwIFdpezEUGH6L9xYT/Z3dVzo2O7FUig4eAuO5z96T+1E6j6NQOEygCp2NGKnjOPi88xSP9xtl9aNMMl+lLVyJOAYsNHCTXVqUQs5+f6vrXxVgH297fmhSuoe20N4QgX/rTftV09lretaWzXca577pRJCYfdELFVS7owmcx5dBzWJ+/4oyiVnt8KOkcVPtV9sVXb2TCHMkSUuswqv2blrqWsXLzbGGAtCInlIeY4IcYwyVslD83ao62YjDi21L6zXGLVAqUcF2VaJvKsYCmwsqhnA6PTdqqqN0InstotakH66uLkTw5MqOaR+d7MTrY5I7VyU79812oSP67LptSHCuJdka7N5mkDuC0w0gu4pqI64B5I470W7FqzK2wGMazqVJ+ntbQDsALvveuN/lIdyTwB38lrEHuBBuxD+SpBGuRId3qZwjPdLCmFzbtSNZB3+5ARdQDwTIzxCsPRFL5wfbPEudbA2NV7ueIYf7KGWBiP+K2fuyfFWwyYFSZhSp3U9kwUFmHFARGyXYUrICxUy9vAEDFUFVIzAXAFMR1NgJt2g+n/teuQUAhTZSz8vFSFevg+Jg5lggupjHCcDc/EiRXIfTCFeLU1JT1gARJst2mqtVQKbQyjBN36qKUiTtBk1HACcjSHnFpplJ83SmiTRDLyKmAVuqduRr2EEKaHiWdCVAhBEgOQCutfmNqsvL3/h6UwJAZX2mcFpW+vHH8FnwNSt9dEdJbN0tA1q1LhszscNevpzsBIMjYRtptzRvtbNDBm4hWwot6+Z5O6xLLS01gBfjv3x326dsuHaYWoC2oSJoOfIuu+zytMjdu97prSblB+xDWmUdZtmS0Tka3c7PeE14izubPNH+OcbU7tbsu5ZMX5oFCH8yhCHI+/l/awTvfUan7Uo4ribZGkv7kWRqnvOkcrq1e2liQPx80iRb010qVNzOa5wnJdNrvLYNtxzXlZa9xj2LZUrNbJN4evO4xRAFhSPsLlR+3DeTxVcxcxVVzUSBhSLdLwlWLaiiTrYWKJak2GSVEi9jBDHrdUArcjNUFbRd5htRFMAllq7H8I3JvFUt70AP1Y3AU5sAZiMItjPQSo9gx3oFCkeNfFzSw4iD+KF4LkuAGTFOP7QLE8CmPdc+xt4lDQJkWaiXMz/TTwR0+APtvQX268eE/lvZiAVi3B3uusEYNmMc9KztUpUFYe+I4uL6zi+Cm0PXBC7FkxbBRWDOTvKmUhG/hREmBjjJvpKumqZsRM0rCbtkRbGtXwqgCm7S2QxZBBx2UTt7r2PZe57YPAZr2EaYPNaYcEbrtVW/zrTHjeLxsNntraAze/FtC3DntZ9/y0h22cVkJ14fp4gtixk3eOJDMwypEJ5p35KNzmyb0xwD2Qh05WeYs80WUTafuZl0jZjFG73oqTe7ewprjE/IRli0mFyGYzhbYdIN3gV3jJ/TkJs+jOFQvAIgtJmF/AnQdqwd7o0SA42RVD1nYoAGCWGfNbQeIDASNTQpVuRrf12L+iZavplWqfRbgENousZv9mN1ANnseEEqJlncjquapqsuOGLJHSwZQlUUKyNa5tQQqWvwusZnan90pKtaGThhqr4kv+TAwoq+UpHae1DUQ0HRSmWsbtfVwtRkMCswFYhWG5QpkBuVTWa6oK/NDZ5BHDAtCjlZ+gtgM9wa5Ks0TKuKWsVAmBrRihKasVYmUgBZFFMBrk9RZgSuxp/0gGmLfC2A2f/VBnTae+qByDlJ4NQKondDs+BwDpO3wR3hvvNRtk2wdJ02bhO1/7dOOyjerI4WYKZlaAaH0AGcu7+WBLtn7m9FdZugmx/dOLt9OGv/DekGCR2u3fAkMvagkTwhYjvAPtzzu+zyZAthqM75DJZrM6GrIM4FDcA11gasGfci/nM4MM47hkHoPh15Q1Ke5I77A6bjfKSGXLgzQxnsyqDtetaWaxw7rVcYpgvytqDHeo7lbFVSs7VvRGvDg9njhhYtTZRnC57Eh7q2K3xjT+2eb6Us3h/YvaZ36ltXabPrCihKTNSTP5BGLBD6q2bZVQS22RUKFqkoEDcz5ISrhEZr04QFpaJyXaDlLDanzqlFq2fiK5m4npEo/e/RgYUpzijddrFHxnOOWaIosgpxwlYElykIAK7t2pwzsJtwhUr/7FbKaJH9alJ+Ff5m3rYGrAEMNVeRjUu2OiVT/gFUiFQojm85/xHPZrJqkK6ByZvHDkNmFP4NhrkuBr9DWkIRJOuIUMLE6k4pYntWaAsb1ZRNBL73BODv2L69fnja5yqattyYK9thXW2OFXopnPL4DgNj86tLgjzSK+jtvaLVhyRkMdxXNC3XBjG7YyhssFS06tLyvpazYwx+9ow/9s9pftpkx7SPTnbi9bFKkK5bXy4DQQZ8fjuZCx7cr8PJAe/ZJJxpNTbI2XVD1OAGg9/bkq59dL39GWuwJe9FGtoDhaazCNDmYQDSXa+AIX1+3i2TG9LPeeoGDromFDi909TuMXsEPh/SzMJL12IwcHFTLbPfGloOod2gZTgfyFbQeUe8HpqWa3U7r3VaUA8nTNOMpuXqpCtpvcaGCrHzrRGvYWZgxkEWxBioXxpmWgrZ4WZvqD2S8+XlZoYg7LaGwXg71iKYcgNlt3WmgKi67Ux1W0SadvShQD0ISg0tF5965gVqRaGTQJzgxWRmA9LNUacEeUroWPi8AOUgqEu1MdShVSkjWN0GbZW0mVSq5atUsxxVfMpbocBkM9nHI1AW7fBgDRMEev6IM+4BSjbtsQ7ADHzf7w3YLM/ZLUoZQ3gy+GO5BI7i3k1jlzHN3GKslvqJlXOXj5uaukvobUM6QDvIFpZ5kKb2pXQFnZ/hyMGtym7r4QcsiydFdntYu+ziHdrmh48eN40YMdsGpUZqu6EeoXAfzlbYZ867JJ4JI0hXGfJ2jnjdwoFMuopTU4O2a3VSFWkqAE60XtB6zZU6tImWGHZbhMwKkJZrI19D01XJHxOu/uNnwnQU3edsd+YEPJEiQVa6dpzEMYpFt60t5Psl/VXHcO0/ADWiNbFKOOdR6HrovZgMU+2eaXq/gfhaj1bETSDQMxlu4ihFVbENw9RNCCnatg5Eam2BoRF3gZ7jvnXsh9t478y3BbT304WhCa83PuDL0oBRLwm+tNX7UZSzrz1Zy1WRM9nlqb/Vp1yzvDJvHWBxTVrXYO432Qo/2jRN4Rh7C8cIkti2aKIiK41rNf8yseLa0/m8v58EzaRBrWjaqm4DLBbaJYYWq6s8NGUCttd+bSbOkoCl70VaiST5at+Z9mSr19FuZZjfi2c6e69RhPSt5yM0XgD5USr2CHOr2kV5iKI3HT68stGUBX9Q9Klkms+hs6dYl2DHtI9Qdk76MYmIwDRYiURjYq0j2OJ6w9802W8k5MYwt9w3f54mbLuLa3CKiC0ZLbaTrcS9MgFlauE80I/i3yqDyMs0+XJ76cuFNUF5t9i0ibpVDlGOB0CGcizDTzaOUwEOB6BMVg7Fy6fEe5F1OmU8L81tKutfvuu4FlPpm/r01QmYrxTL0QjTsMWqBydhJ23npXY/1mbt3Kdqdl6734xyOJGWa2i68vVsgwiYfdcyzU64LpgwY4KDE2WylXUcTDMhl7gFOHFwpunDqqpG/ouB3CoxOPGw6Dp6+zzHcB33pwIcitl+LcVNDUg7SrvOn38XUgRlKuleRn/dDyiToExmUL9M7XXHeaGqmVV0oqozIeMpRTBN7Vf8eDi03+R+DvE5cTNR2ifDx6lQlSut6k0Fq8/Ex4PrpmireRo+kQxXrOin0Z+/Ij6Ov3iNhZ7v4uNXfVNzOOaLzoEhrK3fpfBf6nNc3rdJww1hboUTZRlNDTc3Y/rH7mJLKZ+touzy8shP//RP40u+5Etw9+5dvO1tb8Ov//qvX/T/oQ99CG9605tw9+5dvPnNb8Yv/uIvdvd/4Rd+AV//9V+P173udRAR/NZv/dYqjHv37uFf/+t/jde97nV4zWteg2/6pm/CJz/5yZczW7s8gXI96/DRE5YbMeqISREdwGRY7HBcY9vhp4np7KeBPdl9xNAdnh4x5pguTn/pO5Xs3IDciDMa2Ox02K/2efcGUoN0dVMAbTVSI1J5gywUPgdUqtk6jQ20SsVSquO9gVyVOhCw/a/6BlxxbJqx0dFpdq7t1fXsWPYHaIxFaMe2X5PCm2oxKaSG8ZodWA8rgVpEIYDG9qw9jmQN19hgazRFUCG2Qak/X8/8mg1Z5DmE3fp0B3vTcXjsb3DrSjGKm7OJC+dbHaqs41NY0VVPcxRlf946aE4Lc58Dd5l3tvKXaVEmdul9biZy8BfHItlUdN9iq3TrNFAAlh8mPTnlfq0eghJp66EyfYrxXJu/dHBWTuiDibFzO4+0DACM0x6X7o9xaX6PBHpDmUsojt4N6SYS44U19i4im9hO4OOZCI+PnBWqxxk21ueMP6OZHYfx535ThBNFEe7lvP9J1kNrxrPcnE/Dc1vjCz2dsMvLI68WPFseaei7nJU///RpaM0GYpBb4WjBLg2pEyRugM8toHvO7SJDMKa1kbCb6d5M5/mfUHpapzHkYWK26QyoPvcrW25BFEfrfykMOX+cJgf+PiiYKK08ePBzGd3zvRHrNhXgMOW5TpP/bNChHk+dBPNRsVwFMaqp9WrHcUMs/x2q//rzxcnWxe27tmdN61UO1zANVyZcWduVjj7DO2HxzbQWsmM5wnAXR3M160zU/QAQdi0URpK2AtRJcpnEEj1lELbSk7BVkNomZvfMN20QQH270iBHrY7G0XrhOFr9ASEKtB6awFEDS4Igb4VQhohgOhRMBydsHRgVcQK1wEjaIl51HARd+Jw3yc4EHkTCToLDZFxzkKxTMXtKk9gxeWj04CRJOZi/DmAJudG9lVs8S0DnYjN04TcCrkhztEQd+Bte1Xge+eR7E6W1S9sD/i42k4NzOXP+IL+t58b8rkjWlxjupj8BliXWnT09EhsRPMzvQeXnf/7n8d73vhfvf//78Zu/+Zt4y1vegne+8534kz/5k03/v/Zrv4Zv+ZZvwXd+53fi4x//ON71rnfhXe96F37nd34n/bzwwgv42q/9Wvzoj/7o2Xi/53u+B//pP/0nfOhDH8Kv/uqv4o/+6I/wT/7JP3nwDOzyVMmf/2WoPwWeYVxGv2nDbfwBA2Ya8NHm5Hi5/OsUGIZ7iSulC1snGeIi3JfXw3OBF3MD3chTM4sUE+V6gK9Mwhnb+/DNUO05LdLOJ3T+DPOweSkM5Op4PWqzGrFrP1+pBNskNbVdVbtNlwBu32ljpvxJXqe2axJUTXtWnIVjWrRso8MWXgQFpCkpRGjJnYlzYAJoT7ZaTGUj1UzQglO4IlqTbpZGZgK+h0CG1aW4z8B4jPik45WbEgFjBCrJUbZI2Sj6c2V6UVrR9M4b9WB1TdqK2qxKrMOhtOmZYwZ8Jn2rYWhImCzbKixxK61s/4r0PcZEyHi/S5Z0hS8RdmQu0zgQwNxMhB8AHXGadcXHDFOQnrDxQRzPNLvNrZGvHhwknhuaNBHpsd3YHAphRI6L73H8GLIthDnLetyQ2JvCHY9xjngW/RgiiNjDVrrGVyDrH+eB9Z7C/c9+++MblerJl1ca076a8KyobjZFu7h85jOfwed//ufj05/+NF772te+bOH+6q9/Gv/n//GPyUW6Q7t+Sd3ktuQ6gwDI53qw85drB+3v3ZTeG/NDHSD3DIW+YiLfuvISSt+5c0WSd1oEq3Ln9HFSs0e8EG+4KaiX4dadwFnX6wXIIr8JWX22WLy17zZ7MLMCegBiI4Q0KZBHAttp/4tA+ADyK5samBYsxwX1YOYFlsMMXN1DmZx0nWaUcoL4tbmf6N7s9+7j2avP4K5c465c4won3JFTO8oJd3DClVz37rjGa+QejrXiqIpjVRy14uDHO3PFsQJTBQ6LmRSwn2BamvvVNVBmoCyKsgDwoywKWcydj1KBMivKSSGzArMCc4UuCp0rEMdZoUvtzjHbPV0Uelqgi5od2qrmVtfXuqiZAVi0/dzfsii0mimE6vuW1GrnVeOeudm95ncZTA3ocKSJfT9qZ8FkfAZAS4MCS43N/mI5FIVNn0KnFEBHbPjlJUX8/AqIj2Heshcjs2Drext+b3Ovbvm5bXpuuk9552bjYeQG6zQvLcyNsM/Jd/2//wif94bnXp6IXR5VP33beP/v//P/Dq957fSSw/mrzyz43//Njz9Q+t/2trfh7//9v4+f+qmfAgDUWvHGN74R/+bf/Bt83/d938r/N3/zN+OFF17Af/7P/zndvvqrvxpvfetb8YEPfKDz+/u///v4m3/zb+LjH/843vrWt6b7pz/9afy1v/bX8MEPfhD/9J/+UwDAJz7xCXzZl30ZPvrRj+Krv/qrHzTru7yC8ii/k2/9oefxyT+jSZUOS3Wj/P7BFZbaOM/DBv6Mta1JTowY7hwmHOPhNLlWY5LE5LfDb3AbosCI39IfmUEyTV04aXrGjEChcwmyrZGzK/uvBT4p3jRf2ZZrw3zVNVttc9RmcmAh0wO86mlp19M15ODka/fT5laaOwY/tvlqBYpRn6UsOJQTDrJgEl8JJRUTbAPWAyqKm6ay+7FHAF+35+L+ATMOUnHAggkLDmKT/XF9xIIgdQsURRUTFIXdSP91dLNnKopWTFEVFObfsUvx953ug59J23OrI5GP7I4uLqv2Jfzyc7oVnqR7UbMZKipnn4Gb8EqCvQtPevfuXPrwOj/2HGpP3LMfO+pwjUZyVpgt01z+r23npgx77cb+ZfOe358rsFQnhw1bx+YGSmGo+9d4lvyu/KlCT47z8wcPw68V3X1UoHo6bMhu6VWPMycVPB82HvCxQtwLfKz9M82tuW+5xViCspgoX8M/HUF+xjEDX1f6xT1vIoH2qjex9zk/CjJRBg8P6ALortHSzOGtL9bjBR29KvC3/o//HP/gf/y/4uWUx4VnOe5XGtO+mvDsbuP1MUmJdcSrkSqhwPIyjYozaPHWG0bgbXu6cLmJUIGLRO5GGi57sN5WtSMZt8nW8XoA3t15HLUtUdvK1jnidRXOmSNg2gggTcZM+vnz7CzaVCcRVH42TTkg0El9iVrkaSBc8xxn78GXlaV91/CbxGtvYkCP15hu0nCVSuf2K2VG2gtS6fLWH11zVaKzEywAjuJlELaFiJyPTpGfyWuxsOYCHEvr+KX6AEbJHisdRVt58PSpqJ9XtKlVFdeY8UDjqBVymFDrglIcaBRLrF2LIWdVoDhgLAhTslGNAMD24K2CUoxQleIG91XSmHyB542uO1BE1wmy/NOVjXvdZ+1+1dOuPoAoJTRLpL1DAlHsxtU4b8sAEtHiOdfsiKczPrctQMQyNq/xXOD2CDqyzOnmOGJAEcHxvYAmEeaY5otyLuEUz4MGeZO8XGFy0rlZW73nIe6nUVK7/iGefxC5vr7Gxz72Mbzvfe9Lt1IK3vGOd+CjH/3o5jMf/ehH8d73vrdze+c734kPf/jDt473Yx/7GE6nE97xjnek25ve9Cb89b/+13fi9VUud+8efLOXQS6RrkDa8dvGcn6eh43zWgknjn7Qx7l1n+Py+1qVllygv38T0brhln3bAc2uvgRO6c87MvasP4OwKk66HnQwKzCQr2nrtXYkq50P+DHu0XOGzfoVEP72GhetG1nPX5ByhneatquFEfRJC1uHd7g+qoOXxB0AFhEzYyWEBT3kkqG6u2ojbTox8FPyee3Cis26MpkBkBycqBiuNHwjmU+GVRvR9Z8GeeZNoBQN51U4+ep+E89EB0/gpg+bwB0nRvmkvQWhRFtJbHTiHNfoHBtSqdWDnKa/gH0GCHpZBIjJjdGNQ8wc5b0eqEpMtADWphSv94jyV2j1sVoxEjcmXcS/28hfj6tHpEQfCgOmbDuU2jLtnxkLCNYOiJrGakfMUrCj2+je3NrmvlEMselXCfw7vhzG5MM9HZLPlIYAvdWQM8eNYNf1w7+TgFHddzaW25b7Gckyirh4DAAr+6vXvObmgJ5AeSUx7asNz+7E6+OUAItbakLcub+scU6tddr2cOHyQnpuO6Le8rdFPgv69RKr54WSE+eSl+2cEAHEW372Nz43hsle5PyR4xJxDYPShztqTvjNANqSGrHSPxPIqQhqEbPTOoLl1IgYgfZl7de11muv8apBvB5OrtFKRGtsolVCy4E31nLtBlkAWUCZ9NcR54LYiKrVgnAznQPfq9IBDEFnLkMkvuveqSp8WZ+RlyJqhLi2TR74dWSQgSQEDYApbCfRyXp5DUvufKx2lBJx++srDj7zWrNKohXF8G2KazdYrqqTr1YckgOPKE7OQJhR6AAIhzwAilauSPJTyU+EE4b1lf2pAb4YYnRYciP+0Y1JzABqcT6CLEgPfm6Sc83rBM77WUzbAbutcQr7izDHnVbH8Fn03I3R34UwXqrctgxvG0AHdHVoth82rleJfOYzn+mu79y5gzt37qz8fepTn8KyLHjDG97Qub/hDW/AJz7xic2wn3/++U3/zz///K3T9/zzz+Pq6gpf8AVf8FDh7PIUisBMKAEIVaZsH1c47lwYW1hvOB+vD5PH4a3kRaJ1A/ttnGsYGww3wRq/bU2kj2n2Z3OJOuGrteYqk650fkYDNs0i0Saq6H7ori/Zd+Vfy6+n0QndkuqH9hsX43Nc6wX5hMyUi04T9pQ+YgACCZyYwEJuOBYs4lqpIk64Os6ENAJWI+auomR6Ww7689inlbFK8K7wTZqCBEpCNEN3w1vax5axUn+6wh+Sn1QrwyHZWSXPdOyycaVZ7mNitsPgW+3bhr2nMc0Zvnb+rfwcL3qVaUcnrbcizeo0gNcAozjvJlGA/Gy4ubpkEqTFicfYsBYt6HTJJCrdQwOtjIGlwEx1oBvWq78syXajPTsO/9UrVG5x7S9fvbJJ8fL0BQelMDZv4TSyVVNhYnSPiGP4jcUCCK1SSNM56Yp0+B5048hNUtSCKDYu1tU1XWz5yYmJc3WfXnkr1G2/q2eFML20758WPexyQW6DaV9teHYnXh+bEEAc1bfY7RFE+0CeVv7PBPAw2q5bQHnEROcIV1y4J6Mf10L1e8qt+U1aEdKe2w7bLjXGHfTIWcA+EK1s2L65AUbyAeq2WINgrQOgjk0cNgnW7og18Sqay9/gBKxpui6o0wkyXff2XDc20yp5fTIt12LmBqZpthnhxEXjVgtua0tjswIGyhMUs+Wv6/wacGxIBv6cd/a1+VFxorQGRveNu8TnqB0EqZe7CBoAi3GFGyOSKk0Ttg5H1oLVilIKaqCS4gDBydcgYSkjKzANAOVQbBkUiHyFac2a5qtpdIjP+psmrGJCm73OMokjgyQYsGMt2EQXaKAsEJUggJQmvlV1LaEYYhDwDLmNG3+GAfTiFVCSbi0MkDIOujcUf//g8FDmTukc/bnPj7SB2Q0iD+Dv5ZaXUp63DvdSF/IUSmzo9zDPA8Ab3/jGzv39738/fuiHfuilB7zLLq+UMLnq52nJrDMVNT7GjcXq5s3XHR4cOlIZ/HZp2Bg5E5TMH8fDo22Jdm68J3TfMYE4ZdNptK7J1Ru1XWMlDk+0h13WFYl6eTOt7ofxuYoadpdEkZtoDcSuYalgUno/sbVV62mVqkhFKBUH7qgaeEAbZzbikQ6LsDtfS24gFXgzFhKl/VdyX1eCgoLqfgrUz6v6RLjjT3XGsPX/fH4eI3RwlU44BQl1oxzofHxW2EGB1EodO/fx2cB/ekaLdXBraRj8EpDaynNotPev0V4kf255vA0w2fAz5os9KxeythPpEpWVKzh81xnxcYJyfW9KBpz41N7n9kM0VT2VWXf/FuKb386zp5Pqwcqzx5lNbOD7jfLaXE02+M/0OwCfJnuieF2p5D9Swt9ap+GrrViDfAUcI3Max/xzJSK37lOn65XyxhgEdQVNM7yPgjjnlWQ7pS3eMalPm+yY9tHJTrw+NhGslvt3LcMj+JxvHaRsnl4M5GGI1y5oGY50MzssGdykb0k33fgo3ulJA3LYKPMt7YWNOKzjlNbR+q0kUi9oSqhc9hOEoBkedQDsYFvYZisTq2iaFEHIbpOwvTtY27X4hlvTApmujVR17VU2IwB3L+L2XWXGVNje15K2scKgPBOrCa6zUPkHQAPgxjtC2jbqlqhrdProelqlX25qRVodndZrHgd0wkkqMCvtCkgR6ASINi1YjMdDpIeqDQYgDtBSsuYqlM6CAixOvqqYFoHnM+uvE8JaDeidnf1FA0HxRoA1QFL3Z0FrN5OdOJb9lhho95qvW3nWM26c5OJxq7YZ50j7VjijrMo43CntXbhD+eT5CORknadzixZafbwgj6CpPycr4vvlCncjLB4oPu2yiP0e5nkA+MM//MPOHtaWtisAvP71r8c0TavdVz/5yU/iuee27ec+99xzD+T/XBjX19f4i7/4i05L4EHD2eXpE5FiKzlYXPVKV9hq9XB/HN0v3FutGpDheCmcS+ebuIzjXbt1k+qOF6ybZu1WbdyPY7QkXwizgfxD4FqyFFZc04qnymYGeGIeNxCvpZkgqL5aKdexD5CsXRum49/Y4YrjqfYz261SxE30+Oa8OSstsHGRdn37qEPbJ6hLlD9jG2hNNJEf/qy+jMijnTcsqV2c8Wqbm2NMNbv6k19YaJJ56M8bhsr+MXDOOaBEkXZV3S8u9ek6nIyl1i48oi7ugWUa+/Pxu9uAzVuS7j4xMxTDWY3dKOtV+s+BLB43jEhR1OzFjuHQsSNfPXOd5qSO8TTM22XU/YoB+e5ddKmOOEUgriEbidEcn2o2RyykaLsqiRGHBTbn4oiLeN1a23WG7xHbVMT/n71/j7VtOeqD0V+NebCNCbbjYHxs5AsmoBgEjsEIywjxuFifCUgXchHiFTCOP0iQQgCjEEDGPCMTEgIhDyH0KSFIIFCixJdIkRXHyY2ugq8dSMhDAn8EwTUXfAyRLz7BCebsNer+0V1Vv6ruMeaca+199tlrz14aa/Sjurv6Mbp/s0aN6pRta1JN+eHIrEBz/n0tE4Kfr10eruFMWDzt31vonkxM+7Dh2RtYcLi4GzkHdXx126Nbx5Pf5Jodbb55EW84pewT+D1GYyfNHkvnk2c9bqucsbym+Zjv7ej2OC1XFyq/HoNIJ+jqIu2TtMMSn+oLXQtyfKUxDckK8k3oukgT4Nkps/2kWTthFh0g65JPpNVHFPohK/RpV9CnXeHqQ+7g6ml32kFZH3LVBar9gAW/mr3XdVnpuoIe/gjLITRcF9JyXbpma7tWLNI+R4uzY/u5sf3wgzi0oINb7SYF0h3dcD08fi2/rBba+tJpsx00rOTnaxXpb+HM6lbk9bnRL4DGrD8GPK7tWHs6XXRZmt/v7ZJDC4uQzV8PL5A+f+WwBO0iWPqdr+WwtGkqaOE6LZfJfXLxMtMOiZ7XJweLD5p2eqpEnhJelmV/2Tm2VKBcPf7Aj/4JS5ItsfXxxWzZPePaWg6HE1zLuBxd+mq7J5f9sLnudaztNym89j2fLjsb49vm2oniN7sA4FnPela6tgSvT3va0/Dyl78cb3vb24KHdcXb3vY2vPKVr5zmeeUrX5noAeCtb33rJv3MvfzlL8eHfMiHpHLe9a534d3vfvdZ5VzcLXQV7xmmOhwg11lseeGsi6gvMOgLPXzBaTiL7zM/ij+utcYJcp4ejuO+pdwjPb/QVoQ9/aZHuZLwM/kRwlKPR49nYeqBtFoNBxIWXEWx2gFZ5cCtfMEFtmE4lO7ml4qqBpQ1j+/KA4L+ybWCxJpdtKp8hwtlYv9yS7EkgclhofgmfI1kFUal9kVVe5F9pdIP/WEDCrFTMacmXDWZngniVhBGhBIG1cTuIASayQxTG/MeHgTh3dpX894vHilSiKiVWfA5MufmKCapg1BqwlMSnokkumtjA25brV04odendcJMmJD+UmCR1HfOs3euUEdL6XS6V79EeYaLt7BV9gdPfi1Lvgv9jpBKG+sox3k8pC+5nI+XX/HldwsHV+xXf0q3q5a7f/EQWnjvJzp348J+wXTr2Oj+9FtkWbq4oNRzG92TiWkfNjx70Xi9n853P350+xuu+mZvyHtaFent1nnMbdQ1KexYBcfqT6tqKbPm5T5LG2qJG8oQCu/fReCAKqqLehXoBy+0Tds/N+NXvrNNlsLjSbg53ISyBlrXnkfjsAMJkNfyB4hmgKwEwrFoaET0+1pP1oX9OFDoI3ewHLqW63IHIneApdl5XWTtQlbWXzWtBtssTeiqcaUTadcJVJfhaufHXjUe7Q1578ME3f1tJH0CX/vpMFQ4/LbwN7g09yy/TVUXvjaJLppdV2lMLAKsze6SGeM3zRehHwraJ5n9nKg/V7JrTC1m8/aqbWwCJFMDC5o5AlnMBEFMTfbWOqSzPthmchF1oa/laC/DxlDbB2/2SLK91rS0aPx2Avzp8haD0pnnmR1VdmzEX8lT28FvHvUa/lmbZnVZ/24567tj7nprefB0t1zdn1Kflq1DmOa2otT74F7/+tfjNa95DT7t0z4Nn/7pn44f/dEfxQc+8AG89rWvBQB8zdd8DT7qoz4Kb3rTmwAA3/RN34TP/uzPxg//8A/jC7/wC/GzP/uz+MVf/EX8xE/8hJf5vve9D+9+97vxO7/zOwAaCAWaZsCjjz6KZz/72Xjd616H17/+9Xjuc5+LZz3rWfjGb/xGvPKVr7wcrPWQuxXoAlJgeNClH2SZMF54VUjMJoWglkeLyrw8W3krHgxepnm4rIXipliOcBuFDZe0/d5w2vy+pclq0gC2txpf7LB5gi6eJQ3XwV6r40XDfJPDtWSFylV/oa+TayueJILpKumdb9OIFbUhoE3vhH2hkWjq/mbSIMJacqzSUOYi4uY8BcBVL80O0BLpeMUlqbXm2O3JcrFv7Nob5ge1OpX5N7RfJ81nzJAI65260JQuUx5M/Igmep06oK6Y8oaJ2V/uwyPY05RotprRqm99luL3sEoCXZWwx6XKiK4zZeMFlWBwKIbm9xLtEslFgouo2q9OEp/gS09Qid8M3hxBEjQCdhhZE84qqZpq/ykgFBZtNPwb1pvkhBQ7idP+G44/yRcVN5Mgiq40o+2sbsm/GXi5Vbpq97K95L0pnoaE02YglOu257Hk33LLRryqQgrwjt868HG9uJu5hwnPXgSv98n9j/+5YjA1QC4tfFOC43W0jfgEQvhWNK9ANuI96kgde8mxw8Qqn/JIzi9cn0zoan6i57zH7gtZPfLvLOwgrLAPauU6lOpR2fwA8VZ5mISr0FUL4nHTAAaoXSCLSRyFC5APrY0ugDWhrAL6yBWWR/7IbbcuHTibxqrrDkj7fKxdlt40G4yW7wuHRXHweTdOEtvEV+t3tbrF033zs41f/Iv7tOkr/EwqiITMtOCnvqHb+MFBl2j0m083A2R2jO5C96V38LJCHlmgd7oeRQc4/mwbHswQaegLy9SqNOFrq0vtmFvrJz/kC/2AgH4ZGEtAScd477P+iahSfJ8fDdRJlKHxmIQ2M60qBfUcA0FMmIB7z8jAjbpxCHtdjPQ5zcDimc752Vqjt+oaj1A+2d1E6Hr0RR7OGJNaNubLLWp8T1yvrq5Ry1Pb3a3Pss5xX/ZlX4bf+73fwxvf+EY89thjeNnLXoa3vOUtfuDAu9/9bixkW/MzPuMz8DM/8zN4wxvegO/8zu/Ex3/8x+PNb34zPumTPslpfv7nf96BLgB8+Zd/OYBsl+tHfuRHsCwLvuRLvgQf/OAH8epXvxp//+///Wu0+uJuk3vfByS/damuCl83F4253zEV5fV9c6iWsOEp9XDY6zF8hoThlONAacLmBbTjBROUWrs5XF56kyA24jWwWgnH3TRWQS/VLd7oCQO6BMkEtmuofJ3tKsoiMYvhUfTDVh0NGICIMapDZXSGu9p9OwwLIwwLCIp5JMSL+pZFO4YhoRMI440tSnGMK6yIXk3Dm6o4ELZiHGPOeB3MDNgQeaFwHIYSZ/EJT5aNvMoWt3CT9VFIAkd6QW6H0s8T1RBgCWV04e1QX+CCmB+l3ZtuJHBNVgfynUEo/Pt4BrwD+h9aF8/3Ym2kuD4J3OyIZbU5ZzRcTvUvAiEw678taV6mucbNF2pDv9nBWuDcHbeLl2Y8RvtTDxiWB0I+bV0qVM5Ck29rvEq32lxchPpylqU+LGXScbahbwTtNwg2hK8nrnWqimVjT7PYD/yfv3JaYQ+Ye7Ix7cOEZ0X1Oj87Hx73+OOP49nPfjbe//73JzsVN3X/r//4v/AD/+B9G7/6CQhoFYg2tydQzct1zbida5RNFFS0WeY1n057iHi1HHfkOQ9DHpnQm5/uVcBa0zfuvlgLElBLm2UPN1pF+36k1o9R25XTBk1XAstd+yC0VeGHK2jVZl2yMNX9Pc9KdDNaOTyBw3IHyyNPpEO0lq7x6v5DCZtGrNEf/ghPX57Ah+COX0+TOylscY/gDp6GJ/B0PIGnLf0uT+Bp8kf4MPwhnrYqnr5e4WlXwGEFDnZfpd/b9Qj56/VIz7c8ASxXim6mFnKlWO7Q/Y42tcqrdkm/YyU/h+/YtUKv1ua/WqF3FPrEFdY7Cl0VetXua7/rihTv4RTXLhS6q6sV61Vjc10bsFrXBvh1bSZh11UDe/a7C1ENjJewGrjk9B6nVEYSyCoLZKkeFr4yH/Q0cxxvR1rSZ3ErRzLNJI8F6oo75WmSd/DP6p3wfCxti+5uuXN3+FPop/1SMPR83wL+3P/5O3jm8++u/aR7tU+fWu//4z2fgg971uHa5Xzg8St80Qv+45PO/8U9XO5ePif/+4/8Af6/v7fxZol/JE+S24/5Ga6L9ISXPL6UlurhX+MVR07CjuVMqFJwGuPMyct0Ny/QJWZJ6Ip+l7gnjdhFgr4IU7GQXxCC1QNpui4TP9t7NWxHGq/rcoUwVbX2F/UmiC13WRvO85fs4wUOL/ZC/gqHnq/Z+V+7v7+olyscZMUBzfZru8/CV+lLqYPsha8i3stpZdm19GNbzfxVDR8oPqeteMRegCsdDatwQW8Kd7qm35Dz0Zlo6NMifg5wXElfttKU8qqkPO2jORmUkf1nBdEjlSmZ1uJXGerHmnmwskF11rgxTUt6Ca/qd9h9bXStfh3ioOpY3cGpp8/iEADW/ej4u98NjzsPGmdPeFqrV6+6v2N7mKao+1sYSvj+SgM/r4THTcnB6Cdx9lvAcTqIZri0pyOVxXHxO0DzbwbrujXi+d7y5bRUl/HVZ72X25+BdC/xCaNSGmeMfJrpS/nO00hykvvor/zzePkP/x/XzD139wvPct0XTHvv3EXj9X66LghswlV+7OkNjadP8k5clHKO0LUl7stPdxKvI3idnnJ7ouB1EJ5uCGK5DL9XoWpNH8v3T8f8lSEJYg08U30KdM2PAtJPAu6MRuyHxYhc5tqsSiCd0onWBbmO+ma0YT8W2jVYJR+QYBquof3K1rMoXVZKbyA6NGJXNz0gDpINIHR7q/2XyCoLIHfyLEz9F0OuO5drvWJ02qeH3VM9pXyZhbumq6xL+zFjWqfdTmp6Ay5onxmVJ9a1MAbe7VOluB7BgisDj9Lattj8ZG0aqkV7O1XjPvaZaYKgv53uRP0VuPMpMTVZ+9VpBKPma2rraW6gVWfFNZcNZDm9lPwaga26Od78rMliRSpnQEnXMa1W5lrBGzzsuQ0FgWu7KQ9Hyue+BmgZPLJF3E2+L+7iLu6p5Q5m+M40wLYcL6bdCVBslIRfecOWsmaVNbiW69pZA67c8Jc9muvd+kLpfE1Xw1yxjypW2JdU1g6nQ+zbJsRdRfs+bXFRbrIBK/mKg7jiIB3bL/1jaG6z9+MamOfYRaYTls6/aa/16N512j5hNhARLYVLU0TBn2tYbzD1eI9fU2YGTDv2V2XjWN76IRyHa4mXF+av4rN4njY2JdCxFWMH/g1XsUTV3BueHJ6XFTdQ5bNpy50jk3zp2aAxivomD2spTDsg8Mei1Fcfo9k9s2HGGQAp/S2zT5S4LRZhaprcYZ53ivTKHZQ/8kl/fv13gtrzbphU02+DcQ0hDGf+zq+ztgCi0u1ptTQ2VtGwFvVK59Oe50UEV6QRyt2Vl+VIUB8zKd3DAFg8Sum51kVC+NrbpBLPYv3lkrr9FEdT0JaE9MxQF3OrbG5rN6Wxr1AwkbEcAdvWJYdHLmK0izvPXWbMU8CJfcYOxKcSQ/qOKYDuYlHbWCy215AoQ7bItso8odDqDGDzru/FyIZ/VpdEGUMeyXmucdfOK392HsDUgDMjFWoHf2/jm2+nLUJXnQpd26dZ1WZro4/DtLSbCpgLVS0/Om0uz80ROC283GXpgtOlmwXQfCxBmBQo5geS7demfeBCVhbAQklwqyls+R1TwGyYrv6ZSvsyR/yLHDctIOVCXMkd2oYs/Y1y+lEBxJib3aQaNkzU4+wNr/QXhKICXRaIrsDhAL26ssN6A0BeZa4MqDC3/nukoo9+Wx4BcKflk7VpQWNt9l8Xyslvqq09SfhqiKYDwRDKavSrlWF+jT63PlFKs3rWDiIV8XKHqtvUkjR+eU1SunscAcwAkNSLCgelHqb0GZZnhlJd3S9En4Af01N/Vf73hK/H3DlL7jFBrWC77TtdMsZtWM3Zeslx29yVCK5uIFm+Sd6Lu7inhLPTRiAJEg3riC2+QmFgxGBAwl5DGTN/CktalzPWnOPOwUQUIhxfKuW0bU1X2i8l7rO41lbTeGUNV8N4iLIN87mGatF4JWyXD+5qtlwtnyEje7nf+GLEFFccRTVPh+E3x3TtHAAYlhOgHlnV7t1+JeBCLBbS8hC1LmBTAhbWnXCrYyE+eN+tc1OLTwqlhX0fr/4+uGGZszXGx13VlWm05AfgglvUO7tZmuGO6abdQIDOhHEiPU/0jbXA64J2HBEgKrWuTAXHfnQHx+00UaiBs/Hfc2qAchgzckf7d49BtS6DaegrA6jelzoMWHFUZytDUwe03w49YtWMXa1+LmxRyEqqWx37T7U8J3iwxYVdV24zy69TXxS/HPpBduus/0oDSmdsdff0Xt5McHtoGIawAknRBMA49KlPuv3dearzbeXcRnfBtPfOXQSv98m1/TlPTOlxbTMbd9u53hiVNylzg3yXZC583ch8zsPFgLXm3QHDiUgw5kl5pdBS/J6Wa7nbwU329j7GK1ZzA9pAgGennQpe52ED220HI/MCrOHKBxxgpuXKQlU48E4CWRfKIgt0iwDWNV4NnPc6RbvgVIpGK19gDdirwaZrhEMYu5jA1j7vEu2fdtk7XcGqsUGb0JUFrGsf3rDtKrHZFhoRdCsQfTt3FYymqWMAncdWShgSACyNqdl5PaB/FtWB0SFsZwkAWfsPKK/A8hOkUgkaIOYeq3PChK+KKwiWVd22qwuEkfESm7byeKFPggq983NCnGho7Vh7DwKsSzfOH70OBvpTDFxcWxcn6xMBLPsyzHgzj9epJVwc88CAL/G4lXlcsitmz+X39h+B6VMeT3FT7ZkzCvS2HskzI3lYBK7m1r6+3CT/xV3cg+y04yZ3jPe2vvWc4jnx8uqvW0UOYxYuaZokeRVzgtIM5yEWsCluE6dh0wBWV9J0FThOPGp6QAybGT7DaO/V0g/q5YWAtfiTALZ/wWQYr999eDofd+dq2LBhRu3dZais1SO8IULja5003mUjlyPhYSeiOrnYpPk6isnUKQnHeFqdeEqAinb3gmsAJKHjwG2N1I24I2k+f0H2byd0Qv+Dhy1E1DOWjlIYXNUUJwiMVnGdYQqZ0Kb8psVZyuBHdgSNPZCAFWlx66QTauH+GddGGgPQRYEr+JLlQsF+eXG+ZmguR5CFgQLHz4D0l9mdgTXmmQl9OaObXClzDADmP9FpzDSErsaqFlYdM3vzG5GPs9qxFoJ1BuonPAjC7G7lbNr982JOcj4luNsQvKeXfWiH8c04a78Or8vFg+UumPbeuYvg9X65nW8vDRzwCrFDSfvOkZl+4oMg/u+EzCcKXl2TIBUlpdgSPiqYtTyykUdylBSaPS3XpeYB0WjKl4E90ReNiammq23gaIB1FLpO4tA0Czg+h9E/RQkwLJZmqI2BMkr8cgVZzFZXt+vVtSRMo6BtQk3Aih7XbHbRQVuibmtrAZkX8PB44JZgbdq1wvRXWFRxB9IO45LQyEzcawhlZ4drDVf/RKaVp65Z7gJLwajxatNNIk5obNvM0AaaDtLKWQSyNO3aBozYsEiFSeQ2omfxyyOAPtE0XmUFZGlCWF3oMxvGpHYnNGWc2Fv85hfSJFXqd3GM6rZfDbD1zwe5joMA65o/l/LmGwscQd1j4MiBIHUCgzFtXR44tQIs8uz0+maX1+VjVj+2wrScc93nCl/vyUvkncpnygpJoKvjkvsw4q31htoB60U74OIeeLfz8JtpqSQRQF5MaPEIO6slG6+9SbJUaAsfTrmJL8m/EKZk3Fbi0oFXAKog1fZLp0lxWQhrOG6F0XNalGHt9j9ZESYFit/vzY6rsMmpjoLUtFhVAzPubAgzI0i1TIdKSl3nfk3+pQt9eD85Tcoy7ErFx+YIQtCr1gbCMdEqIQqllhjCbYJkx3j2X8hkQkd32jd2/kRcREOg2OtfBThwm3Nn5/44Kc00WHe6ajOtdLpyXP5xY2Oq0HQavD8ihHUw5C53naRRu2ZleMNZ6M0CvzqPFAG2EgCrNBMwVtP8bmlkeo7K1VQH9W2pI3Bt/x3CTAlI+aIrciiafVj6TWESTOkKDgsE61oX21aGa2X3KDuMy/no49r8Qt2jpVv7bwPRWMp7O1ZbScoQ2W8pY9sP2PK+yduCDxvgL3G8Nwh7nqz5SvVz16RnJmGxQlimD/fsbXMXTHvv3MYHgk899773vQ9f9VVfhWc961l4znOeg9e97nX4gz/4g908n/M5nwMRSddf/It/8UnieN+Nn8xMLuLb1fSYQgygSls9ne7mlw5x2KCdMp7LWmb8TfhdtvnZ5GGh+GWrrCXCO3ft9jjzp10IgG3aB0v310t2wjK5FjTUxdoIrnla4oTiDi1cbbNGOA5GsMMR7IAEMzmwpe2qoljkThe29kMTFjtcAU2giv7plmj/ulA9XjqobHGrd/EiXXmYwxKfp1mZXNaCFY/IHTyCKxy6doZKe8k8++iNEX8+6Xd+4WDzKcY6zbE6HzvjWuLSj0T77JD8OLRLFoEcxO2+WqfIAsih301Iu4jnM1pPm9DKIjh8iGARwbIIlgVYFsn9vUyas7QxPCzoeXqc+YXjc1mL7IRFUljQ64B0sxLj45vnRs6b4zQeW14SaPiM3+nyMlsqJ3GoNGWZA8a4Uy9eyf3ZuIuXAcRp2rAXnZc+6zefQ7XPJtfFXdzF3T5MO33Y60LMC0X1O17McYFxsbMQlQUaI512bNfuQlhNCNvVhV6GMlUE66HlXc0sAB1catqmdvipH3oqI43ldcxAL8z5K6ZsMqDjvYXNDFicEi/94KwlXsyfcknnQzyc88+6vW04cRZAEy62TUh6e0z46ek0TE2aBLA5q5ZmtJpoc97ZfixlOlgsUQvXxP/NabnP3F5aYS75xfuGvxAykwTD/dQ0EjhvsVAFmolu2pwaqbA3+YLAzcYD55jdT04TmdLPeSOhHAtgIeXe/ShpmKTJ8TQ7pyFwjY5ZDPcIGt53v3i/WVvT71xEXlmk4/k+r8UEp31GixAPlG+Dl8QvgiepedNdcpz9dulrs4knhH57TPH33mVs1jDyugNsl7EnCuHfNLv1+xDRXouQxQyymYu7uDPcA6Px+lVf9VV4z3veg7e+9a144okn8NrXvhZf//Vfj5/5mZ/Zzfd1X/d1+L7v+z4PP/OZz7zXrJ7orvnAigBKmysfUnWkurOqAUi77Ag/O065nbyRpQ2hxsk8ncugqPZWTEb6dJeSN9IUCIFrT2JBHu/Nobnb34kL4BqMwybHO0SEs01XMiHgWqk5DliTkBWFJpkREGAA0sW2q5iwtdO6tuyiTdi6kKkBCdutdsgW0N78i4PtNYN0Omgr23Utdl41H64lagduXWFBE7guFW6JgRXtpgOagG8wJSDovIjhnUFQu6KDhFXS4+h2cdNYZhb4M8gcjrJc+LqKgxOfsFB/wDwvmz9QqnexHwWtQtFerhOFO3SzA4Bg7QJKo0ogvVcPbX1oGq0Q+Ftua7tpeag9O0pxtlD0H03+Nll7OQLwiaqHQ2i+enuQedxyjSZ+IAk3X3ufe/9GWBFYXFJZ4WZ1D7R1zaGAguaP5dcS5nTNdYqNyVbjyR2z28q83FWnY7+Ze9ix55W06yb5L+7hcrcO04YUrocHT3hd+mAbEQKHzaDxtNzT0wyxJexYcSXvxZLjGcslTVdpnA9arD0dCDyR7kDQ8B1cDhBmoSIMs/Eq5C/YT5er/vKdMeN4meDP904fiWM7MWNWw4e2P7NgNIdzucYX8rhQ14/3mdCVhEcACX45HHXHx8KdfzI7kDk0nMIcswZg8DHXag3zSgLtWnwGAjg39YcGxpPaXac4w3uGJcy8U8EbVi9jnJyS2+z4RzmeeKxTrJRV70McTwVOM2BUHQNUCzDQc4DFd++UMW0aRxXN0np5chDoHVpbNObj9vAJ0XVtauEvwgzklfDS5+4aPKRh6WbGBOOn3kaXxzq+HhT0tUaNmuc2l9L7pU/XNn7iA+ismtmBrU5wxjfsvGr0YXlKNsP1qXIsTGxUrO2/hYx2xmaZm3vPy21xF0x779wDIXj9lV/5FbzlLW/Bv//3/x6f9mmfBgD4O3/n7+ALvuAL8Df/5t/EC1/4ws28z3zmM/Hoo48+Waye7hjMnZ3XNkICrOfUew7pHv0RglHo2j1p9y3g9xo0bcMACV/FefO3glNhbN+ICEwDBL57Vp36s3BKbeOG/YDIZTDYnwldG7gmm6obQlhNeVYH+knztdh2dXMG6cAt9TjTwGDBbAhaWQh7BUiYIVi6sHQUsHaTAXLlwtYDQsjq5gUkmxo4iGLBVWi49s4regq9O2NO9F7qv0MkPw8S45a0XcUz+A+9do++w6KxQ3daKGEiy89h6ncXRpuGK/ocFQWu+jiuArnKP4e8Quazxychv9dH8xr9c/s76jnCVEBUIl3LAiqDyQYi8x8egj0a+knT7T5ZnHRQ43TalJyS8FWi/MEl8EW9Y3iUusf5DAzowmW2/QpEmcecl6+TOAtL0CR+ytKn1p6NNNnshNHtbh1nbQgYOn+TDVvf7BF5YL6Xufeu2cO6PtK82MN6uNytxLSmur/lps+HBK7yPXLjxzotkFqKUseiBYdZdPf4p7yTF/Vqft5PWQ0KAj2g83uK6YByL/FMX4W2ALoWriZB70qHpM4P1LKvmxgDlhf5BS8mTIg53fRCw6PtCxTpB1jRl03IEIbjZncfSx+zGMsh7JQ6DduIBhocJ5R0NCV9Q97aNkMsVKpPDHevBqsW3aazdIHPaLc01SStEHuhTVN3e18fClTnOkHDBE4CY6YvuDtg46qyTnAIYWtfVBNEjpULLmKSyrpwPovrAuxZM1Jhjps1gB+vCVrShBo/xJU7MImj8g6A6BpVEqmtb6HYQfPJhK60Nim0mQxYS1i1HaJlD4uZSSu9IgvagcG9jGCdQDPiZUvC0gVQM7a1+Nbk1gYhGu39yz1vZgdmtly33Ph8lIlPvPic48mxFWaMK7FacH2T2gZFh2H+3VLsdsG09849ED+d3v72t+M5z3mOA1QAeNWrXoVlWfCOd7xjN+9P//RP4yM+4iPwSZ/0SfiO7/gO/M//+T/vNbunubN/HEtcRU9ehD5PliMXTqA5+drW6VehT8z4G98tcwAz/3K6X7xtS+JNZWmCVbvQNo0V/cCfRzqYZgR4ir9XYZ+rYbj6bmQ/RrpG7XpAPxhhdSHpAKb58zT7NC2F4YA5a6eSoHTp2qom0OX4kqfFX7VLrjxvmBjogtiFhLIEwHtvom3mSrxU+61hQmCRogkrKw64000K5BXbAF/6IVUuBzX+h93LOF4FWO2XgtXjc0V6GC48tPqrANfDNjf6HJThG32hTyx7/EGARwR4ZAEOzRxBmBOAmygwMwUzMwPNXAGZHXik3f2T/2Q2QD3NPh+yz4M8brHHtcf1OuLR63H8OHa+uE77FKmZQKAlwcsOG2/1YjMCbd5sPorDj7illHHoXZ6W0VovP7KVZmMJRM2/Vz6OpHHd82l+9MIOr9Plv/CFCU2atjZNDxt1nMjjbXN2AuxNrot7eNytxLRbiw4tavHy0z73X6CHlt6wWReXmTkAS1tsX16aKYKhbPMv46JVNimzre98SN7L04biG8yJQlcxbIZR+ErxKd8yKWdRrP3FugJYpX3h4xhGOs7p9C2vabmS8NWNMpn4w/BZCE8DEVFYNvxF0ClCVlKVBJ2mRegCs/aVFFwYqiWP+svStJfp/D46LaGpyGbg3+9d4kTccurQ+rEU57jfWiuakH+y78mEOx/fMIGQDirlamZNIia36GXDJ5u+oAoViA3XMw1a48zjCc6boxS2326VfVFSHJBYP6wv7TmvcSh+wTDOLU4n9Bp3xFzDIQ90/h1DfnsOCGv1JkaY7g6sbCI5Hl8C+0tg8fZJ/LD0xpAIXFYgncjxn/2Wtt8AVB8kmxqIz+4ncYi4RcS7pmH5fNn6YelgPiV+gyzSZuDMH+Hc3uqnn+PtN4G03wUHUU+3eP4Jv4epd5+JB9hdMO29cw+Exutjjz2Gj/zIj0xxjzzyCJ773Ofiscce28z3lV/5lfjoj/5ovPCFL8R//s//GX/1r/5VvOtd78I//af/dDPPBz/4QXzwgx/08OOPP37zBkycbSZHXaXh8CS7LBE5+0Jjc5XYYWV4w7PFm9NLWUG7R0BxO+lbNEPbaxkbdCkctnRYy9UBw8RvgGj0C2zbtU82WvspnXbVBtwNEBtYNtBXzQtMALJoyQ/452T9k7NkkmBmz1XgaSgmCFr8FUTsMiGtCWPXdLcDtNxOKx2+1a5mjTWZKij+Ra5w6FquC00BhnjZp5P4PFatX9RNDyzph9bkR9ZCcWaToNJ4uTT1JD8b4t/1S/TxTlnNtICE3X3Rtst7O9uYJP0Dbc/XoJ+hUaa5wyMAVLHyxNSc28EksdrC9Jldb45zIr0ci2N2OxB2tEppNSzavphKb82Jr2ib5sEmem679i4EqDzL2okP0Q1tzCTqqvXPlh2Or+tiTatlDmlCfOykVbe1bdRumuYl2r30VO6sHhqvlKcUcM4WdHEX97C4JwvTPll4Fuhfv5bFyfeLDazGXwoB2jWpiE6K34RKAy7m8iJNKc3jurAwSzy4PooXwL6IyhqpG0JXx2XlTvF7mq6jZuzaf/n3flqUXowbpluhcgWz5ap9pzaxkB2sOhywSnRHTQ50LNUuw6F02KqabVdA1ASyIZSNOGR/Sk8TYwPgsU9oashG2F7Ydu3WYUcmUNLBjzoDzEzUXDFK26tbOW5qQK1vDTsFNrHMw95YIlpfifdZo6EB2tlcQ7uxIEVrJoMmahmja4OxN9qx05jqfFg3sojxS1htgL1qRB5AAMwad6YLsDvGef/SXdHOM+kAydciw/a0ttlz5vqu4nqv7a5tLYwXGUgd54q33ZRZqKoy4K2A0Myuaf6Mv+NpFH/kKr03e4QGf+sH//pMBYuiHfhV1u7WZRvmBng1GrNO0kYC70PbPyZlmJB8MClQgDn/dnDSq6s5Uxd3cRvuvgpev/3bvx1//a//9V2aX/mVX7l2+V//9V/v/k/+5E/GC17wAnze530efv3Xfx1/8k/+yWmeN73pTfje7/3ea9d5qvuD/7Wzimw5Eqru5u1pVWCwTb9f7WbyhIcEiqeAW3KBR4WpJ9DPGOS3hAi/9ldejCfYtMBpZgbYbxtMkaBkKeKO0HUtYcVgggCa8vIhWpw3HbZFPxCGdIRWaBLKQiHLFZK2q5CgVFYIrih8BbfnamDa81zBDsti0wKh+briIFd4pJseAAhEgfoT25v+KVAqWms/M1qcmSaQPoSytMWQD8qSbkbAUIAIzQ+n6Z8AqbZPgzrI0kVCoNgrmeUPYWsfKrEfXcFHCFNb4+P04ZhwYmNJcQsAfUSBO9EPAFzQitQ3Gc/XayteahwBOgsnGSyFFXDTEAY4rTYHXyRNZJDoeIgBZM+YP1NrHq+/A0GbA9FbE6djcIt2L20ArjtpE+x6Vx2XfTLtJM2X+CP8DXlFsN5CoHrVVsYb5b+4B9891TDtk4VnAeAPPigJIyU3md5J6Mq/tiu9tL3b90PAF/HhRzRLZzZ4cPFGwZvKmNHrai/MjwpdYft2uZf4s/LD7msIf/1gLitvYsu1XFrxZcGJpmGbMWihp11eYYdoAWY6KUFxwzwo9yFdJ+ni/MLwK4gHwrRbYenhLHIMf0wjHdIMYNQPpofpRFn4hWd60aslQ8Eigyt5lONmb4gFEH5jXaa+vRCffda6pb3aur2Kp0eO9/DOtuMc5wMbx3O1BANKqR9Kp9Q+moGyKY3u0Gi595sJX7Vmozihgrbsue6E2UQBJEwTuBIHmmLEyn3TebD5yXZd00+HM4amkedMtYvSFDW7rwzah36K/vLnCkj+yuqYpgNRbdZsDosA68wuAo0vbRkAgD/63d+eZHjw3QXT3jt3tuD1Na95DV73utfhsz7rs25c+bd+67fia7/2a3dpPvZjPxaPPvoofvd3fzfF37lzB+973/vOsnX1ile8AgDw3/7bf9sUvH7Hd3wHXv/613v48ccfx4te9KKT6zjVffgzTY//RMdPvDvSEEi0R+L6ZjIsPDvsTDfaqXYDr0plhRrSu2eWfkoZTFM25GTHi7RcXbuxZ6uarezXjXgryvMu6PZtiM4+rYNAD4pmHzVA5FTI6oBTYULVAfzKmsBxAHUF/FM241XnWq9L0CYAvrBN186D+V3TtceTOYJmhmCFveUXaP9kI8wMhC3XtdlwxYoDjVeMnY3baHPrPKgm9N/ym27HpKzeb3YSr42/T8H+I0kEXVO1F6LdhqsNiSDCQuEFcKmfjw+izF6uIufl8RQOL7l93h71Xmzpq0C65u0iZO9V0OyxarHxamipl264rT0L6u30T7esD3peKw+dXjTyawdbYnZgla8J4lPEm2irnh6zQeiqBs5D0wSIPPyjiAWwCVtPlhuvP3dxlLWVZv3Z04e0nsBpiRbRvurqerynDUBFRx4tYYz1TEbEeWKi855LxXI4HCd7wNwqckN7WNfPe3E3c7cZ0z5ZeBYAPvzDgPf9r0nCZGpnTVfb44o5oZRXHU/5wlskSrRrddrJIke4c0inPbeFJ5qusqGpmrAY3b1t5V7iZ3EQScJb/5M1XVj8lSr8NWoVsmLjKun0nYvv6UCYltJuQip9lN8NeUrfdKVvxC5ctfI8HSW9d7eVY9jN8FQaOk3DOe4+8UrasID56xXllJ2uzy9NPdqAynQ/l4Itqh1XwhqSqpyJNEd2pmkCYDW+rOJCtyoWwsHC+W1MROjlqaS6c//M3ZT/kjajCe3OkiY53zAshulsEGEgFHBhaxG6KqVJFch6yWO+lDbcKc0nQLu3oe1arGlN6TyQ0FRJiJrKOxrOfQYgfpe0Tw/aYclri28GN60uYrv3SdLs7M+oFrAttv76oPGkFs9r5TSNXdDDYWyG8NValp5ZNMMoadm24eEqJPypeu/rPEUoOk3K+qXYsqBrjO8/iuae8cL/yxGKB9NdMO29c2cLXt///vfjVa96FT76oz8ar33ta/Ga17wGH/VRH3Wtyp/3vOfhec973lG6V77ylfj93/99/NIv/RJe/vKXAwD+9b/+11jX1YHnKe6Xf/mXAQAveMELNmme/vSn4+lPf/rJZV7b2Xc7J9OfGi+TeMnefiqKASTeRrbqGTbQQtwWOBnTOENaSQtPd5FeOI/AhdPnH6CFwDMTf5TTVnY1rwvXTOh6XFs1QPBawj2ugOkWzhq0Jmj1T8r6JaTRkK4FxdxAE6CKC1M1hKpHha+KZTHzAc3MgB2stcAO42pmBewQhtTJaWzHwLHNb3Qj3Kvv+BVtbqig29/tQIWFr/0xlfoWu4MS03D1ZlQB667pAinzpcW1H5Tpqex1xrwK+hJXtGOXRxTQK8+OTh7mANTDLpTtgHDt9C0+3qartrfCrYbQmI1a8zWN60Aqxav90DRASiNZhjMJGmtXbYSrBqnhWbOd5/yX/MNMGqfWSWl7IK6mcTjxZHE7wHGr/K2I1FzN8afsUKeA04u7uKequ82Y9knDs0DDOydCWq1qeGI/dEmZIOE/q6LrQU3T4AuRpgSNOF73vBgqgPbSLaHrTDN1Tzg7j4u8qSwro5TJ9v/b+QCk5Wp4rOK72UV4z+zARnh+B/Eq9bIvnRQhkGVTA54+idtMH8eKRzWGPY1yCbPGK5k8IP9Ybo0Lzdc0TzyNBKwy2YevuzHO8lQWGVgNmcSZYqxlPxOCOqNwRgI6xGcsXofmFKwwljKmqfFoWDU/wr1p0l8EWKN6ghGVtUE4zicXoVaXiuc0pTThNB90ps9p7TcYL0iNvyR0RWiqpg/tHdz1+4L4PAtoChqnHLzV6/RDr3iOkp8FmM3f501vn8d5l2v3S4yXoH/5J1GeRtlJabcvWXYWWXUq+Z2a/e6YwXteJ5yP0r5UNsa4PqM8xL9Xhnpo+J3+xD3v4i7O3NmHa735zW/Gb//2b+MbvuEb8HM/93P4mI/5GPyZP/Nn8E/+yT/BE088cS94xCd8wifg8z//8/F1X/d1eOc734l/9+/+Hf7SX/pL+PIv/3I//fW3f/u38ZKXvATvfOc7AQC//uu/ju///u/HL/3SL+E3f/M38fM///P4mq/5GnzWZ30WXvrSl94TPs9z/Qk+cjWhkCAdEOWXn+RDFxCqdiXO1eis/HbajRnpBtWDySUpHAccaD3UQNjfwzc8POu4Hzne2rL0T8XsAK1yGJYfjiXZ72k7fr8L+iEQUYYugvURtFNmy8FZ7eTZCEN6XKd1ME20Fk5CTxemxiFZAcoDVLNGbBbAmsYE2XKVfuyUXAGwcLf56uYFJuYGPKwQzbZeF+larpLteCn5En5MqpCzOG1vJGs4leiF9fJDk8OfK7EjJ9plzxkLNodD6xZOj7BMnpd0lQPxhueS4mSg6XHJOvw2nbBgFsByiBNuk6F92QmL8KPUDt5a4pCsw6EbpV8Eh0O77NAlO0TLDNdz2Mrig7oWomlG8jU/3tRNM4P3M+P3szhIWrZa3BJdKnTVA7pm4btFy2NTadO48ZSZTaczr5gzeQ4M2wfnATFVythIGq7b6K6w3Pi6uPvjLpj2LrlTHn5BfxlN4fT5/LFLfBGp8QrxQ7nQ8Vj7wqlsCn1zEVkyput4bl36JYDZilfpR1N1Qeha7jq5rx4m/NfjYGnJfAAJW91mf9A3DNfs7YsdrtolHKafKYR5YJI2via06W5limmuGn5i8wLIC74FbWh4P+D9wdOriQEd0xFNjqkiPG16DLMx2nidT0x4aUK58+4UcaVH4/07S19mEiR2lZVttk6Pm5UH0Fgb8iX++gBNTQ2I/zvJHWvytPi9NJon3K7UPBOCDqDF7uQHkCbWsA40EDX/bS1g0ONfeKWnhfw9rf16agbYIGi/rb1tMt5R+Z/crfF0zfrJ0xbxg3axdLuuEodRifsbDwsEfgAu8iFdHgfG3vkwK8PoVnb6KQ542VZG/J6IYWj+WF/sd8zs4t8ltMx7VyzlPlxaui3NJepDyWXOcDzpct06d8G0985dq2ee97zn4fWvfz3+03/6T3jHO96Bj/u4j8NXf/VX44UvfCG+5Vu+Bb/2a792t/nET//0T+MlL3kJPu/zPg9f8AVfgM/8zM/ET/zET3j6E088gXe9611+wuvTnvY0/Kt/9a/wv/1v/xte8pKX4Fu/9VvxJV/yJfjn//yf33XeruemS0K6lDaH7QvzuEHyAKSVry42CwthF9CR6vnio8mlg9wkaK1C15m/tuk6UgTsbJpNzV0PRTgqBqZbm9NnIGVV1Y346hdefQ8xZvqIZuFoF6KmgxGq9sIghF3BAlNdTLBqeXvcgYSqdHl9/dJad9GCdU1X+5ysmh0YNF9HTVjTlF3kyjVcD3ZibkesLiNl4ao7neDZEyDekd0vARUi5w1YO6GWXd1+nA3zuAjjq2B0uA79MsHphPasuMMROrG4BXJYkgC5AYutsEVTusTppcCMNjrZQVUv04S2tnyYwNboDib8ZGGsdTOou8vSVt+3BACkvCWc6GlYTTDM9PWq+P1a12SpW3bSN2X+PIdrHdbuPBW2cLoD0VMfp1qW12d9dOS6jW6Vm53+evks6/66C6a9S25rceiXuomjrUuinFl5YC1SpuvYqacpkISw2hdPF9BKCFdW5s9foBtGQsda8LD2w0ytLSm8hEB1yJ9evhfNUi977cLcFathvkWxylV7PUzap4GVovyQKoSgFShxMzrDhYYFmQakjYouFNUcBrrJAR+mYmLAgV93ye//wJH2lZd9AVbvoQappT/Mt9I+llOUcnEaJvTwlmQnQhPQ12/J/qCelbAbPBo3K57iFBqy94gEt1NmTd6o9ihfR5xOfP7cyZAyUCflCvP73DLKOpY1D91dbIqY13UOKEo/a7lnTrkso/PfCDKuE1OQVgHbpgSRlsu6HqLlM0wJvgv6i5ueb6H8C70ESfRUH2O5aZxs0EnEARD7XQAkfMhYX2A4X+PMkEn9A07fSBvybXdtCKmPXdd5GB4Ad8G0987d6HCt97znPXjrW9+Kt771rTgcDviCL/gC/Jf/8l/wiZ/4ifihH/ohfMu3fMvd4hPPfe5z8TM/8zOb6R/zMR/jdjkA4EUvehH+7b/9t3et/nvijk3Mczfio/Ey8c42f8nRdTe0TVIoMPiNttZZaUpdE5qtT8u8/K38C5XDm5L0LbfGneA/Rm+aDQn4stYpaSEoAdsU53VFnqT1gJofGA/aQghyi9arg4EkANZ+sJYJVNvdTA2EQJbjriBL135dulbsskLkThe8NrMDddCO+cburpoNeShgXTUtr4+LDTjjNUuzIUAToC59gkgHXWGzVducMiy30HBICztQMz+HV/JX18uoB2tFHDw+xS3RP8pA0RALwpSAdQyH7fHMn/O0T5f4saujyOExjX6ACdVVwz2zautjQdNAxlUbKtF+t3Ktj4D4OkyCh+Al2w9j7OxxSm1H1HUg/rid/FkWqD0M9aftLfXPwtVJ4SH1seTfGrUcXv60xlde7XfIZNmeOuqzY3S3FItuOjOqcpP8F3f/3QXT3sDVTbk4+6zew4VWZ2nTu2ZMWNLa9l0WtYVobN1D7JwQE87G3jqaA4Djs22abG6g2WGFYy6nWyblWHjJ5ea6JuFlxJnDvb/8TmLHamogiSOJloSuCwBROyi14y4xUwFAmA/o08FNCJj8SBsElSZMaWV1uNLzLT4uPnHGTd7vhDX8vm8HVjof43SVgZbj0pzqpsVgOMUpNbNoGKfTuuyPOPMaa9XH4vhx0nJH70MJjdeE9SjCcG5LCyCYhLITXHOum2KHUiaT1DFlXCMLmhZNFYAm4Eggkb91FxoUTkv3WVkDikRMAAOiVIahaemmAFDMDMBs/OZQ5pHCWtI16t80N9Un+dgswTrFyDzfeZy6WTRo6go3LQBNvyFUu41bxPxSp9dYqgXt61BVxI8mYl0M77LhkLGt1o8ztw9H91NFAF1LeCDazP5AuwumvXfubMHrE088gZ//+Z/HP/yH/xD/8l/+S7z0pS/FN3/zN+Mrv/Ir8axnPQsA8M/+2T/Dn//zf/6ugtRb52QEnjV9+kQPUUcLKVEb9HvxsyQhcCQpMrl0+Be1KQk9Z3Ux7hrojvuVwlU7Qjf8PiZ7aea38gutigIHBUzL0+I2hbAEfnu6mwFI4Q6Ua5wfzgWPi4MQIjw/rbb1lHY+lsU0XU3bNXgZtCUQ+fNb4CaUXUQ3p9TMjdB4Hjd1Ng7zfbeTSNAVWmPfzUeo2cXtmMoBAppWh8Axgsp2mtWlC7rt2LhEhASqcAGqIxWn4Xw6iev1czkK2GnDvPcJ0E4+tbCgH2rVy1bqFhGIaupSg4ZG1boxxkU9FOMn/q/RVpAvNElUu1z7ABf8ahQeLzcIyFl4CsQYbHIfUNoxx/S9m9J6ZF6NbtnkbRB2cz1awpLLHNogSH3JjukskOKIeS10XMbQpyc8z9wftxSPXtwtcxdMe3ecfW00TWPJjznaFzgMpp3iwRumkRDW1uS1Y88QaiLusDCZDTDsRPGeH8AgmGWMZm11/FTC3mMsauC4ghUNVzJNxWuED8POKyL/NI9C5QqLrDR0vNmSVquUcC9zHp7cu7FIQT+k1QSqfSoUyNOvLDz1sjov+SwB7sccF2XU/jb/CUDB3REgem7WvTiav0JxmT7EeowlAIzN3ErziOM7+kDFz58m1qf5OC3i6jhS2dI9BoaqINaFrRMGa9rRey/blCjszmkpTy97kQ7LO3hUbULjfugtNMpTBWSltnPDvT7jO3rMFRLQfm8km7Abw2Zdl4GlOvgUYtd+C4g2IakYOC35Q9atSU5s7CqVy7+toIL1qj+LjJ83+cy4HPR7QYY0pDT//bHVNWXuy9LPK9vozoti58Wd684WvL7gBS/Auq74iq/4Crzzne/Ey172soHmcz/3c/Gc5zznLrB3m53sP7FnPc0TULtXznWEr2ON2AbHFE9pBgxjJUVexeor1inYK/VIXSWLX7JfOb6myU4+bkdtly3kJhwtAko14WcFt8gaB62dM0Hs5BCtiRCWy0t2XQVOU80LxKd/vcwtbdeT7leQQ9N2tT189kPsmrAUefftMSkqz580HUXTVPEh7BPCAIai/Qg7uCBVXJvVsd1iyAFD2nDtpZWrabtEh6na2EmiiU8tZYwDXKgrC9rb2t6GBshCID5onqKGxX8AjUCHwlSO4bFjYXsbriXNn8/VtAQGvJUEquxy2jhXsJHvLDcpNoFDjkT0V+o7TPiQXKzWRle3gRo3weQZbheQnlK43JyHB83Z51U3yX9x98ddMO1dcoyLZmnkVMZFLbCCxD6wd+c8CSuO2NIEpVPM2uPWZfX4wFDBq4fNxAAovYdZuxWzMCgs++Es9K33Me9QDmpav/edlvHoeOBWu8uydkE12ZN1IamNoZYNzXfyebgCMcP3BXNz21O+yXyQXob0+qT/d6FjEu3B/UazvbVpl1sbXS9bOj7kNgpgmrANh2wIDKP6425r7y9pjqMSiIrKGlwNkOE6Lgz6uGu20k7hXai3B7ylyVdHRjbStvI4qEtFb4+333UnbYsLa9Ap9L3P/EmUyN+09bUrPUzCHVTboVjRRgtPOoZw5lbazE2HsjSJNVdV2heBWjN7V2h/3MXZjdWokFGXCpq5L1A68zDg/pSm+Xcg+WfPtccNzwnlL+4gWfialrOR/Fa4C6a9d+5sweuP/MiP4Eu/9EvxjGc8Y5PmOc95Dn7jN37jRozdekeAb5p2nfKGuDPKP1HoamtVEqjVrLxqFrq0N+76AyRPcMRO3ZlPr3PmL0BvK+2o0FUMhCvZ/iIhLEyQunbtxI6OSIg6E8qO5gnWI3kRebgdZHLAhLE17CYDcIV2sFY5YEuu6Fon/juQ5Q4WrKSlID6MpatpqPr/YYcc5x1DfY/XTFPzmMfMydpvAPW8+ROWVZrs80oEB6BrD3c6cTwV8f05tjR/iy1xqUihn18zLVhBfPbPdDHWFA871bT/OFhN4KrRo4d2iqqHJfrBfrwwuDGNWE7rI9vD8eMi67s6pPQYJZ8aMONxlNDMkEWhLHy15aSAsFJhC9qzzHYKenoSBm+uswMUzUmzfGUe7glZU/oWQBTE71MZ033OFlalci+T+FnzJHtnz9m5OGqnF2+du+lhApeDCO6fu2Dau+R4cyeXhKwbeK2G0xokG/dpmgw0upVGWNHtLQrxy3u47X8kZE1hz2N78glh6bX3cBXwzvIEvgscNwpPx/SpBu6ylwaorCZzpXe/DcsQ9BntpkuJB8WDTA6Aw3xvwk5/B21qcj4nQhuYsVvcpaRuO4ZgMevsrhB1xAL/4ketdPsqqIt2lYS8yuUFc/6hecEEuwzWZlQ2Ka5FS87jaYQiaIpb+7wXSn0apW7zmDNsJs2y7T/Wup/ug2eAiQCs9xGBqVoY9+OxO7bSan2tYMd5pgDR7Zmif3VmihGetYYJ99lXc6lJtYnWOSdqvHLzM7EWmjBlxryhf/5v2q2SaNvY2fMo1C9Jy8Li157Dfk9Y25XaxtPXnh8n1ind3XQLJr85brG7YNp7584WvH71V3/1veDj4XNbmGBXC/ZIwpB+TrxMSHKcYYkQPtrbuUkRLDWY7Zi2AFP8ALRv6me7XrLjl2jbnr/mT0LXelhC8ocWrPZvSUYB7EyoyqYEDHwWrVpwfV0LthzeMGq2ahzEJaaR2wWvov3Tsm52YCF/svMa4Wam4A4Oot1OvParddjqG+Fgut479ZT46nweHsfXAdCGPBqfvfBdOtix3XxR95vNV3RQBftkvtaR6CJ9ELAei2NzATqnA9ohHGHSoDfGbctK8NS1Xg0H2SOqDFqHtEn4BEdDTz8MStiqpXQDotAdzVcuv9ZZAVvPmADb5MfJUbdFx0zU9BmDlFbbUN/qp3TqM89f6puyWNtaaY+0/Tovr8+ZJxd3cffLXTDtvXP20s/DaUG2cE1vNIPZgOIftV3JT2unL6YDnWYMBxLoFWFkw2UAC0x3tVulaq/Oy7WX5qfmMT6D1+A5xcmRNG/zVtqKBdT2csXBWY1/6eWE6QCAtWJbMWRCwOgdU2hP711tdCRRakNFQl8P5zjjI85xC/7C6XAPurWHg0KohFW0WRNz7BhiyyScqndBbNanbo4zmsp68lNnTcsnNEHpVdjKbjONO2jDjfhMhrQZlmt+/s9xNU8tBZOSZ3EF6O7RG6Cc0h+L6xi3Tez0hRlrcQ5cWLUzzvfy4RQ3jkxut3nJBFn9hM3rizMVZm6TNwKfskj/XdKfM1K4iPqpPwbcSzyc3AmzPqCk2g6JFbDGX9zFneNudLjWxd3ACcYn9tgTvJus2/nvmmmBwkOgpDmPDtpG0Ovb5y64jnTdpJn7md8tP4AQ3u2l7dA5cKYDDvwuoHsH0IcAxG1jMdrIF5qup5siyCe9ruBTac3UAQuH3Q7soi5gDVMDReDq5gS6sLWYFzgsT9BBCSv8gAWYnS1xDcfo4GEyYdBQHAa3ROsYxb4kbNVSmxqIbvJnNtlkYUiLNMUR02Z17T8SrJo9WN/Li53XdjRnZ5jjz7hEJH7IKsV19RDxpA6HBP0NOr97BvDIAr3S6CMDNujAR6NrZ2+tlWoBJNEaaz0HYPnpUR/CCv+h5Uz2oAiwVs1XA5x9utTP8oc0G3gN8DQ4ottbZqvmZ4VudzM9wWACnIkWuR9BeSrIHeI0p++5U+zhzpyNwW0HpxftgIt72B1/Hm/hjA3zzsFxHi9p1Yt1Kd1tM5/RqPuVcWfdX5B5DeEnY7Ien9Ij7PjOw1p4CKEsOI8vvOeG6YV70XZ1DCjrYE5qlhYv72vaFVTUD0WVzrcLQk2YKm2/F1HHfhZu3ajpAshUQcep0vHskG4Y1fAvojt8E5vee766cVKwos48KYy/BBkGv0KwClz4OgAPBxoFmAz+E9yMvLbdnBJ2U6RpxHRSwZg9Rul0pCM8nMH+sbR6D8a2hzpRLoCkg7ZoPLxgwa6k8tgdwFwKOitTySIBDwJ8DZD+Y0OBrOlaNVspvKvJWtISzp0Ogs3k+oRobjPN/ojmJyLTNRql0ks/iEQ3upaqdIyYfm0k7VerLpknKA9maJ7P0nI31PMlTnX2WO8ZJ7kt7oJp7527CF7vmxNkUHpalvPTpcTLhLbyMdkCaSFvGp5GH8vxvvbrpF4HRpnHTTMG1/HLtl+3aEratl8DyCKAbtgTs3ADmK7B6nnozTrT1bxF61UR5WVBb7YFO2i9GmA3G2UO4vvBWiRYtXgQQB/9V1iWO12ZMzQGqtarTZUkBNt0M4IWt4f9CrZsYY2EwdSA0CZK/qaJHFO2/ZgUOrSqA5NFohz7BoW1Sj3Nd+qcXlpXN/IaF+Gg8LfoRrWayQPt9lzFNavF2tHrb9NKy4FP3ayBhxGmBmRG23p6pG3xbpbA03v/2XhOAFIDTtpBWItfZmYHqCvS2/+SlvpzIy3RoKxjGzTXClN7ldIBlL4tQLF8RiU1nSqrwleq+qS4oe5S/rXckX6/De6OHHBHDjfIf8s76OIeAhc4LjRFw43areOc39SAnWG8Eqdn0Lnt01YLaatqlJUkVzt3w2To+zHty75gyyQsOTw1NSA1D2PK2WV88RdYiLsjJaPhtBUKgifUb+OeEIirQRvWdlWeCgGrCSIlf7q0pGu2KUl376/oeeKHG2EUe/ZcGUHOU6vcbYXiEcNAnYj37Jx7UuCWm+2XvOlP81KHcwMn/iafpoSKGablb6KCnZTM8hbOGO9aIPK8s5T63ZlPaqK91CSI7enpjkLXObX0RZuGBscdy+trw6SFPa90Po1VxrANB+fw5rhOwkmHZQe3ebbJvOLxqGM41ewW+O8Hi5zlp1XDfgnkSp3nnlq0X7n82nfTtk3jdjoF4z7EzoeUmnob3QXT3jt3EbzeL2dIw/ynPL67JLJDI5N4mXgngKPzmR6hwntoFhwzPbDBY0nzuni3SWU5d4yw8sZDfN59PwkxAWSNVLoI2EKQf4wwIDbAiujvsQykOoZDBxw8G68mPKXP1lKZzOtoszVMDzR/osEKyB0c5Io0XbvAVbvAVYCs+dq22S3h62xI6yPiF23qY7oMeSEI7dc+N1THg0nTYaW9jgXAugCLlkO27MdFF8C2NI0N2dM0MW+CXQyX+DypNGOeBtpWTl8k5hDQNAAW+5HBH231SWbC4F51KGd0u2UEcEThhv8TQCsAZDfc/fVTfxfexvAnfhvYkhBmrwTCeoYt4MrIS9HbMUlDqpv4P9ft5SvYkque2oClUAqXdrLjOX+K+YHxc61t1m+isTrweoOynqquWce+/hv+9TZ2ysU9XM5xUlnQLI7par5puICBkr4nlN0yU9AwnOG2Xgfge6VvAEUQunnQlgtqj4Qn+aZlbZStHXtUcwYgbJDSFh3j+L5YfotbSdOVhKiETbO2K1wwKhzu+MFfxCvl8+4lDdq+MXu3d48PbYL/2aTBFEaVIWd3LB0lbQZV85QLzdcmXDKNPbaJmT+Vt1jbxxkupYo34pIsg/2zDX7mOjMNduUX3FYB24hl2FfrsXad0p8zmppmphhmENPvMh8Xw3e5Rw3jOtDMaZjQ873zk9NmZTCD2s5QKP2UG27nNjRcK2fafAVw1I7rcY3X4rxTA2B685PmRC9S7cA2xBkUfQENLN7XFj+gAd6fbFLA6xq7ycs8y/ZraW/C9afCrCPPUtLOPbXMB8xdMO29cxfB6/1ygfKwuRqcihC40HPNCuykmYbcYL2FdtvcDNulJdO6nzcqg1CgVZHphfzqC27Q+A4wrUtJkOV1SOwBHt7w76UlTYIO0oFiO2tDOyHbfKUDtPohWaad2MqbabX2+FkdyPQO7tMhCxg/RVuuOk2YGnBt1x7fzApY/B0clisH1ovwp2aACVzb4QrqYfsMLWy+xqDlGbYdN9uhp7O3jxUpZKepUu26Ho1bAFWJdDMloAosEuc/eHwHARRup0XkBrRQxAXYAUzAmoWwjaHVwIq0cmUNOhfUwvwdYAsC6Jlpgqr1aliVQM0QLo/ebtienQ7EUrg+99YtMxSG1vaVQJjzpQRMAxuS8oMOcyS9Pb+hq+wOYeozSwdqP5Tmz1RXNYcJx460MqbVYjhuUvyYcAPnfaKT8i/u4i7uwXe0T7HbtuN6LDzXdJzB5iyElSmdC4QNw4Hj2aSAjmVKKa+2cytseBCGGwuerovh5uKocUn4W1nrNN3S6h0SeVrcFRTqh1m5mSovq9QPrt9GKdcvNZ+CTA1YUyk8EcamtmuMz7xv2Jn5gpoWcdLrZ6TJQtJauhQ/x5nNVxUzc6ADnuFDSFPZM6zDFRRMpEPlgctOcqU+1aZRnBpLFZyCkWZ9VtOm/SqlqWvuo8ljPrQzlevPoIE7AnlCHcggPwHHcsdWGkoZpYU2IKZ4sQ4tb2n2Q6jgbqu6zuDdL7b20qautUWo3txmK3di41WIwd7fZjYgx2fWQljKQF382ZZZG3xN6k/q2bZfd9q/g0RPKUdkW5Ho4i5uz10Er/fJXdlbsVNfl1z34Z6VfyTONwCqO8EXIfJyF4gLJLe1X60WmcQHFzfKvwWWyZ80RGvalK5qPkTY/QiAPWqXWhmdfy9/pHe7rGKmBexaS5mKuS3YZjbA47sGhBRhrIpCcAVBt9u6e7/CInfwyLIGcBUzL9BtfSVQG4dthfZDa6phDoO8NqIA0lvWDD4WKK4GKK3JH6CAzQu4doGNp+b7LM7sv6a4xc30ulDVP60ju66RRuFq91XoWeK5tnRwAiUhbN/oxcYRzf4TGoBzYbD/eNB+kmp/Jvu48Omq2jvbManjLulAsI+OA0NB1BBjx3hroFIbys6BhzEKfA2Ddp4UJOjufbH0+M0DtwgweVxvP2eYYbyT3CQj4U9vFy9F6bMvFBrLE15qP3yZsHIAApxH2ETp52kTTu2TuwAur93nD4C7gwV3bqAdcJO8F3dxTwX3gSfa/pgWC/FdxMPmdCuuSns2sObsRb5jw0LrNtudn8hfBa9JCJviCPs5BtwPezkF+83Ce9qz9eDW/DIfYJw3vugPLdhRY7ZJ7pbFupFGS+jufoG9YDd6Sd2fBavNxr9h2VyeD5vk+qSnL70e+1rKDzBl3hIvPYxTncD0sob9GbHPMr6Rkmb4YgVwALrwteMtIU09y0kAhcubOtqXCxD2yqfCqqGNO0n966a0++wyJMW37+ojywFJ7eM1gLFbPK+p7xXDMmFjMUguqbSxcRsduNmvO50tml+Yc1klqyDwHES6zdeJ5mu1+SrUmg2NWKZL9U8amMcxxwV27uuClrhES7PchbX0OyP9WhhUueKxmDyICQvTMzUoyABT82XmzzQbs5cZk414ZJqrP3h8I/HBdhdMe+/cRfB6n9z7/xCkAXeCO4lM0i0nTSIncdrzh9aBlnQdYhOFLZIdEdxEeLr5eeoJftYStDa5IOKUNGuL+5UOJlCPA5TuJa5qDhTA3PqH7aZmjdgVzW9ai7ncdRKn0KT1WtpaQfmiTYN1Zst10IC9gix3cJC1mxNYsYgmfztJltKgEG2asm7zVePTtLvxtnBrKniY50SvMx2khQ1TAwg5KZsfWKTfTcu1zxFZtGnECmU0SbOHu50CGpP4gSVDnGmzGvMW14S1Rk9C11XgGtOWdwXVac8a8bBI+zQKsRzUz3Vmn+/MnQ5vimfKA5FejPsXoJT9FSgWm6+9mQxAcxkS/NU043Uefdfd0L9cJwldU99MiY/U0f2zt/ep7HvdYK5XBLquxwkfMHeFA65wfXtYV7h9fXJxD5f7wB0UDDYuOrM1R/fCShhyttlL30U20hof5leK1wk9YVvGeIT56kt0o3GBZglHGXRHDiv20wc8ORGsJqwJw5ZK+MK0WxnBt7ilS7Kk5A/p1tbFI1bDuXtbc+xFfblSfD/3oNctKLylvXPOg3qtm7uo5xGaOFpyZcrjaSs0zA7YHbEXa++DkzGGeJOnzVmiscHIll83/P3ZUZWEl6upKaMzfjZhWmmCsyzcByVNw2wEJmWkuEkFWtOtIdJTksaqMaN0h+PLiRYA5ZVowFAGMSbesqh/q2FOT1Vjwi4KCzWspY831trad7P8Y/N1MBHma9QwATQq9jZojIfaU8cTNCa1CVY5qSoppElK/HNRPKSlin3HfVVZ3CC/+r3fOaHgB89dMO29cxfB631yz/1jC7qK2unupN1a53QnxClAglJ7Gz9ZsWiXrHa2hk++HDhKzu9+WrlTfFuwdSPtJD9fPW7v87EtoWvY+MpC1yT47HQBeOOahpdJehd2ZnMEitVAqEzqdcC9TkD4ulEHEm07WKtptoYQlgWxV5DlKrQXoMOBWgJsarxK37z98C3TskTbO+unhhY/m5/HnE/Zfgmt/S603MBNp8e1Z0L6/GbtD5/yJBilDgrgyzySJutmPGnLLgtpsEoX9q4G9MXb6qehIp5iETStVwD+PlrXiYA0BiDSuLTZqIgDtZmb21/KWq3Hyjfe2m/FUfPVKWfYmYsksCi9v4xgd54R3gyuctmzdC9XS9jTSbtZy3hp0GlJ33KDJgwB0srXyAvFb2wn13F9lYQst+9N+B0ccOcGIPXOBaRe3APunvvHgP/x/+OYwH++7pSFKWFMoXwWrkLXej8SlzRMW0yKb/4Ztut35wPuV4kWnW3r1fHhGXmcj/Ly3/le833ZSSNc1w5TbYBkNAPQ2g8E5mvxo//UtMWwoVqd8DRA/adAst9KJqrENkQbOqkD3sJLKWPuAjfwnZKHNL7P0xouW9DAotDL3pjeVeh0gqsVMa+EDxIoqH6URla/YcdaPrsBZE3iCqtJ+3BGQyYYShORNSp9KcmC7Gndkw5jpl3YSkwSyKpy0+kkGe46mJPwdlADC5pFW5vEQeqm5qux6f1GdQ9jGfw6ZjzZ9TmbuobW4Jk5gl6x5fRe5y/XKms9f/PrNpOpbZqqbmeGkPIFVbDbR87RtjtZ2USBD/3Yl5xA+OC5C6a9d+4ieL1PTgXNwD2QFrCjz/oJi8F4KrdMvJkmCR13d18wxjl690XWNphZ9TvC1wZDZRLf+dwoM2l6Ek+7/kna7LOt4DnSOE4KwA1hKMWhlOlC215Ov6to/7Z9xWrA2PMdt/WqslKZBN4dnNvBWWvTanV7rk3YKnKFZXkCB6wNBAMNCOvEhisQwlltwMm1XZNWQz+Eq2yK4xCPE7DCKC1+JY+bF+jzgYWp0Mkd87iZyYGrRXDQ+LEA1oBdADM/MDMv4F9gdA3ZELqK05gmLecTMxuwatSzxnz1PPZ5kvTP3Ty/Qlehslt61Xpt+KaPgGg2QQC4ELYFhdK1p0sSrDdaztvrdoQUfTQoJRBPEmSEo0779EiB/kPIM0adyEvQOMuyq4CffxR4ebM8lDCUofCD2hJPlV8LM/7dMkYlOYv/5piQU5Fjwg0dT/+Lu7iLu51OloJp6ws4AdJHpr4WjnhTUzqlDSChrOmUJ2GpoZ7Mh+2R44v1wICa4keslvJZW6nMpNkaLTsetg3SMCddJpDNfBh/VD/fFzs1XnPXcR8KxQmaqIL6MmHlmtd5tX1YU/+EEDa/uOePfhwPSpRtpgQAE+iaoGsMh2NFAGrzhqBntndbwmwKosbJAtUrx+nMSusnPf9lZp0OFhTia3MDP6FcL68IX2uZHN6pL43fHk3RdB3S9yIq70zCYAeIhkxVSglcYhK3qdmqUQd/11+ltultupRua2ntEKrIs6v5SvFDw+vk3cCiM+JWdhf4ihDeroJxUvrILfX7atQuXO1f5fV+Mo3wwLk8VkCS11GbWUBu/YE1H7xlVXvf8ZDkYjfdMaFrSt+awBd3cTvuIni9n27yCVXRst/JeyRhupttLMG0eFQQXK2xOAgWysv1CdFwObSLzwWwZbUrG0hux4l+KW3jRXLH7yAcmmyhGsphsOtgGkwz0XLlPC5oXUfaieaqIj79tw/GhOskwW0+sKuD0WXkx8ExabuKaL/bAQzNvMDScYWbD0DbTJtQtdt3pbQIb/njOuyN85lumCZKP1G0mwxQMiPQpzabhDIhFsd5ORwHMz0gTdBpuzELWhfCcabg3gWlLb0iAgMV2Ypqa0sHLQu9We7C1bDj2kFOr0OWDJJcggx4GQnszQ7aouWAMTc2wu43XEphKU11vHUMRA7Asx86ZuOA8c23t4yAK8g/YDGm23O18bM0ZBqvS0qYyyENAqZnnvhTsFOfFUHeU3xdnPE/c6f0yTzbbHu7te5iD+viHnbn5nEAernY774I2KLAOxz98J7EhWACeTGZYM+Wv3z67/RUJwk328tYw0aB70JbljEeUDFufLxfFlWhNC6bwyTc3dN49YXYBax0UZu83cYv8yaAyoql404/FEtYcJnvhhIsbq7dOgtbXGIzwtKvDrAau6Z5a3jK4kFf0cQ8EB5HnxfbZ2mbwMfapp1nFi457QQnmN/jaLg5TSFQXQOPeZ05T3JyYhrTbPlPdRXUqc3PmFTRL9FLte21TMbMU6yFsV+DBZ33uzIHs7Lz+uF4K0krLbEAq61Cp/dSlvVNAY+eROteWh+0dGF6jiUOwQWO2nx1x3bTepkDTUoMJlpzZpMwOie6Yvx9Uuka1WRNpMHewuW7rghf22+vPgOKAsYwTL3+Lfuu6bfPkBh81/STNGMfQHfBtPfOXQSvTzVHmwCDu13awel8NZhEHTUtUF97MtirG9ckrpoeaIKRwp97t+P3bcVu8NGvo5qtMskDA98GyPeErAh/uRtYzuYBkMA8A+ZU/hBn/JkA1j7lYK1aq79o2lYTA10YK3IFE8CybVdZrnCQZuGlaadqL4IEqdoFqAIHtClN4tMyKXmadkPXnK3Ap7iTMaVtijSe9kKatVVncdiKw0TjFWTv1Q7bMuGrtcEO1xJLi7ll18zEwDQO0rSU0UGXkPaJGZ9NeaTHa4QFwKKen+eWLGRXycAaA41TxoD6RlJYp0Jc/uAuHaYFK8N+Akisg1SAadWqtnmpKn4qriu2Gj/S+af5ZXPAnRLdzqJbp+hmuHs4nboUUI12FX5SU4l3H4eTBmTb2ZQA1bNX7HWA5TWyPNBuvaE9rPXyWdbFPeAufcVljvGWL8I5fVMLlvEcpeW7lnzwvS7XQ6KCKuRdoozQeCU6w3CW1+OL9isCxwUmtDxI+Tg+NGFL2xIepfpm92ReAPnuygNXWCYrvAk/Wy18WSepp9vePNKOaRxOaRLh9rI/MOJg8zX529kBPnC0X8LLt5jaTvVuN0op6RanRBepUardZ3HtvrRnQds3ak3LNTQbZfbWc28/5zTCWea/+3utAVeqW9JjM+/iElcf11xFPI+8PHg/CobRZGHaQE/5QPR5Ltd78DF3e42MNMfTDvoofVAbLo2eVqsdH/KaFaz615h7YJT9THMEO46tA+YZtoWcLHIdj95FE3wmLI/0myH9HhmrBSSE2Pa7yuqaCl+pjt3RrmNiLPbx3c57O9HuBdPeO3cRvN5Pt/e8LpS4t1pslbNnbgCxmCfAWvIGIJ4zOixkFRBPgLIA0KUvzMOrI+JEKOMEYEeBk53e/IK5lqu1eQC25u+AdiEBKoAqUI20Hi7C1SoMdfA6CEkVbJIgyikasT2OzQzYybniwJ6FtqB8XG/n1UwK4AqCrvWKFSJ3cJA7FDZth5U+EVsDOKMdqCU1rccvFUAjNF4DXHfYPICS2Lq3cIQ77ft5F2opaAOW2IBncZ6GEmdTbBLn+ekTcRFtz67lWTJtmoPSCxTLizR2bibA1HSlM7cQIOtC1/jB25/KFcgS7U5LJzK4UFMJIq301HcEY7Xl0tyarI+bmxPwcWm++p7FfmgKjwWNwTagK9OjzpWl2HylBWoAlJO0o05Lfss7WYJY+DuySs+sBv3uD5tj4R3HOHdMHIt1Lsu4TZ2D0yHq4i7u4h4mF5Ititvwp+i+W9ACKBAKS7pt3WNdZlEuaeGyIMP/K9FkfwhE6YV6Cmd/YENazAkLZtMF1N4iiAVKOOFKu4opK+Mdivhqyg5gvQKg7Se0YQuvt2uqTuPMT/kMrtiQWD4AwrQ9bOOTzA14/2v4xbRd1V8qi+ctw61CY5on2HyK6eamNMUVnsYasXHnwrbxiUCFNF8lNF9LyzMe6fehHUOG8GulOcc/KxfowuGxRzYfYi7D+FLCdilt1DAGaL4Qn7vwY5ZYwYxPIqU75U3f9aPcdwAoS/IquEogaptvK54TXLtf0DVdSdNUSvVS2JzgZ0CwLAhBJg8hgc4oz85cCG1zNRMJNn+lP4PUJfbfTBFgkpbjsBu36fz5kFiDuc28GXg7kcbkGKR1eivqyFw8Wt7FXVxxF8Hr/XTHftVWxKGzxFlQpiTm1Oo2sEjE+STa8nkEMGqMYisciGlujsDSz9VmlRNoos5tjdYNv6ztE3EGuzCw3MGtg2PN4BmsAUH5JcB2Eq4yKEekOT2YHgDFRVtaPWsCrRv1d9uuSnzIok3b1TVen8CyXEHQNAmbNmsXkHYA3bRWG1DitLDl2ujYJmwIXynN8lBYe9dumOA67rr01DCevXNjEwNbcaY8Cj0tbun1rNIOvIou7+Nqn8FIf9QX9U8w6+c64zmfgtX6ZLEp3E0HOB5sjCna0KmX3Utdu0B7QVCuCIGuqDfG6kG3H2tdCeBIWBC2XY/Rwn+csVJAZnrit26qIBlI4FFQzA5Mss/MCXDRM+dJG4C5KofwD6fBrKwxQAwWXLiHGc923o2lfdy9DrBr5r39w5InNA8jEL2jBxz0BgcR6EU74OIebOdfjFS394tVEbjGykHEKcfumBtYCR+FENX4Mv+YngSqxT8zMeCImbGz+Xv71awcFiwXNDthTMIwgWrc3e/YcnYB0m38syKyUJ+bPOq44z7U2OtdqhZ0jGSyP8IEy93fLkn40AS2ttd4uI+3FL6Qxr7HqWGliB2avLH3c7rUCG5DTAX6b72+IhCegADcWK9u8HgqVhr8faCOYqvsNwUGT9CcZcrXJGnMk59rxmlbcZVNj4tHYcc0xIk1+FwWjFJNw5h8bzXMtF0T+pTKtY6gMPUN23w1dtq3YFrZZPYsN+FJX9N4UU7zwom8nqCJdtU6Rte/VfOXC9K7wp5b8TpZIJyA9J52QCE1RraEr/4M2TMrQ3GzJkwn7CnKB7fW1MAF094zdxG83i/HyGOXriyawHGQ4ERcgUTWXjcDx5amlbyUqInvfbMCp9G47dcTha9a4ye0WtK3hK9engAsDGUQnoSiBYyHpA3kp3j7/Is+Axuuif1VLXlcw3UQ2q5D+tqRSGhP9jTkOlv5V1TuVdd0XV0+2MwL6NTPglkXuAJNyMp5+sbNh2z5qbODYDbt0dHnNpcAuFrqbIoY9rGNmu6nmhpwbdmahh2TA2o//NjmK7XBhJ+6NAG32thIzEMXpouHIei2nlqZBumaliu6RjbiR8Xa62NteY9H//WV4VN7c03hw+IHbTngcXDEYaVwIML62dAQXlsbA0C2VgW4sx91QsBSid7ilYBoFxxDu4WHYvPVykGdX9RHNbyVtEHn0ZTOpAZqGTDXfNTNo23dyZpvae0whPmmICWw+fZ+treUtlrwluLMG7k7WHC40QmwV3eRm4u7uCffJRuv5maLxRa+mxGRUC+wWibhz/oV4W++vOAp+T3e8ZvhQ6W6Av9tHba1R8Nl3yicDmnlF/H9orgQLK99T4x8TXC5unZpCC+zP9t4JQQ2qi8OV9snbpbmd3+xb19LRZfEWM41KG1T9X1yTA1cUeMw5puluV+CJ36l3sXIyeZrcrVw8pvc04fT6Df9MsZvutIbW/t+x1yJppZ/BDdFP2t+AUDstrEei4y7buSze+uwId8wmJIHfDK4OuSpbadJtTWe3AmVgBqaBIpDOW3wdzVfyebrUH9t41BBrVmyADZljg6Ibsm/P1JX9Xmj9gxKe0pbe7V3QzUjJjGNd+fv9uQz7X3uZm9O/7JyKKbTD1VqzLWjj9MtdBdMe+/cRfB635xg+NR+l5xoN7KlaFuhOYpAawWks8KqtqvTj7uis6iTeL4zPohwLO7HtV91uy/Y33f4qakBa5/750LX8YRb27BJ+AkC2ajAu+XNwlJEPUvEhaBtQl+0VJ1+4fK7f1EAa2hLWh4N4G5asVhWLMuKRa6wyBUOy9q7yIBu8y/kN/A7nkob9l2HeJT8yodxZbrFN+lt53hHA/waYFIlIahmwehC6TWOga5uxImWNIoTbSDIf5cswSNNmz6eDWIk7UfpQEUiThabwNqGTwB0mgbGxDU/1PKT1qr2Tx5da3aN8j3dgcpE61V5GWkNz2FEw/qDH4JNLWGbn+JjJSaolei3qemBabyE8NXju8BVW78lswOdVWNjgidPQ1fcbGq6UDoPNawvqD5eAyW6qoDWOWtMs7l2F5dMIchOWuW/0G5V9zCC0uru4HBDkHr9vBd3cU8Jx/iK4yZh3UrnPcWieGESJi14ymJ5cfb8XF7xDwJTK6djLceDvRzyJ03Y7mcFBddKtTuVOTtgaytcbbqyyamw70pmqLp/ob4QByfRz0nAmj4H0eEy/AYgBKGSw1bmVljkSNqkzMXBnvGvNBViLMMUVi9XR9MDNr0m02xM28t3JC3rPZrZAaaMvN6Y2YaviXzHL/P4TUfc2jNZcZFhQFUsOLf8KEp64VMsNrnjWJphQrvj2JjUkjoHm59dTbgRmXeQoH012D+L67qpUYbZK13zN23u64LTFOe1aMfjhG3R8T/GMKmhd974PnEKUl6wJoZ2eZgtoK/srBuoZ/vqBkn9Zfml+9kMSUskpVriO3XAJt9gHE5hK9sxduqSbUA7zKHZpNpyp9I9YO6Cae+duwhe76c764HVceEYKaJYyacc+Kf3BgrTkumZIgwAksNqdFZW2llBi98krtAOmq+9vgZgqZ3cZAaFO5+d1fqmWrcep1hd2Gllb5gQYECMEnY6ZPqany4D9Ek4ixJ2oDlqus7iFGsIb7HGXrwEvfa6ZbkDyBWw3MEiK0TbibfNhADZd1WNeFiauhYs0wlW14hlu65xqFZOm9p/7Vqxq+/M4dSARB9DxxQGEiXA2CAYtbHficNO3DGNV0tbF8FhJb6kzWkTnLqA1YSzgrnQFdJsrkoHPN02sgAuiK3mBaRrtzbzAq4j200RBCxsebQJMBHrgECAg7jWK38BxICM6+THLWlpgLAgoq2n+BMYBAlZUzyNb43vPaUVhJm/1nuqqxhWxvjcHE3tHwSuCJ4rfzY/nYb7veDUPZde8ut22qxZszwz2hNZubiLu7hb6s7VeNUZ3bH8hGND69MwX16FEi8zbGrxCQ+iY6fwo/g1xSvRz1/WpzRBosFQ1kbYsKm3vrbF4qJOE7r6QZyg9V7CL9T+8IcJIZn1EfWppPioy75gGcKwPdKwbQ7ntDbO6UwAhHC2IxZDOfCdnwY/8MA4nc5Jm0GWdCdcGNqAFm74btVmazc+uaYCJ37DXAloHfOf68oUF/bb2JnwdYJ3LLjZf0noRtNHmTK7YdnYw2kb2MsdH0ALxEClwewAy8gcUFb2Ii7qkr4GWEK7z0wOZOG7fSq/kw/qChR2YK5TCVGbog33x7E5IYGrUz9YMyV+FdTOZoGqdWnCs4xlCwanLvN1lv1QTA/Yqs2pU7EtPxrrUm5q7yOZ4tmhq854nm6rqYGLu3fuIni9X46BzFHC7eCsEE0+mZPt1b2VtgG+7K5HwgCB4c0wrXgnmh/Y87sWAvPlaYpRyAm4sLOAao4zOp3EJbqaNhOquqZCxM3NCdT8607+OHxBGcwaslpWyLJCTOiK/Nl/MxWAALoI8Ov2XWEaCSXN/SZEpTIx+g8bdAcbQKE5PdkQXYBKfiMzIDIAZc3+irNmcV7PJM6G2MvsNl9V0TVXNZ4fvkz7lRq1QPon+SF07ZJon78iMh66ZT/szDwBI+lFwhSB0Xcgh16e/6A89Adk1SIcFAdk3NY+szqd9v6WwJMa1A5qDWgm0NcTKSkAZTb6f4rZAedtBvysTTSWWy6lez05neeo9AaxAoLV700H6EcNlaHUJVLmlVDegbG76wykAtFPx/roYXZXONzoDf9NTo+9uIt7qrijgtfJQnGSsNZpeeE9pt26n64dIfhuJuHf03xlP3/yH2YKbI8Nf+AzCT5oz+CwgtOCS/9SyeokM1UVyy6i8K+c+ibs5gVgmqurh5M2aaE1+rDPyv7tsFA40lDSkNMk3yH9Y/0a7zxaXwXPjAFnLuG3mgYMGFI8xUaiKQtob6d6+ymu1NHRD4BmAOIAcU1C7wAtjNhNKe0Ef3oEruuflOsQrWSZ2c/1e9fKZGzT0jTlj3zbXymxwnbUpxtjSYJvwldJ48IBIDNn6QT0Eh3VyuCM3WxSbaQFlrTyZrOGlJEELrz137GdXC3AglyWnk+ZahkNM6eO1GArd5eNVIy94fTm79gfkbGNIU3QpAlhZIIErIeOMr9VZGGeoNRWaouqYlkkZ9foSwRpqjMpnTxk7oJp7527CF7vpzv3Vcm5pgl4cZvSXCNeCs3O3dfXHbpqnsAFPH1H2tZ+nayIvB6bv/C8LXRtOdmkAGugzjVgt/NosslF2qgUN9pupZNqkcH0IORNoB+5HSnO2r8mPiFXWOQJHKA4aNhj3bTv6mmm6Up+SxPTWOW0tuEKpwnZdIVpvsKFr64Ri/jkfWtO9q94sp1VjkPILLEV1/181xqHotV6JA7S5JeyBLBxaba1R+wxVQ8vZkpA0LVWO7Ax8wELfd5jnyAtLexdtUr7/BCGVxpzsiQo1z5hWjinTZuOOGwaMQDZwUazsWHNVH4+jwxruAS4MAC2FrVvdmDVJsi27AUTDvxVJF35TFq8MxoGkhtlbLeRQKSlbTJC/PunjKPbMjWwNY4BrnM+Z/OkgXu43B19BIteH05dDiK4uAfdKeErd7N14oy4+EILvgANwtfggPYYxocK/1/rsQ/DjHeui7Bp4MagqS/1teSZ5u+SLBfx+ktMClO7GdOFyQHDch0nugC14cfFBJDEqwlC/OU7NHWFCy2H9BAutmW/Y8hy1bRzaEF1npKPzV+1CRHjPgrmypCfiF28Xya+GjOduoRPKk0TzIa9U8cftfCKAfQ0f9JgnJXFWCN9gnOkPkOPmskq23Gn5zEgG7LQlfFgEaIKp9Fd583P9zwA0cc2n4i/ZLNAmTjWj3QvLZaq7brRKVb9NL1zb+YDamukfZ3mvxnIdIN4ZxkwVecr7rNKx0mXx8FHkThq9bD8GhLdGH7qKw2cul1zSRfEKcinOJoQWsJpQnGdApz1g2bD3VYofMG0985dBK/30531xB4h9h1PcpxKBqqgRU8mcRSvdXmsoBPb4VNojoYX2zxL2+UM/wwoQ4st1d5aErS2vAEIY+PNglanL4LZEKiVeiYaCl53pQeHSXuBADhrtSYhbzpQi4S8qtDlCrJc0Wf+Kwk6zaQAHOQmv4DC2KYj/1LpFK5ZO+TRANURL2kjjWEONMcvqtNL64JHapwOcRrasExHOGYzDjmu2ZDVELoqQlM1WkDTNIwDqKBprSYIJv7WWJl+RT98i4DTivbSwk0OIA7lEg2BK2nBso1YdI3dQeu1Iy3XeqW0rbBA++Fi1hACtbWvqQ/ngDq7lGZjCRoj6/oFCfwz0huB4HlQKmE8f/MfSLMKexNQRbQZBKZBfZBp5m3Yc1vC1u33eKHtOpRlTdOTqr64i7u4h8W1t6dj/GQpmcknKm1gs0rDdTCNUtmjf0gzLNXLPMu+q78Iz/548W58Er3keh0PWpuE7ijhgg8t3kwWqb2w7m0boXDuy5nJgTl+bhuRIQsh+qqFGlqq+2HGkS1tjiVRwuFXT2v2X5tZLKj2UH8Bbve+QZtlJ5S70c3SZnEySas4ZT8tDjHyOIF/wDatfNcv2zS4i34gQNzG5h/tjDEF3TnjkDYBdychsR0ilv8FQ4IRzIMApAbY8h8dkaZstmDoH440GgrP0h0YRrr1IdP5p//2ldzKQtpJP5QOPg0ujhT2qyTMhOSvz6Boyg+9rQ3vSm4TgdrQQBbU3wLnOptnx2iWXTwrXft1kr491UshF3dxp7uL4PU+uSYgugtPLG8mezQpEItdXVSU6LWkDG/7uWzJeU8Jp3I283SEVtXMdsDiZr3SNzP6RMs20KzdivATSHb/AKwZPEeeCrCzMBVFQ5XKTPQo9LEZZ3rjj+m9N7xduiiW5QqPyOqf9AuKqQCz7wrFIisWXbsG6+ppC1ZKC/8B7VpcmLtCiM7CXo6sYSeW7MsuZivWtWXhb1Rbc9Txiu3vjp1KnPXCLC6l8Z0wAceZVussbtB+FWAVwaFHsgCWfmnAfty43Vf0Amwu2gsIaBeUduC3kKDOwOBiT3gHSmvHi15G53uVdiiAO0mdY4BOdS0mAzJGsseMIFnz+eOqvTSk+IRzocV0QIC6MB3QxlxtrTNCr0KoAhocyeBs9pmhZz8B+CUgn8rRaLMDy8KmBO6esjyjvwYYvYlT3Qap7GxM7Jk6B3zeRpx6Bwcsl4MILu4hdjfVeA29yg0ajheKMIEE8uKrvBBbyVRuFapuC15BeC7jMP/UHyCcCCqX/Fye5fUyyr3H57j8Al87BlC5gts9laq1qjCJHsdvXjLzI9HwnhdhLqemlTDh6xhLjf3R05HSh7Hv8SHQnU8a3tuNn7Rl7aQ5HqlxTKdjXKLfwBya+ofapNfwV+buoZ+5DgGyODvsuD8qu6f3ow5lDfn6dErKq1NeTgR6XoFOyKk1QtzoRutYC1XHdLP/u5XO5TSs3OrNwnt1OeashcOc91iAR1Sph8Q7shpDi6bnemoovli0574ows6ntTV3z85rz8zt8XImg38M0mbzAyVtaNmYfhvdBdPeO7ccJ7m4++rsFfPsWvp979E3ECoIYCw9TOVz2uzSPT74wvbdtagIOImFmZRo/M340lf6Ji1skUvOO1xLb9MC1wrQpR2mFYdMAatEeO0A2/0msATl8bxjHJc111Jo16DhumykLxP6ZUK/BC2DcrsaTyuwhGkDO2G2CVXJVAC6OQCZ+NH9QsJa8rdpELZbD9Lvs7D7Vzzi4TXTY8VBW9zSQccVmvzxSugu23Htrrjy8YXPf7+fGIedOMzipAlf4/mql/hclQXtGeFHZ5H0GIlpsS6R3/N4/sgDkSZ09TIm6TKmW3hZJLG6OB87V+KPnuE+N+y5tuc/VXmWXybxMtAvvb2+XMayOK45e+3qyxD3wdLbJOjtprq5fWM/VL51bJ+Uso5cu2vhiRfPlaO03BdnVHMb3R093Pi6jvt7f+/v4WM+5mPwjGc8A694xSvwzne+c5f+H//jf4yXvOQleMYznoFP/uRPxr/4F/8ipasq3vjGN+IFL3gBPvRDPxSvetWr8Gu/9muJ5mM+5mPac0bXD/7gD16L/4u7PW7ARxsYyf/6ftyutWMYTHDdBD8hl4dZ3dP618BnC5e/4W9voolenUbJvxm3xAvyJDRdKn2/OvJIXzh5nPntC6YrKNZuc7+Nge9r6IJYaOxB1iyLl9AgjTVch8vLmKZhM3wsDYDz0PZK4xmbYdtAWr7WR75nwkmjrV7PkTTZSLO6aeOq9XCGIY3SLc7xofduW3enuHPT336THdf3IwYYgCYtGiKd0hQ/pGWaVK3eshkXNgcyW/z8nIUPjoIMGZo3Tgi+GwMbcb3vUTCSd82CjfUrLjmSHvnjMF7Uuz3wS2B7x/WU1347CIPEgu9bnfR7IK2J4ngaIrBfAh4HiXpBPICwQX94hGjiN8iRq/51Jrn86FgKUzvV+DrRiQDLYtlDw38PFt9Wdz8w7cOCZy+C1/vp9jYO/zUdrmks0iWnX5v1eZIcX0l2+E2bT+czL+Qs2I1w3du1lKFUli4mwNKx/bP+QPhXKPTQriTQZGFlB8MswJzR+cZUhJ+jcHUmsEX64TH7MXIsfsWa4psw0eLWEP72uLX/YYlDtKD2vr1f6nAuaDwt/G2oJjTdL5ppUGgiLfwxvSiehMDVZIE9C14gz80SFwLRqM2E637v/nbvwlpUwa0JdHuvSrRqlXwf4vrcBV8EgMQ3+gg34SoJXc0+bKdtcUK0SOU5KFuC1vPX9CWng9MPmUfCOdthY8WAyxL5jWeOd8BodRg/Q7xM4mUSL5P4Fl76NQgNd5Y/j5+11+al9OWAyU4Iz6buMT82/MsMrNIf9GbpW3+LiNeNk67b5+5gwZ1+GMH1rvOh2M/93M/h9a9/Pb77u78b/+E//Af86T/9p/HqV78av/u7vzul/4Vf+AV8xVd8BV73utfhP/7H/4gv/uIvxhd/8Rfjv/7X/+o0P/RDP4Qf+7Efw4//+I/jHe94Bz7swz4Mr371q/GHf/iHqazv+77vw3ve8x6/vvEbv/Fs/i/udjnGW7u4bEF7AS4KXVbooQldp4JTw0zlasvVxovxipk4XP8268yC211hr8eHbX6VwGhuCgoRz8LVyBttsvZxO92/oJUp+Qec0EjIGJn8/tNilj7beLzPZUzvd61lkHBOS5g/5VD6TzMpp3UzAoZTTS2N2+9Yr5Q0u2/FnZM2i5ym9QRLy11HgAmFYNdPAnnATf9M/UrzffDXPLpfltcqcShUYizGTUvM+GvghuMTP1tSoUfzzUDfuRCl59XhQerCdK7D4+kXjgsG868hpytlx6+zXpf0MAkYo31UL7VRUjW17Y0gZJfmV6suyujPcVQRz3X8BgiwO1uLkmhj4rf66iWTMP/2yLJlPU1RZHIt9hskenWX/ja6JxvTPkx49iJ4vU9OhlViWDX6wt6B6gHHNTz3Ll+8QwQ2AGVLl40Lp1+ocXL8XvPMwkDbkBrYnfPJfQcDtQc+XEo9f9IQRfj5EzKVHD+CckQebNEhxblgVpT45PRtehj9wm0AgXKU8hVy6EJXYQ2Hvp0Laxa0umybtzT/TI0AHyiNP3UD0Uopx0/SJX9LX522anqkOroJBN6E62Y8/DBItPn5GjZ1TMpL5TRCF3NPfsxVwa751wVYyzMsi71lW7KgUBavq8UtSG+LCVHwG2R4fpQ4bru4Rir3R8pD7ZVDIIsAGo3AAVrvpPomOr/1tjJ6OMVLicckHmfEYxIfYXsLzjS7wKrG+dzEUFfCvJReywn/vrbrydfGY+DXXvsQ9+s6mn679V3c3XF/62/9LXzd130dXvva1+ITP/ET8eM//uN45jOfiX/wD/7BlP5v/+2/jc///M/HX/krfwWf8AmfgO///u/Hp37qp+Lv/t2/C6D9QP/RH/1RvOENb8AXfdEX4aUvfSl+6qd+Cr/zO7+DN7/5zamsD//wD8ejjz7q14d92Ifd6+Ze3FPdieZr8mK6CVzX9tVRxy+bOPKIUJRxhmGeWOy2/PlyXEnrUhLgFb8SDfstjbEyyF+VAdZJvL0wNyzH99ROrFCEVSLYfuR4zOJsXyo4zJsceCv8lm/UbvV4nWmw1hfuEUbJDyoTpQ6mTWm9jUnTlcePxsLbXe6yl0Z9xnG79JO4c9LSpa29oNvUnyYgl7jjrHEOhthfmIUxY89XLSf71RU4GoMzcuGIUrWN88luCmrgz9qWS8+598eMUynlSvg7zTCOhWQYby62NqcMQ2KRWBvzBm6O3wNI2H3ob0HGYpZ96AUp/l6H8xwUrZz+Z7xK0FTMfRzHEs0y8jtg3b1+n0VOieZOYNqvxpNOeT7lEby44+5hwrMXwev9ckcWBBe2niBwPfrWvgPeVm8BqynOyqxhHP3EX460J9PIZh4pddQwa78FwK/90TfhRaFL0/RUE/TJ6poGzfYVh03zIDQR2mFVfFCVxe2FrW8raL7mtdR6VtLApcO0luBXnW6FLCt1DwlT+6aZpuQOBmrNYnA1IkSrI5IyjfNAYK2K2RmE10to902sbvC9uyfqCTQbroKWAb1gkgbApVOHJtCUA5pg84Cs6bqgxR0i7OkHSXGyUFkct4DimN7CkzJ6eOH0g2A5CH2C0wDJXlhEq2LvjfytLOGvrCgek3iZxEvQi2mIXud9lvpQWpyDSxpm/nHhABSZJk1cTpzNnWPhY+vvMRK5O9fS58NWPbfRXekjuHOD6+rM02P/6I/+CL/0S7+EV73qVR63LAte9apX4e1vf/s0z9vf/vZEDwCvfvWrnf43fuM38NhjjyWaZz/72XjFK14xlPmDP/iD+BN/4k/gUz7lU/A3/sbfwJ07d87i/+Jun9v74kgFLmydL7gzzLOTboJJZEHsSVhYzLTBSnGjf/qy3XGhDlq6KPe9NNS4ZCaqY7pJeyBXUGnmnhwT6ep+/nKpi3MhrBY4qAjmOJmlT662a5lwjn5bQEMAZjxSWIEUBoXzV0ycj8PtvgCwwyh5DxWbczYn6W5172rG0pwbyuC0QpPiJpvd8KW+80EKJJZhb5P0NM10RzdWxucbj9/gl/13GYR5TPwaaL4qkDAXk3Gp99rPtb8n+bgvZmMxjLv0Nho2ovbEPUxZwO5M5L2KWeaS3uuczI9Tfj/PBkxonTQ86SQyVJP6CBLKC1GGwDRYWbA4xmlJz/0H7rvCyzn+gefE/45fdBTczq4TaOK3jZSHYKtzb4d7MjHtw4ZnL4dr3U8n41ObgMnUTSRMQznb0rPZW8Exzox9p6i8uJW7nhPuPGsBV2eVIcYnWgKVrQJI16qAb/oGEElL1MABSrjTKwHHpGGBHN4qX1lYCwbcY7qnAYXWYUzacAPmIPPgtArXgBAgabuih4ln5j9rmJLGK4FfL0dGP8D1TfzoGxr5RzMD9sW70u+0NSM1HnvxadXYlJLOdDP/Vlytp8btpNeDmBh02Wcs2o/UFSAOnrLDuDRGNIAS3OC8iMRc7g+HCDxORKJMB072zJQyexmpTOOV1gNbavygLQrXZUjR29DHNx+U1eoUo6Nc0akR590r1i9d40WNP0D6p3M5XoMHRedB/RAGqPTTYUuVqfZIUtVhbll7AGtrSzNevH8w0kfBVKGcGT7RbWqETMbubjgba6vjNoPUO3qAXNNOq+UHgMcffzzFP/3pT8fTn/70gf6///f/jqurKzz/+c9P8c9//vPxq7/6q9M6HnvssSn9Y4895ukWt0UDAH/5L/9lfOqnfiqe+9zn4hd+4RfwHd/xHXjPe96Dv/W3/tYpTb242+oShjFhkm0UR/IdK3fHpXVNytJo6++MB8aWjCstj+NEiy/4j7GjCxULpiz0ukU/pevpjs26pqvzSlqqxL97iXdvuqRm76QL+NV27R6+bP9wYVzfI6Wv+Rxuh6cq4TSldPUwUtjKWYtAJtDDaO2UDhQjvOpxVg+l852vU9JOvXTIw+PVO9MmY8UGx/BnzTPx68l55GhZ8WjnueKFGk5LWQnLDcVSmo5VWlkzdlJa79p04Fbhz/BgXi1m60wvXcM/JG9lvWG6zW4HsH2u1x5seLaNlyyArjSw9lAm7rXUpy5UtHYyLWN0W89jxJVoyScNaze/0rwTmoRRUm5+lLNMDtgitjeB6/Dba8+dSCgdwKtqasJthbVPJqZ92PDsRfB6n5xrZYLWwKNP8LgAjT+md0CqgHecoK589Li0JVVAyvzK2IZNmp3w0J5jNBZemL6DmwWoQlEGxFkoiixI7TRB18qoYDsAMQPxIohNF8Y4rwsTOgTflJY+P5uYG2gSyxUiK+zTrDAxEICRP+MC+YfPu7p/8TwYhbgknN0S3IbwloDrhHYGWKMuAj8S/utsftfJw6Dv1Er8pNEJ+GDY4TaFGBAbcKogUUhg6MTqAsdG3UGRViDVBZVrwe6C9nsllWi8Lo3TlfqbMJS3T6IOr5Rx4pYfJ/oLdzVuAktbP2j8lnDha6dbGdwFTrWgNamVYyBWS3r1E7B3fKhE4/NCojlWiIe1hCcVFbez+m/KL/by3NRxf9xmd4VHsNwATl3hCgDwohe9KMV/93d/N77ne77nJqzddff617/e/S996UvxtKc9DX/hL/wFvOlNb5oKiS/uIXGMaQ2jTB1tGkPKZDWSSN0sjWkcjxJ2cxpLyVhveOEuQcP+jCcz/X5eED0C25V+Y7/Z8jcTTipd6NolShViNz/jptqH5WW7RPzsBbzjj4Jl237GtEHn8jouw/oYtLeyQBugfKVRfSzjUE4SoEq0U+NNKkwYnfZbGB6aCT8trrgp7sjszeJkJ07YT5ijtSEqlfTWsvByFBttOzl26Yl+uowHbxd1gLjAsPaINX0jTdqYZuoIjeNFoyy1FsAElwk6SZ13DsoyNrWGL70cVehaiJaeVwVYa+atdHJLJ19RXKddIu8U5S7GE1w5QwBoF6gyN7ZKRCm9TdyLEvMzCanTc6XM4YbT7fQT5vEQ5bzQmqk8hgjliHPcOc+QK8BY5edW9mC4hwXT3g88exG83if3wSfkCDhltwE4r/O8y6w0eudki1eqvQDlUxHG0Xvdscd72zy2661AfwZ8M5jUXm7WaE3pe3EMQlFoBhBKPFRh7yBQ5fA6pi8WJrMIE3MDagJXsEATGAShvS1sjwspTwamAfZ3aGBNNaEtUGdSgDwGThs0kuNjGkoDBbyjV5Bk+6Ft1Hy3SWVjY7S0gWfanL5Ja/xR0X5ZVcYTE5q/n2zrQNwqW7QZhePTxVaFLBLCTmngTtZ4BkQEugCydjDaB6VpmkpmzL+lorA/A1EWVp3KgQn3Ou8h7NTQvLUimd4BU6aZCkpT/FjmnGZf+Lr0WWflMfaVzljLJ3lsrC6bB0AWRFvfbdFs9eNOmIPul6jD8P3UTfaLmabyvXA+3AroOvy6uLjufuu3fgvPetazPLwF/D7iIz4Ch8MB733ve1P8e9/7Xjz66KPTPI8++uguvd3f+9734gUveEGiednLXrbJ8yte8QrcuXMHv/mbv4k/9af+1HbjLu5Wu/c9oViXdbrODG7yFmhr2dp8Y7RJo8QDLchUA9vND6yW/fuCVzh+zF9QNf/4wh4RZ+mIMtiv6NjO6u/+EHbC8VvgTo0+EKblF+LWB/kFvHdhElyOuDAwHuM/TP2z8MlpHTOEssDaXvr39tnXLkcmhH/twhCR7wmzgfqm3Pk6V8N1doXgt2MKrzvwInU3J+/7T3BHyacAY+J3bwMx2kFxecxSvan/O2F9TJtX03sA7otWTq7AyvY6KE/Wep3x1LHhtLHtXrVdPUh8J46E4kpftLy9rL28G33IbMaM6bxKF0cLGqilL7nmq21W0ciQPETbvRec3numB8IfSh1cYe7Z6SuOTEsZRJABuYKwt62bGBp4NqadlHE0iwCqgjvv+f+cWdnD5U7BtA8bnr3YeL1P7vAITgOoAPwXe73OoaVLTqA5vb5YCH3TmITTZmUg1FbtCQ3bCNsMm93Zg3YtzwCiYX8rbHeZdqjbvCW65CfbXe7v5etCZS/lKnEt7+qXnW6rbIOV4uBxBtzp1FsGbsbbLI7tzRpYlHKwVr8WvpMw1vKHkNbKA5UNoOajvAzwZSONBbmeXtBWBuU8CW0OB6oYgPUJ7tz9+dTMWu6VdTVjpOV5NEP20byWkPx8CJfZijW7sHZY1yLdHrLEZekLGb1vxk6T7WTLa/ZmweFDXjvc9qyFBX7K/SKCBXN/q6rxFffCr7Ax/kncUtrW6awPjL8cb+1C6z9rO7UjLXn2EoGmGw1R+KX6NeWpZWyG/dJpPKa0pbzJdWwaX+e6jrM5dtvcHT3c+AKAZz3rWenaErw+7WlPw8tf/nK87W1v87h1XfG2t70Nr3zlK6d5XvnKVyZ6AHjrW9/q9C9+8Yvx6KOPJprHH38c73jHOzbLBIBf/uVfxrIs+MiP/MjTOuvibqVje4Pbl+GAMU1Sum7QztK7sFJOv2IBK1IsGf0Ju3Z/fD3VeQJIABvxfNgp/Cus5nc+FmBd1n4p9FDaDDhOa5jIbLoObCEJsyyutHW++s4kRBOqXeFEBWIR1hIOvGeYPuNKx7XebnTtScBfgB4RlBiuMkERJnfb71PctKRr7JCa1R5mabUJgXo1MzRlruLlY27E19t5S3q1E9wv++MyTpJfleJjPNRxzvDcb/AauEhpHUHyu14B4u7YaxYRw7RB3O8pz6nplYly7aVN18u4i4dbfUqV2e+nltTPb7B8CcNHPyYsS/XKNC77RTTbUN3yb1x2HkMebOomoTDzesqhDTN3Kh1nEeDwoc88TvgAuicT0z5sePai8Xqf3CN2yEBfGY9rrxrBuPFMtqJpLCcPYNLK2uDjJFMDJX6fTnbptu6hNUB+BJfEL6sAAQAASURBVIhlrVLWYki7Owsue/qWqYDztGLhdXvcUvmJ+KnG6zKhTYdpFQGrHxDRD9GyDQ8m+JlovJKwczAFUMdfY6gEXYOAyjWi2Ktqfaf5lw6wlwlPVi8AqEo/SbVNHO3aiLs/CCaPg3Cc+aX4Z3F9jklNx8S/YKI+CYR91c6ItD7Qwd/7Vrqg1rVNW1rT2Ox+Wksgrd6WtgZ6WdG1Z2iQ186LCcNWA139zfWiLV8XeOrS+OemAHGiqT2TooDbXe1zxrUPREMLweL7c2ePrGvMgmlK/GSoTrobbyAeKN21kUrdtn75XIwlLNF45r081LZEb2WcEya3tX7Pom+q7XpuVqtPblLpU9Td0QU3s4d1/jvw17/+9XjNa16DT/u0T8Onf/qn40d/9EfxgQ98AK997WsBAF/zNV+Dj/qoj8Kb3vQmAMA3fdM34bM/+7Pxwz/8w/jCL/xC/OzP/ix+8Rd/ET/xEz8BoI3LN3/zN+MHfuAH8PEf//F48YtfjO/6ru/CC1/4QnzxF38xgHagwTve8Q587ud+Lj78wz8cb3/72/Et3/It+HN/7s/hj//xP37t9l/cg++e9XTg9/5I84J3zE3opjlPKC+fS6C0FhKmY1rCiKNGK2vDIrBX58Xq2rbPulEG+RVNO9jyidEan4OwKbQ+DRcAQNJQ9bjIb+m+PwkoznAl5aH4wU6s0Mt4wHGaY0QLe1XsH8M5DUPaAtO14/GLtszy8t3AyKrtnOKCfrzUrR1JDCRgvGaasTVurumLGI8NoJKmqxR/ZXqL7pz8x8qddBQfvrWFSbTTobc5FxMFe9wAYAqwmgD9hit1V7vVmJt2t4H5Geh0PqneGWZjdzfSJ2ktmsA1uobpMHmiLbJ0qlVTSXYego1Oy2lrV5yj4KDbGbB+DG1Zc8YNvDyjUGrSyHGrz+qmIrt/287r5Kk9cdtJWfd+PO5A1WbSQHB47vNOrPTBck82pn2Y8OxF8HofHQszW0QFj2eVdha1L38SMUmQmUomhIPT7jqJT/Vt0UzCVbsg8mmUM2m/WJ0MpBlYGz8OiAPw7tt87TUmYS2BZaILQTCVS4LbUfgKCsN/GIzpSBq8YV6gnWIrolhAcRUEsrDV7jWOQP6gjdD70YWo/iMBlB7jkoXAoPIqfUy1mHJpm050/s8ldj3Y/eneyQhxDXjFeDVNR8Z94nSS4xDspzzWBkLRFcplnYct/wlO0I3ZEzDqDKsAcuiVroIuSeWszXarCH0D0etfpYM35lygV+oho7bx1TpcZ/pPErqeE2/DrH3dW4AlHcRFlffx1TBY29Iybt0dngCd/KMRu/6xOxwGb3bZzO3gxPviWLh7C+Wt99V92Zd9GX7v934Pb3zjG/HYY4/hZS97Gd7ylrf4YQLvfve7sSwBfj/jMz4DP/MzP4M3vOEN+M7v/E58/Md/PN785jfjkz7pk5zm277t2/CBD3wAX//1X4/f//3fx2d+5mfiLW95C57xjGcAaJ+J/ezP/iy+53u+Bx/84Afx4he/GN/yLd+S7GRd3MPpBm1S7f9Oee7vlgBW5n7bD7xkIfydNuuZn+gdM+74HR8Svx2/rY5FCRdWTIkSTwJbxx0AoCvhriwArIdL8RUas/Mr5SHbqd53vq/N87d91dqR72Z6qMYbzo58K5YumBary9rtQzTBg8VJ/y8dINQhBsq+VPDcrOA0BWeVak7TRNb7lOkmd+3aBIN275YfIOBV43f82hndLXeSpzQhsPjYv+7XSVzxb6V73OxNtTJ1f1YNA8LuswNce6hjviE+MdIKVS41/5hABr43SzfzWBZWT8+dMz4BPY/ZhCX8paqtnQLomg+1aji5C057VoEke6mzF/UsbM08BH8yxM0OY6su8uxS8sN1rm1Xb/wZmbSPhojPxfwl5sVd1z1MeFZ088i4iwOaavKzn/1svP/97092Km7q/u2vK777rZOE9Cv7/KHRowtaoZ8C3roxaTJKcYppgRzWs+hrnuSn3XsWzxqvVYDqglDbjZLQ1FBZFpaGoDVrLQzaEZTfy3SAvXZN1jAx4GlLNjEATqe0rbJU1nSQ1iJd0GpC1C6QXYTjrvBIB7YHrFhkxQFXOaxXOMiKR9DSDlhxkBWL+bHiIOTHVU8P/6Hk5TpmeQ/o5de8WLsliaYpuajaV3vuX1ZgWRWHUATmroo7p6vlm+XR3TxGN89L8VdogvAYxvb22Yb6Ck3LtMfpnl+1/Z5atQkG9/za8uoJ/lUBXK09Xp0f7WW2wwRKHVct3UztqvHYHwlFi/TfGGrxmn979Mya8sHfcEe+XJ6V4eX1+ZDoUnnN4/Fef+SPNI00hohcfg/TLdJB8VbvBo23cchDsHOz3I26NZeZ6J4ExzZsZ+6V/+/fxtOfN7fbdF13r/bpU+v9v/7uG/DIs55x7XLuPP6H+Ncf+QNPOv8X93C5e/mc/N//n3+AX/8fo/1m9bdiJxRS8Oh03TpR+Jo1RyOsUOBQX6iD8CKSYNSxZX1hTpiQ8V8tI7Rpg8bLcXxZ+KQyQqt0RXpBTli0+bsgtse7zVYDHhbn5eU8of3ahbNDXOPhYFizY0XBimUjLB0TzsLhNxuuPcxxRosWXgzPgvMoFlz1OhSDGS26H3Q7fYFCdCdtg2ag1520nv9gUw8d05awTRP/0C2mavYPabIRf3fzLJSHpj5QLJ3luzotp6Hj4xzXcDOuWU7OQ+VgVl7D5o6vOy427GtlG1aN9xYaeFFzfqV0p1v1aL4hPtV9vI6G1Wu4louOFzVw5NpXnpRO9fR+40NoK4bu5Ej4+Lp5uG4ug9yIm0eaTXcGqfG79aXWh//f/nd8xLf+nfMKPOLuF57lui+Y9t65i8br/XRbQNRfy7Y3VudpwY5v7q7Nx8BPoT92BzpgQxKuTsM9GODUACgQIBUETsPPNL6bOtANGv6KpdlUDXotO3L+NCzKSZqwJ+TJGq4ZfGdtV+TwkrVbPc3thIHMCxgQLtqtU9uuE+1XLTT+5lDzGEBdcxUlPsbatFqp78lvabGHWTnNLwDV0eO0H6YF6eXbm0bz9z6yz+3VK4r5wXHdL5O45NdJ/hJn0Ymu5LEhT+X0prdDr3qjrS+Y79mzteU30wY+V4u/mw2ofoF2m3Nh+1UXgVz1fl2t5/sYGoBaQyvY56a1KWmU2jOvLhydmRgIF52Y85XTRGF89fp6OU6HWX3W5hI2EGjrlQYvNFw+jrNVtqWr5xC1NUeiTM7LcwVUKVdoGYje10+lsrztlj9zV5d41XiO9tw5O4lpRDyMmq1XesBNPsu6ukHei7u4p4IL2/PkJNLOcsfod9Lz18pawpmvhAttP2Vc6f6CASfx4PZLeynuYTssy3jqd47zeMlxmS63zQWitE+l5lE/yUCgvt+n9u/6s9aq7a2YhFlDN4WNd8JUvgeLYVHiDxHmth1zM+ik0odiq3m0r866geOulWZ7tuZ28OiyGSzTrhtwJRdcMOWU7lieY/kTk+LDN5BuDE7CyTqJsyQZ4zbdrJy9zOlx0jwFxcaGn8P+rz56jq/4y6geFgp3kOZassk+GXFdvJVn5YABvVKHhZXTGXDC9Ezn62YzVRYgUteBy02/c2dN3CCY5TnmbGy0HLAF5OckPbR7rs7pPdKOx0279WFTUbxg2nvnLoLX++TSJ/Rbjndv4IyVy2DKKSuFDHwMAoUC2GJTmodTHjI6tZUvC1uR2miCCwN1Q/m1rA4AQ2DZW2SCUPNDQ8jikrGs/bolZE3aDak8pLLn/HC4Cl9reMUojDXt1ysSltqB9yH09DfnEm/bk1CU4yT7/e28oAs86dLGSxXYjj8SosxZ2snpDK6O+EVZ7IUgyFNzM33q5AiN4R8izQBTs5Cs+F3o2gGP21btwm8/LVbQPj/r80hUfI65fyu/Un6YsLT3lfl9rMkvaAJYa0x/lnXtQO0A13IVbrgiUBHFi9UDhqP8IVJBRYokrA1CzXV5h/KYaCqqosZYL6yeSAuzFIL1BLQlJRT2syZs3QX/TV0bntMg8DEq1m59GAWu5u7oAbiRPawLSL24B91NBK8ALedlMy7L/UnuBAGu8v5g+2/3Bx+B6fjlsotEDcdRnea38tisguM9Fr4uyLIbkur5dlNAicvYOL5g2PRSu/Pp2q0FP3FRY7pVUfPomEetDsKX5To5zcrxtvS0jml9rKzdxifNE/9ZgPm151Zpmq9K7TU/x2EnrcZtp2Wn6F9rlfgp72ny4HRAcCpY0A3/Hh2xxJhPNvhKeNiRpBas0F+eOzCzvDM7okB+YczMHYlP64A9uHlNmpkdUJ6ThuktXOZoqnprImppEZfB6qUAdWzUzRzED6HJr33heujXScf2hscTVu4AXfpZDrYg6Uprk7Jfu1mE49PznPSxKWWcah/rCZg2T8YNApACAa2C9rvgIXIXTHvv3PknOtwn99f+2l/DZ3zGZ+CZz3wmnvOc55yUR1Xxxje+ES94wQvwoR/6oXjVq16FX/u1X7u3jJ7jtlAD7cAqdC39jn51kLd7cusp1w4vtRwd0md5SrjzjSXasYpCF/VDo+yPwY4LPidpFRi5n/tro0+MBztZNqd3vjaEoVv+1tYSRknDhB4o8XUzp3jfdOkQLUH/FCu0USONhKo1bkjPQlS/C8gfAD/xxOXMyuI0NoOA0NR1e7TS452eJyhP1OYXTuvj6oKzcp/N8y3ac+7DtRANol5lvxS/oGdmfxxa5f4pHfnBfsqDI/kx84ctW/cvgCzSrkO7lh63dB7jkn5N+g25jzxM1bcfmdTPiPmd8gjn6fN1KFtr0+i5iK5YuN3obehlLNxte2FpfbEs2+3nuXOu/yaX9Q/zfZ3Lfi8skvvh4i7u4k5ztw7Tbi4WaOsvr39GvwSOOIZnVfQM3BtYytZ/48fw3XAtBQf2cnLciP3W/oJ89RfliDbR/4pZkxksBA4OrEfXLK6KKYin2GcojsZIUpmIfip1zeJArRr487HEND4UKDjevtpikVpguzHuuJPhnttkL4BHOmTcUNM24mpaXIGnRXvdSiPXPemLcYL+UKRPtVHSUMoZ/HtOTvSnTpf87sN4LHUr9vumTg33T9jYYs0qG+fEVgfwb6ixRCut4vEQwInHu43PsqgJDGcz7ViGcDxNulm8Y+kl6pRywTA5lW04dui/vY71OE1xsqD9NluaH9ZECT+4KeQ/9nNDrN2FJvmXhQor7UfD7XW+DZeMF6/V3FbfKyzlWOEXd3FnuAdG8PpHf/RH+NIv/VJ8wzd8w8l5fuiHfgg/9mM/hh//8R/HO97xDnzYh30YXv3qV+MP//AP7yGnp7stKNXAJQlnqutCQ1s5srDx/CvgwYmLjC1Kk7DOwrAw7bIL+Uu4CjddOHtK2gwkCvU35wfnX1GBexbWZtBd/adeXBYDfJ0AfRUtpgUan2ZItAk4V2qz2eXK5gQc3EKHywSj4HjJwlLbROFDyZtcAWLW0THsJ+9Pm3SnAMxQQ2nRR8DnjfbKknla1SlMgJ43KnT8eUFpOqebYahEJ/t03O8mlLQEISIpGQIIRpiFjTMBrMc5CJ2UBQonOsnlgcqHlLINqCKHwcBUUsOqJv3dwFSdsw4OBYTrhjl/ih8n+ue8YDIWp11ehrBQOf8IqXHT6/Sue2DclT5y4+viHi532zDt6RioCFIBx2FJkLd1nVIfGOMyftJYTIvfsGvFYhCQUDZwmAlbm7F3w00I/gGwVidjUdfs5AU+3ZV41IgrEqtBgOpFBA4Egi5roAZ/rOma96QjL+l8j9wWfHiaYHIPDdgqkdTcLAzf+h6HV4PL3RxKG0l5o4/TrHjDazMYejROdNxP6e57c2U4bb6TxiT/NTplYHTD3+vJJtvG36kOxWfFTSZI+s04YWxgZ3heOb9mWr9ryR+/BSvma/eMvGQARC3N5vd0gpfZJkfSx/yTvuB1a+hhWjMAhKmBeoV2iuFioxPmBRROfUJFDIJY5ezZT5cMft1M9+7ly58hnSSecaFp7JpQm/9s3NPvi+nf7XQXTHvv3APTM9/7vd8LAPjJn/zJk+hVFT/6oz+KN7zhDfiiL/oiAMBP/dRP4fnPfz7e/OY348u//MvvFaunu2NPbN3QZum2gFviIAU7jQ//XLlH6GSjMtoQFsW9fjIV8QQwRSkvbXg1foMm6jFgFGUrxxEw5c//By1VcNjqZpCsSJud0RvPXi7Rb8XZJk9xUfc68NaErpy2wmy6Ng3XNkqibbMzu6wLKM0u7WYDJoLXMBlAQ2dlJmFsa8/MNIFAo15Py2XwD4Wal9MN/ArWbhZNY/jL7w+foAV3+Cf86HclbGFzS21Okn8rruapcTYHez2qbRzQgYnZJxL2G5+db+eZzAk4gRiAiufAKzIUoj5wPIitW0S9LK3tRPjVOkoJzLLfm9sKEK8nOiC6SHwVEcqhfW6oF8mdaK71QbXBqqXZQ7jQpXFCDld7r1Dyl6Fu9p0CUKav00r4NCfcZamfuO6z/dTm6H1ymkbuqFP/18qWI9luKwA9xV0+y7q4c92txLR1zRFO0SGO6QJ7neF28G7CqcSXYTAXqjom47SehzDkOmBIo+mlDgJSbpMGr1JxZklPoKaEec8ud9+PU1l13e74SsYy+WCuhGMnWFaNHtr3zchTw353O+w9Tk1RAI4ZXZiMXEZ8aqzXvEZneIG7MXZH+hx+kn3YC5lmMofbPi8T2/FRiScRqDHo54f7MKbZ8hs/W/5r5pkqWdR2Es9zglo5uy0sGJltKmYUQ3M9jaTNo/JfAZCNe1EqW6JKXaQdsNWBU/lV7JNHoOncAStLa5/PmovArGM6A3DrVOrcnfLb70cp09+QOWFWZ5QKYVDLILn3WbCjTW4AdNMEhMFXWx8AVaFnydZF8X4P8w6lM5gP+u1U23yq2SzLmM1jibNV5ywHZ+lTwlvkLpj23rkHRvB6rvuN3/gNPPbYY3jVq17lcc9+9rPxile8Am9/+9s3QeoHP/hBfPCDH/Tw448/fm8Y7GDuJDryzhdolFUCfXHbcttAZLNsKTRb4e4f3mISHe8D07RS1jSNed0Ao/F2MADhwJOFSeiXADTnZeCdgDXl63SsfWt2Wd1mK5o/gXgogGLTlTZ6FSWha9N09bsJP/kwLSnCTb5zOkq6gVwHwBzuABCRxld8whxgJcAJKN1HFzbSMtDMkO0MbUrb4G1AO+ozAd/gZiD6pvderbeBWFUQftryC7JxezRAoOxXqgBRYQNCxa+UX2tZSPPfZLLo4Gcoq/sh2oAPrzX1vkgHXdrLFQelIRtu5RJ2Y1yXZMgJWHLHYTvPGK9ZaAvA7Nda2dO54sTYW0gHNxfMHisgC2KtwqELJv7qnGUGs5x2Ikj0Oo7QP2wHDmy5VZcbHSaw6gPz8dHF3Sd3HUz7pOFZIDRKq6M15JjwNdHslDOpfYOnnK5QOrgUvt8GBszxTaMvH5JlGqyB/VrJ4jVwHNWLTFvj3D+8Wea4Y1c0we9un9X2c0vL2C3ycVwWerJQdP4FFbbDCYu203vE35AGdos2Sy+jxfk7ZbQds5Uj3p9719AnCFyTp452PEB9KgpTvy3fBg7lzupiXEvVMDyeDneauiJxINcMBl/b7TxUpVzHkNP6ZEyjrjJZey3+RDgyMkPx86Ukz/XgUHO/Vqa10EufxX1uNvv9NGfr3E2HbaWKvaqhJczkrJkyS4sJ479NNRMJ+6RMmKXzujmPOubXsXoPW9NRulLQD9qN5yvJcTXg9bTqSfOHucJ9enQS5XYyPQthN3Prfvrpc/jBchdMe+/cre2Zxx57DADw/Oc/P8U///nP97SZe9Ob3oRnP/vZfr3oRS+6ZzyeZAqg0NlOPtAw3UK0AKrW5RSZ+EEAE5qlrVZaPlnQ4ldbcBcqp7XULweb/tY/4vmzn+20NdOJIv0NdrqITtaefwW6BqmH+70JSSldQuNhZh5gjB/9m5/ZdWFszZeFsit0aZqu9TO2pC1AcQYQqyB0ELZOrqa5usYBW3bXbouVeBi0W+nHwSDcPSLoHezA9hGeIKf5g+T+dqUXAiMKDlA2Q8tb/h1eeKb7D5W98oRYN7+fuiDEpxS+hfgWKq/4Z8840J/V4qc1xf3Ifgv7W2KvR0p9Ss9/8GL53bRJqpPCiQ7z+L2xrXm2ykBuLyTMEHgfp26LAawgbABlzJcRdKL0CdUkjN6/w+f8zGqwnHhELmYy9vNp4SS2NAOb5hAm0+ns6+Iu7uLOd9fBtE8mnj22YKTP/DGmBe6bpDGWwwxbzfGz4yUuZ8vGa7nWpQtczbyg/VqitdzN+NC1/WmtnEhXwwVPHL0Hxm5YLA9Ru88ENCPdEKuSXrYNYi/iRa1vhnAbjwUAVF3zLUHbntZI1SojN5Ngje44icCwQe1GbMRFWuDd4ffNEDcys7cVqkTpFDuWM23gyEMiTA2k9OpnPI8Ymz1XFWLsSy6GiS1pxFjs5+fg9PlZmaldpRZdmsyL0lhIenYX6Z/Z27MsCMxGdEJmryweOT7lh5njKPktHrmeMElBn7w7huVy5k1La4JQj5ZBGZI4nfxe3CQ9jb+ZJqC4RGNZZ/5q3groGBnDFZm71NQOI+gJ/sv1CDD130EXd3F30d1Xweu3f/u35wdpcv3qr/7qk8rTd3zHd+D973+/X7/1W7/1pNafXF8nNrdQKVelExPCkohL5gDVaGuZLNj1OoSFGA3IYtkQekpP2xBOYscPyh9pmNJVoJBA0ARQcB9yezzsQt8Q0KLbU20/DrqwlkBu849mAyr4z+2LOPXDvuJHwrqQdqvaPQtHOU5UczzZdoVrq8JB46ixYECdwyFUFRsDRi90sRB1BuAsXLVvhxcDZWIryiD5AzB5aPpuzc9Kuuv8eZreZTt9VjUjeM4/+LkcBoiEOFzY52Bijkwk+aN+BnycP4FaA00O9Eq8MUj1DmZFekDo3oBRH2vHNiyQZ7yjzpMk3jM/Kb4nhA3X6IsAsRSm9iXbsZ3jVH5vrwPEU6SQpU9bYdZ+RerD6LIhzC8v0nPF/KQxtj7FeDFb4u/PNq9ladccwI78bkQ/lO5iD+vigKcepn0y8excILolKM3xjiUnwlXHZRa3HCl3EMjmcgBgtg5beWvBmiayqUI1FxTvxnnPoK7pR+NmQrHNe8OjSDb/870hohWCRjMegNrSGOtNv5SSwIGc3rrymCas4VHrT+vj6CnzDeN0DVeHe35v+79O0rmgzbSJSxhRq7arjjSVYcz2VRloruX0fL/PZo3kaZiyDy/AKx8DSLG4WQNDBFljLXMdU0DaVz8Ovxikdd5SkTNE08txmpiz4utDxE8x00bxMlazeeks3nFprFX+EykVitLXvYcyyKd4yl/SheKEG+FVSafjMiXqR9kP+6FgQ58U/yxcFcGsDuUqGfdXdlK2EUNP6SbXjZ/Hp6i7YNp75+5rz3zrt34rvvZrv3aX5mM/9mOvVfajjz4KAHjve9+LF7zgBR7/3ve+Fy972cs28z396U/H05/+9GvVeY7zjWnPnfBAHy3DyuHFVAEGO7XA9HkWL862h1ne9sqaNlQloQxvAhavVI56ufyJlxLNvDyldo/lpU/3WQCKCr6LwBfhr+EQ4Ja8XKfVZzxSGVnzgvIOPJpgt5smWK6aaYG0MXQNVI9jYNxtvJY483saA2q+PG4t4Q7ECy3Am7T1DQXHvX5Oy3RQLN2IkGGK0vU8PaIIslPk3UvzlvGHYwe6M20WwuU8LNSCoAnDVqI1zgX+WZEI4PZPBe0Zc3+bP9aesDMafWCwXdSeDrbgSXT9n9hzk/xUHxogMZtrzqv7JT2//jmgdXHpL3+OEbwrtAEztvuqwbcgD1FyMZQDbboLuumL3m/U37bEJdMDRNfKVqe1/tHaT8yWyOm2Xn1ArPBok9eZO62HbQLw6I5dY/NPXX2XC+yJ084tBe643fE5lfYhcVc3tId1k0+6Lu6p455qmPbJwrMAQsBZHS0MjBa3FoyzzBWUBXJWZMKaBZO1L5wIN3a8VPEm2zM13CY9nXGucJ3dZ8mp7b63B83USfA+v6vzuElnWJP44/iZbuVMmxOpTQXDIvpoFm73ZqQxcGE3EwUzKUDYiuIyX+e5XfxQ79JMel5nJZZeW8XKFcPBcJGHNJXAbfYZQvhNoQh7mKWR5re0Lf8sz05ZImTblVgayq6uD/sMGxg+gyLMEGhJn+WhJyZjoYwrgzXq+TXGidkfArVx1A+qucEV5tn4Jm7ETG5tzLz4ITCmC4VLuh5Jz7gSo6uYdNqB+TdETReq1vuizjvC5nnQNJpvzFr6ZN40bK4eiK/QNG4y5pk1GwPNuLJISt9ztxP5XjDtvXP3VfD6vOc9D8973vPuSdkvfvGL8eijj+Jtb3ubg9LHH38c73jHO846RfaeOUEApmN03W1S7zz3Kc+wsZxQXwe37BcOb5UreVMa8mzkTxvZlKZsKpVWIm7+6bQBQw0/C34pfworQnBLYNLMEDS/lUOAc7iQ7lriQoO4ax6YQNY1EkzouXo9LDCtGg5J43UmbEWUEcAR48toARhU+p6PboIA2rRu9+rYuALEm4kBfjROeEYGR4Bk1WGaJEfFZ5p5DkVMwVliO+iMilBLoDwh+SM5m4afwQnPd5fuUsaOaHSQIBa/9Dr8IWNImpvjfueH8okJOpkvI2dxcBe+9l8zgdkIlnozpB8eAYqnH16OwDo6ZLxFUtIQss6EsbXOXoRGt1I3+RSaAk7qnxRH4QxCedwwuHkxCT6OmUreaIN4G7am6ak4cQ5QT6O9uIt7GN1DjWmPOhI2DgtGrOvDumWYi4NCMYzfjnIwF7Za/Y4LvdyteKSX74a5NPGzl5+FuJG/5nNsJIHhkO6lj4Z02pDsLg2r1ejo3xEzjXQC01z1Yktazr12Gtur1f3WDg+TFM7ssTNOzBq06nwkfLqDN+dX51QU1Z5r+nqL8apyWu0xa4q64FIIljJO4Mu7zdObXdFII1y1Ndk3N/4dNwWAMGjlxWZItrXrs8aj5dPIJ5k2Vcjgc2Am4qWmaeYm5kiAu5hvGfcOAn6XQpZnB4As2pKuuK0sBO2x1E9crMeNRcdv5cKOTRnuEgWG3ldB0x7VBlzjbIGwlZwE/X1uai8wcKdmRYKCgRO25eFjzIyCn0s5c0FsL99+Bxi0t77qSi6pP9JJWdQXFL3lWIniJu6CfS/uXPfA6AK/+93vxvve9z68+93vxtXVFX75l38ZAPBxH/dx+GN/7I8BAF7ykpfgTW96E/7sn/2zEBF88zd/M37gB34AH//xH48Xv/jF+K7v+i688IUvxBd/8Rffv4a4I23OY44XlBPpxtpOo7NkhzYsJPS8zHvWeAWQAKVyPFOm3aVozTojs/gpZaS6sDJrtNawa0H0axTEFtolyhDmv9Brj+P6ctlr8OSC19XTdFnhpgVgwsyuyQqkOFGNw7YsXUm7lfN4vtPBaAafa06nAxusL0Mb1sYp+sh5Sa+2FSbIY1DeM2WAwcdK8qtZJYSQ/MgbOm/w1b+XvgE+DBjwgQf+ZnhpQ6poQM3BAp3MaeDF8Qb7F/gPI/uRZAL+ub/3ncSzJ9VvgKf4rQtZy7OuMsodIdLzazBNa0FCUAbi+umwkc2OxNAifEURkO7RcbzYsoT4ZcPsaOngnheSppH1J/9sHDR0Weu19FQNc3c4RjwxzPPOBNMRnoBiC9qcLOVy0Xtub3/ZAqi7e9JD4i7aARd3rrt1mNaxUI03T9ldhvVEU9yIWedlV/w5L7sjlS503Toka9RsbfcQWQR+EcM+VPcYd4r/FNp8zTVSc2vnQljaR2yPIIzspqSsD1ngy8LeQbBL+YnHxmczi8V4kMfE8OK4R+l0HGfunD0o7ed+D/5MWLS3Z47xWwJfDC8sJeWqBYsLmwOPTfLXId/yn+pmWBcIoTEzvoFTOFw+3IGKhF3DNMWiMO4XQa3UaCvTXMnYLC99IhTN9czyD4gOhg61Y1o4Fsz67NtlBvbfrJOk81MtWUun30GB0ffXwGnz1nlznU+V0r5M2FE+0jjIEAsvxZpBpbLANjc3v8TRxZ4PX7yGZiUcfUN3Ull3qa6nmrtg2nvnHhjB6xvf+Eb8o3/0jzz8KZ/yKQCAf/Nv/g0+53M+BwDwrne9C+9///ud5tu+7dvwgQ98AF//9V+P3//938dnfuZn4i1veQue8YxnPKm8b7pTH1jJ3t19daPMId9O3QrkT+mhvpACwCBYlTHegJT7fafN8fC6QHUhx1MduTzigerNIFM7fQGoBB6TYJTyD/ZbJXhUro9+cGTBL7WDDhxymkVTnIqGeQAJQaULXYXvGmYEYHcWrFIcalzvAhbCkt8P1JIcHmhEe7NyX9spulNhrmKHR5sENu4ZeW7ugfx61qcpAZSi9TrcJ1hl7z67GCxw9dWfP/dnv6Q3sLoIZLU51wn3/EovSXb8gaJ7V7PfePV5G93bwh1MSYdUXai8u+aY2QgzbQDqC7iuAHXfaI4gd2ZK2PT7s2cYFTQ2tMY466wiatVlxuaLb42jMCsep8pm/CItsXNaakP6yor6f+sE1oX64yaaq7OstxR3nuVWPUBudALsBaQ+bO7WYVrHPjU+vEk8MVk4GP/NytHZClTonSYW9/Zf8n0LS+skNNg1p/0y4nVKd/b91Lh+F8Ax51wTdnZn+h7le2JLY4HHljappbHgUogPFcWh8yMIzTvPKyUu7ct5hGZx13GnDIF2eLOV95hrOKcIk1nr8whv0zSx4Zpovd68W8LN4XeGYN12qlLabhgBsXJVc5MSVn/5GZemdit3zOtxilBgKM2T7tsbi2A8eRBzVdq5KF3DVNYJml06rlcJASe7hdq2IuWFYWyV/htGOs89nbRbcWXAlVpZJZnC6BoOcAetV9Yo8SaLz+dWVKsrm96K3weteullhqkCU3ZQ02TvPJriA6SvBt5cV5HwspUArisk8LZSsXP2Ep1sgmFq9t17rh4wd8G09849MILXn/zJn8RP/uRP7tJoeYhEBN/3fd+H7/u+77uHnF3fnfQ8n7jTX0d7NuenHa0veiE4BMIQj5UxEaayfyKM5XivM+Up5c7qSDTBswH243Zbe1kMPF2wGmAx8iCAL5eJov3Kb/4T+M08uOBLMi8qCunmBVzjVdbQaKU4E4IukzgXmJa44ZAElIuEpahpWOc0fU4kMwSUPqAmobKIb0cdMYkctLUutAlpSI4AhxG6v6WJTb6+wR+303O6G8Cat9+D1y+rJhqAO/ZfdBD0AgZoEM+zjiBJAxX1BpS0XnDSkJ30J4NoB4cSbcDStCd0LfDUeAKSIm0SIlobNmhqfCCn8Hseop3h0617lF+0XqmOvbBXQ+H6edk8rN4mVtydhX09nAHR7t/Bm4OrZDKLnEc9VO5KF9xMO+C+nnN6cffB3TZMq4a/Zo7WoGPC1yjvOmUx7kRZHNvdvqrgF/4YwhPMSriOtWTzi/a9+EjXUl7K55iI/XvX6v65JuxIV6/2UjxrrOYLR8AK7TN9TzKlgTChZIKufjcs32nZKWMqx/g9jnk4B2xtOvX/vO2vAhx0pDStZjZLAIsrfRYfwEfnCdWJlG5UBCAA37A9ZgfjDOGaNjZ79DsjEkN/Ek6xcO+lghMT7gEPXYuJOQFELyn1kJlRGuNa+YGHxUBef4ijXE31tn7UcR7lYckdRM+pYVBrmEAjnFrHnaXUYqKl9FynTvghx+Y4tMws+x3O1dgTyG2u86Vi1I30IQ7np4d8oebRgs3p+XGBr6QyUvdQ3s3u2wDD6bHZe4Zusbtg2nvnHhjB661zgtNAwzEaOWFNKGUc1TroQkHeGLQfpOXpvPsXgKpcrnA4C1VzGgawzMJkFsAmvqUskHxRnNczCF036gG3qWjCcl6QNqylF8CdTB6IArI2O64u9F2BZXX+ALh2q/PZeRFPy5s/a8EG6JtonKY70VRhrDAtUnhGb9PB+iaGgTf4+bwT9BPX0e1ZEYhzw+tmKwuASdsa0Ih5KCyFSshOfLw8vsyPxBONQ2MOWbOT5lTdt6tQLQlDO+vsd23SiT9pvbK2qrZDKbT3jUgHexKnr4YJAuKJ5rpYG+yHg0RfqzEt4j9SQ7uWBscqSOObB8DnBPllEai1a4pqGJUh6NS0bbEvfAWHlacIXF9AqAyl8SRueLrUOB74oQVp7pU2zLrJ+7NU5GFJSVzsPBzPkCWw3oCx78k6luV0G5GzEbu4i7u4h9ilvaDEG3Yc4ofYiRJBwXzIa53WcqY82MbAeKbn7/fYqxhbaaJCos2c5M9xOf502vMc8zo6IZqkTTrgHcLDjh1zGSxQHLRdUz7zr0Gjvb818GCDWOH3oZPIE3sg0e0406gN7JmvsV12385ngzfSb8BG71ICFcgbrL+09WmWEvt9FtaApgqoro2TOg0IM4zAhNwRjVnub9Ej4UIPgqs+70Bt3hrMHX43l5ZOm94Z1DXF5h5mKHXHCXvK2PRGNjwLB/fZlqth33bnr0ftQGASF4Mx9igPVsTZBw1/an8wZNYq1y7gltpzasoDvW7WehUkZYyq0JEUCwTxm8a6h54Z/u3hj0FXEnHMTawpiLaWyT0xmX+QEMwnJ6M3kWzY0BKm25kkWya4Lu7ittxF8Ho/3dYb/Yk7VaP1KN0WOLb8tH4LJISsA/qIz+sj7KUE5jBhrMzjW1qUw5/wn1We+U24iSzwnGu/7qW1ugZzA5yPdnrbMEJAC+eDNV3zYVqKVcymawOqi5K2ql09bhk+4a+2YBWi61yjdfOyKXEqHQ25A/BC0zdaEwQvCP9MuAusBALyplr9fnCSUlr32yY+9XfQY+/gtoD4XloC2AKaMjqCDUS884gMQKpfO5hyoaFX1BrTyiY0wp8EkdkB78rqN+aVw0VY20FYPItdXCcG8ogPn+fWL/Fzku05TQ/dMruv0uMULuRt4O4UO7BCwtfgy+aHdJ4Zf1LzbVZF4z1RgyhJdyOzg9GJG16iE1Adwj65x7DPAUvnSVrCIbjXFLfR6IHfBDJP2JYq2w+7W/UAWS+fZV3cw+sU6uv8Vrq7yVp0loZrpd3FvZGH8eVw7zSO44TrYvrCQ3nRHhh1zKelPJ2UO8s3CEd9H240Qji2fdrbcRnt+7GPE/aa9HnFdgx8zB6sa6Sm/LbH24s/yfmBwCllfJzc6ZT4QPFXRQIEr4mXfI2KB3zfw4QzbdZjcRtTMkOmqZtu1X2wY/73f3WPd//Ohn/UNTDBh5QG730kXJBuSRJsodXviK93D7M3yPp11u+zFmhKaK3UlGR9w+PXHhPjMeYJK3ac7obOboLLBKJKA7TmNBzfEfFg12rMO2dDt4d5U1UVXvdYIH15OJhwk842fQnK+NjzWNEEYrWHU54cF/OM6Dqvadk4MrVFIlE3tApO/errnK/Dbpu7YNp75y6C1/vkFLShHXMzkHoCTaPT3fSBvrzKHM0BEDjsm6/Wxd3xwPi/giMd/COQq5TTsoTjyo5ewslcgPlpIzdkkLRcqwB2IrRdva+tvKCNQ7VWz6e4gn/6L6b1SQLKDj6bWQGOi7RFxrjRrMAsLsB3aCEUQErpc63YAoLtx0BCUlaW0YL4aULZJphdMlic+nnHnfl58y9+QbfHZPOFsk0wz24c1y5wwZVpxvrjs4Ug0/PFYHVskvbyA7CoV7yt9RpaqqZBohKHNiSM1/kJIBX1Mq/Dp5t8PxPfD8JXr3q07+ovfyZjMPixk9ZBnlB40HaluGyWoYG5eqjWYJeXl6MJZjX+CqZs0ZMwY1dshQESuqID+NwlY2DuWBMqfy63nZm7+WF26w0PIriA1It70J1//VOdjHSz+Eo/CHETxtvJX/mqglLOa4tqv/ve6f9H3FnxLH8ZBoqd55tyuOG38LHrVLoZB4Fr872lZtjS9zqCVlZG7B2rYzvGfUFPglLGPkyX6kSM0Vlue2eqaPLoXfLUGaqZVDDI0SQlk5afZla3GKE0f+mPNs82bb06mEB0ZMKYOuYpWav/VDczMzCV9UUtGCVcAZoY1YSfxL2MV/oUVqJJzR78pzRw6xkNv32lxmdKeOreWrXVLwV+eUtcU9YqjQJCo7YW3P2GpSdC2fhf8GxqSGW2YkSeczNQ3sPWjD7u9TdJNKnOYStqNl9KdQApkWCg5y8Mb+RO3IceNHfBtPfOXQSvT3U3gNb99EbTd+VzF4RhcaONOQFVu0s/IAp9IV0TTbzNb2Wpp2VtVt2g8QWT/S5ICj5ic9sWim5qq0ovy7UWgqaGx/Kib3J7lNpZ8xqfa++70FBtUru4N+HmWtJYcJptezF9FppmDdpEb9egTavTPHFvWrqYltHaXsvc/DGwq+1KG2908YbfJiLFk1+6xsAWkDz5cTGQ0MHe9NMaBNicYmIcA4OMl8XnTStXoqNmQubipt0loE966KRQac+tg3lpb+PFfyQwyK09lgGgSADEDMFMi1UhXVjdxkX8U6pqPiB3Ti+30FhSC4e2sc+jXkYIWNXxPr+o53sdq5liwklugj23widry2Ic7mRCgOPPBJdudqIXlEex0J5X9MVd3MXdRue4aZbWbqMwdSSdCWarPdbz+CrlJ+Ei3wk0kLA2NGBbWrzYNDzWueY8hgt28g31pjsBoU38vUG7ezf6E/LZ5un4LfViiVeIXLWw2v7f8vu+rPbiM75sCeFg0DmGm+3/1e2lbbiTu8rvBuQybpWJn7VwDet4vYpJbK7LNnjlsDBmPVHrdc8doxEJTEWYCRCc8sI4h9sApXRifx9FTrCw+bsmo9pUltRjnVATHrLcHLU1t9IX+kCA5cR5aZDFe/81VYK2NkQr4hmJbMyCTZOK5fxZs0NtC4b0piiVU8pX4rdOn9QGNbzbAGlg35Ye8l7xeW3p7abRBhVf93geOf62+eHrhfh6kYG5Vi7nbpLY2tp/m2wIYGue6dBvVHdxF3eOuwhe75cTWtx3aE5JO/YJ16lOK0++BhsQym/3HUIoEugMwBkr2papAY933gMMzjUV5rQG5sy2ZdQzDyebsUUwy1q/XF4NsyA2CVc7CBcqn6+VhK3+GX4HBGbjNMwKIKUtkgWcowAVEwHqhK5eXWC79PDi/J0QnqbB+5PB6WAbFgrBArOJZbwaQOHDCao/QP/M3wECgKr16lMocFJGdxKAbErbpwdvyMeErzb/qp+BavU7MKJpnlEFfcTf6wm/+DzmsqvTVF5x3Cd0V248PRuzrMFjjEf8N81XkPDV2j4RrJrgOS0tvB7Aibl/BWN/Uwc4QWi3Uh1WBvcDt3NH65Xpk7y68jvwP+Gv+zvWndPWLmF+RHK/nehsDvKBYltuP/V2u1UX4AaHCayXgwgu7gF3A34053F5hdiy5Rpas2Vtvx5XxAeV6/ixYswcZ/uQ41UwbxyX47XQtLgx70izlR4YKsLbh2WlPPaCfhC6zu7x0t/i/CV+x6/2dZONS5jK4tPHA4e53Vb3z/Fa2N3lPEfclID77xR3vA+tLlUgr9SFgTLFrJscDxv4A1wwFz9v1AGcqFL+Aiy4bO24ico96jKEHDFNeWTuRpgfs3MeZ6G+H+KsHzrQzuXmPkn9fy1XgNjgzx3avtTq6fS23l9gM6BUih/SMbxcB/oaufR5YYLNE/jK/gQQG99jlPsTft4q/oR03UwnJayJ0FzL2O2OZMXXnGQC2F6P1t8QmaUTKrud7oJp7527CF7vp5PJqjBx20KTtKvfzCkDXoqk8v3TAIkFctA8pf1fkTVgTSDioNfa4Pl0kzYJSr1epfoKGmEwWQSrNX0uaM0arjU8NT1g7ehlqLKpAWtts+m6LFng2QSSTSC7TOIE68SsgNGPcS4ATWnlzkJQMUATwDppxyaB6cSOrFBeD1uXsAA4xp6GExGtnLzr932++INGItHj75LWq/Eqcct+ascx/JP8kvKGqQFxJOD2pKARj/78GqggqaPbnjJSEX/Wsn1XOM054c1OG/pY+rzqIEpJ+OpgyISvdIJtf8YHm67i8JqEtIp6yJr9MAkzAn38SbPDntcGPE3DN2i18y+gOB4/aiItaaOGB88R6sckNHe+S5iaxeGZ1isLXyt713UZsM6b/rA61QP0Bp9W3STvxV3cU8JVqQu5TfutQ9r8R/BY12ks8ZdIGSDo3O+4U3MeEsy2JZzD2TxBY4/VIWz3QIqdN+sYRS5zoxBvyy5dKmuDdigrt9HiXFO19nMSoHJ/g/LU6jhP7GEMNaRcOW5+WBZufA+TTnFWQGuz+jyIcwTSSNKeT1GTts/TDBZGrRlUnDZnJoVX7ADCRJR8NIx52OOIfzZDUPu3/WemDORE6YrQsgQc2lLd8TQylpovGUd6rjasdt4wh2ldELRDt7zh49qRmjhhhTXtrQ92OZ48U5sZxP6VeWq/D9Snl3dgw6kdxxNGheFvxp2MYfnrsh5nHzomfOtzRJyfKF9T+KQ5P8PoqfmSlCcGGpmPy0B0C90F0947dxG83kd3HY3X2WdYd8UVAQqD4RDwMigNGhY8jlqqfcHllRvWdkujMifl28qcPucP6pI/wGA+/Mp4HMNeCgtYe5jLqOFRu7aUsRAf0swLyGHt9loRWqsuKEUAxiIojTQWnlKcX8g0d+mCFuFqCQ+mCjSEyjyGIB6buQLAPzPrJA78GJ9M/bErHqfvtH2DnyLrLX/XyBzSCUhWkGL+CjYdiADFNufo934QZAGsV5B5kW78S0F+6wcX3GYgFXM32lbDcd9AzBtrUYBM/vyIkWyj4DNfR83K6GjCXOOdQF028UCCWyvS+pT62ealphrH8pnIcSBrvVLexPReeJZxxMPJJVJetzXHJbuzuDvOpwLzUdu1l/8W4tR1PQA3OYjgBnkv7uKeCk4NV1UnmWaIr3vKCTWdys+Yh7GlEi4xPijO75E3mwsw7JvpZqYMlMsx3FnLN9w4q9/LPOeO0sen0CGnJzBVYYH2F/+xj9uL1dgjYpdgASqklFcE2+bPcTOealykGaYwoege7ZY7hjW4X2wq1LRa1lmO4N4sLd61t/43HtgO7OBH5GO+XWOZIFqEpYRLgxjHUJht1Xv43I5QgIWxjYeYJ+kRDk8eny3p2QDYjrlZhiliRHs+hBQf6DlRLqXRi0Q+MwkgXF5oCKQw/7dP9cFxtv440u5P1IBZCd+n5pQ2c1x6KEBx9oCrp8dvEd3O43M5daNNv9zrOwLToQ176b0sj5qYIrixHdgH0F0w7b1zF8HrU9XNwOoZm9W560Q+VCv7xdKBAh7pvuVswewr6aYwVQgmF5oooyz+w70DxgpUS7hqqHJ60mpFyUPjENCO6GZ+z3sFWULQGJuPdhDEILClyUaaeBprGrSNlgWfbc/dEaYOcSjXTNtVA7DZlQA1l90jNcJRLrA4KDAMQTusgQpvP6Pd0W8akgmU2MQjP4ObMsXK1IpPl4Z7B4IqAUYDh/Q57baOLI8SrpAE4AHNGIRsRHl3LCDU2vMakOuD4FqsCnqu4LJaCGEbei6lF6g2Z3o9ykxmPHmScw15W8GU/M5DFOh+O3Srt0EryPMOGBnRcjcOLG9r/6xNQmGdxzuXktowIsKI2zM/EGGbs8G8db03hvcDpTQujOm8n8KffwDcHSfkeRjB6cVd3MV1Z1iqxoFXKdvTNKXffaf9xTfVTljJ95OE6/jOglHLR37CNXnPUFqCCbN5LdETM+3WvD3oznUKzYx+kmcQxhIz3G+JLuz7K+PQDmICqkSfZRNBROd9GElJ67Hsf6e6wHGE9a5Vht017Xe1W1XMdJhFEF1At3klWptJkQgMFPJpxlWNfopJ9vAaxSeooTnLXtimxH6YhIGcTtPJbbWWfrC5oJTX2otC0/yCmIr8LIYZjGk/H3UTur3v8mnw0xdqjnF7u9eN6uwg4JKuqXOol5INWWtnzKE4b6HzxHxaO9TKVMjSfw/YUreBt49Nr+FZoFWQBfBh4kt5cKisjVr2hm72wOt+uv0WajzFRN6DzPdsC7u4W+sugtf75QS7T+x1DxM49UOlkZ+cr5bDC35s8PH23+4A867ZP9CIL8ajAFYRwiHLE7Xv2oztl+/PgiSIirAGjw62NY3Nllbr9mFds/KMT7OJyqYENH/2z2mcvpm2Rz8rf4wzAH2KOYFBgFvz1HQEKM9ax2vf6DPALvtzmnAJfFnEzD/LX+iq1idjomkcwm82YcXi7GZCUYqfI0luEPM6PrsOHlPfSKEXmDH7VIqBfRF/Dh2ASYdo9Nw4uOhzncPDfeanxozgufoFBMdH/0Ga8JVKTXcDailcOqC30bq8/Ri0Z5F0Cfq/AH9m3L/F+2/qnoZeTpgu6PVsaL1uKQPUsLMv0V/QHM6a0XXN5krHzpccvOtupmU7ddfcop7KTnWB3sCm1U3yXtzFPSUc46wUb3vC9TDt0Zf7U0cbPi+mfTP17dI3urGOvJvNyrUXpho8Fpw7CnELXQEnWvxi+/KwBxverPH9lsKEu8rvCqYLDFPp871hunh9v9Q+8v0q9+kQx/vcQGfu/LHPWGHEENdzE2zm+6rCPyPvkZIlZP1/IBzLmcsekEMKxyFflhTp1rdJ6xXI/npJpPfSY15Y/L0Mbw0GAaSWxw5fIi3XAMNpTMOvSbDHc++kOTDgp8k8TECHnysd0s0s1mgXaiwizVZrhAuvaTanujb4H8reqpfm2t60rA+SbqSfTKtefSh6bHRD5X9vbNjVR2qWY1KEsBm3PVB7rwD1fXYXTHvv3EXwep+cr3UIQHrvtQA2eInd12IoXABsApTlLpw3g8KZLdgMNC1sdJro8o67F69xQU8MI/F6Wl5EPgLf6gcZlHKMNAlA1/y5fknz+JKW4jltcmFIw5x2ELLiSHq7x4Faxw7nQgejvX/UoV4fgraLmt8+xwl/B5U+J6s/v8VNn7jZzm0TShiS56E/6jTN0lFrVXM84+OZ33EVRj9/pqWCrvVqiVRfFw7CymdQkp63I+HaEXv3mZ9cFkSS4Jf7XXkMyN+1b0UMcFq6Nc0gKAlPpX2e5f0KdBvLI2/VZEDv4n0npxARecHYFW/ilLCBTgqz0LWaGJiaFxj4uPebS+KLPWc9aA+WW9cFWG9wEMEN8l7cxT01XGAdxnHtfs3yrsnHcEBX8ithUsarM2xb/BNasfLoyx4WoAIdbZRyZ0LboQ7nYX7Jhj94VOLR6s3pcgKdYdeazzCY31k4BqSvo0D+AULIJI7ShrgJ3Yxmy97rsQsn3pV8hk8Hbd3C277bABqMLTfTJLDcOVjFsGPx17RpGKeFAcK7k/DYt7UPY11x6KY5Lvxb8RO/njImxlnt1Irq9tP5Kzn+3eIC1WQYdSxKgHyglloZ3PLeIGUDXpkHIL5ui7nLWK3HDbZeJf/u6EwJCU/FNLFtbN3EQMer9LUff6lY8Sw1yb0zJ2zCoLrZJOSoPTtcpUw3RfAQfdZ1wbT3zl0Er/fLSQNid0PYetOlIAknBuAcnuEQKs5r+4m0MpTLmmkDsF+NRno5AT69TGxoxdL/0Fa18gO8DhqpQxp20orf6+p+og+b4BUErw60zV6r3Vs5RVvUBa0TLdKqMYsdQe0ZF4Y7Ung/TwVPnL629vXTb5swNgRzhKus8wJAuX+kOe4ntKqR5sNoyYaICdX5DwXL4/HxvFYh69Rv9W34kymk4pfeBrUfMxbvv0Y0VWL9mMCug62AV9IbwELPNqcLYx0cYRbPgz1duwg17fgzd+Kauw5JzexAZesom/ED0PttxsYpd3Kbtl4FaU4f6w1shDn39u8nAqn2fNTfAFsFi4HcG2w4Z7jKym11TTvgJgcRXEDqxT3Y7g4YL92wMLneiuGIImHaWjZRS6HfEoLC9memnZQrAsWayh2Fq1RW4fy0FmoKjTtrpyGTVuklr4IEH42uvbhc4cJXw25JGMtNJuyWAUfbt73thJmYT5nE3ZNd4iZlKmp/z9JUV8cgXOWWLOesR6O8OWWFAnRBloXd1mt/Ab1pz5X9jiHp9xVN8TCnRfPW04XaRPMB9HpXY6a0R4ryaPTLAMsYe0fjaH73kHcNPRMSwkgWrGa02bKncSMn7FHPUYgmz28S5pUJgY66FwBrL1gnKgUSyiYpfmsubk20HboZVnXlh/I8e17CvWXqpXTvrkn65IiHzNsW/t7B5JvuWL9sfOmwWyThZhMo31Zh7AXT3jt3EbzeJ/f+D/Jb+eu7a5sWsPxSFtrKU3rF2XdRoXsk+p0FE34AF9F4UWI8wIHqaGIhC1ydPqEbjbvzYWBR52Ghy8NIYR3SQ6NVRfs3VplGuazUDu9wQNYAEIJufiAEqAKFHVZlRWRtVbuTX+zOcQGaGxBjge62FmsOYyhvn575Wl0T9oBm0zVpIIi0dnorY0xFw8N+H2oGgIwCqt+7OfJHBRxHLMjEbyQMCJnl6ufpOAMQM7/lIf9c6zWYMGGjf6bDzxTg7YwfjX3mFaml23Bi1GtlTuOJ96mjjoLEW3FEUdNcGuAvCV8VwEo8OdAd+06hIQxNQC7MCaD3mTePgGHKixwHzxMnHIOq4B9KSQgPjNNSaIisnt4On6YUdhtYpZunc6iGN/r7yXLxSau0H/gXd3EXd6vc7965c3NMe2NMrKWMbX9bOpXiC34EYu/ruEZr+iRPXobjxbQmmqoBa/eob8CnR+4sIL0OXcNknfmt/SIgRn+BnvvTcZ210/CdqGso2tkFAGHc0s+2X9sYxDkHpb+V2gKdXFtuRhvXcWWCiDccGzhDIFUKu+d09EqNoOlo4UrTFK4Fq2o7P2HoLsJMZeqZPz9+svM4ngYo9rRcPYx4zBzPm2ASNBW0Yztqko1LgjiKFN7yH3UJ484A77E4/hERcQIFFjT7rhu/odFpsPLgShl0yWkcJ5M4HXnJdD2O6JLWa8e9Pvk8i8QgqZULH6/47WB5tFcTANe+cHRWS79Kp72WvGN4qFLJ9FDl6GkZTNIn6/rb7zqfp4t7qN1F8Hqf3LOfbgKQ+8xIqb+uL7zv2Jqa/OhtkC0t16Ddsvea8tgbeluF+8K8KXz18lmb1uoj3n1XJ/8QzoLTqR1YCbamW0DaGGMTXVzQSfuaNYcEOiJdnsuCWBaWJvBH2q98nRp38rV2MBwAeDOMFSJXWFyzlW2AGZAiQOX9ptRd7W3sgKe7X+0tsdrg6UDjwHRD65X96jz6dJs6/qTGgSsJwwZB2wQkziCZp2v2e3r193nCkjyz3dqeB/EfNOjAyUCCPSdsN87xT/6VsX83hqicwTGWc7LOj5Lf4v1FQ7yNTx9j8adYUuqxdYDAYO57ddut3oexyhAXMW5q5WiJc2efjwUPPI2rsz6unwxWXLjRvNFZV8wKYiYGxu/jpqMKkVv4JlyXdt0k/8Vd3APsPuJpCx7/w6ubF3QD4WvW2HIQkCg4rn7+n+gHQWivoQpMoQOWzXmJhsoSrh+2323vH+aEPHXfjjBjgEpnwtf85ZTxXMOO7+hijdX24jLwR2W27V+WPsF+sxbfWABfnZZrm0qGe+SRctURG+CQvxnvpWvHZxms9MoNAO5v4GJjq5P0Ptb+U0XAP1tG/slQvnOzEfYOwnbY22UaqkO6AaWg57npOFhyn1oq87KHYgTz/Ce7CtBniRVTpcZaep1NgP1QmB66VQUC0n9fFDMEMfSzNk0w8l4bZ1HmUTSeVmqv8Q/6CcK4NmFsalZMC1J6mKwZRJfautUkkRBQb7WzFsTVzQqttDt9eXjRS7YTH2R3wbT3zF0Er/fT2Q/1G4KM6+ae2XaNRciAaamBgaWDyA5KqvBzAK3IyMQ290pjR4Mqg9yo3+sY8hq4NaShOS6lb4ddq9XbkmkyzxTPPBG/4+YocK1X77vmtzgBC2tZCAskDVevzoRrGxqxKW4STvVMtFcFVBeHQ7C74ApNy5WHOLfd7WARIGRQmz0AlASHBdf0ZMI7vPsjlFUYTaS3shp3xkeWl+9rlKM2XuS/rtmBbF6gFWrxAVpC0BwHLUUnbAlRvZmdyDVJ7e1xZ8bmjQoxA2KAjazZfeZPaG/mt3EO3aGNYSW/0tDYiwsLtf9qbQK6iYE+67zaObiL9ZfGgsedSUXCDhU3h5k2JzIVxp/iKu2g4MqfOoF4pEBlaQzfbL+5uNHpukBvYNPqJnkv7uKeCu4RXhPvi2OspXlfKrjW97YBo1IZG4JVge2dhY7j0l19O1XS0NRKM42rV6OxF90qXZNU1Ms2QWEMhULt5bm3ZdRwTWHQ1l62/9jHAx/yS2bWFmV82uqwSTLuybN9aSZAk3LN4sZLpvxtl1ux8rjlz6Y545cUUdo2aPRZfxg+HPb97TSvzzGpYIViMdDJDDFO4A9P+NHZCOOEsBd/RhiIRyceIZ5t9HLeecuWSzMdYPb+83PAncD8z0BcdbWxp6bX9SDHJS1S0MsSJd75IUTHuCppDIZ5dyQOiPFVnjzm04gTp7GY3qOeZTbJrEk+KWl+ht/xbHmwlIqUjbxeBnAjGcpw7sHWw12cmexaniSzXU+2u2Dae+cugtf75QQh+DzxQb+7ruysUqBASaNcjkJifxQX4iitkvMDtba2ouiI9mlDX3Etz4xXenve6tPII6faeLWNpAtc6fWwVHpvjnqe1GXO5wwZtXgTaDb76AYU1EGDgwdHJx0Eimm+2r2Vua3huq/piknc5jUVyrKg9QoLFAvM+gKPVe4GHnuZJVj+2oUKuBBWCaxozhaAl8BU8s/qbOWy1mu9FtvhFwKsC9pZYUAzATDxM40XzoghxY/+ELQW/6GDFo1nxc0NTEwDsFZmPI/BhzrCyfGOfAowckbYf9QFbPP2EeDL/sjDEFuhwEEg/Ibb2gckQaoBuKk5Acq3mafTSCmHu4THMpUzNnsabkNWwCe1y9e/8mvrRmalTIh8gyIu7uIu7uKSEwUWXtiuW9D5i5vjQcJNzlMtk+JiR6p0FGc4cyZYdSwJv89suiah7Az4dMyaMGRVEOj3qp06i4cf8mp0GXqgbjll75s6wh9LaYiZ3ikgrNzDT1aRCO/2V6YC0LGZpF1bN1JmYf46URF4nTVXZ85oeWfPXTE7mnIsT2a8ls+xpX9JI7wPU3dV/Dlrtl8TfCHYMRPg3SnuH80eSQnX9PPCFhdyRcNMRtjzrP4oFGa5ecqwy+lGCL01I4hIt+g4fQhwJRFgaWHF9wn0EdiEQhZAV85vZRfgusturW+DbvZsD3QbIFZjzOIshj5XNMZF+5iaVrbb3O12hP2LNuMluiLWz7PdzmajOyR7ZgZ22Hgyz0m4uNvnLoLX++TS8+4CgZv8mj6zfskLdVW317JpjKfE7txlK92EsRmoBtLYMlcQ4DYLYBFlD2C2ANeCZgwch7CWyhBqP98Np6Q44zV1V2qbfXI/gAEqx5UKhZIKDwaymimCdlBVttlaDt2iOyZxoSGbQTwLZlmDIu5N4ArYAWFtAltqbNyhDxEt2NhWJzhV1PijfqFhjK7uAMaBnDoLQmWLFex2xwJM6NKfSYV/yr+l7cq87mu75k/RJViFHSQlVKag5Wm4TEuZ9pl8BX/R10lzVRvwMTtK0hvTBIf9jTkJa0ODQLzPtVQzmJKy+2wQOX4KAMd5wZ3rtqXQ+4r9qu10VxK+2lxJaxo6GKSIJGCdNAfnxPEc0ULHWq+lC2q5QPTtLFxPfE0/joeCJpXMwgCeHNw4TJLb6dZDu26S/+Iu7gF2hrQA0EJ4TUx79pKhGaMyNkTlo2BUAwnC4cKHrcUpjemjzJBnZeyb+dDJF2Kb6IjymvACsYf5vt9eiIPxHuE6xoDGk7+IL4oBKDSgK+X3ekCKBCBhael3u/u2oJSkhH1oDGe0Q9pGl/X/MYxK8XbP2q0WPxZdBbjqcdzOvCVrjrRgwXEugFSbOeJ9klpg6YUeILuy2qLd1uukU6SYWa+PqZsE2E2PVm6nB004dcEzJychLcaxM1zKAuNKnRg2ASDuhjuGY8qkTIB5kl5mmIhCFwGuyjwS9lBeCb9roCow5YNn5KadV+T4spCLICtvTG29jtXrLH3SHM5HMuk8zMxqZm/fVWzsQd4nJjST4TaBaxK63lZ4e8G098xdBK/3y9lCRuGkinWmOzdHFqzq8N/ic7lKedsq6Ps/IRbfJ9gPhI1GCUHuplasFL+vuq2MbENW6W5XKbvHmxkBOxjLhJKjHh6Dqhw/Ltg9ftgVtCGcCfAdwIRWsGqAq9/TD4VWztJBqgtczeaqmoaDiUEj7VQtVzvwa/Fwtt26SLbdasMVoB1eFrdFkh/eNiEhFQsYbeinWrQTTE9f8gFmK7b7N229ogHfLZMGLvbrU1CJR/OPwlfNn6y7X8kPUkot7a/YyXhl7UhL7Eb403NiJ6cu2jRu6dnrDUYCcCJdU7cDwJWqsiz0PE3vjJ4qwKpO208Y6cTpJNreQXwGrful+81G1mBGQEjztK81hoPR4sKkAKWRGQEVsutKWFVIKJ5x52jr9RpL+FZHbQtdMXbzDOPOw/caLR6bALfMXexhXdzFIa0yFd9et5xTqIsiwVDfNNyxpC3kSSuV71a2YUUMcVNa42uTNsf5fkN4MWu8ooQ7lu3XYrhLHH57u5PGKwhn9MBmd0kJM04peVzrtWLXno/hwhiXMWvkr2Vp7rtEt32ZwJS35y3t1gHWnOAI+VBcxbB21xKGaxAafOP2pfIrxiAcknZ5B51bzEbaoK2Klp7DnD7UNg8rvfbm/IXNoQzhbuLvnUC4y5/CwD5C8bQctOZOOsIx9Jh00uDz2/ZcaOl3XhMtXYd0Qcfeqg27qyFk9aEMqD22Pw93/K6s/dvooudlwrLZbE5TkcwGtLEwHnuZrOSBwNFwbCx92vV25QZFswjgVj12TaOa+R0Ons0ZhzE9x8SAWrsXqVXfXnfBtPfMXQSv983Fpu+Of1Dfs9+ro+Bwpmlb43JYCahu3PltPuVnrQQtd84T28pIOSvbFvQQvIaJgKlWK2Z9TDywozf8GQplYBfjqZ7HAB0LHVN1C/WnVTeAXUozcgJedorsrnmBJHRF8YPAetV8baYEmmmBML/LoGPajYnhWSvY9hJO8g+V1PLH7p0KUh0FKkVKa5xcwVF4fRE8y5oFseQHkpAshH8drJQG+qdhxM7wSRXlceEsA3Z7Y26arQiI7J8GOdDHNOxtkqjPMbrVz/eK/E5GJazHmnOKc773vwvKu5C4/WgdZ0r6UuterKledgfMaU4ItGvlsukCz7cRrnMoGlPq1tLjmoutj0ZqvuCefC4V/N6zDeyp6S7aARf3sDsXFBZ33R+qs7KO0m4tmNt+RyMurSlYDhSnVtdGOpDKiT3uSB6QBuxkoWfhYhIYGv6y7Yf2urTm9z1dKLLuCXXFrvuFhRfixfiJb5s0zE1x5Y5pDbeV8fB+R/anPmK+ArtaHONYzNJAuJc+8a/wQHfi2EXcBPcIADe/UDIWevtSyxUQEqYA8aqpW6T0QS4v+ilpiDKutagJ6/thjfYZxvQwY1Vt7ar5j9WfMJEj2P9/e38ftO1V1QfDa503JOErSSP5ICVIEB/ASk0NEkM7FSQ1qU5rRsaRDtMSnzzoOAlTDdWiY6GttcwoLQwaRUdLqK+Mjn1HO40OFaNIW8JHY9MqlTzFyhsIvSPKJIFocifXud4/jr32/q211z7O47w+7uu+r2v9rjmvY3+svffaH8fev2Mfe++DanY0k+hew0HZGgI0qCO9cXaFiO/OuBmvWI5Lq2p8ttgreQQ3RjeifksakXmo0HT9kQimUegDQa8/R0FdNLWaBjeQmPZt/Xwci92WILp5N8lU2dbXhnJHleompz0w5MTrIWJ2crUSvH1O06cLaYiztzfx3l46z02Tq+jPLVyb+LVHD+i4WcdPNMM1WiXbJl3XbfWDTiDCyoE21eO2DDFOAjU39a9+4KYlg2dvelKOJLkVNOgjniw6Qgr6MLhpWpWEFrOuUiWGCdgy6Tq5CdUjCroVsHCObPlNK1710wTRcQKaSxwZy7pgbnYbdh7szbj6tdgNpxdpc/41DBRh+YmJoyvmqnd/ezR6rQb8OityFr8Fa4q+raZE0qicGJWz/McSNpMvb9aU6v0k7XzZlRCvaXoBuZZ6Ti2uGq8rNqvd3mfD6yrSo2YgMEc+W/yXqfz0rbne9zjBrrdXzO3iCd/og191cjfQN44j4NXQmHw8NLBXs5ugN/2MtPoxK0mKHzafmnZHVvefMeaxV4lEwqAOd3IQXQ51AxAOlJ4MGOKAcnh1Zs9VMWywglW8m1/1WseOIB7DF4VE1sSrsmITFg74Va0MblWGILsgo+nZHUnNDXlvfMxAED+4trGz2Wp+wEfdcIKp8lnlXLATpiZqkzOQQKT64K4qpz9et3Eb/mabutj0a3XrQA6ZAZ5Rt85Xd8siuAzyYsrKnfWqfBY4cY1TGj/nob/adTIQdWq5s3brX9Pvi6VmE1dh4m6i2lJq+XakhrAdNQ0D2ZC3jhCkY4o/8neMDydGGcMgyXNxR6nDhLxnp1NZlbSESCfHOzmWerSalYPUXDwk00IHKW4hx3RlrhOtTIWXe4IoRO27MP0909VsEY2qzvQTHn0TGfuhc3lA51nZJL2J7ZATr4eKmZ6fQWIf7+uI/M6f7xq5ld42/JKMHyTGmjTSiXohQaUaf79li0icn+hkUw0nld2YckRWhJ24ScP5mwlp9AvC1PxJI8g8EYg2QVroQfloFsHZXI3g2kljP5FsSTKBG9UjAuyEarTiFVfFrqcjBagdJeAJTCPvZN2qHfPXy2wirlp2pgrc4G64C9YHNkV25JcnsqhEwm6DaUcSyIqnVa81XGljZRJTCYRJU+9VPeLBbUHyYaZJQTH5CLeps/QLc7U9omygi5nplX6aUFRGz7h1s3JbcdLwJrfKtmMDnL+a63lcjSTWFcLuP65QCKt+pdmCFacEJB44pbaTet6uK+cazvu5OCahclYuN/l6Ju3WEHOfmWpWvV3eI7u7JTr7vgEVPI6QPa4OkFwdkDi7IQSTjmOh5f3EwoUH82e7gnnG3/JPyz37idPJLQyzIR7cteX5LJF3W1N96R5NlBr+F/yGfgDuq8PzKs/LlD9inFU3gfow+72lpKV+UC7Al4TaS/RGfsoYjjzQxRtDdYpXt0bUKWqec0228zMJ9O0Xj1LoYoKwLDTVeeEZ7QpykKRv5kTIf5uWlT9Tk7F2ASEBf25xlsSYqK7UxWRaHbNtX5BW1+bQD/Omabtz7qnwOMyT8ruaFDY1X2A1mt1ws4UYRt2eQzrhrnG0yubSMAQ/LGvy5e6nzn+DbkHDN00tJJjmoYZqhet9W4i0mXfwba64dfMOXZ33XLfpQUTM0/c4IszVeXBDisqtBiT8OCA57YEhJ14PEwtuYvb9856ABBESiMwb7NGqVwGZduZWWynQrW5tWlXS5cPUtIjMAFA5hlsFMLk1OSRtUt1sWTD7Mh6QOZzkBF0gF84N/QwLIFyWV8aMxrdVryCZUK2IzBQ2oh/RsuexAqGnNVE5v7WR6km/qrWWq9ph4JKgLoEr17rybXgtQieAJ5jD+MWmEdrR4O1eEIlAsbPG2RpS9RcSWhV7/2EswfnK5kYE2/waSVU1KgGuKkQ3gfpZejEk6gSNBpdDVtZZ3FZlVckO1YeieoaT6sqFZKyJZCXE6xZ3PX8V7i9D4Bc8ICNnqeZAbY228jYCbldlcP21JffaPn1dtLp1K2iqPl7OlT4soa1v7rch7V3mwF78VV1cSeJU3RCFOPuGIYZpz8cNBAu8jyfWTLTew5lW6+NegIljAcO/9h5dcDAUwaC+2K2NJ14ucONIrpgZrypLjR8bN3JXMdfKKcjK+S2vdix29kie+6L3Q4Dnki0KMfmrfLFLD7agd+WHbhg28hfgCLYsW5LS/cw3A1wyIYcO3Obgx1ZRYmBUh5G6cl3lhr7d2vA4kttJQ278ropbLuL5VGM3QGCA+karXQUGdr96VY8UCMtC2NldNmd4TQdDdBoRr7xMbNlYtuzbV18Xk59nU72aQwwJlktrFNc2/FG5t5JEnixmMYl+ZBh6M9VluqXYvBhrrUt1hVWv3KSqm8ZfdpzZ5yKfdTHF4Cfn1Ryebczq18eLR7p1RNjoPYB5JogF6pEteA4yxr1FtZ3VSE57YMiJ10PEovvXEK/d3/HT2CpdfCZGbrI+7XAuoLAa9LMftALzrIzMyxo/gSsSXUEG4ViWJYu2cx6QYI3Ty7PzQzhC3h3er6sWzKrXKVwlqzW/RV92BLa6KQkRmzZTm7gNVsOucOVrObv1BElZ3er0rQM26A7lNp2V1cKp6uYDC2LD+XNla5aAICghMOHM6slWGfYcVG5lEY6UXGVNI0HCLDRNRjI0r8JtTLOBpOaODjCylTVq/ZALp2qVfDmSYtI0+doEIK06uVrKqJ3x2jLJStBK5tvXl6nqbYp3L+MrEqtNMpiXzuxlSkAV0e1ZJV+iB/2vcRNWM9uYkcI6DbTYuJFis+qVqBHV2spDTSc/95a/W906sFfdsZ0MSmc/kUcLTOD1CeI9rA7YS9hE4swA8h8H308sHro2COLbzZoOuCGf6+ITK+/Hs473tfBiwiG/dJy0pDNc6UpE7SNZBPKQZOV5SlDKric4sqpbgQp+latB+Mohycr4MMYfJ4SD4kHq2riK8lSUbfG0SebGiZp/C9v8LT+d/OH4gl2e3QrDKNRC3GyVn1o3PxnsAjmHyh9qEwnaeXGrXtLKAZu4VxqPIGg8G145G+7a8mJWnTq75WlSI/GbHqedQ1A2wPGdpiEXMqUg3o9tOVVy3pc/Mq2mX7/vas9YEh3eRojZ7WsYuJQ1+gu6a3xSC7wy2Vq/rt0Q1xinm8gpF856OrUgqGA0kK02d8nuxivxmfOzjIIUJ2j199jTo4g/yxUjHKm110TPYCSnPTjkxOthoY5s20E7uF0FNB2KS3vDytfazQHxMWdZdaSzXYdnuhaSJ4GsCUNEROvmpvp0W7hAn0J2kUy2MEAwgfiJc2sFh4TUl5kE9SGkRwjoRGthRGWUEriSYy9SB6yJQNsyb26W+jU3Da/poRuozlQmn/rzWc2AXEzeTq1Ea1g7jY/x2NLcVQNG0klBc9Wq17yKLS/TVIdnfTViVs+o1SZXeZESn6pU96a2TrDqQwAUk57DVZWB+9ISXYgY605lGGXHZjHukCHdQrOeIteHGCkZQjVrdsAeXg2AJPuzriKFBYqpI2IR+7FJ9YhkbXmK0PRxO3VeaytoFFdXt0q5D5XbTleu95qZfEXS37n1yppnCc81R3Yszk32/raE9La/Fw9yd14ikThLgWNSAMMGoofbLdGxC+WRUZxz6enujzoQKD8jy8sIzPVNbHPH7wcYvufdiWiabCUkKs2usjAJWtV2HA7zY1ayMvAWlME4OIiTAvmiz4riYlWepT8MQ2BmcLNcFtxMuZLzt2G9ucnYyVeft01ue0E4wvsxuEtTAhngqIVvhB/qghfoXK+4gAHH60m77vEG+L5f3YrrV23e9OWyazyVFyNP9sq0hjqe3MVm4PoNc4vbstN5vJofzV0V091bjQuGFTSos+rZLQPuRQwqoZyTnU10Y3AhJlpNBLV1HaVv8qthy42Px0K0xQElDGNJWh6Lq14nAW79ncqVQO3ZyZZFXVkalQ8HbnMFUdykEe4YwY1em5g/2wssbuPcpigTiVnkxOsZjPDjW7t86BVP8IL4F531Cr0erq7Csw6jYwKaaSKU4t2cbFtZAGdpjfpFhFtRYOWUMIv1MQS3pVv1MOYSb+hPAzPErZPAMClbPkU1zYVxITsdYUY3LCfvRrV8dcJXzY1ITeaVIa+tVF1Rt+iN49zbYz8yWjtoD2Mxvqcns6VEHw7MkWGFYFp5aWaiem4rVU4gEFZTJZgXlMYX3MAfyXUkwei56UZd6C+9kzFv8G+ECd2RvU6F4ScMXW1s3+1gg3GH4taWw2p2mZG+BW2PETsj594adftwiFJ6II3FHdupoq0lKXFrA4I2pO9ZpnRibujPgnXcb4/lUdL28W6JnHSNwXKCeA9nWu0lbCJxJkDI8SqPuSfUXSxCmF/tWsxMTmbsP3Xblj+aN7b16sxMjaN2YQbhja593tkZ8F2teYGuUeJYE8UFQ3DoP7Kb+BqP7c+bdbzRpBfV7ab67kcqYA7Vf0oGxmU4U9LP9wSqbdQArwTjPLs848/HMfqN8solpb7cgtHbvFn3mlu3NZXvNjhOM05i9oad9xtUL4/C4S0cpiWVR1kvW07mMciVqUkoSnwbLKHv40cgm9HZuGYeNMDcJkGdu6ajCwxESD+U5eNpz1mTv51btrsLpx+XhRuQpAD1jc5frjcfBDI3ZOHeoy2GfUTkpYbFGXpM5TZa8AAls7zjOCJITntwyInXQ4LvlxcDmc3CTmDqa3FE0skVa6/yg9WwvbwA8+uvdkVquQZuKCtAVnWy2G9tNmZkR4YplbM4taQdi2ok27o3lurK1zDKgCU4Im221BNVompJF8RV6khX1OlgsDsCCcMPt21YbbsW0/TBrWmAbWdo9mSv6ctELk9Nxh4LgOHMlh+Thj9KAJoP9cSWXNnZ4wucvGwpj/Fr1TMRrcrHmZDwFWIycQfRcTtY1AmBcCCvg3whP8iRjXnasj72H7hVhZq7OcPYVFKJZNXqSdZTvnk9ucuapzNi1/Ze0yzWaBzwbbZXsxbRiIg6zJKpDWEDzRa7u+ogWVNZ/draDlbF5Kat264jn/qsRnhx8nUy90cMbFqMOrz/tySIiydTF+h0bLFe7fE8rD2ETSTOZJg+I+Bc6rxNn+X7a8O/yHJU7z8z+bppgtVci3n4kS0IP73E63moNdu49UgqFcHxaOXiYYyHg2MD3CIABj/lq0aenD+sSvXVVHmTCa8+E6Ft4duo2TiY5YimSHhUZCivW+r1uWFa+DfCXDPrj/z0jTRG6INjfKSEJw8+LuSdPpUavnHQ5td2wDUSAkcNYJPX3TpOw4nzSCV5HcedvWG3u5m7ydQZitZRXsHW5jgXN/eaVm2TRoM40U1ZkCLkM7CETy3lXAsx4shmYa9KKn/HyVcuT5rdhGz38FP96jMABiF29hYNPqPUs2pNOxWQw3jEyYF+QcaH1eY86kroVXXo5TBu/xBz1JGc9sCQE6+HiQVv+cNVr0Rb3fzdalemftwh16cF9uoGrEi4dc6bznTF81oj2Wl7tyW4dsUsklrw4zWwPyTP2C9bdySplpxjOInryJB47zmFaRMUUfxKZosqbIq0pC+NdNb4IF7jVkioTlQboiwQX9vupWe9Ajemfr0KHuAgpJO01Q5SJqTABDuQdwG7/ZAFltUu7J4QdgRxeZyecFbi4e6f5ufSNTJALIjIfKWzkIvalDybJCK/tKU1O7EOdZK3pSclPTh8FBJqV20lk/48vRnf0TLEoxcYjq8oK0z8vWyy3yYoNxHYNpnJhWOJxqD0zkUxopkWXbEqU2RqE521+Jq7Vnk7SqDIr1pE+mVZU5ql7hiqBFdOa/FFmg4nXTUMVndo59b0IWxHjqPiY1++TjttcznrmkgkRqgcbE5m4B+OrwPgGGnGXWeG9IRcmJqONzuZOTflp5WvujSBl23bczZ5nDRVdyGRwuHcOa9+9Z9fHQvRdt05O4PRwfg3TlcnlR3HrawhLGNVgMiUr+eMnXwzV55m6oRrMrqIAVhch811splnYKrRbpjZgPUapSFdcx2Hp1pcHIZrW8xtrca2apJeqldiPsf+dqxuMpDr5GXgDg5iw7c0/b4tDd4WTszW32aK2eSwKWIk/hDcA8IoBeuuhJca18fbbz2VRusx282MjzMWjZ9X7kzUyrJrIrKk2WxGRGwhe3OYmnXpAH0DQbnZFbtOl0RiC+SU9KFhWWc87LP9SDP6dbJ+xBNrHtnV3K0IgF8ZqIHqkk6wmZWswBZ0clMJbCVqwVU7f/sL2IkSBssFu/za86+Q7EVlFo3uONr6hCxZrqTIkFg3Yhe92/ww5iliYZG5n6BGN4F6qzoBNxg1K3WJ5iB9U7Nh1M5OxttnzOzcBw8T/dYif/MEdldnqlslGVwSrG/P+6Y3mSE/MsoTO7tTAcNhfYya2Ax4ZHFm7pWcltOsSqGveJqA1D1qq7J9SctkwY/r6XDw68qVQafmH5S6U3hTxwetzdwWTPFbrbiEu/bMbLJJTMQrMA9+q5ULt/HBYga75PM+h7yhHJn7/PrfcYd+iGAvv93g9ttvp+c///l03nnn0TXXXEMf+9jHZuV/5Vd+hV784hfTeeedRy996UvpN37jN4y/iNBb3vIWes5znkNPe9rT6LrrrqP/9b/+l5H5whe+QK973evo/PPPpwsvvJBuvvlm+tKXvrQr/RPHBDCYG9bI7kebf+vykt/+2kvhai4TK2J4reev5GLXcFLigbj0R5oW8lPLtYTbGa5GJ2p61nIZmDsvabytpaM809mp6WoXJDizXwlLVsZ86Mrksx9tsSyV5+ILebtK1WbZuvFGNw7dUP/JY441D90YXXGRgMy6xT8K5DUNW54tr/BtAKMPo9B04YnbsJGxtVJXuoJbXQzjOJlgHIXM2DIptcuQBty7Gq7di+jP9X4l8BdvNv7cqBq4N7VRb3KyTT8y6pZ66J5l5nmQLf+A9GzkQU5gEX+zrZRn3HnGnV17bH7lnpEqWDms/1l1+3tULVP9QGSmHkrbqf6YBoYB98jN1b9pxvrsMkNUmaG2pY9WJ+2X/I4qDoPTHhc+mxOvhwhD5mZ+tOkn44F/zesuvnU1rytZWytxQ8KJdiAPhpiSJ8CatzZAjla3rg0xbvSklo8vL/MffNlKtHGy2e0A4QmQj8P5oQbRTLgj8StLZ2w4tvY2x4TnSUqcHUxSown9uMatfhFxtXmY/ulLPu9v3EbFgxgu1Q74RpRYIDvPU+LWMla6l28E1apSq5yBhIYkxROGBeYoHifLYbio/VszD9w9WxoSiJIfnXhr+kDDmoNnNiubl0WkZSn76X683A07iHIf1ElfE5ZdHM2tGXkifi6OGhdkaprMhJ+GmbF3YTZMiC79EUkwIbzoyWDK0VZpHT3wzok9/7bFL//yL9Ntt91Gb33rW+n3fu/36Gu+5mvo+uuvpz/5kz8J5T/84Q/T3/t7f49uvvlm+m//7b/RjTfeSDfeeCP9wR/8QZX5sR/7MXrXu95F7373u+mjH/0oPeMZz6Drr7+eHnvssSrzute9jj7xiU/QBz7wAbrzzjvpQx/6EH3Xd33X9oWWOFqY46jASRllPWf1k4NRPFVm3cfB62XxhfFTYEZdm5ufkF2zcu2105PITngQReej2mvLAx4JgMcFdP2ockFHCziSoRmZyL5xshX99JX69KvHMtW8T+Z5NzFuHLkxOTeZ5tLgcUjXKsCi4K5JDN32giVj3CANX19WtpUXm/qWUBbrKUzON5hNyo0wJ77kWWEuHqgP8ywQuVEvK6UN1iJiIqmTf3uoatzNNbqJRjcKbfCbSxbDO/fukaukUYvQ6aRhcCdqyKXLugnuZNhc8bmzo8ugmwtmuTHc1/WRA/PFVoWoLCYn9tklfbg1z1OjPG/7O4I43Zz2OPFZFv9Fj4TBI488QhdccAE9/PDDdP755+9bvB/43BP0j37vL8YCQcc65x9CCLZ8UyWC4uzVzU8qsiySteezlnCRW702QmviMnah+pGuckVZjLcj0sikahzB238Tl3VreXBxVd0cGa/hd+o2/mk16ZrwI1r2uu7daU0nVjvT5C2vaVXCr2o86xJ/8WOhFeHVufG6yLb0TvCTdIImmVW5MtplTSd4TSfAX/1OqJmbXy+3nuLntUnjBKF9h55Ca1pJGdeFaCVCq1LMq2Ln4r8qxTvpp/KTXc2b/FvcKCMu/tYMVmuZVrJC0+A1Ea+lmbXqjVlaU1rbsFMzETBH8UgX1ph3ZCIRaypPGjQdci+TXao7yDhZEe++QGZdzGsp6UyysrOu7E6U4QpNW3VKfsW5Ebg1s+pu3epDVDVbN932X8m1aMcE/ZfxE7OAHN19HAKWPkycrri4jH5Vpmpm44jsYi6BXZodIhEvO/DTKJQcHzQl+L/efz899dmX7WucBzVOL033ub/ze7R65jN3Hc/6S1+iz77qa7fS/5prrqGv+7qvo5/8yZ+c4liv6YorrqA3vvGN9OY3v7mT/47v+A569NFH6c4776xuX//1X09XXXUVvfvd7yYRocsvv5ze9KY30T/6R/+IiIgefvhhuvTSS+mOO+6g1772tfSHf/iH9FVf9VX08Y9/nF72spcREdH73/9++uZv/mb67Gc/S5dffvmuyyBx8DjI++TVf/hHdN9jj48FwlmlyA9EOh4s+CTd+F2NJzILpLHZv44adTYOzKw6lD6X12VyAHTBdFwajHajD9qRJ1KbeGTpzFxIQeOb7bxWngljZDQeH6/y0SB+Vs6IfiCzAvuKd+hENQPXLGEr/6x+jtOWdJCnahrqVuPHdKnpOvG82D8Os73sStZtb4/gVbq5/IlnSizr3ELZIG7lsCY9H5drpvaRyXFdYvtoY24DK0sQV9391YVjm1cNh/wXwk3NVvC2cHJiZVE/5Zl4G9c0Idw68Mfw4ZWbnaSG7WQpCk+LwoqXp2aWLu4mI8P0gdcFMjJIS1X0afl0ZEcsbxR7rc8F6LfQ3/i5uIWkc2sFAU6G4FIPo7qM5QL3c667iZ7x//zrgfDucFh8FtM+3Zz2OPHZXPF6mNjmDco2b1j0TZeOsvATNxrrW3scqXGLFYEZV+Ca7VeE7v2kK275ksIkMP6aJox8/aSrGRXhurZu9UfkR3Hzxq6WVSOh6EbkViVEoz9F6SsgTn1LV0i0JdXOHR4qTBGgW70qKW/XyK2GYaLp26aal3ZtRyDgylsoEpfGpJc43fAtu1DbrgHkv7Pjj3o7e1ky4VA3TL+3Ezw0gMzsC46BZ3mViyu8zX2Jy1dNWwMD+3eyXtDetAxmdyMXvZRUwNpm8XG3Kxs7jWXEyTCVYwimlZ11lad/611iQFucjnPr+sLIbctfnD2TpL9X2zVmX0yxu+l/MAv6282Iy+bi7GLsfkXxtqteaz+xOExiP/HII4+Y3+OPxxNZp06donvuuYeuu+666rZarei6666ju+++Owxz9913G3kiouuvv77K//Ef/zGdPHnSyFxwwQV0zTXXVJm7776bLrzwwkpSiYiuu+46Wq1W9NGPfnR3mU4cEXgONvdTVlf+RKj742buuB+sCo15Wftt+0dEwGstH0aeS7wu/S3yQ4KHfp0wQB62GXalV89dPY+tyWMcbiIiStsPbV0cpOOc/Vme5+V7d8FDx9E/KJueFeBnn3jgZuvaRF9k8BgL7z8aya0emioyGzZ/xPOb1U35uJebxl/sdbS800/o9s8+1JsxGvEyviR8iaHXplLrE9zUBkMVRuGlc3HtmU1YIy1M3L4obPlUsYsJDAp4Pmo4K9sreTcO5LzZ/4pfSUcM8bIy9WnMyUhp/3apJ5cw+DRJhKSuPWHZshZyOtfo3M4sYlDd79qCrJH3t/1I83P3icbbuU26YP3WZxVX1KbjKTdSx3FNfXslKLEBSzjtceOzOfF6iNhIAc1E5ry/P4NqTXjEwLr8BK6NRE4deiOYdfCpk6NF4epu7cx979OOHChd90rspIAZZaUNevUq9hr+kBiT+wFxLvpYAg/K1nQD4lLlYCIV0eUjmPCjNnnoSgl+LlqTd2lu+HqZmlnUzfhPcdQJ8KLX9GZc31jDW2jMLtt5RhQYT7qwjagTGg3kUCIQZDm188xsyNRm7EGsvfo1zqm8+0LgyBC1tSAQe38/0LeUTbsIScEiGZkJK6WuZT6ctHTqx91mJkt5zrwpK8686RfL+nsT5KBv4tmrGDkCdy8fyq2Cs17B3NkhIz0XZ2M3eYG2FDVlY4/a5QJsM0l7lCdreb3a43lYExW74oor6IILLqi/t73tbWF6f/qnf0o7Ozt06aWXGvdLL72UTp48GYY5efLkrLxeN8lccsklxv8pT3kKXXTRRcN0E8cEGztlMb/4oVbCn1BwbNYK+az/rYHPbvqN0gV3ItKjuYil6z/n6ETLnp/qm+cgNo3CIaVNVA778Do2YLmWsQ8np82iA52CQU5qeTLOJ6GCuPIWJ8i5/iYuZSdDuI5fXWaMXYy58tyKNSFaOYuLchp8BBoduyv+4inUMZbVKESDReFj4VgWi4q9LIm1RspxLUGnUK0gk93GQ9pklOUpYmSbjBg3vP99G6VOpldN3SRwQ9n+2cE2WJmTZSJZFXdRnbQ8HHEZNgvp/UeYb069oLmZi5mbueXNF+A4rG0xmEe2k6sgI7UTAPcy4Vq/C6G/lfoRdWU284xg2kbweYjokxHDH+bcNf0lz5fLn0GPHk4npz1ufPYpBxZzYh6bOuZRmN0mppNzVEYWwk7Fm9AeT1h1cpWcShvgax7FyYsdBIkIJwzrADvUDnQyvWrUTcZdZ52ERSJAOiA70om6RBO3mo4nFjhZ69yjSZpGjGE+S6PReJQU6JVKNtSt1DVrBJ3bgPyrPJlhnISmneUrVx/DkoZ4aE4OR8WtRjdX94vevMdtmJjqmbZCrQxdFrqgxr8SkclD0FrN7f7TetE2rvHgC/jIrEnVVeKajRpBYBYgq0C+m5lb+aG8EayNKAwnKybeaXU6iUkx61Q/gVlI16i0VIo8ozz2MRs6vtDbhhPnE8pCdqe2UW4saYScWKYVPFpes+5SKxHlavNjrtuz2JU/u/qDJtZuHWxLM/a+NOJSnfRZeEvtAbsexs5gsKwq0dxteCKiz3zmM2Zb1rnnnrtn3RKJ04MRMwDviDctipfITrh5HrPcTcoYNBum9t3T5K3ytf7FNtk8ufxF8yA9pHXw7seOa7YX8ugvVWdmmbZJg7956S9OJ1TLT1SQmDkOrxfuOtK6rXMeg7puNFic25xfc/O7npRzNB2tvpG7fmgeh3sCM15p4EbOb5PbLM/1CbvYmArNrDKOj2HbVrlR2l0a9m7AGNfEZmWWzRdbu9gk2jFP7JKUSIUN6opx7/yZpjaPOkLlNTfg4JiYohzzZRUckude8Y3+I9k52H6phgIeWe8T5aw1CYELPldL63KgMASeBdhUaHt+Z3CbwjQdp7rwRJaIpHD77qbi0mcV8aU339wN6cDM7agvR4B9v6cWWw42TJTekV1MkJz2wJATr4eEDRS1x4Kb20x2CrXVpjUOnPDEodDZu5HbTpRS7YaDcMV/6kybXz/MWHLlx8KaAuOV+mvnFslK527TsB1tm+yyfhZQg13v3Py6868MEdaf3TZX1cT8sHXrCb00P0zbuDXSSrNXINDUuF7Vgfri3+zG5LeobSTK7IqfyVQjxtHMUsO20RwzMQ6/BDixaiPh6QFNnDPagBSFz5BOxuR1cWfR6rJO9qkySJq0bJAnGTIjTZb6OKZyYCJak6yKwxq3+glkxb54sf9dP9S59r67Qb2vhdq8sWfy5ipGjrU/deEZtLW8EHNpw2NWcPI16ggNv/b2vcBFIiKkW8AWPxPUsHtKOgE4//zzF52H9exnP5tOnDhBDz74oHF/8MEH6bLL4vNzL7vssll5vT744IP0nOc8x8hcddVVVcZ/7ODJJ5+kL3zhC8N0E8cEngR0cAww5FTjeFnYclMffmZgN5yOtM+Oxjg7fprjiMK8lQ65vgxtg/ZunsejIvR8sU6KdHxMea6bkGXgnDohy87ulOAg3ZF+zb3Xk0HfduKALCwcfHWrTuqm1yktgTRDyuPNPO38Qv3x6vO2LTCtjteBRkhR6zFRRpZBBohabbqGiEDUYt0iVD49lae5fRjiHuZweckEj6J9dFESkVsXtudVJKUIBB3I/OptKwRljssCnBK44AF4bgnWzOLDBXEh55sFEHSGCq1k1skoSUQZgrAC8hC/UOw+qWoeDCZ5TB9m+3mYxIC8mllX76aAdDq4dgj1rSvsecW06LsF9qZ18RFmP7EFlnDa48Zn86iBw8SibVDTb3isAPz8Vp/90xN/4uzTrx1RIGBvuuA2f/NhrGoH/47wxT+JzvkKfwooF51AIxWRgByBX9TbMvrpYfuNhPbnQNp4zLEEtfiUFQiMzVIJklPMxSntP+NkV3nTy/4sVXeVgTtmNSiNrnSEhrmHgiOk1NKcQc5PwI1jNAo6/0pmoUmOzPU2ItvUyfl3yWgGkMF7c7S9JpDttmNF5s7NloWQkw1kqvpYdqN+Q8qdyZrNKZF6rhMT0YrbdkLCLUZq5pa/bv/+hnJauDWJujR9OXFXhnW7I3hrYO7knPtkI4ZE2n9HFAdFi0e1bPX2vGaFI+ddQ4t7sTxv+dujfmciVusTe/5tg3POOYeuvvpquuuuu6rber2mu+66i6699towzLXXXmvkiYg+8IEPVPkrr7ySLrvsMiPzyCOP0Ec/+tEqc+2119JDDz1E99xzT5X57d/+bVqv13TNNddslYfEUcMGHgZ9sbD3i3ll/WLQLLfrOdDYTeMOBnnn1o7ZgSsRjJHBmFn7ZBem0wHstUNseWWXZ4a4VbductV12p2aZGHUI5gkxfrSogn6bT+0qs1P4tm0l69sVfeRG5PUB1hLj3DxgSk2Y9bjyEbn2M4/S/SIfO23KgYw3GMgqxNbhgbZFFszds8UM7+BKiZX+DrdCsZ8sos8qgTnHx1B0GS4tf9IcXvOwUAPFzFyrhIHt22DENZnxJs3+dMW/jMo4hK4KSRwU7mw/tg+unjiJ8yV79vOYPqNqwNkIT08v9W3ierHNjkCN7xiNUa/LrvRMv9Bh2Zko/a46SY6IjidnPa48dlc8XpomB/EjeSim7sfsJVcWMcZ+xay0oUlN6HqJtO8n4tb8L9bZWrP4/GE1RGiSl7EynSzbJMuTG7il6m5dStlnZvpiPHzmPiZzkak2V1tuTa92uAjdXBkbiswyJWlMTOQTtB1+grt3sYMoenNoRufIS4gu9LyOPnjVCyuwBWnj18V2x468O01vvydm+KdrE0PVNosvGAbTKrTZKr5jW5bbvJEPL3O2hFwC4Sdro4GGm9GUSYyEcN2+Hq/VLNQe9MMZKikX7fDK4vq8obtq2w7E+uOQbjEycyt3Oodi0cPiA2j/wWlyYXbHnGY3lWGvhL7sZgVs3isgFlJW6GNV+tJukjNsQMmLVq+6jWsw2WIzunGkygS85jOw9rDtqxdhL3tttvo9a9/Pb3sZS+jl7/85fTOd76THn30UfrO7/xOIiL6B//gH9Bf/st/uZ6p9Q//4T+kb/iGb6B/9a/+FX3Lt3wL/dIv/RL91//6X+lnf/ZnJx2Y6Xu/93vpX/yLf0Ff+ZVfSVdeeSX9k3/yT+jyyy+nG2+8kYiIXvKSl9ANN9xAb3jDG+jd7343PfHEE3TrrbfSa1/72gP7Amzi7IBjYhZzZCP06/ns/AC+DSItew6hvMvq47lX21W0lVwYr9jJBUJzxBt7jWtUKx+e6jBvuFvlmlaGqB0z4FOJdm31u7kg/Ra0fnOhMQSpH4o3btT0GLuhVkCJQK7/IdoWaB9WqsSUu+bfGEyfXmMz9eeSjDg4zu8TXquMOBng1QzhNTAq6Kkw9ZPiU2RTJYScFblkh5jl1mCudHzewui2SsX7j1lfrS8ms5p3THH6/sUenAAFXVfJRIXu3HzDncWAnRoSCMcIBEcN4HEArS6LizZQJyME8YOMtv+pzxgTTqbCZ0dcuL8VZ9zAM5JbyFGn5xJyZRSH12O3Fsa8VPCswunmtMeJz541E68/+qM/Sr/+679O9957L51zzjn00EMPbQxz00030Xvf+17jdv3119P73//+A9JyO/Rb+gfYcF8PJ2YHD+ijVJfKmg6b2ge5zAQJF4ICk4nV108cuolWexV3Bb9OToI4xIbd5K7x+IEqmrit5nWzIymqv4D0lX0wfuJxWt1qyZNRubLklk5/bdtlmHCLv2d22101njpGg24K7myy0T4ke9GASGLy6lc26NbAunJVWvmKuyJCv4EOQxIITUSYiR2jD7cs4hagOVktdCBboxvZT0RX7kLU2lYh8/bpAe5HVSk8s4kaOYsVKFEIBGltqEu2+AmLc6cacrYLXMB7Whx2+yK6Tw7t3pvqsORVBKqqfxDTXKDOUzkMiCbo3jh7I6uGQ3OtMoi3pF8UCe2apci+scRUJ8rJ1wXgnRO02tlu1SpCdhH2O77jO+jzn/88veUtb6GTJ0/SVVddRe9///vrxwTuv/9+Wq0a+X3FK15B73vf++iHf/iH6Yd+6IfoK7/yK+nXfu3X6Ku/+qurzA/8wA/Qo48+St/1Xd9FDz30EP2Nv/E36P3vfz+dd955VeYXf/EX6dZbb6VXv/rVtFqt6DWveQ29613v2nXejyuOHqdFbjSDGRmp8SwJj3KOSy7xD5eENl6ofXA7X19sR1wnNoLJV3PdBgFXrPqCDLzUVnc0+06e0Q35hY+62j3fbVzVx9u9s+PGx5A3NzHx4p0ZOZjntJN5HYaL8mLhuZGdfLXc0qbL7jdy6zIHSUpgqvNXyhMgTHtmUjeJrHNZ7NRZ6rqcJbjGtkWzH/LoeYfZQBNvpY5Wg2/n6tfpdFpWTuyPawOzIW2B/66ADQgWIUjvPqWEjYerS2Xh0szs4qlhhQgnmKW+LZkWR9SCqt1inD/ks5b0z5/5avhvFzZwG5ZcLzD1Se7oAXO/obPvK4YJHUmcbk57nPgsy6LDLw4fb33rW+nCCy+kz372s/TzP//zi0nqgw8+SO95z3uq27nnnkt/6S/9pcXpPvLII3TBBRfQww8/vOjstaX4zf9zim77749uFpy5qac+dL766rmvNT43XWJWp7qOZrAaFmUx/nqGIUzgmHiNXcw2nBZPb4/l1mX8tOTQTuYW+2j1K1zF+1c3cfr7OKfritduVau3T9cVus/Irqr7upo1jVVxZ0hX3VYkxa+E4zWtaE0r3qETNMmtNl15oRzInlA7oX3ST2VPYDgSWtEOPZXWxDIt0Jh2FQqtip2FaFXsTN482TGssa+LuVRRi8/aN/qtJ7LBvtrXfTMIZVRu7cNKH081C/Ea4tWwaynHActkFjWXq8qAuxj3eVmNV4oORjYIKxheMK1i1jRLvgXiEhMuiKPKbA5XD88vYh0hrHaqBjXaMHAurXOfi1vM1clqHtRRIGxTx9kl9hMiI2qzV4XFOC6wS79NNcJ+MYUX/vr/j57y7P09P+mgxuml6b7g1/9fOvGMZ+06np1Hv0j/+1v+r9Ouf+LwcBic9iDvk2+87z667/HHZ2XmFhsIEWzvnxOCTprIzpaEE6/uwzKKYAJXCFeVtvDs5AyfDOPSScrefSjPsBNoaKbKHeuLe5wYdWbPKzG+Kgt8tMWpHM36Nx5b+Cn4r8imVY8DMPY1nah8VsM13qr8UcNVMzWeq2mvMM2BeexPzn098cdqp9n4Rn4rWTf+SPqIIvVRpV0bl1W79Q/CYZguPpAP/dp1BU2xubN5dKq3oXJfcJ/CWU7sH8WY2Nn7RzHlvOTCmlsEjwgDOTJxSedm4yxxEAdhnR3Pi1UzOXt5zrD+QTjkn+hWdQzcOh7cxyNdeAjXpdfkkDt7nQ1XhjSRW4f58TIK5MeOhzclgVPWsBDvID7r5OrI6zGDbuorCBdOjzmnc77xJnra//2vliW6EIfFZzHt5LQHh7Nmxes/+2f/jIiI7rjjjq3CnXvuuWftRx/GRwzoyLU5Dty+W91ocd8UpVxHQUEd68hY5LrJyqZ3bNc4be/p7TAyLHerb91KOv4tnFB52Sb21GNTvjoyB4ViHhaaDmx+Snwh3SIbyhkd1400ax5qfP2VqK3AULdGNOevfVnPXVvZYZGZeX7nxjNuxixNL1/EhnzVYoQBeA36aaRY9O3FaohaPTVwIDCCb4b1fgDdpycy8l9Q9Tt3Yv3Epj9jrvfOohkzqWVT02Xj3Ss0KkAu787NR7c0gP1cRutJ/GbCuYSX6RH3cxBfMbKU/kq4rfBkqvUj5YtqRYSoTFQKhiddL4D/NSkZZwPda5vhWmcmDzWtBdhLJz+Ksqq1oE6OGVbrFa32sC1L9hA2cXbiyHHaOpuyQSZAPWtzU7cCvFFDWu7ldRDg0bF/Gw6UZzl5GBvn00NCstA9yiLPmR3/U15R/9kwyHHrh0GdV9+d+2MGWnobjxNwbv2RBDZd3tBemmotpNnuDOlF5urSJeMduMbe/Hte7X+xH6g7SM+wHPcsUgd5brxXJ2a76KLi2+W4H4/q1rXeB7hcsdGV2g6l+GtbdOKkNIJNgwjygI3Zr1KszrC2kQNZF/mwi/FvuTtlm1fJHch6c+RmEpvTxJd4MUGqlYw2d+LWRgQjwax0XBOfE1o+BfMc8NKQjA44Z7jy1a+crXpBvNsW6SY43Tha+erk2rFpM+keUSqcnPbgcORL5oMf/CBdcskl9KIXvYi+53u+h/7sz/7ssFWawLT8Y1nuV2WW/DFceepCTDpoJxrbB+YJjqwowatv1Km6R3ZTLNqJeRkcIIjqWVFlWrfo43RkdJfAbuWoEoopnZgTOnI1yLsnyZYZWjfUp8arDzGmPJqfEpzqXBxw4kwJa+Mum0cIDn7z8Nu0WqHVCWSQ9YwRai/4WX8xcQQkSY1aFkUrhtw0t2XwTaC2k1HhMLUD6eefBpoQfhSgViy4R+boxHlu6YtzG/30HiCGD2CpIl5/sA+PGTDZKnGsNO5yf8AyibrCiSHpMO6lbos0HEqKc+1bmVg5seG5+z+Z5tqbvz2nJtAs7OsBzcaObWmm3Rj7VE+jjxT432ql8rI4jP8dRaKq52Ht5ZdILMEZy2k3oPugFvw2rnQ1cNNd4nhg/UWcwfG1+iuTrnX467mXfZEZcd+56zArA/2ciBevdihDdYyKUodztmF1latyVVwJi/H6+CzFQVk/GelliUhgBTHEMXJrK3HVDV5stiyH5uaylA1Msc9xx7mfLNg50kmYpiK1/trzRyG1fmzvIuuIVJhouy8iJSKXoOyAz4WcuOMmfRQbkg8FNon1rG2gy6hRz4VxfgI8tlv6W8O7ljlKewFMEInc0cTQhYG7uM/AirZstm5s3YfNelOFaDP17ZWrloPOyn+iz7X/rqHBPTini/vxiolW3MslktMeIM6aFa+7wQ033EDf9m3fRldeeSX90R/9Ef3QD/0Q/e2//bfp7rvvphMn4vMnHn/8cXoctks98sgjp0tdi8HN3x0dsCiqftXr8sDx8GtWouKgzs1NJ3S0Jxft0Y29KtkG8IF9fMWBzrkZWRmHBfeWh350YwxXykC3JmHXz53byN261TJF2iNM06rXyc/K2WtbT6j5WkMamJa9mrgEymog7/MhouXWUGk7LC8V1xa7aptia82kDr8C/loP4hqJ6mQVEVO2Wk5QlwJyYCfn30GiuE3mbfqYWdmlGa/EZN46c2krep/VJZlEbnkmTJa7OHye62FZEG+9eiXBqRhq31POS8W39s0MLaISMsFsUbeSFBUNK2DU6/UVGp+QZc9xtXpQpx8RwWIAV57mXl7WD881w+7Y3Zk27GsnbK/bjicM9/W2gY8oVjurPZ6HlSQ1sRnbctrTyWf1Zf82Icb996agGs5NbNCWbtxc4hd/wSDPg3GHrbmN+z1P81c/YdnCFXtkDjiplVMRHfCnHVNNplfbZyc6C7aXx8mcgNtB+SnnEHNGqw5WWKbIaX3cUEZOp55Ponl5OEOznBs5/8jNp48+vuTrVBET6bLktrMEmIhpltK7LQEqi9F1+nqAhKCr5eWjMH4RS/BotSFtDEzutoTdWlCUKBtFN3f7dgEl8ONScyKV0XZh2bkPVu2OMYg3MnvyR7DSFOWFYdHUpFOUvZpx1x67Bk/OjnqAW7zytbRvfS5xcbP06eFjzYKGaxHcL0xEtApWv9bszkzmHmEkpz04HGrJvPnNby6rZ8a/T37yk7uO/7WvfS393b/7d+mlL30p3XjjjXTnnXfSxz/+cfrgBz84DPO2t72NLrjggvq74oordp3+RvDMz0FISFbrdhDlXn5Em+3qZvQNBg0GP+0JlQQWzTUHsd262WsEWNtgdBD4YbyDH+N1bex+FUAXxpTJehzXxnSVHE9kuF3JukMZ42phJee1XAM3PLNqXM7zk6qLIWRC+PC4ZqBJUDdh20crgSI9m6r8IlZnmFbU2joiEskFBSTeL2J3TPB1XxSD8gGOMzUVsWQo0Ci22ftBy4R1L+GSn8+PULfw1rQhVbrIVxnWHGqU7EwcJMlg7lVhIlpxvBYlko1eiBC4+7RsP+XL1plLvms7LPkOFytDmWAZmcXP+NTLZPXw9l1jaSOwPyYm5iRWiQTiTOO0ZwyfjTgRC9E241D44+3kzSGZ008YVtx6net1MpsVdd0Bhdvw2KDsDOBoqkCEa/pi/ZAqFX/zIrqOLc4O6dpjBpoudacKKXdtvLXWJ1QHlqUZ24pnywOMw/7xQ7eRq1loWrVXCFRIz42ZyW5BwpzSrFmjcEXV8QuXVZcK+HN8jQdyKBefWPfsE/gvhUl7PtzwpUqtoGb3XCUqqHABo5GJnre8vtI7bwlshy3qUesAuzRzrwUWQqTdUo1bWuJbafUCd/w+gOmnpLpJDSsgBf0fdgqMvZCvWBDDXyRW+x3X4YTtF90GCQ6wseXPhO2+c+C6zdFwk0hsi0Nd8fqmN72JbrrpplmZF7zgBfuW3gte8AJ69rOfTZ/61Kfo1a9+dSjzgz/4g3TbbbdV+yOPPHIgZBW7vA7ubt7NKtcuPWQQoMOUHnTWwWSrl2v6NL3MsQOMeUOSUFaU4WQvNb0YdZojs4bEE5gF4nQMzDA7N6AzDWSD9Ez86z590L/7KEHwK18scr/erdafKLnFoR7PaG2rJXTrnK4ybW9lF1xh9UEbZMarX2uudfz27TVof+rcwTaEgLeJMTPFOaHQzbawWTWdHiNVvb3qC83Ju9cyipSlwK0S0ThMdC+j/tPRSQuPWJjLc8BBB7S02oSY9NW1rKR9pKuqqGa/ynUKv6AaBv0jxtLcJs4ptZmXTql94JUldnfa4f+WSOeKRTGj4SBbukogEkY7tgdvx7Jx9rmzjpeA/cqGY4o8DytBdOZx2tPFZyd4DlQQ9gtLOp5xz4jjhuddi93KYIxzDT5N1v/2PCWKPsAV2v1q12E4jZesHTkn+jPyFOR9TQ79kR/qz9ijYwYw3i0gPm5qiyXwfFhhgZU/EtSBuPLrV1SP6JPle3G75IVmoXiFUlQu4xYrJlvt2rvXj2T58b1wky6RORIR+kWaW7dWfnO13/t5+tHFFN2WYbrS16ehGpCS5z6QmHnE9DxI3cRdO2XmOE7za6t/RxndkPk5RPWo/BVlqKna3CbByrjrc0Rj3OwzPm1rovrcqJXXf6wi4LlSuXPTSWoewrNVxfHmRaTfqtx0n/OnuB2oF6xiHsr6+I8o701Oe3A41InXiy++mC6++OLTlt5nP/tZ+rM/+zN6znOeM5Q599xz6dxzzz0N2ix74l086eonTAPvLbt6N4kjTp+mV0+Ae3IpPh7zNlNX4jVy2uxTHOMtbJH7yM27Fzc/8IqYndqTTnFcc8cMVMxO6FLlDm3Vq9qpkuFNTQDpjRIAIaITVaf5qy230XVT2hPWmmVwZCc4rZkTuKq7X3koNo5GH6h7Sz2jExH157bD8xQSOx+HkLS3oS7JGo6CsMGg3bmviGSn5A8JSEQEvRvwIMu0pJEq5kLkIfNGtN1zhXEAyQI7ynX39xIoseLpo1tKBvWMCpHpmAQRojVSsIXHpIQinlURckp0ArME7mLMRK1vYJJWNJ4Ib8KAXEIzKPE2ojo6ZsDbieI23QPa9q6xh6NsjghW6xWt9rC1Kknq0cCZxmlPH59dCuA9+xDV7h56xZjMJGonE7uJQLju2IPt+FPjk9Mvfq5Hf6F6dIDai0yd2AT/+lFZjcvzsgF44N+f49r06rgvxNPFVetPdcP8g77g5uOxZq5ulkOi3lG4TfH1L4QDKhaaMasYaOLHYiMrkmICOXPUlHZxO3lqyp4Y9b4tTOUcbjW18bOfnnLeQ51bEbVW0Lg6tq245dq6YVu80tdf5VjGDrnFj0kREZuHQiVetULJHr3gM9mzzc1ocqMDuGoLBcJX3eGoAS1REYzTZgcLSUzhxLrOHZ0V8mH/sGWy455RltxsnUIjZQZyQTxclBezy5CWV9kRQXLag8NZUzL3338/3XvvvXT//ffTzs4O3XvvvXTvvffSl770pSrz4he/mH71V3+ViIi+9KUv0fd///fTRz7yEfr0pz9Nd911F33rt34rvfCFL6Trr7/+sLKxBYSEtzhaYBOYevmRWe2k44rYePCqHbXzNx06w8d1SnzVv1v96q4uD2YwqFenQ9M8gPR54DhOfxZWGM7E4fVo4Rv5bOQU3Xp9I7emW6e3KdvJvGJMa36yNZSTzeFoEH8TcW+BdTCTySwi1dzOrVIz5N/bS1kbYu0fKNg3zb48o/FbAoGNd9icgAxENEvu/vG1Vn+CZihZc35C+2DetKVd4N53V81f9KOBWSJ5G6cv00ahp+tUN63+VKoS1tpf+MS3+WmMJT7y4MDUm5sG9rHOHJOAX42qehc3tUc/isyxMgd17MDeJ11bPPsVVyJxHHDkOO2Qm8Jv6aTrEs5bf9Ti9vzI8Fv004kjpw+OjcrnQrd2bE8/XhaH8X5+17f7/rvnnhyEsVG3vPqhM1LDHmnTxuh28oOtN7tLy2YDi8C4i5ugFRsX1f/RKNs+CusnVB0LBLOU//1n1TaZ4/j0qqvgqDXh4Y97N7J2rvwXE9KycbSB/K/8CX4QyStcpGXDj7x5iqO2ouo3Kjw26QqYh88vHgMR6Wz+mclSLhq4NQ+4Dzo3sRGDf6V0RGQ/AFhKiYnwec7EbyIja+6FB2iFu/ujBvRfcKwAbv2HTJiP8xKYRz8TB/dZd27s3apsxCO1onwpD5SZ49tdpbooMfalx9gkElvirPm41lve8hZ673vfW+1/7a/9NSIi+p3f+R165StfSURE9913Hz388MNERHTixAn6H//jf9B73/teeuihh+jyyy+nb/qmb6If+ZEfOTNWADDRHAnttvzPYKnsSKpzx0lXI9dTlTbnI2XsjgmuMiapb3ml2Ft6dqUr6OGudsITdfbuSLw3uUfhqbwEBkbiBl4fzq9SbWPb5jRHYXELmJC+LbEsiItZjxfgelyBl937dckKWlNMHcmQzi5aTr6YTfrWrjExuPpxsLnFrT8KE6oZuJuwoESY5UgFBtkVEe1Y8S5j7r5q8TSFWCcZ+yKeN2+SAz0Mt/ZgEIQrk67aBHuRZ2kPSq01aIasm1W5VyCsttK4GPofXV08vfzHFe74ETDf0nyk3ihdldEU/ZCf+bbSyqTYIek9HzsQJb7POK5HD+z1K675BdjjhyPHaYdw3GqfsPyjsU6mjFFczYGMuupYEaRONL04rvyu9nlL+VSJCZ7vqTMrHxQjOw6nPNOuPjVzBNLCNwd3zEAUzuWeIeyUf9RVQvmY10VbtDd/VIuIwvyhbjhZHMtQGF9vngZlEfyA7YZhro7JUJ6WFjVIScNnt14H7Vy/Uj9LysbYqL8XAg7od7VFcRMJcd2eXi4QTm8X9v5Yz0zdo7IEbnNZ2OTWkdoo7sBtykqrTLuzzK7e3iZieweWAkIyWNujk6GJyArIEJFZ5RoTxGZuZ8DOqOhv8ZB4B2qDx8THgS9iVpTr+jYYtMXdwSk10p8ZPizGA7mjSXST0x4czpqJ1zvuuIPuuOOOWRlc9v60pz2N/uN//I8HrNX+Q4i2mnTdBhzFPbBLZ4dOUPmBXwWAV4xb3VaVroZpzw1PVauOHAb2OqGJ6aA7Be6gp1sNWAcP9SvhVzhBShQSzn6EokoGu7D+i48dCWZiWoNekBdvJgo+kmBh0mdn3xB2yVgjRLpz3CytZ2fy6dm0oS7chxhQYqMbk5kA64ib85+Lew4j+WHc2HzrfeWaKMFDorIYnSlE4oWswBMEz7vmOJjPCBwzYB50eRON1Lu9JLhiojUehDHJyIrcua+6Zav1FtYcZSpQu8ueTVm6/+peylflhUifUllJLU7QVq49YG8a79w5BDWojcMTV3/sgDkqa4M9TPNAcDSJ6BxWO0yrnd3nW/YQNnF24shxWr9rqiIY/GaxBf81A6u468isL3qdPFuZLl52cdV+2adrefDwPFizqtVxW7essunb+wtMzJpjFUtaDON2OzFpCrsK6gv5IDoansbNA4/HIvBDbmmiqnGZp4Fal22itJUPbnaPJj5H1AZYBvmXtyOe0MxtErmm6c+AHMDyaN17I1DdLZWpjLhXvF4hXJSQL4Q5pRbLYHmPbl9QeFY/6WQ6Lqx8vO6Ic8kscaPt3MJNinMwDapYsM58ZgR5rCoSmedQuKhoG9YbbYp/apNTXHWCsO7wascK2HuW6r1W2W9Vx74EWdwTm/Y68tNKbm5zk69he2UilsELN5H5Eo0a3Zy/OnMplbWEckd1o1dy2oPDWTPxehRh7/tCDA6zrc5NyrJ186tfN9mJyL7B6q6W3LJZ/drCSRdGens0QhtZtIuLy7kP3dbg3n8Ma5pYXVM7t7Vd+zibXuaDXEpQlVhD+gznirWibMQSyb6SviVXYIY1zlBeVL9xeCTwWm9R87aTkqX9wBht9amZDSdS67gP/ptWKGx26wdoof52MaLgJ+QGZwnk1Usap5tlPdHh7zqBOYi72y6pCfgz6tA+5Ir9/d1bvYxLp7gpJ2sTs6q8naRtoXb7lGErByhpTW3irVPjMYtLwwct77aYpm7WGtSv5aP2uTNfnSa+2VnuLQd3PICS+r0XyVmB/BBBImFRe+1tu5it5B1R6MY8q00du33HBOMSu/EJr52fxldnNnAAn3RDThLribwxFjEv5odR2aMAMOvK1drkZhnjaBp2icS9qPdc1vJb6251YYqrobnb/OqKYeR2zdDG/hXZuHdnbrp3yW1hFi6nwDn/KT9M/cQsDubgpmP3sMkJkY8qiHZqirscbEGnqa3O3YCxX+MW3OelBDGU1fNbUQFo4BFPDt0CLryEAEWZGMbrSBZu6WeJVxzrrk6CssGJR5+PbfVyaRj+TuCGD0kahqKVnDPlP34QsPDxoF6VyFq3+l4B02SaVkrDQ51X16u2sfWPHgfmZFB0BTvOjgGvTU57cMiJ10MFdN67IahEW6+O7dJheHfEqE+zRx/UIhJYBVpDWH1gokdAxpyPBeTVHy3ghhPa/gNbYq06KDDaNd2ZOEB2Wl2wtv6khMuSuzmdGhHF87NAL0NyA+LKk94ToYfJ17rNDMtl+bXphERucA0+KoF6+p+Wn2tlUziGbHXx2AeSTRRgazdPPB3pWLqtyVTdSECcLPiZCWgmmEhFAqKC0IhhCz/smSd9627JFcTfEbrA7nlSRG5BeLo/Wpq+TGy+28Tq9DVRIVox8RpXp0glXE3lZX1enF3pi8hoVqVqfyGacYG+UFQG+geti1H5zT0EBGUd2ms9cDwZDPfRdiPD/qPeW0TxDZhIJI4MkPVMH6TcRQ+0q91eI57i3MpApJzJuoNstLIVRwkXdvKWNjZ2vGiM6HxXXEBgjvZm6++PFaiLFtC9roaVwhMDc60r9APehjqgO3n3El6sXiw2T0pTsLjUgosHkMf6yV+7GtbqsdS89BiCkTlYwAca9ulWQdSbXWDEnN9uZMA+vWSen2JVTX37xDWcoxDhcK+8qUy+cY0NBTbkJUyvN0ZJhzJLvoYqTqkuDoZ8ONYJz9C1S/D9i4B5JgNNVWx4sPqTNRYUjgg7rhhFEmzJIyZXgy9tMOaehuMLqh/oyEUGn81d3veFzC6JZ4NMdwSChkkktkBOvB4WdBQXOrCjBeJkN5+LNfXBbcAwbMO4tSuGUffYbY4cl2RMmTiCjNvZjF5z7uTcZRfuVEm2ENEJcuQUKVeol3UXILjDfICbmDiYyqffQbfJX2jzR7WavpuvffglGMVJlXSb7HmYwS8e7Y1rJQq4JR/kcBsXKWG2bS5KZcQzqjsSEq8/qU5OT7LV1oVx8Vkd2Moit1pKupciuj1xG9jGOF3CoR72qaFuPTTnrJYei6Nwm1KFzYyiXM+SfhtW+zy97ezRBvYhQSUJwrjwG+DlanUCKfX0OVz5qv1SJxwkAH6n9WNYjowfNazWTKv17jMnewibSJwRKFva9Yz6JfJL4x1iy7Ft4gNRoN0MkqWfLsTIxg0cmajjwR3njThRkbOTqjZ59mYzERvEH4WxUYZ1pxwQ+SwuGrCjbhzPiC83OeSLnoeyH75qPLF7ZG4p4+59Nw21lVmv/dqu0T1g65G1+UhQ7ktW1+2m2RoNbFTsTONEeWDbEF4zq2KRSuqN7dNzGyLCiTtMOlwcgNQZ0/UVG4QxfD0kYj7Oxt9sORWu1p23OkfkB/6CDFYfgJq/fT6x5SSCz51wI2ifMSofhxpPBCwCcq1B/TZNvjIIe/44bGIDjaL20zIyjiLIOy88buRsR3Lag0NOvB4ihIRktYebd9cTtm6U3+KIARPWxIFXDtLQK/agQuaDWURgL6kZhtLIWk/SlBSqjkgSydnn5Lw7ufBrquesonuF1UcJ6+hn5KUcX2BWCKwH4RrBqCozE8vaENxZIs0gowSwUFy8NjbTBvU+XBBnmLbbJj3Ujkr5sVkNq+H8HDsS3ajZRbFvBeU2QfjRmD6SnQ0vgVtEOsjZR+Zdy6kieK94jecg7kqFXKGLrnf1sjKdB73WtsKmCOypr1GqrXG081n9N2FbZU7Z43YmnnJYYmKRdqwucfs4IJEljppgzdMGBELDcJ7jo33mzNdN6Z9uWnSUaSrvrGi1s/utVes9hE0kzgTsiBDzevcdy65WyPqwMF65eNuZnRTLmnDBeGdk43ii8X0My2XneAuDfLS9v5pBAT8pWtVXjlbHeaFV5U/IXecnVj2au+fAPddloWDVa3wmpn4odq/HA0Tlh5xxd+a2lMXmHwQrcYF6sISmXhtvll4mQvULBBYRkVGkPVdtNJGNWy/D5vaIduxrGZh25HhouDjB8/6ZPM7dh9GzwnxhSV/WpvFSmSgWlw/XFnS9jMnMgooq94uREq7txGx6q4mhIqPlVhiITV40XZtXGhVep69pv6hP0O41vnjla8kRE+zyWl5znf4jvyjCQR65KkQkso6FznIkpz045MTrIeHhU+s9rXTdU9iF7uE5rZ6M+mslc7FMm9SQOvBKNxnaX/12CisD7o4kTn4SyErgLuBOwE7bilOmMk6SO9eV1zWMysRHDng3JKiNdJnjB5wckQ60uBVLr41Y6oZtISTVeI0Q1FnVqb/29Q/1NhO+5aGljHnVskCRbiyvZpufKAwmss1Htoz/gB8xJha5g18l55hvce4yERBsR/Z4piKEH9pSuz55iexRzhXe2hek3pMtrH/s9LUi/qULBXYIJFowOLGI7cfcH4jSMnX7p1BdRdu0bpXZqrcdgVJX3FbzVPit/6I2KVvqpfbJXaMLMNdIwe53gVUj2nHyFfMTcN2aRK330wfWBr37oSuRSJyh+JOdU5v7vYqlncAuOgvT2flBGdzZ+0f8KODAhcd2s0usvtq1Os7qzPaYgcIBIU5flMgb7EQmyCr/xHBVFzu5Ok0UceOuOt65+PTSuC+4MXJOqZw0lDdxN/6tnFBoOmeWgNuyKfeWb/vhqy2aXVVGul1Pi4N2ZsslDB3UJlDPNqL+5ahyHEOH3Hb+6ieWCEda4cvhbTOmSjOVlZnNvfHT1q65EqYmw44HsSjfQk2Bo4ktU2jWNmddnjiuwyi8cyuJ9+EW2ZVURknr2uwIjUxa7jpXWa2szdFS+jIJ6suQVyLg8+XOr/Xm9HdtSXzb6tparGKIQdjGYZFgq3rRylcwh26+EQ10DGWCm9LLzVSp/J//dybhRKJHTrweEs4/h5c9oCvcRKsZ3DfIdt5E8cQtuA2PGNBUgWT61aLGjTacBWvSkDq5YklxRIhpxs3qvTuUacv6ESmMkwm/VKpEgsvq1EmnNchbkqzx+7NM5yeIgbgyrKqDlcIMdqJ4wtNeR6sall9tGeiAv6n+oJ0JTRNyMq7j6DapbiyWswKnaETRxxOT9eHtWEgPA8FcEq66j+ShyCsv8F/arCooiao3oz1TrhKuUpajSdZOLsiEJykYfARf2B6etJKuFHF2iIeJSVZUE5d1Y15i4ooT7H39x7oY3G18aG9xwFlVGl7m5FuZxR/nmgM8yQwIsvVr9ak8tMqognvqD/cJ6w0E+SwF7zDxHr7iupewicSZgEtOPJUe3tlZ+D4HJgj2RQ77FeWWls+aYwD6VOY0GPr0kyw6RizhQMr3xNqr7iN/14fCEQ/qj9u0caWvcJncrP5S6UBNFslJ2X1V45Cmm7iwY2hYzAvVVa+u+EwZCRGtKtduItbcRl8TjTFz565pbAu7Jrfxf39eaeP2UEhRE/RHCkQqSfm38FZY4oyUrVZrFQatkT9vkCGytFJ3EtXJ1Y7DtG3b1d8pHB05oG5CbXVtcwMOBPEZN3+tJNfa68t6XIwA5Bsn1BsXbK3Drt4uWpSbpp37OsdjBwQQJlXtPSitmUDS3EVX+in26bcDOcToDgUJ3VSPqENwZNQQ1OKgbvUxZ5/PfPXV4PUbqezDBzL8nK/cUpmzA8lpDw458XqY6NqlP8twm7i27IlmCZNMn+w08Tpii6Ot36bvwrVFTi1cnWAtspU66aSR4Ao5sml3vaInrd5NArneXdeH6hZ4Nmmyk29oBKtsz+di5jXYpa0OwFUB3s3LQvxd3uuYr0PkupBUe1TA6OrZh0/P/IQIVywg+e3LYSzfh5dpgBWq5Eu5uXl28eRPCjXwRSKeHHoi6JSWVgrOeeyG/AflYHCP3CtnQ3dppd+9+R9C2n9RqqTEccQsfRt2SvgvTpG1T1xtLl7N+ECGB6dLO4dJGvoOovqSpvUjS06qZoilVQiTtGwZM/VEzxwrQI0sVhlPDKN+aQFcNzfLMxvfNnJTOTHRwgne03K+a6TKEeViK9nbeVirXQ/8icSZgRPMZiJNiBZ+YCuQCW+HLTluDdVvzzdclcjyXO8/OFZA//sJ3XYElAzisaTF8wRczWq6aQb+QcobqabZRGG1KHDNtkMK5LiNpiszwdvzN9WN69XmoXI3BjexYw1yTITyZ6E1rVx6hpvDuB+wjxlzi8fzr20xPvJAGe2KiHZs3oBWWSomvdscCZjTeSCD5bUhY0bY7/TSfBQyWGVq2wP6yNSmHP3tE6ZXSpVFLF/X8P723cbNZxNvca8TkeNQ4mTQjoUcZ9K0Nx+G4ucMq1yx1InptrupiSHva/sdm4RmuMmJ8zIV7hvM0gYUZca3a3DD3WPxI0O/8pU1r0vpUnQfqZcEjgsiMwuHiYhXJxaGP7uQnPbgkBOvh4lgVKgTDcMeeR67OoKAYRKDleQQmQEERw+GyREYxbyb+UAWqwnIKIYBmRYnjJCNifV+RkYC2di9nukI5LUBRvEavpBNPYuq5rP5t+htPTQCCytMuwnrmDmMJ2ZhAK36+7qz183HD4yuMbZrotL9tFzCabSAZHJgxmxHZM9Xvy96s9C4+OkkaPUTbu7S6tPI+3gJ3Fy4pjOs5tjmQcDcQ6C/IUuQKXGF4olQFxbswTEDBqgzW+Om1sMrmT54BatZ7alpYF8x8VrCbfVx7NrOG3Nr2S4+xWu6n7kVVWGFk5lo+tBWk/ckctbsyqXzK3adIG79EJuJYdWzElPScM1eqw4suxxKdoUj/r2BIXJ1QCJh+YuhI56XLm7u23QoEpgdMQh4TbcSNuRRkducH/a7HLqbCdY68Hh120t4favMAqtbRceqEg+7dMoApmb8wI9yLiGiFdM0DjPBECZWF1Nn3Lip5sMtKMC8sdNNo2MfbVkeKTWclSUikybu1BoNt73Z89Dt0JjE+CfUqlPHZ6L+NiDwm1VlycA6EMFy1glgX/bWziZsHKNNtzbdmmk40skQk7Gek78+nLUjO7ALQbfKiSAJo4MaPZ8t8S/hZJtg7vEaZyWV1M4trhkkUxgsJLg5skYMRLIVibH7c9AEFwaoPkQEJHeSwyXC2OdBvcwuwh3BhTHWLr7Sfwg6M1Ryyercytdd6GS8fH37cNT6QJOvY0LVktMeHHLi9RAx7Ef8ydbinGcjxc54kyj2JkrCoGP3nU9HZjeQUjPqBbLiVr6CCWfDpG7bbwSvXcFdf5VliruWPOvxAciM/HWUL6ZpewlL29ENxI9NGB9HBNWvuTQS5FcoBHFV4rGu8tFVhUf+m6/xb/TxL6b2gNDcpq+/4m+KXwm/WBLncm3IVclNc5OhnI8DK3mOX23iXvNp1CRCTted4aV+HMQZuBkiW66Gl/FALrIvIKCzeeJBHsmG0ylULX8jUwn25FcnW6XZiaZV8PWQ/a5QuLxFb+1IE7d3DdjF+gr8n8NWYXZDGAeo5TIglBNRLYlGZ/US0ezXaLeE7SpdmolE4vigESAH9zRO1HGezXEv7FDYmoVoMLE6CLPEXt3aOIYvy9ogbLmJ6YfL1Z6BihOJ7UV78++yV7mvnQzgGl4TrtvxYUBmnj6qRVVa7SVOcelX/Zs/OX+pk8RFjuNjnRpPxvy2xQR6vMAU1mzWH5hlRoY3NJ/NfN2Uu1gPbPaVz9J0/mhAUVz07J49Boqas9FHMuo1IAcBajmVIPV+0SbLjHN75bYVI09E08IEp17McGeAamt+y244E5PLWrTSNbzVNxVJGAco1fnPlbPJDLVjBXycrDcOtUUCNrHpnYoWeETk4RWJncns2kQ9V7UWEFYkt8YNRxnYxqE6Bf13o/bOrzac+ObFK+ZBVXCrfH3C9c6Pmluni/T+Lsp2m4GnX7SSSOwBOfF6JsKxBDPhus1q2Dm2MTdemLDawYp1D5kIyLION04Pv5rVxc/cjlsQTHdTb2cIrfR6MlxAx6YLxu/DK7mVGr7RwlYfSmFbci1e/e+HDBXGIwem9NdWj2JWMo7HEWi8K8J82Ou2k6yeFLfB2dVX/bl4OI4fV9xKcSdqhHv0FrLbKkit+ja5VQ9zOL2N3/Mr/6FR/z6j3oJAIvxtid8mMHETOKD8SP+QrCsJcwSKsZq8XGDHq3evZK9kRlqNeb0xnLh4xRHUOHyT8VkVKziptWKiNRJVCF1vK7Ff1CU72Yv3ZCuzaO11oLHMeI8dZ8HEbbdDLBC22YhLi6nLQVx7AZRx61x5+Nx41LFa73Fb1h7CJhJnLqS36pK7kdyebgXbMUe8Ie68x27T+6SYVy1xm3ZTFKvhcMUJ5wyK2XwQCxYW1LP8ieCFrFtV1233sTqx88QX4yJM/YouX4YDkuaTIybDJ3H1LujY8jvFh/yIq1srg+1XuQ747CA+PY6rLQxwP7Z2n2YtyzJhNG7OYi6zWDywLpRjat8tgGDIVYnchLVAnqt8ay92wSfuFmpJNP9en46cIcGGD6yG2XT8PMhuCyc+nzMB/RECHRlVVbEuIQyE79kz3qeWRXuVzGrxUtAC8df+AvRrnLBVLoNdumcix50jPZe0r6h+Q7/JgqecTX5MfvK1eyBTVTbQXOraC8f+2NdXv9L7HFNSm5z24JATr2cBGtES61Cxi7NhgQhOMeC0BHS5AbMwE6LgX2U7NzsqxnLQg4rY4xb8qNkNWNEPgmzqnE1ciIjAQho80bbpa906ABYqo8sBtKx4IimjCeH50Wo9zh+19NqKwghBGQnmxca9omgi1a5eXXK15TiSAw2lHS8MWSRctaBjs9lyDmM1EdXB3Fa9ThPFqyOiJrLEDfliKOOasn3QaDJbD1MchCv3kcD2wtoWl36ECxUO75ugjc1wE/sh++CjWmInO/2d0FZ5FqKm9jL5aj8k1e6B9lhR4i8PlfZTWvhfw1N9oz+WiSZxR+U1g6gxQcOsZQeJMbltZdrOQRGcfOVuQnQXhGhIPltcYq3HCrwz/fYSPpE4esBOCd2IfC/fnJcMhnM8hwpnkH7CFLmrGTzVH+Nd6g98IkpPfDffuJbZks82252Z23hW+WRJk0GyytQ4yn+Td1/Evk7wXNXmg3kQtpOK3c4cNwFs8o+TsMauaU85QX7Ym9dFP1yAAKt7ofrC7w2Ij8/yY4F4Y3M3XFfuUPPBVHbIERZ9DE+XDUoqc5NAZgDelBhZnbCdVkJNwCFt8uaFtz4+VAd4HbtQDSMXhWGrQMSf6+3g4wHZIZXFvscLdjLFYh5IQKYnYi0qnvguCHdmkG73Tb25lLvTtEgJK8bMSrOtt+rcHNmHqXWud18ADR52Ck23umDWn/Mg5I5SbHmpwbF8BYyDbxgsopxOaCoPcQ6u2qs3d3K70OCsQ3Lag0NOvJ6JgOV1MnA3zmaEdJjrE8TSLMNCCONrBNOMkqFbQFDnVrlyzQGclaodrSVu9VrlBK400F9lKJD1jAF1AhmyBLMngrAtS+sBmAfKkYsn9hPwsyskmHEL/7qSwWmiVLf9+6uYtJZ99AqajmlDCxgkN/oaNz8G37W1a51F3KTYlTQ3UtLHvlFBCgIuCSZ9/Fqmxg2aZ6RTx1d2i8JF/IR7fcjiJtStFojIU0A8u5c6ITG2RulsUbtR5YPJWCPdHz3QKoOpHpIlrd3U7faQJWOpbmLVwsn82m3BJKsoMSXDu0dFOWqL/t7wVdK5Oc5pqhLa5dzkqwZYekZVd77VINwxXRBgkKsDEokZdM076MzUPZLd5vZgIvtBLcf5qIyXfgA2qzBdWGO22/i93Fy6RHaisHI9HXDMcQMO3UDT+uc26dk+INW67fbdhjp6DhcsTGeo1+8eQJrTEQKNM/dHDTTSw2SPImgvgJserbxKNqTppZOq9qNa0uUxiqfqyrasTZnDogPkTuP42rWZownfeIVryLE9Neqo0ugeGYULePMc/XKRtuoqpexuEa1efS5R8uHroZXBzE0b8PqQV3Z+ymOk7xbcbTPk1xFh6WQWdDl4e48yAAQtelYZhQtdg9W3k5zntL2SVS7I57x9QVmNMCiSeGcXk3luFheBegcrXz2XHulprOJCuWiHx3nNtdMjhuS0B4eceD0T4bbhSOBuxKNJWsXc0z9OzgSTov6DWrWLN6tXR+Es6bQaSve/2bTzLaMoC+jpRlaTEew1XSfeYcvRpzCLSpDLlUFWXNjqJ9Tt9K7cIciFmtwJmJUcikaizI1xdapu7fLXmPgt6Rb7MJtXtdJArl3tylkf3BM+A6xWNbM1t/D9+WKLhgJ2OnSD8oAHa/O0VWeFovDAJZcNVX37HIaFe1yKIOMqVxIoQG6RVF2D3JrKccy+frSjFdr47mrkppcJ+gVNG/Iqois62+SiPsBJ6cDqmbDVglq0DDMVYqf+EQGkyD6PJVuVwhidox0LOCTFUx6aYHfswIYGFuo6F2Zxm00kEkcbI362gYuF4+Wozwy4Weet29ln5Bbb3YCjbp6Lw4TAtAtKXFjor11a+FHFVhT2+IAptminzric+uJuBMVkz5i5qtzHHVWgHxdRt+YvJU+9/5T/xqctM0Ubxrd0zOnLawo9KsdY3jIdIq2fQFZafHjuaR1XcTz31NloXRPy1HqGeoA2i+iJvSkbrWtl3Jp5mWDFZgwN1n3naXP6y+lTLDu3Atb1J4xuqF9I4sEqPt6gL9CiZpeOP2OB2HzUyvRPZrcZtRf9nosGOk79BvQ9gb8pB9pc9Nux24Fe1W3wcOIfHcDNnoYGDwjVL+K+QY9Qm2dwP2DFmvYi1rihjfioEoklyInXMw04qTlwR8jAPYynk1UqAyM6uzDVbfvzWtukz4BtGFkfF0EHF3Tcc2B3dZSpxon2mn4/PI2SbmRSysALBNKtwsXzYdukcuDnwk5x+vIs0TA+YNg3+jYPgzKnweTpkrKGdsKdB4ySZnRtV13DQMR1y4tehSaiuoLosCrDJkJtjG4rj7kjw54b1mcN2czHdLs7Nssan/RhjH7AwaLi3da9QyEZPJrkg7ZTuVx7Kigy0uwgbzIQUTJ04p64dXectDaA7dnIeNWqv1YUfogvSFAonmN1ZiYyE5VbYbfhFsbReQWy1Qn8fJ7a5GvwMKGOEN8S5CpXi9yWlUjMIOxYIr4RdHCRe/XrR5r6vN6Fi8aw3bptIa+DeOF9vg/G/R2z/S/DUVJ1zJwIkeFHntMStR0P1Phm9yt6TVuYgZ+Wf23onDi9PVcWuYrUvEImXV4sV+287flEDmJM4zIbM3db/svNTC2PftVyjbsoZr6DVPkt9fkKB3oKBLtsDLAsfD2KqaRv7htpNYPlMGUByD8p77R6CQ22qoOKyzg3mbk7z3UqySsrYFc+EpukuVpyGMEfgYVKeGIqTTd8MMC2Nteea1OSli2Tx1IiTERrIfM04+N19o6rzdjDIpFAcBvM8WTjB88Dev8E5JZLo2gvrOInJ/PsEDUwTJaoX3Sw6F49ukhOe3DIidfDxGjS9KD8OrjBA0ekjtSS7bwGr2tNH1psOMGiPZf0s2RlEtmSRmGIy0zOitMX8xLY5/w8azBlosSqkGYwmy1hnrWQbsHBbTcqy+XIAOonQciSYeseHVvQTqAUEloxO7kBuLcieeyuUXsI4WXt1X9UC70bgYM2UMmHiy6y+6pwZBLJoG7P1xYXD93g7gdcsf7RUQPWwUUcZQfJ1iDZCPgM08nqrQJNVSNWkhWvgKV2CoRXvf7r72Gi/uNa3SpYfKaCDsOulNVzTMHu0ywElLiteq2krd4VVBbyciXHltSCqrTMbN/ILw+30Y4NN/JT3Z1svU1AVvON4bDLlCgNj0HDM2ltkD0u4PX020v4RCIxGvGWjISl//dyjrv0PMfG0XeHlsOw9/Njf7ca1qXvJi3t+aE4iipn0ijauapt+OqPEWhs0LuRSXeMFqpyTXMmK2QL9EA+bP2A75Hb6UTInYofcn+x/GzO3OvlJ0eBKO1ywBoP87ZsRkBuz4WrjLn6gDRGShH15LH4jUKyk2Ejz9PHxRi4bOFRfmUrg3ly5+0eQ+d0I+oyED2uaSMyR99HXYZfEmr8pSwKUI9CtpAs1uOs4AED0jR+GMbkS0AEFfb3priooKKApvfZKmmWiqnHQjD0KB3X5Np32qMLN/cWXXlhw4K4W5xVq+ZWw7W0u5Wv3XcNuOsPWwN2HwnEsoY4rGuSWkRy2oPDarNI4ozClpOuMuPnJFA4fro2A149wn7EX1t4w1u1t4NeD/1VRoAkol4jfTaiG4F7uxkwlKzBAMdk7cWMQzVuKWonVPVUz7i7QzRtmDkaWSZ3QfX21k5rZ3A0gJObk+dOzmthjw6YO4bA+o8Is1MRk0U7hnVjauMzJaAEJLwo4Otn2JwdUH9BQZmJI7rdloBjC9t/9TrpxmUFi31UqX4DvSZHae3d/7j9iHu7h4S6l6sSZh+mqRv7ixj/OX5o2pgmC8Qs8o/MyGt9u+UZs/9FfphGFLdfoWNaQBCu5gschaYHd7OOY1Rug8Z5vKloIpEYYtThhR1a4EdEZibK+Lk+a6a/j/soDozBAOA7dyJLAKs/jl/NnxnkurA6FjMxw/ijY6eG1/58YDb9fVVXrOpMlX+Zic0gezHY8W73c4Xs19Ba3mrjEEZZO/HRZKf/W380eAFQs9HEbLyatW/KxiyDlcS6S0p3czFwTm5XEykT1RXSLJ1svdafNLOPN4rbFYjflFhfBCCXLUTRPtUE95s4jrFXhMRmYOexl3HQ8nW39rCvolbWI6Jly8khIrjuecZ2Q4WhmweT/r6rUY8IossD9iWhfMvOELNHZ/m+tLNGEUedEts8EA3zaLSJKmimPsY5SaabODjkitczEQtfF26SarxpJCnwMiqeiItnu9yVN4Rzq2O7tBjc6ttuMf3uNOYL2bdj0Wzctnbq7TXhmHx5COmYIDCotZGUOaaimlSbDKWav/o23LzllEqSJn9pZduUKJNSSI5seVddcEs5RdeGxfwXBIXmwk3TxkI6fVxMNZ/BkQNE5m27ada1kXi7ajC+W7pxHURtHjw7gSIEd9M8fTwz6tQqHKY/gyCcabftJiIowrbatS0LntojM8l67WLr9a1meJJop59p7UrLmK46hbYm5f5A/cykvbYJlZe2eqemX0i0wFtx/MDWJNPKoPlT61MwZwyXyP8gMEdoO6+usjfEyW1V8BL4+2ne+diD10K8s/uS4XWWauKIwwxk27R35JIb4qh9NfaPjucoz1rkD32/clIYQ+wXD3Gc6MctdnG2I9V1xPQEpuk0+UfkgeG/GDeUVY7FXiSyB/MlLf5gxWrJOu4OG62MJbKTmr2/LweiNROdwKoJVF3Mk7pwvDG+/qzdkRn4NxLEkitdlliPg4rotnGbwtS5M3FXMNeZ27mPIY1uOW2LLkONj9ssVB47mBWf4uIaRm+hYf0Mufu8LHtZNQe3CbvrCAJCeL4tbiuq7YF9mbcVmOaciUCudiR+ha1X2jsbkXJPa1RdJqzOSyC+7CL73E1X3LQtia8P7mVAzS6/w8elBe2jd3MRSyw+juh4ITntwSEnXs8m7OaIgQWTrpMchgnGVXb9l154Iia9W0tfSVsdiyFe/RAXg651246OKObNJPSYVTHXS0ej7MjPh/UsBdxH26VwLJpEBSZOiezsHL4Vb+TT+5Hz648ZkCpvddZB3o1sJtRSomrLginIaxek1ZvmMb5SJSJGl0pKHRvti2o7O222YzVVnZhovZ62BghNV5zTjsqDpb/tbPsI3AL7ErSyi1mEKVvDYiTwk3Lv8rSNvz8MlCybaledwB3O65Xy8scQiJT4xLoTuJsjBzqiSuAO7LMWh+qLZQNuxc61RCabQDmNVhq03U+lrKpKJcygQms1gfy0rUrvXdePChE+9AsRfARMI3Rn3tbsNiXwQ2SLsA33POY8NbdlJRJ7xKYFB9EgGoR3i0y78LXbZLQ1GTMyuDgk0BPjqf9dODM8kHJctShhwPNfywtGM9zVQbTlR994Qv87vayHsiiDCHcv4wc/eKEv5XgDTdccvSrUzoP1/mYMm+JUTu/PXtQxVM+OjaoWj2OIBHbDnWomyq9f8drHPXqkGJ6t7+T9MwMTmSMH+kCeq8zHXX/Su1WINRp5KN5qB2EO4oj4b+OKsYyBz95cdgNZo5P3N7wEhIPni8HpedUhzgP4dRyo3Zc9B7fpxxydLF/D+L2ZqE12Ui/HxHBPk1UI4sd1PCGnW8jxTD/oy8THH6UTPma4m0SI2gd1gwZpOvKxW+1GB487G9123/mc0UhOe3DIiddDxMI+bLMcQ2e2KL7WgdWxputQdCoi7hX1Q0PYcwqEa704ypKV55EsxlPMsobOV6ATjsiYs3cHXM7YNU7GrfOtbOyWYzyTSgIC3kxuvHClGflN+W+lZpg1ERGtqi5+BFuR0A4hoVcyGR45YB5A5q4LfovjgvxLX0YIIdd8UHjGjqpgeFOfC+RXlRiX+6HYh+O6I1texTm32TE8uhU3yLBJLZIJ/EimGebocHQXt4lmpNvSjikQ7e0BwQKEE4tQH+LcIjkff3UWmh40t8lPINy7cJ8v8XJak3CvQAMThrO8qG9L+FGMrSZfAyxphscNvLPH1QF7CJtInBkYDQJzbXvhoBHN+Bh/6153WnSRLLnPZvIwmsFCN6errnStq04ra0O219y4ulnN4zTUpV+VqROiLdfRB48WEAoB3uuOIGpnQ6JKfodYn66vG1s2Y524/uwRV5omO7kl5rE/xj02Rxw/Vp6p7uYafGjLPVKF2O1IEdc9d++y9TFLK75OxiGvdRzFcA19nHNyfjeXUczzLne78RLZgNPXsmSalk77w/3ZRbKh7Gcx2/VB/L7Oq5vYxykfhxB1CwxMGlP+/HOHB7vJ/FGVbFcGlsNOdY09grb3qXH4NkX+SvHMg1W4sdw53m/dbN4TYySnPTjkGa9HGeGZrz1pc4FQeN4c+osbKNCsva3UcQb9RboAVd4TuZ6W7tYeUa9y7Vb8xbBZh3A8EUoGuzIbJoKznzRJrhcmSF5HwUpwPeET+PCBkL6+rivoMELIbj2bE0tBzx7zYVz56BmheI5oFxe1xwlbtkRekohL8+CSrXYV9fPtbYMdx1djpiYbNduxvGWEUevgzhDILWtWi8CBqff15T5dW90EbZ9K+4NlAFMzKP2HXx4wcidwZ+dO27lbvsRQ50E+oek3i/NzQTAsmzyQKSZ7Rtam/nQOwLLZ+6Bf+dWyHMkG0Q8Qfwk2ElwmlkgkEtvB9a+R+0gesasv+URjxvx4GY2T7MOEZ7768WS6ipn8aH24zU3k5jplbqM5EhAGXZiFVtQWCtRJS88BK31FgghjkC+OaocxKlBTVKbkUwL/KKdNjJ0cddI4ZvbmSH7stpW5UzkeNJtWUnf6tXEdxntybkETq8eXsatTrb8RrXP8AV/WYubYO5C7zUrGt6IHMrD48gu8ZOQH6uszguH0An4gYyKJGuOs7iMEQv45wXDkSSFhLpuqyl3JBHaCfomCpmUdsAUNyVvJb8s6KBl1Bp3d/TSfgVvLsyPdpZFy2DijXy/TzQpEnDbk971jSIeXxpdIbIlc8XpYiPYje38a9PfhhOq8/yTjH/BhUFV/4z5HU5b5CU7EsPXr3Gof25ONqRNcg7/Y8B0rsINbwBqsn5S0yshsJjdZiEXaFi6d5HRnrlZ1YUsErjrAtPW/dR/Tuzb8iHGz4YBdMLqM6ie4Qv7s1q4t4qg516/3+jgoXOXqq7x5KPVurGp2BaupC2rkZ2FY0wzZxtm2rreJZn+Tcmdo6bksxfB+USF5BFttzNnBTol6drARsPLCPB050KXl49REhcavsFu5jfwlsrMNp75aT1L0qVXKE53betVrqWdxbl3Z+TCoA1NdyYJtD4OL8Wt6YjucFsW0G9isJGhRgduSM7y8MrR85WtXDqHTwPGYYC3xvbJN+EQi0SMaZKtf7G773911TP0YHcUx5wYDZTSG42AjmmDjokI0nZW55cQy8kQ3/MzIezfkgFyHYI27H9rYpNuPNjZ179cmD8c6+aeUZeBhecT5XmJm5w4rdTsKP43O9lzWtjulufVXGw8FcY/9TFzUp6PaT81LiY+Na+622xVGt6F3B/tGmgy3R3Srd6ts8R5zpLBfG45EEFse7i5yd4SSQY1DqD/zV5oc+yOjWvC+bAz5lcCd6mpWGYa12a603Mdf+6Xt+CFyYOwEzKl3htJLv8pbd5VxH05hjmEhm/+97OZKAJLTHhhy4vUIwDTvxZOuGyKckbVnqgfpsfezMvVtL/gJ9/oJ/O+/YqQJIXEd69zD642jdYurWwSBMySaDyXJba7EEP9u8Ah1bXlpw3YbEe0nkfCYAQxbSB5cVTm/GnUpLHGLz2sdscBYfm2LQqCsyrWMvWRYgdgyHpKVGRIXAatC0zVRKUEScvP3bXNftHtlpOac26J6cfmpcSHDLA90lUiWNls/eiXtyISuUepZbDU9ZaXTlYnLyxSwQ+a7M+BQT0iyqz627cCUBxPJOiZaplyqMDBxaZpGDaNrHqYbaPddle6WQpOZsB1Ngo64YEcUUW4Qpu+55glOXUm+JP0RouBRsK364KOD3JaVSMyg6xdk4DcYSMM4Zzhc5xZ1rKPOduDP1o397JgjMnUisR41AH7gri8Lid2rR+STM2ZljWYOh3VcmH6rEm9b3NYKdtjzwCDc7bJyhKWzkzXbyUqbYpvkah8u6nhZvSq36f29WV3w5f+mD2V5GhnLxvGN0PE9qODh9mh9boj8XLwbEdwmjQvSTONyTZqJ/EezIr2iAy16zMs4VmqC+Xm9ejV8r9wDa+oWYtc4GSL0anmquGs3ieVE7BEDNLlR5+bM2DVVs31OsjLK37255X165uGWPqJ2KlL1bhUCaZo2MGiokM1dYwlV9fdVR/LJPaiAU6fc3tvy2YrktAeHnHg9E7FgJew2fuGk6+xbdD+szfkVIsS9nz3DddLEvN7Cc12JyE+Y9COvjqQtZ/1AgPoW+5y/+nHzZ7LF1ZtVbnDuU8kjM0wWwQrdiQAr+VY9CqHlQnLNa1wfTsjq6s5treXSJtHEzXDOTp52bGcp4rZhr3U6uOoxuTU51szqlybquVhTPlY4pkKVQhWaKsfJUiSSTKZ4CauKjYy0YyEgXiyo4flVUfFsAvCj3Q3pUSIS+PWMqEuPiWh0SLq/nWZV8Okvv+JC2egku8kKxLE8IAgSyZlsx/pGJMwB6qm5gQOoii8MBMLSUvMSRVoSW2G3qwTyuCxArg5IJPaIxYPJBv7aQnVj9sYBdW7sHKVvuRWR9vdjHiTKc5C7wSquxkf6s0vJmbn+x/EbNvEGZeXPSN30Q0JiizDe0WQlrIyvBg21ooB/GNmWRmOT4x8NzTPcHcp7Po5iHr00DTIh0XYa5imOxWO9iXLxz+s3rboNbgeBqWTgwMgu7BpieyuIk1E3n46gjM+3OHl/qzm+bzZVIv8XeL7h5g6PA2HaDRHBi9DXn7n9q6MY8aqkkQn0qPG4dOJVIoF5PqxE8RiaLWBm4CoMXNrmTcSVnSsbQbfRtUJmbDHCyVcfeM5N3fuGu9uHsrMPyWkPDHnG6xmMJc22yuzDStc64eVZ3ibm12vTW0sn2CZDpqs515UhH/0ISqZnHp0Hu9g+8IOzquwEZ5vE9IQFiQ2SMRGefqQDEdexqLqTpcvifpbytDOiNldpr+HcJEl/HusyxEPi/NWebRbFM1KSiep5SOXHNGsnsBP4E8hTIG85odYh1abX6gjWIgdF1zl1Dy4DudBzacjerT9LiezV32JULEo0/FmvrbE7Gt7bbZR4F01XqRVX7KCTiNfVKRk+ZbD1r5fy35UngzB3ttZAmKjaW5EUqfIgQ8ItnJAx126u63JA+aC7bo9I8OvO/QJ3duawjFwaS898TSQSiQhRP+N3Mi3oi6xfwAy22XrfCPIgIW8euLmtT/71Mf4MZVUdZihnez841nFTjv0qUmQo+9Oz21f04ty3TgUKJzpmoGcovT++D55j99ub2zFZm8yWMyBxdGZDQJvZvuB3t0TUJGfgnx3sc4STVEoSNfdoVw+YlRduzWNHgECVgwf+WITebp4jqr3k0xU/l8xMC2NwAYrUhS9Ycu1M5CbnNC5JuTtBnBxWhulPlKO5lo98ljEMuBtEHe0Su295WmjYftu9H3NFtiqE1y1bx+jhMHqQXcppNzTaZau1E4m9IVe8nk1whHMTGZs703VpLEzUVpwtRjDhhoNpHTgFiLmdTBlqZcYKbuFmO/zITXq7p4/sxguQ6w7Fh6uYILhiweaKicz5sOjTBnDIY3HRYwY6gqbpsSWqNROyrjJk9EGSvmDlw1Cehtf2aAFDm5S33nCt+fXNQqi6C67M1GIHe3Q+lvHHknbEt/cXy9x8Hkqk+v4+Wvl6sEN59Mgzc58L+qubaysYXD2iVa8xqx/fvFHa21yjghyltSLiNbz11nxxiyo8zzV0a2U3DEN+Za40c7n/vC4dnyQiv4w0lFmQ/eo/POOgD7ybla+56rVgZz399hI+kTirse2AEPjxwL36L3eP+NFk3zxId5wMVoE1XgJjkp7Vbd6qLb1qrH4LfTu4hiGEP3iqmYss0BWTj90QEcP9pW5C4sBvGIwY7OL82+rf+WMG2jpL6+8nwsYYFUVvZuPOIzPymQ0qcPSrlQfjLvLVqJlEEZcCGR5N0HEfyDGEMef4akVTC2t0iniQMWMNL0fwKGTLxOcT+BzqyFie+ExQb0/XB4zOfiWypK+WCWRYE62z2KAQlgVP4cx31FS+umGFeLm+TMyNEvltZRYXr5ibsXaBZbK6O8sV+kTzvQTzDRWq5dDd7JvGDtup9CK+LGjAaYPuf09uRxXJaQ8MOfF6FBB+bEviTopofiSMznAxPc0ceWxxT+NXMJvhJ0vDPdoL2Uf40axt7U53tuSKtjDXQV+3+OMkrDlKgPqjBJTQ1o94kRmgWOMVfOeOxYdEoSllydKKhHZAD7vFf9F1eGBt1Abbr6YlWia2Xm1eAphBehpMV1gJ0eAL5hp/K9J5f+Vh3MRaviaP5s7FvRBN5HCBWp48etVNfo2UDPxGkD5efz+ZboIp/ABWfdstTcafI1uubTvd+OofsbiwtL4K23ZMKSRWJ8Lb2atcNatxM5Ely0F5VTdliU4uatpIJCkoqlKeOOlqbh2yk6+V57Kth23aTd82w+EgRCSWHyfYJdbr6beX8InEUUbHO2PuOBzctvzI1BQTnpU/L7m1W8iTlec1ObNQzZVBe3FVzgvVIZaUI4W9dJ8nd/i92qoafhxD1Zc+JxRllQ3or75cr+McBvUv7Xt+PbktP2YAoTxidFQA/nzaY7ONr+XTyy5f51v5jucm1X3myIHFfC/Ot/21Co+q16RjPgpFLoxyuS6je4PjQnOcmFEWuRGUY6Vg4K+c3p9a1+k+cusQ9GMDElfTG539OnQDIumP0DJ11tLpN4WKCyPjjaPObBa7qGrKFQ3XXdaAkX5v02Z28zHYbTntso/VHgMkpz0w5FEDZxr0oX7grpCB++QntNsRMVpq35OkfkD0bjrI66DYualdpI8P0sDwMcuJQgaasrMHqW6KKYi1mSsxaZq3smwDpejEqTqZ1W34OQSI1PjphxLcFhkjb69+9WlLF8nqaGWrjY+D+PA6Ttd2wpUDeNIAV0G7UamU8ahSKPb25ll/JTDmHAN1GzTFBfcYd4ZRXFFI+LGzowy3H9flKXofgD9orW1ryq5th8JEgiOFTxa9ZvyG7iUNbAAhUcLP9I7ixnpnMtuNGMvBRTNsShL4iTdLbRf6YIrd8lz9hu2h21J2erHtsQN5SkEikThQhJOuMCB7N/yFswt207j1s3yr8WkBKXFXauMsK1PSWNvxOcq4COza3zJzO+O1jmMMZr0KmBuPNmoKcsN9/CkdgiNt6k7kohCam4LODiXDo2ceVyc+OEbrn46QwUANGbntzdgiRlJbguPnCUdVxoEDBHcAFWrSWjqYO76NcYnMhC+lAOFGd+liiLn0zwdOh2qvt3lE2Jy9ml35cWBZwm3884BpsmIrAGU2YU4/Q3Kde3SDbDQ7bm0ecsYvGOoxWiWK6co1CuMeZaYLO7huC190s3U945ZIHAByxeshYSIvM73K3LECM+GWnOm6qS8zAzI7d3QrZn1jT0xm4GsrwnSmYhqEBM5RRUJrRyxvBjccKEjIzIRg/k0aG/yKTnXSsfOHAipjDXs/w3qR+PVVEs8fMekgx2CfjJMLHjNgz6qU6ZxJntZ4cLH3S+QKWSam9r3X/tq+NOvqQPzknD/xajxycsnHtKq35ZCoPDjAh7RIZQL3mmNXtZ4Lew7mGz4umBZqVVbrCz7VG90zWt39nVoeljbdaFC9e/EX42TLXXoFayBD7m0kcLM3eSOIZzVTICuBe9MoDlcq1ZenGJ0GReLrP3KPuhQvuwBdX+xv8LqkwrZ9IbFb80ueNlUziC7Xi2jjW/65YwK4fMxuKY49Z13vcVtWrg5IHCu4zoUH7kSDgXRZ5zTul7BHVfPIjXp/t5urf/mkcspXxuOhDSPGxmU8tTtv/GhgB3EG3QW9I8z5RcS1eKycvnPlbHkhRjtxzRWwXeW/XsF5NVfEtAYOOpYc/cI5LTCHc1X6HFArRzkRN14QqaBlJlAu+l0ITcBzV48ZQlCfD6SpVf2klae/rTo3fdbY9bEDpeHuAu7RxuokIGN4ttSVrbUdgFkgf8at3j54f1MT9ErNukHFuaOlzDNdPQ8EChRXGEfboerz3AxxG8F3MyOz6gRd0VRG+gxG06428wDW/GzB4nUJg12o/8ZOK8Y2H9xizJOP3rkd2YUHyWkPDDnxehZgaXc1nHSF0bSLK+pYdoOIeOLoXMdtSy7VLGzlZhPCveA10PJS2uRmF5z5bUy9We04hlaSxmXdqx7iDvaWmJ7LSm4yVyC+NjXaUu1Xuqq7/kUTcW18FTg43j8IjOuD/Y/RrufT9lfdroJjlx+fEcYtmoQl6o4cwK11UIRjf5WpAy4Su0Y28V2B+YVFVKauDSm05XdwGLEf8PPdhNdxZPdREVHdloNbofA4iujoAUMe8RQ7X7/QAsxB0yjvFPPb+Li1PSKNPmDzs2wadbD+9eNfQi0fswRUOSukFxDhqpHxmw/TmfeIrc5v3SOvPtvB6zXxHojmXsImEmcuFvA6HIg7v818bbMGbmu+JxvRDBRaN/prKkFc2+g5zXBMIyJwkmjkQ3M9aIcby0Net28/4IsibbKZXXlOdseNh8XnX/tv5oe9W1w/8+XWazFfxs5NCtddsoqxo2Cl1ox7G2zN+aTbIOIbhNy88C3np2mJLoboOIsMOUrM3K3cNugmTmf8jL2WXZ/u/C3JLX8+j4IEqNxctSwal27fgBAnB88PhvsSyGOCY6vRr9M15r+MelLtoSAw93UIk+XmOC9xQTVuKB97xBa3G0WLxU/YVrsq63sK2woEO8VYZJ7GEy0/8zWRnPYAkUcNnInYYiWsYni8QCcv7ufc4CNRpLNQTNaNwI+opcvNLDiDCERoksFRn214zWPkVv1Ajy5P5Mxg7+Jq+dp0DtWcuUUXTcYWex3b/UYlqf9Hm6LGxwz08Gdcdf6CfjgIDY4bMARhybX9ML9Ybo3siWlOeFVdidiSKTfw4+RoVOVVFLNDzkyNP9RghWAhJ+tJgTdZfyEyL/yjeNx3uzbEOQ/7EDKI1XQT3U1WLoFd71WUjQtmmXtUV0K1IpCCmZcCXB74oI/AraK1tZV+QhjutugmHrhhGFkSxrVxCu7RamfqjhPgTmiQVtDXmht+yQ8x50c9z00MoB8i2MvvgPCFL3yBXve619H5559PF154Id188830pS99aTbMY489Rrfccgt92Zd9GT3zmc+k17zmNfTggw8amfvvv5++5Vu+hZ7+9KfTJZdcQt///d9PTz75ZPX/4Ac/WLZP29/JkycPJJ+JswULR7wlk5j70D/FUWzSsfT3rFyPqr549BOTHb/QPk1monvUHTP5rt6PNc3Nv4g/KFgN4+Gcnd37N04eDas042ZjRbbMlettHiqjRRTz4apOG4tXtqiC+HAyfUzaS/NWOlVpFax29TTR0PxiruHxDYBqK6AxhGOUWaI9z1gHfpVDVV0F5ziBFzZVa3aRj2tWUGVMdI4voZPyUS+j9Bl3f7UHDIhh8ODizeYZ2OlkzDxwj8zAjZH/zvFLiq/jCVrqnu1mu9fRdQkiwtrV12aZpXEdaSSnPTBOmxOvZzhMn7PtpOsmDDqR6JzXEcY7Sexkh1npat7oynhXchBdG03LdTQaz7G5KDEdq+rooAPdYJDzg1Toxzoq10HLECru01Z/m5eJ4OAxAzi2MiRVVbXJFn8Y/cBDfOLlinGa81pLXPUalSfhJC4VzsHt6kZycddJ+eIWn+lQYYlTK0tTp1AexozVhNEg+Yh+FM8tWgQTfg68wX+WiYaCURmpwv06D0sCxVxQrLr5aKHsqrOvC+rL3Tyc8mRH+WaTsNw7oC6+zHjqf9p5fXi2XzPV2N0bcXY1zXBmIEP5mboMr2zsw8lXF3Q3ZG/pxwSWRL148nUXeiYOHq973evoE5/4BH3gAx+gO++8kz70oQ/Rd33Xd82G+b7v+z76D//hP9Cv/Mqv0O/+7u/S5z73Ofq2b/u26r+zs0Pf8i3fQqdOnaIPf/jD9N73vpfuuOMOestb3tLFdd9999H/+T//p/4uueSSfc9j4kyBuF/kDoiWqFX3UfzbQfkH2JaHDVe7gptQ3b5dZ3iQEJoJr8Cf0E71TE2TAPlc93nA6dmOB84H3SXsOexdMWE+xVYza5kJ0aocEGvWezjajUN6owLt/Ho2P160uz2e9hqdDetPdI3OvIzayWaE9I5x+cZcgM1xt5/ldiYaARlI0JzRWStB6pm+tYqRD+P9wfFtZ/LkKOesn31snCaFy+rJYbH4/EZdEjF+8mKg6ADh/eUicWWy8Z70MlEYspxWZu3YiwwyiM8BQtR9wMtnK9I/qgSzyEqvcxV2QOieUZKsns042zltHjVwlmN20pUD2eURtxkQ7SzxzBP0Vx30DBjjj2wLZM0ggNdNbs5/00GfpiyU1ZHRIXyBWPLGNQ9lm1U5GJR1q5U4oluyqnlnZJzwZpY68obnU9l8KA3DQRSourlWPytU7LrlDuuypFgPPPUMZHObmWLExmIaR/UzY6//ulbwta36Jc3yMMLuiueBihCtRqRpA6HqmrUySF8c5YdHN43Kw9oWnvm6B/RHRaBVQGbEpuCK9y2RZeDVGepLXHh136gxtBNmonXUfrQesEHb9hW1uRbvZJ528olxjj4u3Ecnnb841Qx/RbPLcbUzZofDNIy5OmmZDbAf7StIl4i2O3bgOOIM/QLsH/7hH9L73/9++vjHP04ve9nLiIjoJ37iJ+ibv/mb6e1vfztdfvnlXZiHH36Yfv7nf57e97730Td+4zcSEdF73vMeeslLXkIf+chH6Ou//uvpN3/zN+l//s//Sb/1W79Fl156KV111VX0Iz/yI/SP//E/pn/6T/8pnXPOOTW+Sy65hC688MIDyV/iDMJggsB0KH7GJ4wnch8Nul0nGbqH570rgRM7VtTO2ZxRKdAJFj6DK9CKTHtx7/UJdA9JZ4tPVTRDBbWxHnfq6lFWOHzsCiFvjOzNsXJWCbgw2WMees6rxwzMj+j9yK9cPJLT7xRsj1F12Z1sxRc5CfIibDPiNBc0w14ws6W9cMZKVMgWzggj/4gSUl+tRO2WqAJR2mG+d6kb3nozIqhbldXj20BfvP3wOc6n10XuG5lTfahfRPKQSguRXWZb+LI/HsDXv4CyEsggFzd1M6PbnOJwJrHZISbgV8vfsVBt030XafXdA5YuJNgG4ZmvPpnjTHyT0x4Yp80Vr2caRuexBmR0eKbr6caQDCtBLD0yEZk3YOHbMLzCAIB75KNT4/0gFF2jXx2t50hXU3VWTmwWjNkRF6s+1nk/kkv5b48ZcOeylsGPnUxUCO3MLnUrVFJ03cSGRhWOQ6OCpzpwbeIJs9HPAQ+ZrW5epq8rI2rImnQ/qT9y7bCyK4pqT3NUuRbwVeRoBPHOrrTtfjy4WrdKQs2xAYEd3ftsGBGvN4IH7l14jbo+GUd3AIYZtI6Bc3dMhbEjIY7Dd17+eBW9f7jcde2pgOICmCrY3v8wJb5MJZNClOLcbxTPyL/KLRlrdqPAUcDOmmhnZw+/gyGpd999N1144YWVoBIRXXfddbRareijH/1oGOaee+6hJ554gq677rrq9uIXv5ie97zn0d13313jfelLX0qXXnpplbn++uvpkUceoU984hMmvquuuoqe85zn0N/6W3+L/st/+S/7mb3EUcNeJl3nomUqu3Rwp06ZPAU+Ge7kCY620knXtiLW7vzZ9D2Azk/s8U4ay7DDRD5qxiKhFbW8meOj5uwMvy3s03iNh/0gE3LHarH1w+Eyom425x1xn4VOQ0dHCIzSi2EZtQ7SVpMZfWYjH2ukzc3QUEwqItMU+wm0UT1WzS5BxvKx5dypr3UWvGG2nEaWVFOnsk8ryE5rQ+12IX2U8Qs1Z585GM3u9UAtEGg5hidPYdq9xxBuMnORCc+QjohbkPc5ma1Wbc5+HwDKsnsgQTM+G4wz0dqHtGtJDHdBmv61BJyKT/uYVpzdjwK/6sa9ej5L6tRt14vCQSIUKHNUkZz2wDhtrng9TGxaAjfjv/F4AQ7cIrmBG1cX7vxa/OpXrgzvrsuyz6ZnPAS2XVfh0BhDk6x6iOswxfk7nSEtE4whWzToU7t0xVyFgJACyRGCjxHUyS6pCep26zoQ1MFoGsDNMQOgzDSItaupj+pewopmqsmwcBnoVrSmHVrpil7qfyPWZyeD+6uSENY3+fpKVIrOejVF22R8GB9WVcEyriqCvWZfS0Cjguqs7u7n5leHzwHjYRgabcDFdo+Zc91gFbEM6q5Cb+HArdmLQ7eKY2pH/bqVpoNPX+obdj/RCnFjZZqPdEHauNyhe9VuM1XfcIOzwH8Ck267sy1TSGDSVEq+QRvI4QI7quw5yqg7XGDe6+qAuZf8x3kBwOnAI488YuznnnsunXvuubuO7+TJk902qKc85Sl00UUXDc+lOnnyJJ1zzjndG/1LL720hjl58qQhqOqvfkREz3nOc+jd7343vexlL6PHH3+cfu7nfo5e+cpX0kc/+lH62q/92l3nKXGWwgwuEadcylWXxB/EhEPKvOSMG/A4n3T0oL8YOg618ahNzs7Q2Wou4xYLbZkwEcE4tH3IST8I2yatVbcWN1ddhdr+K+nGz360jz6H1avsw+iKWiRq4zKMzH6iXPNg62U3YPwVKlPLspBV5Ctk/PTa+G9XaMWdo5IKuANGR6TjvOU4lXapgCHULm5Hz+Zu5aqd1ws4aZsr7st+eH+AfI2ji6/lx+jRfVRMLEfuPsqFdq234OFgRAi3lVH3WralwDuCqWYoAOFWQMWsTL0tpYe2F9kRrv3VD9qaeneNgAmeGw4IUbvzaviVr6NwiV0hOW2PXPF6hkJ2M+mKI7m61fjI+vsRyrwywvCWtOB1OJlTt0pJMNLpFcP4eHycOliMZL3THB1y+rASqpbPzhzK2MHeLM6lgRkITj3Lq2atP11KpYWm87SmM41KIEMMpMbhIu1kONoaLi1PUkdgT2W4azabIBA+qtledlNcADybttqns5rmyRU58uTqzg3A0R0wr+eclCMdC+Krim2I1bed1oY8g/P1G7kpmQ7oLEbnCsWqyfChhan1tIeuYi8EbXrgaKtyddWRJth1V+qvVe/Kw7yQ56ZBLxiYh27iViy3/rZ7edTfOsGVrdOqr+Rt7rUw8Gx/P/CLZLzXnhQ7otBtWXv5EdEVV1xBF1xwQf297W1vC5N785vfTNEh//j75Cc/eTpLoMOLXvQi+u7v/m66+uqr6RWveAX9m3/zb+gVr3gFveMd7zhUvRKnEwtH+42LEPZFmS3R82w9SmDqwgf8d1dXe6aoUrxK5cIQPjRMHM2NdYHd0//lv6BixA4envsJmHBFqlct5tGOf8tIrrlYmuIZXd/uIl2IPH+PY1rKE5sms08e7fsGw/Yfe5g5QXOGcK+f0Zmb22ZO5J5bXMT2OQbinUGX3a7duppEfYsdzXhsh+Fq1d8mbvQb8aZQxj5kcNQYTOG7BmQyhRkayXBp++zkA66O5ijuahZrj64j1HbRKpB9ZUbtaQEWLyTYJt6u/4uI7h7TONuRnLbDfnHaXPF6lmHJh7S2GfiHWNxZtp7ZLjgT0jN46myYEBGDHBJFjaXbymsH4Wk7by8zHlGaLl7WBN+qQ50yWbNRYhyaRXWnWh7tLCzQVSaa2FNWoRVu8aImZ84XIwq2k9l4iAn8GvFFBgtUJbxi+v3qVitXz2cdlBG6kfMz0Le3m5bjaQwoUtvkPIT6AXjDrdY5RXkJUil1F8e3u7EdS1No2s7uiJ5emaAM9V4KZOuThm8jApUUyMxcxT2x4Ip4QXGfNcQmGQkKVjngorfb9g7wWTGirth3ffW6DToT1l0F4U2yrO9fcjtsksmVrw66vWov4YnoM5/5DJ1//vnVebQy4E1vehPddNNNs1G+4AUvoMsuu4z+5E/+xLg/+eST9IUvfIEuu+yyMNxll11Gp06dooceesisEHjwwQdrmMsuu4w+9rGPmXD6hdhRvEREL3/5y+k//+f/PKt34myF512AuYnVod9cB7Obzifq1dDNdcrsOmFWLsOFp05y7extu4ZTV3bi2k5vRzlMX2jdun39VgCoWT/waMYPIfuVIJVx7p3dFQEttOMcDxSXXWXqoYsZ4kcL62bzwWF8yyDObLMhRWtdIyvgZmVXhLvMCu+V3qwcjCKzPgxUQsGhmZXDFR3wVx1Ht1v9YXou/Ca3ynu0bZN916CPYqMzXwPziNuG1EipbHWTtlZG8+nzL31elgAXgLYK134giA9n4TFjVVwLB+q63iCQCK5AbTcy1YzXeLyMzfPirs2Y272/6VzXjYRQ4mtd+VrdgDgOwnTXJQ+ITtakG9WfumNbip4NjjOS0x4Ypz0rVrx++tOfpptvvpmuvPJKetrTnkZf8RVfQW9961vp1KlTs+Eee+wxuuWWW+jLvuzL6JnPfCa95jWvqQV5JiCgSNNvQESXfEgrDLm7mRxqlCR4ExiY63b54m7feDGO/wsVi0Zx6c2VrWF6wdW4TSN4v7oV81LVtmZdAQvhq1knRjGeIE7Uh50c5kdXBvaU1K8VGNPXuJy1MmAlopCRx2NteubXp2H1oUJOucbNmKY0iRqp8yO4hm7Orr9NY6fdFtdU1tXA4n7m5iwInMj6zgG+NMroOo5zMx2wbKVNugZtIXKvDwwuyoDYNpLDe1A4OmIAdMIDnoxM4K/3FbY959/C2ajC6F1S+sDd/PsVN+yDDHKmaTIkbvqaTRP/m7Bb4hgkxDN+RK7sjjlkvUOys4ffeiKp559/vvmNSOrFF19ML37xi2d/55xzDl177bX00EMP0T333FPD/vZv/zat12u65pprwrivvvpqeupTn0p33XVXdbvvvvvo/vvvp2uvvZaIiK699lr6/d//fUOAP/CBD9D5559PX/VVXzUsp3vvvZee85znLC/YI4qjymm3xvB4AXwi9u6jQcn79+6z3SNLFKJetd9XnfHldzfMjDgGcCoGPzsGUIvACFGYSBt3GCPY4ueKcikMX7RlH9WQykrRNTokybOYVspNvotfArfqZfM4GqeZWvnh1csK0WC1q92l1inH6B610aItLKzA7VoisPPNEF3xhWaTlq6GrRtMgpnbTPMdxN1NvrLqS6ZAzaKPEc9CJ3cPWSOULsdZDt2kNwsEQLOSPMP5zbMFZFA4tleiCI2kSyNQejH6QjKccZaTBTeKABN33Hirq3Fj1w7YybOTYfh5+y76sAons2BVa3jm6zFFctqD47RnxYrXT37yk7Rer+lnfuZn6IUvfCH9wR/8Ab3hDW+gRx99lN7+9rcPw33f930f/fqv/zr9yq/8Cl1wwQV066230rd927edlR94mP2QVug+6tFjYrRAAZcOg6O9SncSvDPXDnfgvxGaVjELpjc30jWKxOBijykSJ+fNmzXT8PrRBDwzlUhsMQq38y7d+OR1aFpaOtrnVSA8heFbO2gPFuzCrevK3CisJdpElh5P1TFeFUzbuC1ZXgcrYidy3F4A+GozOsFtpW+9Nw3nNCcjsVwPV+GbmtZIpj/0qx2XgPfg3FlTS3Xo7nWXPi55r2/tXZjiLvqV1nL1vVK3MtbXYfT0YwTsjyGO+jZc7XrOlMqV8Fp82L2UEnbZVe2jlqzlBm7mduKWIOrXLE0n1+11t+VBYtA+cuXrmY2XvOQldMMNN9Ab3vAGeve7301PPPEE3XrrrfTa1762fv31gQceoFe/+tX0b//tv6WXv/zldMEFF9DNN99Mt912G1100UV0/vnn0xvf+Ea69tpr6eu//uuJiOibvumb6Ku+6qvo7//9v08/9mM/RidPnqQf/uEfpltuuaUS63e+85105ZVX0l/5K3+FHnvsMfq5n/s5+u3f/m36zd/8zUMrjzMFx4rTjla0LjnTdd8ffEec03WmbN3qR7T8TFRgZ7BzN3O17MrQ0eOUIxaHMc8eQH86flwvlpf2HMgv54jytEl+49wPKRfVMLqWNeajAuno84EZaqUf3cnps7ypusEUrP0d0XgTd2dmDiBgYDjhVekYEZGwee4B8UJHuKenNaJpcURH7SpJWaCjy4cQmUWWyLu0PpDPcxBPx/c9z/Vl53XglnYY1ucLuJ964r1vSKO6m8LE3INZnLuX90cWdHETkEanpyWyEPUow1u4mVWy7OxkAW3HbLZz2MsK1PBWiQirvx39ylefbX+j7/sYlZjDUeC0Z8XE6w033EA33HBDtb/gBS+g++67j376p396SFIffvhh+vmf/3l63/veR9/4jd9IRETvec976CUveQl95CMfqYV9xiEgo0uOF6hyISL3hbI4MwWdvHh5PUvHfIWImlk7/Hp1/hBHH8YNLlF4HUTmmIlyArfStYZc1IH6cPbnSU7YZ6ufso2qXvROX2hFE3FsW5xwNMMPaAV+dfJUt57XhImobN2pepZBCd4yiqn/uTLBa/tS0JTfUr7Saqj6O796wL056L73Q3dzLiuYGZqCeSkMg6d9vnJvu6EpRzv4QhlTJi3RuFVq/UG1gM8mGJJHWCZB6I7wzcmYBCjc4oS8az3vHdnxXna3gS05xvtG+ngD3meyA2x84p8BIayCAqQR0itPI/GaFnF2dY1kQWdIP7Y7goiRbGgco9s1qtqRfyQ3SjYnX4lovTP99hL+gPCLv/iLdOutt9KrX/1qWq1W9JrXvIbe9a53Vf8nnniC7rvvPvrzP//z6vaOd7yjyj7++ON0/fXX00/91E9V/xMnTtCdd95J3/M930PXXnstPeMZz6DXv/719M//+T+vMqdOnaI3velN9MADD9DTn/50+qt/9a/Sb/3Wb9GrXvWqA8vr2YIjy2mXPoTOTbqGcYD8kjSGnWA04+OSMCJSeYThE52cs28cCF3nD/aJn2pkyivFDFfT6lx1iyYF9wmWxgT2RnLNVn0vVyS45tUPwRK4Kby8WzhBQFtdanaxxPhDPtyZ+8UShRGDedCMt4JvNNbMha4wuFY3xxuiejKf0/D6SuymeUOqyCZM4a1IJWtzBUW6cPOl4O8nLhXLzh+5IYuLxBSfxH6RLOpYJt6ie8q0J/F+g/j24hZycO0rWkb8YgLDH0XDE9XFDsVY66veRKjPTB8d2bVtSG/31VF133TswF7g63wL2Tx2gJLTHiCnPSsmXiM8/PDDdNFFFw3977nnHnriiSfouuuuq24vfvGL6XnPex7dfffdQ5L6+OOP0+OPP17t/otspxsbJ103Mq69dR5m9RVGqSOzUJ3IgA3UJbA02coxoXN3Kz07txGp6HSZOnBmKsc0OKYS5End7VmrMMCTJXL+mICRn56dSmSPItAk2YW3O6qBSTAb+Va6uIpV9RYjs2kVbOcn0nSvdpDTejHh59AKJ6q6idTYCvbnoFG1eTcIu+Hc1+6dAYzxdbJU9UPCOcjRnD8t9O8x5cif+bLxto5uEF15GZ1x6ruMoBojnsGVaJeroKC2VTBHb5NdegKE0T9CCTczkRjZdvOB2R4sTZaNx+2CeAGxciRRfAGO+qjaz4384enB+Glbxqy6c6pq12B1ryU4eFhYik0TqJuOVz7WPHWfzsM6CFx00UX0vve9b+j//Oc/v7sXzjvvPLr99tvp9ttvH4b78i//cvqN3/iNof8P/MAP0A/8wA9sr/AxxUFw2sPns8NBJcbWHdiWnY7hhdG4Yd10u3R0Dqte22TizKDQXTdkyQxvcG5ol5F2zIHyReQqi/12LQvfCxgMAC07E39TrhMdZGaqx5HH8bmxo/QkcNPzc2UQpq8lfSQRYohyGugZQ8gCs3KogbktsCBiJBLS+C+iu10Mb3GrXSE/Xty4Ia0L4w3Mps3q/UCVpqvZVGlEedTMRLIWw9NJyO5cEqsrPrZUs6aJ5k2yPo/IrVHLyueIWODViPg610J1LczLzJprLqkDD0Q6s+eSQUPYC4fT8ohWvlYVRgksHBNcnzDrhmFN14n3ntcfxZZ8D+IIIzlth/3itGfFGa8en/rUp+gnfuIn6Lu/+7uHMidPnqRzzjnHHKRLRHTppZfSyZMnh+He9ra3mS+wXXHFFfultoWuDPU/wHDSFRkQyta4KZQJ/XihXxdJufJ0rfzBnOfCdXyRMC637tTJ2O+82u3I08s9nIzEj/MEiVWV8U02eHMvWrMURBP7tYKbvtYOZh+uKNt2TPtvgAoJLiUkIv9hrejoA67NY/TGFmXiClbSN/muKnGxTWP+o1ptdWsbdDH+eTduTSuSM2o7KZjRVv6DRI9dCDNHV36+/Yv7jdD7Lx2h7Rmim9LBMPUeMCtdF6RbCwXCjBqMt0duNflhpzHWDBvXiFjO9UlL+ix8ckQh111VUWc20UufVNeuvN11mbP9CMpue5CqPx8Lz8ia86sygUJetzm/44r1uq0Q2NVvvTmNxJHFQXHa08Znl2I46bppZN0/DMcg76Qv0I1/f84ruje+444cAPtIzvMpy7VAF9Rj6YTFtpiJ1vOhxt/Lniw3RthxwZ6ai/GRu0ogP8dw2nM2ho701z1kRT9Q15obc28f1dpMNeYxE4pnyhZbQFRYHaTzm6NOxo0DWXQDEoRcxXoHk3qBiq5p+OhN3JWjOV1MHLPEyqW/gYTJ0M/HJU3p6i+B/wbdZtPwbo7PGpK5AQJ3X60/b9/Pa9O1P+81uJbf7PGKHTYIjhr/Bret+fdRQnLaA8OhTry++c1vJmae/X3yk580YR544AG64YYb6Nu//dvpDW94w77r9IM/+IP08MMP199nPvOZfU9jCZYeL9Bhrp/YTR8y6hjBbdIVBh/ozNtcTNSxW9lR/HOdc/th5vzUlZs2q31/TG28eXm5FXkxU2L2V9+cNkXMuahO95XJJtcQevFFYIqBG4mqRWRIgXQTS20SrGjIMr35w/piexUTxk09Kv8brEiFwiiEYODWMXLuiGd3zJkrUdcK2kSrBGFNc4GPhA2BMvjrZeIGXPTlkcwMahNlyDfECWVRW70EJ6cF3cv0YsDK+rB2U15t/rW52y1GrbJkLmubso7tcCZ89xCohpUjVWGfBubiZ4tXunDD6xIZ0Ic7A9nywIlTfUjYDUnc7Xgx8DvOPDWRONM47enls6ORtmB4vIDjhl1cPo7ID/naHP/bxKE7okGzk65+jArsZnLK81uwS+SPmojfyzTllbt8L8nnloDoRgxm+rXFBC1o48IM/AY+6xoOicpp/Meu5uWpizcqcpelKJuEU70jerihxW9ARA4GZnuZZ4dCsHDCuQduMecW4xYdKypw9JPGI0RwjiyURlQwnn4xOjV+aPg6RFd3z6sZKayjs7ioZ5Fsx98wAsyEW+AS8Z+uXwsjstjUONUedXMbojcLfGSbq2wpDzqZbp47OR6W794wpqMzRNV55Qe3EvuNQz1q4E1vehPddNNNszIveMELqvlzn/scvepVr6JXvOIV9LM/+7Oz4S677DI6deoUPfTQQ2aFwIMPPkiXXXbZMNy55547/Ora6cLspGvQiff91JJeezeyoJ/RSfWF6xyBZYFYvKzGE4SHK2N48ekXdIOnThE1dyY7WeBXpmm84yME9NyqFt7MjUD6eGwAQzjViHWrWyBPpAS2EP4OTWY4LsjmiZF2TixEWzJhTxlrV3P+LOtHAAaEGo4GYDwqAOXw+ACID91ZCyjw8/uepYj6l7qTPi6bpjSj8hn5txg2yWz059AzHvAF2oMjhLPXKI2Rm487clsR0Y7zJ62HFjGXzAls08NPWTDBx+YGKnVpG6dWFnjmle+z6vlWxpnBjVscVVNIScp9W8PjinuiOqMPek7ZgrypsZ5VTCYOlnZmdPfeYh/JKSI8WqaTaUUUiQ7b71HGzpPTby/hE2c9zjROeybwWSKi8aSr+u9jWn4wHwo5HZBfwovn6kbkeGm7cuC2L1ckkzAo2vWaIxxgJxwRJiC7WB7tlbUABytcGnTsJ9+0uPG1LgoP9EJZjpuDwEiH32LoHh/KEWYad12kgGZnNwl6M232q+sYMC0iw5frtxcEykyUSkvlJnVXtctDpSHAiytdw3LQJINirnn1MPmqSpnm7EXNFfiQqXYh804lNOMt5G9t7yea3ki2nPXa5RHarDg35ZWx+Nhtt+c0IRkrz4/t47rKT1tlm3vBVGCrmda2GCslsEMaSlIhnPk+CHw3oT5PdmfKQnFEed1rd7b0mSdwZ/dMua/j1ZmK5LQHhkOdeL344ovp4osvXiT7wAMP0Kte9Sq6+uqr6T3veQ+tVvOLda+++mp66lOfSnfddRe95jWvISKi++67j+6//3669tpr96z7QWH5pGuA4Ui4N5SpkqKKtHSEypmqwYRXJQfsOm7osAk7bwhfO28xGnThoRMfj25Rr16INSzNYx3Vq19LGZOo/BdI0TTmQZw4MUti/PS4gFq2IYMRonoOVWMWky7RFv/GKIxMJY1ifj4eU1ZV/0iGqr+Pc8K6xjSNsVKzZsZq4Ci1LILmRd1V25cbBGdlSut14u05Jr5fpnx7Vjzy94qoTHTDykZ/IabVqEm7qKa2OcOOgZDVewgb9yIiElSGRO69jLZRAX/xskZvMdEZVfx9MiqfoBzCbK2IaE1mNbYW2aQGBOwIJ7pHctD8qPezVx7GgX2N4X3uFjgwDNoh8v0lxPWoQ3Z2SPZwptVewibOHCSnDbBp0nUrv/1Bmw/qO2hd4WR4GsjU6QtGO9V+uoZx41AfX2+O/KQq7MdZKQdBnXk/EbETkUVn/bCtH+YIzNO1xEMylEPoh72w7cRy8eOVWTBBaC4maVp1A7ssN9cP3KqegVm8u+G7jVjUBR9IiUoz6dpU5BaUBRNy44EbQ3wwIecf1yqPElvqUduv8Yt0x4RqlplakdZHtBlZYy5hGYratM1IVv07ssN6UwIRA8Wqv7cDmcP20cmQI3hOcXIZxMLUsnD1RTVqbCyDa4fd9cfmJX7IacffWcDFTLOAojfZg7Cm2zRlUfQzbk7WhD1dpPvMQHLag8NZccbrAw88QK985Svpec97Hr397W+nz3/+83Ty5ElzrtUDDzxAL37xi+ljH/sYERFdcMEFdPPNN9Ntt91Gv/M7v0P33HMPfed3fidde+21Z8bXXwMsPV6gUZL5LnGOGi2V6+XZXCfC4iYDy8BS/XQiTyfs0L/KFE1gVSxDHFMEyCraqgRy8XZFV/Y7e6JheLe71onYuWshklF4z+IE3ATjwdetbmCcvLm71sgEZKjJNMIHMtRknDLmzFcmFx6qhWuc0SSwLV87lkvgZrGpHbdCqWo7BKM0sDqcgK6rLcy5qC2t0X0Sycxh90M0HNHBFG/JF6L6wDdboFDqMmcfKD3qMCKZkMWrjjIuNPCb5TVLCn0jWysPCZGuRKYNq7keS1X7MbV7/8CuPNvJLLOzsY9Wqx/W11c38mIe/BKJY47jwmnHZ7qiDFpm5JfEtRjRk7kUylT4ClcTIa3yw5A3S2CO5DpzN64q42qdp+evggfTC/zImQ/KTiO7LxEhPEaJO7nIFsuFZTUaYGaajKmn4LGhUqQ5iE1508/q68w8MDvUuICX48QqHkjmbxkN5/WP8mQKAOUgvK5IVjeTZuGEU5pxSVZRrQTGfNC4aEj5WOHy8Cylz25sZPtwbGTBjP6lwMwzDtNkjh4EjB04r2lgEocZxhPIhGGg5ALZJee6mjmI/eBq4q9s7Awc1/PnMJ5NiMLOuJkedUnYdl6f+yUSy3GoK16X4gMf+AB96lOfok996lP03Oc+1/jpQ+cTTzxB9913H/35n/959XvHO95Bq9WKXvOa19Djjz9O119/Pf3UT/3UadV9KTZOupr+KuiF3IhqJUa91sidez+YWOGqbzcCw6QiwZUIuv0+/Y4NLEfTFHTu0i764cBMaG7BAjoUmpHkRF9lrXJAPrgLj/9VXyazvQkeBiaN45WuRE2mW8UKMvVqlpYWIqDb64zdhy8SdcmIpihNd9LtLvaqudUVI+pXjw5AleDaLfQAt0byWr7Y2fWqTdi+UY/o/vxQunS41eMXxtBjGmI/2z6sl/WpOdvuWlYrmBXN/taHNlk9zf412w4ifQRk2vZ87wfhxMVRWbf1l9Af9V/gz2XTIe6xEyM0u3PM91qb7U2PoawrXmMPAm5qhyo+kvN6sG8E3JeBSXvG/9hg/eT020v4xLHBceC044nSiOtG4ffoPyczVA2OFBDgUngOjJKUgZ03+A/tRTHkcIbvieUuq7o4wU4kdfaD/MkovaIywzEDhKO+5d5U/Xw19XLj+RHkq8C3IWLPwfWHlKPFj1wbtbTmfjRXHo3ugzhgd91Ipi5AqW2TSPm7H3cD+gJNF1ijS7a5sXEz0Utj744eODe2xyYxPlP0YTVyv9IVF3eO2KUrjuYvLoz05uov1qwRG7cus2pHTukSOSwZKfeNobwgo+F90xSJ7QbebV6mLQh29Y/2+g2m/m7bDF85S+Q82BqHN9XAflSRnPbAcFZMvN50000bz816/vOf3638Oe+88+j222+n22+//QC12wPqGDdzF0Of0Eltmh3ajd/Qv4yKhTThytN+Fgy1LSMZB25gFhO+969m7bT7UaOZg23XZoJLyVUlY0H5LyH1cz1wGVQiwlDNbtu+6JEElWy2vHHRk4ng3DGrq8p0bMG1IX92rPfHM69avStdpunrtaK1hvoO8rnALQpb3fSc1wCdfDniwpwfC1ehtsx/MI+FOTfpzMlsGtbH/lMOYpnm5xWpsrVc3D3i7o+53Z4SuKnm7N/Oq8zIzWVEOv2cOcz4JlYjNminj1fC/XrabmRr7Iw+QiTsJkOlPSFEhBI7AMP2J3dmgflsbnKoljmqhUyDg6PT5opp3JdpUhzE4R023Ax4nNixxHqP52ElST1WOJKcVmexiCjuCEadw4h/zXUmW8QVuXPrXps/TLqqG+iB3Aq5JEXmYg/lArsskMXz+zsOuDCdTfpO6fBi2fl4BY6AtDwxGpLatAvyyjGaXyMAi2g7yPe8tEwKh0tgt8Nw+F06cVPkxDugWel5SbDtXuujiqL30Xo37tzKYgKXB3bxwGMDcC5nJqU2wFEFfIXCR8raTsTla5+4hznljqg9U2ga7ri9przTwT8cRA8Lu5FRNwGLOUOhFLyIC8ZN75DQeb4a8Vce2Ak4asBZo1l1Pxlb1TlNJBLa+MYUvdDSe/hsRnLaA8NZMfF6FLGuA/8MQe1GSz/SObeR7KzbNu6u53FnuMrwXFZqst2Eh6U9bTTFkRv86yQvypILo/7lVdrsaldp41HEN8GPNdrqp+HbNpWJbEZbWGz4bosxtZUBpozNyNTWCoSTxSVXIz+UGsGulrXXRsKmusRxv5EkOAOtZa9dlbhRf8WwTK1tsfPDMqlh4fydlqYrPy5xKHkCHSOyassl8u/j6KG6z8XfZCK/um42mmRdcLVngYGf3pcYxixVICB0LpyaBd0MewLR1rL1A3La+zGeawZ1LCU+Lv0M+rcHQ6kuk3UUlw2N3WvrjZpO6Idb6ZqdOnudLxVqsUCxzNlt2Lb61soW7d2te3DHDFhm6Xl+1IUon97Y/RxByM4OyWr3RDPPw0qc7XhMdOlS1AGA29xAuwgH08Gw4ZwBL2HPOaiXGdhHcqG7AFcBuWl4aCNWGS4OoBy2Wdk6L1u/mQD8pqksgdu8nEGlX+wcAzFBMcMibEghYl/Plb9JO9Zrzkxth5fyl5r4RrMSiM1mht1K+jxRqRs05ZavPprQbVTMi4H5AucSv+gzgPJweGwjJ04DneaA9LRTC80jO5hbTrSA4R71Z/hqflS+HqGlGS/mvcoQyHidIU9tv11QH8FVIGRYbnu+Qh7RXrI5bGiROxTPMjcsO/BnCtycnigbhX3ysUDpsx/JaQ8OOfF6SHj+eU+hZ51gevqK62H+E6AjMq6uFxiOLtTOHe19BnGPYH0e2nmSzlkxPe0EjoZSzeb4gcqeJn9BWY1b3diteAV3lRXv5le9YnkU2cdph/5cnqS/dOLctpKUC2X15/qomdpWMeNnJlXJxBVNwLb4mkyUrkmPhb5If0FPpxU9jVc13IrWtCIhLtcVTx9VWNGaiJq/ujFhGLFhaV1kqMnKumxbW9OKqNqn+Ne0kpYmV/sU3w49RiJ/Qc+gZ5a0iEimq5LPVakSJabWD1bzcrEXjrMqpKy6CdGKS9hyXRVZNVN1c/FpeiS0lkfoxOqpdEKeZt6y6/x8+3Ftctjs5mSwmaIMNJGaFi2QYSGiJ08RPfnnRE95FhGvGsFbE5AyvZK1r8Gf0O5kyMU1Na3ysQafhoubfFpE9BePTPZzn1WjDuMg0C3yL+Z2ewf644/m42LBycvmLztr4kcfJjrvmcSrp7Q4QD92wfwkLMr6+WzBPNK8PE4OR3Grw/qLDxEx0+oZ51MIn9bAfyjjJnVlaAmcA3/ZeZL4nPNo9cwLRholEomzFC986tPoi+sn6Dye+XRE92AddBQz3Na4D2fjlsX1+HqH/pzWdOFqRVzPgZ9kp0kf7fdtZ17twAWJyKxCbWfKl/icXYkCz9hb9lr4h+Vxejqt6LzCDxuftDyz/mDBQfseg3SyyG3n/Z0MORnn/yQ9QafkcTqfzwMu2q74a35axp7D2vg9v0X/+fjHfkRrekIeoXPoHHoqnQvpUTUTmHloRjf4McTB0rgemgfprLQOlY+w8pknSejP6an0LFoV8mx4qD6uCVcebdzhcU4nRA0HxbiISL8LQeBfOS1B/CUuwrhO0MQLn3yYiFe0eur55lGumvFWgVu3cWSx/j48Wb2tbAvbHUFQwgs5XWRNcupLxOc8g6Y9cxH3JMtJqaXT8V0BdwL5TTKYVpQehnn8SyTrHaJzzx+kEdm9TkFeStlIJBPEZeYrR3ELEe3sED32RaLzynMOubgQ0nv6edE+rAzcW1vpAs+mTSSPfYn4kq8IhBKJMXLi9ZDwV555Lt17zXM3CyYSZwvCB6FEIpE44sjzsBLHHP+f53z1YauQSCQSiURir0hOe2DIiddEIpFIJBKJ3WLnSaI9bMva01laiUQikUgkEonEfiA57YEhJ14TiUQikUgkdgnZeYJk9cSewicSiUQikUgkEoeJ5LQHh5nDmBKJRCKRSCQSiUQikUgkEolEIrEb5IrXRCKRSCQSiV1Cdp7c4+qA3JaVSCQSiUQikThcJKc9OOTEayKRSCQSicRukR8iSCQSiUQikUic7UhOe2DIowYSiUQikUgkEolEIpFIJBKJRGKfkSteE4lEIpFIJHYJWT+xp48JyDo/RJBIJBKJRCKROFwkpz045MRrIpFIJBKJxG6x8wQR74Fo5hdgE4lEIpFIJBKHjeS0B4aceE0kEolEIpHYJWTnSZI9kNT8EEEikUgkEolE4rCRnPbgkGe8JhKJRCKRSCQSiUQikUgkEonEPiNXvCYSiUQikUjsErI+RbI+safwiUQikUgkEonEYSI57cEhJ14TiUQikUgkdoudJ4h4D3Qqz8NKJBKJRCKRSBw2ktMeGHLidQNEhIiIHnnkkUPWJJFIJBKJhIeOzzpeJxKJHslnE4lEIpE4c5F89mgjJ1434Itf/CIREV1xxRWHrEkikUgkEokRvvjFL9IFF1xw2tOVnSdIeA/bsnJ1QOI0IPlsIpFIJBJnPg6LzxIlpz1I5MTrBlx++eX0mc98hp71rGcRMx+2OgeKRx55hK644gr6zGc+Q+eff/5hq3MskGV++pFlfvqRZX56cdzKW0Toi1/8Il1++eWHk/76FMnO7r9VmudhJU4HjhOfJTp+/eCZgCzz04ss79OPLPPTj+NU5ofNZ4mS0x4kcuJ1A1arFT33uc89bDVOK84///wj37GdacgyP/3IMj/9yDI/vThO5X1YKwOIyurIQnfDAAALB0lEQVQAytUBiTMbx5HPEh2vfvBMQZb56UWW9+lHlvnpx3Ep88Pks0TJaQ8Su5/OTiQSiUQikUgkEolEIpFIJBKJRIhc8ZpIJBKJRCKxS8jOKZI9vMeWndyWlUgkEolEIpE4XCSnPTjkxGui4txzz6W3vvWtdO655x62KscGWeanH1nmpx9Z5qcXWd6nF7I+RbKHMzPzPKxEYv+R/eDpR5b56UWW9+lHlvnpR5b56UVy2oMDi4gcthKJRCKRSCQSZxMeeeQRuuCCC+jrXnQrPeXE7h8Intx5nD5+30/Sww8/fCzOL0skEolEIpFInDlITnvwyDNeE4lEIpFIJBKJRCKRSCQSiURin5FHDSQSiUQikUjsEtMXYPewLSu/AJtIJBKJRCKROGQkpz045MRrIpFIJBKJxC4h68dJaPenNuV5WIlEIpFIJBKJw0Zy2oNDHjWQCPHpT3+abr75ZrryyivpaU97Gn3FV3wFvfWtb6VTp/JmOij86I/+KL3iFa+gpz/96XThhRcetjpHErfffjs9//nPp/POO4+uueYa+tjHPnbYKh1pfOhDH6K/83f+Dl1++eXEzPRrv/Zrh63Skcbb3vY2+rqv+zp61rOeRZdccgndeOONdN999x22WolEInFoSD57OEhOe/BITnv6kHz29CM5beKoISdeEyE++clP0nq9pp/5mZ+hT3ziE/SOd7yD3v3ud9MP/dAPHbZqRxanTp2ib//2b6fv+Z7vOWxVjiR++Zd/mW677TZ661vfSr/3e79HX/M1X0PXX389/cmf/Mlhq3Zk8eijj9LXfM3X0O23337YqhwL/O7v/i7dcsst9JGPfIQ+8IEP0BNPPEHf9E3fRI8++uhhq3a0sfM4yR5+tPP4YecgkTiySD57OEhOe7BITnt6kXz29CM57SEhOe2BgUVk92uJE8cKP/7jP04//dM/Tf/7f//vw1blSOOOO+6g7/3e76WHHnrosFU5Urjmmmvo677u6+gnf/IniYhovV7TFVdcQW984xvpzW9+8yFrd/TBzPSrv/qrdOONNx62KscGn//85+mSSy6h3/3d36W/+Tf/5mGrc+SgX4D92ue+hk6snrrreHbWT9Dvffb/m1+ATSROE5LPnj4kpz0YJKc9PCSfPRwkpz1YJKc9eOQZr4nFePjhh+miiy46bDUSia1x6tQpuueee+gHf/AHq9tqtaLrrruO7r777kPULJE4ODz88MNERNlvHzBk53ESWe8+/Do/RJBInE4kn02czUhOmziOSE57epCc9uCQRw0kFuFTn/oU/cRP/AR993d/92GrkkhsjT/90z+lnZ0duvTSS437pZdeSidPnjwkrRKJg8N6vabv/d7vpb/+1/86ffVXf/Vhq5NIJBJnBJLPJs52JKdNHDckp00cBeTE6zHDm9/8ZmLm2d8nP/lJE+aBBx6gG264gb7927+d3vCGNxyS5mcndlPeiUQisVfccsst9Ad/8Af0S7/0S4etypHHXs7CqmdiJRKJrZB89vQjOW0ikTgMJKc9fUhOe3DIowaOGd70pjfRTTfdNCvzghe8oJo/97nP0ate9Sp6xSteQT/7sz97wNodPWxb3omDwbOf/Ww6ceIEPfjgg8b9wQcfpMsuu+yQtEokDga33nor3XnnnfShD32Invvc5x62OkcesnNqj9uyntxHbRKJ44Hks6cfyWnPDCSnTRwnJKc9vUhOe3DIiddjhosvvpguvvjiRbIPPPAAvepVr6Krr76a3vOe99BqlQukt8U25Z04OJxzzjl09dVX01133VUPw1+v13TXXXfRrbfeerjKJRL7BBGhN77xjfSrv/qr9MEPfpCuvPLKw1bpWGC9foxYdk+n1pIkNZHYFslnTz+S054ZSE6bOA5ITns4SE57cMiJ10SIBx54gF75ylfSl3/5l9Pb3/52+vznP1/98m3qweD++++nL3zhC3T//ffTzs4O3XvvvURE9MIXvpCe+cxnHq5yRwC33XYbvf71r6eXvexl9PKXv5ze+c530qOPPkrf+Z3fediqHVl86Utfok996lPV/sd//Md077330kUXXUTPe97zDlGzo4lbbrmF3ve+99G///f/np71rGfVs94uuOACetrTnnbI2h1d7MjOoYZPJBJjJJ89HCSnPVgkpz29SD57+pGc9nCQnPbgwCIih61E4szDHXfcMRy8s8kcDG666SZ673vf27n/zu/8Dr3yla88/QodQfzkT/4k/fiP/zidPHmSrrrqKnrXu95F11xzzWGrdWTxwQ9+kF71qld17q9//evpjjvuOP0KHXEwc+j+nve8Z+P20MT2eOyxx+jKK6/cl4+ZXHbZZfTHf/zHdN555+2DZolEQpF89nCQnPbgkZz29CH57OlHctrTi+S0B4+ceE0kEolEIpHYBR577DE6derUnuM555xzkqAmEolEIpFIJA4FyWkPFjnxmkgkEolEIpFIJBKJRCKRSCQS+4w8XT6RSCQSiUQikUgkEolEIpFIJPYZOfGaSCQSiUQikUgkEolEIpFIJBL7jJx4TSQSiUQikUgkEolEIpFIJBKJfUZOvCYSiUQikUgkEolEIpFIJBKJxD4jJ14TiUQikUgkEolEIpFIJBKJRGKfkROviUQikUgkEolEIpFIJBKJRCKxz8iJ10QikUgkEolEIpFIJBKJRCKR2GfkxGsikUgkEolEIpFIJBKJRCKRSOwzcuI1kUgkEolEIpFIJBKJRCKRSCT2GTnxmkgkEolEIpFIJBKJRCKRSCQS+4yceE0kEkcen//85+myyy6jf/kv/2V1+/CHP0znnHMO3XXXXYeoWSKRSCQSiUQisQzJaROJROLsA4uIHLYSiUQicdD4jd/4Dbrxxhvpwx/+ML3oRS+iq666ir71W7+V/vW//teHrVoikUgkEolEIrEIyWkTiUTi7EJOvCYSiWODW265hX7rt36LXvayl9Hv//7v08c//nE699xzD1utRCKRSCQSiURiMZLTJhKJxNmDnHhNJBLHBn/xF39BX/3VX02f+cxn6J577qGXvvSlh61SIpFIJBKJRCKxFZLTJhKJxNmDPOM1kUgcG/zRH/0Rfe5zn6P1ek2f/vSnD1udRCKRSCQSiURiaySnTSQSibMHueI1kUgcC5w6dYpe/vKX01VXXUUvetGL6J3vfCf9/u//Pl1yySWHrVoikUgkEolEIrEIyWkTiUTi7EJOvCYSiWOB7//+76d/9+/+Hf33//7f6ZnPfCZ9wzd8A11wwQV05513HrZqiUQikUgkEonEIiSnTSQSibMLedRAIpE48vjgBz9I73znO+kXfuEX6Pzzz6fVakW/8Au/QP/pP/0n+umf/unDVi+RSCQSiUQikdiI5LSJRCJx9iFXvCYSiUQikUgkEolEIpFIJBKJxD4jV7wmEolEIpFIJBKJRCKRSCQSicQ+IydeE4lEIpFIJBKJRCKRSCQSiURin5ETr4lEIpFIJBKJRCKRSCQSiUQisc/IiddEIpFIJBKJRCKRSCQSiUQikdhn5MRrIpFIJBKJRCKRSCQSiUQikUjsM3LiNZFIJBKJRCKRSCQSiUQikUgk9hk58ZpIJBKJRCKRSCQSiUQikUgkEvuMnHhNJBKJRCKRSCQSiUQikUgkEol9Rk68JhKJRCKRSCQSiUQikUgkEonEPiMnXhOJRCKRSCQSiUQikUgkEolEYp+RE6+JRCKRSCQSiUQikUgkEolEIrHPyInXRCKRSCQSiUQikUgkEolEIpHYZ/z/AXXffFa3bDqyAAAAAElFTkSuQmCC", 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" ] @@ -59832,25 +980,33 @@ "\n", "fig, (ax) = plt.subplots(1, 2, figsize=(14, 4))\n", "\n", - "#pot = 0.0\n", + "# pot = 0.0\n", "p1 = (pot_05V - pot_05V_cst).plot(grid=showGrid, ax=ax[0], cmap=\"turbo\")\n", "p2 = (pot_12V - pot_12V_cst).plot(grid=showGrid, ax=ax[1], cmap=\"turbo\")\n", "\n", - "_ = ax[0].set_title(f\"Bias = {0.5:.1f} V - Pot. Difference Tidy3D - Eff. DOS - CST\")\n", - "_ = ax[1].set_title(f\"Bias = {1.2:.1f} V - Pot. Difference Tidy3D - Eff. DOS - CST\")\n", + "_ = ax[0].set_title(f\"Potential Difference: Effective DOS - Constant DOS (Bias = {0.5:.1f} V)\")\n", + "_ = ax[1].set_title(f\"Potential Difference: Effective DOS - Constant DOS (Bias = {1.2:.1f} V)\")\n", "\n", "plt.tight_layout()" ] }, + { + "cell_type": "markdown", + "id": "25788b47-2fea-424f-8357-0a809e81eaf2", + "metadata": {}, + "source": [ + "#### Difference between effective DOS and isothermal potential results" + ] + }, { "cell_type": "code", - "execution_count": 22, + "execution_count": 30, "id": "304d7b5e-cea4-40dc-ac32-ce1e21b0548e", "metadata": {}, "outputs": [ { "data": { - "image/png": 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", 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", 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" ] @@ -59864,51 +1020,59 @@ "\n", "fig, (ax) = plt.subplots(1, 2, figsize=(14, 4))\n", "\n", - "#pot = 0.0\n", + "# pot = 0.0\n", "p1 = (pot_05V - pot_05V_iso).plot(grid=showGrid, ax=ax[0], cmap=\"turbo\")\n", "p2 = (pot_12V - pot_12V_iso).plot(grid=showGrid, ax=ax[1], cmap=\"turbo\")\n", "\n", - "_ = ax[0].set_title(f\"Bias = {0.5:.1f} V - Pot. Difference Tidy3D - Eff. DOS - Isothermal\")\n", - "_ = ax[1].set_title(f\"Bias = {1.2:.1f} V - Pot. Difference Tidy3D - Eff. DOS - Isothermal\")\n", + "_ = ax[0].set_title(f\"Bias = {0.5:.1f} V - Potential difference - Effective DOS - Isothermal\")\n", + "_ = ax[1].set_title(f\"Bias = {1.2:.1f} V - Potential difference - Effective DOS - Isothermal\")\n", "\n", "plt.tight_layout()" ] }, { "cell_type": "code", - "execution_count": 23, + "execution_count": 34, "id": "f25ecedd-296f-44ff-9e2c-3d61296f132b", "metadata": {}, "outputs": [], "source": [ "# Utility function to plot the function on the distribution with the same grid\n", - "def getInterpolatedData(x_vector, y_vector, t_vector):\n", + "def interpolate_data(x_vector, y_vector, t_vector, num_grid_points_x, num_grid_points_y):\n", " # Get the min/max bounds from scattered data\n", " xmin, xmax = x_vector.min(), x_vector.max()\n", " ymin, ymax = y_vector.min(), y_vector.max()\n", - " \n", - " # Define the resolution of the regular grid for interpolation\n", - " num_grid_points_x = 200\n", - " num_grid_points_y = 200\n", - " \n", + "\n", " # Create 1D arrays for the new grid coordinates\n", " xi = np.linspace(xmin, xmax, num_grid_points_x)\n", " yi = np.linspace(ymin, ymax, num_grid_points_y)\n", - " \n", + "\n", " # Create the 2D meshgrid for the interpolation output\n", - " XI, YI = np.meshgrid(xi, yi)\n", - " \n", + " xi_grid, yi_grid = np.meshgrid(xi, yi)\n", + "\n", " # The points argument to griddata should be an array of (x, y) pairs\n", " points = np.column_stack((x_vector, y_vector))\n", - " \n", + "\n", " # Interpolate the values onto the new grid\n", - " TI = sp.interpolate.griddata(points, t_vector, (XI, YI), method='linear')\n", - " return XI, YI, TI" + " ti_grid = sp.interpolate.griddata(points, t_vector, (xi_grid, yi_grid), method=\"linear\")\n", + " return xi_grid, yi_grid, ti_grid" ] }, { "cell_type": "code", - "execution_count": 24, + "execution_count": 35, + "id": "50ce6a68-d09d-4b08-8b61-21be6edde4ac", + "metadata": {}, + "outputs": [], + "source": [ + "# Define the resolution of the regular grid for interpolation\n", + "num_grid_points_x = 200\n", + "num_grid_points_y = 200" + ] + }, + { + "cell_type": "code", + "execution_count": 36, "id": "90ea03d1-d4b5-4e5f-9b9f-86531fac8be7", "metadata": {}, "outputs": [], @@ -59916,31 +1080,47 @@ "# Interpolating Tidy3d potential Eff. DOS\n", "x_vector1 = results[\"potential_global_mnt\"].potential.points[:, 0].values\n", "y_vector1 = results[\"potential_global_mnt\"].potential.points[:, 1].values\n", - "v_vector_effdos_0V = results[\"potential_global_mnt\"].potential.sel(voltage=0).values.values[:,0]\n", - "v_vector_effdos_12V = results[\"potential_global_mnt\"].potential.sel(voltage=1.2).values.values[:,0]\n", - "XI1, YI1, VI_effdos_0V = getInterpolatedData(x_vector1, y_vector1, v_vector_effdos_0V)\n", - "XI1, YI1, VI_effdos_12V = getInterpolatedData(x_vector1, y_vector1, v_vector_effdos_12V)\n", + "v_vector_effdos_0V = results[\"potential_global_mnt\"].potential.sel(voltage=0).values.values[:, 0]\n", + "v_vector_effdos_12V = results[\"potential_global_mnt\"].potential.sel(voltage=1.2).values.values[:, 0]\n", + "xi_grid1, yi_grid1, VI_effdos_0V = interpolate_data(\n", + " x_vector1, y_vector1, v_vector_effdos_0V, num_grid_points_x, num_grid_points_y\n", + ")\n", + "xi_grid1, yi_grid1, VI_effdos_12V = interpolate_data(\n", + " x_vector1, y_vector1, v_vector_effdos_12V, num_grid_points_x, num_grid_points_y\n", + ")\n", "\n", - "v_vector1_cst_0V = results_cst[\"potential_global_mnt\"].potential.sel(voltage=0).values.values[:,0]\n", - "v_vector1_cst_12V = results_cst[\"potential_global_mnt\"].potential.sel(voltage=1.2).values.values[:,0]\n", - "XI1, YI1, VI_cst_0V = getInterpolatedData(x_vector1, y_vector1, v_vector1_cst_0V)\n", - "XI1, YI1, VI_cst_12V = getInterpolatedData(x_vector1, y_vector1, v_vector1_cst_12V)\n", + "v_vector1_cst_0V = results_cst[\"potential_global_mnt\"].potential.sel(voltage=0).values.values[:, 0]\n", + "v_vector1_cst_12V = (\n", + " results_cst[\"potential_global_mnt\"].potential.sel(voltage=1.2).values.values[:, 0]\n", + ")\n", + "xi_grid1, yi_grid1, VI_cst_0V = interpolate_data(\n", + " x_vector1, y_vector1, v_vector1_cst_0V, num_grid_points_x, num_grid_points_y\n", + ")\n", + "xi_grid1, yi_grid1, VI_cst_12V = interpolate_data(\n", + " x_vector1, y_vector1, v_vector1_cst_12V, num_grid_points_x, num_grid_points_y\n", + ")\n", "\n", - "v_vector1_iso_0V = results_iso[\"potential_global_mnt\"].potential.sel(voltage=0).values.values[:,0]\n", - "v_vector1_iso_12V = results_iso[\"potential_global_mnt\"].potential.sel(voltage=1.2).values.values[:,0]\n", - "XI1, YI1, VI_iso_0V = getInterpolatedData(x_vector1, y_vector1, v_vector1_iso_0V)\n", - "XI1, YI1, VI_iso_12V = getInterpolatedData(x_vector1, y_vector1, v_vector1_iso_12V)" + "v_vector1_iso_0V = results_iso[\"potential_global_mnt\"].potential.sel(voltage=0).values.values[:, 0]\n", + "v_vector1_iso_12V = (\n", + " results_iso[\"potential_global_mnt\"].potential.sel(voltage=1.2).values.values[:, 0]\n", + ")\n", + "xi_grid1, yi_grid1, VI_iso_0V = interpolate_data(\n", + " x_vector1, y_vector1, v_vector1_iso_0V, num_grid_points_x, num_grid_points_y\n", + ")\n", + "xi_grid1, yi_grid1, VI_iso_12V = interpolate_data(\n", + " x_vector1, y_vector1, v_vector1_iso_12V, num_grid_points_x, num_grid_points_y\n", + ")" ] }, { "cell_type": "code", - "execution_count": 35, + "execution_count": 37, "id": "ba2f97a2-1249-4f25-aa67-c0e3e99cfd4d", "metadata": {}, "outputs": [ { "data": { - "image/png": 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", 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", 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" ] @@ -59954,25 +1134,31 @@ "\n", "fig, (ax) = plt.subplots(3, 1, figsize=(14, 8))\n", "\n", - "contour0 = ax[0].contourf(XI1, YI1, VI_effdos_12V - VI_effdos_12V.min(), levels=250, cmap='turbo') # Set the maximum value for the color scale\n", - "ax[0].set_xlabel('x (um)')\n", - "ax[0].set_ylabel('y (um)')\n", - "ax[0].set_title('Interpolated Potential Distribution from Tidy3D - 1.2 V - Eff. DOS')\n", - "fig.colorbar(contour0, label='Potential', ax=ax[0])\n", + "contour0 = ax[0].contourf(\n", + " xi_grid1, yi_grid1, VI_effdos_12V - VI_effdos_12V.min(), levels=250, cmap=\"turbo\"\n", + ") # Set the maximum value for the color scale\n", + "ax[0].set_xlabel(\"x (um)\")\n", + "ax[0].set_ylabel(\"y (um)\")\n", + "ax[0].set_title(\"Interpolated Potential Distribution - 1.2 V - Effective DOS\")\n", + "fig.colorbar(contour0, label=\"Potential\", ax=ax[0])\n", "\n", "\n", - "contour1 = ax[1].contourf(XI1, YI1, VI_cst_12V- VI_cst_12V.min(), levels=250, cmap='turbo') # Set the maximum value for the color scale\n", - "ax[1].set_xlabel('x (um)')\n", - "ax[1].set_ylabel('y (um)')\n", - "ax[1].set_title('Interpolated Potential Distribution from Tidy3D - 1.2 V - Constant DOS')\n", - "fig.colorbar(contour1, label='Potential', ax=ax[1])\n", + "contour1 = ax[1].contourf(\n", + " xi_grid1, yi_grid1, VI_cst_12V - VI_cst_12V.min(), levels=250, cmap=\"turbo\"\n", + ") # Set the maximum value for the color scale\n", + "ax[1].set_xlabel(\"x (um)\")\n", + "ax[1].set_ylabel(\"y (um)\")\n", + "ax[1].set_title(\"Interpolated Potential Distribution - 1.2 V - Constant DOS\")\n", + "fig.colorbar(contour1, label=\"Potential\", ax=ax[1])\n", "\n", "\n", - "contour2 = ax[2].contourf(XI1, YI1, VI_iso_12V - VI_iso_12V.min(), levels=250, cmap='turbo') # Set the maximum value for the color scale\n", - "ax[2].set_xlabel('x (um)')\n", - "ax[2].set_ylabel('y (um)')\n", - "ax[2].set_title('Interpolated Potential Distribution from Tidy3D - 1.2 V - Isothermal')\n", - "fig.colorbar(contour2, label='Potential', ax=ax[2])\n", + "contour2 = ax[2].contourf(\n", + " xi_grid1, yi_grid1, VI_iso_12V - VI_iso_12V.min(), levels=250, cmap=\"turbo\"\n", + ") # Set the maximum value for the color scale\n", + "ax[2].set_xlabel(\"x (um)\")\n", + "ax[2].set_ylabel(\"y (um)\")\n", + "ax[2].set_title(\"Interpolated Potential Distribution - 1.2 V - Isothermal\")\n", + "fig.colorbar(contour2, label=\"Potential\", ax=ax[2])\n", "\n", "plt.tight_layout()" ] @@ -59987,7 +1173,7 @@ }, { "cell_type": "code", - "execution_count": 26, + "execution_count": 38, "id": "dd923284-ccad-48bb-abeb-fd5d3ff560b7", "metadata": {}, "outputs": [], @@ -59995,23 +1181,27 @@ "# Interpolating Tidy3d results - Eff. DOS\n", "x_vector1 = results[\"temp_mnt\"].temperature.points[:, 0].values\n", "y_vector1 = results[\"temp_mnt\"].temperature.points[:, 1].values\n", - "t_vector1 = results[\"temp_mnt\"].temperature.sel(voltage=1.2).values.values[:,0]\n", - "XI1, YI1, TI1 = getInterpolatedData(x_vector1, y_vector1, t_vector1)\n", + "t_vector1 = results[\"temp_mnt\"].temperature.sel(voltage=1.2).values.values[:, 0]\n", + "xi_grid1, yi_grid1, ti_grid1 = interpolate_data(\n", + " x_vector1, y_vector1, t_vector1, num_grid_points_x, num_grid_points_y\n", + ")\n", "\n", "# Interpolating Tidy3d results - cst\n", - "t_vector_cst = results_cst[\"temp_mnt\"].temperature.sel(voltage=1.2).values.values[:,0]\n", - "XI1, YI1, TI_cst = getInterpolatedData(x_vector1, y_vector1, t_vector_cst)" + "t_vector_cst = results_cst[\"temp_mnt\"].temperature.sel(voltage=1.2).values.values[:, 0]\n", + "xi_grid1, yi_grid1, ti_grid_cst = interpolate_data(\n", + " x_vector1, y_vector1, t_vector_cst, num_grid_points_x, num_grid_points_y\n", + ")" ] }, { "cell_type": "code", - "execution_count": 27, + "execution_count": 39, "id": "a0f30126-b7ee-4571-a546-f3e76ce29eb3", "metadata": {}, "outputs": [ { "data": { - "image/png": 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XtoMHDzIAbOnSpe73XMc5d+6c+72dO3cynufZoEGD3O+52tDTVxlj7M4772SVK1cudaySuPY/c+aM1/vp6ekMAFu7dq3X+y4f9jyn8/LyWJ06dVhGRgZzOBxe9jdr1sxdV4wx1q9fP8ZxHOvRo4fX72ZnZ/usm7Jo2rSp17WsZPk9fSHQa4/D4WA1a9Zk9957r9fvvfrqq4zjOHbgwAGv90+cOMEAuF81a9Zk7777rtd3XHXx/vvv+7WlZcuWLCkpKQCrA+POO+9kANiFCxcC+r7c55vLn0ueV55s27at1HkfLC7fmTlzpt/v9OrViwFgly5dYowxlpiYyFq2bFnm7z722GMMANu1axdjjLHff/+dWa1WBoC1atWKjRkzhn300Ufs6tWrIZedIAiCIMIJpRUTBEFUgFGjRnn937FjRxw4cKDc/c6fP4/169fjnnvuQV5eHs6ePYuzZ8/i3Llz6NatG/7++28cO3bMa58RI0ZAEASfv+eKbnPhmij9iy++8Pr7xBNPeH3PtfhDyZQ/TwRBcEdPiaKI8+fPw263o23btu50Tbls/eKLL9C+fXu0a9fOvX9KSgoGDBhQ7nHK4/3330fjxo3RqFEjdxnOnj3rjvLwTJMGgM6dO3tFw2RlZQEA+vTpg/j4+FLvl2x3g8GABx980P2/yWTCgw8+iNOnT2P79u0hlalTp05o0qRJKds8o5suXLiAS5cuoWPHjgG1TyiULAdjDB988AF69uwJxpiXLd26dcOlS5cqXBZXFF1eXp7f7yQmJmLr1q04fvx4yMcZPHhwwJGqgbSxEpw4cQI7duzAkCFDkJyc7H6/RYsWuPXWW93+7omva9W5c+dw+fLlkMtRp04ddOvWzeu9L774Au3atcONN97ofi8uLg4jR47EoUOHsHv3bq/vDxo0yGuhlaysLDDGSkVeZmVl4Z9//oHdbg+5vGUR6LWH53kMGDAAn3zyide5uGLFCnTo0AF16tTx+n5ycjK++uorfPrpp5gyZQqqVKmCK1euBF2+uLi4Ms/9YHG1u+e1zB9KnG+uOSw//vhj2aaNCJWS15a8vLxy68X1ucuepk2bYseOHRg4cCAOHTqEuXPnonfv3khNTcXrr7+uYOkJgiAIQh5IHCQIgggRi8VSauXbpKQkXLhwodx99+3bB8YYXnjhBaSkpHi9XGlpJScxLzno9KR+/fpe/2dmZoLnefc8Z4cPHwbP86VWG61WrRoSExNx+PDhMsu7bNkytGjRAhaLBZUrV0ZKSgo+//xzXLp0SVZbDx8+XMoWAOXO4xUIf//9N/74449SZWjQoIFXGVzUrl3b6/+EhAQAQK1atXy+X7Ld09LSSi0a4zqWq12CLZO/c+Czzz5D+/btYbFYkJyc7E7zDqR9QqFkOc6cOYOLFy9i8eLFpWwZOnSoT1uCxSWolDVof/nll/H777+jVq1aaNeuHSZNmhSQWO9JWX5WkkDaWAlc/urLLxo3boyzZ8+Wmnqg5PmclJQEoPR5Gwy+6urw4cN+y+X6vKxyleVnoigqdk4Hc+0ZNGgQ8vPz3dMx7N27F9u3b/eZomsymdClSxfcfvvteOGFFzB//nwMGzYMn332WVDlu3LlSrmC1cmTJ71e+fn5fr9bqVIlAGWL7S6UON/uvfde3HDDDRg+fDhSU1Nx33334b333lNFKCx5bYmPjy+3Xlyfe7ZJgwYN8Pbbb+Ps2bPYtWsXXnrpJRgMBowcORJff/21QqUnCIIgCHmgOQcJgiBCxF8UXyC4BkBPPfVUqcgbFyWFvGDm3Su5iER575fF8uXLMWTIEPTu3RtPP/00qlatCkEQMG3aNOzfv7/c/UOxVQlEUUTz5s3x6quv+vy8pBjhr339vc88FspQqky+zoFNmzbhjjvuwE033YTXXnsN1atXh9FoxNKlS7Fy5cqAyuHvvHAtrlOSkuVwtfHAgQMxePBgn/t4zlUXCr///juAss+Ve+65Bx07dsSaNWvwv//9DzNnzsSMGTPw4YcfokePHgEdR+7VdoOtW6WQ87x1IUddhcPP5KZJkyZo06YNli9fjkGDBmH58uUwmUx+56jzpEOHDqhevTpWrFjhNWdhWRQVFeGvv/5Cs2bNyvxeyZWMly5dWmrRFReNGjUCAPz222/u+fzkpLz2s1qt+O6777BhwwZ8/vnnWLt2Ld59913ccsst+N///leh+2uw/P7776hatapbMG3cuDF+/fVX2Gw2v6ta79q1C0aj0aegLAgCmjdvjubNmyM7Oxs333wzVqxYgS5duihqB0EQBEFUBBIHCYIgFMSfMFC3bl0AgNFolGXA8Pfff3tF8ezbtw+iKLrTYtPT0yGKIv7++293BA8AnDp1ChcvXvS5wqKL1atXo27duvjwww+97Ck58b4ctqanp+Pvv/8u9f7evXvL3C8QMjMzsXPnTnTu3DkkkTRYjh8/jqtXr3pFlv31118AilcslaNMH3zwASwWC9atW+c1kF26dGmp7/o7RlJSks/VU8uLKHWRkpKC+Ph4OBwORQbAV65cwZo1a1CrVi2v89cX1atXx8MPP4yHH34Yp0+fxnXXXYcXX3zRLQ7K2faBtLErYqpk/fqq20DL5vJXX36xZ88eVKlSpVREY7hIT0/3Wy7X51ok2GvPoEGD8MQTT+DEiRNYuXIlbrvtNndbl0dBQUFQEZCrV69Gfn6+34crLjwX1QDgd+EeAOjZsyemTZuG5cuXlysOKnW+8TyPzp07o3Pnznj11Vfx0ksv4fnnn8eGDRvQpUuXsFynt2zZgv3792PgwIHu926//XZs2bIF77//vtf7Lg4dOoRNmzahS5cu5Qrkbdu2BSClZhMEQRCElqG0YoIgCAWJiYkBUFoYqFq1KnJycrBo0SKfg4YzZ84EdZz58+d7/T9v3jwAcAsiubm5AKTVRz1xRay5VrT1hSuCwzNiZ+vWrdiyZYvX9+SwNTc3Fz/++CN++uknr89XrFjht3yBcs899+DYsWM+53/Kz88vlRZXUex2OxYtWuT+v7CwEIsWLUJKSgratGkjW5kEQQDHcV6RaIcOHSq10jEAxMbG+hQBMzMzcenSJezatcv93okTJ8pcxbpkGfr06YMPPvjAHeHnSbDnsyf5+fm4//77cf78eTz//PNlRuKVFFyqVq2KtLQ02Gw293uxsbGypaYG0sauFaG/++47r7IuXry41O8FWrbq1aujVatWWLZsmVd7/v777/jf//7n9nc1yM3NxU8//eR1fbh69SoWL16MjIwMn3NmaoFgrz39+vUDx3EYM2YMDhw4UEpEunr1Kq5du1Zqvw8++AAXLlxwi0blsXPnTowdOxZJSUml5pYtSZcuXbxeJSMJPcnOzkb37t2xZMkSn9eKwsJCPPXUUwCUOd/Onz9f6r1WrVoBgNtfXYKjr2vW2bNnsWfPHp91HCiHDx/GkCFDYDKZ8PTTT7vff/DBB1G1alU8/fTTpaYlKCgowNChQ8EY81o5e9OmTSgqKip1DNd8jHJMjUEQBEEQSkKRgwRBEApitVrRpEkTvPvuu2jQoAGSk5PRrFkzNGvWDPPnz8eNN96I5s2bY8SIEahbty5OnTqFLVu24OjRo9i5c2fAxzl48CDuuOMOdO/eHVu2bMHy5cvRv39/tGzZEgDQsmVLDB48GIsXL8bFixfRqVMn/PTTT1i2bBl69+6Nm2++2e9v33777fjwww9x55134rbbbsPBgwexcOFCNGnSxGtifTlsfeaZZ/D222+je/fuGDNmDGJjY7F48WKkp6d7CVehcP/99+O9997DqFGjsGHDBtxwww1wOBzYs2cP3nvvPaxbty7gAXsgpKWlYcaMGTh06BAaNGiAd999Fzt27MDixYvdCzDIUabbbrsNr776Krp3747+/fvj9OnTmD9/PurVq1eqztq0aYOvv/4ar776KtLS0lCnTh1kZWXhvvvuw7hx43DnnXfisccew7Vr17BgwQI0aNAg4IVEpk+fjg0bNiArKwsjRoxAkyZNcP78efzyyy/4+uuvfYoBJTl27BiWL18OQIoW3L17N95//32cPHkSTz75pNfiHyXJy8tDzZo10bdvX7Rs2RJxcXH4+uuvsW3bNrzyyitedfDuu+/iiSeewPXXX4+4uDj07NkzIBtLEkgbN23aFO3bt8f48eNx/vx5JCcnY9WqVT4X1gimbDNnzkSPHj2QnZ2NYcOGIT8/H/PmzUNCQgImTZoUkj1y8Oyzz+Kdd95Bjx498NhjjyE5ORnLli3DwYMH8cEHH4DntflcOthrT0pKCrp37473338fiYmJpR6w/P333+jSpQvuvfdeNGrUCDzP4+eff8by5cuRkZGBMWPGlPrNTZs2oaCgAA6HA+fOncMPP/yATz75BAkJCVizZg2qVasmq81vvfUWunbtirvuugs9e/ZE586dERsbi7///hurVq3CiRMnMGvWLADyn29TpkzBd999h9tuuw3p6ek4ffo0XnvtNdSsWdO9mE1mZiYSExOxcOFCxMfHIzY2FllZWahTpw7+85//YPLkydiwYQNycnLKPd4vv/yC5cuXQxRFXLx4Edu2bcMHH3wAjuPw9ttve017ULlyZaxevRq33XYbrrvuOgwfPhxNmjTByZMn8eabb2Lfvn2YO3cuOnTo4N5nxowZ2L59O+666y73b/3yyy946623kJycjLFjxwZdRwRBEAQRVlRaJZkgCEI3LF26lAFg27Ztc783ePBgFhsbW+q7EydOZCUvrZs3b2Zt2rRhJpOJAWATJ050f7Z//342aNAgVq1aNWY0GlmNGjXY7bffzlavXl3m8Useb/fu3axv374sPj6eJSUlsdGjR7P8/Hyv7xYVFbHJkyezOnXqMKPRyGrVqsXGjx/PCgoKvL7XqVMn1qlTJ/f/oiiyl156iaWnpzOz2cxat27NPvvsMzZ48GCWnp4uq62MMbZr1y7WqVMnZrFYWI0aNdjUqVPZG2+8wQCwgwcPlqoDf9x2222lyldYWMhmzJjBmjZtysxmM0tKSmJt2rRhkydPZpcuXXJ/DwB75JFHvPY9ePAgA8Bmzpzp9f6GDRsYAPb+++971WHTpk3Zzz//zLKzs5nFYmHp6ensP//5T6lyVqRMLt544w1Wv359ZjabWaNGjdjSpUt9not79uxhN910E7NarQwAGzx4sPuz//3vf6xZs2bMZDKxhg0bsuXLl/v8jbLKcerUKfbII4+wWrVqMaPRyKpVq8Y6d+7MFi9e7PP7nqSnpzMADADjOI5VqlSJNW3alI0YMYJt3brV5z6e55jNZmNPP/00a9myJYuPj2exsbGsZcuW7LXXXvPa58qVK6x///4sMTGRAXCfI77a0YXrsw0bNrjfC6aN9+/fz7p06cLMZjNLTU1lzz33HPvqq69K/aa/srnOvaVLl3r97tdff81uuOEGZrVaWaVKlVjPnj3Z7t27vb7jasMzZ854ve+6rpTnU/72T09PZ7fddpvPffbv38/69u3LEhMTmcViYe3atWOfffaZ13f81be/652/cpRF06ZNva5lJcvvef4zFvy157333mMA2MiRI0t9dubMGTZy5EjWqFEjFhsby0wmE6tfvz4bO3ZsKRtcdeF6GY1GlpKSwm666Sb24osvstOnTwdsc7Bcu3aNzZo1i11//fUsLi7OXc5HH32U7du3z+u7cp5v33zzDevVqxdLS0tjJpOJpaWlsX79+rG//vrLa7+PP/6YNWnShBkMBi8fcB3H03984fId18tgMLDk5GSWlZXFxo8fzw4fPlzmviNGjGC1a9dmRqORValShd1xxx1s06ZNpb77ww8/sEceeYQ1a9aMJSQkMKPRyGrXrs2GDBnC9u/fX2YZCYIgCEILcIxpYGZngiAIIiQmTZqEyZMn48yZM6hSpYraxSGc5OTk4OzZsz5TbAmCiAw+/vhj9O7dG999950ii3oQBEEQBEGEC23mdhAEQRAEQRCEhnn99ddRt25ddxosQRAEQRCEXqE5BwmCIAiCIAgiQFatWoVdu3bh888/x9y5c8Oyqi5BEARBEISSkDhIEARBEARBEAHSr18/xMXFYdiwYXj44YfVLg5BEARBEESF0VVa8XfffYeePXsiLS0NHMfho48+KnefjRs34rrrroPZbEa9evXw5ptvKl5OgiCIcDFp0iQwxmi+QY2xceNGmm+QICIUxhjy8vKwZMkSGAz0nJ0gCIIgCP2jK3Hw6tWraNmyJebPnx/Q9w8ePIjbbrsNN998M3bs2IGxY8di+PDhWLduncIlJQiCIAiCIAiCIAiCIAjto9vVijmOw5o1a9C7d2+/3xk3bhw+//xzr+iN++67DxcvXsTatWvDUEqCIAiCIAiCIAiCIAiC0C4RnQuxZcsWdOnSxeu9bt26YezYsX73sdlssNls7v9FUYTZbIbZZAJowmmCIAiCIAiCIAiCIIKBMTAwcBwPntdVAqesMMZQkfg0juNoITCFiGhx8OTJk0hNTfV6LzU1FZcvX0Z+fj6sVmupfaZNm4bJkye7/69WrRp+/20Xrl1VvLgEQRAEQRAEQRAEQUQoiUlJ0NnsbrLBGMOR3X8groRGEwwcxyMpOZkEQgWIaHEwFMaPH48nnnjC/b8oinDYi7C1W1s4Ll0ADEbpA3sRYDQBTATsdu9tkxlwOACHc9tuB0QHYLYARYWAKHpvW6yAzSbtb7ECtgKAMWm7IF+KWDRbnNs8YDZL2zwvHddWUGJbAAwGoNAGCAZAEKRtg0Hav6iwxLZ/mxxi5NkUrnYqMpRjkyBItviyieeBwgBtMpmk8vmyyWGX/pfJJofJwyaTCSjQiE0Wi/TbQdokosS5p2ObHEYLYMsHXDbZnL5lctrBOW0qdPqTYACKbADvtKnIaR/vtENw2mQvYZPBaZPD6U+ia9tpk+jadvqTyWkTc557ha5tp01wbRcAYM7tfADOdirHJodBXZs4swWs0LVtBSu0eWxL7cSZrWA2qZ04k8W5zYMzmT22TWAytVNhobdNnNEE5rSJM5nBnOeetC2de5zJAmaXzjfObAErcm2HaBPPS8d1Xvc4g0naVxDACQbpNwUDOEEo3uZ56bgBtJMWbBL5cmwyGMBxTps8t41Om4qKpN9zXiO8toO1yWIFc14jpG2nTRYrmPMawZktzm0enNksbQfbTmQT2aRBmwROm9eIsmwy2vV3fxJ4dfoRgqXi/b1SY40A+3t8kTr9PQEyjZ80MtYw2qN7TOiySYirhA7f/Cr1caMUxhjiUlOx+LrrUJiXF/T+pvh4jPzlFzDGSBxUgIiec/Cmm27Cddddhzlz5rjfW7p0KcaOHYtLly4FdBxRFHHh/Dlsbp8Jx9UrFSy1vnHIfaaYzBAenwzH7InSRT3CKHKoXQJlkP08UJGIskX084HJjErPTMbllyPPzyKp/eSi0N95QMiOp89xZjOqjp+M09MmSkIJQRCyU5afCToMwjHpsMyCCmNxNdtWDXvVPC5MZpifnAzbK/L0GY2CDGWKIITYOHTcuh9JyZWjNq3Ypa0sbFAPhVeC11ZMcXEY9de+qK5DJYnoyMHs7Gx88cUXXu999dVXyM7OVqlE+sZ1o5JtQG63Q/zqE+npDEEQyuCwI3/dJ9LTUIIgFIHZ7bj8xSdgdD8jCMUoy88cov4EwkJRnwJhtKCaQKcmDjuK/lexPiMJgkQg8FxoPsZHo1+GEV3dkq5cuYIdO3Zgx44dAICDBw9ix44dOHLkCAApJXjQoEHu748aNQoHDhzAM888gz179uC1117De++9h8cff1yN4kcMQojOXArRAfbLZilsOwKhmyOhCRwOFG3bLKVLEBENRQ2qiMOB/J/IzwhCUcrxM78R9BqGrtuEpnA4IG4P7V5mFGjsQxB6R1fi4M8//4zWrVujdevWAIAnnngCrVu3xoQJEwAAJ06ccAuFAFCnTh18/vnn+Oqrr9CyZUu88sorWLJkCbp166ZK+SONCouEZguEiXOlORkI3RCVT1L1jNmCSi9Gnp9RSjGhJiVFCM5sQbUZc8FFmJ8RhJYIxM/0KBDqiXDfe/UWDap7zBaYJwfXZyRRMDBkC66JEMx86C9COXSVVpyTk1Pmstdvvvmmz31+/fVXBUtFeF7oguo0FBVCfH+pNLkrQYSZqBGXigqR/w75GUEoCSsqxMXlS6UFDQiCUIRI9TNKLyY8UVVAKipE0XuB9RlJEAwMEgR9I3CAGELdUH0qi67EQUL7BDUvoSiC7d6hZHFUxyhE7sIkhE4QRRT9vkPtUshK1Ai7QUCpaSojiij4bYfapSCIyCZAP6P5BwkiREQR4h87/H5MgmDgkIhF6BG6DRGKEFDotNkCYfrrEZfuSBDhpsw0KosFia++DljIzwhCDnz5G2exIG3e6+DIzwhCMYLxMz2mF+vlIQ89oItgzBZYXi49NqPU4cBwjX9JGCwfgWMhvwjloMhBQlHKTDkuKoRj8SxKdyQIJSksxJX5s4BC8jOCUApWWIizc2eBkZ8RhGIE62cUQUiEStSKO0WFKFxYPDYjQTAwovZ8qQACBzBKK9YcJA4SYaNUyrEoAgf2qlaecEGpxYSqiCLs+yPHzyhigdAkoojCfZHjZwShSULwMz0KhAShGqII0Tk2I2GwfEioCh2BB1gI12a6nisLVS8RdtwXUosVwpwVgMWqankIQs+UmzplsSJpAflZJKOXVLRIhrNaUXPJCnBW8jOCUIpQ/UxvKcZ0TZcgEUAFLFZY5q2AMZbuZWVBqcNEpEKRg4R62GxwzHgWsNnULgkRBBS5pTNsNlyeSn5GEHLgT2RgBTacmvgsWAH5GUEoRUX8zOW7ehGctJ5e7GAkjiiB6nVqs8E27VkYqM9YCtXbJsIw8QAfwjXOoOHrYiRA4iChHkwETvyjdinCAqUWE6rBRDiOR4afkTBNaBYmouhYZPgZQWgWGfxMT2nGWhcIlUZPbRUxMBHs+D8ApRS7IVFQGWjOQW1Cl1xCPSxWGBatoXRHggiRgFKlLFYkv0l+RhBKwlmtqL1iDaUVE4SCyOVnekszJsJLVIsPFiusS6jPCFDqMBGdUOQgoR62AtjHDQdsBWqXJCxQ9CChCrYCXHg8evws2qC5qcJHWYICKyjAsUeHgxWQnxGEUsjpZ3qJStNy9CClFkcgtgLkPz0cxijtM9L5HD4ELsQFSaiNFIXEQUI9GAMKrkl/CSKMRFV6KmNg+fr3s6hqM0J/MAYxAvyMIDSNzH5GAiFBlIAxIArvZSQ4hR8+xMhMntpKUehWQ6iHxQrD3JUUuk4QIRBwWpTFiuSF5GcEoSSc1YpaS1ZSWjFBKIgSfqaXFONojRLXS/tEDBYrrP+Jnj4jpQ4ThDccY1H2aCBIRFHEhfPnsLl9JhxXr6hdnIjBHQVksQIF+aqWJdzoPbU4EiK4IsKGYDrMOvezSGgvpYjWAaMalOdznNUKlq9fPyMIPaCUn+khglCr0YNKiyvhbhs1xSJNCFUWK4xFkXsvU7V9Y+PQ4cf9SEquDD6UpXojAJe2sr5taNqKEBuHW36O7jpUEkorJlRB4AAHOMASI82FRho1QQRMUMIgx4GzxoCRn0UcJAyGj3J9juPAW2PgKCA/IwjFUNDPXD6uZZGQ0osJxeE4wBoD2CPvXqYJ4ZVwYxQAPoRVsQVaSVtR6BZDqIfZAsOMJYDZonZJCCJyMVuQNJv8jCCUhLNYUGPeEnAW8jO9Ymflvwh1CYefaT2NNRofCoWzTaJeQDJbYJ0ZWX1GSh2OXhYsWIAWLVqgUqVKqFSpErKzs/Hll1+W+h5jDD169ADHcfjoo4+8Pvvmm2/QoUMHxMfHo1q1ahg3bhzsdnuZx83JyQHHcV6vUaNGyWmaYlDkIKEeBfmwP3in2qUIO7RqMRFWCvJxfoh+/YxSigk9wPLzcWSAfv0s2glU+PP1PQMNOsNGuPxM6wuVUAQhoRgF+cgffieMOo/OIjFQ+wgcgBDaKZi2rVmzJqZPn4769euDMYZly5ahV69e+PXXX9G0aVP39+bMmQOOK/3DO3fuRG5uLp5//nm89dZbOHbsGEaNGgWHw4FZs2aVeewRI0ZgypQp7v9jYmICL7iK0K2FUA+OB6rXkv4SBBEQQT9B53gIaeRnkUY0Ro+oRUA+x/Ew1iA/0yMVjQik6MIwEkY/03oEoZagh3gRBMeD03GfkaIE9YPAh/4KlJ49eyI3Nxf169dHgwYN8OKLLyIuLg4//vij+zs7duzAK6+8gv/+97+l9n/33XfRokULTJgwAfXq1UOnTp3w8ssvY/78+cjLyyvz2DExMahWrZr7ValSpcALriL69HwiMjCbIYybDpjNapeEICIXsxmVXiA/Iwgl4SxmpE6eDs5CfqYXlBLzKB1ZOcLtZ1oWCOkBEaEIZjPM4/XXZyRRkCgPh8OBVatW4erVq8jOzgYAXLt2Df3798f8+fNRrVq1UvvYbDZYSkxjYbVaUVBQgO3bt5d5vBUrVqBKlSpo1qwZxo8fj2vXrslnjIJQWjGhHgX5cIwdoHYpVIFSi4mwUZCPCw/p088oGoHQCyw/H0eH69PPopFwC3aUjiwPaviZllOMoym9WMvtEFHoaGxGYqC+4TmAhdCGvHOfvLw8r1Rgs9kMsw9R+7fffkN2djYKCgoQFxeHNWvWoEmTJgCAxx9/HB06dECvXr18Hqtbt26YM2cO3nnnHdxzzz04efKkO1X4xIkTfsvYv39/pKenIy0tDbt27cK4ceOwd+9efPjhh8EbHGboMkuoB88DdRtKfwmCKJeQohh4HoZM8jOCUBSeh6ke+Zke0EokH0UYhoBKfkYRhOVDD/MiBB2MzShKMDLgeQ5CCC/eqQ7WrFkTCQkJ7te0adN8Hqdhw4bYsWMHtm7dioceegiDBw/G7t278cknn2D9+vWYM2eO3zJ27doVM2fOxKhRo2A2m9GgQQPk5uY6y+/fR0aOHIlu3bqhefPmGDBgAN566y2sWbMG+/fvD73CwoR2PZ+IfIwmCCOfAowmtUtCEJGLyYS4R54CTORnkYJWBoPRQKCiAGcyocqYp8CRn2karQtwJBaWjZp+RgIhoTSaELw0PDYjUTCyMAqhvwDg6NGjuHTpkvs1fvx4n8cxmUyoV68e2rRpg2nTpqFly5aYO3cu1q9fj/379yMxMREGgwEGg5RQ26dPH+Tk5Lj3f+KJJ3Dx4kUcOXIEZ8+edUcZ1q1bN2Bbs7KyAAD79u0LoabCC6UVE+phK4Dj2RFql4KIMqLu6XZBAS4+oT8/i7p2InQNKyjA8Uf152fRhB7FNkpH9kZtP3MJhJTeqg6UWhwGNDY2IzGQ8Ed8fHyZ0Xv+EEURNpsNkydPxvDhw70+a968OWbPno2ePXt6vc9xHNLS0gAA77zzDmrVqoXrrrsu4GPu2LEDAFC9evWgyxtuSBwkVEMQeKBRCzj+3AWI9NiTIMoi5KgFnoexSQsU7SY/IwjF4HlYmrZAwR/kZ1pDj6JgWUS1YKgRP9OiSKWF+QcdjMQcPWMUAPA8uEYtwPaE18fovIk+eA5ABeYcDITx48ejR48eqF27NvLy8rBy5Ups3LgR69atc68iXJLatWujTp067v9nzpyJ7t27g+d5fPjhh5g+fTree+89CIIUwnjs2DF07twZb731Ftq1a4f9+/dj5cqVyM3NReXKlbFr1y48/vjjuOmmm9CiRYvgDQ4zGru1EVGF0QT0HQrBZKKbAkEohdEEa7+hmkwRIQgtE4wgzxlNSBw4FBz5maaINGHQH77mL4xE27XkZ1pMM6b04oqjVtaCmuMgz1RNGE3g7w5fn5FShaMXgZMesgT9CuJ8OX36NAYNGoSGDRuic+fO2LZtG9atW4dbb7014N/48ssv0bFjR7Rt2xaff/45Pv74Y/Tu3dv9eVFREfbu3etejdhkMuHrr79G165d0ahRIzz55JPo06cPPv3008ALriIcYywCuw/yIYoiLpw/h83tM+G4ekXt4kQN0ZBSqMfViiOhXfRqgxYHIkqh1zYKBzT4Cx/R5HORSCSKY0oQNVGHCqG1CEJA3QjCcAg9Std5uMUqtcQxtyAYZqJZDBRi49Dhx/1ISq4cUkpsJODSVv68pR7Ea8FrK3xMHBqv3xfVdagkVKOEevACcF0H6W8JXE+SovkGQsiPXkWnCokUggDj9R0AQaVeIEFEA4IAazvyM61AwmDg+Is61GQUogb9jB4iEKGg1jin5KIOpeAFcH7GZhWBxnVESXjnysOhvAjlIHGQUA+DAehyh/S3DOhmQhAVQDDA2u0OQKApZglCKTiDAZVy7wBXzv2MUB7NCFkRhhZERK36mdYEQjUjzPX6ENYTJW1Qa0xTpiDoicEA/tbyx2aBQmM4wh88F/qLUA5KKy4HSivWJpHQ+aC04vCj1/JrbeChJHpto3BBacXhIZp8LlIgUVBfRGI6s9ZSjNVKL6bUYuV+KxgobVh7UFpxsbby9631Q04rrv/V31Fdh0pCNUqoh2AAbugSUkQTPYkigkWvolOFRQrBAPNNofkZoS1IGNQwggGxOeRnakHCoP4IKQpR437mELX1YIHuGeqj6ShBXwgGcDQ2I8IAH8piJLy0H6EcVL2EegjOOQcrMHeMnuewUOuJHhFlCAJMNOcgQSgKZxAQk9UBnIH8LNyQMBi5lBQLHYIAa1YHOARBe/MhehDtAqFeH8Z6ojcbyp1LMFAEAVybwPuMeh6HEepiELiQX4RyUFpxOVBasf7Q0w1db6nFeqrbkui17FoaZIQDvbZTOKAokPAQbT6nZ7QoDBHqobVUZS2lGYc7xZhSi+X7DX9Q2rD+oLTiYm3lcG4DsBDSirmYOKR/8VdU16GSUI0S6mEwAJ3lm/TWBT3FIkqiV8FJFpHCYIClm/x+pgR6bSeCgMGA+B768LNIQKsRY4TCGAxIyPXvZ1o7J7T0oIEeLgWPVvskskQI+sNgAOdnsUgaWxFywvOhvwjloOol1IPjgboNpb8KQTcyIurheRjqNaS7qc6hgZ224Xge5voNwZGfKY7WBCAifATiZ1oTjqNVINSqsKZXZEsbLg+OB+cxNqOAC0IpeJ4L+UUoB6UVlwOlFUceWuqwUFpxeNBtuTU0qAgHem2ncEDiYPiINr/TE1oSfQjto6U042hMMabU4orvT6nDkQWlFRdrK8fuaBhyWnGNT/ZGdR0qCdUooR4GA3D7vWFPw6IbXnShV8FJNoHCYIC1d/j9LFj02k5EZBGy3xkMSLhL+36mZ0gYJGAwIKlP4H6mpShCLT10KBTpgVOgqNk3CbcwKHCAYDRA6En3MkJ5KK1Ym5DnE+rB8UBiZUXTigki6uF4cEnkZ3qGBnHah+N4CMmVwXE8NKJFEETEEaqf2Zk2oggdorYiCF33FqUiCR2MHsjroQ68ykdjMyJM8DzAQjjN6NRUFkorLgdKK45ctBCpRGnFyqPHMgPaijIIB3ptJ6UhYTC8RJvf6QWtRH8R+kYLAqELLYmEgHICIaUWh76/kpGDWhcsIxVKKy7WVs7d3QgsP4S0YmscKr+/J6rrUEmoRgn1MBiBvkOlv4Qu0FtnQq+Ck6wChdGImPuGAkbt+ple24mILCrkd0YjEgdo28/0CgmDhAvOaETywKHgQvQzLZ1LWnsQodSDqEi4v6tlgxIBBOUuLkJjM4KIaiitmCAIgiA0CEUNEgRByItWUowBbaYZh2uxEjnRWj1qDb092CeiA47nwIWy8jCtVqwolFZcDpRWHLlo4Wmm3tKKAW3UWyDopZy+0FpEgdLoua2UhMTB8BJtfqcHtBTpRUQWWhEIAe0JW3ILhNGeWlyRfSuaWkzCoLagtOJibeViv8ZACGnFsMYh8Z0/o7oOlUR3NTp//nxkZGTAYrEgKysLP/30k9/vvvnmm+A4zutlsVjCWFqiTIwmYODD0l+CkBE9i02yCxRGE2KGkp/pDRIGw0tF/Y4zmpA8/GFw5GcEoRic0YQqI+TxMy0Jzw5RWw8n5L7/6LlP5kKPNoQkDNLYjCCiGl2Jg++++y6eeOIJTJw4Eb/88gtatmyJbt264fTp0373qVSpEk6cOOF+HT58OIwlJsqEicDFc9JfgiCUgYlgF7TrZ3rscCsNCYP6gzERjvPnwDTqZ3pES+INoQ3k9jOtnWMukVALQqHe7kNaqDN/6KqfQ2MzIky40opDeRHKoStx8NVXX8WIESMwdOhQNGnSBAsXLkRMTAz++9//+t2H4zhUq1bN/UpNTQ1jiYkysduBz96V/hKETOiqExYO7Hbkf0R+RhD+kGVQabfj0ofkZwShKHY7Lnwgr5/ZmfZEQkAbQqGcAiH1zXQCjc2IMMHzob8I5dBN9RYWFmL79u3o0qWL+z2e59GlSxds2bLF735XrlxBeno6atWqhV69euGPP/4IR3GJQDCagBFPU+i6jtB6507r5SsPRQYBJhPiHnkaMJGf6QG9RWvoHbl8jjOZUOWxp8GRn8mCFsUaQn04kwlVxyjjZ1o+59QUCkkgVJewz01OYzOCiGp0Iw6ePXsWDoejVORfamoqTp486XOfhg0b4r///S8+/vhjLF++HKIookOHDjh69Kjf49hsNly+fNn9ysvLkz5wXSQNxuLl3Y0mwGAovW0yA4LHNu+cTdZsKZa7PbctVoDz3OaKtwHpf/c2X7zN89LvlNoWpOMCUjlc2waDhx0G9W0ym4EDe73f17tNcrWTKQibTGXYJChok8WHTYJKNlnIJr82GU2w79tb/Puh2GQ0Si+ZbXI4b0Gch02ch02ch02ch02cHO0kk02cxXO7uJ0qYhPnYRNnLrbJvW0wFA+OA7CJ87CJMxfbJG0Lzu0otcnqYZPVwyarh03W8m2CwQjb33vBON6vTZwPmzi5bLLKb1Mg7RTJNnFGIziySVM2wWCQ/IznFbHJzmmjncryJwdvgEMERGP4ruVFJu3cc8vqGzmYTvt7WhoTCgJwaJ+UVqzH8ZMexoQEAEAw8CG/COWI6NrNzs7GoEGD0KpVK3Tq1AkffvghUlJSsGjRIr/7TJs2DQkJCe5XzZo1pQ/uGiT97T1QegHAvcOB7n2k7SFjgE650vaD44D2OdL22MlAqyxpe9wMoFELaXvSPCC9vvOgS4BqNQAA3JyVQEIyYLFK2xYrkJAsbQPS96YtkbbT60u/A0i/O26GtN0qSzouIJXjwXHSdqdcqZyAVO57h6tr06y3gG8+AaqkqmITP2ocOKdNwuOTwTltEp6dAc5pkzB5HpAh2SRML7bJMLfYJsPcYpsMc4vbSZjutCmjvvQ7ALhGLSA8K9nEtcqC5SnJJqFDDkwPSzYZbs6F6QHJJkNuHxj7SzYZ7xoI412STcb+w2HIlWwyPTAGhpslm0wPj4PQQbLJ/ORk8E6bzM/NAN9YsskydR54p02WmUvAVZdssv5nJZAo2WT9j9OmxGRpGwBXvQZiZ0k28XXqI2aqZJPQuAWsz0s2Ca2zYHXaZOiQA8sjkk3GW3JhGSbZZMrtA7PTJlOfgTD1kWwy9x8Ok9Mmy7AxMN4i2WR5ZBwMTpusT02G0Fqyyfr8DAhOm2KmFrdTpVeWgHfalPDaSnBOmxJek2ziEpOlbQB89Rqo9Ipkk1CnPuL/T7LJ0LgF4v4l2WRonYVYp03GDjmIGS3ZZLolFzFOm8y39YF1gGSTpc9AWJw2WQcMh/k2yaaYYWNgctoUM3ocjE6bYp+aDIPTpkoTZsDYRLIp8aV5MNSRbEqavQSC06bkhcU2JS8stil5oWSTUL0GkmZLNhnq1Efi1NkoWPcJjA2aoNIEySbjdVmo9Ixkk/mGHMQ/Ktlk6ZyLuBGSTdbb+yBmoGRTTJ+BiHHaFDNwOKy3SzbFjRgDS2fJpvhHx8F8g2RTpWcmw3hd2TYlzl4CIU2yqcqileATk8FZrKiyaCU4ixV8YjKqLHLalFYDyXOKbUqaJrWTsUkLJE2UbDJdl4XEcZJNlhtzkPCYZJO1cy4qOW2Kub0P4u6XbIrtOxCxfSWb4u4fjhinTZVGjIHVaVPCY+NguVGyKXHcZJicNiVNLLYpaVqxTclzKmZToQiYm7ZAyiTJJkubLFRx2hRzYw6SnTbFdclF0oOSTfE9+yBxkGRTwt0DkXC3ZFPioOGI7ynZlPTgGMR1kWxKfmwcYpw2VRk3GZY2kk0pk2bA3FSyKXXGPJjqSjZV+/cSGJw2pb1ebFPa68U2pb0u2WRIq4Fq/5ZsMtWtj9QZUjtp1SaHCNRashJCUjI4qxW1lqwEZ7VCSEpGrSWSTca0Gqgxr9im6jMlmyxNWyB1imSTtU0Wqj7zAvK+/ASx2TeiyljJpvhbc1F5lGRTwh19kDRYsinxnoFIvEeyKWnwcCTcIdlUedQYxN8q2VRl7DjEdpRsqjp+MqxOm1KnzIDFaVP1mcU21Zi3BEZnO8lm03ipnWI75oTVJsFpU7qHTXXeKLapzhvFNtV5o9imdKdN5sz6qOW0ydqsBWpMlWyKbZuF6s9JNsV3zEHq45JNCV1zkfKQZFNSrz6oPESyKenegUi6V7Kp8pDhSOol2ZTy0BgkdJVsSn18HOKdNlV/bjJi20o21Zg6A9Zmkk21Zs6DOZNsksWmEY/g0hefIOm2XorZZGf68SfLDTlwiEDlMFzLC0V57rkOJl8/wl/fSKn+noNVrA9bkX55qGONoMdPt98HJCRKacU0zpXfplqZICQorVibcIwxXQR5FxYWIiYmBqtXr0bv3r3d7w8ePBgXL17Exx9/HNDv3H333TAYDHjnnXd8fm6z2WCz2dz/M8ZgLyrE5o6N4bh4vvjJg71IeuLAROkC6rltMgMOB+BwbtvtgOiQnjgUFQKi6L1tsQI2m7S/xQrYCgDGpO2CfOnpg9ni3OaliLuCfHdUEGwFJbYF6UlIoU16CiII0rbBIO1fVFhiWyWb4hOAwY8Bi1+W/g+zTQ6jNtqpKN+HTTwPFAZok8kklc9XOzns0v8y2ORACZtMJqCghE2CINniq50UtMlhtki/XdF2UtEmR1GJdrLIZFNsPOJHjkHe/JnSPqHY5HraX1TBc89pk8MhgrNYwZw2SduSTZzFCua0iTNbnNtSNBZz2sSZTGAVbSeZbOIsFrBC13boNhUZim3ijCZpX0EAZzBIvykYwBkEadtgAMfz0nEDsIkzmcCcNnFmM5hdsknalmzizBYwmW3ybCet2WTPd9pktUplZEzaznfaZLE4t3lwFrO0XYZNfEwsKj88FmfnzQIcDp82cRwvlcfDJs5okhZXqKhNVitYgbw2BdJOctvkMGvHJlc0GougdtK7TbzViqqPPI5T814BCovCYpMxRn/+xDuUu5abzPLccwVUrB9RVt9IiFGuvycYQ+vvCWLo/XIjH/pYQxCCHD/FxAHDnwQWTpf6jDTOldUmIb4SOmz+G0nJlcFHqcoliiIunD+HgmHNgPwrwf+ANQ6WN34PqA4XLFiABQsW4NChQwCApk2bYsKECejRo4fX9xhjyM3Nxdq1a7FmzRovrcnFuXPn0LJlSxw7dgwXLlxAYmKi3+OeP38ejz76KD799FPwPI8+ffpg7ty5iIuLC9basKMbcRAAsrKy0K5dO8ybJz1FEEURtWvXxujRo/Hss8+Wu7/D4UDTpk2Rm5uLV199NaBjuk7gze0z4bgawglM+EcwSE9pftwoXYxVQAvzn4R9PpEQ0UJd+UPLZQsUxeYSEgww35AD2w8bVfMzTyKhreSG5hkML4r4mmBAbMccXN20URN+ple0PO8boQEEA+I75iBv00ZV/Mygo0UyBQV1B5NMvy0oVJ9K2l6RMoe6r1EI4zE1MDbTO2Wdf0JsHLI27ydx8Pw52EY0D1kcNL/+W0B1+Omnn0IQBNSvXx+MMSxbtgwzZ87Er7/+iqZNm7q/N3v2bHz11Vf48ssv/YqDvXv3RmFhIb788styxcEePXrgxIkTWLRoEYqKijB06FBcf/31WLlyZfD2hhmD2gUIhieeeAKDBw9G27Zt0a5dO8yZMwdXr17F0KFDAQCDBg1CjRo1MG3aNADAlClT0L59e9SrVw8XL17EzJkzcfjwYQwfPlxNMwgXDjvww9dql4LQOZEgNik6ybjDDtt32vCzSGgruSFhMLwo5msOO65u1Iaf6RUSBolycdiRp6KfeZ6jWhcKHaJyIlmhKI9A6GDKCYREiNDYLGiUFKMjGZ7jAD6ECwAX+D49e/b0+v/FF1/EggUL8OOPP7rFwR07duCVV17Bzz//jOrVq/v8nQULFuDixYuYMGECvvzyyzKP+eeff2Lt2rXYtm0b2rZtCwCYN28ecnNzMWvWLKSlpQVcfjXQ1el87733YtasWZgwYQJatWqFHTt2YO3ate5FSo4cOYITJ064v3/hwgWMGDECjRs3Rm5uLi5fvozNmzejSZMmaplAeGIyA89ML55IltAsJOooh+KrD5rMqPQv9f2MziEikuHMZqROml680AARFCQMEoHAmc1Im6wNP7Oz4pdWUbJ/IdeDLSX6Bmqs6hwx0NgsIAS++EWEBseH/goFh8OBVatW4erVq8jOzgYAXLt2Df3798f8+fNRrVo1n/vt3r0bU6ZMwVtvvRVQtOeWLVuQmJjoFgYBoEuXLuB5Hlu3bg2t8GFEV5GDADB69GiMHj3a52cbN270+n/27NmYPXt2GEpFhITdDnz9ifSXIKKQsHRgHXbkr/tE1fQQEgZ9Q1GD4UVJf2N2Oy5/8Yk07xcRFFoWVwhtwex2XNKgn2k5otB13VNCxKAIwvBQ5KhYanFQ0NjMLyQEaou8vDxwHlGEZrMZZh8Pjn777TdkZ2ejoKAAcXFxWLNmjTtQ7PHHH0eHDh3Qq1cvn8ew2Wzo168fZs6cidq1a+PAgQPlluvkyZOoWrWq13sGgwHJyck4efJkMCaqgu7EQSKCEB3AL5vVLgWhY0h0CgCHA0Xb1PEzah//kDAYXhQX4h0O5P9E97NgIWGQCAqHA1e3atvPtCoUKpVmHG0CoV7KGTI0NnNDYqCyCEYecIRQyUZpn5o1a+LKleI5CydOnIhJkyaV+nrDhg2xY8cOXLp0CatXr8bgwYPx7bffYt++fVi/fj1+/fVXv4caP348GjdujIEDBwZfTp1Cpz2hHmYLMGGu9JfQLCTwKEPY0l7MFlR6Mfx+RueNf0gYDC/h8DXObEG1GXPB0f0sYEgY9I2DcSG/Ih3ObEHNl/XjZ1pLPVbqWqjFFGNKLQ6RKB+bUbpw+OAELuQXABw9ehSXLl1yv8aPH+/zOCaTCfXq1UObNm0wbdo0tGzZEnPnzsX69euxf/9+JCYmwmAwwGCQYub69OmDnJwcAMD69evx/vvvuz/v3LkzAKBKlSqYOHGiz+NVq1YNp0+f9nrPbrfj/PnzflOXtQRFDhLqUVQIrF4q/SWIKCKsndaiQuS/E14/I2HQPyQMhpdw+RorKsTF5UvB6H4WEFoRS9RASRFPzt8WOO01EisqxDmd+plWIgqjKYJQyUVZIpYoHJvROaJP4uPjQ1rxWRRF2Gw2TJ48udQitc2bN8fs2bPdC5l88MEHyM/Pd3++bds2PPDAA9i0aRMyMzN9/n52djYuXryI7du3o02bNgAkkVEURWRlZQVd3nBD4iChHqII7N6hdikInaJXASrsT7NFEUW/7wjb4fTaLuGAhMHwElZfE0UU/LYjjAfUL9EoDOoxqk+TQqMoIn/XDnl+S0XUFgpJIFQHXaQkR8HYTCvnQ9TDA1wIqxWzINpv/Pjx6NGjB2rXro28vDysXLkSGzduxLp161CtWjWfkXy1a9dGnTp1AKCUAHj27FkAQOPGjZGYmAgA+OmnnzBo0CB88803qFGjBho3bozu3btjxIgRWLhwIYqKijB69Gjcd999ml+pGKC0YkJNzBZg2utRG7quB0jokRdV0lwsFiS++jpgUd7P6HzxDwmD4SXcvsZZLEib9zq4MPiZnok2YTBa0n3LoyKp0p4v0WxF7QjzM8/U43D6h9bTbinFWCUidGxG6cLagxe4kF+Bcvr0aQwaNAgNGzZE586dsW3bNqxbtw633nqrbHZcu3YNe/fuRVFRkfu9FStWoFGjRujcuTNyc3Nx4403YvHixbIdU0k4xliUddWCQxRFXDh/DpvbZ8Jx9Ur5OxCBw/NAen3g8N/SkyoV0IKYUeRQuwT+0UL9+EPLZfOFap1TnoehTn3YDyrrZ3prj3BCwmD4Cbu/8TxMdeuj8IB69zOtE03CIAmCCsHzsGTWQ8H+fRXyMy2mTPsiHFGFSoglckQPupAz0k4uWytSplD3DXW14qCPp4GxmVxoUQgUYuOQtXk/kpIrh5QSGwm4tBX+6evAFVwNen9miYU485eorkMlobRiQj1EETi4V+1SEDqEhKggEEXY9yvrZ9Qe/iFhMPyoIsSLIgr30f3MH9EiDJIoqDCiiIK//6rwz5RsJ62KhS6/UVIkVCLtVq70YiByU4w1i47HZtS2+oLjixcXCYoQUpGJwCE3ItTDYgVmr5D+EpqDBB/5UDWlxWJF0gLl/IzOE/+QMBh+1PI1zmpFzSUrwFnpflYSEgYJueCtVtR9Yzl4mf1M6ys+K+1DSlw35bz/UYpxGNHZ2IzShfULx3MhvwjlIFci1MNmA15+VvpLEBGK6h1Rmw2XpyrjZyQM+oeEwfCjpq+xAhtOTXwWrIDuZ55EgzCoZVEp0hALbDg6cTxEBf1Mq0Kh0nMSkkAYxP6RfF3TwdiMBEGCUA5KKybUg4nAiX/ULgWhM/TUKVNdGAQAJsJxXH4/01M7hBsSBsOP6r7GRBQdo/uZJ5EuDGpNPIoKmIjCo+HzM8821krqsZ0pl2ZMKcaEFsdm1E6RCW/iwQWz9LATJuekpkQpqHYJ9bBYwS1co5vQdYIIBtXFChcWK5LflNfPSBj0DwmD4UcLvsZZrai9Yg2lFTuJZGFQi1Fl0QJvtaL+Ox/KnlYcCFqKKFQ6glDua2qkRhBGJBoZm1F0YOTDCXzIL0I5KHKQUA9bAdizwwFbgdolUQ0tr1RMhI6mOpy2Alx4XD4/I2HQNyQKRjesoADHHh0OVhC99zMXkSoMakEUinbEggIcfGQERJX9TAsLmigZQQgU92PkGodHWgShnGXQFCqOzUjzIQj1IXGQUA/GgIJr0l+CCAA9CFOaEgYBgDGw/Ir7mR7qXi1IGFQHTfkaYxBl8DNCm5AwqBE06mdqpR97CvFKphoD8gg3WhUICQ/CODYjMTC64YQQVysmx1cUcktCPSxWcHNWqh66TpRGi0KQFstUEk2JFS4sViQvrJif6aHu1YKEwfCjRNpbReGsVtRaspLSiiMMraSREhK81YrM/65QJa04UNRKPw7HgiVyXHcLRfnum3L1TUK1KyL7RgqPzShdmHDB8ZxbIAzqRasVKwrHmMYev2kMURRx4fw5bG6fCcfVK2oXJ/KwWIGCfNUOr/aNXatpxWrXiy+0WCZPtCZWeFEBP9N6vasJCYPhQ9P+5YSzWsHy1bufaYVISCsmQVC78FYrRJ36WbjTj5WKJpRL2JErilCuQKJQ7ApX4JNRCH6fUI8l99iMhMBihNg4ZG3ej6TkyuD56KwYl7YS8/IN4AqvBr0/M8Xi2jM/RHUdKgnVKKEeHAdYYqS/BFEGWheoNC1ccBw4a2h+pvV6VxMSBpXHFamiaf9ywXHgQ/QzQjtQpKDG0bmfeUYVhuNcUyqaUM4oQjlQM4Iw4vpJMozNPKMDSRgkCH1BLkuoh9kCbvoSwGxRuySqoNWoQa2h9Y6X5oULswVJs4P3M63Xu5qQMKgsuhEEPeAsFtSYtwScJTrvZ3qHREF9wFssqDP/dfAR5GfhEAuVFAkritYEwnAcO5Syhm3MEOLYjMRAIlh4kxDyi1AOSisuB0orjmzU7ExoWRzUijCklXL4Q28CRqBovd7VgkRBZYhUP4pW9JZWTKJg+ahxT6A555VNQ5Yz5VgOQUhLKcbhSC8OV2qxUn5EImBoUFpxsbYSN69TyGnFVx79NqrrUEmoRgn14Higei3pL0HoDN0IGhwPIS0wP3MwEgb9QcKg/OgxQtAvHA9jDbqfAcrNcyY3FC0o4brul/XSTLnAQ6hRCw7wmi23nCgZUShnNGGkRRBqNb04lKCCoMtVxtiMogMJIvIh9ybUw2wGnpku/SWIEmi5Y68rQcNsRqUXyvczLde32pAwKB+6mkcwCDiLGamTp4Oz0P1M60STKBhpAhpvMSN9yjTwAfpZIPbrpT60LhKSQBjccTV7rvkYm5EgSChBSCsVO1+EclBacTlQWnFkQ2nFvlG706L28f0RaYIGoN261gokDMpDJPoO4R+tphZHkihI1+7wo6UxqVIpxxWN/I32FONgjqmX1GISBuWD0oqLtZVKC28BVxRCWrExFpdHrY/qOlQSqlFCPXgeqNNQ+htlaFkYJHyjW3GD52HILO1nWo+S0AIkDFacSIwS9AnPw1QvOu9nekGvwqDeItwUhedhqd9ANT/TUsShUinHFY0k1FIEoRooHT2oeGpxFI/NCIIgcZBQE6MJGPmU9JcgnGhx0KNrccNkQtwjTwGmYj/TYh1rDT0PTojww5lMqDLmKXAmup9pET0Kg1EtAvqBN5lQY+zT4DXoZ2oKh0qJhKGiFYFQrfRiXeNjbBZ1dUCEBwFSWGvQL7ULHtlQWnE5UFpxZKNWx1vLkYNqD0bUPn5JIqlTpLW61SIkCspLJPkPEThaSivWmzBI1+noQrHVZGVKO65ImrFWUowjLb1YrVWLKb244lBacbG2krDsVnBF14LenxljcGnwV1Fdh0pCNUqEBZ+T2fI80KSVqukhhLbQUptETDokz4Nv2goOWkW1XEgYlJeI8J9A4XlYmreiVCyNoSdhkCIFA4DnEduiVUT5mVIRhnJFE1Y0grCi9wG9RhAqmV6saIBBGWOziOkXEwThl8i5uxKapMwVrowmoO9QSivWEDQwkYiUzo+DAQ6DCXH9yc/Kg4RBoiJwRhMSBw4FR36mGfQiDJIoGDic0YSq9w+JWD9TIh1ZjrkJtTAPIREmAhibkUhIyAGtVqxNKK24HCitODT8CYJaupnQSsWlUbNOtDI40tI5WhG0Up96gIRBZYgUXyKCR+20Yj0Ig3SNJgJF7rFwRVOO1Ug1pvTi0gSTXqxY+jqFGQUFpRUXayuJ73QLOa34Yr91UV2HSkI1SsiGK0ow4BsFLwDXdZD+RhFaFQbVRCuDpEgQM0pFHAgCTNd3AITo8rNAIWFQOaJq0CAIsLYjP9MCWhcGoylS0CbK/OIEWNplw8YJfr8Tich9zsgRSRjysVVsI62nF2uCIMdmkdBvJtSB43lwQgivIATBBQsWoEWLFqhUqRIqVaqE7OxsfPnll+7PH3zwQWRmZsJqtSIlJQW9evXCnj17vH5j27Zt6Ny5MxITE5GUlIRu3bph586dZR43JycHHMd5vUaNGhVcBalENHXdCQUJaRBoMABd7pD+EoTK6L2D43fwIBgQ0/0OQCA/Iwil4AwGVMq9Axzdz1RFq8JgOFeuVYNwCXW8wYCU2+8AX4afyS5IakiAVCrlOBQqkmocSn9Lrgd5Wl7BWBPXhxDGZpRmTGiVmjVrYvr06di+fTt+/vln3HLLLejVqxf++OMPAECbNm2wdOlS/Pnnn1i3bh0YY+jatSscDimS58qVK+jevTtq166NrVu34vvvv0d8fDy6deuGoqKiMo89YsQInDhxwv16+eWXFbdXDiituBworbhsghUFtXLzoJRi36hRL1roDGnlvAwVLdSh3qCIwfCgd98igketlGKtCYOReF2O1Mg8uTCrFHIhS7qsCqnGwY4h5EgtBuRLsQ2m/EqkF2shrdjnsSj0yC+UVlysrSStzgVnDyGt2BCDC32/CLkOk5OTMXPmTAwbNqzUZ7t27ULLli2xb98+ZGZm4ueff8b111+PI0eOoFatWgCA3377DS1atMDff/+NevXq+TxGTk4OWrVqhTlz5gRdPrWJzrOSqBBBpw/7/SEDcEMXimiKYrQweNKzeBFQBIFggKUT+ZmLQpGEQUIBBANic8jP1EJLwmAkRAhqLWLOBScYkHxLF3Aa9TO1og3liChUI9VYrf6X3v1TUWQYm+m5X02EERMf+isEHA4HVq1ahatXryI7O7vU51evXsXSpUtRp04dtxDYsGFDVK5cGW+88QYKCwuRn5+PN954A40bN0ZGRkaZx1uxYgWqVKmCZs2aYfz48bh2LXghVA1IHCSCQtanQYJzXguao4lQCb12YIIaBAgCzFE+56BLECRRkFAKziAgJqsDOEP0+hmgTtSgFoRBPacNa1EE9AdnEJDYPluXfhYu4VBNkTCUVONg+mFau4cHU/Zg2kTV64hMYzO99q8J/ZCXl4fLly+7Xzabzef3fvvtN8TFxcFsNmPUqFFYs2YNmjRp4v78tddeQ1xcHOLi4vDll1/iq6++gskkrdYdHx+PjRs3Yvny5bBarYiLi8PatWvx5ZdfwlBG6n3//v2xfPlybNiwAePHj8fbb7+NgQMHylsBCkFpxeVAacUScomCWrlZUFpxacJdJ2oPorRyLgaL2vWmF7Q2iIhm9OprRPBEmziot+uxloU/ohg505Mrkk5akVTjYNKM9ZxerNTqxXKnFoczrbjUsSkUyQ2lFXukFX/WM/S04ts/RUadurhypVibmThxIiZNmlTq+4WFhThy5AguXbqE1atXY8mSJfj222/dAuGlS5dw+vRpnDhxArNmzcKxY8fwww8/wGKxID8/Hzk5OWjUqBFGjx4Nh8OBWbNmYc+ePdi2bRusVmtAZV6/fj06d+7sTlfWMtqMyyc0g6IXdIMB6JQLfPsFYLcreCCCKEavQkXIg1CDAdbOucj/JvL9jARBQjUMBsTfmou8ryLfz7QECYNlE2liIGcwoHK3Hji37kuwCPazku1WEbHQdZ6GIg65/CsUkdDOAhcIHaJ+BSS9lN3BAjwHFBib6aWOiDAj8AAL4cRwnkxHjx4FxxWf1Gaz2efXTSaTe27ANm3aYNu2bZg7dy4WLVoEAEhISEBCQgLq16+P9u3bIykpCWvWrEG/fv2wcuVKHDp0CFu2bHGLuStXrkRSUhI+/vhj3HfffQEVOSsrCwB0IQ6SqxJ+UfxCzvFA3YbS3ygimAmEIxW1BlV6FAYrnKrG8zDWawhE6BNKShkmtADH8zDXbwguQv0sEMIdNaiWMKjl9GG9pAeHDM8jtkHk3s/8IUd7VuS8DTXVOJhrgp7Ti5VAtWuMQmMzWtGYkJv4+HhUqlTJ/fInDpZEFEW/KciMMTDG3J9fu3YNPM97iZCu/0Ux8BN6x44dAIDq1asHvI9aRNfdlSgX2RYbCYSiQuD1mdLfKCOaBUISBgNDtgFoYSEuz58JFEaWn5EgqB+iIWKAFRbi7L9ngkWYnxHeaFEUjGgxsASssBCHZ8+KWj+To60rKhJGEmr4sxavIV4oPDbTW1+cUBCBC/0VIOPHj8d3332HQ4cO4bfffsP48eOxceNGDBgwAAcOHMC0adOwfft2HDlyBJs3b8bdd98Nq9WK3NxcAMCtt96KCxcu4JFHHsGff/6JP/74A0OHDoXBYMDNN98MADh27BgaNWqEn376CQCwf/9+TJ06Fdu3b8ehQ4fwySefYNCgQbjpppvQokUL+etRZqKgy04EQtgEQU8MBuD2e6W/BKEgeuqMyB6VYjAgpnfk+BmJgoQmMRiQcFfk+FmwREPUoNYG9ZEoCHou7OLrJQoGVO17L0TBUO531XyFg4pGiYZa3mCjCINZpISiB70JpG1kn8c8DGMziiIkAAB8iMIgH/j15/Tp0xg0aBAaNmyIzp07Y9u2bVi3bh1uvfVWWCwWbNq0Cbm5uahXrx7uvfdexMfHY/PmzahatSoAoFGjRvj000+xa9cuZGdno2PHjjh+/DjWrl3rjgIsKirC3r173asRm0wmfP311+jatSsaNWqEJ598En369MGnn34qfx0qQHT2YgkvVIvq4HggsXLUpRW7MAraWZwkXJ1ZVZ7S6qQDoljdcDz4ZH37WTQMAiIdgdePL4YCx/EQkiuD43hoTEOKOMItDGpJFNSzGChLPfI8jJUraz6tOFhb5VgswvPcCHaOwlDmJXQwLqi5CAOdg9B1nwhkbOLqG1RkgZKA5+LzQ8RFxodxbEZzERJK88Ybb/j9LC0tDV988UW5v3Hrrbfi1ltv9ft5RkYGPNf3rVWrFr799tvgCqohaLXicojk1YrDdUHW4oBQS519LQiE4aiPsK+GrMHzzhdaOhe1BomCkY1efJQom3BGDUajMKg3QVALdRYpyCEahrqYSTDHDkYk1OIqxuEUB4M9ViDf18OKxWURTQIhrVbssVrxhrvAOUJYrViIwYWbP4zqOlQSqtEoROkUYle4eLlh4wYj0Heo9DfMaPUGqQaRJgzqJV0hbOlHRiNi+w0FjOH3s1CgBUaiB885bnU/ODAakThAP34mF+FOJw4naopcephHUI2UWs5oRI3BQ8BFiZ/JUb+hnkvBHC+YVGOlFikBQu83kKDtgQpjM7302wl5YUYOzMiH8KJBvJLorjs+f/58ZGRkwGKxICsryz35oz/ef/99NGrUCBaLBc2bNw8ofDRSCZcoSARHpC9OEraUZZ2cf1pe6VItSBAkgAgTCwnZCWfUoBrXaK0KgmrOq0eUpiJtEco5FszvByMQKjEPIRBZ/YhAAxkCzUDSut/qoQ9PEJGOrrrf7777Lp544glMnDgRv/zyC1q2bIlu3brh9OnTPr+/efNm9OvXD8OGDcOvv/6K3r17o3fv3vj999/DXHJ1UXKgFVCEoD/sRcDqpdJfFaDoQe13FAJFDx0K1QZURUW4+s5SoEgdP/OFpxgYSR15Ql50JRQWFeHiCm35mdJEajpxuK/TWhIEtS4CsqIiHFv2JlgU+VkgVEQoDOb3A/uu/FGE4RAItXauq4bKYzO9POgnZIDnQn8RiqGHLrebV199FSNGjMDQoUPRpEkTLFy4EDExMfjvf//r8/tz585F9+7d8fTTT6Nx48aYOnUqrrvuOvznP/8Jc8nVQ2lRsEIYTcDAh6W/KqEVgTBSoweV7mxpvROhiQGW0YS4B9T1M4DEQKJiaF0o5IwmJA9/GJzKfhYuSBisGFqJEtSyEOgLzmRC7VEPgzOV7Wd2xkXUKxiCbU8lRcJACEYg1NpqxkrPN6gE5bafBsZmgLb79oQ8MIEL+UUoh0a72aUpLCzE9u3b0aVLF/d7PM+jS5cu2LJli899tmzZ4vV9AOjWrZvf7wOAzWbD5cuX3a+8vDzpA9dF0mAsnofBaCpe6t1z22QGBI9t3qn8mC3FK6x5blusxatCWawAxxVvA9L/7m2+eJvnpd8ptS2At5gh8AATDGAmMwCAGQxgTju8t41gTpuY0QTmtMNr22QGEwzSzdkgk01mM3DxnPf7ZdgEpx0QDMXbBoNH2xhCaieBU6+d/NpkCsImUxnnnuDfJgeroE0WHzYJxTY5eGVtchg920amdirHpoDayWgEjEapfivQTpzFc7vYJs7DJs7DJs7DJs7DJs5sgnj+HMChwjZJ24HbVCgCRUYLCiGzTR7txHnYxJmLbXJvGwzFA8kAbOI8bOLMxTZJ24JzW4F2IpsCtkngAYOlAjZZPWyyethk9bDJ6mGTtXybYDTCcf4cGM/7tYnzYRMnVzspYJO/dnIYS9vEGY3ueeCUsIn3sIn3sIn3sIkP0SbO2U4O5tz2YxPnYRMXhE28h01FZitsLDSbeA+beA+beJcdgqF42+Pc87RJNBghGqT7k+jHJt5s9tp22eRph9e21eq9XZZNfBk2WXzYZChhk8EA27lzcHACHEYz7IyDw2CCw2CSto1mOASpzfgybOLCbBNXhk28ZzuZfJx7JhMcghF2xkH0tC+AdmJmCxyc1N/jy/EnG+NQZC7/3OPMFql/U44/AYAoGAO6RtgFA+wsMH8STYHfnwpZYPcnV9/IoVa/XIY+bBELfKzhYCXt8NgWBODyBYCJqo9zHeClvj4AxvNgZte2UDy2lXmc69522sTMFjAPf3JvW6xgnOc2B+baBqT/nXYwji/epgU0iuEr8CIUQzfVe/bsWTgcDqSmpnq9n5qaipMnT/rc5+TJk0F9HwCmTZuGhIQE96tmzZrSB3cNkv72Hii9AODe4UD3PtL2kDFAp1xp+8FxQPscaXvsZKBVlrQ9bgbQqIW0PWkekF7fedAlQLUaAABuzkogIRmwWKVtixVISJa2Ael705ZI2+n1pd8BgEYtwI2bAYEH+NZZYI9Nlt7PygEbOU7avikXbPAYAADr1gfsnuHSdq+BYL0km9g9w8G6STaxwWOAmySbxBHjILaT2aZZbwGfvQtUSfVrE8bNkLZbZUnHBaS6fdBpU6dcqe4BqS3uHR5SOwmPTwbntEl4dgY4p03C5HlAhmSTML3YJsPcYpsMc4ttMswtbidhutOmjPrS7wDgGrWA8KxkE9cqC8Ljkk1c+xyYHpZsMtycC9MDkk2G3D4w9pdsMt41EMa7JJuM/YfDkCvZZHpgDAw3SzaZHh4HoYNkk/nJyeCdNpmfmwG+sWSTZeo88E6bYmctAV9dsilu/kpwiZJNcfMlm7jEZGkbAF+9BmJnSTbxdeojZqpkk9C4BazPSzYJrbNgfUqyydghBzGjJZtMt+QiZphkk/m2PrAOkGyy9BkISx/JJuuA4TDfJtkUM2wMTLdINsWMHgej06bYpybD0DoLDhGoNGEGjE0kmxJfmgdDHcmmpNlLIDhtSl5YbFPywmKbkhdKNgnVayBptmSToU59JL4k2WRs0gKVJkg2Ga/LQqVnJJvMN+Qg/lHJJkvnXMSNkGyy3t4HMQMlm2I8bIq7fzhibpdsqjRiDKydJZsSHhsHy42STYnjJsN0ndROSROLbUqaVmxT8pwlENIkm6osWgk+MRmcxYoqi1aCs1jBJyajyiKnTWk1kDyn2KakqbNx7aN3YWzQBEkTJZtM12UhcZxkk+XGHCQ8Jtlk7ZyLSk6bYm7vg7j7JZti+w5EbN/gbOJbSzalTJoBc1PJptQZ82CqK9lU7d9LYHDalPZ6sU1prxfblPa6ZJMhrQaq/VuyyVS3PlJnSO1kbtoCKZMkmyxtslDFaVPMjTlIdtoU1yUXSQ9KNsX37IPEQZJNCXcPRMLdkk2Jg4YjvqdkU9KDYxDXRbIp+bFxiHHaVGXcZFjakE1asimhay4EHqgydhxiO0o2VR0/GVanTalTZsDitKn6zGKbasxbAqPTplpLVkJISgZntaLWkpXgrFYIScmotUSyyZhWAzXmFdtUfaZkk6VpC6ROkWyytslC1WdewKUP30Vs9o2oMlayKf7WXFQeJdmUcEcfJA2WbEq8ZyAS75FsSho8HAl3SDZVHjUG8bdK7aQJm8ZL7RTbMQdVxo6DnQGxt+Yi5SHJpqRefVB5iGRT0r0DkXSvZFPlIcOR1EuyKeUhqZ0AIPXxcYh32lT9ucmIbSvZVGPqDFibSTbVmjkP5kzJpvR5SyCkSX2wzP+ugCEpGbzVisz/rgBvtcKQlIzM/66Q7KhRAxn/eV2yI7Me0mdJNsU0a4Fa/zcdABDXth1qPDcJAFDpphxUf/wZqW269kDVhx6Tyt67D1KHSjal3DcAKfcNkMo+dDgq95Zsqv7wY0js2kMq+xPPIOEmyabaz09CfNt2AICM/5uOWKdNdV6ZB0tmPQBAkwWvw1xDaqfmy1bA6LSp+TLJJmNSMpovk2wy16iBJgskm2Iy66HhbMmm+OYtUP8lyaaE69uh7guSTUmdcpDxpGRT5W49UPsRyaaqd/ZBjQeGw8GAtP4DkNZfsqnWA8NR7U7JpozRjyGlu2RT3aeeQbLTpnoTJiHxesmmhi9NR3xzyaYmc+Yhtp5kU/OFr8PiPPdavVVsU6u3im1q9ZZkkyWtBpovlGyKrVcPTeYU29TQaVPi9e1Qb4JkU/JNOajz1DjYGYfK3XJRe9TDOPbee6h+xx1If2CYZEf/AajltCn9gWFIu+suyY5HH0Wq06b6Tz+DKp06AQAaTZiIxHaSTU2mTUeC06YWc/+NOKdNrRcthtVpU9u3l8OYlATeakXbt5c7bUpC27eXAwCsaTXQetFiAEBcvXpoMfffUts0b4Em05w2tWuHRhMmAgCqdOqE+k9L7ZTavQfqPvooACDtrrsCtsnOONR5alxQ7RTouWcTJX/KnF/sT3VekdoptlkLZDj9KaaNf39KdfpTUq8+SB48QtoO4BoR6HVPyAj8/uS3bzStuL/n2TcKpr8XbB/W+tRkCM6+kfX5GRCc/fKYqfPA1yndL7f+ZyXg7MNa/+McayQmS9sAuOo1YJnp7JcHONbgR5Uzfrr9PsBkAex2bY1zG7YAe9o5Jmwp/ziXjRwHZEk2sccmAy0lm9jTM4CGkk1sQrFN7MVim9irxTaxV4ttYq8W28RedNpUKxMEEQhFRUX4559/sHfvXpw/fz5sx+UYYzpIJACOHz+OGjVqYPPmzcjOzna//8wzz+Dbb7/F1q1bS+1jMpmwbNky9OvXz/3ea6+9hsmTJ+PUqVM+j2Oz2WCz2dz/M8ZgLyrE5o6N4bh4vvgJkb1IeorCROkC6rltMgMOB+BwbtvtgOiQnqIUFQKi6L1tsQI2m7S/xQrYCgDGpO2CfOmJitni3OaliLuCfOmJjNEE2ArAG6RtzlYgPe0wGMAV2qSnIIIgbRsM0pOzosIS284nefYi6SkLE8HZ7V7bDoMCNsVVAu4bCSz7t2RLCZu8tyWbUGiTnlYJgrTttANFhSW2g28nR5Hy7VSeTUX5Tpt4HigM0CaTSSqfr3PPYZf+92GTw1FBm0wmoKCETYIg2VJokyIHPdtJRpscRSVsslik365oO5VjU6lzz4dNDpdNRRVrJ85iASt0bVvBnDZJ25JNnMUK5rSJM1uc21LkEnPaxMXGIX7Qg7j8xjyAISSb3JFbQdhUWCTZxJktYHLbZDKBOduJM5qkfQUBnMEg/aZgAGcQpG2DARzPS8cNwCbOZAJz2sSZzWB2ySZpm2zSqk32wiBsslrBCpw2Wa1SGRmTtvOdNlkszm0enMUsbZdhE2+NQfIDo3Du9f8AoujTJo7jpfJ42MQZTWBytJMCNpVsp6IC/za5IoKYzDbZ8wsBJoK3WiE6beKtVohOm3iLxbnNg7eYpe0gzz3OYICDk2zinOeeL5vARDCnTRCd2wHYxFssEAsLYbO77LCFZBNvMknf53nwRhNE17lnMEC02cA5bRKdNoEvtsltn6dNnnZ4bPNmM5jD4d4WnTa57PC0CaLTDputeLssm3he+k1fNrm2PWxyCEZwQrFNgsWCjAcfxMEFCyDa7WXaxDvPPV82MbsdLIw2cc5zz2WHp00cz0N0nXt82e3kyybBURRwO3G2wM49s+D/3PP0J4PRtz95nnvgePB2W0DXCKMl8GuEgMDvT8bCsu9Pnv09wd9Yw0ffSDAF14cVzH765X76sII1uD6s0RLc+EngfYyfrLHA/Y8AS+c4B8Lqj3OFogIp4k7BcS5z2sQ5nNt2OzjRIUUrFhWCE0XvbadNHHNt+7aJK8iXIgzNZnAF+eDjK6H9938jKbky+CiNIhRFERfOn0Ol7feAE/OD3p/xVlxu815E1mFeXh6WL1+OVatW4aeffkJhYSEYY+A4DjVr1kTXrl0xcuRIXH/99YqVQTfiYGFhIWJiYrB69Wr07t3b/f7gwYNx8eJFfPzxx6X2qV27Np544gmMHTvW/d7EiRPx0UcfYefOnQEd13UCb26fCcfVKxU1QzGUnodJkbkfDAbpKdS3X0g3FpXRwnw7ga44JgeKzweo4O9reS4SLZxHXhgMsHbORf434fUzmluQUAPVrg0GA+JvzUXeV9q4nylBOOcZdBGu+QbDcd1Wc35Bzd2XAqTkfHucwYDU7j1wau2XknBEwMAF3riBTtVlDnBMEejvCQGW0RCEuwcz7jEF8d1gpjNTes7BYL8f7PzlPn9fY2Mzrc4zHCpCbByyNu+PSGErUFzaSvzO+0IWB/Naroq4Onz11Vfx4osvIjMzEz179kS7du2QlpYGq9WK8+fP4/fff8emTZvw0UcfISsrC/PmzUP9+vVlL4dB9l9UCJPJhDZt2uCbb75xi4OiKOKbb77B6NGjfe6TnZ2Nb775xksc/Oqrr7wiD4nAEHgFBl12O/DNJzL/KEGoi8BpbCBmtyN/HfkZER0ocq8KBLsdeV9Grp+pIQxGGmZe/QVI9A6z23Hys0/VLgZBRAQO5kMgpLEZQajCtm3b8N1336Fp06Y+P2/Xrh0eeOABLFiwAG+++SY2bdqkiDioK7n1iSeewOuvv45ly5bhzz//xEMPPYSrV69i6NChAIBBgwZh/Pjx7u+PGTMGa9euxSuvvII9e/Zg0qRJ+Pnnn/2KiXolXE9VZD+OyQw8OqF4olyCIOTHZEbCU+H3s2Ce1BOEnKixqjFnNiNl3ITiCfoJXUGLH2qTklFxvNmMhv96wb2gB0EQMkNjMyJMMD70VyTyzjvv+BUGPbHb7Rg1ahQeeOABRcqhq+q99957MWvWLEyYMAGtWrXCjh07sHbtWveiI0eOHMGJEyfc3+/QoQNWrlyJxYsXo2XLlli9ejU++ugjNGvWTC0TZCfcAyBZj+dwAL9slv4SBKEMDgds28jPiOgjnPdHZnfg2tbN0nxZBKExIkX8ZA4Hzm/ZDEb3M4JQBg2NzSItpZjwhsTB0syePbvMz/Py8tCtWzdFy6CbOQfVQstzDqp10dTyfG8VRe100HDOOQgoPC9glM45CKh/HmkJmnuQUButXy/0gJppxTTvoDzo9b5Uct5Bwhuac7Bsgs1iiKY5B0M9TriIRHGQ5hws1lZi/wh9zsGrTSNvzkEAsFqtWLRoEQYNGlTqs6tXr6Jr1644d+4c9uzZo1gZIqtGowg1L5iyHdtkBp6ZTqHrEYpWOxtRh8mMxBfIz4joJRxpxpzZjNRJ0ymtmCBkxlP84s1mNHnxJUorJgil0MjYLBKFQcIbJnAhvyKVt99+Gw8++CA++cR73s+rV6+iW7duOHPmDDZs2KBoGXSzIAlRjBYumLJM+m63A19/oonVsLSCUQh/9CAhP5palMRhx7W1nwAOdfzMxFP0IKENlFyshNntuPzFJ7SCKkEoCLPbceKzT8nPnAQTNRhJKDUOimDNIXA0MDbTwjiXUJ5Q04MjOa24b9++uHjxIvr164fPP/8cOTk5uHr1Krp3745Tp07h22+/RfXq1RUtA4mDOkNLF0xXWUIebInOeS0IIkhUW5FUjzgcKNymrp+RQEhoBcWuHQ4H8n+i+5me0dRDHQXQs30GjsHOODCHAxe2bFG7OBGN3CnFhM5QeWympXEuQajB8OHDcf78efTq1Qsff/wxJkyYgOPHj+Pbb79FWlqa4scncTBABB6UhO2HUC/kzGwBe3oGuJnjwNkK5C1UCQIdDIajs1Ne5zzUOUMCxTMyUW57S9qm5O+r0YEIRlTQTMfZbEGlCTNweco4QCE/C2TASasXE8GgpJisxLWDM1uQMmkGzkwaB6bw/UxuArmuBTMXWEUpOb9hoPOVhULJ+QyVvicGKrzIga/5DTVzXyoHX/cUA8fAWyxo+NJ07H3uWYgF+vIzJQimPYM59+SeSxAI7BoSzLVZybkEgy1LSL8fhvkEQ/J3swUYNwN8GMZmRHQjCgAXwj0xGqahfeaZZ3D+/Hl07twZGRkZ2LhxI2rWrBmWY5M4GCA8Fx0nYzhh9kKwD5eCsxeCq2DdiuX0T9R8ElVy4KVm59zBlBEfXYKjkrY5WHjrztfgRJdPNB2FsK1aCsFRqNgDDtcpRdGchC9CiVbSnZjsKMTVd5bCqKCfhUIgIquWrmsOMXxCpJ0pLzyqeb8PpxCpFKUEzqJCnHjrTXBFhboROuUmlHYNapENmQU/9+8GUO5grvuhtr+Sol8oZQqb6IfAbGeOQuCDpUBRYanP+Cj1OTmhOixG5IFQbsGRrMfcddddXv8bjUZUqVIFY8aM8Xr/ww8/VKwMJA4GCM9z5NGyw4C9O6XNEOrW4aEIarVpRKatgZevPogcgo7gvJIombJk9NimeRmDgIlgu3dIba+wnwh+Orl6TWUj5EGp646mYCLEP8LjZ4HiYDoUWZ3lDcc0BEo/1HDNB6fWSs8lBYRwrfosJzElLh4OJqLwtx0wA5oS4ZUkFCEoWNFbiVWCXQRyDVJyheCKHCuU72tN7CtJueMlJgJ7dkjbfr4raHXQpQN4qjs3jAdA4qAXCQkJXv/369cv7GUgcTBAjIIU/krIBzNbcG38PMRMezTg0HWvlFg9XGDLC2nUALwgXzHDFUEmGMIgOEWKAGm2wDJ1HgpeeFSxtOLycHV8SSQkXPgTkn2hi/PGYkH8/81D3r8eBbSS7qhjAdYqhLHdFZ4TVSuR1Z6LV6glWFYUg9WCWjPn4Z+nHwXTgJ/JKbjKEcWqtshX6hgypxLLFS0azO8EK/ZVpIyhCp+hDod8jaOY2YLC5+fB9GLZYzOlp0CKVHiqN6IMli5dqnYRSBwMFJ6DZqIBIgVmL4T1zZngy0grLila6elmVOTQiYAJafDikFHIdN38lNRGpTIr+PvhECDDgVgIx+uzYBQLfYdwhRFX9CdFfhLBoAtxuagQBQtnQSgq1E5fQeeRVUpf4z0JixipoYWZlBYsPUUOWY9RVIiz/9aOn2lhtWClRT6lo9qUTtv1hZKCnxzZQhUZOoQy7vCsDyYWQlg2E7xYCE7FPqNOhk9BE6l2hQKlFWsTEgcDROBCmzSTKAsRhn/+kjb9dCT1ehEVFZrbTykUEzIVjpyUM+rRF+EcnCoGE4GDe6VtjfhTONLQicjDCA0Ly0wEDuzVVFqx3nGEaVoO1zU+HHPYaS7NOwyCpbxtKMLh8jOt1WUYCYfAF2q7KZm2K3e/OuCFV4KsC7m60xXtl4eU4sxECIedYzMd3Mu0NHVTIOh1XKsE4UgrXrBgARYsWIBDhw4BAJo2bYoJEyagR48eAIAHH3wQX3/9NY4fP464uDh06NABM2bMQKNGjQAA586dw4ABA7Br1y6cO3cOVatWRa9evfDSSy+hUqVKfo97/vx5PProo/j000/B8zz69OmDuXPnIi4uzu8+o0aNwr/+9a+AFh559913YbfbMWDAgMArI0BIHAwQmnNQfkSzFRf+tRiJU0aAs+W739fbhd4T1yBDbzqbckKm8j4jd9RjKXR8PgIAs1jBXlwC7vnh4Aryy98hjESE+CoDgYik0Tr5fkk0KyxbrBCmL4Hj2eGAVvxMq0JqAIRjASrXORRpAmSwaE6wLAPOYkXynCU4P3Y4mFb8LIwoveJuKMeQY185+qBKRziG0q+X86G7HHUUSHGY2Yq8Sa8jfpJ+x2ZantdPy2WLRGrWrInp06ejfv36YIxh2bJl6NWrF3799Vc0bdoUbdq0wYABA1C7dm2cP38ekyZNQteuXXHw4EEIggCe59GrVy/83//9H1JSUrBv3z488sgjOH/+PFauXOn3uAMGDMCJEyfw1VdfoaioCEOHDsXIkSPL3CclJQVNmzbFDTfcgJ49e6Jt27ZIS0uDxWLBhQsXsHv3bnz//fdYtWoV0tLSsHjxYiWqDBxjTGtdbE0hiiIunD+Hv2+tD/HaFbWLowsC1WkYx8NRtQaE08fAMXUVAlGDcwPqXTQJZ5UqEU0UiODor+OnqFgZJIzjgWo1gJPB+VmwJoTa39FQVXmhJ//zl8Knp858KGiqjTz8DCrfz1xoTkANACUjQ0OpDz3WYTBoyocCgeMhVK8Bxwnt+Fk4CMe8fBURBeV8wCzbvIJB1Fmg/Rc1Ivl8Ibe+5FlXjOMhVq0BPsixmVZFL60Vi4+JQ/2v/kZScmXwfIR30vzg0lbYqfsAFsJDHs4KLnVVyHWYnJyMmTNnYtiwYaU+27VrF1q2bIl9+/YhMzPT5/7//ve/MXPmTPzzzz8+P//zzz/RpEkTbNu2DW3btgUArF27Frm5uTh69CjS0tL8lu3UqVNYsmQJVq1ahd27d3t9Fh8fjy5dumD48OHo3r17oOYGDUUOBgjPR35asVydxMAvxCKE007HCtPF258QoaWbmkuoVHJgr+hcfbz0++GqUjlTuOVa8EZLc006RBE44fsGVhZKmFCyXhwik+04IqtYmUteG/QqrKmV/uRJIIJvIMct73e01UYicOof6V6mAfd3iNqMUvOHS4RTKoq9yBF4fXgKgnqqw2CQO2pSrj5F+eURgZP/SO0SoW1TknDMyReq34XbPxRZndf924F9Uc5rVEXvv0rcAzkmQjj1jzQu8jchfIio3TXWQp8h0rWEYBBDTCsGF9oU6g6HA++//z6uXr2K7OzsUp9fvXoVS5cuRZ06dVCrVi2fv3H8+HF8+OGH6NSpk9/jbNmyBYmJiW5hEAC6dOkCnuexdetW3HnnnX73TU1NxfPPP4/nn38eFy5cwJEjR5Cfn48qVaogMzMTnMw+6QsSBwPEIHBgOu8l2st5BB7ui6ZotuL05OWoOnEgeJv86SG+Oqtq35jKwjUQDlaoDCXqUem2Duu5JMOgRFR4YBpuPEVOPiYGhTNXwPT0AO2lFcvkkOWJjL6OUzK6U8vXhnBR0fZw1alcdamnNmEWKxyvrITwZH/V/UwM01x9cqG0kOkI8AGS67qp866eT0p2/+SyMRyp2V5ltVgRN38lrjzSXzvp+wqi9Hx8aqysqwSB3CsCub8FWofKPDyt2P5yBTmIZisu/N9yJP3L/9hMi/YHg0Gli3x543AiOPLy8rzEMrPZDLPZXOp7v/32G7Kzs1FQUIC4uDisWbMGTZo0cX/+2muv4ZlnnsHVq1fRsGFDfPXVVzCZTF6/0a9fP3z88cfIz89Hz549sWTJEr/lOnnyJKpWrer1nsFgQHJyMk6ePBmwfUlJSUhKSgr4+3JBacXl4Ap9/ef2BmA6TCsWNZB14e9iyDgOYnwS+LwL4KL0NKzI03atpmOGC7lSwXWXVlUGvqqEcRxYpWRwl89HpJ+pvUBFRVLItRRh6iLYAaba9a8VGMcBCcnApYr7ma9zqqxzRUvTGARDOIod6PU9EsdsWkvRrihStCAHJCYDF88DEXg/80TJFXXd+ygYiacG5d1TA6nTYOxTStCSO5spmJ9jHAexUhL4y8GNzZSoi3CIeEpn9pYch3MxcUj/4i9KKz5/DkXnQk8rNlZehYw6dXHlSrE2M3HiREyaNKnU1wsLC3HkyBFcunQJq1evxpIlS/Dtt9+6BcJLly7h9OnTOHHiBGbNmoVjx47hhx9+gMVicf/GyZMncfHiRfz1118YP348OnXqhNdee81n8V566SUsW7YMe/fu9Xq/atWqmDx5Mh566KHgbQ4jFDkYIDzPgWn5jugDUWSKX/R8H9f7f38XdwaA2QvA8QAXLfkhTlyCaSg301AWPSlrEKaz0xqAM4VUhoKLItPU0+9gKTnw9VUlDAywXQPAys0QCdc8g3KhxqrgJQfcagp8Stlelkklz5FIibatKAwMKLwG8Czku5k7ci3Ic0qLIrMn/sRLpYsdaASl3lKwS+JPqFPUN9V6KMAYjE4/i1SUXljDk2B9UI5rjZIP1Mo75wNPMQ6wQJ6/rcAFLdyXdoGX7mV8YT44rvw+oz+UEvWUHtPK2YauAIaSZaa04mJEjgFcKNcDaZ+jR4+Wihz0hclkQr169QAAbdq0wbZt2zB37lwsWrQIAJCQkICEhATUr18f7du3R1JSEtasWYN+/fq5f6NatWqoVq0aGjVqhOTkZHTs2BEvvPACqlevXup41apVw+nTp73es9vtOH/+PKpVqxaCveGFxMEA4Xnnkts6QRTDP4+evwuh3++brTj2r7dR8//uVyStWEsEKpiWh90RuJjlKRwF3wEM7vvhQs7VoOUSGNUiUGGTma24+NIKJD43wGvlOU8qWq9qnC/hnNcS0EfquZz14Zo7VMljRBLMbEXe9BWIf9a/n/lDD+eWPwKJTlNDvAxqPlON3u9clBf9GG5hM9A07ZKUPFdCOt8tVhjmrgQbG5lpxaHeS0O/dwe+Y6jXJ7kfqFVUAAx4deIKlFPJBUOUhnlM+eS6l4U6ZlFKzAtH3z3UsrvGe/7KyFEnSjbi4+NDir4URRE2m83nZ4wxMMb8fu7aH4Df72RnZ+PixYvYvn072rRpAwBYv349RFFEVlZW0OUNN5RWXA6u0NcTvRuCK9BHWrEaqcShHJNBuglxtvyIixuUe/XjYOtXznkt1JqboyRy2qTnVOJgT63y/EzOc1XpDlu4VxXX23miVVE/GmAAYLYCQd7P9HKO6SlzOZh0WjlSsvVUN3JQkXPWwSoWGccAwGIFCiKr31jxhSmC/4Fgxb5ADxEOf6ioABhMX0VLi4aEoz9eVp8xVMFMkajKMPZ3yjpWsOMzLiYO1T/aS2nF588h/+K9AEJ5yGOFNfHdgOpw/Pjx6NGjB2rXro28vDysXLkSM2bMwLp165CZmYl3330XXbt2RUpKCo4ePYrp06fjhx9+wJ9//omqVaviiy++wKlTp3D99dcjLi4Of/zxB55++mkkJyfj+++/BwD89NNPGDRoEL755hvUqFEDANCjRw+cOnUKCxcuRFFREYYOHYq2bdti5cqVIdgbXihyMEB4vnhBHYNBu10Suz28qcTFT0iC35eBg8NiBV9UAC6k5Yq0ga8bg2wTAwcZjekqj15D+n3hql85bKpIOrcWCCVajnEcRKvTz0o8C1IielKuqE6fvx32J676uy7pORpWzzCOgxgTA95uC2iepnCsSi8rOhExgWBFDwUvWBFIRRe7CSX4zPOSxjgOsMYAhaXvZ+FAqyn8oUT1yZVREsj0JnITyDlY3r1QjYwaOfvmSvXHGcfBYbWCt/v3sYr2M+Qsu9r6WrDHp7TiYkSeIbR+duD7nD59GoMGDcKJEyeQkJCAFi1aYN26dbj11ltx/PhxbNq0CXPmzMGFCxeQmpqKm266CZs3b3YvKGK1WvH666/j8ccfh81mQ61atXDXXXfh2WefdR/j2rVr2Lt3L4qKitzvrVixAqNHj0bnzp3B8zz69OmDf//730FZabfbsXHjRuzfvx/9+/dHfHw8jh8/jkqVKiEuLi6o3woGihwsB5e6fe7uRmD5viMHtTIYC2dUjd0uw9N2kxUHxr2FujMGgS/UR3pIuKIyQzlOuKOqAH1FimlhcZ6KEGrkZFmrgisZtVReR1oPEVN6HfNr5JYUVYhmK85NXY7KL/hf4RHQ7zkFqHOPCYVgri1ymBQNi/KoseiNLyGOWawonLkCpqcHKLoquJ5S/MM1HQjPc5q6Bsgh/oUq+Mkh8oVD1Aqljy6arTjy3Fuo/dKgcqd8ksMGuepBy4E7QPG4mYuJQ+qHFDl44fw5XL18D0KNHIyt9F5E1+Hhw4fRvXt3HDlyBDabDX/99Rfq1q2LMWPGwGazYeHChYodm8TBcnCdwOfvbQz4EQddqHl+hk+0Uvd08RQlK3IjkEPclJOKtp8WhC85z3+57VH7vK0ISrWtnGnakYoeBExf6CYaLcrQ6/nkidYvpcFe6+VqE63XSyioKXqGW5zT8wOVkOcp1LPRTuSYX7AiQp+8EXDhaw+5x6taEvjUPq/Luwdx1jhUfn9PRAtb5eHSVi5dDV0cTIiNbHGwd+/eiI+PxxtvvIHKlStj586dqFu3LjZu3IgRI0bg77//VuzYlFYcIDyPoCatDteEoyyEtNNgKClMyHnRZRwHW+UaMJ87VmZ6iOeFVq4nQ2o/YSopTlZ84tsKFkhmKlIeaTEd+cqixuI8ciHHiuOM41GUkgbjmePgWLFDGyJqxial0O+IXytzhUYLjONhT0mDoYSfAfqfzsALDQucoUyTwPPyPDwSoF/x15/5akbP+WtGxvEQU2uAP3WslJ+Fgt59UkuLZqhFeW0Y6L2won0tOfuZ4erT+zoO43gUVkmD6Wzpe1l5yDW2kqMuwz0uKm8hEjeR4ngyEI60Yr2yadMmbN68GSaTyev9jIwMHDt2TNFjkzgYAsEKf0oKd0qJkEqLjgDgMFlwaOBUNFz4sM+04oAvtBrH18BDjhtouOeXrAiB2OsSTOUXBuX7vXAh57kvmi04NeIl1Hp1lDtFRA7RMRow8ZwmonJDhdo4fIhmM04/+BJqzHrQw8+kzyJJqDUI2ow6rsjq5bzAyRL5J5fQqBT+xEutdbHKEnuY2Yy8MdOQOGVE0KuCl0TvfUugYm2nd2HURSDX12DvhVqZUy9c93DPPrrDZMGxoS8i8z8PQQhxyie5fEsO+5UeJ7sIpKx67k8qAeNDk/n0f+UuH1EU4XCUDt8/evQo4uPjFT02pRWXgzv0dUATn2nFoVy4BEPoVzuHXfkri9oXr5IXXL2hdP1pefARKCU7DkrZpLX08UBQ8vxR27f1iJ79LRIGv3pEz+dMoGjpWiKHWCln1J/aza/38y9c1y09Xx4rKuxF0gOLQMZhFYqwrHBEYcX290TprCfZF6iTyXa5BL6KZmkFi8/xrDUOie/8GdEpseXhnrLNdjdYCGnFHKxINr8f0XV47733IiEhAYsXL0Z8fDx27dqFlJQU9OrVC7Vr18bSpUsVOzZFDgZIWWnFFRH7Sh3DB54XJbmO5QuX8BguP2Mcj2vVMhFzcj84JrrtDFdKthz4uvArneIdiQN+pWwy6OwKp0Q0KON4FKTVg+noPvC8hkb0ukGf/hah/SXNwjge+dXrwXx8H3gt597KhJai5OSYIsHgTKGVQ2h0ZeOqlmas8z5CWcVnPA97zXowHN0HrgIKtV6j5uQS9SLp/hBM/7Eidle0zpQS9uTuP0v3skzEntovS+o+oL64F87jel6WfNqt8+uznIgcAwshdpCLgrTiWbNmoXv37mjSpAkKCgrQv39//P3336hSpQreeecdRY+ts6GzeggGHihHmFPqoqX0xdB1IVNSePSFw2jB4dvGouGyJyEUFWi+s+KrHxqucHUgsjpz4UMfN2HXIFuJzmMhb8LJvk8gfcFY8IUFsv8+oS3oOqEOdoMJZ+59ArXmR4+f8RpJu5dTqDQ57+ly2CWn4BgMnlMF6nEexLKEO9FkwuX7n0KVVx6rkJ/pLXJO/gUk9GW/P0KtF7WFPiXqX65zxGE04Wjvx1H/jScgFBXIPs6R81wO97i1LAINsNHhJVkxHJRW7JdatWph586dePfdd7Fz505cuXIFw4YNw4ABA2C1WhU9NqUVl4Mr9LVgWLNyVyt2ofXINy2k7WphQFEe4UjhdqGH+tAjWjjXy0PZNGJl07XVXtgnXGg9PT1a2kGraP38UBKt3bu0vtK9mvWlxbkiSxIu0U4vD1G0LCKpiZZSdbUyP6ELpcagSpw3cop7apzXoVzPHcYYxL+9O6JTYsvDpa2csvcNOa041bA6YuuwqKgIjRo1wmeffYbGjRuH/fgUORggHM8FHQqslSdzJTu3aouXzLkYAuN4XK7ZDJWO/i5b6LochCuS0lN8jMBrmyYQNf58iSm4MIhrlWbG8bia0Ryxh36Txc9Ekelu3puKotX0dK3VU7RiMnFwME5WP9MTWhJHpShCOX9P3uhI1/VejZRsk8f1QmuiLhBYP4jxPArqNoflwG8hpxXr4bqp10wkpVGy76GmyKfEuCzU8jCOR17tZog/4ntsptTYSC8iKRD6op2iqK1oR7WxC5RW7Auj0YiCAvUyUIIe8hw8eBCbNm3C4cOHce3aNaSkpKB169bIzs6GxWJRooyagOeCFwddcGG+DpS8lmupIySKzH3BFg0m/HPjQDT5YAJ4u03lkkkoKda4UCuNOyoJY/RnKCglXnqexw6jEaduuR91lz8PvqhifuYSHLVEeAY72rFZ74O7SIUZTTjTZRDi3qq4n+kNk4nTzPyDnsglWhYLerL8nPM31RXqPK8jarddMPcU0WTGxR5DUP3154JOK9bDtVOpMuo9ujxsi9RUsP4rIkhpJTLPYTTjRKdBqPT+CxD83MvC4UvypzMHcZ0p55oYatl4ML/rF0QjDg5gIVQlp73uhuw88sgjmDFjBpYsWQJDmCMUAk4rXrFiBebOnYuff/4ZqampSEtLg9Vqxfnz57F//35YLBYMGDAA48aNQ3p6utLlDhuu0Ff7qBZAQWBpxYEgGOW7OjiKtC2AeKL1gIpwdJL1kOoaKWgxOsITpVLXlbJb7+duqB06LditdsQ3ERhaOFfUQMvXWrnv60pGSqpdj+E+fjhEBq2LglqOhlMbNdpOTYFPiaABpeow3H0SvZ/LgPNeZI2D+fXfIjYlNhBc2soR9AHjQkgrZlbUxgcRXYd33nknvvnmG8TFxaF58+aIjY31+vzDDz9U7NgBSZGtW7eGyWTCkCFD8MEHH6BWrVpen9tsNmzZsgWrVq1C27Zt8dprr+Huu+9WpMBqIRh5aeZMheECmG+FlZg3Rk6hUUkcRaJXFKXICbiQ0QZJh7aDZw71CuaEhSEqyjNyklAeXuuh50pFj3qIjowXcCmzLRL2/wxOrJifaT1NW048o4XU8tkI7fOEnUAEj4rWtaefMbv697NwI/DaFUblTg02mVyLlihrrxrp2uVOpi9TPYac8sgLuNrwesTu3RbQ/UxLEXPhFjf0fP9Qu59ckbqrqMCnRLsFU58iL+BiRhskHtoOvhwfU1OwC3dWnhzw4ABOO9cktRFDjRwEQlvJREckJiaiT58+qhw7IHFw+vTp6Natm9/PzWYzcnJykJOTgxdffBGHDh2Sq3yagRM4QCOrmwUiIGoRoWQstcGIky1yUfnkLggamLMoHBGYfBSJK1pAw8EsABQULz06pw6DCWfb3I7Ef3ZBqGD6voDwLtSjBdQYYNGUA8FR3jkZaBtWpN49/czA26LOTwAAGlm92BeuFXDlFDBdA2OlbHaJkNIx1O8jaQHRaMTF7J6odGgH+DL6bFqIMlJLnFNbWKsIWhI0K3I/UDM92R+B+gQzGHGqVS6Sju4CH+B9TAtCnR4CZRxFIqUVe+DgK5BWHOHPYJcuXarasWm14nJwhb7iidbgCq6qXRzdotWIAhclozGVQE/p35FCtKaxh9PftCoG6A0tDYrkQo/nhpztoEf75UAPwqgSbROu6260nleBoua1VG1hTq/3ES0+EFNb4FNC4FZTxAu3eKe1QBr3ONMSB27ejohOiS0Pl7ayXwg9rTjTEdlpxWoS8gyHp0+fxunTpyGW6KW0aNGiwoXSIrzAae5CUxFEhcUw3llXruP4ukmKvIDTdW5A1YM/lBu6riRMZGFp21KRk4SilExj1yJKRZJ6XpVFXsC5hh1Ree8mRfxM8KhjrT8E0CJqDyblwF+767XPFkqb+PIzJaLVdIEGB/olUSQKOkyRk9F8zRV5ARebdkLiH9+Wup9F+/QPWhTYykMrdecPtQU+Jfqw5Yl0Ii/gdOaNqLr/e1XGZkqNx8pqy3BcR912RZCWUFEYJ6UWB4vGLxuyUKdOHXBlpKAfOHBAsWMHLQ5u374dgwcPxp9//glX0CHHcWCMgeM4OByRGefJ8foVB31FxfFhsqWs4zDBgLPp7ZD6z1bwDvUehYfjyOESIAkJ5mD6STFQAE/RkRmMuJCZhSr7fww4RST0A4d+jkdb2pwW0t5kg9fmarUVIdj2KdPPIrB+ykLL8w96wpuke4Scgp7g/Bu26EmVVz0ON5zBiMuN2iNp72ZwHnUc7dM/aF1kK4meHoqpKfAp1Y8tczxiMOBcnXaoeuRHLx9TGyXPmXCej0xnvqokRUKI4iADYJe9OJpi7NixXv8XFRXh119/xdq1a/H0008reuyg04pbtmyJzMxMjBs3DqmpqaVUzUhaqRgoDn01jG8LzqaPtGI9dMq1QjjSiZWO0iSK0du5r9T5F60p7FpPI9d6JGtF0Xr9B4vc7RVp9VMeehNElbh/qCXY6SG1Ww7UEOi0KMTpRWzT40MxOe4DFRH51Iik0wPhCnKRG2aJhTjzl6hOiXVpK79b+kAMIa2YZ1Y0K4jOtOL58+fj559/VnROwqAjBw8cOIAPPvgA9erVU6I8moU38eA0KveLhd6dQL1c8EXegKOZt6Dm/vXgxch9BKDNsybyEB20ErQLzxR2kTfgRKMuqL7n64j2M7lQQljVQxSrXESSMB1MuwXqZ5FUP+Uh8Jy+BFEFIjzVSi13RUX6Q69RhiJvwJkWXZGy638whDF0RMt9Cz0Ibnp/MFbRe3hFBT5FFijxUyaRN+BY/VtQ42/9jM10lZmlA38ltEuPHj0wfvx4bYmDnTt3xs6dO6NOHNQy5XUCtQoTDMirkgnu6HeqpBWLhaKmO3xE4DAH0+VTxLCc9YKAvNR6qL5vA7gInfZBTgyCUP6XCL8YBCEsEdnhIuBBR4B+5jq/IqmOykJvYqjg7BPILmq6VzbWRrsLYeg2KiGIMgOPa2n1we/5Bpxd+fuZ1oU3rYtuen8wJqfoVOH5CxXo4/q0TxCQV6UecPBb3fYZNT2203LZwowY4pyD0czq1auRnJys6DGCTis+e/YsBg8ejHbt2qFZs2YwGo1en99xxx2yFlBtXKGv5intdZNWTAQGC5MgWTKyk5APvaURl0QpgYBS2Qm10btveqLEQCOS6qc89CqEKils6iqiMgrRuugGaFt401Uklw+UEpcqKvApUa+aFtI0gNwBOMwci8LJP0VlSqwLl7bya0zfkNOKW19bHdF12Lp1a6+p+xhjOHnyJM6cOYPXXnsNI0eOVOzYQUcObtmyBT/88AO+/PLLUp9F9IIkEbZasRYQOQMO1u2OOgfWgmfhDV1nDgYuHI/OAQhWPmxCZDRBkZ/+8TyzRd6AI01uQ+3dn+smRYSIAAQuokTq8gZ1QfuZ8/ciqY78wfGcLsXQcEV56i26Uk1E3oBjre5AjR2fKHI/07Lg5olWxyN675OFIwNFkynGJu+paA7V64GMfV9Sn5EgVKJXr15e4iDP80hJSUFOTg4aNWqk6LGDFgcfffRRDBw4EC+88AJSU1OVKJNPzp8/j0cffRSffvopeJ5Hnz59MHfuXMTFxfndJycnB99++63Xew8++CAWLlwY9PH1vFqxZuF52KxJgIEHF+FxxVyEpdqpiUto1Ws6vSdKRZV6DcZ5HraYZEDgSy0gRRBKIghcRF33yuwDhOhnkVZHftGxGKq0uOk5lUFUnAsVQRBQFJ8M3iRAkPGhq17691oV3/Q4rYsn4W7/CqcYK9T/5QQe4AXnvUwAx9GDC9kJU2CKHqC0Yv9MmjRJtWMHnVYcHx+PHTt2IDMzU6ky+aRHjx44ceIEFi1ahKKiIgwdOhTXX389Vq5c6XefnJwcNGjQAFOmTHG/FxMTg0qVKgV8XFfoa8zLN4ArpLTiSEDtzrfax9czkVZ34YgopbR2QgvoMXKsJEoOzCOhfoJBr9fycIqb0XZOqIVWBTcXWhfe9CKs+kKttpdD3AtX9lPp4+q3vbUAM8ei4PktEZ0SWx4ubeXH+LvhCCGtWGBWtM97P6A6XLBgARYsWIBDhw4BAJo2bYoJEyagR48eOH/+PCZOnIj//e9/OHLkCFJSUtC7d29MnToVCQkJAIA333wTQ4cO9fnbp06dQtWqVX1+lpGRgcOHD3u9N23aNDz77LOB2SgIOHHiRKnfP3fuHKpWrapopm7QkYN33XUXNmzYEFZx8M8//8TatWuxbds2tG3bFgAwb9485ObmYtasWUhLS/O7b0xMDKpVq1bhMvAmARxoono5cXAG/JXeEw0OfwohTGnFYqFD9Rub6/h6HRyphZQKHmmdkjB0DGJN2N/wTmTuXQO+qFD54xGEHyJBqPY3qHPwBuxvdBcy93wIIcRUrEion0DRa6pxWCM9y0tlj8I+hMgbcahVH2Ts+AC8WFSh39Ky6KaHvo7WRdXyUDv7pKLinlLniIM3YF/93qj390ch38t8oYdzOizo3G/0Rs2aNTF9+nTUr18fjDEsW7YMvXr1wq+//grGGI4fP45Zs2ahSZMmOHz4MEaNGoXjx49j9erVAIB7770X3bt39/rNIUOGoKCgwK8w6GLKlCkYMWKE+//4+PiAy+0vds9ms8FkMgX8O6EQtDjYoEEDjB8/Ht9//z2aN29eakGSxx57TLbCudiyZQsSExPdwiAAdOnSBTzPY+vWrbjzzjv97rtixQosX74c1apVQ8+ePfHCCy8gJiYm+EIIXLkdNSJIOE66SAocwMJTt7xJWwKvWBiZc3TKTWQKg+GB4zmAkzpmPEfpa4R6CNbSgyE9zsfqa1DH8bxz+hEeXIirGfDK9vc0i95EUc69orG611AhTPdETd0reAAcB14A+BCnydByX0IPgpvaolpFUSvizhcVnn9QoQVKOGefUStT0WjZZ4MmkmypICLHQQzhHOMQ+D49e/b0+v/FF1/EggUL8OOPP2LYsGH44IMP3J9lZmbixRdfxMCBA2G322EwGGC1WmG1Wt3fOXPmDNavX4833nij3GPHx8cHHaD273//G4C0jseSJUu8ps9zOBz47rvvtDfnoKug3377ban5/DiOU0QcPHnyZCl11mAwIDk5GSdPnvS7X//+/ZGeno60tDTs2rUL48aNw969e/Hhhx/63cdms8Fms7n/dym3Ds4Ag/MvAAjMDgdnBMCkbd4IMGnbzpvAMwd45nBu28EzUdoW7eAhws6bwYtF4CGiSLDA4LCBA3NvAwx2wQKDowAAB4fRDKNoAwMHO2+CUbRBBA+RN8Lg3jbAIBZC5HiInGtbgMgJMIiFcHACwPEQxCJpGzwEVuTDJhECczhtkraDtok3wyAWSjY5twEGO2+GQbQB4MB4A5oc/QiM52DnLYrbxNvtcBhNiraTXTDD6CiQ2sm5XaZNRqluRJH3sMkAcJzTphLbLps8zregzz3BDN4hg02CEQZHoO0Uuk2FdgE858Mmwdk2pbYtEJw2ubYBBodggeDyJ8EMg9Mm17bIOdvJYSu97cMmkTOAOe3w3HbwTptEyQ6OMfDMe9vVThzsitsE3oBG+z6AyPNwGCzFNhm9bRKKbBWyySGYwIlSO0nb4W8nxhsgOCSbGC84t8kmTdtkKtsmOxO8bQIDX3I7WJsMFgh2p03ObYDBYbBAsDttMphhsDttcm572sEMgpdNHC+g4V+rIfICRIM5pHYSjRbAIapmU0DnHm8Ag9Mmj+1SNgXRTizOCl4sAme3K2yTpw+VsInjS9nn1ybBBI6JEEQ7ihyGEjY571Ul7OAdhRW3STD5sE9em3y2kxAemxwwlGsTOB71f3sXomCAKJiCsomHqNl2Mgr2ireTL5tkv+4Z4FDhGiGHTRB4Td5zBZ5V6J4rmiyy9mE5nkP9Q59A4BxwGE1l9mG11C83GRxljjXEIkdA/fJQbTIK9oDGTw6Td1BVNOPgODhCEqBDE1gdDgfef/99XL16FdnZ2T6/c+nSJVSqVAkGg2+J7K233kJMTAz69u1b7vGmT5+OqVOnonbt2ujfvz8ef/xxv7/rYvbs2QAk/WnhwoUQPOYkNplMyMjICGntjGAI+vHJwYMH/b4OHDgQ1G89++yz4DiuzNeePXuCLaKbkSNHolu3bmjevDkGDBiAt956C2vWrMH+/fv97jNt2jQkJCS4XzVr1gQA7MnoDU7g8Fd6T/yV3hOcwGF33b44UPNWcAKHXfUG4kj1juAEDr82HIbjVduBEzhsa/IITlduCU7gsKX5kzif1BCcwGFTq+dxuVI6OIHDxuum4GpsNXACh6+vfxk2SwIcRgu+vv5lOIwW2CwJ+KrNywCAK5ZUbGg1BZzA43KldHzX/DlwAo/ziQ2xucmT4AQep5Nb4qeGj4ATeBxLaYdf6g8DJ/A4Uu0m7Kw7EJzA40CNrtid0RecwOOvWj3xV62e4AQeuzP64kCNruAEHjvrDsSRajeBE3j8Un8YjqW0Ayfw+KnhIzid3BKcwGNzkydxPrEhOIHHd82fc9rEY0OrKbgaWx2cwOOrNi/DZkmEw2jFV21ehsNohc2SiK/avIzf6vTD5bhaYbJJ+Xb6+vqXwQkcrsZWw8brpoATOFyulI5NrZ4HJ3A4n9QQW5o/CU7gcLpyS2xr8gg4gcPx6ln4tclwQOBwJO0m7GpwPyBwOFC7K3Zn3g0IHP6qcwf+qnMHIHDYnXk3DtTuCggcdjW4H0fSbgIEDr82Ho5jqVmAwGFbs9E4VaUlIHDY0vIpnEtuCAgcvmv9L1xKSAcEDhvaTsWVuGqAwOHr9jNRYE2E3WTF1+1nwm6yosCaiK/bzwQEDlfiqmFD26mAwOFSQjq+a/0vQOBwLrkhtrR8ChA4nKrSEtuajQYEDsdSs/Br4wraBGBniwdxomY2eJOA7a3H4Ey11uBNAra2fQYXUhqDNwn4PmsC8pLrgDcJ2NjhRVxLSANvEvDNTa+iMC4ZojUW39z0KkRrLArjkvHNTa+CNwm4lpCGjR1eBG8SkJdcB99nTQBvEnAhpTG2tn0GvEnAmWqtsb31GPAmASdqZmNniwfBmwT8k56D35sOAW8ScLBud+xpdC94k4B99XpjX73e4E0C9jS6FwfrdgdvEvB70yH4Jz0HvElw28QJHLa3GYMzqa3ACRy2tnsGF6o0Aidw+CF7IvISM8AJHL7t+BKuxVcHJ3BYf/NsFMYkQjRZsf7m2RBNVhTGJGL9zbPBCRyuxVfHtx1fAidwyEvMwA8dJuGPJgNxLqUZtrZ7BpzA4UxqK2xvMwacwOFEjfbY2epB8CYeR+vm4I+WQ8EJHA7W6469Te4DJ3DY36A39jeQroF7m9yHg/W6gxM4/NFiCP7JyAEncNjZelSxTW3H4ky11uAEDj+1H+e2afONk5CXJNn0Xc40XKsk2bShyxy3TRu6zHHbtKHLHMmmStXxXc40yaakDGy+cRI4gcOFKo3wU/txkk3VWmN727GSTTWzsbP1KHACh38ycvBHiyFkk05tOtD4ThxofCd4E4+/mvfDoQY9wJt47G49FEfr3gzexGNX24dwMr0DeBOPX7Iex9ka14E38dh2w7O4mNoYvInHlk6TcaVKHem6fst0t00bu85127Sx61y3TRu7znXbtOmW6W6btnSa7NOmn69/HLub3Y9jtW6sUDsddbbTrjajcKKW1E6/ZD2Os9Wldtp2w7O4kNJYuld1muxuJ1lsSmmMbTc8C07gcLZ6a/yS9bjUTrWysauNZNPRjBz80Uq6Rhyq1wN7mzltanQn9je6U7Kp2X04VK+HZFOroQHbxJsE/HjLVOQl1wUn8Pi+y8u4lpAGTuDxbY95KIxNgmiOwbc95kE0x6AwNgnf9pgHTuBxLSEN33d5GZzAIy+5Ln68eSo4gcfFqk3wc0epT3E2rTV+zZb6FCdrd8Cu6x8GJ/A4WvcW7G79ADiBx6EGufirRX+pT9GkDw406SP1KVr0x6EGuVKfovUDOFr3FnACj99vGI3T9W4Eb+Kx46ancK62dO790vlfuJTWFLyJx09d/w9Xq9YFb+KxOXcW8pNrgDfx2NRrPooqJYPFxGBTr/lgMTEoqpSMTb3mgzfxyE+ugc25s8CbeFytWhc/df0/8CYel9Ka4pfO/wJv4nGu9nXYcdNT4E08TmXegN87jAZv4nG8QWfsaTcMvInHkSa3Yd91A8CbeBxs0RcHW/QFb+Kx77oBONLkNvAmHnvaDcPxBp3Bm3j83mE0TmXeEHabfr31BQgWAecz2mBnztMQLAJO178Rf9z4KASLgBONumBP9kj81W4oDjfvhf1tB0KwCDjU6m4canU3BIuA/W0H4p9mt0OwCNjbfjhONOoCwSLgjxsfVcWmstpJsBpwvFEX7MkaHtK5t+v6h3GydgdwAo9fs5/E2bTW4AT+/9m77/AoqvUP4N+Z2ZKQhBQMvYUiVYqgEFHpBkQFBRVFCYpgQwXleuV6pYiKit2rWC+giAh48aeiIlJUFJAiilKULkioSUjdMnN+f2x2yabuLjvZnd3v53l4mN3s7pwzM++Ud845g82X/Qs5ddtDUmRs6Bu8eHKfG4VyHxHofk+2yGF9zD2X871gn8P+2fo6bOj+CERMTLXnsOF0Xg4Ahxpchl9b3woA2Nd4IHa0cCVw/mh2tc/n5YHWqdiSCKcS47p+UmJQbEl0XT8ByI+thzXdXc8/OBPfOOC8BnnLy8vDmTNnPP9KN+4qbfv27YiPj4fVasVdd92FZcuWoX379uU+d/LkScycORPjx4+vdJ7vvvsubr75Zq/WhBW5//77sWjRIqxZswZ33nknnnrqKTz88MPV1smdU+vduzd++eUXrzzb7t27sWLFCvTo0aPa3zkXfj+QJJhOnDiBU6dOVfmZFi1aYMGCBXjooYeQnZ3ted/pdCImJgZLliypsltxaQUFBYiPj8dXX32FjIyMCj9TUctBp8OOuDevgMmeW3kru1LT5e4+eFqhBd7Kzt1asFzLQbOlfIs0r5ZcZVrZeVrW+dByUOc62ZVYHDzvMrQ4vgpCUqpuOXiudVLV0K4nP+rk1KSwauHpV52C3GpVdoZJC09fWkNCqqROVbTwdDorr1OQWng6lFgcang5mh9eBUlCQC08HU7XXTo977qGcwtP1ol1qq5OqhyDg036ovmhbwCIc6qT5HSERZ1CvZ4csBquJS4cFa2byGjhGQ51UmUzDqX1R7N930ASqiHrJEwmw7UCF2ZLWO4jqqqTCTZD7PdMZik453uKEpRzWLscg/0N+6PVkRVwtdCqmR5yYXNernOdVEsCCu9bwweSnD6FtYkjA34gSZ/cRWie1gL5+fme96dNm1bhU37tdjsOHTqE3NxcLF26FO+88w6+/fZbrwThmTNnMHDgQKSkpODTTz8tN2we4Brm7pJLLsHmzZvRrVs3v8r83//+F3feeSfy8/NhtVr9+m5N8zs5ePvtt1f59//+97/nVKCK7Ny5E+3bt/daGV9//TUGDRqEw4cPV/lAktJ++OEHXHrppfjll1/QqVMnn77j3oBrv90PkqMw4DrUBCnMxtMLJ8KIY/uF0zg/IWDEscj8FVZjOfnKiGUmMhCORevNiPtJI5aZ9CMpxh1nzGhlD7exxasVxOVrtHUVjYQlDnn3rGVy8PQprE66KeDkYL+cD2EyW7zGxbRarT4l3gYMGICWLVvizTffBOBqgZiRkYFatWrh888/R0xMTIXfGzt2LLZu3Yqff/7Z7zL//vvv6NixI3bt2oU2bdr49J3Dhw/j008/xaFDh2C3ez9Q8oUXXvC7DL7ye8zB0q33AMDhcOC3335DTk4O+vXrF7SCldauXTsMGjQI48aNwxtvvAGHw4EJEyZg5MiRnsTgkSNH0L9/f7z33nu4+OKLsXfvXixcuBBXXnkl6tSpg19//RWTJk3C5Zdf7nNisDTJokCSDHbAqUS4HDyckhnb6t+ILlkfwSTO7alzVRGqMHTi1JCJzSCQauJJviEmKfonQVXZjF/SRqHz/g+gnOPTHQF4ncjyApjIRZXN+LXlLei0d8E5x5kca2ISvgJGSpq6z7O4jwwuVTbjtw6Z6Pj7/OAcz3QULufagYrmJFtN0Gv7ONcHrqiSGdua34wuBxZC0fHaLGpFaUJQDwkJCQElWDVN8/QSPXPmDDIyMmC1WvHpp59WmhjMz8/H4sWLMWvWrIDKum3bNsiyXO0Tjt1WrVqFa665Bi1atMCuXbvQsWNHHDhwAEIIXHjhhQGVwVd+JweXLVtW7j1N03D33XejZcuWQSlURT744ANMmDAB/fv3hyzLGD58uOeJLoArSbl7924UFrpa91ksFnzzzTd46aWXUFBQgCZNmmD48OH497//HdD8JUWCpBnrwBMUOh5sJQgk2w5BkgUCHVzUt/kYmxRriroLDGFXDXeiFyi9k6CSBCQXHoQkI+CnqFb622WuHaKhtSdRRSRJIKngACRZBOcJj0zClyPHlpyyGnR5GCm5Ga5kCUjK2w9ZRtg8SbUswyXVyjLYuZfRkrA19rTkQJeLJJBceBBQBCCMtWwNweC7h2BSIUMN6BrI9+9MmTIFgwcPRtOmTZGXl4eFCxdi7dq1WLFiBc6cOYMrrrgChYWFWLBggWfsQgBITU31ehjIRx99BKfTiVtuuaXcPH766SeMHj0aq1atQqNGjbB+/Xps3LgRffv2RUJCAtavX49JkybhlltuQXJyss/lnjx5MmbMmIGEhAR8/PHHqFu3LkaNGoVBgwb5XP9ABG3Mwd27d6NPnz44evRoMH4ubLibviYtuCK43YoNdjCrTo0d7PwUcckKg14U+SvaLoYjsnVolK1DopoScce1AEXkcSIS6xQtDH5ezySbzsJs+Rq5R1VNKXtuHoxlJsy1kJu5kt2KT5/Cl8mj4QygW7FJxGJw9ns+LcOxY8di1apVOHr0KBITE9GpUyf885//xMCBA7F27Vr07du3wu/t378fzZs397y+5JJLkJaWhg8++KDcZ92/4/7O1q1bcc8992DXrl2w2WxIS0vDrbfeigcffNDn8QYTEhKwbds2tGzZEsnJyVi3bh06dOiAX375BUOHDsWBAwd8+p1A+N1ysDJ79+6F0+kM1s+FH0UCdGo5aLgD3LkqOUA6JTM21RmFi059oFu34kjrmioQBReFqjDcSeq5kmLP7oqDfcHrlMzY0jgT3Q7P17X7fnUiMgFKVMIpW7Cl+Rh0OzCv5MFO+pGUMhcoUZpQcrdcjqhkqU7HvkhJpDplC34+fyy6/vGu7nHmK6OfrxjyGsRAy9xoSTinZMaWJpno/vd7IT1nDJXS+0qjrTujUSFBDaAFuORHi9Z333230r/16dMHvraR+/HHH33+nQsvvBAbNmzwuYwViYuL84wz2KBBA+zduxcdOnQA4Hqqsp78Tg4++OCDXq+FEDh69CiWL1+OzMzMoBUs3EiyrP8B1EAHu2CQhYaGRb9BFlWc2FvOYZnbtYhbppKiRPyFYFQkQKvgdaERhHWtQKBB/nYosoAUwk72eiZAiUJNAdAwfzsUEyCFuN9QtCXiPclS7lcqpeeQ2TWZnFUkDQ2yt0GRtZB3KzZkUq00A54fGylZY9SksQKBBnnby1+bGbQ+Pis5fui+3iJ9OVJQ9OzZE+vWrUO7du1w5ZVX4qGHHsL27dvxv//9Dz179tR13n4nB8s+oUWWZaSmpuL555+v9knGhqZINTv2wrkkxQxChkAzx1bA4noVnB8ttY4icRlGYMKzrEhr7XlOSp0HB3oBJkNDs4JNJb8VHttOsBOgRKGmQEOzvPCIs2hPxEdbcjTUyrVkDaYy268CgabZP5WcMoboXMHg52BGSrC5GS7RZrTyluLPOaPRE+Re59U1tc4MvG0EW6BjDkbDdeILL7yA/Px8AMCMGTOQn5+Pjz76CK1bt9b1ScVAAMnBNWvW6FGO8GeRQ/OEITlydyJOmLE+aQzSc+bBBB2arkfisovEhGdpUZD8DFSgXQmdkhnr692B9GPvhGcXET7UhCKAUzJjQ8Nx6Pn322EVZ+UuqqMgWehOjkZjYjTSOSUzNjS9Ez0PvRlWcWYEhkuwuRmo3EZPlgFBOGcM9/VVuttwKNZXlI4zWBEmByumqioOHz6MTp06AXB1MX7jjTdqbP5BG3Mw4slS6JNNEXDQKU2GQMvi9ZAVgZDdATacCE+cRHryUy/2yrcLGRpa5q+DLGsIdYsmX3glQXlxTwahQKDlmXUl3ffDeD8WRcl4TzKE+5GIoUBDy5zvXN2KDXA8CxvhnrCpgKESbQZcvpXR7Zwx1Of37vPkUK+rUM+fwp6iKLjiiiuwc+dOJCUl1fj8fUoODho0CNOnT6+2j3NeXh5ef/11xMfH49577w1KAcOGIgMiTA5UEbJjkSHQUNsZFt2wjCNMtkHdRO6Fqq5iylzxa2cvhmUADdUdwe2+H66qSJIS6UmGQEPb74Y7nkXFw00i8cElUUqGQMOi3wwXZ6FiqARbaUa6zgl10ivIavScUe9GN6XOhcNmPZnCpBxhwCnJcAYyIK4U+cuwY8eO2LdvH9LS0mp83j4lB6+//noMHz4ciYmJuPrqq9G9e3c0bNgQMTExyM7Oxo4dO7Bu3Tp88cUXGDJkCGbPnq13ucNbTR7UjHQALcMJM76PvQOXFb2jT7fiSKMKQ69v30T+Dr9GlDrWOlUTvk++E5dlvwkTwuPpjropmyQNhBaByRHSnVOy4PuUO3HZ6TdhEhEUZxGUcOeDS4zPKVnwfYN7cNnR1yMrzoLNqOeK4ZLA8UWoe5PpxAlLaM8Zg5HQdt8Iqsl1xHNHv9lhgiOATqxaFHR8feKJJzB58mTMnDkT3bp1Q1xcnNffa9eurdu8JeHjM5xtNhuWLFmCjz76COvWrUNubq7rByQJ7du3R0ZGBsaOHYt27drpVthQ0DQN2adPIfnrYZCchf59mUnCKmmQcFJugfO0fZDBnWq1Iv2CJtLrFyIaZJw0peE8537IKgfqDym2XIpYGmScNLfAeY59kCO5BXQkXQBFUOIzWmiQcTKmJc4r3hvZcRYoIyXXSjNSos2orTF95DqWpeE8x/7wibHqrnFDdf0QwDmdMNVC9lWfITmlDuQoHX/QnVtZkHI3HHKx3983azG45fSciF6GpeslSWe3fyEEJEmCquP1nM+pV6vViltuuQW33HILACA3NxdFRUWoU6cOzGazbgUMG7J0bgm4GkzeCbMxAkUCkIr9gCJBsHtItaRwOUiTocgQqCv2uVoTlj2pZUK2Zp3LUz25rsKaDKCuVhJnkdwCuvQmbPRkt7ulcSQlPCOcK872RscwGf4wUnKtLCMl2wzYEMNfMkSpY5lB6luT66X0uVgg266RtnedqVCglh0I2QdyAN8xmlA+ADjgdpmJiYlITEwMZlnCmyIhGDvJGk3chfnJghMWrJHuRF8RBd0dz5UmDJP0DYTk4FOK9eKEBatj7kG/4tfLx1npZc7kU3gL1zvnBKAkzhImoF/ef6LneBYp4xW6q2H0ZGcUcEoWrE6+H/2yX2G3YsDYiQYjnfMZqaznyAkLVte6F/0KX4ueY5kv3Me3c90Womhbqo4TCpwBJPqkKEgO9u7dO2TzjvxO20EizFLwHz9ew8k7EWY7JEk40Q3LIElOCCm8yhZuIn3pRHLiM9QkqOimfgzJrEJU1dKiVANwycGLZMOpav9u1KSNgchwonvxEsiKE5G/x65E2W3QaNtdZS17jVaPCCZDQ/eCxSVPUo3y84YwO6f3mdHKbbTyniMZTnR3LI3uY5mbVyvBIC2LMG+4Q+Hj+++/x5tvvol9+/ZhyZIlaNSoEd5//32kpaXh0ksv1W2+TA76SpYAoU9AhyRpFwbnVDIEknEk1MUwhEjvdh3ZtQstGUAK/i555duSFtbKn35MBlTNyB9MBp87V5wdMVZXLL1FSstkX87RjFw/A5EhkCKiPM6MnKwyUNmj9aa1BCAZf0f1kE+ecyI9tlcDxYDenJDhDCAhIYVDEkNnH3/8MW699VaMGjUKW7duhc1mA+Aa1u+pp57CF198odu8mRz0kQhSt+Jqhdn2rmfi0iEsWO2YgH7m/8Assel6VaRIfmCLFn6tWiOJQ1iwCvehP14NPM5KrR+JF8ERp1wyuDQmhn3igAXfKA9ggPoyzOyKVV5JgjpiE9FMINYIByxYGfcgBha8EH1xZuDzJEMl2qK8ZZcDFnwj3Y8B4pXoirFS5zp6bq+83jlLC3DMQSUKuhU/8cQTeOONNzB69GgsWrTI836vXr3wxBNP6DpvJgd9JQM1mZ8x4s5DmPzbmSpCRbqyAIqkQkgGOnGoYZJTM+T24KuITnyGAZNwoBfmwwRHUO5viNInzhF6nU+lVLPvYbLYxQQnLhXzYJLZFasqnkR0NCadfXx2X8QmUIPABCcutf0Xpijq8mioxFpZBku0RfK5tq8U4UQvzIcSBUM+eZ2/1NS2arCYoNDYvXs3Lr/88nLvJyYmIicnR9d5+50czMzMxNixYysscCRzXRCHJqD9TboZhSQJJEgng/qbIhIXVYSu/7N4IaS3eJwCoEP39FI375gkik6ishPdKAxr3eIsEpVchHO/UV6VLXndojG5WiIBp+C6rRjhcWbwJIKhEm2RfprtBwkCCQjutVnYKTk/CcU2aqi40FmxMMMu/D9Z1ISPd9oMrH79+tizZw+aN2/u9f66devQokULXeftd3IwNzcXAwYMQLNmzXDbbbchMzMTjRo10qNsYUWYZEAL/dEjkpJfDmHBNwWTMCDuxZB2K46kZWpIEZ/8DC2HsGBl0SQMjNU3zkSZo4nkjMLsEJ1VRX4jEhNCDmHBCm0yMuTnOEyGHzzJZe4u/OPHBWYkxZsDFnwl/wODtNmG7vIY0QkCA53SRfR6CJBDWPC14yFcYX4+oo5l3q0EQ1cOI8WH3gJ9WrEcBd2Kx40bhwceeAD//e9/IUkS/v77b6xfvx6TJ0/GY489puu8JSGE32cNJ06cwPvvv4/58+djx44dGDBgAMaOHYuhQ4fCbI6sbK6macg+fQrx20dC0opCXRyPSEhoCQHYRAKsUh6M1HK9pk8mIunEviyJF4S6EwIoFgmICWGccT2Tr4yaVBYCKEYCYmCs41m4ieTjXcQJQaiGNM4i4LxbT0ZLtEVqr6xzFQ7njMESjucTQo7FmW6LkZxSB7IcndugO7cyK3ka7LLN7+9bNCumZM+I6GUohMBTTz2FWbNmobCwEABgtVoxefJkzJw5U9d5B5QcLG3r1q2YO3cu3nnnHcTHx+OWW27BPffcg9atWwerjCHl3oDjfg+v5KCb0Q7GpQkBqLBAgd3wB6CqnEsiN9KTKrwQ1F+4xVmkb9Okn3DedoQAnLDAFCZxZnTheFFHNaeycwN/48zI58hGYqREWyQ0rtBTpBzLwvV8QcixyOu8KKITW9VhctB3drsde/bsQX5+Ptq3b4/4+Hjd53lODyQ5evQoVq5ciZUrV0JRFFx55ZXYvn072rdvj2effRaTJk0KVjlDTigSwnkvacSDnVOzYHX2RPRLfgkmOXKargeDZgJkpzHXq3/CN6YihVNYsCpnIvonvQRTGHQRERynkAIUjP2hXhcM4TJMRqQQFtfKDtcLPNJX2WEq3GpqmAzyjdHOUY1W3lBwCgu+yZuEAQkvhsU5Y6ThNniWChOcQvX7e0oUPU/XYrEgISEBCQkJNZIYBAJoOehwOPDpp59i7ty5+Prrr9GpUyfccccduPnmm1G7dm0AwLJly3D77bcjOztbl0LXJHd2O/aPm8Ky5aCbZsA4EQJQhQWKZOy7UxQY2RnqEkQHo8QZkwAUKsFIUodbC91Iwn0DuUVKqyajM1qCgy1IfReJx7JwuhEt5FgUdGDLwezTpzA9+SnYJP9bDlqFFdOz/xXRy9DpdGLGjBl45ZVXkJ+fDwCIj4/Hfffdh2nTpuk6jJ/fKaUGDRpA0zTcdNNN+Omnn9ClS5dyn+nbty+SkpKCULzwoSmAFKLtLwyeg6ILIQC7ZoFVjpwDEPnBgAltIzJinDFxTDWpoicu+5uQEgJwCCtkycEG0UHG1sbkJgTgFFYokp1xFiJGSrQZLYkZDoQAHJoFshw5MVb6GB/qm00VnW8QlXXffffhf//7H5599lmkp6cDANavX4/p06fj1KlTmDNnjm7z9vvy/MUXX8T111+PmJiYSj+TlJSE/fv3n1PBwo0mA9I5nJPyAFWeU7Pgx+P34LIG7FYcjdgYpGY4NQvWnbwHl9czTpxplrPTMjcUChNVJa2dmgXf5tzDYTJ0Fk4XeVTznMKCtTn3hM0wGdHEaNcxRuxRFQ6cmgXfnb4HfVIj/1gWihvRRosjPRULM2zwP7kiRGQ9/LYiCxcuxKJFizB48GDPe506dUKTJk1w0003hVdy8NZbb9WjHGFPNZ1bcpDKk2U7ejd5FgATRdFG1niArCmKbEffRq44M+IuTC3ZTpgIoFArnbR2cyevZdgxoB6PZ+GGrZAjiwI7rqhj3OOZERktyRapva1qiizb0a9BdBzLQnEjWrDhoIcqTHAGsJWZKhuUtgJz5szBnDlzcODAAQBAhw4dMHXqVAwePBinT5/GtGnT8PXXX+PQoUNITU3FsGHDMHPmTCQmJgIAfvnlFzz99NNYt24dTp48iebNm+Ouu+7CAw88UOV8T58+jfvuuw+fffYZZFnG8OHD8fLLL/s8bqDVakXz5s3LvZ+WlgaLpYKT0SAy2C4/dIQMnokEmRASCh0pqGU+DYmZ16gS6Scc4UQICYXOFNQyGTzOSp3wszUhhQt38rp0nMn+DeVMOqoooVsR7lOMQQgJBWoK4hSDH88MwIhJNt50PncRc87oJ7XUtqPnzWgmB2tW48aN8fTTT6N169YQQmD+/PkYOnQofv75Zwgh8Pfff+O5555D+/btcfDgQdx11134+++/sXTpUgDAli1bULduXSxYsABNmjTBjz/+iPHjx0NRFEyYMKHS+Y4aNcrz4F6Hw4HbbrsN48ePx8KFC30q94QJEzBz5kzMnTsXVqsVAGCz2fDkk09WOd9g8PuBJNHGPWimODYSEOH7QBIjcmoWbD5wD7o3fz3im67TWYqTR8aa5NQs2Hj4bvRoPCci44wtCikcODULNvx9N3o2rDzOmIAyNu5rQs+pWfDD8bvRq25kHs/CQSQm2IyY6AwVX45l0STYx20hxcLZ7MOIfphGddy5lUm1X0FxAMNDxAgLXjxzf8DLMCUlBbNnz8bYsWPL/W3JkiW45ZZbUFBQAJOp4jZ09957L3bu3InVq1dX+PedO3eiffv22LRpE7p37w4A+Oqrr3DllVfi8OHDaNiwYbVlvPbaa7Fq1SpYrVZ07twZgKsVo91uR//+/b0++7///a/a3/MHWw76SIvSloMV7RSDdZCVZTsubvWS6zeD85NkBKYoDKQQkmBDzxYvAQDU0BZFV0w6Uygpsh29mr4MoPJTBbXMsZPJJoPx4dyHCWB9KbIdlzesOs4oMEygGYteSVxfjmXRJNgtCtly8CwVJqgBZADUANNXqqpiyZIlKCgo8Dzko6zc3FzUrl270sSg+zMpKSmV/n39+vVISkryJAYBYMCAAZBlGRs3bsS1115bbVmTkpIwfPhwr/eaNGlS7feCgclBH0VLcrDsia2eJwtCSMgvboD4mKNBbbrOExyis/SKs3CjWc7WjRfoVNOEkJBna4AE67nHGRPdxlU2AVwRJoUDJ4SEM/YGqG2J7ONZTYrEloIUOCEk5NkbIKGKGFN5kx9AYMdqJgeDJy8vD5J0doFarVZPF9zStm/fjvT0dBQXFyM+Ph7Lli1D+/bty33u5MmTmDlzJsaPH1/pPH/88Ud89NFHWL58eaWfycrKQt26db3eM5lMSElJQVZWli9Vw9y5c336nB6YHPSRJomIfiKJrLmCqyYTa6pmxu6sYeic9g6UEDdd1+TIXbfhRpPPbm+kv3CKs5pS0X6MCUPSk6qZsfvYMHRpdu5xVjrRDXDbjUZMEFfMqZmx49RQdG/4Lrs8+oHJHPKVUzNjx4mh6Nr0nRqLMaM26gjoprQkwL27i1PIcEIJ6HuAazzB/Px8z/vTpk3D9OnTy32+TZs22LZtG3Jzc7F06VJkZmbi22+/9UoQnjlzBkOGDEH79u0r/A0A+O233zB06FBMmzYNV1xxhd/lNgomB31k1B1XVUrvyEKRHJNkG7q0fs01/xqf+7mJxO2hJrm3N1706s/IcRZMvsYsE9cUCEm2o2vL1wEEP84q23a5/4xcZRPElYm2bUCCDRc1d8VZJA+TAfA8k0JDlu3o1kKfY5m/jBQDpcta5X5ZQgDpsMhkE1YU+zJeRxmSMAMADh8+XK7lYEUsFgtatWoFAOjWrRs2bdqEl19+GW+++SYAVwvEQYMGISEhAcuWLYPZbC73Gzt27ED//v0xfvx4/Pvf/66yfPXr18fx48e93nM6nTh9+jTq16/vUx1PnTqFqVOnYs2aNTh+/Dg0zXujOn36tE+/EwgmB33kSmYY/85b6QvfUO90hZBwpqA5ascdiPjuIWyZWLHKL3qZoAmWaIqzYKgqVqPtQpx8F4o44/6TfDmPi6T9lhAScgubI7FWeB7PQn1eTXSuwj3GgPC/pvJOFJY5HjM56KEKJbAxB4VrCSYkJAT0QBJN02Cz2QC4WgxmZGTAarXi008/RUxMTLnP//777+jXrx8yMzPx5JNPVvv76enpyMnJwZYtW9CtWzcAwOrVq6FpGnr06OFTGW+99Vbs2bMHY8eORb169bySoHpjctBHTgNHsqnU7dVw2qGqqgmHs/rh/JbzociOUBcn7Bh5mztnSuXbqSnSmwsEGeMseKq78GNSJnqpqgmHjvdD27T3Qh5nTHBTab4lEI2x71I1Ew6c7IcOzYIXZ+F0XkwUaqpmwsHjfdE+DI5l/grH5Hzp/Yvr+Mv9TU2aMmUKBg8ejKZNmyIvLw8LFy7E2rVrsWLFCpw5cwZXXHEFCgsLsWDBApw5cwZnzpwBAKSmpkJRFPz222/o168fMjIy8OCDD3rGDFQUBampqQCAn376CaNHj8aqVavQqFEjtGvXDoMGDcK4cePwxhtvwOFwYMKECRg5cqRPTyoGgO+//x7r1q3zPKm4JjE56COjtRwsfaIXtkkmxYHW7d6BAOAMdVkiRDSc5NrZWsY/jLOaU0VSG2BiO5JJsh3tzn8HQOi7YlWFrQ2pIv6eO4QqySzJdnRs+Q40mcczIj1IsgMdWr8LILyPZb4Kp+si1/FXoOLOr9HHKRQ4A9jKnML3xMbx48cxevRoHD16FImJiejUqRNWrFiBgQMHYu3atdi4cSMAeLodu+3fvx/NmzfH0qVLceLECSxYsAALFizw/L1Zs2Y4cOAAAKCwsBC7d++Gw3E2mf7BBx9gwoQJ6N+/P2RZxvDhw/HKK6/4XO62bduiqKjI588HkySECJ+oCUOapiH79Cmctl0PgdCsJF8ZrUWAEDLO5JyP2kl/QOLj+0IiHO+y6cFosRFMjDNjYHLG2ISQcSb3fNROjLw4Y1KbwoUQMnLOnI+k2pEXZ0ThIFpiLHQNZ2KRGLcYySl1AuoSGwncuZWbYj9CkeR/69RYYcaHRTdG9DLctGkTHnnkEUydOhUdO3YsNw5i7dq1dZs3Ww76SJMERJi2HJRFzT9pOBg0VcGp4xcjLmkv5GjO3oQ5LUzHHPGHVslJgDt2IhnjzBiqu7vNVRfeNFXGiRMXIS5xD2Q5srJpbK1N4UJTFRw7eTHiEvdCVrhTJAq2aI8x/VsaGv+aivSXlJSEM2fOoF+/fl7vCyEgSRJUVb/zTCYHfaTK4RXOpffXhk3emOxo2n4+gMhouh7pVIMln32hVhHVEXNOxDiLCJUluIHoSHKHPdmB5u3eAxA9ccaENtU42Y4WbXk8I9INY6xCwWqAw7O1s5xChjOAx7M4RQRekJYxatQomM1mLFy4kA8kCVdOJfQtB03q2Q0jEhI1QpNx5mQn1D7vV0i8ighrzmrGUotEVXU5KB2L4Y5xFvmqSnIDEZToDmNCk5F7qhMS6zDO3KpKaJfFBDf5Qmgyck5dgKQ62xlnRDpgjPkukMY5Ulg1NQotTSjVnr9W9r1I99tvv+Hnn39GmzZtanzeTA76SJWAUJy7lr6oi7QEjQYZedltEVv3N8hKZHXDijSRkIwOJrWSFjPhmIRhnFGkJLrDmSYUnMlui7jzfmf3/QD4coEQjvtXqlkaZJzJbouEOr9Dlng8Iwo2xphvAr0u4hkX+aJ79+7466+/QpIc5ANJquEeNPOANBxCqpkHkoTRg5XOybmeyDMhFR44rFRwREpcU3RhQoaMhMluIiLS07k01pEQi0bSxxH9MI3quHMrV5uXo1Dy/7nztYQJnzmGRPQyXLJkCaZPn45//OMfuOCCC8o9kKRTp066zZstB32kyvq3HHRfhBk1GVM2+VFdck9oCvKPdkd8g82QdBjA3ajLMZwwQRs8lW3heidfhKYg/+/uiG+oT5xRZKuuayiT3i56H8/IN5W16i6NCW/jEpqCM1ndUbs+44xID4yxygXjmsiojwnQgxpgt2I1CroV33jjjQCA22+/3fOeJEl8IEk4EVINJJsMmIjxfjCKf9/VIKE4rxFiG2yBHAaJPCbCymOCVX8VJV+CmXARQoItrxFipS2QuI1TkFV1ehJNSZhwO55R5ZjwNi5NuOKsVoMtiNAGI0QhxRgrL5jXQhIQXk84pbC0f//+kM3bMN2Kn3zySSxfvhzbtm2DxWJBTk5Otd8RQmDatGl4++23kZOTg169emHOnDlo3bq1z/N1N33daR0OTcduxWYD3ZzhibNLpCfOHJF/Y8YQjLRvIPIHjyVkVNGU+CYiikZ6NBqRRCxaquxWnH36FAYpKwPuVvyVOjCql6GeDNNy0G634/rrr0d6ejreffddn77z7LPP4pVXXsH8+fORlpaGxx57DBkZGdixYwdiYmL8mr+qY8tBRYR/IqZ0giJYy0FoCgoO9kJcsx8iuul6uK/binDYpvChltpLBzLMidAUFB/ohZjmkR1nFPnCOVEeLcczcvHlScxMfgef0BTkH+qF+KaMMyI9MMb0bfzBVNZZqpChwv+LZFVEx1J8//338cYbb2D//v1Yv349mjVrhpdeeglpaWkYOnSobvM1THJwxowZAIB58+b59HkhBF566SX8+9//9izA9957D/Xq1cMnn3yCkSNH+jV/rSa6FYchdzJCjwSXgASnIwEOWYJkwASaP4yUbIvG7dwoSq8bXy88BSSotgSokCBx3ZKBqX6csZzDeOEBiabjGQVHOCe7w5X7eKbxeBZ0wTzP57ZtXNEcYzXRmEMWAPxvLEdRZs6cOZg6dSomTpyIJ5980jPGYFJSEl566SUmBwOxf/9+ZGVlYcCAAZ73EhMT0aNHD6xfv77S5KDNZoPNZvO8dve6dmpmCFMxhOrac0iKCqGaAElAkstMO82ArEKStQqmnZBkAeG0ALIDJkmDqloAxQFJKnlfsbtmrnpPSyY7hJAA1eya1iRAKz1tgmRyQGgyIBRIStlpBRASJMXpPV2mTjLO1snpqZ8ZkErqUXq6gjp5pqurE2TEtF8OVUhn66dTnSpcT3rUqZL1pBmoTiqkc9v2NKWC6XOokx/xdK7ryVB1ks7WSRGi8jpBhrXDcmia+/3w3fZCud9jnSKrTpqPdZIcQaqTJLmOZ5rs+gzXE+tUTZ2cqL5OitNYddJ9PSlAbIflcGgKIEyRUacgrCenFl51ckq+1ckkRdd6MkSdIBDT9is4I6lO1awnTSmpk9C/ThpbYHhomhJQgxQtCh5I8uqrr+Ltt9/GsGHD8PTTT3ve7969OyZPnqzrvCO2XWZWVhYAoF69el7v16tXz/O3isyaNQuJiYmef40bNwYAOP7oD00CHHv6wrGnLzQJsO/KgGP/Ja7p366B469u0CTA9stwOI92ck1vuRnOE+e7pjfeBjU7DZoEFP9wJ9S8hlAlCQXfPQBn4Xmu6TUPQ7XXhqpZXdOaFaq9tmtakuAsPA8F3z0AVZLgyGuEgh/vck1nt0DhT7e7pk+0QeGWUVAlCfajnVH0ywiokgTbX91R9PtQ1/T+XijePQiqJKF4bz8U7+0HALDtykDxgV7QJKDw92tgO9zdNf3rCNhL6lSwdRQcJ9u4pjfdDkdJnfLX3wVnXkNoEpD3/QNwFtZxTa99GKo9AZpmQd7ah6FpFqj2BOStfRhFfwyAM68u8r5/AJoEOPMaIn/9Xa5lnZ2Ggk23u6ZPtkHB1lGuZX20Ewp/HeFapoe7o/D3a1zL9EAvFO3OcE3v7Yviva71VLS7ZuukSYCzsI6nTrb84K4nVZJQvHsQbPt7QZUkFP0+FLa/urumfxkB+9HOUCUJhVtGwXGijWv6p9vhyG7h2sZ+vAuOvEYVbnsOR21omgXFq/8BTbNAsye4piVALayD4m/vd03nNUTxD3e6prPTYNt4m6veJ86HbcvNrumjnWD7Zbhr/f3VDfbfXOvJsf8S2Hdl6BJPmgQUf3s/1JL1VLz6H9BK1lMk18nhqHofUfTHQNhPtQrrbS9U+z3WKbrrlLfWtd9zCKtrWljhcNSucF9e5fFpyy0o+mMAbH93MdTxKRKPuZFUp5x1D8AhA7b8hsjdcBccMlCck4Yzm293TZ9qg7yfR0GVgOKsTsj7dQRUCSg63B35O66BKgGFB3qh4I8M1/S+vijc1xeqBBT8kYHCA72gSkD+jmtQdLg7VAnI+3UEirM6uaZ/HgXbyTZQJeDM5tthz0mDKgG5G+6CPa8hVAmuMhbWcU1/+zCc9gSomgU53z4MVbPAaU9wTUuAo6ROqgTY81x1UiXAXlInVQJsJ6uo0+9DUfDnABTuvzRi6pS34xo4ZKDgYC/k/5Hhmt7XFwX7+sIhA/l/ZKDgYC84ZCBvxzUoPNLdNb19BIqyOrk+b9B4qqxO4bieIjKeKqhTwZ7+OLNlDJyaEjF1qmw9ube9Gj0+5TfQKfNhPE5hhkPz/59TmENddN3t378fXbt2Lfe+1WpFQUGBrvMO6QNJHnnkETzzzDNVfmbnzp1o27at5/W8efMwceLEah9I8uOPP6JXr174+++/0aDB2UC84YYbIEkSPvroowq/V1HLQafDjvW1boJmyit/9wGi/LSPrYIssIdVSyel3J0hfVtvCXssnAd6wdRyLSTIxmy9Vc16Embj1MmmWgFTST2cFq9pyVxSJ6fZNe1vnVQFQOl6VFKnc4gnT50cFsBUsp4clqitk1WxQWgShCMG2v5ekFuuhSRJYbntRXQLT9Yp4uqkKOXrJJwWOPdfClOLbyFJMFydInE9sU6uesiqHDEtnYTTBMf+y2Bu8R0kWQtZnVRJ4rYXgjqZJM1QLdLCPZ4qqpNmt8C+rzesrVcDkCKiTmXXkyojZPEkqbVwYfGSqH6YhvuBJJdrG1AA/8cgiIOC7+SeEb0M27dvj1mzZmHo0KFISEjAL7/8ghYtWuDVV1/F3LlzsXXrVt3mHdLk4IkTJ3Dq1KkqP9OiRQtYLBbPa1+Tg/v27UPLli3x888/o0uXLp73e/fujS5duuDll1/2qYzuDfjH2jdADfLTiuUwelC0RQufskQSuyyFugg+06JtcJEoEk77GqJIxmMpGVE0PTxF46lOxImm7ZcCFw6xL4tYdCtYGtGJreowOVi5xx9/HJMnT8bChQsxffp0PP/88xg7dizeeecd7N27F7NmzcI777zj97Mz/BHSMQdTU1ORmpqqy2+npaWhfv36WLVqlSc5eObMGWzcuBF3332337+nSpLrTmGQKEKETTJGFiIkSSyhmoAdVwDtv4akRN7orOGyfn0RzG2bwoxqgvh9ILQOK6HIjlCXhigyqSbg94Eo7rASqOB4xgQ9RaqaTIjbhDmizxspuHizxn9CNcG5MwOmdisiJsbCqaGGIsKnLKGmaQq0QL4HJWIHxpsxYwbuuusu3HHHHYiNjcW///1vFBYW4uabb0bDhg3x8ssv65oYBAz0QJJDhw7h9OnTOHToEFRVxbZt2wAArVq1Qnx8PACgbdu2mDVrFq699lpIkoSJEyfiiSeeQOvWrZGWlobHHnsMDRs2xLBhw/yevwrJ9aCGIFAgmIwBAAlATB4gASLCloeR1m+wtmsKYzF5UAGo0tmjqQKeNBMFjQTIsfmulgkV7P+rOiYoTBySgRUrNXgOoSJizxsp+KraNnnDpmJCAIjNg10GpDBKqgUiHBtpSLzm8hBCggggyycieBmW7tA7atQojBo1CoWFhcjPz0fdunVrpAyGSQ5OnToV8+fP97x2D9K4Zs0a9OnTBwCwe/du5Obmej7z8MMPo6CgAOPHj0dOTg4uvfRSfPXVV4iJifF7/pokBW8nE0bHo5AmKk0a0OaHkhfeZSh9sWSkRJubURJu4XjgpCAzadDa/Fjy4uz61kpN8ySZ6BwpGtTzKz6eVafKxGE4nTAQhVoV541E/qhsvxv1N2tMGnD+OgDGTcKE93VjOJeNwoFUZvutVasWatWqVXPzD+WYg0bg7he/MmlUUMYcDKwBrX5CmhRQTTBtGwJnl+XlumGVviAySqLNzUgJNzVS22XTWaoJMdsGo7jLlxV2d6xKuO2viMKWaoJl25Wwd/nC7zgLBBP6FJWqOG8k0lPU3KhRTZC3XQWty+eGizEjXC8qIhZ9chdF5Hh5vnLnVtJtW1EQwHVGHGSst14YkctQlmUkJiaWSxCWdfr0ad3KYJiWg6HmlBQ4JeXcfyiMji0KtNAmsiRAS/m7wm5YmgF28BUxUrLNEYztmcKfJENOzoJDkgE/17kDvn/eLPwfVJgockhwJh8tuTjR/zigVnKIZEKfIloV541EeqrsuiQib9Qk/13ymAhjxJiRGmWwW/FZQjNDBHDOEkhXZCOZMWMGEhMTQzZ/Jgd9pOLcH0iiCBFeCZlQH88UAbWF+1HckRHoYbV+qxDeTe4pqEwaClv9XPJCv/WuSv4dTqK+6w5FFhPgaLmt5EXojgNVJfSZwCfDi8DzRjK2iLtRY9Kgtdxc8iK8rxWM1CDjLCOWmWrSyJEja2x8wYowOegjFfI57YQUaGGVkAmLRKXThPjNVyO/+2eAyVhN1ysSTuu3OsY8oFJAnCYkbRqCnIuWh1WcVXZCXRnDnmhTdHCaUHvT1ThzUfgez6pL4DNhT2Evws4bKXJVdqMm7G/SOM2I2XINirt9CpgcoS5NpUJ+DRsgEcKbh+FGaHJA7ZQiueVgdd2JawKTgz461+Rg2JHC4EJbEShu+CdURRi+e4iRtg0jlZWCQAaKGu6FKpe8MCh/t1smE6lGyUBxwz2GjjMm7CnsRdB5I0Wnym7ShM3NGQWQGuyBQ4HfQ9HozUiNMCojCePXIWg0BYG1TvX9HGvOnDmYM2cODhw4AADo0KEDpk6disGDBwMA3nrrLSxcuBBbt25FXl4esrOzkZSUVO53li9fjscffxy//vorYmJi0Lt3b3zyySeVznfMmDFeD9IFgIyMDHz11VdVljccHgXC5KCPnJIc8JiDJqGGVUJGgRYe5ZGBwmY7z74wsLBYnj4IyriZZCwKcKb5brgOwNGz/p1+1NUU7nfyKfzJQH6EHM98FchxjwlFOicRdN5IVFpVN2dqdL+pCBQ1/73kRWgTWUa5tvKHFIF1CmeNGzfG008/jdatW0MIgfnz52Po0KH4+eef0aFDBxQWFmLQoEEYNGgQpkyZUuFvfPzxxxg3bhyeeuop9OvXD06nE7/99lu18x40aBDmzp3reW21Wqv9jqaF/hyJyUEf2WGCI9DFFW43CUKflAYASE4T6qwfhlPpn0AYuHuIkRJuNoZ81JGcJjT68UocueQLQ8eZnmw+jpdoBZcfVUxymlD3x6tx/JLPGGdV8Cdp78bkPblFynkjkT8qS5LpkjR0mpC8/lpkpy/Tvet+JCb/qsPkYCki0GXh+/euvvpqr9dPPvkk5syZgw0bNqBDhw6YOHEiAGDt2rUVft/pdOKBBx7A7NmzMXbsWM/77du3r3beVqsV9evX97ms4YKZAh+pUKAGcFKrQA27hIz7QjjkF7qKhNyWv8ChSGHXdN1X4bZuqxLI9ksRQAZOt/wdThmIppaDeij0cfkpYDIj6sgSTrf8DcWyBJ5aBZevyfuyQn6OQ8EXAeeNRMFS2c2Wc7qhIgP5Lbed0xAZRmo0UeMkJgc9zrFbcV5entcYfVartcrWeaqqYsmSJSgoKEB6erpPc9q6dSuOHDkCWZbRtWtXZGVloUuXLpg9ezY6duxY5XfXrl2LunXrIjk5Gf369cMTTzyBOnXq+DTfUOIZrI+cUAK64x3Oyl7o1vgFrQzYGh1yTRjwToqRkm2Rtu2SH2Qgu9FfMGKMGZWv8WZiEjFyyECu53hG4YDJ/Ahk8PNGopoQ6A0VAIACFDQ6DMActPLQWRpTL2epJiCQMfZKEoKNGzdGfn6+5+1p06Zh+vTp5T6+fft2pKeno7i4GPHx8Vi2bJlPLf8AYN++fQCA6dOn44UXXkDz5s3x/PPPo0+fPvjjjz+QkpJS4fcGDRqE6667Dmlpadi7dy/+9a9/YfDgwVi/fj0UJbyvybmF+sgJGU4/T0RM0AyVlCld1pq4aJWcJjT/7mocuNxY3bCMtE7d/N12KXLIThNafzcYf17+JTQDxVk08DUuTRynLezJThNafDcE+y5fzjgzGF+O6UzkhwejnjcSGQVjTF+yAa8hw9Xhw4fLtRysSJs2bbBt2zbk5uZi6dKlyMzMxLfffutTgtA9BuCjjz6K4cOHAwDmzp2Lxo0bY8mSJbjzzjsr/N7IkSM90xdccAE6deqEli1bYu3atejfv7/PdQwFJgd9pPnZrViBauiETNmy63JxKgNHO26GI4y7Oxp5HboZqYUjBZ8qA4c7/hzWcUZV8zWG2QIqhGSBIx03wy4LsEVT5KnuXIAJ/BpigPNGIkNjjOlK4jL1kDQFUgAtB90JwYSEBMhy9edbFosFrVq1AgB069YNmzZtwssvv4w333yz2u82aNAAgPcYg1arFS1atMChQ4d8LnOLFi1w3nnnYc+ePUwORopiYYZd+H7yFyPZdSxNzSt7cRqUi1AZyKmbBdd4A6F+IlZk7qyLhSXURaBQk4Di1FMAzGHzMCIKrUg7PoUFGcipexxMDEYnf28eU4DC6LyRKCIxxnTFB5KcJYkAk4PnuF1qmgabzebTZ7t16war1Yrdu3fj0ksvBQA4HA4cOHAAzZo183mehw8fxqlTpzzJxnDG5KCP/B1zMJqSMoFeaMoOEzqsvgq/9/scmrnmmq5Hy7oxYvdnCj7FacJFqwdgU79voLKLCAHIF7HVfobdKP2jOE3ouvoK/Nzva8YZ6Sqak/uhOm8kihaMMX0pvDarUVOmTMHgwYPRtGlT5OXlYeHChVi7di1WrFgBAMjKykJWVhb27NkDwDU+YUJCApo2bYqUlBTUrl0bd911F6ZNm4YmTZqgWbNmmD17NgDg+uuv98ynbdu2mDVrFq699lrk5+djxowZGD58OOrXr4+9e/fi4YcfRqtWrZCRkVHzC8FPTA76yN/kYE2P3xdKZS80fa6vLGFX9w0olJVzeJx51aI5QRbNdaezVBn4tftm2GVAcJsgH/m7/4j041x1nDKwo/sm2NgVi3TmS3K/KoaO1Ro4bww3/uyLDb1uKTxEYYzVJE3wQS8emnxODyTxxfHjxzF69GgcPXoUiYmJ6NSpE1asWIGBAwcCAN544w3MmDHD8/nLL78cgGtcwTFjxgAAZs+eDZPJhFtvvRVFRUXo0aMHVq9ejeTkZM/3du/ejdzcXACAoij49ddfMX/+fOTk5KBhw4a44oorMHPmzCqfphwuJCECWSvRQ9M0ZJ8+hSeSZ8Im+dYEtSomiXdhKnMuJzVMhHlzCub9iSg88ThIZFxMQPmO56bV4/ZE0cSiWfGP7CeQnFLHp/HyIpE7t3LJ3ydREEAaKk6S8GPD86J6GeqJGQQf+dtysNLfEd6/Ec0HRcVhQp9v+mLtgDVQzU44uTkGBU9GqTSTQ0G/b/pg9YC1cJqjd39D4aPscbA6RjhOlj2eEUWqUJ6rMc4ij57bE29E+U9xmHDpyoFYN3AlY0wHfFoxhTtmY3xULMyw6Tyaf7SNI+M0Cfxw6UbYTALshhU80TKmIvlIAdb02oJ8RQH8TMoQGU2ojqM8nhHpj3FG/qjsRpQRbjiFilMBNly6HjYFAHsh+a26BhoC4d+ttKZIqgxJ317FFABGvY9UYYITvj+tOBD5ZXbC0XDHqzjeAcDCp6gGAbsSU2Wy4+0ATIwzinhlj6PVCeZxlsczIv0xzkgv0dZIo0ISkJtQBCbfvQWr4YXgmIMeitMMJYD9uMLkoK6YTfCRUwSnW7G/83QzSZF3l8vkUDD860vw8RU/srujn/ztlkfRy+RQcOPKHvho4EbGGVEZ/uxLqzoO83hGpD/GGempsptL0dBYw83kUDB0xeX4v4zvoibGarJxhYkNOSjMcQv1kQoTVJ1bDlY5/zI7EwXGP1A5FeB/fTejWAG7O1ZBZZjSOVBNwNK+P8NmksBdPlHgyh6HS7MprjgrVEyerliRcJwmCic8b6RQqLR7cgQ23HAqwKf9NqJYkQzfrTgcG1KEY5lCRdLYrTgcGTvqa5BTyGH1oIeyZTHqAcpmYvLLjQcM0oUAihRuX0S6qiDOfDlnMOqxmyhUeN5I4aKyG0aGvjFkkHNGo+4DjFpuPchCgRxAuys+oFhf3EJ9ZBNWFCOMt8ZSmfcYyRa6cvjB7JBx0zdd8f6An+Ewh65VZigUCw5ISzXD7JRx+zft8faAHXCYoivOiGpKwHFWxV1zoxzLiWpKNJ83knFUdWMo3G8ImZ0yblzZHR8O3BySGAv3pOS5coowziUQAZCEEBzStwqapiH79CmMiXsPRZIj1MUJiBKuByIBmFUZDkUDIriJsBrhBzoKc1ESZ0QhFYI4C9tjO5FeeDwj8ptfN5qEK0HoMAU/xtgwAogVZrybfxuSU+pAjtImcO7cSr8/7CgIIP8cJwOrz7dE9TLUE1sO+sj1QBJj3qUM2webCCDGYUKxbODm92VE+h0vMqCSOCuKoDgjCjshiLNAjjdhdQ5A5K8IPG8k0luBqOX7hwUQ5zChQHYyAa8DNhg5S1ID61YcyDiF5DsmB32kChPUqvr/GES5B5uE8AlcFqeM279thdf67YHdYN0dqxqYniicWJwSxn2Xhlf67ofdZPx9GFE4MkqcBXLsCuV5AlFpRj5vJDICxpi+2IjkLMWpQNH8z0ArcvieY0UCdiuuhrvp6/UxS1AUBSfIbFVQHnfkRERE/uH5BBER0VmxwowPi26M6i6x7tzKFduBwgCSg7Vkga8vQFQvQz2x+ZOPNKFERMvB6pRu7qz3eEaSAOoUmHEqzgERJk3X2dybIo0rzkw4FecMmzgjijSMs/ICPZ5yLEWqTDieNxJFEsaYvvhAkrNkVYEcQHJQFgIAzxP0wuSgj+yaFXaJiSNfWeTqB7+1OCXcuqk+Xrn0aEi6Ydk1DoxL+gmXRLPVCWRuTsbs9GzYKtjj80Kc6NxZnRIyN6fghUtOh3W34kjlyzkHGV+ozxuJIh1jTF9amFwbhANZkwNLDoLJQT2xW3E13E1frzR9hcIo6FZMFO144K6azGQiEUUI3hwhIqKaUkuY8JljSFR3ifXkVraaA+5W/MWFjqhehnpiy0EfaUKBFgXdimuSLIBGZxQcqa0igH0DUdi0zgtnsgAa58k4nKAFJc78Wea88KZoweOZMel5M4g3UoJP1oBGeSYcSXBC4zUhUdAxxvTF65azZE2GrAbacpD0wuSgj1QhQwUDOpgUJ3Dzjlp4rnshVG6JUUPTGEc1yewERu2IwXMXFsNZw3Gm+bnPlGVeTJMx8XhGZdXERWC03YAxqcDI3+Px4kV5cDIJTxR0jDF9sXfSWZImQwrgbqokMTmoJ3Yrroa76Wt/rEVhlJ2EEbk5NHOoi0BUjll2hLoIREQRiTdriIiCq5ZQsFLrH9VdYt25lat/ikVhAC0HaykCn11cFNXLUE+8v+0jpzDDwScMBZUsgPNzJPyRJNgNK0wI3tGKOLIAzs8F/khExMWZXfV/e5V4k4d0wOMZRZwwvCkoC6DdGRV7koIzTAYReZMF0CpHZozphC0HzzI5FJgCSA6aNLZr0xOTgz4SQmEP9yBTVGDoAeCFC4AArvHpHLBrb/QwqQLDDgg810GCU+GZHnQeHoKtbaITj2dE+lNU4Kp9Cl64ALBHYZzx5hbpzVISYy92UuGIwhjTmxMKwFNxAICsSYE9rZjLT1fsVlwNd9PXS52bUMDHZpMBCbZ4JQp7kqSFughEREQevNlFFFxxUPCd3DOqu8S6cyvDv08IuFvxx5flRfUy1BNbDvpICAkC3ACDSdYEOucI/JIkQeNtgKDQ+GgxKoNxZhSBx64sM7EYaowzIv0xzmqWqtbsOSVvkoWerAl0ygZ+TQZjLIjcDTVUyOdyuhdRJDWwpxVL7MupKyYHfaQ6rdBkW6iLEVFMqkDfo05sT1DgZBtrv4gwHAuIwpOiCvQ/VozfEmKgMs4iknoO11MSH+oSFDyeEemPcRbpajZrwhtr5SmaQL+jKn5PVKBK0Rljeja00JgZ9JBUCVJAyUHfzZkzB3PmzMGBAwcAAB06dMDUqVMxePBgAMBbb72FhQsXYuvWrcjLy0N2djaSkpK8fuPJJ5/E8uXLsW3bNlgsFuTk5FQ7XyEEpk2bhrfffhs5OTno1asX5syZg9atW/tR+tBgt+JquJu+9ij4HQWo+CAi8eBCOhJsDUhEYYbHPSIiovAXDTcBjdJoIg4yNsReENVdYt25lRtXJqMogORgrCLw0cBsn5bhZ599BkVR0Lp1awghMH/+fMyePRs///wzOnTogJdeegnFxcUAgClTplSYHJw2bRqSkpJw+PBhvPvuuz4lB5955hnMmjUL8+fPR1paGh577DFs374dO3bsQExMjN91rklMDlbDkxzM21VpcrBCHKejWoom0DPbgQ3JZqhsuu7CB4VQkLnizI4NyRbGGYVGFBwPeTwj0h/jjEhfjDF9xUHGxrgOTA7WUHKwIikpKZg9ezbGjh3reW/t2rXo27dvhclBt3nz5mHixInVJgeFEGjYsCEeeughTJ48GQCQm5uLevXqYd68eRg5cqTfZa5J7FbsK38f6lDROB0cS8OLoglcmF2MTYlR2N2RDwmhGqIIgQtzHdiUFANVRFmcUXjwd9wqAx4ro/p4RlRDGGdE+mKM6Y3Xf26KU4Li9H95KMJ1jpiXlwepVNd3q9UKq9Va6fdUVcWSJUtQUFCA9PR0/wvso/379yMrKwsDBgzwvJeYmIgePXpg/fr1TA4GSyD9vceMGYP58+d7vZeRkYGvvvrK/wJoCs792eOVtAqLglYVFbFLwKtptV0vIrn9KlsDUgjZAbzaLNn1wng5F4pKfu4zw+AYGjXHM6IQYpwR6YsxpjcmB90k1fXP7++VpGMaN26M/Px8z/vTpk3D9OnTy31++/btSE9PR3FxMeLj47Fs2TK0b98+wFJXLysrCwBQr149r/fr1avn+Vs4M0xy0G634/rrr0d6ejreffddn783aNAgzJ071/O6qoxylVQToFsP7ArGSTBF/vgQJk2g9+kifJsSC2ekNF13GmPMC4oeJk2gd04Bvk2Ki5w4I/Li535Xh+NrRB7PiMIM44xIX4wxvTE5GCyHDx8u13KwIm3atMG2bduQm5uLpUuXIjMzE99++62uCUIjM0xycMaMGQBc/b39YbVaUb9+/XOev6QpkGpyeEZ7+ZYTIgxaRwSTpGloUaDiu9omwIDjLkhsEUgGIGsaWhQ58H1tGRJPSogqPL4GovQx2ejHMyIjYJwR6YsxprMofQJ0RWRNgqz5vzzc30lISPBpzEGLxYJWrVoBALp164ZNmzbh5Zdfxptvvun3vH3hzjsdO3YMDRo08Lx/7NgxdOnSRZd5BpNhkoOBWrt2LerWrYvk5GT069cPTzzxBOrUqeP370iihpODFZVBjaxklArg3fr1AVF5rzARSHtjH0kispYnUUWckoJ367uatkvsIkIUNKWPyb4czwKh5zGQyGicUPBOg1QAhhyalCjsMcb0JTE56HGu3YoDpWkabDbbuf1IFdLS0lC/fn2sWrXKkww8c+YMNm7ciLvvvlu3+QZLRCcHBw0ahOuuuw5paWnYu3cv/vWvf2Hw4MFYv349FKXixJDNZvPaYNwPczY7AUgyTJprT+mUZZg1DUKS4JQkr2mLpkGVJKgl005JgiZJsGoaHBVMx2gabJIEUXoaQIwQKJYkSACsQqBYliEJ4ZmWhYBZCNgqmDYJAbssQxECSsm0SQhIQsBRdjpEdYrTNPTOzcXXSUlQgErqpBiqTpG4nlgnY9cpVtPQJzcXK5OSIAERUadIXE+sk7HrFKNp6Jubi2+SkiCAINbJHPw6SWrUrifWydh1Mmsa+uWcwarkRKhARNQpEtcT62TcOsWoGgZm5+DLOsmQhIiIOoXTelJ4k75GTZkyBYMHD0bTpk2Rl5eHhQsXYu3atVixYgUA1/iAWVlZ2LNnDwDX+IQJCQlo2rQpUlJSAACHDh3C6dOncejQIaiqim3btgEAWrVqhfj4eABA27ZtMWvWLFx77bWQJAkTJ07EE088gdatWyMtLQ2PPfYYGjZsiGHDhtX4MvBXSNsLP/LII5Akqcp/u3btCvj3R44ciWuuuQYXXHABhg0bhs8//xybNm3C2rVrK/3OrFmzkJiY6PnXuHFjAMC1p7IhaQqGns7B0NM5kDQFN5w8jYzTuZA0BZnHT6J3Th4kTcH4rOPoeaYAkqbg/qNZ6JJfBElT8PCRv9G20AZJUzD1r8NoXuSApCl48uAhNLCpkDQFLxw4gCSHQKwq4YUDBxCrSkhyCLxw4AAkTUEDm4onDx6CpCloXuTA1L8OQ9IUtC204eEjf0PSFHTJL8L9R7MgaQp6ninA+KzjkDQFvXPykHn8JCRNQcbpXNxw8nRI6/TswYNIcmpoUBw5dYrE9cQ6GbtOjx4+jCSnhrYFkVOnSFxPrJOx6zThaBaSnBp6GKFORQJP7j8MyWlG8wIVUw/+DclpRtt8Bx7+KwuS04wuZ2y4/8hxSE4zeuYUYfzfJyE5zeh9ugCZWachOc3IOJmHG47nQHKaMfTkGQw9lQtoMm44kY2MkunMY6dweXYeoMkYf/QEeuQWAJqM+48cQ+e8IkCT8Y+/jqJNgQ3QZEw9eATNihyAJuPJ/X+hvk0FNBkv7DuERIdAjCrhhX2HEKNKSHQIvLDvEKDJqG9T8eT+vwBNRrMiB6YePAJoMtoU2PCPv44CmozOeUW4/8gxQJPRI7cA44+eADQZl2fnIfPYKUCTkXEqFzecyAY0GUNP5bJOYVanW46dQpJTw8AIqlMkrifWybh1uvpUDjoVFEFSpYipUzitpyZFkf9MAV9JWuD/fHX8+HGMHj0abdq0Qf/+/bFp0yasWLECAwcOBAC88cYb6Nq1K8aNGwcAuPzyy9G1a1d8+umnnt+YOnUqunbtimnTpiE/Px9du3ZF165dsXnzZs9ndu/ejdzcXM/rhx9+GPfddx/Gjx+Piy66CPn5+fjqq68QExNzjktNf5JwN40LgRMnTuDUqVNVfqZFixawWCye1/PmzcPEiRN9elpxRVJTU/HEE0/gzjvvrPDvFbUcdDrs6HPwFHIkCaaSx2c7Jffdh/LTld198L4TocIhySV3H1TYJLnk7kPJNIAYoaFYkkvuPmgolpWSuw+uadddFA22kmn3XZTK76hokETJndYy06wT68Q6sU6sE+vEOrFOoa6T3SSCUCd/WptUUqdyrU18r1PlrU1YJ9aJdWKdWKdorVMCgHWNUpGcUsen8fIikaZpyD59CmMWp6DI6f8yiDVpmHfD6ahehnoKaXIwEOeSHDx8+DCaNm2KTz75BNdcc41P33FvwJfvz0OBoZZU+DMJDVflZeHzhPpwSgxuIj0wzoj0xzgLLVWHJ1BT+DEJDdfknMCnSamMMyIdMMb0FScBPzRJierEFpOD4c0wYw762987Pz8fM2bMwPDhw1G/fn3s3bsXDz/8MFq1aoWMjAy/5y9pMgfzDzJJAJKQXMuWByAiXTDOiPTHOAstk90alN8RMkfgD2eK0CAJGYrTDME4Iwo6xpi+FD6PxEN2CsgO/5MrrjaapBfDJAenTp2K+fPne1537doVALBmzRr06dMHgHd/b0VR8Ouvv2L+/PnIyclBw4YNccUVV2DmzJmwWv0/iZSFAp4zBpcGBZ/GNXU93ZFxTqQLxhmR/hhnEUKr+GF1QZ9NMB9pHUVUyPi/+MaAAG/YE+mAMaYvicnBszQAWgAbGfMxujJMcnDevHmYN29elZ8p3UM6NjbW8ySaYJA02a8BMKl6JqHhuoJD+F9cUzZdJ9IJ44xIf4wz8oeihWYbMXrLSLPQcG3+X1gW3wQOxhlR0DHG9MVesBTuDJMcDDVJZcvBYJOEhFxYXcuWByAiXTDOiPTHOCNDUGumZaReJKEhV7JAsPs+kS6EAGNMR2w4eJakCkgBNKKX2D1DV0wO+khxKlA0hnSwrTY3B1TA2KerROGNcUakP8YZkf7WKC0g24FoTFuoJmeoi0ARTkDBN9amgBadMaY3dtUuRROBdREOpCsy+YzJQR/JqgKZycGgMgsVI+y7sdTSBg6Jl1NEemCcEemPcUakv2iPMzkELT81heNjRhOzUHF98Z9YEtM6KmNMbwpbvZ2laoAaQG6Fy1BXTA76SNZkJgeDTQB/SYmAxm5YRLphnBHpj3FGpD/GWY2TQzQ+Zk3QOF5UeUJyxZhqYozpQBYCABPuFL6YHPSRrMmQA8luU6UEZGyQmrHpOpGOGGdE+mOcEemPcUbBJKvciiqyEc0hOZkk0INJYXLQw+kEHAHkVtg3W1eMex+5nlbM5GAwmYWKkeIXLJI6s+k6kU4YZ0T6Y5wR6Y9xRqQvxpi+JCa2PCRNCyi3InHMQV0xOegjk0OBiS0Hg0qChJ1SA0jCBBPvARPpgnFGpD/GGZH+GGdE+mKM6cvExBaFOSYHfSRrEsccDDoFv6IJAHYPocCxW0h1FPyGZpBhrDjTFI4FREbC4xmR/hhnRPpijOlJZirhrEAfSKIywaonJgd9JKkcczDYzHDiJstP+NB+MRzcFCOSxJgJOTOcGBmzEYuKexgqzpQaeiqjUHiSQeeOxzMi/THOiPTFGNOXBJ5zemgaEEjDK7a+1BWj3keSKjHREWQaFPxkbwFNVSCBy7YmsRVs9BBQsNneAkJTIDPOyquhWNBknsxEMh7PiPTHOCPSF2NMX1yiFO6YHPQRuxXrQcGfWkMAbLoeLIqDS5LKkrHH0RgSAA4tHTqhXvaqmd209cXjGZH+GGdE+mKM6YndiktRVXYrDkNMDvpIcUpQnNxNBpMZTtxc+3ssPHMZm677QVJDXQIyEjOcuCn5e3yYzTiLZqYwHJtThDpjGkQ8nhHpj3FGpC/GmL4UwRu1Hg4n4AjgexLAFJZ+uGR9JKlMygSbChnf5neAqhqvsyNbkZJRaFDwfV5HaOxWTOGmBs6Ra6o7t5GPZ0RGwTgj0hdjTF8SFyqFOSYHfcRuxXpQ8JetHiT4PgYDE7RE/pJxqKguAI51QtFHqYGxgl0tIP0/nhGRvxhnRPpijOmJuYSzhKZCBHBd72p8yRSWXrhkfSQ7ANkZ6lJEFrPkwK31VuP9Y/3gEOZQF4coIjHOiPQlafrFmQi/3uBEIWOWHLi17mq8f5zHMyI9MMb0xZaDpWhqYD1I2DNbV0wO+khSBSQOgBlUKmR8eaI7VKfMR7sT6YRxRqQ/veJMr9byQuEVChmPCgVfnroIqqqwVRORDhhj+pKY2KIwx+Sgj2SngOzghXVwSTjuSC5pus5lS6QPxhmR/gwWZ2FwPqOZeelJ/pJwrCi5ZCr02zBR5GGM6UmSuEw9VBUI5AYohxjTFZODvtIAaAzoYDLLDoxJW4V5+/vDobHpOpEeGGdE+mOc+U+2heE5lcyEZTgzSw6MSfsG8/YPYJdHIh0wxvQlM+F6Vg10K54zZw7mzJmDAwcOAAA6dOiAqVOnYvDgwQCA4uJiPPTQQ1i0aBFsNhsyMjLw+uuvo169ep7fkCroC/7hhx9i5MiRlc63efPmOHjwoNd7s2bNwiOPPOJ74UOEyUEfuboVh7oUkUVVFXx84BKoDoV3p4h0wjgj0h/jLEIYfPiYSO8u7oSCjw/1glNVAMYZUdAxxnTGbsUewm6HsPu/jQk/Bm5s3Lgxnn76abRu3RpCCMyfPx9Dhw7Fzz//jA4dOmDSpElYvnw5lixZgsTEREyYMAHXXXcdfvjhB6/fmTt3LgYNGuR5nZSUVO28H3/8cYwbN87zOiEhwedyhxKTg77SBAM6yASA7OL4Uq+IKNgYZ0T6Y5xROJCioIdLtuqKMybhifSRXcQY04skc5nWpKuvvtrr9ZNPPok5c+Zgw4YNaNy4Md59910sXLgQ/fr1A+BKArZr1w4bNmxAz549Pd9LSkpC/fr1/Zp3QkKC398JB0wO+krVADWy78jWNLPsxLiO3+Dt3wbAoXFTJNID44xIf4wzIv2ZZSfGtWOcBZXCR6LTWWbZgXHtVuLtnQM5RIYeouAGjs80Z2DLQ3PlY/Ly8ry6/FqtVlit1kq/pqoqlixZgoKCAqSnp2PLli1wOBwYMGCA5zNt27ZF06ZNsX79eq/k4L333os77rgDLVq0wF133YXbbrutwu7GpT399NOYOXMmmjZtiptvvhmTJk2CyRT+x63wL2G4cDoBB5ODweSAwPxfL4XDIQA4Q10coojEOCPSH+OMSH+MMx04Ql2AMGSO3stjhypj/s4+cDhksMucDthy8CzNGdhQHiXJwcaNGyM/P9/z9rRp0zB9+vRyH9++fTvS09NRXFyM+Ph4LFu2DO3bt8e2bdtgsVjKdRGuV68esrKyPK8ff/xx9OvXD7Vq1cLXX3+Ne+65B/n5+bj//vsrLeL999+PCy+8ECkpKfjxxx8xZcoUHD16FC+88IL/9a1h0bv385OkaZA0JgeDS8DhkCFpGgAuWyJ9MM6I9Mc4I9If44xqgM0e6hKEkIDDoUHS7GCMBZ8kmBwMlsOHD5drOViRNm3aYNu2bcjNzcXSpUuRmZmJb7/91uf5PPbYY57prl27oqCgALNnz64yOfjggw96pjt16gSLxYI777wTs2bNqrJ1YzhgctBX7FYcdGbFiTu6rcM7my6FQ+WmSKQHxhmR/hhnRPpjnBHpizGmM4M/9CqYhOqECGB5iJJ8TEJCAmS5+mERLBYLWrVqBQDo1q0bNm3ahJdffhk33ngj7HY7cnJyvFoPHjt2rMqxAnv06IGZM2fCZrP5nOjr0aMHnE4nDhw4gDZt2vj0nVBh1PtK0zzNWCk4HJqEdzZeAocqgU3XifTBOCPSH+OMSH+MMyJ9McZ0xjEHz9JUV37F7++d2zipmqbBZrOhW7duMJvNWLVqFYYPHw4A2L17Nw4dOoT09PRKv79t2zYkJyf71QJw27ZtkGUZdevWPaey1wQmB32lqmw5GHQCFsUOh2oBm64T6YVxRqQ/xhmR/hhnRPpijOmKLQdr1JQpUzB48GA0bdoUeXl5WLhwIdauXYsVK1YgMTERY8eOxYMPPoiUlBTUrl0b9913H9LT0z0PI/nss89w7Ngx9OzZEzExMVi5ciWeeuopTJ482TOPn376CaNHj8aqVavQqFEjrF+/Hhs3bkTfvn2RkJCA9evXY9KkSbjllluQnJwcqkXhMyYHfeVwctDeIDMrKkb32IJ3vu0Gh6qEujhEEYlxRqQ/xhmR/hhnRPpijOlMAph+KaE6XcO2+f0931sOHj9+HKNHj8bRo0eRmJiITp06YcWKFRg4cCAA4MUXX4Qsyxg+fDhsNhsyMjLw+uuve75vNpvx2muvYdKkSRBCoFWrVnjhhRcwbtw4z2cKCwuxe/duOByuRJHVasWiRYswffp02Gw2pKWlYdKkSV7jEIYzSQiOjFkVTdOQffoUxs6yocgW6tIQERERERERkZHEWoF3p1iRnFLHp/HyIpE7t5J51xYUFfufHIyNkTH/jW5RvQz1xNS1rzSVQy8EmQSBpLhi5BTEQLDpOpEuGGdE+mOcEemPcUakL8aYzphLoDDH5KCvVBVQQ12IyGIyqRje40/MX9MWDiebrhPpgXFGpD/GGZH+GGdE+mKM6Yy5hLM01fXP7+9xu9QTk4O+YsvBoHPYgXdWtC15xb0lkR4YZ0T6Y5wR6Y9xRqQvxpjOmEvwEJoDQvV/GxOBPOGYfMbkoI+E3Q5h5/CMwSRJAnWTbTiebYUQbLpOpAfGGZH+GGdE+mOcEemLMaYvIXGZeqgOV89Mv7/H5KCemBz0leYENCYHg8lk0jDo4iws/LohHH48eYiIfMc4I9If44xIf4wzIn0xxnSmMTlI4Y3JQV9pTkBlcjCYHCow/7P6cLWx5l2AaCdUZ6iLEJHsdmDeJ+cBsIe6KIYkKTxMUvV4PCPSH+OMSF+MMZ0xOegh1AC7FbPloK541eMjoTohmBwMKkkSaFLfjr+yLGy6bjQaE3lG4YozB/7KMjPOAiBCva3LPEwbAY9nRPpjnBHpizGmL6FymboJRyGEw/9zbGHiebGeuHR9pakAB8AMKpNJoFfXPCz9KhGOmtpZsnUaRRmTSaBXtwIsXR5fc3FGwcN9Vs05h1aiITmeEUUZxhmRvhhjOtPYVZvCG5ODPtKKzkArZnIwmGwAPlgiA8gLdVGIIpbNDnywRAFQFOqiEEUsf49nsqWWruUhikQOFfjw/+LBp6gS6YMxpjOO4+ghVHtAQ0qxW7G+mBz0laa6/lHQyLJAi+bAvgOAxjEYiHTBOCPSn79xphWf0b1MUYnd8COaLAm0aC6w74AEjV0eiYKOMaYvTWZy0M015qAjgO9xmDc98SzKR0ILbNBMqpwkAV0vULB/vwrBRUukC8YZkf4YZ2EigAsN0o+kmIP6e7JJoOsFwIGDgMYuj0RBxxjTmaaEugREVWJy0FeqA2ByMKicKrB4CU/kifTEOCPSH+OMqLxAWoVUxWEHFi8O6k9SqAU5gUznxqECiz8OdSkil+DzCzxcDa8CaDnIRagrQyQHDxw4gJkzZ2L16tXIyspCw4YNccstt+DRRx+FxWKp9HvFxcV46KGHsGjRIthsNmRkZOD1119HvXr1/C5DoI/bpsrJMtCunRk7dzr4rBcinTDOiPTHOCPSH+MsArG1b1hhjOlLKGw56OYac5DdisONIZKDu3btgqZpePPNN9GqVSv89ttvGDduHAoKCvDcc89V+r1JkyZh+fLlWLJkCRITEzFhwgRcd911+OGHH/wuQ6CP26bKSWYJrVslY9fvhRAOBjqRHhhnRPpjnBHpj3FGpC/GmL6EyRCpF4pikhDCkJE/e/ZszJkzB/v27avw77m5uUhNTcXChQsxYsQIAK4kY7t27bB+/Xr07NnTp/lomobs06cw6oYlKCpicpCIiIiIiIiIfBcba8IHi69HckodyFH6cBJ3buWGwS+iqNDu9/dja1mw+MtJUb0M9WTY9HVubi5SUlIq/fuWLVvgcDgwYMAAz3tt27ZF06ZNq0wO2mw22Gw2z2t37lSRnBCqHYriGpxVVQVMJglCVDBtlqCpApoGr2mzWYLTKSAEYLZIcDpc0xaLDIdD80zb7a523BVNSxJgNp+dNpklOOzCNW2S4HAIyDIgK67fLz2tKBIkCXA6y0+Hok6xsTLaX1Abv2zNhSxLEVGnSFxPrJOx62SNkdGhJM4kCRFRp0hcT6yTsetktsjo2Kk2fv05FwKIiDpF4npinYxdJ5NJQsfOtbF9Wy40LTLqFInriXUybp0sFhmdL6yNrZtc54yRUKdwWk/QDNkmSxeubsX+Jwf50Dd9GTLdumfPHrz66qu48847K/1MVlYWLBYLkpKSvN6vV68esrKyKv3erFmzkJiY6PnXuHFjAMBlfVMgVAcu7ZOMS/skQ6gO9B1YBxenJ0KoDgy6ui46XxgPoTpwzfD6aN8xDkJ14PqbG6JlqxgI1YGbxzRG02YWCNWB2+5shnr1TRCqA+Pvb47kZBlCdeC+f7REXC0Bs6Livn+0hFlREVdL4L5/tIRQHUhOljH+/uYQqgP16ptw253NIFQHmjaz4OYxjSFUB1q2isH1NzeEUB1o3zEO1wyvD6E60PnCeAy6ui6E6sDF6YnoO7BOSOt0z4Mt0aCRFcnJUsTUKRLXE+tk7DqNvqMpGjSyomnTyKlTJK4n1snYdRp+YwM0aGRFuw6RU6dIXE+sk7HrdMWQVDRoZMVFPSOnTpG4nlgn49ap1+VJ6NilNqBFTp3CaT3VrccxBym8hbRb8SOPPIJnnnmmys/s3LkTbdu29bw+cuQIevfujT59+uCdd96p9HsLFy7Ebbfd5tUKEAAuvvhi9O3bt9L5VtRy0Omw45br3kHeGTsUU8ndB2f5Ow5Cc02bzTJUTUBzT6ua6+6DRYbTqUGUmbZYZTjsJXcfrCV3FtzTNg2QSu4+2EruPrinZcBkcn239LQsA4riuqMhKxIUWYLDobnuosgVtGhgnVgn1ol1Yp1YJ9aJdWKdWCfWiXVinVgn1kmXOtWKN+PDT8ZFdZdYd7fiEf1noqjQVv0XyoitZcXSVY9F9TLUU0iTgydOnMCpU6eq/EyLFi08TyT++++/0adPH/Ts2RPz5s2rcoNYvXo1+vfvj+zsbK/Wg82aNcPEiRMxadIkn8p4rv3iqXKKIqFnnybYsPYvqCqbWRPpgXFGpD/GGZH+GGdE+mKM6Yvj5Z3NrQzv+28UFQSQHIyz4uM1T0T1MtRTSMccTE1NRWpqqk+fPXLkCPr27Ytu3bph7ty51W4M3bp1g9lsxqpVqzB8+HAAwO7du3Ho0CGkp6f7XdZA+8VTFSQZCQkmQHNAqFqoS0MUmRhnRPpjnBHpj3FGpC/GmK44Xl4pqh1C9T85CFUKflnIwxAPJDly5Aj69OmDZs2a4bnnnsOJEyc8f6tfv77nM/3798d7772Hiy++GImJa8RoowABAABJREFUiRg7diwefPBBpKSkoHbt2rjvvvuQnp7u85OKSxOBbsBUKYcKfLH4l1AXgyiiMc6I9Mc4I9If44xIX4wxfTE5SOHOEMnBlStXYs+ePdizZ4/nASFu7l7RDocDu3fvRmFhoedvL774ImRZxvDhw2Gz2ZCRkYHXX389oDIIzcbkYJApJhl9hnTA2uW/Q3Xy7hSRHhhnRPpjnBHpj3FGpC/GmL4EF6mHZj8DzV7s//fMvvfknDNnDubMmYMDBw4AADp06ICpU6di8ODBAIDi4mI89NBDWLRokVeuqF69ep7fOHToEO6++26sWbMG8fHxyMzMxKxZs2AyVZ5GO336NO677z589tlnnlzUyy+/jPj4eL/rW9MMkRwcM2YMxowZU+VnmjdvjrLDJ8bExOC1117Da6+9du6FYMvBoBOSDAgnhGpj03UinTDOiPTHOCPSH+OMSF+MMZ2xS6xHoL0yher7OIONGzfG008/jdatW0MIgfnz52Po0KH4+eef0aFDB0yaNAnLly/HkiVLkJiYiAkTJuC6667DDz/8AABQVRVDhgxB/fr18eOPP+Lo0aMYPXo0zGYznnrqqUrnO2rUKBw9ehQrV66Ew+HAbbfdhvHjx2PhwoV+17emhfSBJEbgHjTz2p53obDA/+w2EREREREREUWvWnExWLbhjah+mIY7tzLsottRWFDk9/drxcXik03/DXgZpqSkYPbs2RgxYgRSU1OxcOFCjBgxAgCwa9cutGvXDuvXr0fPnj3x5Zdf4qqrrsLff//taU34xhtv4J///CdOnDjheWhuaTt37kT79u2xadMmdO/eHQDw1Vdf4corr8Thw4fRsGFDv8tckwzRcjCU3LnTmBjZr0w1VU8xKxg4ohdWLv0BqoODMBDpgXFGpD/GGZH+GGdE+mKM6SsmxpVLYNssICZWhhZAS8qYWNcyzMvLgySd/b7VaoXVaq30e6qqYsmSJSgoKEB6ejq2bNkCh8OBAQMGeD7Ttm1bNG3a1JMcXL9+PS644AKvbsYZGRm4++678fvvv6Nr167l5rN+/XokJSV5EoMAMGDAAMiyjI0bN+Laa6/1u841icnBarmC98O1gY1VSNW768ExoS4CUcRjnBHpj3FGpD/GGZG+GGN6i97koCRJkCQZi757J+DfKCgowPltmsBmO9stedq0aZg+fXq5z27fvh3p6ekoLi5GfHw8li1bhvbt22Pbtm2wWCxISkry+ny9evWQlZUFAMjKyvJKDLr/7v5bRbKyslC3bl2v90wmE1JSUir9TjhhcrAakiQjKTkZEiRA4jgBwZSXl4fGjRvj8OHDSEhICHVxiCIS44xIf4wzIv0xzoj0xRjTmRAQEJCk6O2NKEkSklNSzqn1ZFx8Ao4fP+71XmWtBtu0aYNt27YhNzcXS5cuRWZmJr799tuA5x3pmByshqsve/QGsJ4kSUJ+fj4kSYracReI9MY4I9If44xIf4wzIn0xxqgmuFoPBt7oKiYmBjExMT591mKxoFWrVgCAbt26YdOmTXj55Zdx4403wm63Iycnx6v14LFjx1C/fn0AQP369fHTTz95/d6xY8c8f6tI/fr1yyUunU4nTp8+Xel3wgmjnoiIiIiIiIiIIpamabDZbOjWrRvMZjNWrVrl+dvu3btx6NAhpKenAwDS09Oxfft2r2TfypUrUbt2bbRv377C309PT0dOTg62bNnieW/16tXQNA09evTQqVbBw5aDREREREREREQUEaZMmYLBgwejadOmyMvLw8KFC7F27VqsWLECiYmJGDt2LB588EGkpKSgdu3auO+++5Ceno6ePXsCAK644gq0b98et956K5599llkZWXh3//+N+69915PN+affvoJo0ePxqpVq9CoUSO0a9cOgwYNwrhx4/DGG2/A4XBgwoQJGDlyZNg/qRhgcpBCyGq1Ytq0aVU+WYiIzg3jjEh/jDMi/THOiPTFGKNIcvz4cYwePRpHjx5FYmIiOnXqhBUrVmDgwIEAgBdffBGyLGP48OGw2WzIyMjA66+ffQitoij4/PPPcffddyM9PR1xcXHIzMzE448/7vlMYWEhdu/eDYfD4Xnvgw8+wIQJE9C/f3/P77/yyis1V/FzIAk+S5uIiIiIiIiIiCgqccxBIiIiIiIiIiKiKMXkIBERERERERERUZRicpCIiIiIiIiIiChKMTlIREREREREREQUpZgcpJA7cOAAxo4di7S0NMTGxqJly5aYNm0a7HZ7qItGFFGefPJJXHLJJahVqxaSkpJCXRyiiPDaa6+hefPmiImJQY8ePfDTTz+FukhEEeW7777D1VdfjYYNG0KSJHzyySehLhJRRJk1axYuuugiJCQkoG7duhg2bBh2794d6mIRUQ1jcpBCbteuXdA0DW+++SZ+//13vPjii3jjjTfwr3/9K9RFI4oodrsd119/Pe6+++5QF4UoInz00Ud48MEHMW3aNGzduhWdO3dGRkYGjh8/HuqiEUWMgoICdO7cGa+99lqoi0IUkb799lvce++92LBhA1auXAmHw4ErrrgCBQUFoS4aEdUgSQghQl0IorJmz56NOXPmYN++faEuClHEmTdvHiZOnIicnJxQF4XI0Hr06IGLLroI//nPfwAAmqahSZMmuO+++/DII4+EuHREkUeSJCxbtgzDhg0LdVGIItaJEydQt25dfPvtt7j88stDXRwiqiFsOUhhKTc3FykpKaEuBhERUYXsdju2bNmCAQMGeN6TZRkDBgzA+vXrQ1gyIiKiwOXm5gIAr8WIogyTgxR29uzZg1dffRV33nlnqItCRERUoZMnT0JVVdSrV8/r/Xr16iErKytEpSIiIgqcpmmYOHEievXqhY4dO4a6OERUg5gcJN088sgjkCSpyn+7du3y+s6RI0cwaNAgXH/99Rg3blyISk5kHIHEGRERERFRWffeey9+++03LFq0KNRFIaIaZgp1AShyPfTQQxgzZkyVn2nRooVn+u+//0bfvn1xySWX4K233tK5dESRwd84I6LgOO+886AoCo4dO+b1/rFjx1C/fv0QlYqIiCgwEyZMwOeff47vvvsOjRs3DnVxiKiGMTlIuklNTUVqaqpPnz1y5Aj69u2Lbt26Ye7cuZBlNmol8oU/cUZEwWOxWNCtWzesWrXK83AETdOwatUqTJgwIbSFIyIi8pEQAvfddx+WLVuGtWvXIi0tLdRFIqIQYHKQQu7IkSPo06cPmjVrhueeew4nTpzw/I2tL4iC59ChQzh9+jQOHToEVVWxbds2AECrVq0QHx8f2sIRGdCDDz6IzMxMdO/eHRdffDFeeuklFBQU4Lbbbgt10YgiRn5+Pvbs2eN5vX//fmzbtg0pKSlo2rRpCEtGFBnuvfdeLFy4EP/3f/+HhIQEz7i5iYmJiI2NDXHpiKimSEIIEepCUHSbN29epRdS3DyJgmfMmDGYP39+uffXrFmDPn361HyBiCLAf/7zH8yePRtZWVno0qULXnnlFfTo0SPUxSKKGGvXrkXfvn3LvZ+ZmYl58+bVfIGIIowkSRW+P3fu3GqHriGiyMHkIBERERERERERUZTiwG5ERERERERERERRislBIiIiIiIiIiKiKMXkIBERERERERERUZRicpCIiIiIiIiIiChKMTlIREREREREREQUpZgcJCIiIiIiIiIiilJMDhIREREREREREUUpJgeJiIiIiIiIiIiiFJODRERERNV49913ccUVV+g+n6+++gpdunSBpmm6z4uIiIiICGBykIiIiKhKxcXFeOyxxzBt2jTd5zVo0CCYzWZ88MEHus+LiIiIiAhgcpCIiIioSkuXLkXt2rXRq1evGpnfmDFj8Morr9TIvIiIiIiImBwkIiKiqHDixAnUr18fTz31lOe9H3/8ERaLBatWrar0e4sWLcLVV1/t9V6fPn0wceJEr/eGDRuGMWPGeF43b94cTzzxBEaPHo34+Hg0a9YMn376KU6cOIGhQ4ciPj4enTp1wubNm71+5+qrr8bmzZuxd+/ewCtLREREROQjJgeJiIgoKqSmpuK///0vpk+fjs2bNyMvLw+33norJkyYgP79+1f6vXXr1qF79+4BzfPFF19Er1698PPPP2PIkCG49dZbMXr0aNxyyy3YunUrWrZsidGjR0MI4flO06ZNUa9ePXz//fcBzZOIiIiIyB9MDhIREVHUuPLKKzFu3DiMGjUKd911F+Li4jBr1qxKP5+Tk4Pc3Fw0bNgw4PndeeedaN26NaZOnYozZ87goosuwvXXX4/zzz8f//znP7Fz504cO3bM63sNGzbEwYMHA5onEREREZE/mBwkIiKiqPLcc8/B6XRiyZIl+OCDD2C1Wiv9bFFREQAgJiYmoHl16tTJM12vXj0AwAUXXFDuvePHj3t9LzY2FoWFhQHNk4iIiIjIH0wOEhERUVTZu3cv/v77b2iahgMHDlT52Tp16kCSJGRnZ3u9L8uyV1dgAHA4HOW+bzabPdOSJFX6nqZpXt87ffo0UlNTq68MEREREdE5YnKQiIiIoobdbsctt9yCG2+8ETNnzsQdd9xRrtVeaRaLBe3bt8eOHTu83k9NTcXRo0c9r1VVxW+//RaUMhYXF2Pv3r3o2rVrUH6PiIiIiKgqTA4SERFR1Hj00UeRm5uLV155Bf/85z9x/vnn4/bbb6/yOxkZGVi3bp3Xe/369cPy5cuxfPly7Nq1C3fffTdycnKCUsYNGzbAarUiPT09KL9HRERERFQVJgeJiIgoKqxduxYvvfQS3n//fdSuXRuyLOP999/H999/jzlz5lT6vbFjx+KLL75Abm6u573bb78dmZmZGD16NHr37o0WLVqgb9++QSnnhx9+iFGjRqFWrVpB+T0iIiIioqpIouyAOURERETk5frrr8eFF16IKVOm6DqfkydPok2bNti8eTPS0tJ0nRcREREREcCWg0RERETVmj17NuLj43Wfz4EDB/D6668zMUhERERENYYtB4mIiIiIiIiIiKIUWw4SERERERERERFFKSYHiYiIiIiIiIiIohSTg0RERERERERERFGKyUEiIiIiIiIiIqIoxeQgERERERERERFRlGJykIiIiIiIiIiIKEoxOUhERERERERERBSlmBwkIiIiIiIiIiKKUkwOEhERERERERERRSkmB4mIiIiIiIiIiKIUk4NERERERERERERRislBIiIiIiIiIiKiKMXkIBERERERERERUZRicpCIiIiIiIiIiChKMTlIRERB0adPH/Tp0yfUxfAyb948SJKEAwcOhLooFEYkScL06dN1n8/atWshSRLWrl3rea9Pnz7o2LGj7vMGgAMHDkCSJMybN69G5lfW+++/j7Zt28JsNiMpKSkkZQi25s2bY8yYMdV+jvsel8q2gdmzZ6NFixZQFAVdunQJWfmIiIjIhclBIiKduC8ON2/e7Pd3CwsLMX36dK+kQqQKZV3dyRNf/kXzRf5TTz2FTz75JNTFqFDz5s0960iWZSQlJeGCCy7A+PHjsXHjxqDNZ+HChXjppZeC9nvBFI5l27VrF8aMGYOWLVvi7bffxltvvRXqIlXIncD15V9Neeqpp9CzZ0+kpqYiJiYGrVu3xsSJE3HixIkqy261WlGvXj306dMHTz31VLnPB0tVy+iuu+7yfK6ybeDrr7/Gww8/jF69emHu3Ll46qmnfJ73mDFjvOYXHx+PFi1aYMSIEfj444+haVqF3xNC4P3338fll1+OpKQk1KpVCxdccAEef/xxFBQUlPu8pml477330KNHD6SkpCAhIQHnn38+Ro8ejQ0bNvi5xIiIiMKfKdQFICKi8goLCzFjxgwACLvWeMEWyrqmpqbi/fff93rv+eefx+HDh/Hiiy+W+2y0euqppzBixAgMGzYs1EWpUJcuXfDQQw8BAPLy8rBz504sWbIEb7/9NiZNmoQXXnjB6/NFRUUwmfw7BVq4cCF+++03TJw40efvXH755SgqKoLFYvFrXv6qrGzNmjVDUVERzGazrvOvyNq1a6FpGl5++WW0atWqxufvq3bt2pXbB0yZMgXx8fF49NFHy31+9+7dkGV9761v2bIFXbp0wciRI5GQkICdO3fi7bffxvLly7Ft2zbExcV5ff7+++/HRRddBFVVceLECfz444+YNm0aXnjhBSxevBj9+vULehkHDhyI0aNHl3v//PPP90xXtg2sXr0asizj3XffDSg2rFYr3nnnHQCuWD548CA+++wzjBgxAn369MH//d//oXbt2p7Pq6qKm2++GYsXL8Zll12G6dOno1atWvj+++8xY8YMLFmyBN988w3q1avn+c7999+P1157DUOHDsWoUaNgMpmwe/dufPnll2jRogV69uzpd7mJiIjCGZODRERRpKCgoNyFZTSLi4vDLbfc4vXeokWLkJ2dXe79SKFpGux2O2JiYiKmHI0aNSq3vp555hncfPPNePHFF9G6dWvcfffdnr/pXffi4mJYLBbIshzS5SxJUsjmf/z4cQCotjuxEALFxcWIjY2tgVKVV69evXLbztNPP43zzjuvwn2A1WrVvUwff/xxuffS09MxYsQIfPbZZxg5cqTX3y677DKMGDHC671ffvkFV1xxBYYPH44dO3agQYMGQS3j+eefX+0+srJt4Pjx44iNjQ04aW4ymcrN+4knnsDTTz+NKVOmYNy4cfjoo488f3v22WexePFiTJ48GbNnz/a8P378eNxwww0YNmwYxowZgy+//BIAcOzYMbz++usYN25cuRavL730km4tMomIiEKJ3YqJiGrQmDFjEB8fjyNHjmDYsGGIj49HamoqJk+eDFVVAbi6urpbqc2YMcPTfar0GGm7du3CiBEjkJKSgpiYGHTv3h2ffvqp17zc3Zq//fZb3HPPPahbty4aN24MAJg+fTokScKuXbtwww03oHbt2qhTpw4eeOABFBcXe/2O0+nEzJkz0bJlS1itVjRv3hz/+te/YLPZqqyr3W7H1KlT0a1bNyQmJiIuLg6XXXYZ1qxZ4/lMsOoKAL///jv69euH2NhYNG7cGE888USlXcz8ZbPZMG3aNLRq1QpWqxVNmjTBww8/XG4ZSJKECRMmYMmSJWjfvj1iY2ORnp6O7du3AwDefPNNtGrVCjExMejTp0+5rsru8ei2bNmCSy65BLGxsUhLS8Mbb7xxzmX64IMP0KFDB1itVnz11VcAgOeeew6XXHIJ6tSpg9jYWHTr1g1Lly4t9/2CggLMnz/fs37cY66NGTMGzZs3L1c29/blazmOHDmC22+/HfXq1YPVakWHDh3w3//+t+qVUo3Y2Fi8//77SElJwZNPPgkhhFdZSm9jeXl5mDhxIpo3bw6r1Yq6deti4MCB2Lp1KwDXelm+fDkOHjzoWQbueru7di5atAj//ve/0ahRI9SqVQtnzpypcMxBt+rWcWVj1pX9zarKVtmYg6tXr8Zll12GuLg4JCUlYejQodi5c6fXZ9zrcM+ePRgzZgySkpKQmJiI2267DYWFhVUu++bNm2PatGkAXC1uSy/v5s2b46qrrsKKFSvQvXt3xMbG4s033wQA7Nu3D9dffz1SUlJQq1Yt9OzZE8uXL6+w/osXL8aMGTPQqFEjJCQkYMSIEcjNzYXNZsPEiRNRt25dxMfH47bbbqt2X+WPisYc9GXfk5mZifPOOw8Oh6Pcb15xxRVo06ZNtfMFgJycHJ/K2blzZ7z00kvIycnBf/7zH5++E0yVbQOSJGHu3LkoKCjwbK/BGhPzkUcewRVXXIElS5bgjz/+AOBqWTh79mycf/75mDVrVrnvXH311cjMzMRXX33l6S68f/9+CCHQq1evcp+XJAl169YNSnmJiIjCCVsOEhHVMFVVkZGRgR49euC5557DN998g+effx4tW7bE3XffjdTUVMyZMwd33303rr32Wlx33XUAgE6dOgFwXYj26tULjRo1wiOPPIK4uDgsXrwYw4YNw8cff4xrr73Wa3733HMPUlNTMXXq1HJjK91www1o3rw5Zs2ahQ0bNuCVV15BdnY23nvvPc9n7rjjDsyfPx8jRozAQw89hI0bN2LWrFnYuXMnli1bVmk9z5w5g3feeQc33XQTxo0bh7y8PLz77rvIyMjATz/9hC5dugStrllZWejbty+cTqfnc2+99VZQWiNpmoZrrrkG69atw/jx49GuXTts374dL774Iv74449yY/F9//33+PTTT3HvvfcCAGbNmoWrrroKDz/8MF5//XXcc889yM7OxrPPPovbb78dq1ev9vp+dnY2rrzyStxwww246aabsHjxYtx9992wWCy4/fbbAyrT6tWrsXjxYkyYMAHnnXeeJ9Hw8ssv45prrsGoUaNgt9uxaNEiXH/99fj8888xZMgQAK4HCtxxxx24+OKLMX78eABAy5YtA1qWFZXj2LFj6Nmzpyd5mJqaii+//BJjx47FmTNn/OrGW1Z8fDyuvfZavPvuu9ixYwc6dOhQ4efuuusuLF26FBMmTED79u1x6tQprFu3Djt37sSFF16IRx99FLm5uV7dzePj471+Y+bMmbBYLJg8eTJsNluVraJ8Wce+8qVspX3zzTcYPHgwWrRogenTp6OoqAivvvoqevXqha1bt5ZL9t5www1IS0vDrFmzsHXrVrzzzjuoW7cunnnmmUrn8dJLL+G9997DsmXLMGfOHMTHx3tiGnB1zb3ppptw5513Yty4cWjTpg2OHTuGSy65BIWFhbj//vtRp04dzJ8/H9dccw2WLl1abr82a9YsxMbG4pFHHsGePXvw6quvwmw2Q5ZlZGdnY/r06diwYQPmzZuHtLQ0TJ061a/l6itf9z233nor3nvvPaxYsQJXXXWV1/dXr17tSaS5CSFw6tQpOJ1O/Pnnn3jkkUegKIpfQy+MGDECY8eOxddff40nn3zynOpZVnFxMU6ePFnu/dq1a8NisVS6DbRq1QpvvfUWfvrpJ0/X4EsuuSRo5br11lvx9ddfY+XKlTj//POxbt06ZGdn44EHHqh0KIHRo0dj7ty5+Pzzz9GzZ080a9YMALBkyRJcf/31qFWrVtDKR0REFLYEERHpYu7cuQKA2LRpk+e9zMxMAUA8/vjjXp/t2rWr6Natm+f1iRMnBAAxbdq0cr/bv39/ccEFF4ji4mLPe5qmiUsuuUS0bt263PwvvfRS4XQ6vX5j2rRpAoC45pprvN6/5557BADxyy+/CCGE2LZtmwAg7rjjDq/PTZ48WQAQq1ev9rzXu3dv0bt3b89rp9MpbDab1/eys7NFvXr1xO233x7Uuk6cOFEAEBs3bvS8d/z4cZGYmCgAiP3795f77coMGTJENGvWzPP6/fffF7Isi++//97rc2+88YYAIH744QfPewCE1Wr1mt+bb74pAIj69euLM2fOeN6fMmVKubL17t1bABDPP/+85z2bzSa6dOki6tatK+x2e0BlkmVZ/P777+XqWlhY6PXabreLjh07in79+nm9HxcXJzIzM8t9PzMz02tZubm3r9IqK8fYsWNFgwYNxMmTJ73eHzlypEhMTCxXxrKaNWsmhgwZUunfX3zxRQFA/N///Z9XWUpvb4mJieLee++tcj5ltwu3NWvWCACiRYsW5crq/tuaNWs87/m6jt3xW3bbreg3Kyvb/v37BQAxd+5cz3vu+Zw6dcrz3i+//CJkWRajR4/2vOdeh6VjVQghrr32WlGnTp1y8yrL/f0TJ054vd+sWTMBQHz11Vde77tjuPQ2nZeXJ9LS0kTz5s2Fqqpe9e/YsaNnWQkhxE033SQkSRKDBw/2+t309PQKl01VOnTo4LUvK1v+0rHg675HVVXRuHFjceONN3r93gsvvCAkSRL79u3zev/o0aMCgOdf48aNxUcffeT1GfeyWLJkSaV16dy5s0hOTvah1r4rXa6y/z788EPP5yrbBjIzM0VcXFxA867uuz///LMAICZNmiSEEOKll14SAMSyZcsq/c7p06cFAHHdddd53hs9erQAIJKTk8W1114rnnvuObFz586AykxERGQE7FZMRBQCpZ/oCLjGjNq3b1+13zt9+jRWr16NG264AXl5eTh58iROnjyJU6dOISMjA3/++SeOHDni9Z1x48ZBUZQKf8/dus3tvvvuAwB88cUXXv8/+OCDXp9zP/yhbJe/0hRF8bSe0jQNp0+fhtPpRPfu3T3dNYNV1y+++AI9e/bExRdf7Pl+amoqRo0aVe18qrNkyRK0a9cObdu29ZTh5MmTnkH+S3eTBoD+/ft7tb7q0aMHAGD48OFISEgo937Z9W4ymXDnnXd6XlssFtx55504fvw4tmzZElCZevfujfbt25erW+nWTdnZ2cjNzcVll13m0/oJRNlyCCHw8ccf4+qrr4YQwqsuGRkZyM3NPeeyuFvR5eXlVfqZpKQkbNy4EX///XfA88nMzPS5paov61gPR48exbZt2zBmzBikpKR43u/UqRMGDhzoiffSKtpXnTp1CmfOnAm4HGlpacjIyPB674svvsDFF1+MSy+91PNefHw8xo8fjwMHDmDHjh1enx89erTXg1Z69OgBIUS5lpc9evTAX3/9BafTGXB5q+LrvkeWZYwaNQqffvqp17b4wQcf4JJLLkFaWprX51NSUrBy5Up89tlnePzxx3HeeechPz/f7/LFx8dXue0HaujQoVi5cmW5f3379g36vPxRNt7d/5fe95bl/lvpbXru3Ln4z3/+g7S0NCxbtgyTJ09Gu3bt0L9//3LHWCIiokjAbsVERDUsJiam3JNvk5OTkZ2dXe139+zZAyEEHnvsMTz22GMVfub48eNo1KiR53XZi87SWrdu7fW6ZcuWkGXZM87ZwYMHIctyuaeN1q9fH0lJSTh48GCV5Z0/fz6ef/557Nq1y2usrarK5OZPXQ8ePOhJtpVW3Thevvjzzz+xc+fOSp9W7B50361p06ZerxMTEwEATZo0qfD9suu9YcOG5R4a434C6IEDB9CzZ0+/y1TZ8v7888/xxBNPYNu2bV7jspUdLzBYypbjxIkTyMnJwVtvvVVu4H+3snXxlzuhUlVy4Nlnn0VmZiaaNGmCbt264corr8To0aPRokULn+fjyzbt5ss61oM7XiuKi3bt2mHFihXlHlpUdntOTk4G4NpuSz8R1h8VLavKYrhdu3aev3fs2LHSclUVZ5qmITc3F3Xq1AmovFXxZ98zevRoPPPMM1i2bBlGjx6N3bt3Y8uWLRWOKWqxWDBgwAAAwFVXXYX+/fujV69eqFu3rle35Ork5+dXue0Drq7NpSUmJlab6G7cuLGnfOGkbLy7/68qQVpRAlGWZdx777249957cerUKfzwww9444038OWXX2LkyJH4/vvv9aoCERFRSDA5SERUwyprxecL9yD3kydPLtfyxq1sIs+fcfcqSwoFkixasGABxowZg2HDhuEf//gH6tatC0VRMGvWLOzdu7fa7wdSVz1omoYLLrgAL7zwQoV/L5uMqGz9Vva+KPWgDL3KVNE28P333+Oaa67B5Zdfjtdffx0NGjSA2WzG3LlzsXDhQp/KUdl24X64Tllly+Fex7fccgsyMzMr/E7pseoC8dtvvwGoelu54YYbcNlll2HZsmX4+uuvMXv2bDzzzDP43//+h8GDB/s0n2A/bdffZauXYG63bsFYVjURZ8HWvn17dOvWDQsWLMDo0aOxYMECWCwW3HDDDdV+95JLLkGDBg3wwQcf+JwcdDgc+OOPP7ySqhUp+yTjuXPnlnvoilGUjXd3cvnXX3/FsGHDKvzOr7/+CgAVtq4GgDp16uCaa67BNddcgz59+uDbb7/FwYMHPWMTEhERRQImB4mIwlBliQF3Syaz2RyUVht//vmnVyuePXv2QNM0T7fYZs2aQdM0/Pnnn56LLAA4duwYcnJyqrw4Wrp0KVq0aIH//e9/XvUpO/B+MOrarFkz/Pnnn+Xe3717d5Xf80XLli3xyy+/oH///rq1qCvt77//Ltd6y/3kTfd6CUaZPv74Y8TExGDFihWwWq2e9+fOnVvus5XNIzk5ucKnp1bXotQtNTUVCQkJUFVVl1ZI+fn5WLZsGZo0aeK1/VakQYMGuOeee3DPPffg+PHjuPDCC/Hkk096koPBXPe+rGN3C72yy7eiZetr2dzxWlFc7Nq1C+edd165Fo01pVmzZpWWy/33cOTvvmf06NF48MEHcfToUSxcuBBDhgzxrOvqFBcXIzc31+eyLV26FEVFRZXeXHFbuXKl1+vKHtxjBO+//z4kScLAgQMBAJdeeimSkpKwcOFCPProoxUmj90P4PIl6dq9e3d8++23OHr0aNhuk0RERIHgmINERGHI/XTEsomBunXrok+fPnjzzTdx9OjRct87ceKEX/N57bXXvF6/+uqrAOBJiFx55ZUAXE8fLc3dYs39RNuKuC/CSrfY2bhxI9avX+/1uWDU9corr8SGDRvw008/ef39gw8+qLR8vrrhhhtw5MgRvP322+X+VlRUVO4J0OfK6XTizTff9Ly22+148803kZqaim7dugWtTIqiQJIkr5ZoBw4cKPekYwCIi4urMAnYsmVL5ObmelreAK5x7ap6inXZMgwfPhwff/yxp8VPaf5uz6UVFRXh1ltvxenTp/Hoo49W2RKvbMKlbt26aNiwoVdX67i4OL8SM1XxZR27nwj93XffeZW1ou7XvpatQYMG6NKlC+bPn++1Pn/77Td8/fXXnngPhSuvvBI//fST1/6hoKAAb731Fpo3b15pq65Q83ffc9NNN0GSJDzwwAPYt28fbrnlFq+/FxQUoLCwsNz3Pv74Y2RnZ6N79+4+leuXX37BxIkTkZycXG5s2bIGDBjg9a9sS8KasGvXLhw6dOicfuPpp5/G119/jRtvvNEzZEatWrUwefJk7N69G48++mi57yxfvhzz5s1DRkaGpzt/VlZWuTEuAVecrlq1qsKhNoiIiIyOLQeJiMJQbGws2rdvj48++gjnn38+UlJS0LFjR3Ts2BGvvfYaLr30UlxwwQUYN24cWrRogWPHjmH9+vU4fPgwfvnlF5/ns3//flxzzTUYNGgQ1q9fjwULFuDmm29G586dAQCdO3dGZmYm3nrrLeTk5KB379746aefMH/+fAwbNqzKweevuuoq/O9//8O1116LIUOGYP/+/XjjjTfQvn17r4H1g1HXhx9+GO+//z4GDRqEBx54AHFxcXjrrbfQrFkzr8RVIG699VYsXrwYd911F9asWYNevXpBVVXs2rULixcvxooVK3y+YPdFw4YN8cwzz+DAgQM4//zz8dFHH2Hbtm146623PA9gCEaZhgwZghdeeAGDBg3CzTffjOPHj+O1115Dq1atyi2zbt264ZtvvsELL7yAhg0bIi0tDT169MDIkSPxz3/+E9deey3uv/9+FBYWYs6cOTj//PN9fpDI008/jTVr1qBHjx4YN24c2rdvj9OnT2Pr1q345ptvcPr06Wp/48iRI1iwYAEAV2vBHTt2YMmSJcjKysJDDz3k9fCPsvLy8tC4cWOMGDECnTt3Rnx8PL755hts2rQJzz//vNcy+Oijj/Dggw/ioosuQnx8PK6++mqf6liWL+u4Q4cO6NmzJ6ZMmYLTp08jJSUFixYtqvDBGv6Ubfbs2Rg8eDDS09MxduxYFBUV4dVXX0ViYiKmT58eUH2C4ZFHHsGHH36IwYMH4/7770dKSgrmz5+P/fv34+OPP4Ysh+f9bH/3PampqRg0aBCWLFmCpKSkcjdY/vzzTwwYMAA33ngj2rZtC1mWsXnzZixYsADNmzfHAw88UO43v//+exQXF0NVVc/4eJ9++ikSExOxbNky1K9fP+j1/uOPPzwxV1q9evU8rfb80a5dO/Tu3Rtr166t9rNOp9Mz7+LiYhw8eBCffvopfv31V/Tt27dcAv2RRx7Bzz//jGeeeQbr16/H8OHDERsbi3Xr1mHBggVo164d5s+f7/n84cOHcfHFF6Nfv37o378/6tevj+PHj+PDDz/0JF3PO+88v+tIREQU1kL2nGQiogg3d+5cAUBs2rTJ815mZqaIi4sr99lp06aJsrvkH3/8UXTr1k1YLBYBQEybNs3zt71794rRo0eL+vXrC7PZLBo1aiSuuuoqsXTp0irnX3Z+O3bsECNGjBAJCQkiOTlZTJgwQRQVFXl91uFwiBkzZoi0tDRhNptFkyZNxJQpU0RxcbHX53r37i169+7tea1pmnjqqadEs2bNhNVqFV27dhWff/65yMzMFM2aNQtqXYUQ4tdffxW9e/cWMTExolGjRmLmzJni3XffFQDE/v37yy2DygwZMqRc+ex2u3jmmWdEhw4dhNVqFcnJyaJbt25ixowZIjc31/M5AOLee+/1+u7+/fsFADF79myv99esWSMAiCVLlngtww4dOojNmzeL9PR0ERMTI5o1ayb+85//lCvnuZTJ7d133xWtW7cWVqtVtG3bVsydO7fCbXHXrl3i8ssvF7GxsQKAyMzM9Pzt66+/Fh07dhQWi0W0adNGLFiwoMLfqKocx44dE/fee69o0qSJMJvNon79+qJ///7irbfeqvDzpTVr1kwAEACEJEmidu3aokOHDmLcuHFi48aNFX6n9DZms9nEP/7xD9G5c2eRkJAg4uLiROfOncXrr7/u9Z38/Hxx8803i6SkJAHAs41UtB7d3H9bs2aN5z1/1vHevXvFgAEDhNVqFfXq1RP/+te/xMqVK8v9ZmVlc297c+fO9frdb775RvTq1UvExsaK2rVri6uvvlrs2LHD6zPudXjixAmv9937lepiqrLvN2vWTAwZMqTC7+zdu1eMGDFCJCUliZiYGHHxxReLzz//3OszlS3vyvZ3lZWjKh06dPDal5Utf+ntXwj/9z2LFy8WAMT48ePL/e3EiRNi/Pjxom3btiIuLk5YLBbRunVrMXHixHJ1cC8L9z+z2SxSU1PF5ZdfLp588klx/Phxn+vsj9LzLPuv9HKrbNlXdBws+93KZGZmes2vVq1aonnz5mL48OFi6dKlQlXVCr+nqqqYO3eu6NWrl6hdu7aIiYkRHTp0EDNmzBD5+flenz1z5ox4+eWXRUZGhmjcuLEwm80iISFBpKeni7fffltomubbgiIiIjIQSYgwGKGZiIhq1PTp0zFjxgycOHGCLSDCSJ8+fXDy5MkKu9gSUWT4v//7PwwbNgzfffcdLrvsslAXh4iIiIhjDhIRERER1ZS3334bLVq0wKWXXhrqohAREREB4JiDRERERES6W7RoEX799VcsX74cL7/8co08/ZyIiIjIF0wOEhERERHp7KabbkJ8fDzGjh2Le+65J9TFISIiIvIwVLfi7777DldffTUaNmwISZLwySefVPudtWvX4sILL4TVakWrVq0wb9483ctJRBTupk+fDiEExxsMM2vXruV4g0QRSgiBvLw8vPPOOzCZeH+eiIiIwoehkoMFBQXo3LkzXnvtNZ8+v3//fgwZMgR9+/bFtm3bMHHiRNxxxx1YsWKFziUlIiIiIiIiIiIKf4Z9WrEkSVi2bBmGDRtW6Wf++c9/Yvny5V6tMEaOHImcnBx89dVXNVBKIiIiIiIiIiKi8GWoloP+Wr9+PQYMGOD1XkZGBtavXx+iEhEREREREREREYWPiB7wJCsrC/Xq1fN6r169ejhz5gyKiooQGxtb7js2mw02m83zWtM0WK1WWC0WgE+VIyIiIiIiIiJ/CAEBAUmSIcsR3UarSkIInEvnVUmSIDEvo4uITg4GYtasWZgxY4bndf369fHb9l9RWBDCQhERERERERGRoSUlJyPCO3BWSgiBQzt+R3yZBlz+kCQZySkpTBDqIKKTg/Xr18exY8e83jt27Bhq165dYatBAJgyZQoefPBBz2tN06A6Hdh+zUUQZ7IhFDMAQFIdECYLoGmQNKdnWnM6IcxWQFMhqSXTqhOSpkKYYwDVDknTICwxgLNk2hoL2G2QhHu6GBACsMYCtiJXi0VLDCRbEYQkAxara1qWAZMFkr3YNa1YIDmKIWQFUEyQHDYIxQTIimvaZAIgQ3Lay0yX1MlZUidokJxO7+kwqJMmV1InSYbksJeZLlUnswUQ7nqUnj73Ommq5ludzBZItuIy0wpgMkGyl9RJUVzTftZJNZWqk8UKqCV1slgBZ0mdrDGAw12PUtMxsYCtpE4xsYCtZD3FxALFJXWyxkAqLqmT1eqarqBOjsJioKROsNuAkjrBbnO9J8mAw15m2lUnOB1ASZ3gdHpPl9QJasm00wloKlBSD2gaYI2Bai+ZLqkThHu64jq5pl11QnERUFIP2Iq9pxVXPFVYJ1kG7GfrpNmqqJPFtY+osE6q0/W6TJ080z7WSS2qoE4WC1AceJ2qXE9+1ElTNSAmxvXb57qedK6T6tRc5TeX1ElzT5dse5aSdSNK1pPdPV1SJ7iniwGU2u+hpE62IgAldbKV1M9SUg+ppE72knhSTIDDBsgldXKU1E8uqYdSUienq052raROJfsFVz1K1pPqhGS2QpTUyTXtqpNkiYFwutaNZI2BcLinYyHsrvXkmnatJ8kaC1Gy35MsMSXTMiSL1TUty5DMFoiSeJJMFtd3ZQWSYoIoqZOkKK7pKurkWU8B1MnpqIE6KSV1Ktn2JEU5Oy3Lrvn6UCfJbIFw18lSUifPtCueamw9sU6sUw3VSbaHdh9hVmt+X66Y9T/muo6z3sdc2a7/MVcx61MnWQ383Kiy8z3FXqZOQTqHNcfoc14uh/Baw2vaYoUstPC8zg2wTpKlZq5zpfgEdPniZ9c+JEoJIRBfrx7+260r7Hl5fn/fkpCA27f8DCEEk4M6iPgHknzxxRfYvn27572bb74Zp0+f9vmBJJqmIfv0KfzapxW0gny/yqhqfn086giLFbZ7p8P62nRIdlv1XyihhdEWq4ZBYcKgCAAAuxra+athsBy0EMd8hcvAYkXs5Bkoem6a6yQ3BMJh3fjKyPttu4HLroea3O4kqxXn/XMGTj4zDcIWmjgjMjLFh2s8yWJF8iMzkP30NFdCMggsIWq8o4RqvjpfS+v1+3r0wNSrrBYl+L8p11AORFisUO+bAeXVaRVemyk1VZAaEIqqyHHx6PrdHiSn1InabsXu3Mob57eCPd+/3AoAWOLjcdcf0b0M9WSoJZqfn49t27Zh27ZtAID9+/dj27ZtOHToEABXq7/Ro0d7Pn/XXXdh3759ePjhh7Fr1y68/vrrWLx4MSZNmlQj5VXk0B38DcHphHnNp667hRSwCDpOG1qoE4OVUp2wf/2p6w48RSwmBkNLOJ3I++pTCB7Pwpqqef+j8KGK6hP6QnWi4MtPXS3/giRU+05uf77j9X8Ncjohry5/babIUsQkBmWJ107hQJZcCXp//3Hd6ctQ3Yo3b96Mvn37el67u/9mZmZi3rx5OHr0qCdRCABpaWlYvnw5Jk2ahJdffhmNGzfGO++8g4yMjBottztByBMBb5KmQtlm7CdHK7IUFq0HiSqlqlA3/xi62RsoPLiPjhw1vt2pKop/Cl2cUeWqimv333gjN3y4Y7fCVl2qCtum4MeZXQtdC8Kapgr9Ww9GMz1aDdYkSft/9s47TIoqa+PvrapOw2TCkDMCA4wgCIIJJIOAiq4rIEgyISImwEBUAUEFWQUVxYj6yYqru64YYVFQUUEwoYCIRJXMhA5V9f1R3T09Mz3dVdWV+/6ep5+p6VB1z60b3zrnXh5kq1THnCIGRnCYObbHw6gT/l1p0labha2yt2fPntHdbWJfzz//PADg+eefx/r166v8ZuvWrfD7/di9ezeuu+46w9MdgXoSVkR0e1E2Y4m0hgOFkgJ2EqAMx+OFb+5Sad0diiOhXoPmQzxe1Jm/FITWM8ugxDuQehNaj3j9OvF4UfMh59Qzs8obHTNRqkP0eMHftxSMN/7a/HYj4iVIhUEKRR628hx0CrECYVoPREMBuNY+Ly0oTUkJhlhn7UGKxQgGEHh9lbR4tsHQCQjFDMwod2IwgJOrV0mbNFBMJdVxFfUmtA6VvdzEYACnX9WnnpnlPcgLziprdvFMtEMajYZlCEQ+CObN520/N6NioPVhCSCouE+07uoLFQdNJp1DjokggP1pm+LfWU0Io6HFFCtQrSAiCOC/32ZkUmxJOrbBTsQ0QVoQ4N+xzaSLUwDt63Ds+Zwk3tiNCmKTICCgYz2j4cXWg643aIzQFQkhJoIAomJuZhWoKGgfWCJCIMoHbayK31DkQ5tci5COIceix4vSuc9AdEh4CIViSbxeZCx6BvDSeuZEaEixNSBeL+oufQaE1jPDMSIcmIYcm0tE9CdeL2ovcV49o+HFFDOJXVtQ9Hjht+HcjIYO2w+WAJyKlx0eatgZ6jloMdIq5DgYgPu5RaaEOzoRq3lUUixCIICyFYuBgLH1zE6TDse3tWmCmWVODARwbNliiAbXs3TGjHpLvQnNgxcBNhDAiX/oW89oeDFFLXbfjAQAEAzAZZO5GRUDKRTtoeKghXF6yDERBLB7fzY7GZpAQ4spZpJQFBEECLt3GpYWCsUMTBejBQGBXbSe6Y2VxkN0bULj4XkBMKCe0fBi652TYgxEEEAsPjejoqAzYBlAVNHO0j5XX2j22gCnhhyLXh9KH34ZokN2xKJQLInXhxr/eAUwsJ6ZLtQowEpig1JoSLF1IF4f6j39Cgjtz3TBymG9dKdj4yBeH+o85dx6RsuQMVDhsnpErw9+i87NaOiws2CJ+hdFPxwoOTkXx4mEfj88j84A/H6zU+IYaKdpDoKJA/qkQpzfj9KHptN6RnEsVhCjRb8ff86ZDpHWM02xm+hmt/TajUg9C5XpX8/S6eGLFdpQikXw++Gy2NyMioIUinHQsGIb4pR1CYkogBz+3exkaEY6hxYHeLNTQKkWUYBw0Dn1TEvs3H5SLIYoIHSA1jOtsHvdpGsT6kRMPePhTA8Ss9YepKHAFMA6czMqBjofN6NuN3KO9qm6QrPX5tjZm1D0+lD6+JuWdF2n2Af6xDsJXh8yn11rWFgxvR/GkE5eLYmwSnkjXh8avLTWseGORuFEzzsn2mQWleuZ3vXfrHbWCeXFKm2zUThiMxKEw4qXmTc3o16C6QNLynUMRS8F5WP58uUoKipCdnY2srOz0b17d/z3v/+Nft6zZ08QQiq8brzxxgrnuPXWW9G5c2d4PB507Ngx6TX37t1b5ZyR1xtvvBH9XrzPX3vtNfnG6QT1HHQItty8xF8G78yJgL/M7JQ4Crprcfoga/DtL0PxnRNoPaM4DitNPkV/GQ7dOgEirWeqsNXYRSXUmzB14tUzvT3e6OYklLTCXwb3/cbPzaggmH4wKtcPVFJWGjZsiAULFqBVq1YQRREvvPAChg0bhq1bt6Jdu3YAgIkTJ2Lu3LnR32RkZFQ5z7hx4/DFF19g+/btSa/ZqFEjHDp0qMJ7Tz/9NBYtWoSBAwdWeH/VqlUYMGBA9P/c3Fz5xukEFQcdhq1EQlEEykqkvw4hnUOLKRZFFCGWGlPPrCTWJMMWbSTFPhhYz5xEutZDutOxSqqpZ04UCGl4sYQgqAs9rA4r2WZJDJ6bUVGQoidDhgyp8P+DDz6I5cuX4/PPP4+KgxkZGahbt26153j88ccBAH/++acscZBl2SrnW7t2Lf72t78hMzOzwvu5ubkJr20GdFjiUGLdby2L14eyh9Xtoko7EwpFJl4fMp9YbehuxRR9oSHF1hOiideH+s+spmHFMqGhthJ0p2NlJKpnTgwxtnu5sFo7TZGB14fAInVzM7lEQofpXC69SXW34tOnT+PUqVPRlz/JJjo8z+O1115DcXExunfvHn3/lVdeQa1atdC+fXvMmDEDJSUlmtr59ddfY9u2bRg/fnyVzyZNmoRatWqha9eueO655yBa4AEz9RxMAyzrTVhWCu/dI4GyUrNTQqHYDtmD7rJSnJk0gtazGCzXFlJsj1hWioMTR0Ck9SwhtO5VD/UmTE6yeuZED0IzsJr3YDpjuIBWVgr3XfrMzdJdDGRVbsDhVBgGEFXkRyQPGzZsiDNnzkTfnzVrFmbPnl3l+zt27ED37t1RVlaGzMxMrF27FoWFhQCAESNGoEmTJqhfvz62b9+OadOmYefOnXjzzTfVmBSXZ599Fm3btkWPHj0qvD937lxccsklyMjIwPvvv4+bb74ZZ86cwa233qrZtdVAxcE0wnIiISGAN0Na18ICSrlW0NDi9EKwSn2qDkJAfBnSGk061jPqIUAxCkuWNYPqmV2xzLjDBtC1CRMgo545TSA0K7yYIh+nbEYCQJe5WTqLgrTu6sf+/ftBSHnh8ng8cb/XunVrbNu2DSdPnsSaNWswZswYbNiwAYWFhbj++uuj3+vQoQPq1auH3r17Y/fu3WjRokXKaSwtLcXq1atx//33V/ks9r1OnTqhuLgYixYtMl0cpEU2DbFMuLHHi7K5zwAer9kpoVCci8eLGotX0noWxu4iRbqHFFtSGARAPF7Ue3wlCK1nUWjIbOrQ/KuI3HrmtBBjM8qAldpayz+EdRIeLwLz6NwsVSwz17YwqYYVZ2VlRXchzs7OrlYcdLvdaNmyJTp37oz58+fj7LPPxtKlS+N+t1u3bgCAXbt2aWLjmjVrUFJSgtGjRyf9brdu3bB///6k4dF6Qz0H05jYRsuMgQcpK4Xv1iuMvzCFYnMUDdrLSnFm/OW6pYVCoUjhjgeupfUMoGKWHlBvQgkl9cxpHoR2hYYo2wtSVgrPZDo3U0s6t89KcbMAr8Lrlk3RU1cQhGoFuG3btgEA6tWrl9pFwjz77LMYOnQoateunfS727ZtQ15eXrUip1FQcZACwJyQY5EwEAsagBw5ACI6azZBQ4uNwUpPti0LYcDUawDh0AFAp3pG7wPFCCxdzggDrn4DhA7qV8+sDhUFjSGt1yZUWM+cJBDS8GKKETh5bqYXtF5alxkzZmDgwIFo3LgxTp8+jdWrV2P9+vVYt24ddu/ejdWrV2PQoEGoWbMmtm/fjqlTp+Kiiy5CUVFR9By7du3CmTNncPjwYZSWlkYFxMLCQrjdbhw4cAC9e/fGiy++iK5du1b43f/+9z+8++67VdL1zjvv4MiRIzjvvPPg9XrxwQcf4KGHHsKdd96pe54kgxZnSgUMbeA8Hvhvnw+YrJBTKGoxI9RFsUDi8cB3zwJaz2B/8SLdQ4qtDPF4UHvWApA0rGc09NUc0jFsW009c1qIsZFY6YEMDS3WB7bygoAeD4J0biYLGjqcGrG7Vit9yeWPP/7A6NGj0bp1a/Tu3RtbtmzBunXr0LdvX7jdbnz44Yfo168f2rRpgzvuuAPDhw/HO++8U+EcEyZMQKdOnfDUU0/h559/RqdOndCpUyccPHgQABAMBrFz584quxw/99xzaNiwIfr161clXS6XC0888QS6d++Ojh074qmnnsKjjz6KWbNmKc9IjSGiFfZMtjCCIOD4saPY3rMlhOIzyX/gAOwy0LS6Y55ZnoNmXDbAG39NwPyBqy3EQQOwYpriYZe2rTqcPAlNhl3KWDph9/rkROhEtXr0Dm01yoPQ6HusRb5plfda7PSqdTnQezMSvTfzqCIO6oDTNiRJpQ4yNTJRtH4X8vJrgknTrYsj2srXF6rTVpgamei8Mb3zUE9ojlKqYNTAQ2QY8E3PgujQim1Eh0sxD9s8xWYYMC1aazOqjoNdRBsqZFB0hWHgbqlfPbMK6eitZiccf39SqGdO8SC04721yziBIs3NBA3nZk6aClFPQW0xwnOQohxaxClxMaTxc7kRGHcX4HIbcDEKxf6oGmC73fDeeCfgpvXMzlCvQWtD3G7kT74TxKH1zNGCk0NxolCYaj1zikBoJHZof5XgNHs0x+VGkM7NokQEQSoKUtIFGlachHQMK66MlQeWNLS4KkZf0qyQYsDcQR4NKZawYpoqY+U2TC5OnHTKwQ7ly8k4oe5QKkInuc4IMTbyPtLQ4uqxc1ixnhFOdvfu0qt+0bDi1LUVmof6QnOUkhS9npiIDAO+TUfHhhUDNLTYqdgmpBgAGAZsu466hDtS4YZCCcMw8HTo6JiwYqd5nFHKsbVHoUb1zAkehHa7f3S8YC2qm5+IDAMhhbmZ3cM+qZegcdCwYmtCiz9FNpq7VnNuBC+/DuDUu67ThoKSLqgeWLvccF89Nm1DROw2gYoH9Rq0PsTlRs6IsSAOqGdOqDMUedhNKNSynjlBIKSoQ6t7r6fXoF5zG5YhiR0XODdCV1ynaG5m97kYDR2mUMqhYcVJoGHFybHioNJK4cZGhxanS1gxDSk2HyumqTJWbJ+Ukq6TTDuUL6fhhPpC0YZ0mSjbPcTYqPtkldBirZyztUiL1uKgXuKaXlFMdhUDI5jRxtGQ2HJtZWefVhBKVIQVZ2Si9Ye/pHUe6gnNUUrKqH3aIjIs+I7dITLaP3qz8xMsirWxVUgxALAs2C49AFbbekaFG4qe2K58sSy8XbWvZ0ZChUFKLJb0KtShntndg9BS98cArDIG01IY1GPOEvEQVCoMJpub2d1LEKBeglaBhhVbE1o1KJqh2C2b4xDsNRTgON3SRBsSihNIafLCcnD3Gwqw+tUzq+KESVO6eg3aDcJxyBowFETH/kxPnFBXKPphFaFQr3pGBUJjsN1DnwSkGjWj1/xEjSBYAY4Df0nFuZkT5lI0dNh6MEzF+yL3RZ0F9YWGFSeBhhWnhhUHLEaH3dKwYn0wa5BJQ4olrJimylix/VFKOoqDdihbTsIJ9YRiHk6abNs5xFjv+6BV3jgptFiN96Be6wjqgZ3FQMCabRMNKy7XVnb3bwVRRVgxychEi3U0rFgvaI5SdCXRkxqR5RDq3geiwR5NTngCRjEHWwqDLAfuwj6aeg7aQbxxguBBhUEbwXLIuFjbemYETqgnFHMx1KtQ53pmZw9CvfPfSm2zVUKLlWBJL8E4EI6D0KOPLl7warzEUnlRrA3DENUvin7QqkMxjCqNNSuta2HmGk1UJKQ4HpYFp8OagxQKpRzCsfB17QHC2aeeUWGQojV6C4VG1DMqEFKsjNq1BJMRnQ9pODejYh0lEXTNQWtCw4qTQMOK9cWKAxk9wnKNDC1Oh7BiM55gm/Wk2kpP6yNYMU2VsWLbopR08hy0Q5lyCk6oGxR7YUdhgIYYxzkvDS2ugJKw4lQFDT1Ch/XbHVmf8zoBGlZcrq38Nugs1WHFTd79Oa3zUE9ojlJMQ2Q58JcMAePiaEdCocRBE8GE4+Dqp93GP3YQcZwgflBh0GZwHDIH6LvBlhY4oW5Q7EesR2FKZdDAekY9COOc10JttR1Di5Wiu5dgHESOQ7DXEIgK6xj1EKQohWHUvyj6QbOXYh4MA75p62gtt0qnQt2VrY2VBqe2gGHAtmhNe1OKJXFKfSYMA3er1iAWrmdUGKRYBbVCodH1jAqElEToGTmjlyCY9LSEgdC0NUDk1TGrzN0o9oOuOWhNaFhxEmhYsbmYNbjROjSXhhVrBw0pNhcrpikWp0yInO45aPVy5CScUicozseqIgMNMY45Hw0troDc0GIleoaWwqA+uyNrf850gYYVl2srB4a2Vh1W3ODtnWmdh3pCc5RiGiLLwT/g6oS7FdMnUpR0RTPxhOPgHnq1JmFYVNAxBioM2hCOQ9bl2tQzLaHCIMVOJA0/Nqme2d2DUMt2wErtdzqEFqshlY0bRI5DcODVccOK6ZyMoiUcp/5F0Q+avRTzYBiIOTWlR39JvM9iOyM62UlfrDQotQ2EAcmrKTtEhELRE8fWYcKAzbdWPaN9JcXuxJZhloGp9YwX9fUgDAj6ehBG8pKKO+YgiPovW6TJ+QkDMbe8jtHyQtELhhCIKgotITSsWE9oWHESaFixddFz4kPDiuVjVFixWaICDSkux4ppisUJYohTvQatXnachBPqAYWSCDMFCzuHGEdINf9oaHE5euxYrDSsWGvRkQqC+kHDisu1laNXtYFYqiKs2JeJmm/8lNZ5qCc0RymmIXIu+C+7DiLnUvV7ujMWxaloKqRwLrivHguorGcRqLijP1QYtDEuF3JGjAVcqdWzVKHCIMXRuFzIHTkWPOvSZvdjFdg5xDhCqvlmpTY93UOLtRQGWQZg3KnNzSgUir2hYcUUR8AydFLkZKw0EKVQ9IAKg5RUoX0gJV2pEn6s9/VsHmIcgRfU55feeUAxBupgQTELwhAQNeo23a1YV2hYcRJoWLF90HJiRMOK5WNEWHE6hRRbVUyxaroi2FkYcaIwaPXy4iTsXPYpFD3RW/gwQhyzephxqnlg99BiPcKKAfmhxWp1EioKmgMNKy7XVk5c0xZQEVYMXyZyX/0xrfNQT2yXo0888QSaNm0Kr9eLbt264csvv6z2u88//zwIIRVeXq/XwNRSEiG63Ci7+maILrfZSaFYGCoypIjLDc+Ym4EU6hm9B/pBhUGH4HIjd3xq9UwNVBikpBPE5Ub+hJtBZNYzveuHEW1dQCh/6YXd2xEzQ4uNWndbK5Itx0TnZhQnsXz5chQVFSE7OxvZ2dno3r07/vvf/1b5niiKGDhwIAgheOutt6p8/vzzz6OoqAherxd16tTBpEmTEl63rKwMkyZNQs2aNZGZmYnhw4fjyJEjFb6zb98+DB48GBkZGahTpw7uuusuhEKhlOzVAluFFb/++uu4/fbbsWLFCnTr1g1LlixB//79sXPnTtSpUyfub7Kzs7Fz587o/3SHGwshCCAnj9IFQ2yM3QZFSnBMsRQFiMePAqJTDKJYmbQUBgFAFMAfM66e2X0yT6GoQQzXM1FBPUsldFbW+Q0Mr40IhHp4E6rNJxpebB9k3V86N6MYBGGIOtdXBb9p2LAhFixYgFatWkEURbzwwgsYNmwYtm7dinbt2kW/t2TJkmo1okcffRSPPPIIFi1ahG7duqG4uBh79+5NeN2pU6fiP//5D9544w3k5OTglltuwRVXXIHPPvsMAMDzPAYPHoy6deti06ZNOHToEEaPHg2Xy4WHHnpItn16YKuw4m7duuHcc8/FP/7xDwCSW2qjRo0wefJkTJ8+vcr3n3/+edx22204ceKE6mvSsGL7QMOKJYwMK9ZbHEyncGLAusKKVdMVwa5CidO8Bq1eTpyCXcs7hWImRoRRmiGSaS0Uqs2nVGxPl9BiPcKKlZyXhhKbDw0rLtdWise0Ux1WXOOF71XnYX5+PhYtWoTx48cDALZt24ZLL70UX331FerVq4e1a9fisssuAwAcP34cDRo0wDvvvIPevXvLOv/JkydRu3ZtrF69GldeeSUA4KeffkLbtm2xefNmnHfeefjvf/+LSy+9FAcPHkRBQQEAYMWKFZg2bRr+/PNPuN3mee7aplQGAgF8/fXX6NOnT/Q9hmHQp08fbN68udrfnTlzBk2aNEGjRo0wbNgwfP/99wmv4/f7cerUqejr9OnTAACRc4f/uqI7OIkuN0SWq3rs9lQ8ZtjwsRdiuBCLnthjH0QSe0wgRo4B6X+PT/qcMOXHDAPR4y0/dkeOWYhuj3TMchWPw27iFY5NsknIzEHpdXdCcHu0sYlLYBPHVT1WapM3xiZvjE3emPvkjblP3mps8iSxidPBJo9+NoFhgOgxC4TtAMuVH3NcebhdhWNX+S66Lrf0WeVjt0c6V/Q4PArzeMtHg7HHXh9AYo9J+TEg/R89ZsqPK9gRc8wmsMmtwCa3Qpu8GtmUlQ3vTXdJ51NhEy9a0CZv+X3iXSrvk8tVvrOsCTYFRAYkxiYSYxOJuU8kxiaigU0kxiYSYxOJsYl4Y4/LbSIxNpEYm4jXJ5UTItMmT4xNnnKbiAKbSKxNnhibPNrZJB3Ls4nJzEL+5LtAfD5dbRJc1djki7HJF2OTL8YmX4xNPm3uE4ljE9HqPlGbqE2VbGIyM1Hr1rtAMjIU28QT/dsInjAQPMa25QEBCHLa9U+8gIR9bnXjCN5l0NiomvGe4NZ5vJdkDCtnXM67jBmXpzInFHw1UDL2LskGOs/VxSaKRGRDEjUvNfA8j9deew3FxcXo3r07AKCkpAQjRozAE088gbp161b5zQcffABBEHDgwAG0bdsWDRs2xN/+9jf8/vvv1V7n66+/RjAYrKBZtWnTBo0bN45qVps3b0aHDh2iwiAA9O/fH6dOnUqqVemNbUroX3/9BZ7nK2QiABQUFODw4cNxf9O6dWs899xz+Ne//oWXX34ZgiCgR48e2L9/f7XXmT9/PnJycqKvhg0bAgACQ0dLfy8dicClIwEA/ismINB3OACgbOStCF44UDoedzdC5/YEAJTePBt8h67S8dQF4M8qAgCUzFgGoXFLAEDxnGcgFDSQjhe+AjE7H/D4ULzwFcDjg5idLx0DEAoaoHjOM9Jx45YombEMAMCfVYTSqQuk4w5dUXrzbABA6NyeKBt3NwAgeOFAlI28VbKj73D4r5hgqk0lD6wCu3cnxFr1NLEp1Hc4gldKNgWHjERwiGRT8MoJCIVtCoy6FaGwTYHxd4PvKtnknzQbQpFkk/+OBRDDNgXuXQYxbFNg7jMQwzYFFr0C5OQDXp907PUBOfnSMQCxoAECcyWbxMYtwd8v2SS2LgJ/10Lp+Oxu4CfPkY679YQwcZp0fNEgCKOnSPnRbziEqySbhKGjIAwdJR1fNQFCP8kmYfQUiBcNko4nTgO6STaJt84Bzu4mHd+1EGgt2STOXAY0aSUdP7gSqCvZJD66OmqT+OjqqE3io6sBAKjbQPo+ADRpBWGmZBNpUwR2umQT6dgN7FTJJnJeTzA3SjaRnoPAjJVsYgYMB/N3ySbm8lFgLpdsYv4+AcwAySZm7BSQnpJNrpumgeku2eSaOgdMR8km14yFIG0km9xzl4E0lWxyL1wJErbJ83i5TZ7Hy23yPC7ZROo2gHuhZBNp2gruucsgCADTtgieeySbmI7d4LlDsont0RPumyWbuF6D4B4n2cQNGg7XCMkm1xWj4LpCssk1YgK4QZJN7nFTwPWSbHLfPA1sD8kmzx3lNvnuXQi2rWRTxrxlYJpJNtVYvBJMPcmmzCdWg+RKNmU+IdlEcvOlYwBMvQaosViyiWnWChmzHgW/eyfYs9rBd69kE9upG3x3SjZxPXrCO0myyXXJIHjHSza5Bw2HJ2yTd/goeIdLNvlGToBnsGRTxvgpcF8i2ZRxyzS4wjbVuHMOuE6STZn3LQQXtinrgWVgwzZlP1JuU86T5TblPFluU86T5TZlPyLZxDZrhawHpLLHtClC9kzJJtc53ZB9t2ST5/yeyJos2eTtPQiZEyWbfJcOR8YoyaaM4aOQEbYpY9QE+C6VbMqcOAXe3pJNWZOnwXO+ZFP23XPgOkeyKXvmQrgKJZtyH1oGLmxT3mMrwYZtyl9RblP+inKb8lesRkAAuPoNUHupZJOreSvUWiDZ5G5XhPxZkk2ec7ohb7pkk++CnsidItmU0WcQcq+XbMocMhzZ10o2ZV01CllXSTZlXzsBmUMkm3Kvn4KMPpJNuVOmwXeBZFPe9DnwhG3Kn7UQ7naSTbUWLIOruWRT7aUrwdWXbCp4ejWY3HwQrw8FT68G8frA5Oaj4GnpPnH1G6Du45JN7uatULBQssnTrgi1Z0s2eTt3Q61pkk0ZF/RE/q2STZl9BiHvBsmmrCHDkTtasinnqlHICduUO3oCssI25d0wBZlhm/JvnYaMsE21ps2Bt7NkU+3ZC+EJ21SwcBncYZvqPl5uU/1nym2q/0y5TfWfUWZTzTvuQ+CXnfB1v1AXm9yduoEXgIK5C+EN21RvUblNDZathCtsU6OVq8Hm5YP4fGi0cjWIzwc2Lx+NVko2ueo3QINl5TbVWyTZ5G1XhIK5kk2+zt1QZ4Z0n2pc2BO1bpNsyuo7CDVvlGzKGToceWMkm3L/Ngq5f5NsyhszATlDJZtq3jgFWX0lm2rdNg01LpRsqjNjDnzh+0RtojbJtSl//M3w/7IT2YOGqbKJF4xpI3gR4AqNbctJx24ICEDW/an1T1JmxO9zubZFyLxPsonr1A01wuMIV4+eyLhlGnix+nGEe/gouMN9rmfEBLjDYyPv+ClgkoyNPPcsBBMeR3jnLQMTHu95F60ECdvk+4fy8R4gjWFdM8rHe2rHsOLfJkDsL9kkjpkChMfl4vUVx+VieFzO37UQYnhczt9fPi7nHygflyuZawiNW6LsXskm4awi+O+Q5k9CUVf4J80GIHNOOOBqoEYWIAh0nquHTQ2bg6INp0+fruDQ5ff7435vx44dyMzMhMfjwY033oi1a9eisLAQgBT+26NHDwwbNizub/fs2QNBEPDQQw9hyZIlWLNmDY4dO4a+ffsiEAjE/c3hw4fhdruRm5tb4f1Yzerw4cNxNa3IZ2Zim7DigwcPokGDBti0aVNU7QWAu+++Gxs2bMAXX3yR9BzBYBBt27bFNddcg3nz5sX9jt/vr1C4RFFEKBjAt30KIZ48Fn3yQEJB6YmEIIDwoYrHbg/A8+XHoRCIwEtPPEIBEEGQnoQEI8c+IOAHESPHZYAoAh4f4C+Vnny5vSD+UukphdsjHTMM4HKD+MukY84NEiiTnnZwHEjALz0FYdnyY4YBCQYqHjvEphDDSU9w49kkCiChUMXjJDaJfCWbvD7AH7bJ6wP8YZu8PqAsbJPHC1IWtsnjkY4ZBjzrKrcpal81NnGxdii3SQjFsanCvdHGpiDjlr4ftkk6lmxCwC89dWVZ6ThsB4KBSsfhp8ihoHQOUQBCIcljTQgfh+8T+MhxSPo/bAcEoeJx2CaIkeP4NknHkk0oKwUYBgIbxyaWlWyJZxPDAAGZNrml+lSdTXyokk1er3TuFG2C2w2UqbOJR2o2VblPGtrEl6R4nyJeGUFjbQq6vBDDNhGPRzpmGBC3G2L4PhGXG2LYJsJyEMM2EZaVjlOwibg9EMM2SceSTcTjhRi2iXi9EAORYx/EsE3SsWQT8foglpWCB5F+q8QmjpPOyXIgHCsdcxwIw0jXlWETcbshRmzyeCCGwjZ5PBBDqdkEYi2bBJcMm3w+iGVhm3w+KY2iKB2Xhm3yesPHDIjXIx2naBMhjJSeGJuIyy2tCZfqfbKpTaFQcps42MsmJ94nVjS2jeA4Y9tyN1Lvc9mAunEEyyofG7F86uM9JqhgHOGqfrzHBpWNYd2i/LkGw8sbl3NElD0uZxXMn1hXeswJrWoTycrG2R//TMOKjx1F2fj2qsOKvc9+h6bNmuPMmfLfz5o1C7Nnz67y9UAggH379uHkyZNYs2YNVq5ciQ0bNmDXrl244447sHXrVmRmZgIACCEVwoofeugh3HvvvVi3bh369esHAPjzzz9Rt25dvPvuu+jfv3+V661evRpjx46tIlZ27doVvXr1wsKFC3H99dfjt99+w7p166Kfl5SUoEaNGnj33XcxcOBA5fmiEbYRBwOBADIyMrBmzZroDQOAMWPG4MSJE/jXv/4l6zxXXXUVOI7Dq6++Kuv7dM1B/RDdHpSNuxve5x4GCcRX+5Wg9TpMWq7d58Q1B5223qDZay/rZq/bA++kaSh7YqE0yDU7PRpg1zXX6BqDzoV4PMi/dRqOPb5QEhU0wq5lPZ0I6VQPOLrJQxWIx4Nat03DX0u0qWdmrMFm5LqEWqxHaOQahKnmjVZai9J0yF1zENBn3UFl50z8udZzs3SlunvC1MhE+0/omoPHjx2Ff2IH1eKg55kd4FzuCpuIeDweeCLLUCSgT58+aNGiBXw+Hx5//PEK94HneTAMgwsvvBDr16/HqlWrMG7cOPz+++/RaFJA8vJ74IEHMHHixCrn//jjj9G7d28cP368gvdgkyZNcNttt2Hq1KmYOXMm3n77bWzbti36+a+//ormzZvjm2++QadOnRRminbYplS63W507twZH330UfQ9QRDw0UcfVfAkTATP89ixYwfq1aunVzIpSuB5cNs2S08FKbbCybsUm4GuIgvPI/TVJkX1zMqijx3FkoBAhUGnI4Z4lH65SfJO0gBesGdZTydCon7CYOz5k73SCTHEo+QLe9czXix/6Y0W/Y7a/FFjX6p5YtZDXkeNiencTDWRzXdVLolHUUhWVhays7OjLznCICDpR36/H9OnT8f27duxbdu26AsAHnvsMaxatQoAcP755wMAdu7cGf39sWPH8Ndff6FJkyZxz9+5c2e4XK4KmtXOnTuxb9++qGbVvXt37NixA3/88Uf0Ox988AGys7OjIc9mwZl6dYXcfvvtGDNmDLp06YKuXbtiyZIlKC4uxtixYwEAo0ePRoMGDTB//nwAwNy5c3HeeeehZcuWOHHiBBYtWoTffvsNEyZMMNMMShjCh+D6/EOzk0GxIOnkNai7rXwIoY3y65mVRR87iiVOEwUp1cCHULJBm/7MjuU8XbCiGCcnTY7xQuRDKF6v/bgxts4Z6U0Y6W/19CYMCKl7EPKCunzhReW2qfmN1lghDWZB52bKoEKgehiiUkkl8n8zY8YMDBw4EI0bN8bp06exevVqrF+/HuvWrUPdunXjbkLSuHFjNGvWDABw1llnYdiwYZgyZQqefvppZGdnY8aMGWjTpg169eoFADhw4AB69+6NF198EV27dkVOTg7Gjx+P22+/Hfn5+cjOzsbkyZPRvXt3nHfeeQCAfv36obCwENdeey0efvhhHD58GPfddx8mTZokW+TUC9t4DgLA1VdfjcWLF2PmzJno2LEjtm3bhvfeey+6gOO+fftw6NCh6PePHz+OiRMnom3bthg0aBBOnTqFTZs2ma7IUiREtwclt82P7jJFsQeOekIKhwuDAOD2wHfPgvJd98xOjwrs6kXlVGHQquXETIjHg9ozF5TvrKoSO5bzdMDuXnpO8UAkHg8KZqdezxLhRG9CMz0IVV3LJuXRidC5WWJivQOpMJgahFH/kssff/yB0aNHo3Xr1ujduze2bNmCdevWoW/fvrLP8eKLL6Jbt24YPHgwLr74YrhcLrz33ntwhdeGDQaD2LlzJ0pKSqK/eeyxx3DppZdi+PDhuOiii1C3bl28+eab0c9ZlsW///1vsCyL7t27Y9SoURg9ejTmzp0r3zidsM2ag2ZB1xzUD5FhwXfoCnbHlyBC6ooTXXNQQu9LGSEOGjkwdLw4yLJgO3UDv/WLhGEiVh2M21UsocJgmsGy8HbuhrKvE9ezRNi1rDsVuwhmRmK6ByLLwte5G0pTqGeqLuuQtQnNWoNQrS1qf6fFUm5WWHfQlDUHNZ6bOQEtRUC65mC5thK6sQgoU6GteDPBrdie1nmoJ7YKK6Y4CyLw4L7dbHYyKBaDCoNaX4gH/9Uma6RFIXYVS6gwmIbwPMq+TFzPEv7coWXGblBBMDGmhzDz0tqeRhOpn2aEHAPaCYVmhRirDdNN5/Bes6BzMwnqFag/rIsBeBUNkosKgnpCc5diGqLbi5JpS6Rt4ima4ASvQaNIC2EQADxe+OYuBTxV65lRi6Krwa5iCRUG0xPi8aLO/KUgcepZMuxa1p2EnUJrrY6eIczE40XdherqmRZEQo7NCjvWArNCjNWmX83vtBjfpWufl65zMxoubDyEJapfFP2gnoMU8wgF4P7X80AoYHZKdIdliKGhxXbFqMFY2giDABAMIPD6KiBYsZ5ZeeBrR7HEqaIgYO2yYhXEYAAnV6+CGFTWn9mxrDsFKgaah1oPRDEYwImXldczPTDTmzDVubEWHoRqMNITUBC0CS9OO9JobkZFQJNhAKLiJoi0XusKFQcppkEEAdxP28xOBoViGKaILIIA/vtt5qdDJnYUS6gwSIEgwL9jm6Kf2LGsOwEqCtqDuPeJF3Bm+7bov6avgQhzdjrWQmRLVSC0ww7GVCBUjtPnZlQQpFASQ5tMimmIHi+KZz8D0aTwEKdBQ4rlYZbXoGkii9eLjEXPAF6vuelIAt2R2HpYtaxYEeL1ou7SZ0C8yfszu5Z1O2O3XXkp8SFeLxovK69nVtuB2ci6rUX7nGr/pdZWNWlXa69RYz6njJGdNjej4cLWhWGJ6hdFP6jnIMU8ggF4n19UJdyRkp44WYgw1bZAAGUrFgOBgGXz2K5CiVOFQauWEysjBgI4tmwxxED1/Zldy7ldoUKg8xADARx5PHE9iyVRGdDT69Aob0LqQSgPtR6EabkhigPmZlQEtAeEUbl+IL3BukLFQYppEEEAu/dns5NBSSPMXGvQNAQBwu6dlhV87CiYOFUUBKgwqBpBQGDXzipv27F82x0qCjoYQYD/l6r1TA2Vy4leYqHeaxNSgVAeNMRYHnadm1G9iELRBtpMUkxD9PhwZsHLED0+s5Nie2hIsXUxXWzx+lDjH68AXuvVMzsKJ1QYpMSDeH2o9/QrIOF6RkOHjYWGDacHxOdD05WvgPi078/0Lj967nRs5xBjVdei9Vw37DI3o+HC9ocwRPWLoh/Uc5BiHgE/fEtmAAG/2SmhmIwRAz0zvAatMIDly/w48+B0wG+temZH4YQKg5TqEP1+/DlnOkKlfoDmpWFQMTC9EMv8ODBrOsQy/fqz2DKltzchoJ1HoV09CNWmW83v1HgPpl1osYXnZlQTchaMmwFRsfWwaMZW62kEFQcppkFEAezh381OhiHwerv2USyHFcQWKQ0ChIPWqmd2EwadLAoC1iirdofnBfC/W6ueORUnCYK8aO3ZLkssltmigOAB4+pZpKwZsT6hFiIhFQiTQwXCxFhtbkYFQedCWAZETcNn1LbwaQrNXYppiB4fzix50/Ku61bH7iHFTvQaNFts4cWYNHh9yHlurWXCiqkwaC3MLqt2JjZMkPh8aPzKWl3CHSkSTggb5kVS4WV1Kqc33stIiM+H5quNr2dGhK1rFXJcof9XSUBIre9TY4faNKv5XVquPy0Ts+dmNFyYQjEX6jlIMY9AGTJmTQQCZWanhELRDLPFlirX95fh1B0TAL+59cxuoiDgbGHQ7HJqZ+KVZbGsDAcmT4BYRvszLbG7GBjBDkKgWuTYppUHolhWht9uMbee6e1NqJUnYaSNT8XjLdIHqvEkdJoHoZxrBHjAzSpLh+UwYW5GRcD0hLAqdytOFzdek6DiIMU8RBGkrAQQHTL6rwYaUlw9TvMaNFtwiXt9UYRYam49s5sw6GRREDC/nNqVhOVYFCGYXM+cAhUEnUeyvJAtHlqonum9NqETRMJ0FAhtj0FzMyoIUgijUhykhUdXaFgxxTw8PhQvfAWgYcVpCRUGDbq+14ecJ1ebFlZMhUFrYXY5tSNywv2Iz4dGK1fTsOIUcFrYMEU+csOXic+HZs9ar57pGXZs93BjGmIc55pWbud0mpvRcGEKxR4QUbTA4zcLIwgCjh87iu09W0IoPmN2chyFCEidj78UWvQTWosQWnXeensO6nl6vdYbNEqgMGrQZ7bgkvT6Xh9QVmpIWmKhwqC1MLuc2g2l5Zf4fBBLja9ndsbuYmAEKgYaB+PzQYhTz6y2eYqem5hosR5/qh5wSr0IVe07oDKNqpyRFKQv2fnlhBbLFchYGV9UIrYluw9azs2oCFgVpkYm2n+yC3n5NcEo3RnHIUS0lYyHzwcJFCv+veiugZK7P0vrPNQTGlZMMQ9CIHozQAJllggRicXST/VisEs6zYAKg2EIAfFlQPQbW8+oMGgdzC6jdkNV2SUEjC8DfJn1+jMr4gRRkAqCJhCuZ0Kcembk2odyiFfGtRIMtQg5TjXcWOmuxlYPMTYaQdROPNPyXKnOzaggSJEL3a3YmtDcpZiH24uSOc8Abq/ZKdENut5gVZwUTmy26CLr+h4vsh9ZCXiMq2d2EgZT3ZXR6phdRu1EKuF7xOtFg2UrQbzO7c+0wEmhwxTjYbxeNHviGTAq65nZuy7Hhh9rURe0CDmOhBur6SucFGKsZNyY7NxaRt0YPo9QODej4cIUirOgYcVJoGHF9kFLQYKGFEvoEVast1hBhUHzsJMoCDhbFASsWUasit3Krl2xqzBIxcD0wswQ5VS8C7VyqFHqdWfVEGOrhxebEVqsRRmhIqB6aFhxubaSuexi1WHFZyZvSOs81BOaoxTTEAkDvm4jiIQWQzXY0SnRCcKgFot6a5EG2RAGTP1GgI71TKsF042ECoOUSLnVpOwSBq4G+tYzu2M3YZBuLmJBCAN3Q/3rmRlehRFS8SrUcvMSJVjVg9DqG5RoOY7X6lzVzc2odyBFawhLVL8o+kFHsRTzcHtQett8wO0xOyW6YPeQYr02I9ELo4RBM1ElTHo8yLx3AeDRp57ZURSkwmD6oqkgGAPxelAwZwGI15n9WTpBBUHrwng9aDhnPhiD65nZYchK0aKdS2eBUKtzazWO1nI+kTTf48zNqCBI0QPCMNF1BxW9qLegrtCw4iTQsGL7YLWwYhpSXBW9BmlOFwatKPbYTRQEnC8KRrBieTEDO5ZRp2J1r0EqBmpHde1POjh76B2ObEbIcbqGGMvVH4zauVhOaLH8c8k6laJzUuRBw4rLtZXsFZeABFWEFbtq4NSNH6d1HuoJzVGKaYgMA77pWRA1qNhWEwYpVaHCoEnXZhiwLVorW0gnUXpsGEIMUGEwnTCljDIM3C21q2cUY6BegvKJ3bgi0SvV3yc8D8PA2+osy9YzvTc7SWUTE7XtolM8CJUid2xpR+/BRMSbm9F5EUUXWEjquuKX2Ql3NtbsXSnpgcuNsuvuAlxus1OiOdRr0Bj0FgbNXF9Qs2u73ci46U7AnVo9s6soCKSPMEgxr4wStxu1ptwJkmI9oxgDFQWrolb0MzI9osuNulPuguhy2+pBiNaCodEioRMEQj3XH0xVIDRafEuY39XMzahASNEaI9YcXL58OYqKipCdnY3s7Gx0794d//3vf6t8TxRFDBw4EIQQvPXWWxU+27dvHwYPHoyMjAzUqVMHd911F0KhULXX3Lt3L8aPH49mzZrB5/OhRYsWmDVrFgKBQIXvEEKqvD7//HPZtukFZ3YCKOkL8ZehxuyJZieDYgB2GsRHMFMU1JSyMpy+M7V6RkVBe2DHeuYUxLIyHJxM+zM7kI6ioFPaBqGsDLsnldczuXZZMaS5cjlUE5IcKxAqDTmO9OtyQ0wjeS03LwOCshBjXtBut+VqryEqLwuCYFlH1bgIYmphwInmZrECIQ01ptiBhg0bYsGCBWjVqhVEUcQLL7yAYcOGYevWrWjXrl30e0uWLAEhVQs1z/MYPHgw6tati02bNuHQoUMYPXo0XC4XHnroobjX/OmnnyAIAp566im0bNkS3333HSZOnIji4mIsXry4wnc//PDDCumoWbOmRparh4qDFNMQGQb8WUVgf94OYuT2YBRHoGeRcYwwCAAMA65tEUI/blecaXYVBQEqDKYrLGNSuWUYeNsVoex75fXM6VhlvUG7i4K0jgNgGNRoX4Ti75TVMzV5Z7SgGFs+UxEK1YiESkQ5JQJbpB+WKxLqmZZUfqPFeQN84vUH5Yh6vCDKXntQLXLnZqmKkBQKWAYQ1Cw6Kv83Q4YMqfD/gw8+iOXLl+Pzzz+PinLbtm3DI488gq+++gr16tWr8P33338fP/zwAz788EMUFBSgY8eOmDdvHqZNm4bZs2fDHSdaZMCAARgwYED0/+bNm2Pnzp1Yvnx5FXGwZs2aqFu3rmx7jMBGz0IojoNzIzDsOoCzThgW3YhE+5BiPSY0es29zQ6f0gWXG96/j1Ucvk+FQQpFPsTlRu6osSAOXCbDCdhRGDQ7rNeKEJcbda69zpB6ZmaIdSrhx2pCjpWGGivNBz375HRcf1BXFMzNBJGGG1PUQ9yM6hcAnD59GqdOnYq+/H5/wuvxPI/XXnsNxcXF6N69OwCgpKQEI0aMwBNPPBFXpNu8eTM6dOiAgoKC6Hv9+/fHqVOn8P3338u29eTJk8jPz6/y/tChQ1GnTh1ccMEFePvtt2WfT0+oOEgxDRIoQ8bC20ACZWYnhaITdhMGzUD36/rLcOb+KYBfXj2z89qCQHoKg1Q4MB/RX4bD06ZAlFnPKMZhJ2GQioGJEf1l+PWu20yvZ0YKhqmKhEqEQjUioVwCgrz+2e7rD6aCFYQ2NXMzK6SbYj8Iw4CwKl7hOP+GDRsiJycn+po/f37c6+zYsQOZmZnweDy48cYbsXbtWhQWFgIApk6dih49emDYsGFxf3v48OEKwiCA6P+HDx+WZeeuXbuwbNky3HDDDdH3MjMz8cgjj+CNN97Af/7zH1xwwQW47LLLLCEQ0rBiimmIDAu+Q1ewO74EEezwOM35WP2pppOEQcOuybLgOnVDaOsXAF/9DbazIAikpyhIiY8pocUsC1/nbij9OnE9SzfMDCm2gyhIRUCFsCyyunTF6a++tFw9i3cvtQxfjZRnI0KOlYT36r0WoV7otf6g3uHFeocWq52bRQRCGmpMMYr9+/dXWCfQ4/HE/V7r1q2xbds2nDx5EmvWrMGYMWOwYcMG7Nq1Cx9//DG2bt2qWxoPHDiAAQMG4KqrrsLEieVredaqVQu333579P9zzz0XBw8exKJFizB06FDd0iMHCzTPlLSF4xDoNRTgrKFR2yGk2E5oPemhwqBKWA6efkMBtvp6ZmdhUK43glOh4kJ89F7YvjKE45A9aCiIRfqzdMfKwiD1DlQP4TjkD7ZPPdPDwzCV3Y6VeBLqGWqcrM82akxC62AcUpyb0VBjimxYov4FICsrK7oLcXZ2drXioNvtRsuWLdG5c2fMnz8fZ599NpYuXYqPP/4Yu3fvRm5uLjiOAxcu88OHD0fPnj0BAHXr1sWRI0cqnC/yf7K1Ag8ePIhevXqhR48eePrpp5NmR7du3bBr166k39Mbe/SuFEdCAn5kLJlhdjIoOmCXAZfR6TQlXwJ+FD80Pe5HdhcF0x271LN0QPT7cWR2/HqWrpjhNWhFUTAd66lfo/bZU0nkF/1+/DbT3uNGrTwMU9nAJCQq8yIElHkSyrEnmQehEZuTqMEK3oN6otXcjG5YQkkKSwA1fXaKFV0QBPj9fsyZMwcTJkyo8FmHDh3w2GOPRTcy6d69Ox588EH88ccfqFOnDgDggw8+QHZ2djQ0OR4HDhxAr1690LlzZ6xatQqMjC3Pt23bVmVDFDOg4iDFNESWQ+jcnuC2rAfhQ2Ynh2Jh9PAaTAthEABYDq4ePRHctB4I1zMqClLSAUPDi1kONS7sieKN66P1LJ1JZ2HQyWKgVqKf2usRlkPexT1xfMN6iArqWWWR0WrElhmjhEK9Q42N3u1ZLVYNLzYLLedmNNSYYjYzZszAwIED0bhxY5w+fRqrV6/G+vXrsW7dOtStWzeu91/jxo3RrFkzAEC/fv1QWFiIa6+9Fg8//DAOHz6M++67D5MmTYp6Kn755ZcYPXo0PvroIzRo0AAHDhxAz5490aRJEyxevBh//vln9NyR673wwgtwu93o1KkTAODNN9/Ec889h5UrV+qdJUmh4iBFMQzRyGWcZRHq2B3cNxtNn0zZKaRYs/zXCTuEExs5eTN9osiycJ3bA8EvpHpmR2GQCoJVMb1c2QSjBELCscjo1gMlmzcqEi0o2mC2MOiE+mi08KcGwrHIPa87TnymrJ5paZveQqNWQqEeIqESL0I5optdvQcBeQJhSudP4Hmn67qDOszNqBchJS4GeA7+8ccfGD16NA4dOoScnBwUFRVh3bp16Nu3r7xLsSz+/e9/46abbkL37t1Ro0YNjBkzBnPnzo1+p6SkBDt37kQwGAQgeRbu2rULu3btQsOGDSucTxTL2+V58+bht99+A8dxaNOmDV5//XVceeWVsm3TCyLGppJSBUEQcPzYUWzv2RJC8Rmzk0OphlQnf3YSBwF9xEGtNiPRcpJEhUHtoKKgc7BSubILdiz/dsVor0GzhEE71kM7CIB2RW/RUK3opSTkWK4XISBftJOT7mQblCgRCNXnk/LfyBEHk503kfdgIkEtkTgoR4gzel3eCOkuEjI1MtH+k13Iy68pK9TUiUS0lbx/DwEJlSj+vchl4Pil76R1HuoJzVGKaYgsh0DPIRATbJRAsRdWnyylozDIMxxcfa2z8Y8c0n2TEYr26D4R4jhkDbRXPXMCZgiDdthMxC/Ef9kdwnGoNXiIJTckqS7Ptcp3tZuaKNnARI8NS6xeV6yMWkeAVBwI9J6bWTnyiUKhUHGQkgRdn/AwDPimrfX1y5eBHTuqdHjyprXXoFEDVKtMHKMDd4YB19L8eiYHKgomxwply67oKRAShoGnVWsQG9QzPTHSa9AsYdCKOE0ErBaGQY2z7NGfxZJIOFRzv9QIhXqKhMmvnfhzLXcvVltHzarbaqN2dItWMmBuRnc0pgCQ3GbVvii6QcOKk5DuYcVWX98uQiohY1raZ+fQ4lTDiq0cTmzEoM8Kk0a7hk5SQVA+Vihndseu9cQOGCUOGi0MWq3eOVoApABQHqasNCxWbrix3FBjOQ9fkobYahRebFRosRZhxYA5ocVmhRXHIx0cHiLQsOKYsOIPLwfhVYQVsxk43mdtWuehntAcpSRET61LZDn4B1ztqLBi3RYI1hmt1hvUAi2FQSO8+KzgKZgwvIfj4LvsasuFO0a8BKkwKB+zy5lT0GVSxHHIucJ69cxInCgMWqF9j+BUz8BYL7hkL4HlUOfKqyGwnKLfJXtZEaX3W6lNcj0J5XoRWsmD0Kr3VA1GO2iYMTezgxMKRQdYov5F0Y30HcVSqhDRtQxrpBkGYk5N6dGbhcQpO6DlPdJCGNRiIGY3b0ErDD5lDZQJA5JXEyDWeBZExUCKEyGEAZtfE4QwsEDTYDhOFQbNxM4ioG55xzBw1aypecijVunVa85auSzI8SqUu+txbJ1K5E0oZ1djObsZJ9tRWM4OxsmuEbkOQHUExZg0N4vMa2zqY0GhOAYaVpyEdAkrNlwY1Bgr7FYci57hxU4MJ9baW1BPzJ4wAvYLi6SCYOpYodw5DbvVI6viNGHQzLpmB0GQtkXaooV4JTcEWe615IQcJws3TibeGbmLsZI8VvJdI8KKAXWhxXYKK66MkwVCGlYcE1a8Ybj6sOKL/5nWeagntsvRJ554Ak2bNoXX60W3bt3w5ZdfJvz+G2+8gTZt2sDr9aJDhw549913DUqpPWCIecKgyLngv+w6iJzL2AsbgF3Ci50kDOodHmSF8CO5uwNWwOVCxt/HAi7j6xkNG6ZYGU0nRy4XckeaU8/SASOEQTPaeKtuJGLVEFzicqHBmOtAHFTPtMhruWVI7rnlhBwnCzdONl6Rkw45YcZa75hsdhnXCrVzOivMzeiGJemByAIiS1S8zE65s7GVOPj666/j9ttvx6xZs/DNN9/g7LPPRv/+/fHHH3/E/f6mTZtwzTXXYPz48di6dSsuu+wyXHbZZfjuu+8MTrm1iAiCsaKgnRthLbw/bKLlWS6cOFW0FAb1wgoTIlWioEnQtQS1x+zy52Ss7D1hB4zwGjRKGDQKK4mBVhQAKeWouTdKhcLE35EnEiY8h4x0JELOWEJrgVAOWjks6bnxaqI5gx3GlHaem1IodsVWYcXdunXDueeei3/84x8AJLfURo0aYfLkyZg+fXqV71999dUoLi7Gv//97+h75513Hjp27IgVK1bIuqYTw4pjhTAnNLxadnBWDy/W6nRWWGdQC2FQb1HQbOwweAOoEKg3ViiLTscudc0qOCmU2Ij6ZbYQmO5tSEjncsTJ3PlXD+SGwSYLPZZznmThxqmEGqe6k3Gy88u9jtzvGBVSDMgJEXbGrsWJsIsTRzJoWHG5tpK76UoQvlTx70XWhxM91qR1HuqJbXI0EAjg66+/Rp8+faLvMQyDPn36YPPmzXF/s3nz5grfB4D+/ftX+32nE+stCJgvDIouN8quvhmiy636HHRCZw5mC4N6ejeY7TkR8RLUrGy73MgYezOQQj2LB/UQNIZ0n9QbRaoTJOJyI3/CzSAa1zMrQoVB+ZjlIWh3T8CQSOK+eJcHDW+4GbzLU+134r3MSm+qLznIvdfJyqJcT8JEpOJFmOz6csYbWnkQ2rHOVIfSuZ4WczM9MHvOStEe0UVUvyj6YRtx8K+//gLP8ygoKKjwfkFBAQ4fPhz3N4cPH1b0fQDw+/04depU9HX69GkAgMi5w39d0XUYRJc7utV7hWO3p+Ixw4aPvRDDCrfoiT32QSSxxwRi5BiQ/vf4pM8JU37MMBA93vJjd+SYhej2AAAIx4F4PGCItD19pLHnmfJj02xyeUBOHoUoiopsElmu/JiLtSOBTRxX9TiOTQxJYJM3xiZvjE3eGJu8MffJ6wPLkKo2eYy1qbIdAc5b/sjT6yvfxdbrAwgpPwak/6PHTPkxwwBhOyocsywQtgMsV37McYDbXX4cGXRwLukFSO+F7YA79tgjnSt6HH7M6om1QxubeJNt4l3a2wS3G+LxowCBeptcrvK11FxuBJiqNpEYm0iMTSTmPhFv7HG5TSTGJhJjE4mxicTYRLzl94nE2ERibCIKbYp3nyxhkyfGJk+5TUSBTSTWJk+MTR5qU6xNXEaMTb4Ym3zJbYLLBf7YUYgMU61NJI5NRCubfDE2+WLuk0+9TfHuU4iNbxNxuaLrwGlhEy8SMDE2MTE2MTE2MTE2MQptEmLHSWGbSAKbSIxNRIZN/vAQm4m5T6nYxMTYxMTYxIRtEsLjCF6MY5M7jk3u+DYxHk+F44hNFeyobBMj0yamok2CxycJYYSNHvMMF7WJcJWOOQ7BY0dBGCapTUwCm4iONlW4T+FjEnOfqtiU4D5FBFGelY7l3CfRk8AmwsAvAEFP9TbxIhLWJ8Edfl9hGxFp93gBCdtynknc5wbdicdGvAB5Y6MYmwwd7zFVx7CpzjWAxPMn3lX9XIMXKs4PRYYFTh8HBMFy81zelWT+FGsHa4F5bjybIuWVApFRs94ggegUN1KLQktoJebPn4+cnJzoq2HDhgCAwNDR0t9LRyJw6UgAgP+KCQj0HQ4AKBt5K4IXDpSOx92N0Lk9AQClN88G36GrdDx1AfizigAAJTOWQWjcEgBQPOcZCAUNpOOFr0DMzgc8PhQvfAXw+CBm50vHAISCBiie84x03LglSmYsAwDwZxWhdOoC6bhDV5TdPBsMAYJdeqJk7N1S2i8YiNIRt0rHfYfDf8UEU20qeegFeN57HWKturJsKr15NgAgdG5PlI2TbApdOBCBUZJNob7DEbxSsik4ZCSCQySbgldOQChsU2DUrQiFbQqMvxt8V8km/6TZEIokm4J3LoAYtilw7zKIYZsCc5+BGLYpsOgVICcf8PqkY68PyMmXjgGIBQ0QmCvZhCatwN8v2SS2LgJ/10Lp+Oxu4CfPkY679YQwcZp0fNEgCKOnSPnRbziEqySbhKGjIA4bJX3nbxMg9pdsEsdMAS4aJB1fPw3oJtkk3joHOLubdHzXQqC1ZBM7ZxnQtJV0vGAlUFeyiVu6OmoTt3R11CZu6WrJjroNwC5YKU08mraCe65kE2lTBNcMySamYze4pko2Md17wnWTZBPbcxC4sZJNzIDhcI2QbHJdMQquKySbXCMmgBsk2eQeNwVcL8km983TwPaQbPLcMQfoKNnku3ch2LaSTRnzloFpJtlUY/FKMPUkmzKfWA2SK9mU+YRkE8nNl44BMPUaoMbilZJ9TVsh6wHJJq5tETLvk2ziOnVDjTslm1w9eiLjFskm9yWDkDFesskzeDh8IyWbvMNHwTtcssk3cgI8gyWbMsZPgfsSyaaMW6bBFbapxp1zwHXqBl4AsmcuhKtQsin3oWXgwjblPbYSbNim/BXlNuWvKLcpf4VkE1uvAfIek2zimrVC7rzHUPrW63CdVYjsmZJNrnO6IftuySbP+T2RNVmyydt7EDInSjb5Lh2OjFGSTRnDRyEjbJN35ARkDpFsyr1+CjL6SDblTpkG3wWSTXnT58BzjnSf8mcthLudZFOtBcvgai7ZVHvpSnD1JZsKnl4NJjcfxOtDwdOrQbw+MLn5KHhasomr3wC1l0o2uZq3Qq0F0n1ytytC/izJJs853ZA3XbLJd0FP5E6RbMroMwi510s2ZQ4ZjuxrJZuyrhqFrKskm7Kvta5NtaZJNmVc0BP5t0o2ZfYZhLwbJJuyhgxH7mjJppyrRiEnbFPu6AnICtuUd8MUZIZtyr91GjLCNtWaNgfezpJNtWcvhCdsU8HCZXCHbar7eLlN9Z8pt6n+M+U21X+m3Ka6j0s2uZu3QsFCySZPuyLUni3Z5O1sbZu4DB/YvHw0WinZ5KrfAA2WldtUb5Fkk7ddEQrmSjb5OndDnbvvx8k3X0eN7heg1m2STVl9B6HmjZJNOUOHI2+MZFPu30Yh92+STXljJiBnqGRTzRunIKuvZFOt26ahxoWSTXVmzIEvbFPB3IXwhm2qt6jcpgbLVsIVtqnRytVg8/JBfD40WrkaxKfSphnSfapxYU/Uum0aQiKQ028Qat8k2ZQ3bDhqXifZlHf1KORdLdlU87oJyBsm2VT7pinI6SfZVDB1GrLCNtW7Zw5qdJFsajBvIXztJZsaLVoGTwvJpqb/eAbuBpJNLZ57BVxePhifDy2eewWMzwcuLx8tnpP6XHeDBmj6D6nP9bZoiSaLJZsy2heh0QPSOCKzS1c0uGc2ACD7op5ocLs0jsjtNxD1bpbGETUvG46CsZJNtf8+ErX/Lo0jCsZOQM3LJJvq3XwrcvtJ44gGt9+NnIskmxrfOxtZXaRxRJMHFiCrg2RT68eWIaOFNI4oXP4MPGGbOrzwClxhmzq8INnkystHhxckmzwNGqBwuWRTRouWaP2YZFNWhyK0ekiyKefcrmh+/2zwIpB/UU80v1OyqfaAgWh6i2RT3cuHo9E4yab6I0ai/gjJpkbjJqDu5ZJNTW+5FbUHSDY1v/Nu5IdtajlzNnLPlWxq/VC5TYVLlqFGS8mmDiuegTdc9jq+WG5TxxfLber4omSTt34DdFjxDEIigbdFKxQtfVyyo0MRCudLNuV27Yo2M2cBAGpdfDFa3SXZVDBgIJrddBMO/N//od7QoWgybrxkx4iRaBS2qcm48ah/xRWSHZMnoyBsU6u77katiy8GALSZOQu5XSWbCucvQE7YpqKljyMzbFOnp56GL2xTl5dehisvD4zPhy4vvRy2KQ9dXnoZAOCr3wCdnnoaAJDZsqVim5pPnizdmyuuSGpTk1tuRc3+g5Lep4z2yctepD6dtaq8Pp21SrpPbP3E9YkXCWp06YZ690htRNaFPVEwVWr3cvolb/fktOWJ+txkY6OcJ8vHRjlPlo/3sh+R2j2mWStkzJNsYtsWwXev1O6xnbrBFx7vsT16wn2zZBPXaxDc4ySbuEHlY1j28lFgL5ds4v4+AexAySZu7BSwPSWbmBungZwn2cROnQMSHsOy0xeCtJFsEmcuA5pINokPlo/LxUfLx+X8I+Xjcv6R8nE5/4Bkk9i4JQL3hucaZxUheKdU9oSirgjeMhsAwHfticD4qvOn2DlhcODVIG4PCB+y5DxXEIFQh64ouUmyqbp5rr/PcJSFbfIPHgn/YKk+lV0xAf4+kk2lI25F4ALJppKxdyPYRbKp5KbZCIVtKp66AHwryaYz05eBbyTZdHp2uU2nF5TbdHpBuU2nF5TbdHq2ZBPfsDkoFK0IBoP4/fffsXPnThw7dkyTc9pmzcFAIICMjAysWbMGl112WfT9MWPG4MSJE/jXv/5V5TeNGzfG7bffjttuuy363qxZs/DWW2/h22+/jXsdv98Pv98f/V8URYSCAXzbpxDiyWPRJw8kFJSeSAgCCB+qeOz2ADxffhwKgQi89BQnFAARBOlJSDBy7AMCfhAxclwGiCLg8QH+UunJl9sL4i+Vnji4PdIxwwAuN4i/TDrm3CCBMumJKMeBBPzSUxCWLT9mGJBgQHoyFz42yyaxRjb8V06EZ/UyEMIktElk4tsUYjjJCyIYkLznSDU2iQJIKFTxuBqbeFc1Nnl9gD9sk9cH+MM2eX1AWfg+ebwgZeH75PGAlJUiBFLRpuhxNfeJq94mQVRnU6wdAU46hiBIaff7ATFyHN8m6ViyiS8tlZ52utzS92OPWVZ6QhrwS39ZVjrmpPKGQABC+J4hGCh/4hoKSucQBSAUkp66CpFjySbw0jEfCkn/e2Lt8AIB9TahrBQ8kbzsUKbcJnCp2QQ+BD6ovU1gGKBGJjJH34Azzy4DRKizKeK5FQwiwMa3ibg9EMM2ScfSfSIeL8SwTcTrhRiIHPsghm2SjiWbiNcHMWwT8XjDx5I3lhi2ibjdEMP3ibjc0m9ZFoTlIIZtIiwrHcuwqbr7ZAWbBJaTzslyIBwrHXMcCMNI15VhE3G7IUZs8ngghsI2eTwQQybcJ876NgluL8TSsE1ej3ScwCbGl4H8cTfi6DP/kDwu4thECCOlJ8Ym4nJD1MImnw9iWdgmn09KoyhKx6Xh++RVZlPl+xQsq96miOeWqJFNPC+C8fkghG2SjiWbGJ8PQtgmxusNHzNgvB7pWIZNPFNe9ki4jRADAem4GpsgChDDNkEIH1djU9DlhRC2ifF6IYTvUyo2MW639H2GAeNyQ4iUPY5DsEyyg7AshHg2RY5jbYq1I+aY8UjtXuRYCNtUwY7KNvn9MfYlsIlhILi98W0KH5PwfYrYEWsT6/Wi6Q034NflyyGEQgltYsJlL55NYigEUUObGE8190mGTYRhIMi8TxGbWD6Y9D6xYuKy5wokLnsuX+L6xHJMtW25i03c7rGexG05KyTuc12hxGMjNiPx2Ihlk4/3WC7x2Ijhk4/3WD7OeC8UAoTy8Z6bJJ9rMEg81+AClecXVedPbDDxXINlpWPBVwNlf78ZvpeXSrbZdJ5b4dhCc3eSmY0OH/+c1uvlRdYczN56NYhQqvj3IuPDqU6vp20enj59Gi+//DJee+01fPnllwgEAhBFEYQQNGzYEP369cP111+Pc889V9X5bSMOAtKGJF27dsWyZdJTBEEQ0LhxY9xyyy3VbkhSUlKCd955J/pejx49UFRU5OgNSeR625q9foPIcgheOBCujf8F4UOqzqHHmoNW3pREi1OluhmJFdYb1AOz15jRbf1MjoO39yCUffSuNChNEbrGoLGYXS7TGUV1kuOQ1XcQTn+gTT2zIkatNQjYf71Bo9cZtFM7kcoagITjUDBgII68919JiE1T5GyAkmwzjFQ3KEm0OUkqG5PIuXayzUlSPb+c78jRJKywIYncc0jn0WZupjd2jiqlG5KUaytZ3/5dtTh4+uzX0jIPH330UTz44INo0aIFhgwZgq5du6J+/frw+Xw4duwYvvvuO2zcuBFvvfUWunXrhmXLlqFVq1aKrsHplHZduP322zFmzBh06dIFXbt2xZIlS1BcXIyxY8cCAEaPHo0GDRpg/vz5AIApU6bg4osvxiOPPILBgwfjtddew1dffYWnn37aTDN0RUmDyRBzBULCh+Be/07yL1IsBUvsNRGxCyyjk0AYCqFs3ds6nJhiBLS+mYeiOhkK4fR/nVvPjBQGKZTqEEMhHP43HTdSKHrACwALa8/N7CwMUiipsmXLFvzvf/9Du3bt4n7etWtXjBs3DsuXL8fzzz+PjRs3KhYHbSW3Xn311Vi8eDFmzpyJjh07Ytu2bXjvvfeim47s27cPhw4din6/R48eWL16NZ5++mmcffbZWLNmDd566y20b9/eLBN0RU2DaWYjK7o9KL3x/uhCshQKRQfcHmTdMbN8YW0KhSIbubsYE48HtafNLF+gn0KhxEWO11t1MB4PWt93f3RDDwqFIg+5ziAhjs7NKMYgMupf6cqrr75arTAYSygUwo033ohx48YpvoatPAcB4JZbbsEtt9wS97P169dXee+qq67CVVddpXOqzCcVkc80D0KeB7dts7QWB4VC0QeeR2DLJs3qmZuhocVGQ70HrY8Y4lHyxSZp/TkKxWDSpY0QeR7HNm+S1oKlUNIAw504eB7MVmvOzajXoLNQK/KlszgIAI899himTp1a7eenT5/GgAED8Nlnn6k6f5pnrzPQorE0o8ElfAiuzz+07JoWFH1Is+UhzIcPwf+/D6XFsCkUimJkeQ/yIRSvp/WMQtETMRTCnx99RNcbNJlE6w1S7A3hQ+A207kZhWJV7rnnHrz44otxPysuLsaAAQNw9OhR1een03QbwxBtRT2jBULR7UHJbfMt57ru9CdTchY/TkfkLBxtS9weZN+3gIYV2xzHlk+bkEwgJB4PCmYvoGHFGkHFB2ejVuBiPB4UPvgQDSumUHRCdHtQNpXOzSj6I7iI6lc689JLL+GGG27A229XXOe6uLgY/fv3x59//olPPvlE9fltF1ZM0beBjJzbkDDjUAjuT9527M6OEViGaLpjcbrj5PApXTYl4UMoXfe2ph5NNLTYHJxc9u1AovophkI49e7bjvVo4ojzNiXRsz55GON3LE4HxFAIh/79jmPrGSW9sOTD+lAILovNzagw6ExoWLE6rrzySpw4cQLXXHMN/vOf/6Bnz55Rj8EjR45gw4YNqFevnurzU3FQJgwBkEaNkyENsciDfLs5pVMk8+ZQK7Qksl+NzscmOKES4TDZfZF7qkQDkoCMZUYSeTHJmWwlCi0WZNyzVK+v5rxaX6vaNKTQ6cUt7zyP4JZN6k9aDW6dO2cqPsbHih6E6SRYVls/RR6BrzaBBQyJydBlZ/MkcArLXqpiohLvQV5UVzHk1Ce15dujoBxoISSm2jYYXY9VeQ8KIZz+PFzPLNgWmoWce5+sPCY6R7K6mKxtSDauSZb+ZOMNOeOmZNeQk4fJlsWRcw45gqCcOViieYXSc0nnixzxwHb1czMq5FHkIhKoGi+p7O4dxYQJE3Ds2DEMGzYM//rXvzBz5kwcPHgQGzZsQP369VM6NxUHTcCldIRtU4JJZgai24uSqQtQ47HpIIGylK5VnSiWitACxJ+ApdLxxUun3A4+ERGBUYu0qX2SGREV1U5QIhMTtWsSRkRFvcSTeBMnM4WauOmJl3ceLzLvW4gzD0wD/KnVMz2oTuTQW3ykyCeZUGtFwdJoiMeL/FkLcWzONIgK6plaQSbVvk1LqqvDeg51Kg8vtA5DjhUb9SzfkfuvREjUGr/OfaeWMB4vWj20AL/cMx2CBfszoGqd1jtf5ZSd5MKYvuJfsjQYIf7J/Y6cMWhSMVPmONpoEVBOPopuL0qnLoDvselgg9asY3aeRzN2aGgptuDuu+/GsWPH0Lt3bzRt2hTr169Hw4YNUz4vFQdl4mIJBIMao1S1IqtEsCZrvEUEUeOdF+BCEERF3saKj3o8qRJEbSdgvKDfEzWGJSnf98hYRm0ItJfTpuzJ8VyMBxs2QDfvB4t5skXGF0ntDQUQeH0V2FDAkp4WbMwgOp080OyEr1I7aIbXmuXhAyh7bRVcfED2k/CAYA9BJhG8xv2kXMr7K33OH/Fq0zuUOvb+q/V+TJWMOEKGZdtiPoA/X3peUT1zGnLbjFQFP0AbUS4V4U8rwS8Wo8Q/+R57enkAqjuXyAfg/dfzYPhA9D07i3HxMNO7kXpWliMwgJrnekq6yuXLl2P58uXYu3cvAKBdu3aYOXMmBg4cCAC44YYb8OGHH+LgwYPIzMxEjx49sHDhQrRp06bKuY4ePYqzzz4bBw4cwPHjx5Gbm1vtdZs2bYrffvutwnvz58/H9OnTo/9v374dkyZNwpYtW1C7dm1MnjwZd999d1Kbrrjiigr/u1wu1KpVC1OmTKnw/ptvvpn0XPGg4qBM7BRWbJuGRxTA/rJNOpaZ5ljxSa/OKiI6ap6POg9kY8cqqUyYUhEaWagXFyN4w61SqkKjWpGxOljWmhOmSLGqNhxbFIAftiUMw6o8WJYT2q0HFSfK5qSBkhwq6MZDgBCpZzLbereeyTEIs8P/9X4oJPVp+py7MonCbI1e79EM0VqWOCoKKNuRuD9zGkq8Yo0S/AB53v1qw4nllj81kSZGhf4qiQrSUvhTcs748ygR2P2t1I/FOYlt5pg6ksoDMZKmDzXiITIAdBYHGzZsiAULFqBVq1YQRREvvPAChg0bhq1bt6Jdu3bo3LkzRo4cicaNG+PYsWOYPXs2+vXrh19//RUsW7EhGD9+PIqKinDgwAFZ1547dy4mTpwY/T8rKyt6fOrUKfTr1w99+vTBihUrsGPHDowbNw65ubm4/vrrE543Jyenwv/XXHONrPTIhYqDMmEYWqG1RnB78dcdj6PWI7eCSRJWHBmc69Up6S06BkOipmmPJ5zFnp9hUxTXUhQXgdTFPat4MiZCawEyFaoVLz1euOcuQ2Dm5CphxdUOzK0g/lDvNFsg24PV6Xi9yJi3DCX3TwbKkvRn4byyUmiwWiJepVbwJtVLqLTCg6FEWoUV8l4L5HhrEq8XjRYtw+93TYaYpJ7ZETXDTyuJfUquGe9zJWKfWgHbyDX/lI775eavkvPKmdPEnk/weHH8jseR98itYBKE7juh/6I4nyFDhlT4/8EHH8Ty5cvx+eefo127dhWEuKZNm+KBBx7A2Wefjb1796JFixbRz5YvX44TJ05g5syZ+O9//yvr2llZWahbt27cz1555RUEAgE899xzcLvdaNeuHbZt24ZHH300qTi4atUqWddXCxUHZcIwBCJ9XKIpRAgif/UjYIUgSKW8FSqpOnp0QrEDaj1vrSBqIzgqDaNWa5NW4dRahX2Z7cmYCG81LaiZof1VBMtQAPzTi+OGFStdX9JIMdQKE3KKfGKbjGSep3IngGZ5sKoiGEBwxWKwwar1zOg1yMzACvVVL09Mq4d/WyHvtSSht2YwgL8ej1/PNLm2DutUa30NQH551ErwU1L+U1nXT8l1UtnpVwvxT6s1/tSeG1A2t5B7To4PIHf1YnB8QHenGCYN59WV57vpTKphxadPnwYh5fnp8Xjg8Xiq/R3P83jjjTdQXFyM7t27V/m8uLgYq1atQrNmzdCoUaPo+z/88APmzp2LL774Anv27JGdzgULFmDevHlo3LgxRowYgalTp4LjpInj5s2bcdFFF8HtLh+59O/fHwsXLsTx48eRl5cn+zpaQ8VBmTCE7o6jOaIAdv/P0jGpKKjo1WHEio5GPPVKdZ1BI8KoY9HawxGAJuHUqYR2abEeo1Iqhngbe/GqA2YB+G2nNJGq9JmSey2IqQ3G1WAlz0yKfBJ5niqaZOq9jqimCMDenVJzF27z9N4kiVIRrUWySJ9jl82RzA7x1pLq76UAfs/OhOH7ZtY3Vsc+Um45NEPsA7Tz+tNb9IumwUDxT+24Wu64X835q027IMC97+eK5zdR0HKalkYcZk8qpBpW3LBhQ5w5cyb6/qxZszB79uwq39+xYwe6d++OsrIyZGZmYu3atSgsLIx+/uSTT+Luu+9GcXExWrdujQ8++CAq2vn9flxzzTVYtGgRGjduLFscvPXWW3HOOecgPz8fmzZtwowZM3Do0CE8+uijAIDDhw+jWbNmFX5TUFAQ/aw6cfDGG2/EfffdJ2vjkddffx2hUAgjR46UleYIVByUCcOEC3H0/3DopFV2/7ARkQmT4PHh0N1Pod7DN4Dxl+q2qUgsRnZwgiCqFiD1DqMG4nu36RVSrQUphUqbOGkyXJysdDHR6wP/wEqw900AKStVfVozBmhGhIZbATkiqNHCrBYE+KqTwFR3Q7csXh/YBSvBT58AhOuZ0zy6kuIAcSr2ftklbM4sEVOOGJlqmipfg3h9qL10Jf6cMgFiTH9mFwFXDVqKfUpEQb1DfJX0BerEr9TDfpPlvZp0qRlnKxM9FZ9eukZkXuvx4ci0p1CwUJqbaZUuvVCz7qSZ0CXKtGP//v1VPAfj0bp1a2zbtg0nT57EmjVrMGbMGGzYsCEqEI4cORJ9+/bFoUOHsHjxYvztb3/DZ599Bq/XixkzZqBt27YYNWqUorTdfvvt0eOioiK43W7ccMMNmD9/fkLvxmTUrl0b7dq1w/nnn48hQ4agS5cuqF+/PrxeL44fP44ffvgBn376KV577TXUr18fTz/9tOJrEFEU02noqhhBEHD82FEcGNoaYsmZhN/lOCAUMihhFkSpUCoSBsHa9eH68yCIqM2swiphaGoFDbVis5XXHNJS3FErNFpBYDLiHsWzUyQMxIIGIEcOaFbPjMRoz8tEWCgpijB6AC8nn+SkyU75LRIGqNsAOFyxnlle1EwRq4mfascAZtth9vWVYOp4gzBg6zUAf+gAWGK//kwJWgp+egl9qT60SqVv0mqX31QFwFQequu1JmH0/CoyWCQMQrXrg/vzINgUn/iYJdxZOVyZZGSiwds7kZdfE4zdlE2NiGgr4pG/A6IKpwXiAyl4TXUe9unTBy1atMBTTz1V5bNAIIC8vDysXLkS11xzDTp27IgdO3ZERUhRFCEIAliWxb333os5c+bIuub333+P9u3b46effkLr1q0xevRonDp1Cm+99Vb0O5988gkuueQSHDt2LGFY8ZEjR7By5Uq89tpr+OGHHyp8lpWVhT59+mDChAkYMGCArLRVhnoOyoTjADFJbjEMQSR03CkehUrETuWNsQj2rwNSuGM1ftZK89GsdrbyhERNvySIyvLQ6BBp1Wg4flc7CNPKe1EtWq3jmIjqQ9gF4Mjv0qF1x0vVY9IgL54oaeHxpmqU7KgoB17QbmkCe+W3AByuWs+c6P0aK3haLmRaRTsraLymoBqhz3L5WA28AX1ZYgSwR3639pgnRbQO45W9PqHOnnxyUdMnpSIAaiX+pSZ0Kvt+quJX4p8LYP/cn+T6KV0+fA7jGj3OQmoHsVBazEZQGVYMkniTrqTXFQT4/f64n4miCFEUo5//85//RGlpuYC5ZcsWjBs3Dhs3bqywYUkytm3bBoZhUKdOHQBA9+7dce+99yIYDMLlcgEAPvjgA7Ru3TrpeoMFBQW49957ce+99+L48ePYt28fSktLUatWLbRo0aKCN6UaaBGVCUOSb0jCVAo7tooXm1ziCXF6NKgRwVHw+LDvnhfR+KHR1bquW+XpTzKRMpWOUlAYQhxJipq8SUW0Vn8vtJkZp7J+oxHrNSZCb3EykfgoenwoXvgKakwbCZIkRKQyRi2unhCD29FIFdFaNLM6WpgrlcP0yrcIoteHwKJX4L5rZJXwfb03RjKC2ORbOcRdqacmL8rrv5WM5+wi9CmFFy1gm9eHzCdWo/SWEdHwfadgpneflmv16YHcS6oVAZONEY0I6wWUjbP1uA0MI83N9t/3Eho+cG3SsOKKv009QXqLeFaYU6Yq3DgJI8TBGTNmYODAgWjcuDFOnz6N1atXY/369Vi3bh327NmD119/Hf369UPt2rWxf/9+LFiwAD6fD4MGDQKAKgLgX3/9BQBo27YtcnNzAQBffvklRo8ejY8++ggNGjTA5s2b8cUXX6BXr17IysrC5s2bMXXqVIwaNSoq/I0YMQJz5szB+PHjMW3aNHz33XdYunQpHnvsMUVZkZeXp/nmJVQclEnlNQfjf6dyhbfuZCDeQFfrRrM6ISrS+It8GZouuQEsX2aZJynVeUrq0aFE8kfJgFCQKZBVNw/V2g5Zp9PsminUJxOFeq12q45HRHRMlMVisAyZsyeCBMuqXQi5uvKiZpBrxQ1tkmHUzuVWRotdOtM17wBADJTBO3MiEIhfz8zYGEkrtPQG1ROlmybFWxMzHnIFRMejsB+V40GpWGwMlKH0rglggmWG9A1KMEo41cPDT4v1+YxEjQiYqgBopHef0p9q2T6RQBnqL7oeJFAWc35lCdJS5NNj/mVGe243hyGn8Mcff2D06NE4dOgQcnJyUFRUhHXr1qFv3744ePAgNm7ciCVLluD48eMoKCjARRddhE2bNkU9/ORQUlKCnTt3IhgMApDWPnzttdcwe/Zs+P1+NGvWDFOnTq2wDmFOTg7ef/99TJo0CZ07d0atWrUwc+ZMXH/99ZrngVLomoNJiMTFH7u6LVCaeM3B2MbGio2AEaHOSuwWAQhuH5hAqWnRjmaEf6tZl1JuOs0ud5U7XK3Sk8ptMivEX+91meSaJULyHiT+qvVML4/GVMVQo8LAtSoaRqzBpbeHptqlECgSIgB4fECcehaLldeHjYed7rES70yldjl97chkKA2VVtr3K5qse31AWalpXoxmes4qX6NOG9HPimHcajwBU15/UKVQpVbfUitipSKoJRozAsqFPy3FPT1EPT29CePNP4gvEzXf+ImuOXjsKPzHrgagxgPcB0/+62mdh3piEX8t68MwUPSU0mplVRCMaQCV2M27fdh9xwto9cgYMAFjwkOqrA1o0KPQ2A5CaccaCslLpyCIlit3WqRHrrdk3N8qXMdRK1LZqVoOSry0BI8Px+a9jJr3j6oQIqKnRyOgPEw+Fj3TFSs8alY0DK53ehVpufkux2M13RA9Ppxe8AqypicO309p13UzsJOYqaRAKrwJTlw7UgmKxVG9drr1+sAtXQ1y+4gq4ft6YKU2Tmk4rxahuErPZTRqRMCEXoc6h/WqGRNrOYaVM/8Q3D7smfYimi8cnXBupjRdWs5P9BzXazVvkc4VL4zAopXJBASLzVkpEtRzMAkRdfvkyMKknoNWRLSYt2AsRnkOmuU5lqrXnJJ0O3WX7FTundFelEYWMyX5Ut1TYKM8mCIDcbM9poy4P0Z5PJoh6qazMCKHZN4WlTF7kyQ52O2eK2lj1Npm97Uj1aDGZDliolIPPIaEPXTDnoNat4JWXi9Vr11t5ZzX7DWbE6FGBEwmLBkR0qtG3NJrPb7KaVE6NzPDu1GL68uFJEinqjm2LxO5r/6Y1l5vEW2l9IR6z0FfLvUc1AvqOagAzsIdZGVC4YlHokYtVUQV3oIVfg8CwesDEyoDqbSenJbCjhnegdJ11Z4n8nt56RYE0VI7cWlJKJTKvTNWGDdqXqHUG1IkBIIvA0zID1LhWZCxk1yzwpIigoER98fjqniReONGC88/K8AydC1GJUj1zAcmWFapnsXH47LHGoR2EDGjyGxjUlkfkwm7udnh3qVKRAhVk1fVCX9qzhUr2omEABk1gGDl/kw5dmrTFK93J9M2OcKf1fNJjQgoxyalY3ijBD+9veZEhPuyOHMzvdKlhb6j53xX02tavUIZiMCIUDcXSYMOWCahUAjr16/H7t27MWLECGRlZeHgwYPIzs5GZmamqnM6VFLQHo4jQLDq+2Y0RomICHZ6CplaCY+C24edNy1H4bKxYAKlFZ7A2OVBQAVxKNX8UCi2KhUR7UYqoqfcUGy1qAmj1+7iCr/u8eLI9KdRf26lneccWm6qYt4gwsKbusrCiutMWRXB48Vf9z6DOrNGyd7hUdrFWN90pUpE8LaDGCZXyNQitNsO904NsfmSkiddpQxWc654PxG9XpTNewbeu6vuCi4Hu7Vpam6BEk8/u643GItaEVDu+M2ozThUr2eo8f0R3F7svmUFWj92naoln1JNT6pzSys58oTs9HDNBEJ2HySbzG+//YYBAwZg37598Pv96Nu3L7KysrBw4UL4/X6sWLFC1XlpWHESIq6vJWPbK9qQxGj0DqHUMzzZTo2n1vmg9r7pGSqdKE1GlfFUyrOeeWN2+LaWtpm9eY2R2EHYoKQvZi19oQarCmJqslALr0gb3bq4WPF+6iVG2e15mJpwXiU2yg49tkHGVZfEZGNWJbYZtRGHVuNss8N2tXCeSVXoM9qBR9Yc0ZeJGi98n9YhsRFt5XjpVVAbVpzneyOt8xAALrvsMmRlZeHZZ59FzZo18e2336J58+ZYv349Jk6ciF9++UXVeannoEyUbkhiZIMk6rARRWXhQA97BBEoy2sA7/EDKYeH6EVl4VKLfEjVQ1KPzWWEFNKkR1pSCcnWcyDLceaVU7XekCJhEKxVH66/DoKIUsW24uY1epHKhjYUilxEwiBUuz64P8vrmVwY1h4hxkB5/2A5QVOFyKVlaLcdwq/j2Wo1r7BkbbVIGAgFDcAcOaConll53bxYUumrFIce67D5RmwZM7LfTTSeSWan3qKf2WvyKU2DSAj8+Q3gOVZxbqZ2/qOFJ1+qcy89x7ux82VZ6aQDUopGbNy4EZs2bYLb7a7wftOmTXHgwAHV56XioAqUNFJ6CRWxA3OthTs9xMZYIg2p6Pbh56vnoMNzk8EEjdmtOBHxnvho0alpJTCmusZjPLQOTU41bamLe/pO0BiGmOZxp1aYFNwe7Jv4IJotuTEaIpLaWo7molSUSBcRlGIugseDP254CA0W3yA7rDgWBvby5rWeoKkuMZGoplQ96Ky2hmQ8sdLqc1I5Ap7g8eLElPnIfeB62fXM6nZrIdAqFqx0ypPY8xrZ9yayX674p7foZ7YnISBv/iG4fdgzch7aPD0pblhxKvMiK4h8qaQh3jwxWZrs1K8bjcio67kt3qQbhiAI4Pmqu3/t378fWVlZqs9Lw4qTEHF99U/sUCWsWG1DT1Jo3BQ6JChCb08AI3ZOloudwrC1Drs2+j7I7Yi1SJcRnbAZHjNa2mU5j58wZodsUyhWwKr1MxFmT360yjIt896scF0bFh8A+olVVvOMBLR3GlC1J4LO+WJ0KHIyAVCRl6QBop+ZobqAM7z5rLbmfywJ5zO+THif/S6tQ2Ij2spfgSshqggrJvChlntNWuchAFx99dXIycnB008/jaysLGzfvh21a9fGsGHD0LhxY6xatUrVeannoEwYQqrtgVMR+5Six7VEjb3HKhMZcFduyEXCoLhOc9T4Y4/iMCw5JGqcrR6GHZt2rRbXNWIHa7lUtikUEjVJF2PA5hPmeA+qt0skDMrqt4D34O5wPTP//gNVJ+JO3XGbkh5I9awlvAd3pdifEdsJ5WaHGke681TbZS13IjYrTyqv727FNQUro0TAExkGwYYt4dq/CyTJDbfCWnl6JsEK4aqVMasfl2OT3qKfmvth9uYb8a4vEgbFBS1Q48huWX2ZFUQ+K9R1oPr5bgUsklaK/Vm8eDEGDBiAwsJClJWVYcSIEfjll19Qq1YtvPrqq6rPS6djMiEy1hxkXfZRr/lgeYOvl7iZTHTkXR7s6jcFZ//f3WCCZZpdV1bjrAFa766seN0KGeghMuqBdgKoJqdJCssY54GZaqg17/bgwOW3o8XK24GyUtPCbCvP46wymKNQtEBwe3DkytvR9KmpYAKp9Wexy8fYy5PQXGFTK0EutonUSnAEzPHqq9zeW608Ke0HBLcHJ0beiTqPTUlYz8zoXozqW1PpO/US78zsz60m+qkZv1th442InbzLjV8H3or2q+9SNDezkshnpNNOrH6aLP1Wa3/NhqdhxSnRqFEjfPvtt3j99dfx7bff4syZMxg/fjxGjhwJn8+n+rw0rDgJEddXcXJHoCzxbsURCGu9Yivyxt3mWOHRSPQMuQa0b9T1FJfMDvMyE6NEOyN22dbSFr1Ck+MNhugAiELRHju161ZpA7QSK/Wwxyr30xTRUq8172wg0KklVWFPjzRbIaLPqLX8lIpfagQ/s0N1tUiDlA7riHx6OO4onedWmJ96M+F6entah8RGtJVDgvqw4npMeocVB4NBtGnTBv/+97/Rtm1bTc9NPQdlQlgCKBT9zAzfrCwqGCVYirwouyEWCYMT9doh99D3moQV6y1KMho+qxAEbcJo46H3hjJWRzDomZLLTXQXIrWY2IqEwZnG7VFj7w4Nw/cT5zH1CqSkGyJhUNy0g8b1rCJmh+8qIdIGmC2ARbwwU8+z8jZNK8HRKl59lYcLet6zVMcmIsOgrHkHePfsqBBWrHefY+Vw2eTn0CAhcc9rbj9vhhCmVPBTen4rhOgSlsXJBu2QcyD1uZmWHnxaiXyJ5sNyHWmUpIUPChXzIY3nZxTtcLlcKCvTLuoyFsXd3a+//oqNGzfit99+Q0lJCWrXro1OnTqhe/fu8Hq9eqTRGjCpNbqMzuKcUKlBM0OYFAVRkQgpcG7s7ToCZ/93DpiQP7VrKxAl1VClcU8BMeUdeRNjEWcE0zAy5Bc6rz+oxYSEd7lxuNdoNH/lXjDB1OoZQMVnCiUevMuFI5dci+Yva1PPEmEV4U0ODGMNMVPLPNNOcKxM5bV4NT69TKpr39Xaq+V4R3B7cGLgdaj3zD1gAmW6inZ2CpWNfw590m92/6/1/MZqgl/q3oOp/Z5nXdjXYyTavzUr5blZZbScp+nh9KL1OePOTW20BJneBBkRIlHerxAa9AoAmDRpEhYuXIiVK1eC07AzlB1W/Morr2Dp0qX46quvUFBQgPr168Pn8+HYsWPYvXs3vF4vRo4ciWnTpqFJkyaaJdBsIq6vzF3ngJQV63INNY2RUWHClUVHq6K3GKRlfuvt4ah3eLVdMGpCqnfZ00oAsPIO2hQKRT1G70CvFquJmVr2EUbZZgWh1Qo4VfiysqcgYP6GdnqtnW01wS/VcmDVcNx4aCXImV024xG3b/ZmAku2pnVIbERb2UuGQyQqwopFH5qK/0zrPASAyy+/HB999BEyMzPRoUMH1KhRo8Lnb775pqrzypIZO3XqBLfbjeuuuw7//Oc/0ahRowqf+/1+bN68Ga+99hq6dOmCJ598EldddZWqBFkVwhDD1xKMNHTxGhe90lJZBNPT41EgLI427ISa+7eCEXn15+H1C9EFlHtEJjyXzh6OEcxa99FKaBkGnvhCRNcJW6o7MAsMixPNuiD316+AkPp6FovLXZ63dhEmKBQ9ERkWJ5p3Qe6er0AEbeqZfKT6aHXRPrIrrVXaDC29CY0K+a4sGlhNcNUbwrE4fda5yPp5i6b1zCwvQS3ntXqOg83e0E5v4ccI7z6lZSxVgU/tXEMgLI41Pgf5+74ByxjfwGiy5qHJa/9HHGvi7gadvlpWFXgGEFXcKiICMHqYZUFyc3MxfPhwzc8rSxxcsGAB+vfvX+3nHo8HPXv2RM+ePfHggw9i7969WqXPMhCGmPZUQm/hq8K1jGxQWQ772/RHzSM7QHh1HZDIi/qHbOt6dn3gWBaAsRvRWBGjRFKWIfp5bKYqPnIuHOk4CLm/fwtGD9GimvYp3SatlPRG4Fz485zByNn3LZiQOYU/ItpbRXyrHmuJmWzMZC3VvDM65Nsq6xbqTTRfXS4c73opsn/dBkaD/t1opxM9xvN6Cndme2MZeX/09u5TI/al6kygak7HcTjYfiDyD28HQgFTy4BW8zul+ZDq3ClRukWW2HJeSbEeq1at0uW8dLfiJERcX92zuoL49QkrNhIh4KwmyU7hxGaFaFt/oqgfTtmlWyvh0WoTx3QumxSKnthFnLdqG6ClcGmmjXYpB9WhlzhklOBhZ+HO7Gg9o0UpNd6jSgU/pWKfFg4bTvDEi2B0BJ8eiJ4a4Bd+ndYhsRFtZRc3HIKKsGJG9KFliIYV64Xq1Qv/+OMP/PHHHxAqjTyKiopSTpQVISwDwtqvAIqVPPIYt3VsEAiLQ426o97vm1WFFQsBwfSnmnIxwsOxWlhim7UjtUTLcHA5cCyrqxipVnwUGBZ/tboQtX7ZCFbgrbUmpcz6azVRk0KpjMCwONr6QtTcuVEfD12FaOkNpysxbYCVhCxtl06I3enY2HsRb9hq6fKAxGKGwLA40e4i5H7/P1X1zKjwWDsLd2aPq80K8VYbxqu34Ge0uCcwLI40PR8Fez+rUMesKMyZXVZVYcc06wRPAEFFdli7BzOOZs2agZDqM3DPnj2qzqtYHPz6668xZswY/Pjjj4g4HRJCIIoiCCHgefMHxXpAWOPXHFRDZXHC0oIm68If9bug3uGvQBSKKiIv6C502kl8TAbLkrQLMTZjnkkYotvEi4XK8s65cKxFN9TZ9znYkGjL9SjZJPXQUoInJS0ROReOt+iGWrs/Ny2suFp0XhdVK6y2JmEUDUOFrbFeq33HNTznwqnW56HmL5vBKqhnRozljHJg0dMWM3doBrTZSEMNqYTvqpkbKg5hTnH+qSiNLIc/G5+Lgv1fVFnyyepzIis5wFSHaIM0UuzBbbfdVuH/YDCIrVu34r333sNdd92l+ryKw4rPPvtstGjRAtOmTUNBQUEVxdJJOxUD5a6vvvk9QALWCytON8Engt52V/a4TAUrhXJbbtKlE2bXCz08NbW8d2bnjxnYURRVg9xJTrrkB6UidhPSrShq6tWPWslz0inoLdjZIfRVLmYJc4BxO+NWxqydcpWKfVYJL46HVQU5qzrHiJ4a8M/8PK1DYiPayo8e9WHFbf00rLg6nnjiCXz11Veq1yRU7Dm4Z88e/POf/0TLli1VXZCiLXbwZqwOgXDY1+hiNP59AxgxJPt3Im9EuKh2jQ3j1uxUmmElwVJrjA4njocuXZXK8HCB4XDwrN6o//NHYASpnunp4WhVIpv0JMLqoqmW5To2P6xutx0QGA6H2vRBvZ8+jNYzK2MXcTjWa9gywmaFUGjt6o4dQ4CNRmA4/NGhH+rseD9hPdM/rNf4MYae4p3dxTlV19b4Huot+GkSXixDyBMYDvub9kLDvZ9o1pdZVahTS0rl1sbzdq0JMurCihnaLSZk4MCBmDFjhnHiYO/evfHtt9+mnThol7BiW8EwOJnbHDi0EURN66AT2ouP1usUWR+jqXeklbCC8KmX+KamJIksi9O1W4LsWQ8mdtmHcBlPx/Uoq0PO4FvPybpZITuR61IhIgVYFqcLWqLerk9AbLC8it13tLeKuMlG645OF6jUJljRk9JQOBbF9VoBP34EEqpYz/QW7OwY8ioHs+Y2ZvV3eq7/rbfgp4WXXlKhjmFxMr8FGv7+PxBiXDtL59jpB08IhARr5lWHqGBpjOXLl2P58uXYu3cvAKBdu3aYOXMmBg4ciGPHjmHWrFl4//33sW/fPtSuXRuXXXYZ5s2bh5ycnOg5tmzZgunTp+Prr78GIQRdu3bFww8/jLPPPjvuNffu3YtmzZrF/ez//u//cNVVVwFA3PUCX331Vfz973+XbV881qxZg/z8fNW/VxxW/Ndff2HMmDHo2rUr2rdvD5fLVeHzoUOHqk6MFYm4vtZ45EJLhhWnG0YIWnpMlqw6AbNqutRiNcFTD6HSTjt0U+wLFY3TCzsLw1Zrs4wWLi3jUWkS1KMuheuYINCZufOt3vmqJj+VCn5aeOHZUYizY5rjIbproHTGprQOiY1oK1szrlQdVtypZI2sPHznnXfAsixatWoFURTxwgsvYNGiRdi6dStEUcSsWbNw3XXXobCwEL/99htuvPFGFBUVYc2aNQCAM2fOoEmTJhg6dCimT5+OUCiEWbNm4dNPP8Xvv/9eRQcDAJ7n8eeff1Z47+mnn8aiRYtw6NAhZGZmApDEwVWrVmHAgAHR7+Xm5sLr9crKh06dOlUQGEVRxOHDh/Hnn3/iySefxPXXXy/rPJVRLA6+8847uPbaa3Hq1KmqJ3PghiSRApy57GIqDmoMTzjsadAXzQ98AFZGWLFogEeYXuKS1SYvsVg5bUqxoi1alymlgqPAcPit9SA02fmu4hAROwsGFO2wYr2yGgLDYV/hYDT+4T+2CCuuDruLwlZqs2i90R6B4bC/aAgabn9H13pmhhBh+PqFZtiYBl6KRoh9mqxBWM05BMJhT7P+aP7rOkVLPlkBOwiIorsGSu7+jIqDx47i6xrqxcHOxfLEwXjk5+dj0aJFGD9+fJXP3njjDYwaNQrFxcXgOA5fffUVzj33XOzbtw+NGjUCAOzYsQNFRUX45ZdfZEfSdurUCeeccw6effbZ6HuEEKxduxaXXXaZYhsAYPbs2RXEQYZhULt2bfTs2RNt2rRRdU5ARVjx5MmTMWrUKNx///0oKChQfWGlHDt2DJMnT8Y777wDhmEwfPhwLF26NKq+xqNnz57YsGFDhfduuOEGrFixQvH1aVix9hDCoMyTC8IyIKKMvDVi0duAPqcl4eW9rObZBpR3pnQiow+EZTXNW6VrWIoMi0CNfBA3CybFFe+tELJNMR4adiwDhoE/Ix9gmbihInaBtXt/EDNOM1voJBXWS7RpfloNlkGgRj7AMSC89vUsXTzpjJ7PmBZCbMJmGUaJfboJhAwDvzdPqmMWWvJJKZZd59Cq6TIBgRDwqsZL6solz/N44403UFxcjO7du8f9zsmTJ5GdnQ2OkySy1q1bo2bNmnj22Wdxzz33gOd5PPvss2jbti2aNm0q67pff/01tm3bhieeeKLKZ5MmTcKECRPQvHlz3HjjjRg7dqzsMeTs2bNlfU8pisXBo0ePYurUqYYKgwAwcuRIHDp0CB988AGCwSDGjh2L66+/HqtXr074u4kTJ2Lu3LnR/zMyMlRdnzCMdRsam8KBx9m//194IbXEeSvygu6DGZEXQXQeSBAwhnhAqoGw1hQvlUBYYt9JrUyUio0ceBR+/7LUl6bYhrG+ir+3e3mhqIcKxRXhEELbrS9I/5g0EdYSJwjCbMyYwfR+ga7xqgmcGMJZX4YXWdeonqWDOFfh2hb2otMSs+Zsau+teQJhxXziwKPDrlc1GTPaHV3mhBbd3dmOnD59uoKQ5vF44PF4qnxvx44d6N69O8rKypCZmYm1a9eisLCwyvf++usvzJs3r0I4blZWFtavXx9dixAAWrVqhXXr1kUFxGRExMQePXpUeH/u3Lm45JJLkJGRgffffx8333wzzpw5g1tvvVXWeVmWxaFDh1CnTp0K7x89ehR16tRRHc2rWBy84oor8Mknn6BFixaqLqiGH3/8Ee+99x62bNmCLl26AACWLVuGQYMGYfHixahfv361v83IyEDdunWNSqo8qAciACmseGe9QWh96N3EYcW8aFAnb8xkl/i09STTEiuLl/KxXvrNFC15hsOuVpeh5S9vgdU4DIvQHW/TlohQTAViCZ7hsLvNFWjx05ua1zOrYGdB2CpefJYSLG2IwHDYU3Qlmm9fk3JYcbp4z8VipFhnN3HO7OuqEwe1zWPiZsATDj83HoKz9r0ja8knCkUtPJFeamnYsCHOnDkT/X/WrFlxvelat26Nbdu24eTJk1izZg3GjBmDDRs2VBAIT506hcGDB6OwsLDCOUpLSzF+/Hicf/75ePXVV8HzPBYvXozBgwdjy5Yt8Pl8CdNYWlqK1atX4/7776/yWex7nTp1QnFxMRYtWiRbHKxuZUC/3w+3W2GYWQyKxcGzzjoLM2bMwKeffooOHTpUWYhRrkFK2Lx5M3Jzc6PCIAD06dMHDMPgiy++wOWXX17tb1955RW8/PLLqFu3LoYMGYL7778/ofeg3++H3++P/h/JeJ5zgRMIeCJlGSuGwBMXAAGsyFc4DjFuMCIPJnIshMBAqHTsASMEwUBAkPGAEwIgEKPHgIgQ4wEn+AEQhBg3XIIfYvjYTQIQwEBgXOAEf/iYAyeE3yccODEAgbAQwIITA+AJC4ABKwbDxyRsR6xNHACxqk3EDQZhm4gbjKiBTawXIARgGYSIF66oHeU28SILDoGK9hEWAmHBCfFsihwrvE+iCwy0v0/xbBIYDhwbCNvHxLeJMGAFmTYxLkCspuyJITCiMpuIjyDEeMAGy8L3yQMXXybZFD6utuyRcNmrYhMHEBK2iQuXvXg2idIx4wJE6VipTSE2A2xpKQhEhFgvWN4PQATPesHykk086wEXtilyLICBwLrA8fJsEggHMWxT7HEFmxgXiCiCEUMQXC4gxINJZBMbtqPKsWRHrE0iLyS3iTDgOS8IAUSOBQ9Osk+pTUzYJqGiTRWOXZ4KNpFQPDsS2yTrPpFw2YvYEXMsMhxYXrJJZNjwcQo2sW4QQbJJOlZ+n5xuE2G5cjt4gOc84EIqbGI4iAjbFHNcxSaIYCofK7WJ84INhW0KHwMieM4LNhS+T2E7xJjjRDYJnFfapZxzQQDnCJuq3Cc2vk1M0F+9TawbRBSqsSncXhhmU2wdko5JaZlkB2Gq3DPNbOK8YPhAFZt4t6+KTaKA6m1i3XHsq2pT1A4TbFJ8nxTaxLNuEAZSfyowqmwSXB4QgQcxwCZ4Pebep/AxywAhzgvo3UbwAYicCyIhYAzun3i3T5M+V+nYiLAkoU1KxnssA+XjCJ9P83G5EI7mqjwuJ4yo2VxD9fwpoU3mzp9k2RTzUD3dEVTuVkzCYcX79++v4jkYD7fbHV0bsHPnztiyZQuWLl2Kp556CoDkgThgwABkZWVh7dq1FbSt1atXY+/evdi8eXN0fcPVq1cjLy8P//rXv5LuLLxmzRqUlJRg9OjRSe3q1q0b5s2bB7/fX60tAPD4448DkNYsXLlyZYUl9niex//+97+U1hxU/MghkogNGzbgH//4Bx577LHoa8mSJaoTkojDhw9XcZnkOA75+fk4fPhwtb8bMWIEXn75ZXzyySeYMWMGXnrpJYwaNSrhtebPn4+cnJzoq2HDhgCAHxsMBWEJdtYfjJ31B4OwBN83vAK76/YBYQm+bTIC+2pfAMISfNN0LA7UPBeEJfiixY04ktcBhCX4rNVtOJpzFghLsKHNNJzKbAzCEnxcOAvFGQUgLMH7HebD78kB7/Li/Q7zwbu88Hty8H6H+SAsQXFGAT4unAUAOOlrhPWt7gYA/JXZCp82nyLlV3Z7fN7sBgDA/twu+LrxdQCA3/LPx7aG1wAAdtXuje/qXQEA+KlgEH4qGAQA+K7eFdhVuzcAYFvDa/Bb/vkAgK8bX4f9uZI4+3mzG3A4uz0A4NPmU/BXZisAwPpWd+OkT1qs86PWM3HGI92zdYUPoYzLRojxYF3hQwgxHpRx2fiw7Vy0O/w2St35+Kj1zLg2fdbqNhCW4EheB3zR4kYQluBAzXPxTdOxICzBvtoX4NsmI0BYgt11++D7hleou0+tbsKR/CKAJfiszVQczT0LYAk2FE7HyazGAEvwcYfZOJNRALAE73dcgDJvDkIuL97vuAAhlxdl3hy833EBwBKcySjAxx1mAyzByazG2FA4HWAJjuaehc/aTAVYgiP5RfiyzSQQlsGB2l3xTavxICyDfXUvwrfNR4GwDPY06Icfml4JwjL4udEQ/NxoCAjL4IemV2JPg34gLINvm4/CvroXgbAMvmk1HgdqdwVhGXzZehL+yD8bhGWwqfAOHMttDcIy+F+He3AquwkIy+CTjnNRXKMeCMvgg84Pw+/NBe/y4YPOD0PwZsDvzcGH5z4slb0adbH+nLkgLMGp7CbY2PFeEJbgWF5rbO5wBwhL8EfNs7GlcBIIS3CwTldsbT1euk/1LsT2lqNAWII9Dfvih+ZXgrAEPzcZgp+bDAFhCX5ofiX2NOwLwhJsbzkK++pdCMISbG09HgfrdAVhCbYUTsIfNc8GYQk2d7gDx/Jag7AEGzveG7aJYP05c1GcUw/EzeDD8xfDn5kH3peBD89fDN6XAX9mHj48fzGIm0FxTj180u0BEDeDU/lNsbHL/SBuBsdqt8Hn59wF4mbwR0FHfHX2ZBA3g4P1z8O29hNB3Az2NboYO9qOBnEz2NOsP348628gbga/tByGX1oOA3Ez+PGsv2FPs/4gbgY72o7GvkY9QVgG2zrcgIP1zwNhGXzVaQr+rNMJhGXwRee7caxmWxCWwafdZuJUTjMQlsH6Hg+iOEu6Tx9d9CgCvjyIvhr4uNdjEH01EMzMx8e9HgNhCUqy6mHDhQ+BsASnc5vi8273os2eN3EqvyW+6Ho3CEvwZ0FHfN15CghLcKjBefi24w0gLMHvTS7Gd+2vA2EJfm0+AD+1uRqEJdjV6jLsanUZCEvwU5ur8WvzASAswXftr8PvTS6W6lbHG3CowXkgLMHXnafgr/qdwLgZfNl9Go7XagPCEmy6YDZO5zUFYQn+13M+SrLrgbAEn/RZgkBGLgS3D5/0WQLB7UMgIxef9Fki2ZRdD//rKbWBp/OaYtMFs0FYguO12uDL86ZJNtXthK+7SO3FoYbd8W0nqb34vWlPfF8UtqnlAOws/LvUXpx1GXafJdm0s/Dv+LWlZNP3Rdfh96Y9JZs63YhDDbtLNnW5DX/W7QTCEnx5HrUpnk2lefWx8ZIFYNwMztRqhs0Xz5Fsqt0WW86fDsIS/FWvE77pNlWyqVF3bO8s2bS/aU9831Fq1/e2HIid7cM2tbkcu9tcLtnU/u/Y23KgZFPHsdgftml75xtxqJFk0zfdpuKvepJNW86fjuO120rtxcVzojZtvGRB1Kb1/ZZGbVrfb2nUpvX9lkbv08ZLFkTvU3U2fXvuZLT+eQ3+aHCuY2ySe58YN4s97YZjT7vhYNwsfj57BPaeNUjqqzqNw/7ml4CwDLafezMON+4BwjLY2v0O/FVfave+uvAenKhTCMIy+LzXPJzOby61gX0eRklOfRCWwYaByxCokQfBk4ENA5dB8GQgUCMPGwYuA2EZlOTUx6d9HgZhGZzOb47Pe80DYRmcqFOIry68B4Rl8Ff9Ttja/Q4QlsHhxj2w/dybwfo4HGzTBz91mwDGzWBf4WDsOmckGDeDX4uuxK9FV4JxM9h1zkjsKxwMxs3gp67jcfCs3mDcDL7rcQuOtDgfjJvBtovuxNHG54BxM/im9304Wb+d1Ab2ewDFdZqDcTPYNGgxSvMbgHEz2DjsCQSz8yFmZGDjsCcgZmQglFsTn17+JFgvi7JaDbH50kfAelmU1G2BLQMeBOtlcaphe2ztez9YL4tjTTvj2553gfWy+KPVBfj+gslgvSwOtemDnedNAOtl8Xv7S7G7yyiwXhZ7O16FvR2vAutlsbvLKPze/lKwXhY7z5uAQ236gPWy+P6Cyfij1QVgvSy+7XkXjjXtDNbLYmvf+3GqYXuwXhZbBjyIkrotwHpZbL70EZTVagjWy+LTy59EKLcmkFkDn17+JJBZo1qbztRsji39HwBhCE7ULcQ3fe4DYQiONjwH3158FwhDcKTZ+fju/FtAGIIDrXrjly7XodWO/8OB1v2x65yRIAyJ3ifCEOk+tR0MwhD81HUCDrTqXcUmLe5TMDsfG4c9AcbNoDS/ATYNWgzGzaC4TnN82e8BsD4Opxq2T1j2CMtgf/NL8EOncSAsg71nDcLPRSNAWAZ7CodjT+FwEJbBz0Xq6hPjZvH5JfNwplZzw9oIxs2Y0j8xbgYf93osatPHvR6L2lTd2Oiz7rOifa7qsdFZl+OXFpeBsAx+Outq7Gk2AIRlsKNwjKrxHgB80u0BZWPYTtqOy3c3HgiGCOAYvsq4/Lc6FwIAvmk5DgdqngsA+LL1zTiSWwQA2FR4u+K5Bu/ywe/NxQedpfa7uEY9fNJxLgjL4FR2E/yvg1SHjuW2xqZCqQ79kX82vmxt3flTIptOZzVKqENQ5JOVlYXs7OzoK5GgFosgCFFHsFOnTqFfv35wu914++23q+wUXFJSAoZhqmz8QQiBIGMd92effRZDhw5F7dq1k35327ZtyMvLS2pHRHcTRRErVqyooMWtWLECJSUlqvbXiKB4t2ItmT59OhYuXJjwOz/++CPefPNNvPDCC9i5c2eFz+rUqYM5c+bgpptuknW9jz/+GL1798auXbuqDYuO5zkYCgaQ+eJAcIFTMr3sXGBEAQwix7z0xKGCx50OT1Qi3oJgpKcoYhACWAiEAVfFs06p56D2NvnZDOysMxDtDv8LImHMs4kPaucNqeTJV4x9vMBo7w2pldeq6FJmk54engpsAs9b8gklE1LuDRlkveDCT5Ijxwg/Veb4OB6evCvqDRl0ZeCXpkPRevc/QSBq6g0p6+l4rE2sBwwfBOFDunjZae0NqYWHJ7UpsU28wDjCphDrwy+tLsdZP68BEQVH2KRV2UNIsJ0nLhMM2NfD04leq2GbQowbu9oOR6sf1oARQ5ayySXGqUMGe4GzjGhKGyFynCn9E+/OUGdTipEicLO6Rb8EWS9cUD7XEFlOk3F5gPHhx4bD0P73f4ZnwhrPNVxebeZPFplrKL1PvCsTZyZ+SHcrPnYU63P+Dl7FbsWs6EPPk6/JysMZM2Zg4MCBaNy4MU6fPo3Vq1dj4cKFWLduHbp164Z+/fqhpKQEa9euRY0aNaK/q127NliWxU8//YSOHTti3LhxmDx5MgRBwIIFC/DOO+/gxx9/RL169XDgwAH07t0bL774Irp27Ro9x65du3DWWWfh3XffxYABAyqk65133sGRI0dw3nnnwev14oMPPsCdd96JO++8E3PmzJGVD7169cKbb76JvLw8BbmXHFPFwT///BNHjx5N+J3mzZvj5Zdfxh133IHjx49H3w+FQvB6vXjjjTcShhXHUlxcjMzMTLz33nvo37+/rN9ECnDuq/1BgiWyfkORBw8Wu/J6oeXxT8BC3aKZWmCpNfYsvH6X7dZHsmh6jV6jLSSw2NOgL5of+MCy68dYqg5SLIOd1jMUCIc9Tfqj+W/rwFi0nlkFu/UldkuvkxEIh1+bD0CzPe9Zop4R1vx1BAEz19kzccMRkzZ2MCqvVeWtBmnjCYvddfqgxR8fghWNmZtZpR4ZgejKwMlxH1Fx8NhRfJx7jWpx8JITr8rKw/Hjx+Ojjz7CoUOHkJOTg6KiIkybNg19+/bF+vXr0atXr7i/+/XXX6O7EX/wwQeYM2cOvvvuOzAMg06dOuHBBx/EeeedBwDYu3cvmjVrhk8++QQ9e/aMnuOee+7Byy+/jL1791ZJ53vvvYcZM2Zg165dEEURLVu2xE033YSJEyeaXi4Ui4Pjxo1L+Plzzz2XUoLi8eOPP6KwsBBfffUVOnfuDAB4//33MWDAAOzfvz/hhiSxfPbZZ7jgggvw7bffoqioSNZvIgU47/WBICEqDjoNK04+LS2UWDC/qsPSEzoT02bFMi8HS99PimWxdHtKsWV7RNui9MYqQoaZwhzgfHGu6nUNtlelnVYpn6oxo1yn2g8pSLPoysDJMR9QcfDYUXyQO1K1ONj3xCtpnYcR9u/fj7fffhv79u1DIBCo8Nmjjz6q6pyKNySJ9d4DgGAwiO+++w4nTpzAJZdcoioRyWjbti0GDBiAiRMnYsWKFQgGg7jlllvw97//PSoMVnbp3L17N1avXo1BgwahZs2a2L59O6ZOnYqLLrpItjBYAZYAos0bXIsRIi5szb8SnY6tAScGTUkDUb7spu4QH2PhCZN9djMmLCwrZho5teSJC9saX4OO+14FKwZBKi+GbJOJLkmyhrN16wzFTIhP+8W/44lDPOPC9hajULT7ZbCCOf2ZHYntg23Vt4Sh7Y6x8IwLO9qOQYcfXzC0npktxEUwS5CrjBkClGn3wBRbU7xmCnnFExe21b8aHQ++DtakuVksepT5Kn2NReo3haKEjz76CEOHDkXz5s3x008/oX379ti7dy9EUcQ555yj+ryKxcG1a9dWeU8QBNx0003VruOnBa+88gpuueUW9O7dGwzDYPjw4dHdWgBJpNy5cydKSiTvPrfbjQ8//BBLlixBcXExGjVqhOHDh+O+++7TLY0pY/enPQohEJEf/B2EEQGYZDtLLCmORAUcK6bN0uJlRcRA8u+YgZHCJSEi8kt/A2FFkHgPOGLaHTt7xFQRPeNhY/so1iGeUC0SgrzS38C4CBhRmSBpl/ZUb2KFXLu0RXYUN+0MQwhyT+8FwxAQou+EPp2FuHiYKpCa5i1ownU1zGc1ZZgAyAv8DuKyngNFKmUwtp81tW67rJWnZiIQAj6F3YrTnRkzZkTXKMzKysI///lP1KlTByNHjqyyxqESNFtzcOfOnejZsycOHTqkxeksQzSseO1g48KKLTIQSCusPBGxatqsmq5KWH3ibekJpcXzTg/sIkpQHA4th1Gs3oZXB21LzMUqopparOKtaOacxLR7aFLeGyFaWaZcpYqcsmHBNljkMnD86v+mdUhsRFv5b95ohFSEFXOiDwOPv5jWeQhIuzVv27YNLVq0QF5eHj799FO0a9cO3377LYYNG4a9e/eqOq9iz8Hq2L17N0Ih8xcH1g2zwooZew9uEhGCC1tyrsG5J18FB5Nd1xkCCNbrRCipY7Unn5UhPil9ek2AQ8SFr+qORpfDL6oI308/r5hk4cvVYlMBg6INIeLG142vQ+d9z4PTwmW5molPOgpOTl0KgaKcEOPG183HovOeVeHdQR2IRURN08VVE0Qs89ZRNHmcGnOvQ8SFLTVH4tyjr5i25JMq4kWCmV2G42HFNFFsSY0aNaLrDNarVw+7d+9Gu3btAAB//fWX6vMqFgdvv/32Cv+LoohDhw7hP//5D8aMGaM6IZaHIeYLdW5njTQZENQP/QjGTQBYxLaAebsmVwsVLtMCvSbALID6JTvAMqkJpRERM4JdvXn0Q3nepovgmg4wEFHvzHYwjAg1ZUEu1QpO6VQfHbIUAkU5DBFQ7+S3YBgBUBGOZmVMF+NiSctdiNNnTcNEMIyI+v7vw32ZtdKWFIvlZVzskEaD4KEyrJjuAQEAOO+88/Dpp5+ibdu2GDRoEO644w7s2LEDb775ZnQnZTUoFge3bt1a4X+GYVC7dm088sgjSXcytjVuFmAsImABjmhcGAhoImwN64IWscfHWdMrwYqipV2w6LqSSalcx1XawEBAk9KvNa9nFcRMO+avBagsuMqFCrPWg4WIJiVfAW5AT3GweqpeMx3E5wpiKa0XjoeFgCYnvwwXd4uMG1PFbK+xGMxciy3txDmLzuMY8FJfFsGi6bQEajwVaX5GCYBDSEUQq6Bd4KutefTRR3HmzBkAwJw5c3DmzBm8/vrraNWqleqdigEV4uAnn3yi+mK2hiHWrNBWTJNMQnBhs+dadPe/ZH5YsdWxotcoFSyNJbauKxDjQsSFzTXHofvR5/QLEdFIyKTIQ9bmKwC9DwYSIi5sLpiA7kdWWiYUqzrx2bnicvotg5BuhIgLnze+Aefte8oy9SwVrLPpiXXCWh19TTOvK5MQXNicNxbdj6+qOjczO4LOTOJFcFn8XlqdEGEQUrP+hs6bUdkBnuexf/9+FBUVAZBCjFesWKHJuan0qidGNxo2a7QZCGjBfy6FhzjlCXA6YVUvy3g4TciMretJQs4ZCGhR8pmx9UylkEnRmGR9EL03msFAQIszn9qiP6tWXHZQeYgVRp0rhqYfLES0OLURrEu0/HrCiTBdjItgtriRbgKdDeZpDAS0KN2UvC+zotOC1sTOHbS6dzYoAxTrw7Is+vXrhx9//BG5ubmanluWODhgwADMnj07afzy6dOn8eSTTyIzMxOTJk3SJIGWgSVIacBvcGMgmt3hy4BARD38BLCAaKHJlHVSEgNddzA10mEQE6GSEMpARP3gD+aFYVVu+2g5tg6J+gkHCUVGwEBE/cD31lomQynVlQeblwW7bmhCqQoLoEFZpJ5ZRGBTglXG5manI93EORuNQRkA9fEToHQ9eLPLlFbE9g963DfOPmVBbwQw4FW044wd234daN++Pfbs2YNmzZppel5Z4uBVV12F4cOHIycnB0OGDEGXLl1Qv359eL1eHD9+HD/88AM+/fRTvPvuuxg8eDAWLVqkaSItAaPdbsWmCncWemIRggsbyVhcKMZxXTcLQbSssGrNVNkEu647qAZfTLPOiwjBjY2ZE3DhmZXgYLHdHZ3m0ekkkvUVVOStQIi4sTH/Blx47Cltdiu2EvH6RDu3p9Sz2baEiBsbC27ChUeW26ueWWVcaYV0mDEPMUucs0J+KyQEFzb6JuDC0pXq52Z2szu2H9A77Raah5tNCAxCKoQ+O3uNa8kDDzyAO++8E/PmzUPnzp1Ro0aNCp9nZ2erOi8RRVHWyMjv9+ONN97A66+/jk8//RQnT56UTkAICgsL0b9/f4wfPx5t27ZVlRCrIggCjh87itxPh4PwpdpfII0bCQEEf6EZauFXMKAD9KRYcDJO7DSxsmD+GYEAgr+Y5qgl7AFj9fA6O5UnSvWkoegrgMFfruaoFdwDBhavZ3pi53aWtj+WRwCDvzzNUctvg3pmJYHECnONdBPorHT/FVBhzKjF3MwKZS8eJvVVIpuB473eRF5+TTBMeopcEW3l5fybEGTKFP/eJXgx6tjytM5DABVsJzG7PouiCEIIeF7dWFz2moMejwejRo3CqFGjAAAnT55EaWkpatasCZfLperitkJDz8HqEF0WbUB1ggCojV8BWCus2KoQizhXxiLaKNw5XUsYA6AO9kgHlTtRq9076tHjDHwJhhYOva9SPftVeShWOmAXsbi6SazV2sk0hoGIOqHd5ofvW1XwqIwVwlnTTZyzS9mohgpjRh3qmJnRWRUcGsy6TzYvH1rCgwWvYrzE0DEWAP02CVa9IUlOTg5ycnK0TIulEV3EsApt1bBWrQmJbmwITsTFrmfAERuFh5iEyBJLeupZUbSMh/VyzhhCcOMT9kb04ldUDSuOaWssV7boWoXOxKGbpITgxscZk3BJyRPWC983m0pLHaQVdhFGbUKIuPFx3q245Pjj2oYVW0FE0xIrzCPSTJxzytwt4ZhRa4y4VzFjRyPvkeXG1BYkBBYhFUIfoeIgAODiiy/W5bx0t2IFmNLwO/gJAyOGcI77LTAkBBDn2qkltKtJBQISTL8cZBBCZ/FNMEwIiZ4Ciwp2QDYFKwuZFO2w6VqHDELoElwDhk1cz9KeyuMop9flRF60yXB63qiAYUV08a8B4xVBpzBxsIpAlW4CnYPmanLHjFqjZfRchbG+kfdGhhApUl2LoiEbN27EU089hT179uCNN95AgwYN8NJLL6FZs2a44IILVJ2T9qwyERkCUnl5E6N3IHZQ5wNIXU4uDgGgYcVysWIu0emLtSEA8nAQgJJ6VvF7VhNVE7aFFhWPKBqhw+RPC7GZAZCPA+btCm5XrP5QwkysIvRYiGg9Mzus2GpYZH6QbuKcE5eDUjdm1B6lZSm2HzfyvigWIi1SV61AAC4EoNy7XkQaLGcng3/+85+49tprMXLkSHzzzTfw+/0ApKX/HnroIbz77ruqzkvFQZmIHAMI1ln0UrROUlQTFN34pPhm9KrxJFw0rFgmFuxUGAJik0mdPVKpLUHRjY+Dt+AS1z9U1zPRVl57ieuI1YROivkoevBWTVsXhBsfslPQh18KFw0rVoet2hmKGQThxgfu29A3sITWM1golDXNxDnL5LsOaDFm1BwZ68EafU8ifZTSMujksqOUkMggpMKVknGCCKIBDzzwAFasWIHRo0fjtddei75//vnn44EHHlB9XioOysSq5dCq6ZIDKwZxXo2XwTJBvfd6oeiOTW6gjYRMreDEEHq4XwKnUfh+FSHFZvmZytNoCqW6to4VeZyPF8CJNKxYCyy/zAHFFFiEcAG/CiwbohEnFvFASjuBziL5rhdajxl1xeh7oYEY6bQowFRQu+Yg3ZBEYufOnbjooouqvJ+Tk4MTJ06oPq9icXDMmDEYP3583MQ4GTuIcIIN3dtr4ChE0LBiJTDU8yklIh1zlWUCHEwmjgLQqZ7FDHScKLyqGsg5MB8oycnEUYgcSVjPqNishpg2hvZ/aQ0BkBXuz9JVhLdKKGu6iXPpJOroOma0M1o4GKRROaLoS926dbFr1y40bdq0wvuffvopmjdvrvq8isXBkydPok+fPmjSpAnGjh2LMWPGoEGDBqoTYBcEFwER7FOh7SBmhgQ3Pjl6G3rVXAKOsYjrug2woghsR8Gych1xqlgYFN34sHgq+tR4TPcQEbGCUKjrpayNjMGfE4XUdCYouvG+/3b08zyasJ4lnWDScpGQyoIEFVvTi6DoxjrhTvRnFlsn5NEALBWKmIbinB3mVFph5JjRjqQ6zk0nkTkZ1HMwNSZOnIgpU6bgueeeAyEEBw8exObNm3HnnXfi/vvvV31eIoqi4pHVn3/+iZdeegkvvPACfvjhB/Tp0wfjx4/HsGHD4HI5a5FIQRBw/NhReHddAyKUmp0cVVi1UxNFwC9kwsOcsbznupWwquhi1XSlgh1Fz8qIIuAXs+Ahp02rZ04sG3pD88xeiCJQJmbBq3M9o6JyAmjeOB5RBMqQBS/M6890x6LiQTqLc2Zf30isMGa0K3LGbSLjw5kOryEvvyYYJo0KVgwRbWV+3iwEGL/i37sFD2Ycn5PWeQgAoijioYcewvz581FSUgIA8Hg8uPPOOzFv3jzV51UlDsbyzTffYNWqVVi5ciUyMzMxatQo3HzzzWjVqlUqp7UMkQLs2X0NiGhPcTAWC+2pAlEEeNENlgRoB6QAxqKiQTqIGXa00Yr1zAmiq9nYsSw6GVEEQnCDg7n1jJaL5FCB1b5YpZ4pwe6eQmYKY1YU5awYvaMlVhwz2pV4Y12R8aG4HRUHqTioHYFAALt27cKZM2dQWFiIzMzMlM6X0oYkhw4dwgcffIAPPvgALMti0KBB2LFjBwoLC/Hwww9j6tSpKSXOSggMQBw2njS70w0Jbmw8fBsurEfDipXAM9acAKZD8xyvzljxXsQSEtz45Ji1wvd5Dw0/1hsqwBpLSHTjw9NT0SfrMXAmhmIl69dpfUtNrKH5Zy5B0Y0PSqeir8+8kEezx85GYaaddhHgnFgWrDhmtCuxY11A6j/s/rBAS3hwCIm84t+xdD/dCrjdbmRlZSErKytlYRBQ4TkYDAbx9ttvY9WqVXj//fdRVFSECRMmYMSIEcjOzgYArF27FuPGjcPx48dTTqDZRNRt7jdneA5Wh1EehbFeb3Z8OmUVz0sreg/SSZOE1e6NneoZLUPGQfNaW+xUzxJBRWX9oHUudfTwHHSiwJMKZgtzdr4fdk57BKf0ZVZFJD74W7ya1l5vEW3lvtwF8Kt4yOMR3XjgxHRZebh8+XIsX74ce/fuBQC0a9cOM2fOxMCBA3Hs2DHMmjUL77//Pvbt24fatWvjsssuw7x585CTkwMAOHr0KEaOHInt27fj6NGjqFOnDoYNG4aHHnooqnvF49ixY5g8eTLeeecdMAyD4cOHY+nSpRXEu+3bt2PSpEnYsmULateujcmTJ+Puu++WnQ+hUAhz5szB448/jjNnzgAAMjMzMXnyZMyaNUv1Un+Kpdd69epBEARcc801+PLLL9GxY8cq3+nVqxdyc3NVJciqONFz0AxixTVRBIK8G4ShHZBSrCJSxmLBJJkCbzHvQlEEAoIbHjvUs5i8s5rI6jTkTGKomCEfUQSCghsME7D1JqqVPR0qQ8uEOVDRVkIUgZDoAUsS1zOzBS47YrawZfb1tcaK43Q52GrMaENEmqdR1G5Iwir4TcOGDbFgwQK0atUKoijihRdewLBhw7B161aIooiDBw9i8eLFKCwsxG+//YYbb7wRBw8exJo1awAADMNg2LBheOCBB1C7dm3s2rULkyZNwrFjx7B69epqrzty5MhohG0wGMTYsWNx/fXXR39z6tQp9OvXD3369MGKFSuwY8cOjBs3Drm5ubj++utl2TZ58mS8+eabePjhh9G9e3cAwObNmzF79mwcPXoUy5cvl51PsSj2HHzppZdw1VVXwev1qrqg3Yio2+SAsz0HzSAkuLHp99vQoxF1XXcKdOIoDyOFr5DgxsZD9g/fp2XLelABt5yQ4Mb6P29Dz9r2rmdqofXTutjh3sgVhkKCG58cpSGPWmK2KGdXEU0pZuezXJwyZrQqIvEh1IR6Dh4/dhTTcxep9hxccOIu1XmYn5+PRYsWYfz48VU+e+ONNzBq1CgUFxeD4+L70D3++ONYtGgRfv/997if//jjjygsLMSWLVvQpUsXAMB7772HQYMGYf/+/ahfvz6WL1+Oe++9F4cPH4bb7QYATJ8+HW+99RZ++uknWXbk5OTgtddew8CBAyu8/+677+Kaa67ByZMnZZ2nMoo9B6+99lpVF7I7AidKj1MomkHgx/ktFgIAlK84QLEibIg+EpNDZe9CPSdvDBPAxY0eBgDYYI5YPdSr0HLE85KNxQ6ihFYwTACX1HNAPVNLNWWB1lXzsYsoIQeWCaBPgVTP6Ig8dcwW5pxUNpVidt5Xh2PGjBaFeg6Ww4scQipKGSdK8tXp06dBYtxbPR4PPB5P9dfjebzxxhsoLi6OetpV5uTJk8jOzq5WGDx48CDefPNNXHzxxdVeZ/PmzcjNzY0KgwDQp08fMAyDL774Apdffjk2b96Miy66KCoMAkD//v2xcOFCHD9+HHl5edWeP4LH40HTpk2rvN+sWbMK51UKXdFRJgIDOhLRGFEkKA3UhM99FITGbDsDjt5HLdBSZBVFgpJgPjJcxxxTz2JFqXQSoGxHksmPk4QjUSQoCeUjg3NOPdMCIx+EUJyPKBIUh/JRg9azlDBblLOqMGYWZt+PWJw4ZrQSVBwsJySqCysOidJvGjZsGF1rDwBmzZqF2bNnV/n+jh070L17d5SVlSEzMxNr165FYWFhle/99ddfmDdvXtyw3muuuQb/+te/UFpaiiFDhmDlypXVpu/w4cOoU6dOhfc4jkN+fj4OHz4c/U6zZs0qfKegoCD6mRxx8JZbbsG8efOwatWqqCjq9/vx4IMP4pZbbkn6++qg4qBMqDioPSHehR37R6FT8yep67pDEBhnTfjNQnCXNzap5mdIcGHb76PQpanz6xn1XLUXTvI8DAkufP3nKJxXf7nj61lKVLrntL+gKCEkuPD10VHoUZfWMyVYRYyzkghmZXgTH7Sn05jRFIho52WJLcX+/fureA7Go3Xr1ti2bRtOnjyJNWvWYMyYMdiwYUMFgfDUqVMYPHgwCgsL4wqMjz32GGbNmoWff/4ZM2bMwO23344nn3xSc5uUsHXrVnz00Udo2LAhzj77bADAt99+i0AggN69e+OKK66IfvfNN9+UfV4qDspEIKKqHUmM7JDtNshmGD86t34MAHVddxa029MSIcVwWoYJoGvLJdK5tEmSZdFSVKXYA6sIwiwTwPmNlwKgzxGVQL2AKUpgmAAuaCjVM1pc7CW2mSl42Rmjhd10GjOaAoEKXzlnwoMDr6KU8WH5KisrS9aag263Gy1btgQAdO7cGVu2bMHSpUvx1FNPAZDCkwf8f3t3Hh9VdfcP/HPunZkkkJAAQsJSdmRThAJC4KmySYL+EJRarVgWEdQCFnd5WgGLiH20VfRRbJUCtuKC1lZrHwHZ3EAQieICLQIiSwgSspOZu5zfH5MMCdlmJnMy2+f9euX1ujOZe+eeO/d7l+89S3Y2UlJS8Oabb9Y6ym9GRgYyMjLQu3dvtGrVCj/5yU/w4IMPol27drV+Ni8vr9p7pmkiPz8fGRkZvs+cPHmy2mcqX1d+piFpaWmYPHlytfd+9KMf+TVvfZgc9JPpkIjES37NPndjFClPBv0lpUDp2XZonnSCVddjCn9LVaonCv1LikgpUFLeDsmJ8RVn5x8PmSyMTVUTwrVpqt9dSoFidzukJMRXnIVbpCSHqWlIKVDsaYcUV2zGWSwm0KLt3iTSqd6e8XrN2GSYHPQxpRZks+LGBYFt23C73QC8NQazsrKQkJCAt956y68Bd23be2FZuYzzZWZmoqCgALt378agQYMAAJs3b4Zt2xg6dKjvM7/+9a9hGIYvGblx40b06tXLrybFALBq1Sq/PhcoJgf9ZEZYJDsqRvCwteg9cFuWEwe/n4Q+Fz4PnVXXYwhv1ppC1divLwFiWU785/hEXNzthbiOM38uqP1NuFL08O93b/z3WLYT+09OwoDO8R1nTa2h5HB9+MAg+pi2E1+fmoiBnV6IiiaP8ZwYi+eyN6VQ3wfymlG16L1vj0YLFizA+PHj0alTJxQXF2Pt2rXYunUr1q9fj6KiIowbNw5lZWX461//iqKiIhQVFQEA2rRpA13X8a9//QsnT57EkCFDkJycjK+++gr33nsvRowY4RsMZOfOnZg6dSo2bdqEDh06oE+fPsjOzsasWbPw3HPPwTAMzJ07FzfccAPat28PALjxxhvx0EMPYebMmbj//vvx5ZdfYvny5XjiiSfCtal8mBz0k/fgG96ArnrjGmnJyqDoHvS+6BlIAGa414VCxsETX5Orr0ah0Dzo38vbLwbvhevX0EU2kwmxKRSJY6F5MLA74yyaNCZ5wWNBeGiaB4O6hTfOmPRqWDRXXIhmodg3ec1ITcUtE1De0Mh1tRCyZrPfuuTl5WHq1Kk4ceIEUlNT0b9/f6xfvx5XXHEFtm7dik8++QQAfM2OKx06dAhdunRBUlISnn/+edx5551wu9340Y9+hGuvvRYPPPCA77NlZWXYv38/DMPwvffSSy9h7ty5GDNmDDRNw+TJk/HUU0/5/p+amooNGzZgzpw5GDRoEC644AIsXLiw1sFQ6nL69GksXLgQW7ZsQV5enq9GY6X8/Hy/l1WVkFLyCF4P27ZxJv808t3XQeJsWNYhVi9CpRQoLe6C5imHWXU9xrAGVuTQTYHiki5ISWacqcb9Pn5JKVBS3AUtmjPOqH48TgRPSoHCsi5IbRa6OGMiK3SYOI0swezbUvKaUa0kNG/xGlq2au1Xf3mxqDK3Mr35izgrjIZnOE+SdGJ16dS43oYAcOWVV+LAgQOYOXMm0tPTqw3OAgDTpk0LarmsOegnW0jIJqwRpcno7UvQX7blwImjY9G1z2poWuAHB4pctiZjNqkdbQzdgaO5Y9C112o4BevoKqXXfY6o7AqCYpNlOXAkbzQu7L4Gul73+YyJIWpMMirez6uW7cB3eaPQt+uL0Ou4bozVa+ZIxgRrdPCn1Zllea8Zu/es/1xG1Fim1GEGUT/VlLHQfLLxPvjgA3z44Ye+kYpDhclBP1la0zQq1itixI6HpzUOD7pe/KdqiVDV4mK7Rgi7lmN3U/7W5CU0A90ueh5A9eb78X6T2dQ8DdywMmkU5XQDPfu80HA3GfUkkCsxkUx1aVxT6Og8xlRPPHnQp5cfcUZNIia6OIpTdSV0heZBj77ea0ZeJqrA+1AKjd69e+Ps2dC3amVy0E+2wuRg1Zt0K4qeeOqNPGtIW0NJwYVITvs3BDMVQYumfcY6L4oauw9Rw+qKs6rJWyZtw4/9HUY3KTUUFVyIFmn/hhCN+7GYSCYl/EhM1yfQpLWKxJGUGooKL0SL1MbHGQWPNQVjT+WDB2lrKC64ECm8N1OCZ+9zLOmocV/o73wEPPvss3jggQewcOFCXHTRRb5Rjyu1aNEiqOVy6/rJ0CRkCGudOa3obDYcykSmLXWcPjkUiS2/hcYTUERTtY/WtlzuCqHlT5xVPTkzYRuZaquJWxUTvOFlWzpO512K5mnqz2f+3JjzOEqh1lDSuinYloZTp4ageeoBaBqr2KoUTfcmFDpS6sg/eSmapR2AJhhjoSZYc9DHlBpMBP4UyZQ8OAFAWloaioqKMHr06GrvSykhhIBlBRe/TA76yRZAKO69Kq/pjUY+wW1KyhKZmoEOF6/xLjeEi6XQavJ99bzzRNX9j4IQYJxVH/lYzSpR6NX39JUJ3ybg8KBT38g5nzWUTAaYUKYopBno0udFAJERZ9GGXetQg6qcy6qKplZKkYxnXQqVKVOmwOl0Yu3atbUOSBIsJgf9ZGnBJwer3phFU2sg1YlMaWsozeuP5m2/YNX1CBUJ+6vbUXP/Y4sW/zUqzqokGJikjV4NPdTh4bfxpK2h6If+aHFB9JzP/GnOw8QyRRJpayg83R+praMnzlRiwoZCzZ9zGWuVBo9X0ufYUg+qWbHNAUkAAF9++SX27NmDXr16hXS5TA76SYrgEiWajK6Td1MmMm3oKPuhDxLbfgWNfcdEnEjeb8+vKM0b2LqFKs6qJmmZnI0xDVxnMTHcMFvqKMnvjeZtvoqpbjL8uQmMoeJShLOljqIzvdH8gtiKs0pMulC4BXMui6bWcOEmJLdVJW+fg8HNR8DgwYPx/fffhzw5KKTkXlof27ZxJv809jsnwxaBjwgTLcdL3uxTpUioLRgK3KebBhOzxFijxmICmmIZkycUT2LlPkIFIZPQRb6Blq1aQ9Pi82lAZW7lSse7KBOBjzvfTDrwLzM7rrchAKxbtw6LFy/Gvffei4svvrjGgCT9+/cParlMvfrJ1gI/2Gk2EMnXu1WvVcJxIJe2jrPHBiOpw6cQ7Fg6IkTy/hqo88sSr9fmquOs+qjHIV88RYH69qp4SR5LW0fJ8cFIbs/zWTBq6z4iGDwGxTZp6yg5MRjJ7cIfZ0yAUCxScS6L5JZITU1I1H/RROSn66+/HgBw8803+94TQsTPgCRLly7FO++8g5ycHLhcLhQUFDQ4j5QSixYtwvPPP4+CggKMGDECK1asQM+ePQP+fiOI5KCz4Y80uWqjDYf5wkZCwFPUAa4OuxGiPjQpSPHQlKW2HEUMtkqqoSnjrOoxJV6TsVSdPwNjANGf1JFSwF3cAUliN0QcHE8jVajuueIlqR1tbAiUF3dAUrvd0BSdz5jIoHjWFOeyeE6s8/Byji112OxzMGiHDh1SstyoSQ56PB5cd911yMzMxMqVK/2a53/+53/w1FNPYc2aNejatSsefPBBZGVl4euvv0ZiYmJA328JATuAO2tdShgRdARwVlzoRlQSSDPRvP/fIAEO7B5GkbSfNrnzyu6MxRvCMMVZvCZjKTjBPKyKqAS0w0TqRTyfxQp/k9r1ifaEd0TSTKT188ZZoIngeE5IEPktDOeycFdWaUo8LZxjSQ1WQ51e1zEfAZ07d1ay3KhJDj700EMAgNWrV/v1eSklnnzySfzmN7/BxIkTAQAvvvgi0tPT8fe//x033HBDQN9vBzwgSfiPdHqV7iQjMQEkbR2eQyPg6vpR2JuHxCOL1TVrsGo5R+lR3i1rRMWZH8ehmEzQkhLB7CqqEtTS1nH2uxFI6hwBcUYRIVQ3vBGVBA8zaeso/W4Emp8XZ/GUXCBSKRLOZRFVkSXUeDynEPrLX/6C5557DocOHcL27dvRuXNnPPnkk+jatasv/xWoqEkOBurQoUPIzc3F2LFjfe+lpqZi6NCh2L59exDJQeF3MkWXMkKeUEbEStRJQoPtbgELGgRHK25SkbF/RofzawxHW22QaIuz2hK054v2hC2FkZ83HYEmqaUUsDwpsIVgs2IKqVActaO11vb5SQIJAdNIgaEJCLYsIwq5SDqXRWLFlsaKtnsIlWxbD+p+lM2KvVasWIGFCxdi/vz5WLp0qa+PwbS0NDz55JNMDp4vNzcXAJCenl7t/fT0dN//auN2u+F2u32vKwdzNm0HbAcgK+5chW5BWg4Asua06QI0C0KzIU3nedMmhCYrPmOcm9YNCFE57fF+uVV9Wjg8kFIAltM7bQvArjrtgHAYkLYG2Docusc37X1fB6SA0M3q0+eXSUgI7bzpGuUIQZmgwXHRO7ClOFe+ijLpeu1lkk4jsssUxO9Uc1pdmWwdMVemSPidNEuL3DJVxpld+X70/06W7fLrd9L16CkT4ymyymTKhsukW1XKoQm4+r0Dw9YA6YRo7L5nOQFRUY6q0035O0m9ohxVp1mmqCyTCE2ZnAhNmUxXkGXSUBFnOiAdsfc7xeK+xzJFV5mkhLP3uzDDXCbbaUT9dURtv5Md09UiA2NDhxVEstQOoilyLHr66afx/PPPY9KkSXj00Ud97w8ePBj33HNP0MsN6x76wAMPQAhR79++ffuadJ2WLVuG1NRU31/Hjh0BAHLfaNhCQP57FOS/R3mnvx4HeXC4d/qLCZBHBgEArJzJsI5fDEsA1qc/h5V3oXd6x3RY+V280x/MhlXU3ju9ZR6s0tbe6ffugeVOgWW5vNOWy/v6vXu8/y9t7f28gHf+D2Z7p/O7eJcv4P2+XT+HJQTM4/1h5PzUO31kMIy9V8MSAsbBETD2ZXmn/zMKxn9Geaf3ZcE4OMI7vfdqmEcGe6dzfgrzeH9YQsDz6Y0wT/XyTn8yA2Z+V+/0h7fCKurgnd56B6zSC7zTm+6F5WkBy06AZ9O93gOnOwWeTffC3DcWdlFbeLbe4d3ORe3h+fBW2AKwznSF+5MZsAVgnroQ7t03AgDs4/1h5Ez2busjg2Duvdo7fXA4zG+yvNP/GQXrP6MAAOY3WbAODvdO770aVsXvZORMhn3cO8y38emNsPMu9E7vmAGZ3xUA/C6TZSfA8rTwTgsBq/QC7+eFgFXUwbscIWDmd4Xnkxne6VO94Pn0xib7nTxnujbNvvfpz73Txy/2xoLw/k7W3gne6YPDYX0zzjv9n5HePwHveweHe6f3TvDOIyIknhook+fQCHj2ZcGjCXgONG08Nbzv3QbPvrEwf+gRtn0v9GXyL54MTcDz/WC4v7wahibgPjQC7v1Z3ukDo+A+MAq2ADz7smAcGu6d/vJqGN8Pgi0A9+eTYZ7o753efSPMUxd6pz+ZAetMV9gCKP/oVljF7b3T2+6AVdbaO735XtieFNi2yzttu2B7UrzTArDKWqN82x3e6eL2KP+o7uOeLQDzRH+4P58MWwDG94Pg+fJq7/Sh4fDsy/JOHxgFg2VqsjKV7bzZuy/90Atlu2/C2X9fgfLjA1D2uXffc38/GGe/mghLePe98v3ZsIRA+bejUf7taO/0/my4D3nj6exXE+H+3htPZz//KTwnLoElBMp2T4FREU9lO2+GcaYbLCFQ+vFtMIq98VT6/q9glnnjqXTLfb54Kt1yny+eSrfc542PsgtQ+v6vvHFb3AGlH9/mnT7TDWU7b/ZOn+qFst1TvPF54hKc/dx7jGCZ4rtMZYXdUK4LFOy4DWWlHbzTH/4KZ8sv8E5vuw/lZguUI8E7jQSUmy2807rA2fILUPBhI8r05SRvnB38CX8nlollUlGm/4xB2a7pMG1HWMsUq9cRdkk7hVkMiieHDh3CwIEDa7yfkJCA0tLSoJcrpAxf+6xTp07h9OnT9X6mW7ducLlcvterV6/G/PnzGxyt+ODBg+jevTv27NmDAQMG+N6//PLLMWDAACxfvrzW+WqrOWgaHmxNvgmWo/hcmzfdAipqC1addmkGUPHEAZpdy7TprVNc8fQBmgQMF+AwvOObGy7AUfHEwTxv2ukBpPAux+mp6AjR6f1MxRMVOAzA1iAsreYTFUsHUPUpSh1PVGqtDRngE5WKMgnhndZreaIiPUmQB4dD9NwGAS2iaptYesNlqut3Es6Kp0Sm0zsdaJkU/E625WqyfQ+2XnO6ohzQzVqm644n6FZExFMoyiRMPWTxFNC+ZyQCB4cDPbZ5a4808b6npExhiCfNYC07lqnuMknTBfntCIge70MI+F0mzdQjtkyx+DuxTNFdJmk6YB/8CbTu70NodkyUKRZ/J5Ypestke1ywvr0cjgs3AxBNWibbacT876RZzXBp2Wto2ao1NC0+axHato0z+adxufwIpQEPLQU0h45tYkRcb0MA6Nu3L5YtW4aJEyciJSUFn3/+Obp164ann34aq1atwmeffRbUcsOaHAyGv8lBKSXat2+Pe+65B3fffTcAoKioCG3btsXq1av97nOwcgfenPZzWOJsg5/XImBzumTkdC4TCdsjUIGMSh3pPOHuMITqFElxSqEVjcc9ilwckIKIiGJVPA0opMskDCteF9eJrcrcyn+Zu4JODn7oGBK32/C3v/0t7rnnHqxduxaLFy/G73//e8ycORMvvPACvv32WyxbtgwvvPBCwONrVIqaPgePHDmC/Px8HDlyBJZlIScnBwDQo0cPJCcnAwB69+6NZcuW4ZprroEQAvPnz8fDDz+Mnj17omvXrnjwwQfRvn17TJo0KeDvt6DBaqAVtg47IhJLnvC2FgdwLvFR7/awHMBXVwD9NnprXEWAWEqmRcK+SHUrr6U3dSVJJcsBx1djYfZ7L2LiLOb5GXpMEMcQhecz24/9iQlpigfScgBfjwP6boDg+UyZSLt+5PGt6TRljEXaftYURIQPFtqUpBSQQeQsZJxvw4ceegi33XYbbrnlFiQlJeE3v/kNysrKcOONN6J9+/ZYvnx50IlBIIqSgwsXLsSaNWt8ryvbWG/ZsgUjR44EAOzfvx+FhYW+z9x3330oLS3F7NmzUVBQgP/6r//Cu+++i8TExIC/36/RimX4E0tRlaAUAnpSiXe7hjkpFwnbLFQaSmJT5Dr/6akeinEqBWAnlngTDDG0n8eC2hLE5+NNUZQI9/nMj9BmMpqingCQWAwIQPJ85peYeOgdgp+axz8/NUGMxcQ+GSSd92jUSFUb/U6ZMgVTpkxBWVkZSkpK0LZt20YvP+qaFTe1yqqv/9dyKsx6mhVrobiJDwE9An7OkCQ0mlAsJdMaTGBTVIuE+KbIE23HXIpcTEYTRYdYeqgdLXh8bJx432ctaNBlEq4oeClum8QC53Irme7PUBrE9WtzaNie8OO43YaapuHkyZNo06aNkuVHTc3BcLPQQM3BCKg1qMGOjOSQv9vCciAxZzzKB/xfWJo7RsS2ChE7hhKcVLeqzQv9fiBhOtAsJxtlA94FHGyGFYss1F8DkUnlJhDm81mohLrvJyauKaQsB1w5V8Iz4F9RHWf1iaUH1rGmscfHqDgeKoixeN+nq95vslnxOVLqQTURDqYpcqy58MILIRrIY+Tn5we1bCYH/eSBA2Ydm8sFMzISTRGQoAQACD9PfgIwWp7wnmybePvFUjItIvY9anJVE0L1Jn+EgNEyt+KJbezs9+S/hvqsi5Sa71EtjOezSNZQ4joYTHbHMwGz5QlYiL7zGa/VKBTHQ/XHv8bFGPfzc2q714yl+89osGLFCqxYsQKHDx8GAPTr1w8LFy7E+PHjAQB/+tOfsHbtWnz22WcoLi7GmTNnkJaW5pt/69atGDVqVK3L3rlzJ4YMGVLj/fz8fCxatAgbNmzAkSNH0KZNG0yaNAlLlixBamqq73O1Jfdefvllv/oLfOihh6otK5SYHPSTKTSYdfUPFSHXqS4RIU9R/U1S6hLl3fdUvGi6g2Usnbg8DGECqvXH48J5xwGHjbIee2p+kKhCfTcsTMT4KUzns3jkzwAtgWByPIo4bFjdP6t4ETnnM97wU1NpzPHPr2NdPTHG/dw/9d1nChk5x62wC7pSk//zdezYEY8++ih69uwJKSXWrFmDiRMnYs+ePejXrx/KysqQnZ2N7OxsLFiwoMb8w4cPx4kTJ6q99+CDD2LTpk0YPHhwrd95/PhxHD9+HI8//jj69u2L7777DrfddhuOHz+O119/vdpnV61ahezsbN/rqonJ+txwww0h6V+wNsws+MmuY7RiHXbdScMm5JBW5CSK6ktUVGU60GLXBBQNebtJmjtGzPYJgUjY5ygymVUSPQ5pQZgOtNx1Jc4M+RckmxVToPwZ6KK+43y8aOLzGYVOdNTmIQCA6UDypxNQMrhp4iyWHiYT+XWs47ksaP7cZ9oxdC/aWNLWgqpfFUiz4gkTJlR7vXTpUqxYsQI7duxAv379MH/+fADeGoK1cblcyMjI8L02DAP/+Mc/MG/evDqb9V500UV44403fK+7d++OpUuX4qabboJpmnA4zu0DaWlp1Zbvj4aaEzcW91A/mdBgRvITkwi9fjHPOxE5pHXuhaahrP238GgaVOyKsZpAi/e+O8h/ltAAXUNxh0Mo13Vfc8eo6PeGosb5x3l/VTsfRDvF5zOKcCG6BmOivQG6RHn7/8DSZaOa78fSw2KikOK5LGAB3W/G8UjNNVhOIKj7keC2oWVZWLduHUpLS5GZmRnUMt566y2cPn0aM2bMCGi+wsJCtGjRolpiEADmzJmDW265Bd26dcNtt92GGTNmNJj8Uz2WMKPeTxZ0JX3nhIIDdtQkjKyqB0UdcHf5D3QI74tAlxUlZQ6ViE5OU+TSgILO/z73Av7tSw4mEEkxK4iL5IhNbOtAUZf9QJDnMyIg+ER7oKIxMW8KHdCBsi4HADjDvTpEsYnnMr8Fcx+q8V4uZIqLi6sl0hISEpCQkFDjc3v37kVmZibKy8uRnJyMN998E3379g3qO1euXImsrCx07NjR73l++OEHLFmyBLNnz672/m9/+1uMHj0azZo1w4YNG/DLX/4SJSUluOOOO+pdnm2rvQ5mctBPJvSateBgRWzCMBoI04EOH1+JY8PZ3LEh3M8oWMJ0oNPH2Tgy/N2A4syffU5H9N1gUnQL9iGJ6mS3MB3I+Pj/IXf4P3k+o4gXTGI+EjDOiNRijDWsMZU1BJOD59g6gqt2792GHTt2RElJie/dRYsWYfHixTU+3atXL+Tk5KCwsBCvv/46pk2bhm3btgWcIDx69CjWr1+P1157ze95ioqKcNVVV6Fv37411u3BBx/0TQ8cOBClpaV47LHHGkwOqsbkoJ88cMLDG+HQ0oD87l/B1AA+napdU9UioBimAae6fw1DQZz5s386eNykCBDMA5aAkt+axJnue2FoEhyQhEgRxhmRWoyxOoWioobG+7pzbA3BJQe98xw9erRGzcHauFwu9OjRAwAwaNAg7Nq1C8uXL8cf//jHgL511apVaN26Na6++mq/Pl9cXIzs7GykpKTgzTffhNNZf433oUOHYsmSJXC73XWWpSkwOegnU2owZZWO/oUFd4Q0a3DDiQQY4V6NwGnAmQ7fgyef2kXK/kVRTgNOdTiOcB3u/dmPo/L4RTEvoIczGmB1OAKez4gU0oBCxhmROoyxGkJZUUMwORgyKSkp0LTA91PbtuF2uwOaR0qJVatWYerUqQ0m+QBvjcGsrCwkJCTgrbfeQmJiYoPz5OTkoGXLlmFNDAJMDvqtRrPiCBuYrkaTZxH5tXU004He74/Dvss2wGbV9WqqJqKJGkMzHej3wVh89ZP3IjbO/KqBGAXHNIpfmulAdz/OZ0yEEwVPMx3o9v5VOHjZOxF7PiOKZoyxc1RU0pCs+HGO1IBgBtcIYDCqBQsWYPz48ejUqROKi4uxdu1abN26FevXrwcA5ObmIjc3FwcOHADg7Z8wJSUFnTp1QqtWrXzL2bx5Mw4dOoRbbrmlxnccO3YMY8aMwYsvvohLL70URUVFGDduHMrKyvDXv/4VRUVFKCoqAgC0adMGuq7j7bffxsmTJzFs2DAkJiZi48aNeOSRR3DPPfcEvj1CjMlBP1VNDjpgRXxzz/OTSxHZtE8A3/X7HB4BgMkwAGxGTApowKF+X8AT5c33/UmYR+RxjuKDn+czJsKJGkET+P6iPTiraeCgJEQKxGGMNWWFDE2yRmYlYesQQSQHGxrNt6q8vDxMnToVJ06cQGpqKvr374/169fjiiuuAAA899xzeOihh3yfv+yyywB4mxBPnz7d9/7KlSsxfPhw9O7du8Z3GIaB/fv3o6ysDADw2Wef4ZNPPgEAX3PmSocOHUKXLl3gdDrxzDPP4M4774SUEj169MAf/vAHzJo1y++yqSKk6vGQo5xt2ziTfxrLWi6CR/NWQY32G9BoX/9YxcQgkXo8/lEs4H5MRERUt0i8r3LZCbjzzDK0bNU6qCaxsaAytzLs1FGUBpGGai4EdrTpGNfbUCXWHPSTBQdMWXExHkzfmRGktlGXw0E3HRiyeSx2jX4PVpxWXY/EExfFFt3UMWzzaOwYvRmWgwkFf2OOyRcKRFOfz7gfUzzSTQcGbh6HPaM3xO11I5FK0RJj0Xr/xAFJzhEyyJqD0Z6IiXBMDvqpXDrhruhosOEuJaOLed5u4BBNczKwNOCLwZ/CowEyxg+WpmSoUXhYQiBn0B54hAYpeUL11/nHxbo01fGSIlukns9CfQPFZCOFk6kBXw/eBXeUd5MRLaI1ARMsHt/CH2Oxvs8xOXiOMJ3KmxVT4Jix8FPVPgdLZJLv/Zg8kUhXtZeJwqPmewSQ37IYgB5xA7wEo/y87UYUEQRwtmUZAGdMxFnECSDulR1LKfxi7HxWF3+T5oFikp38ogH5rQoRTyOp8uFy02nM8S1mjmEKY4z7MqAz9eIjLA1C7XgkFATuoX6ypAMm7Brvh6vWXVOqmgwFQpcQdRg6xm36CTaM+QCmM/KTrLH+NItik8PQceWm4fjXmI+jIs5i2fnH0rrE5EOnGBdt57OIo+jhGhPysUU3HBj53ihsHbsFljN6r7f5MDkGheA3jYTjVX0xxv228aSMj0FeKHoxOegnU+p+JYeqjngUqyMOhiohajqALSN2o9wBRELzED7RCkxdo3vF6n4frSwdeG/453DrApL7eFQIpPZCLD6QikaRdj4jL38T8sFgEj8MdOD9EZ+iVNeUJZQDxQfHFCoqj1d+04HNIz5Dse4EmMgKOZ3HCx/N1qAFUXNQY81BpXin6CcLDli11Bysd57zbsR1xOZNXH1DwDeUKDqT7AHgaLJmWE05XH2ssho4bJy/31eK1f0/GuQnuxHrzR3jVaDHNCbv1Wnq8xmFl6om1oGIu4cDAjiTUg5/EvB84EsUHJ7L1HHwuOQjbJ3NiiMQ91A/mVJr9NPBGqMEx8FNWl2JIgBwGhp+vnEwXr7iUxjOwBKvFB6NSa7WFz/xEAvhwjijquo7JteHyf36OQwd128cilev+ITNiqnJhPuBZyDn7lCsK+OMSC3GmFrhPmYTNYTJQT+5ZQLKQ90563nZ8kThDu3yI5ypA6+M/AJndQHwYBnRymWC2i+o58lRvMVFqDHOKBSCfTgWL4l/ywG8PmoP3A4BXlpRvAj2YUPQ38c4I1KKMaZWQ62v4omwOSBJJOIe6idL6gE3Kw5UqWxW7bUe6zdVErAcGgwZP6PORSMrzAml8+MiXKI2HhlnFE5BNkuKuocCEjirs1YAkVKMMyK1GGNKmbwW99GkDi2I1IrGTagUk4N+8g5I0rRN8s4/MMdaDQynqWHWpl54bsx+GA42d4wkvCioKRK3iT/HBMYZRaPGPBQIRyLfaWq4+b2+eH7s14wzIkUYZ0RqMcbUEhzkxUcznNCZHIw4QkrJ7kbrYds2zuSfxs+TXsVZYYR7dXz0WOiEWgIuS4NHtwFWEW5STd0UiMJIAi5LwKNLX5zFxPGDKMQa9QBOAk5Lg8HzGZE6jDMitRhjSiVJJ1aXTkXLVq2hxWmWqzK3MuYbC2VBJAebacCmPnpcb0OVmCHwUygGJAmlmKhVKAHd0GFpUbjuES4Sa7lRmEggydBhVokzf/aPqDymEDVC0IO1CBOQQKLhwFmNiXciZRhnRGoxxvwS7PWCxpqDPpqtBdesOPSrQlUwOegnW+qwInhM9/P7hYuG/tFcpsBtH3TCH0YegccRuds2EoW7H0CKHi5TYM6HHfDY5ccCijN/97FoONYQqWRKHS5TYNb7gZ3PmIAnCow3zrriqVGHeN1IpEC8xFi4KlGwz8FzhC0g7MCrp4oIzsfEAjYrbkBl1ddJrrdQFsVN8diMMPqw6S/FCh5/iBqPiXgiIqK6RXrliWbSgTfc18Z1k9jK3Mq4vUBZEMnBZprEhosR19tQJWYf/OSxXfCIaN4BXeemNE8Y1+McIYELSh34obkJGYf9WnhsV8MfImokIYE2ZTpONbPCGGf+7euRcmwiClRTnM9UPDBi4p6iiZBA61IHTsfpdSORapEaY7FSYSJWyhEKmqVDCyI5qEkJgA9LVeEe6idb6rBjpBpruZVU7bUWptoICSYwY3dLPJZ5Bp4Y3BPtCH96RfEhwQRmf9YCvxtWBHeEx9n5x6bahOt4RVSf6D2fhfYhFRP8pJLLFJj+aRs8MeJUTDd5JAqXcMRYPFWWcDA56OPtczCI5CCYHFSJzYobUFn19QptE8ri5KaUTZf8F+nV14niFY9jRNGPDwOIKBCqHszH0rGIlRfCp5l04F3rirhuEluZW7nyM2fQzYr/9WMjrrehSkxf+8m2db3F39YAADPMSURBVASx/0YlO8hRmbUARx3WJNCxWMPRFDtit61t8wRK0U2TwI+KNXwfwXGmQlMdx4iA6DifRaNQP4DjQ4PopkmgQ5GOYy2sqIwzPlCOXvHy2/FcppbFAUl8NFuDZgVbc5BUYXLQTzZ0WNwX62VZgZ04E0xgytdO/G6gAaORe2KwF/zxcrKn+OUwgZv2hSbO4kGgx7HzMfkQn5wmMOXrRDz+43KYjLOIFexDg1gTDQ9Bans4m2ACP6+IM57PiEKP5zK1WGvzHN3QoQeRHNRtJmRUYrPiBlRWfb1cfoRStm8nIqIQ04Qd7lUgIiIiIoWaQ8cW/CSum8RW5lau+SgZZUEkB5vpEm+OKInrbagSnwn4ybJcsJgcDClNSlxYCPw7FbAF664TqcA4i3zBnFl0nQM/RBJNAhcWCPw7TbIpFpEijDMitRhjatnQAG5XimBMDvpJSgEJZqdDSbckrj1i4bG+OiydR0oiFRhnsck0E4OaT7CWohK6JTHxsMTj/QTjjEgRxhmRWowxtSzozL5U0GwR3GjF3C2VYrPiBlRWfc10f4ZS8KaKiIjii6bx3EdERETUGM2h4SPn4LhuEluZW/np1lScDaJZcZIu8frIQr+24YoVK7BixQocPnwYANCvXz8sXLgQ48ePBwD86U9/wtq1a/HZZ5+huLgYZ86cQVpaWrVlLF26FO+88w5ycnLgcrlQUFDQ4DpOnz4da9asqfZeVlYW3n33Xd/r/Px8zJs3D2+//TY0TcPkyZOxfPlyJCcnN7wRFGLu2k9S6pCsBxxSmpQYUGAjJ01jc0ciRRhn1FjBDtIi4mhwFs2WuKRA4vM0AZuPtYmUYJwRqcUYU8tmK8Qm1bFjRzz66KPo2bMnpJRYs2YNJk6ciD179qBfv34oKytDdnY2srOzsWDBglqX4fF4cN111yEzMxMrV670+7uzs7OxatUq3+uEhIRq/58yZQpOnDiBjRs3wjAMzJgxA7Nnz8batWuDK2yIMDnoLw49HnIOS2LMSQ++TEmEh1XXiZRgnFG4yMacN6Os+bNuS4w56caXLRJgMQlPpATjjEgtxpha7KLsHGEJiCBqDgYyx4QJE6q9Xrp0KVasWIEdO3agX79+mD9/PgBg69atdS7joYceAgCsXr06oPVMSEhARkZGrf/75ptv8O6772LXrl0YPHgwAODpp5/GlVdeiccffxzt27cP6LtCiclBP0lbA9tfh5ZbAP/Ts7n3RXTdBxJFDcYZRafgLqBFmJpAezTgsV7NvC94sUCkBOOMSC3GmGpMDlZq6j4HLcvCunXrUFpaiszMzOAWEoCtW7eibdu2aNmyJUaPHo2HH34YrVu3BgBs374daWlpvsQgAIwdOxaapuGTTz7BNddco3z96sLkoL+MRFS7s9bip7mUKrotMazAjR1pCbBYdZ1ICcYZxRMZ7KlZNxr1vbotMeyMgR0tnYwzIkUYZ0RqMcbUYs3B0CkuLoaoUrs1ISGhRtNdANi7dy8yMzNRXl6O5ORkvPnmm+jbt6/SdcvOzsa1116Lrl274ttvv8V///d/Y/z48di+fTt0XUdubi7atm1bbR6Hw4FWrVohNzdX6bo1hMlBf9kaqlVktWvpg4kJw4DotsSPCwzsatEMFvtzJFKCcUbkh9rO6QHQbYkf57uxKzmx5g0Vrw2IQkK3JX58ptx7PpM8nxGFGmMsxGpcWzA5WEk3BXQz8O2hS29lrY4dO6KkpMT3/qJFi7B48eIan+/VqxdycnJQWFiI119/HdOmTcO2bduUJghvuOEG3/TFF1+M/v37o3v37ti6dSvGjBmj7HtDIWqSg6pGivGb1ICGBna269jBOdJjrTwAnu7krV7L5o5hUNf+Gk/iIDYZZ0Tq1RtnjUw8NgoTkxRDPACe7tzS+4LnM6KQY4xVoeTczYRrJWF5/wKer2ITHj16tEbNwdq4XC706NEDADBo0CDs2rULy5cvxx//+MfAvzxI3bp1wwUXXIADBw5gzJgxyMjIQF5eXrXPmKaJ/Pz8OvspbCpRkxxUNVKMv4StQzSUHKxLLQcXyQt2OGyJywtKsS2tOUxWXQ8ZEc4b0WgTgdsq1McGxhmRehEbZ+F6CBQHD16o6TlsicvPlGFby2aRFWdEMSJmYixSK0BwkBefoPscrJgnJSUFmhb472zbNtxud8DzNcbRo0dx+vRptGvXDgCQmZmJgoIC7N69G4MGDQIAbN68GbZtY+jQoU26bueLmuSgipFiAiFkI5KDtS3Pqj0pIYNJoUcpzbbR7ayBD1poEKxm3SAhIy+RRaFX17EhWLpto3uZiQ9TnLCDHD02no5LRMHg+ew8IX7wwgeqBADCttGtzMD7qQJsnkfxTFVFAM220a3MxAcpDoggEi9UP8HkYJNasGABxo8fj06dOqG4uBhr167F1q1bsX79egBAbm4ucnNzceDAAQDe/glTUlLQqVMntGrVCgBw5MgR5Ofn48iRI7AsCzk5OQCAHj16IDk5GQDQu3dvLFu2DNdccw1KSkrw0EMPYfLkycjIyMC3336L++67Dz169EBWVhYAoE+fPsjOzsasWbPw3HPPwTAMzJ07FzfccENYRyoGoig5GKz6RoqpjdvtrpZNlhUJQZdHR5kQcNjep+GmpsFp25ACMEX1aZdtwxIClhBw2TZMIWALgQTbhlHLdKJtwS00SCGQZGveaQCJ0ka50CAAJEgbZ102hJRIkBLlmgZNSjilhLuWaYeU8GgadCmhV0w7pISQEsb50zXKJGAKUW068DLZcAsBWXUaQKKUKBcCAoBDCqzMSIeQEklWbJSp8rcJ5Hcy7ITzymRDSFSUqcq04n3PN13Lvleu6RVl8k4H/juxTOEqky4lVrbpAM2SSDSDK5Oz4iK0vjI5NXdExFMsHiNYpsgvk1ZxPtOlRIIVG2WKpN8pyRBNUiZdmhCoLJOsKFNFOSBqTAdcJsuGW6v4nSqnASTaEuVaRZlsiXK9okwV0wGXyZbVyhE7ZRJ4oV0bOGwJlx0rZWrc72TDwWMEyxSyMkEKrGnbxnutasVGmSLpd9I5ArRPY5sV+yMvLw9Tp07FiRMnkJqaiv79+2P9+vW44oorAADPPfecrwIaAFx22WUAgFWrVmH69OkAgIULF1brpm7gwIEAgC1btmDkyJEAgP3796OwsBAAoOs6vvjiC6xZswYFBQVo3749xo0bhyVLllRrwfrSSy9h7ty5GDNmDDRNw+TJk/HUU08FvD1CLaYfCWRnZ+PFF1/Epk2b8Lvf/Q7btm3D+PHjYVl174nLli1Damqq769jx44AgGvyT0NYOibm52Nifj6EpeNnp39A1pkCCEvH1FN5uLywGMLSMTsvF0OLSiAsHXfkHsOAkjIIS8e9x79H79JyCEvHg8e+Q5ezBoSl4+HvDyPDbUFYOn5/5CDSPBJJpsDvjxxEkimQ5pH4/ZGD0NyJaFeqYemho9DciehaDCz87jg0dyL6FFq470guNHciBhYY+NXRPGjuRAzLd+PW46ehuRMx8vRZTDtxBpo7EdmnSnD9yUJo7kRMyivGpLxiaO5EXH+yENmnSqC5EzHtxBmMPH0WmjsRtx4/jWH5bmjuRPzqaB4GFhjQ3Im470gu+hRa0NyJWPjdcXQtBjR3IpYeOop2pRqE6cQfDh5BmlsgydDxh4NHkGToSHML/OHgEVx1qggdy2wsPXQUwnSiS6mFhd8dhzCd6F1i4L7vcyFMJwYUuXHHsTwI04lhBWcx+/gPEKYTl+eXYlpuPoTpRNYPxfhZXgGE6cTEH4ow8YciCNOJn+UVIOuHYgjTiWm5+bg8vxTCdGL28R8wrOAshOnEHcfyMKDIDWE6cd/3uehdYkCYTiz87ji6lFoQptNbprOywTIJ04l2Z6Xfv5OwdAwtKsHsvFwIS8flhcWYesr7ftaZAvzs9A9h3/eEpSPDbeHh7w9DWDq6nDXw4LHvICwdvUvLce/x7yEsHQNKynBH7jGWKYLKtPDYd7gqPx/9Ss8qLZO/x4jGxFMsHiNYptgo06+OnsRVp4ow/ExZzJQpFn+nhsqU/UMZrj9ZDM1IxKRTJZh0qgSakYjrTxYj+4cyaEYipp8oxMj8cmhGIm49dgaZZzzQjET86uhpDCw0oRmJuP/IKfQptqEZiVh0+CS6lgCakYhHDp1A+zINmpGIJw4eQ8tyB5p5XHji4DE087jQstyBJw4eg2Ykon2ZhkcOnYBmJKJrCbDo8EloRiL6FNu4/8gpaEYiBhaa+NXR09CMRGSe8eDWY2egGYkYmV+O6ScKoRmJisqUiy5nTQip45FDx9HObUNIHU8cPIY0E0iyNTxx8BiSbA1pJvDEwWMQUkc7t41HDh2HkDq6nDWx6HAuhNT9LtOMEwX4f3mluPKHUv5OFWWK5HiKxWNErJfpmlOFmH/0JJyGHjNliqTfqVMpa8FXEnbwf/5auXIlDh8+DLfbjby8PLz33nu+xCAALF68GFLKGn+ViUHA22q1ts9UJgYBVJsnKSkJ69evR15eHjweDw4fPow//elPSE9Pr7ZurVq1wtq1a1FcXIzCwkL8+c9/9tVEDCchK6vGhcEDDzyA3/3ud/V+5ptvvkHv3r19r1evXo358+f7NSDJ+Q4ePIju3bvjvffeq3OkmNpqDpqGB6MP56MA3to0QEVNGWlDwv9aQdWfRFgwhBaCmk423BXTlU9R/K4VBMAQ4StTc9vEhKJTeCM1HRoQE2WKxd+JZYruMjWriLO/paZDQkRNmaRmq/mdqkyjlnJE5b7HMoW9TEmWhYlFp/C31LawhYiJMsXi78QyRXeZXJaNSUWn8LfUNrCEFhNlisXfiWWK3jIlWSauLcjDay29XXLFQpki6XdKAfBBp1Zo2ap1UP3lxQLbtnEm/zSmvdEaZ4MYrTjJYWPN5NNxvQ1VCmty8NSpUzh9+nS9n+nWrRtcLpfvdWOSgwDQpk0bPPzww7j11lv9+nzlDnzZoWKUsiowEVFEYp9kRERERBSpmgvgg85pcZ3YqsytTH+tVdDJwdU/y4/rbahSWPscbNOmDdq0adNk33f+SDGBELYGweRgSDmkjf9XcgL/TG4HUzC4iVSIlzgTikemkxx9lerhkDb+X3Eu/pmSEdNxRhROjDMitRhjagmOR+KjmRKaEXhyxVtHk1SJmgFJVIwUEwhN6uC9YWhpUgBSg2br0HgCIlKCcRYiikYG9C2eNR+jmpCAkML7IJFxRqQE44xILcaYWkwOVmEDsINI9DEfo1TUJAdVjRTjL81wQufOGFISwDsJXQETUHvbTRS/GGfRQYdT6fItp6F0+fHOho63mncCJKDxoTaREowzIrUYY2qxFSxFuqhJDq5evRqrV6+u9zNVu0+sHCkmVDRbY83BEHNICxPLD+MfiV1gCqYtiFRgnBEAaO7AH4pVsnnya5BD2ph09jD+ntSFTbGIFGGcEanFGFOLycFzhCUhgmg0I5i1VipqkoPhJmwBYbMucEhJoAgJgK2z6jqRKowzaiQ9iP4c462PRlERZ8LW2HyfSBHGGZFajDG1uEWrsGVwTYSDaYpMfmNy0E+apUNjcjCkJHRsdnQFbB4siVRhnFFYWI2rpWrr0dUHow0Nm1ydAQkOXkakCOOMSC3GmFqCg2lQhGNy0E/eZsVMDoaSU1qYbO7DG47eMNjckUgJxhlFI03x6NNVhaLZtFNa+KlnP1539WKcESnCOCNSizGmliYlgOh6+KmMZQNWELkVNitWislBP2m2Bi2YHZjqJoGjSAUsjqJKpAzjjKhemtX4uNCkhmNIg2Y44fAzzmyOckYUGAl8L1IBm+czIiUYY0ppYHLQx7aBYCpesVmxUkwO+kk3dOhMDoaYjk/QtWKKiNRgnBGpF3ic6UbTR6Tl5E0JRS8JDTtEZ3aTQaQIY0wtjc2KKcIxOegnNisOPSdMXKflYJ09AAZ3RSIlGGdE6kVLnGnuyLjd4wjYFAwnLPwMn+M1XAKDj7uIQq4xMdaU3YFEK6cuAbjDvRoRQZgmhBF4bkWwM0ylIvcKNsJotmByMMQkdOyTGZBShwZuWyIVGGdE6jHOAqPZsZnYsdkXklISwDeiMs6YiIhEvFeKbgIC+0UGhHTAwRgLOY3hcU6wfQ5aPM+qxOSgn4TFPgdDT8MX6FwxRURqMM6I1GOcEaCx1bZiOr5EZ2hgnBGpwXOZShytuAr2ORiRmBz0k7AEBJODIeWEiRsSP8Er5UMjuhkWUTRjnBGpxzgjUo9xRqQWY0wtZhIo0jHq/cRmxaEnoeNTTzdIm82wiFRhnBGpxzgjUo9xRqQWY0wtNiuuwrLYrDgCMTnoJ90U0E1WsA4tDQeMjhDgKKqhINicKebIkAQG44xIPcYZkXqMMyK1GGMq6ZKDcfnYMrgmwjbAOpjqMDnoJ90Q0E3uiIGqr3NuJ0z8vOUHePnMT5qs6jprf1JUCcE1hFOYuKHV+3gl/zIYsuE4Y4f6RIELx/mMKN4wzojUYoypJXgbShGOUe8nYbFmVjD0eqoLS+j4oPAiSEOHzicAREpY0PB+4UWwTP8aiNQXsyqEpnYkUXjZ0PFB8UWw2RSLSBnGGZFajDG1WEmlCssCgsmtWABTWOpwy/pJ2N4/CiUN359tC4CVg4nUiew4a8rjqmTPEKSMhiMRHGdEsYFxRqQWY0wl1hw8R9oWZBDJQW/LbKawVOGW9ZOwJAQ7wAwppzBxU/vN+Ovx0X41dySiwDHOzglH7W+p80owHjiFgV+kb8ZfTo6GIZ3hXh2imMQ4I1KLMaYWKxpVYXgAI4j5NABICPHKUKX4vlMMgGZKaAaTg6FkQ+Dd3EGwPQIauG2JVGCchVkTnzdsJ5OR4WBBw/+dGlzRfJ9xRqQC44xILcaYWkJwm1JkY3LQXzaCG1GH6iQhcLKspe8VEYUe4yy+aO4o/o21aE5sCuQZLSEA3lARKcM4I1KLMaYSH9JXYVvBDbwYwDwrVqzAihUrcPjwYQBAv379sHDhQowfPx4AUF5ejrvvvhuvvPIK3G43srKy8OyzzyI9Pd23DFFLW/CXX34ZN9xwQ63fuXXrVowaNarW/+3cuRNDhgzB4cOH0bVr1xr/3759O4YNG+Z/ARVgctBP3mbF4V6L2OLUDEzrsRlrDoyGYbPqOpEKjDOKGmHquiMUTb+dmoHpXTdh9aExjDMiRRhnRGoxxhRjs+JzLCu4674ABk7s2LEjHn30UfTs2RNSSqxZswYTJ07Enj170K9fP9x555145513sG7dOqSmpmLu3Lm49tpr8dFHH1VbzqpVq5Cdne17nZaWVud3Dh8+HCdOnKj23oMPPohNmzZh8ODB1d5/77330K9fP9/r1q1b+102VZgc9JctGdAhZto63jiUCdPUwRpNRGowzojqJ0LQKsCChjcOZcJyaxCBXCxEdW1JoqZlWTreODwclqGzVhORAowxtYTGbdqUJkyYUO310qVLsWLFCuzYsQMdO3bEypUrsXbtWowePRqANwnYp08f7Nixo1oNvrS0NGRkZPj1nS6Xq9pnDcPAP/7xD8ybN69GLcTWrVv7vdymwuSgvyw7oEw1NUwCOFPWvGKKB0siFRhnROoFHWeR3iJB5xDfFDkkgDPlyVVeEVEoMcYUYxdlPtKyIIOoOSgr8jHFxcXVkm0JCQlISKh7oBLLsrBu3TqUlpYiMzMTu3fvhmEYGDt2rO8zvXv3RqdOnWo0750zZw5uueUWdOvWDbfddhtmzJhRa3Pj2rz11ls4ffo0ZsyYUeN/V199NcrLy3HhhRfivvvuw9VXX+3XMlVictBftg3YTA6GklMzMav/Zjz/xWgYNndFIhUYZ0TqxWyc2THSZEJjkjMWODUTsy56D89/OTa24owiW6wcB/0Qs+eyiMHkoI9tBpcsrcjHdOzYESUlJb63Fy1ahMWLF9f4+N69e5GZmYny8nIkJyfjzTffRN++fZGTkwOXy1WjiXB6ejpyc3N9r3/7299i9OjRaNasGTZs2IBf/vKXKCkpwR133OHX6q5cuRJZWVno2LGj773k5GT8/ve/x4gRI6BpGt544w1MmjQJf//738OeIGTU+0mYJoTB5GAomZB4MWc4TENCwAz36hDFJMYZkXqMMyL1zsWZFVjzfSLyC89lanG04tA5evRojZqDtenVqxdycnJQWFiI119/HdOmTcO2bdv8/p4HH3zQNz1w4ECUlpbiscce8ys5ePToUaxfvx6vvfZatfcvuOAC3HXXXb7XQ4YMwfHjx/HYY48xORg12KxYAQkPNO+2BbctkRqMMyL1GGdE6jHOiNRijCkVpoHXIpJtBrc9KmoOpqSkQPOjVYDL5UKPHj0AAIMGDcKuXbuwfPlyXH/99fB4PCgoKKhWe/DkyZP19gM4dOhQLFmyBG63u95mzIC3D8PWrVv7lfAbOnQoNm7c2ODnVGNy0F9sVhxyTt3ELUM+xgufDIdhcVckUoFxRqQe44xIPcYZkVqMMcXY56CPNNyQRuA1wGUj+0K2bRtutxuDBg2C0+nEpk2bMHnyZADA/v37ceTIEWRmZtY5f05ODlq2bNlgYlBKiVWrVmHq1KlwOhse+TsnJwft2rULrDAKMOr9ZVmsORhihgW88PFQGBYQ+b2yE0UnxhmReowzIvUYZ0RqMcYUY83BcyyzooZqoPP5nxxcsGABxo8fj06dOqG4uBhr167F1q1bsX79eqSmpmLmzJm466670KpVK7Ro0QLz5s1DZmambzCSt99+GydPnsSwYcOQmJiIjRs34pFHHsE999zj+46dO3di6tSp2LRpEzp06OB7f/PmzTh06BBuueWWGuu1Zs0auFwuDBw4EADwt7/9DX/+85/xwgsvBL49QozJQX/Zktn+kJNwOQwYtgCrrhOpwjgjUo9xRqQe44xILcaYUjbA7dp08vLyMHXqVJw4cQKpqano378/1q9fjyuuuAIA8MQTT0DTNEyePBlutxtZWVl49tlnffM7nU4888wzuPPOOyGlRI8ePfCHP/wBs2bN8n2mrKwM+/fvh2EY1b575cqVGD58OHr37l3rui1ZsgTfffcdHA4HevfujVdffRU//elPFWyFwAgpJTNe9bBtG2fyT+OW35k46wn32sQWp27hlst344Vtg2BYerhXhygmMc6I1GOcEanHOCNSizGmVpILeOF+B1q2au1Xf3mxqDK3Mn3OFzhbHnjNwaREDauf6R/X21Al1hz0k7QtSNauDimPBTy7cVDFK25cIhUYZ0TqMc6I1GOcEanFGFNL2gDTL17SMiCDaFYsA2hWTIHj3ukvwwMYDX+M/CcgkZbsRkFJAiSrWBMpwTgjUo9xRqQe44xILcaYYhoA1D+QBVE4MTnoL8MDGEG2wNa5mWvjcFiYnPkt1mzqCcMMY9V1ywzfdxMp5o2zQ1izoSsMyQsSIhUi5nxGFMMYZ0RqMcYUC2L8jZhlW96/gOfjfqkSs1Z+kpYFGewIQxarZdfG4wGef7srALPij4hCzWNVxhkAuMO6LtFA6LzooMAZFvDCv3oAkOD5jEgNxhmRWowxxSzWxqwkbQMyiByJtJlhVYnJQX/ZJkcrDjEhJNq29CDvjAtS8mBJpALjLDDSDsPFsMZTcbTzxpkbeWcSGGdEijDOiNRijKklmRz0kZ4ySE8QyUE+xFeKdyT+sk0g2JqDVCuHw0b2sDys/b90GOxclEgJxlkUaOquDdjVRcg5HDayL83F2g3tGWdEijDOiNRijClmMzlIkY13CH6ShhvSYDXWUPIYwOq/tQTgCfeqEMUsxhnVwMG1Qs4DYPXf0iCcNtipEJEahgWseTsD3hhjnBGFGmNMMSYHfaRtBNVaR9pMX6nEresvywSCGG6b6iaExI/amfj+hINV14kUYZwRqXcuzgzGmQqs7UqoiLMMA9/nOhlnRAowxqpQ0KpDgrUxfSwjuG3MlpxK8WrLT9IyIJkcDCmHQ2LE4HKsezsRBvtgIFKCcUakHuNMMYvVXakizn5cEWcm44wo1Bhjakk21aYIx+Sgn5gcDD2PBbz0ugMcDYtIHcYZkXqMMyL1GGdEajHG1GJy8BxpeSCDqDnIfIxaTA76y7a8fxQymibRrQtw8DBgsw8GIiUYZ0TqMc6I1GOcEanFGFPM5ki7lbwVrwJvFSDZrFgpJgf9JG0D0mJyMJSEAAZerOPQIQuSm5ZICcYZkXqMMyL1GGdEajHG1JI2a71RZIuK5ODhw4exZMkSbN68Gbm5uWjfvj1uuukm/PrXv4bL5apzvvLyctx999145ZVX4Ha7kZWVhWeffRbp6ekBr4P0lEF6eJQMJcMDvPpKuNeCKLYxzojUY5wRqcc4I1KLMaaW1FlzsJK34lUQNQeZX1UqKpKD+/btg23b+OMf/4gePXrgyy+/xKxZs1BaWorHH3+8zvnuvPNOvPPOO1i3bh1SU1Mxd+5cXHvttfjoo48CXodgh9umumka0LdvAr7+2g0+SCFSg3FGpB7jjEg9xhmRWowxtaQdFamXJmEbJbANTxDz1V0xjBovKvbQ7OxsZGdn+15369YN+/fvx4oVK+pMDhYWFmLlypVYu3YtRo8eDQBYtWoV+vTpgx07dmDYsGGBrUSww21TnTRNoGfPFOz7uhQ2+w8gUoJxRqQe44xIPcYZkVqMMcW4TX28A5IEnhxkc3e1oiI5WJvCwkK0atWqzv/v3r0bhmFg7Nixvvd69+6NTp06Yfv27QEnB4MdUYfqZljA317NDfdqEMU0xhmReowzIvUYZ0RqMcbU4ki7FOmiMjl44MABPP300/U2Kc7NzYXL5UJaWlq199PT05GbW/dBz+12w+12+15L6c3w68KEtDzQde/ITZYl4XAISFnLtFPAtiRsG9WmnU4B05SQEnC6BEzDO+1yaTAM2zft8XgPHLVNCwE4neemHU4BwyO90w4Bw5DQNEDTvcuvOq3rAkIApllzOhxlSkrS0PfiFvj8s0JomoiJMsXi78QyRXeZEhI19KuIMyEQE2WKxd+JZYruMjldGi7q3wJf7CmEBGKiTLH4O7FM0V0mh0PgoktaYG9OIWw7NsoUi78TyxS9ZXK5NFzy4xb4bJf3mjEWyhRJvxNs1hysxJqDkUkL55c/8MADEELU+7dv375q8xw7dgzZ2dm47rrrMGvWrJCv07Jly5Camur769ixIwDgJ6NaQVoG/mtkS/zXyJaQloFRV7TGpZmpkJaB7AltccmPkyEtA1dPzkDfi5pDWgauu7E9uvdIhLQM3Di9Izp1dkFaBmbc2hnpGQ5Iy8DsO7qgZUsN0jIw797uaN5MwqlbmHdvdzh1C82bScy7tzukZaBlSw2z7+gCaRlIz3Bgxq2dIS0DnTq7cOP0jpCWge49EnHdje0hLQN9L2qOqydnQFoGLvlxMrIntIW0DFyamYpRV7QOa5l+eVd3tOuQgJYtRcyUKRZ/J5Ypuss09ZZOaNchAZ06xU6ZYvF3Ypmiu0yTr2+Hdh0S0Kdf7JQpFn8nlim6yzTuqjZo1yEBQ4bFTpli8XdimaK3TCMuS8NFA1oAduyUKZJ+p7bpHJCkkjc56A7iL/CEIvlPyMqqcWFw6tQpnD59ut7PdOvWzTci8fHjxzFy5EgMGzYMq1evhqbVndvcvHkzxowZgzNnzlSrPdi5c2fMnz8fd955Z63z1VZz0DQ8mDLpWRQXuaE7Kp4+mOc/cdAgbQnLknA6NVi2hF05bUnYtoTTpcE0bUi74olD5XSCDsNjeZ8+JOjweCygctptAQJwubzTQgDOymkNcDoqnkpogMOhwfDY0DQBXRcwDBuaLqBr3mldFxCagFk5XflEhWVimVgmlollYplYJpaJZWKZWCaWiWVimVgmJWVqluzCK2/NQctWrevNY8Qy27ZxJv80fjpmCc6WuRue4TxJzRLw+qYH43obqhTW5GAgjh07hlGjRmHQoEH461//Cr2BocALCwvRpk0bvPzyy5g8eTIAYP/+/ejdu3dAfQ5W7sA/G/8EzpYxUx1Kui4wbOSPsGPr97CsqNgNiaIO44xIPcYZkXqMMyK1GGNqJTVz4bX/uzOuE1uVuZXJo36Ds6VBJAebJ+CNLQ/H9TZUKSr6HDx27BhGjhyJzp074/HHH8epU6d8/8vIyPB9ZsyYMXjxxRdx6aWXIjU1FTNnzsRdd92FVq1aoUWLFpg3bx4yMzMDH6kYwbeLp3oIDSkpDsA2wA5aiRRhnBGpxzgjUo9xRqQWY0wp9pdXRUWz4sDnE6FfF/KJiuTgxo0bceDAARw4cMDXB2ClyoqPhmFg//79KCsr8/3viSeegKZpmDx5MtxuN7KysvDss88GtQ62UQzbE8QOTHXyeIB3Xt4Z7tUgimmMs9gg9IRwrwLVw7CAf732ebhXgyimMc6I1GKMqcXk4Dm2pwi2pzzw+Zz+V9ZasWIFVqxYgcOHDwMA+vXrh4ULF2L8+PEAgPLyctx999145ZVXquWK0tPTfcs4cuQIbr/9dmzZsgXJycmYNm0ali1bBoej7jRafn4+5s2bh7ffftuXi1q+fDmSk5N9n/niiy8wZ84c7Nq1C23atMG8efNw3333Bbg1Qi8qkoPTp0/H9OnT6/1Mly5dcH4L6cTERDzzzDN45plnGr8SwWa3qU66Q8OoCf2x5e0vYJl8OkWkAuMsNvD8E9kYZ0TqMc6I1GKMqSWdieFehbjSsWNHPProo+jZsyeklFizZg0mTpyIPXv2oF+/frjzzjvxzjvvYN26dUhNTcXcuXNx7bXX4qOPPgIAWJaFq666ChkZGfj4449x4sQJTJ06FU6nE4888kid3ztlyhScOHECGzduhGEYmDFjBmbPno21a9cCAIqKijBu3DiMHTsWzz33HPbu3Yubb74ZaWlpmD17dpNsm7pERXIwEgSb3aa6CVuHtDywPcWwTT5KIVKBcUakHuOMSD3GGZFajDG1Aqn1FutkkBWvpOV/P4MTJkyo9nrp0qVYsWIFduzYgY4dO2LlypVYu3YtRo8eDQBYtWoV+vTpgx07dmDYsGHYsGEDvv76a7z33ntIT0/HgAEDsGTJEtx///1YvHixb9Dcqr755hu8++672LVrFwYPHgwAePrpp3HllVfi8ccfR/v27fHSSy/B4/Hgz3/+M1wuF/r164ecnBz84Q9/YHIwWgS7A1PdTAvY8Oq2cK8GUUxjnBGpxzgjUo9xRqQWY0ytQBJbsc62ymFbQTQrDrLPQcuysG7dOpSWliIzMxO7d++GYRgYO3as7zO9e/dGp06dfIPXbt++HRdffHG1ZsZZWVm4/fbb8dVXX2HgwIE1vmf79u1IS0vzJQYBYOzYsdA0DZ988gmuueYabN++HZdddlm15GJWVhZ+97vf4cyZM2jZsmVQZQwFJgcbUNlUOSFRBL0zUu0cTgfG/exybHhtG0zDDPfqEMUkxhmReowzIvUYZ0RqMcbUSkj05hLO7wotHjVLbtao+YqLiyHEudxMQkICEhJq9s+9d+9eZGZmory8HMnJyXjzzTfRt29f5OTkwOVyIS0trdrn09PTkZubCwDIzc2tlhis/H/l/2qTm5uLtm3bVnvP4XCgVatW1ZbbtWvXOpfL5GBE8wbvqx+sDPN6xK7b7p4Z7lUginmMMyL1GGdE6jHOiNRijKkWv8lBIQSE0PDK+y8EvYzS0lJc2OtHcLvPtepctGgRFi9eXOOzvXr1Qk5ODgoLC/H6669j2rRp2LaNtWPrwuRgA4TQkNayJQQEIFhzMJSKi4vRsWNHHD16FCkpKeFeHaKYxDgjUo9xRqQe44xILcaYYlJCQkKI+G1eLIRAy1atGlV7snlyCvLy8qq9V1utQQBwuVzo0aMHAGDQoEHYtWsXli9fjuuvvx4ejwcFBQXVag+ePHkSGRkZAICMjAzs3Lmz2vJOnjzp+19tMjIyaqybaZrIz8+vttzK5fi73KbC5GADNE0DEL8BrJIQAiUlJRBCVGxnIgo1xhmReowzIvUYZ0RqMcaoKXhrDwZf6SoxMRGJicGN/GzbNtxuNwYNGgSn04lNmzZh8uTJAID9+/fjyJEjyMzMBABkZmZi6dKlyMvL8zUV3rhxI1q0aIG+ffvWuvzMzEwUFBRg9+7dGDRoEABg8+bNsG0bQ4cO9X3m17/+NQzDgNPp9C23V69eYW1SDDDrRUREREREREREMWLBggV4//33cfjwYezduxcLFizA1q1bMWXKFKSmpmLmzJm46667sGXLFuzevRszZsxAZmYmhg0bBgAYN24c+vbti1/84hf4/PPPsX79evzmN7/BnDlzfDUVd+7cid69e+PYsWMAgD59+iA7OxuzZs3Czp078dFHH2Hu3Lm44YYb0L59ewDAjTfeCJfLhZkzZ+Krr77Cq6++iuXLl+Ouu+4Kz4aqgjUHiYiIiIiIiIgoJuTl5WHq1Kk4ceIEUlNT0b9/f6xfvx5XXHEFAOCJJ56ApmmYPHky3G43srKy8Oyzz/rm13Ud//znP3H77bcjMzMTzZs3x7Rp0/Db3/7W95mysjLs378fhmH43nvppZcwd+5cjBkzxrf8p556yvf/1NRUbNiwAXPmzMGgQYNwwQUXYOHChZg9e3YTbJX6CcnhcihM3G43li1bhgULFtTZTwARNQ7jjEg9xhmReowzIrUYY0TxjclBIiIiIiIiIiKiOMU+B4mIiIiIiIiIiOIUk4NERERERERERERxislBIiIiIiIiIiKiOMXkIIXd4cOHMXPmTHTt2hVJSUno3r07Fi1aBI/HE+5VI4opS5cuxfDhw9GsWTOkpaWFe3WIYsIzzzyDLl26IDExEUOHDsXOnTvDvUpEMeX999/HhAkT0L59ewgh8Pe//z3cq0QUU5YtW4YhQ4YgJSUFbdu2xaRJk7B///5wrxYRNTEmByns9u3bB9u28cc//hFfffUVnnjiCTz33HP47//+73CvGlFM8Xg8uO6663D77beHe1WIYsKrr76Ku+66C4sWLcJnn32GSy65BFlZWcjLywv3qhHFjNLSUlxyySV45plnwr0qRDFp27ZtmDNnDnbs2IGNGzfCMAyMGzcOpaWl4V41ImpCHK2YItJjjz2GFStW4ODBg+FeFaKYs3r1asyfPx8FBQXhXhWiqDZ06FAMGTIE//u//wsAsG0bP/rRjzBv3jw88MADYV47otgjhMCbb76JSZMmhXtViGLWqVOn0LZtW2zbtg2XXXZZuFeHiJoIaw5SRCosLESrVq3CvRpERES18ng82L17N8aOHet7T9M0jB07Ftu3bw/jmhEREQWvsLAQAHgvRhRnmBykiHPgwAE8/fTTuPXWW8O9KkRERLX64YcfYFkW0tPTq72fnp6O3NzcMK0VERFR8Gzbxvz58zFixAhcdNFF4V4dImpCTA6SMg888ACEEPX+7du3r9o8x44dQ3Z2Nq677jrMmjUrTGtOFD2CiTMiIiIiovPNmTMHX375JV555ZVwrwoRNTFHuFeAYtfdd9+N6dOn1/uZbt26+aaPHz+OUaNGYfjw4fjTn/6keO2IYkOgcUZEoXHBBRdA13WcPHmy2vsnT55ERkZGmNaKiIgoOHPnzsU///lPvP/+++jYsWO4V4eImhiTg6RMmzZt0KZNG78+e+zYMYwaNQqDBg3CqlWroGms1Erkj0DijIhCx+VyYdCgQdi0aZNvcATbtrFp0ybMnTs3vCtHRETkJykl5s2bhzfffBNbt25F165dw71KRBQGTA5S2B07dgwjR45E586d8fjjj+PUqVO+/7H2BVHoHDlyBPn5+Thy5Agsy0JOTg4AoEePHkhOTg7vyhFFobvuugvTpk3D4MGDcemll+LJJ59EaWkpZsyYEe5VI4oZJSUlOHDggO/1oUOHkJOTg1atWqFTp05hXDOi2DBnzhysXbsW//jHP5CSkuLrNzc1NRVJSUlhXjsiaipCSinDvRIU31avXl3njRR3T6LQmT59OtasWVPj/S1btmDkyJFNv0JEMeB///d/8dhjjyE3NxcDBgzAU089haFDh4Z7tYhixtatWzFq1Kga70+bNg2rV69u+hUiijFCiFrfX7VqVYNd1xBR7GBykIiIiIiIiIiIKE6xYzciIiIiIiIiIqI4xeQgERERERERERFRnGJykIiIiIiIiIiIKE4xOUhERERERERERBSnmBwkIiIiIiIiIiKKU0wOEhERERERERERxSkmB4mIiIiIiIiIiOIUk4NERERERERERERxislBIiIiogasXLkS48aNU/497777LgYMGADbtpV/FxERERERwOQgERERUb3Ky8vx4IMPYtGiRcq/Kzs7G06nEy+99JLy7yIiIiIiApgcJCIiIqrX66+/jhYtWmDEiBFN8n3Tp0/HU0891STfRURERETE5CARERHFhVOnTiEjIwOPPPKI772PP/4YLpcLmzZtqnO+V155BRMmTKj23siRIzF//vxq702aNAnTp0/3ve7SpQsefvhhTJ06FcnJyejcuTPeeustnDp1ChMnTkRycjL69++PTz/9tNpyJkyYgE8//RTffvtt8IUlIiIiIvITk4NEREQUF9q0aYM///nPWLx4MT799FMUFxfjF7/4BebOnYsxY8bUOd+HH36IwYMHB/WdTzzxBEaMGIE9e/bgqquuwi9+8QtMnToVN910Ez777DN0794dU6dOhZTSN0+nTp2Qnp6ODz74IKjvJCIiIiIKBJODREREFDeuvPJKzJo1C1OmTMFtt92G5s2bY9myZXV+vqCgAIWFhWjfvn3Q33frrbeiZ8+eWLhwIYqKijBkyBBcd911uPDCC3H//ffjm2++wcmTJ6vN1759e3z33XdBfScRERERUSCYHCQiIqK48vjjj8M0Taxbtw4vvfQSEhIS6vzs2bNnAQCJiYlBfVf//v190+np6QCAiy++uMZ7eXl51eZLSkpCWVlZUN9JRERERBQIJgeJiIgornz77bc4fvw4bNvG4cOH6/1s69atIYTAmTNnqr2vaVq1psAAYBhGjfmdTqdvWghR53u2bVebLz8/H23atGm4MEREREREjcTkIBEREcUNj8eDm266Cddffz2WLFmCW265pUatvapcLhf69u2Lr7/+utr7bdq0wYkTJ3yvLcvCl19+GZJ1LC8vx7fffouBAweGZHlERERERPVhcpCIiIjixq9//WsUFhbiqaeewv33348LL7wQN998c73zZGVl4cMPP6z23ujRo/HOO+/gnXfewb59+3D77bejoKAgJOu4Y8cOJCQkIDMzMyTLIyIiIiKqD5ODREREFBe2bt2KJ598En/5y1/QokULaJqGv/zlL/jggw+wYsWKOuebOXMm/vWvf6GwsND33s0334xp06Zh6tSpuPzyy9GtWzeMGjUqJOv58ssvY8qUKWjWrFlIlkdEREREVB8hz+8wh4iIiIique666/DjH/8YCxYsUPo9P/zwA3r16oVPP/0UXbt2VfpdREREREQAaw4SERERNeixxx5DcnKy8u85fPgwnn32WSYGiYiIiKjJsOYgERERERERERFRnGLNQSIiIiIiIiIiojjF5CAREREREREREVGcYnKQiIiIiIiIiIgoTjE5SEREREREREREFKeYHCQiIiIiIiIiIopTTA4SERERERERERHFKSYHiYiIiIiIiIiI4hSTg0RERERERERERHGKyUEiIiIiIiIiIqI4xeQgERERERERERFRnPr/wlzEnf2YuY8AAAAASUVORK5CYII=", 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" ] @@ -60025,18 +1215,18 @@ "\n", "fig, (ax) = plt.subplots(2, 1, figsize=(14, 8))\n", "\n", - "contour0 = ax[0].contourf(XI1, YI1, TI_cst, levels=250, cmap='turbo')\n", - "ax[0].set_xlabel('x (um)')\n", - "ax[0].set_ylabel('y (um)')\n", - "ax[0].set_title('Interpolated Temperature Distribution from Tidy3D - Const. DOS')\n", - "fig.colorbar(contour0, label='Temperature (K)', ax=ax[0])\n", + "contour0 = ax[0].contourf(xi_grid1, yi_grid1, ti_grid_cst, levels=250, cmap=\"turbo\")\n", + "ax[0].set_xlabel(\"x (um)\")\n", + "ax[0].set_ylabel(\"y (um)\")\n", + "ax[0].set_title(\"Interpolated Temperature Distribution - Constant DOS\")\n", + "fig.colorbar(contour0, label=\"Temperature (K)\", ax=ax[0])\n", "\n", "\n", - "contour1 = ax[1].contourf(XI1, YI1, TI1, levels=250, cmap='turbo')\n", - "ax[1].set_xlabel('x (um)')\n", - "ax[1].set_ylabel('y (um)')\n", - "ax[1].set_title('Interpolated Temperature Distribution from Tidy3D - Eff. DOS')\n", - "fig.colorbar(contour1, label='Temperature (K)', ax=ax[1])\n", + "contour1 = ax[1].contourf(xi_grid1, yi_grid1, ti_grid1, levels=250, cmap=\"turbo\")\n", + "ax[1].set_xlabel(\"x (um)\")\n", + "ax[1].set_ylabel(\"y (um)\")\n", + "ax[1].set_title(\"Interpolated Temperature Distribution - Effective DOS\")\n", + "fig.colorbar(contour1, label=\"Temperature (K)\", ax=ax[1])\n", "\n", "\n", "plt.tight_layout()" @@ -60044,13 +1234,13 @@ }, { "cell_type": "code", - "execution_count": 28, + "execution_count": 40, "id": "02e34772-5e3e-49bf-bd30-fbeba326df49", "metadata": {}, "outputs": [ { "data": { - "image/png": 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", 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", 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" ] @@ -60064,46 +1254,50 @@ "\n", "fig, (ax) = plt.subplots(1, 1, figsize=(14, 4))\n", "\n", - "contour1 = ax.contourf(XI1, YI1, 100*np.abs((TI_cst-TI1)/TI1), levels=250, cmap='turbo')\n", - "ax.set_xlabel('x (um)')\n", - "ax.set_ylabel('y (um)')\n", - "ax.set_title('Interp. Temperature Distribution difference Tidy3D - Eff. DOS vs Constant')\n", - "fig.colorbar(contour1, label='Temperature difference %', ax=ax)\n", + "contour1 = ax.contourf(\n", + " xi_grid1, yi_grid1, 100 * np.abs((ti_grid_cst - ti_grid1) / ti_grid1), levels=250, cmap=\"turbo\"\n", + ")\n", + "ax.set_xlabel(\"x (um)\")\n", + "ax.set_ylabel(\"y (um)\")\n", + "ax.set_title(\"Interp. Temperature Distribution difference - Effective DOS vs Constant DOS\")\n", + "fig.colorbar(contour1, label=\"Temperature difference %\", ax=ax)\n", "\n", "plt.tight_layout()" ] }, { "cell_type": "markdown", - "id": "cc74b335-f1ae-4128-b5fd-a9fe725a4713", + "id": "6dbe0a63-ec34-4448-ae5d-79d5952ab811", "metadata": {}, "source": [ - "### IV-Curve" + "### Results: Current-Voltage (I-V) Characteristics\n", + "\n", + "Finally, we plot the I-V curves obtained from the three different simulations. This allows for a direct comparison of the results and highlights the impact of thermal effects and the choice of the DOS model on the device's electrical performance. We multiply the resulting currents for `norm_length` (um), which indicates the length of the device along the z direction." ] }, { "cell_type": "code", - "execution_count": 29, + "execution_count": 42, "id": "22fa81b5-1467-40ac-8140-54ced69a3a80", "metadata": {}, "outputs": [], "source": [ "norm_length = 500\n", - "voltage = results.device_characteristics.steady_dc_current_voltage['v'].as_numpy()\n", - "current = results.device_characteristics.steady_dc_current_voltage.values*norm_length\n", - "current_cst = results_cst.device_characteristics.steady_dc_current_voltage.values*norm_length\n", - "current_iso = results_iso.device_characteristics.steady_dc_current_voltage.values*norm_length" + "voltage = results.device_characteristics.steady_dc_current_voltage[\"v\"].as_numpy()\n", + "current = results.device_characteristics.steady_dc_current_voltage.values * norm_length\n", + "current_cst = results_cst.device_characteristics.steady_dc_current_voltage.values * norm_length\n", + "current_iso = results_iso.device_characteristics.steady_dc_current_voltage.values * norm_length" ] }, { "cell_type": "code", - "execution_count": 30, + "execution_count": 43, "id": "9dddde51-7a0c-4be4-916a-9f103b55fd37", "metadata": {}, "outputs": [ { "data": { - "image/png": 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", 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", 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" ] @@ -60114,17 +1308,17 @@ ], "source": [ "fig, ax = plt.subplots(figsize=(14, 5))\n", - "ax.plot(voltage, current, marker='o', linestyle='-')\n", - "ax.plot(voltage, current_cst, marker='*', linestyle='-')\n", - "ax.plot(voltage, current_iso, marker='*', linestyle='-')\n", - "# --- ADJUSTED LABELS ---\n", + "ax.plot(voltage, current, marker=\"o\", linestyle=\"-\")\n", + "ax.plot(voltage, current_cst, marker=\"*\", linestyle=\"-\")\n", + "ax.plot(voltage, current_iso, marker=\"*\", linestyle=\"-\")\n", + "\n", "ax.set_xlabel(\"Voltage (V)\")\n", "ax.set_ylabel(\"Current (A)\")\n", "ax.set_title(\"Current-Voltage (IV) Curve\")\n", - "ax.legend(['Tidy3D - non-isothermal - Eff. DOS',\n", - " 'Tidy3D - non-isothermal - Cst',\n", - " 'Tidy3D - isothermal'])\n", - "ax.grid(True, which=\"both\", ls=\"-\") \n", + "ax.legend(\n", + " [\"Non-isothermal - Effective DOS\", \"Non-isothermal - Constant DOS\", \"Isothermal - isothermal\"]\n", + ")\n", + "ax.grid(True, which=\"both\", ls=\"-\")\n", "plt.show()" ] } @@ -60145,7 +1339,7 @@ "name": "python", "nbconvert_exporter": "python", "pygments_lexer": "ipython3", - "version": "3.11.13" + "version": "3.12.11" } }, "nbformat": 4, diff --git a/img/local_refinement.png b/img/local_refinement.png new file mode 100644 index 0000000000000000000000000000000000000000..dcbfcf7e688a54078bd6c67ddc5f7cff60b0e6b5 GIT binary patch literal 80072 zcmeFZg;!MF`v(dtphy^$qy^GQ3?U5?N_Tg6!_bHV(jw9&Awzekba#g|j5Nd0c{lp? z{oQr{hRb5H&RWdk?6db1pLh;|veIJMn8cVUC@9$P#NW!JprD0Sb&_ z?U4~oNj|7&eIkOI;x$AN(8-lkY3fHZB`}zZ@0_SK&r}2uHL@ti;cU z+SfK#QtDLmEiv7%Nd9%9bVZ)+t)NK0$=1MFx4Jcthp_l!fZ{+Ko^~WD{`AVv$jZ9< 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zXedBH8!x%&IUJF%k&Kl4bFm}RiK|yPkv5n4&hafwCgsTFh2VL;ph$o^l+i#Un+5(5lnYZ1RUb1NDOYaXy7bBrZb}wTFFixn0}k?};aEamHzW%T0+YNLqgH z3%&LQOxuqCZc$HH$~(hD-{*9xi?{ZAFGHEXo;&St!_>T9^tvX&cTF_&saIJ=&UAb| zCK$<#>~hR^hm#iQ1*U6TCru>DbDEH2Gu8QF;ymGG zIJ+#U<{YGpsEvJ8u9xq5wTj3lp?h_6uy->^njZVm!RR0tossRAD)f%;tc)xXDv!o| zr0kC^ytiyYbaxy>Su=G%b0 z`LasK^4GG+iGkw4>-mtDW}1%Qiah$U-mQodjNyFgK2E>faGTUD7k|iQ-K7$1=C=Q( zNWfTQ|4Z)Hqy8(7^cL z?$93b@eFfmS}{H0&JjGn3}1Xqb~tN(Hpg)H&j0P-P3HBZe~OE1Cu?R){$7NtqLxC1 IoaM*=0S|E_9{>OV literal 0 HcmV?d00001 From 1e7dd13da71be75e6c50178e97440e4136df3f47 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Damiano=20Franz=C3=B2?= Date: Mon, 13 Oct 2025 16:19:02 +0200 Subject: [PATCH 3/6] Updated version --- PINMachZenhder.ipynb | 247 ++++++++++++++++++++++--------------------- 1 file changed, 129 insertions(+), 118 deletions(-) diff --git a/PINMachZenhder.ipynb b/PINMachZenhder.ipynb index 455a9e09..6ecc3f2b 100644 --- a/PINMachZenhder.ipynb +++ b/PINMachZenhder.ipynb @@ -16,17 +16,22 @@ "By including the thermal effects in the simulation, we can accurately predict the modulator's performance under realistic operating conditions and optimize its design for thermal stability.\n", "\n", "## Scope\n", - "This notebook demonstrates how to use Tidy3D's advanced multiphysics capabilities to perform a comprehensive simulation of a PIN Mach-Zehnder modulator, including both charge and heat transport. This notebook will guide you through setting up the geometry, defining the materials and their physical models, running the simulation, and analyzing the results. This specific version of the notebook uses the effective Density of States (DOS) model with temperature dependence.\n", + "This notebook demonstrates how to use our multiphysics simulation capabilities to assess the thermal and electric characteristics of PIN Mach-Zehnder modulator which is essential for the operation of such device. This notebook will guide the user through setting up the geometry, defining the materials and their physical models, running the simulation, and analyzing the results. For this notebook we use different models for the effective Density of States (DOS) model with temperature dependence.\n", "\n", "In order to appreciate the difference in the simulation, we will perform three simulations to assess the impact of temperature on the device's performance:\n", - "1. **Non-isothermal simulation with temperature-dependent DOS**: This is the most comprehensive simulation, including both heat transport and a temperature-dependent model for the DOS.\n", - "2. **Non-isothermal simulation with constant DOS**: This simulation includes heat transport but assumes a constant DOS, allowing us to isolate the effect of the temperature-dependent DOS model.\n", - "3. **Isothermal simulation with constant DOS**: This is a baseline simulation that neglects thermal effects and assumes a constant DOS." + "1. **Non-isothermal simulation with temperature-dependent DOS**: This is the most comprehensive simulation, including both heat transport and a temperature-dependent model for the DOS.\n", + "2. **Non-isothermal simulation with constant DOS**: This simulation includes heat transport but assumes a constant DOS, allowing us to isolate the effect of the temperature-dependent DOS model.\n", + "3. **Isothermal simulation with constant DOS**: This is a baseline simulation that neglects thermal effects and assumes a constant DOS.\n", + "\n", + "For ease of reference, these models will be referred to as:\n", + "1. **Effective DOS** \n", + "2. **Constant DOS** \n", + "3. **Isothermal** " ] }, { "cell_type": "code", - "execution_count": 116, + "execution_count": 2, "id": "550ea3ba-0d98-41d0-8a80-2724c51bdb67", "metadata": {}, "outputs": [], @@ -39,8 +44,6 @@ "import pandas as pd\n", "import scipy as sp\n", "import tidy3d as td\n", - "import tidy3d_backend\n", - "from matplotlib.colors import LogNorm\n", "\n", "# TODO remove\n", "from tidy3d_backend.run_heat import run_heat_sim" @@ -58,7 +61,7 @@ }, { "cell_type": "code", - "execution_count": 117, + "execution_count": 3, "id": "9e6b4fd6-39c7-4287-bc83-a9dc64f472dd", "metadata": {}, "outputs": [], @@ -106,12 +109,12 @@ "\n", "Doping Profiles\n", "- `Constant Doping`: A constant acceptor doping concentration is defined for the p-type epitaxial (pepi) layer.\n", - "- `Gaussian Doping`: Gaussian doping profiles are used for the n+, p+, n-well, and p-well regions. These profiles are defined with specific centers, sizes, concentrations, reference concentrations, and junction widths. The `source` parameter in `GaussianDoping` defines the axis along which the Gaussian function decays." + "- `Gaussian Doping`: Gaussian doping profiles are used for the n+, p+, n-well, and p-well regions. These profiles are defined with specific centers, sizes, concentrations, reference concentrations, and junction widths. The `source` parameter sets the origin plane of the doping, ensuring the concentration is constant along that plane and decays along all other axes." ] }, { "cell_type": "code", - "execution_count": 118, + "execution_count": 4, "id": "07325445-0b1b-4d9e-85c3-8f37629cc25c", "metadata": {}, "outputs": [], @@ -154,8 +157,8 @@ "# nwell\n", "conc_nwell = 1e20\n", "refconc_nplus = 1e8\n", - "donor_nwell_center = (-1.8, -0.49995, 0)\n", - "donor_nwell_size = (1.4, 1.0001, z_size)\n", + "donor_nwell_center = (-1.8, -0.5, 0)\n", + "donor_nwell_size = (1.4, 1, z_size)\n", "donor_nwell_doping = td.GaussianDoping(\n", " center=donor_nwell_center,\n", " size=donor_nwell_size,\n", @@ -169,7 +172,7 @@ "conc_pwell = 1e20\n", "refconc_pwell = 1e8\n", "acceptor_pwell_center = (1.8, -0.5, 0)\n", - "acceptor_pwell_size = (1.4, 1.0001, z_size)\n", + "acceptor_pwell_size = (1.4, 1., z_size)\n", "acceptor_pwell_doping = td.GaussianDoping(\n", " center=acceptor_pwell_center,\n", " size=acceptor_pwell_size,\n", @@ -182,37 +185,34 @@ }, { "cell_type": "markdown", - "id": "107f5726-c11e-47ef-a978-5e64c9302d64", + "id": "e35be6d6-1291-4c5e-ad39-3b399cce0bca", "metadata": {}, "source": [ - "## Media\n", + "### Material Properties for Simulation\n", "\n", - "We define `MultiPhysicsMedium` objects to combine both the electrical (charge) and thermal (heat) properties of the materials.\n", + "To accurately model the device's behavior, we define `MultiPhysicsMedium` objects that integrate both the electrical (`charge`) and thermal (`heat`) properties of each constituent material.\n", "\n", - "- **Si_doping**: A `MultiPhysicsMedium` representing the doped silicon, incorporating the charge properties defined in `si_charge` and the thermal properties (conductivity and capacity) of silicon.\n", - "- **SiO2**: Represents the **silicon dioxide** with its insulator and thermal properties.\n", - "- **Al**: Represents the **aluminum** contacts with their conductor and thermal properties.\n", - "- **air** and contact media: These are defined as `FluidMedium` for the thermal simulations." - ] - }, - { - "cell_type": "markdown", - "id": "c8bc6ac5-95f8-4b0b-83e1-0ed4aced0424", - "metadata": {}, - "source": [ - "### Mobility models\n", - "To accurately model the semiconductor behavior, we use several advanced physical models:\n", + "- **Doped Silicon**: This represents the active semiconductor material. It combines the complex charge dynamics defined in the `si_charge` object with the thermal conductivity and heat capacity of silicon. This medium is the main focus of the electro-thermal simulation.\n", + "- **Silicon Dioxide**: This material serves as the insulator. Its definition includes its dielectric properties, specified using the `ChargeInsulatorMedium` class, and its thermal characteristics, described by the `SolidMedium` class.\n", + "- **Aluminum**: This defines the metal contacts. Electrically, it is treated as a charge conductor using the `ChargeConductorMedium` class, while its thermal properties are described by the `SolidMedium` class.\n", + "- **Air and Contact Media**: These represent the surrounding environment and thermal contacts. Their properties are described using the `FluidMedium` class.\n", "\n", - "- **Caughey-Thomas Mobility**: This model is used to describe the carrier mobility as a function of doping concentration and temperature for both electrons (mobility_n) and holes (mobility_p).\n", - "- **Fossum Carrier Lifetime**: The FossumCarrierLifetime model is used to define the carrier lifetime for electrons (fossum_n) and holes (fossum_p) which is dependent on the doping concentration.\n", + "The **Aluminum**, **Air**, and **Contact** media are currently used to impose boundary conditions but are excluded from the core electro-thermal simulation.\n", + "\n", + "\n", + "#### Mobility models\n", + "To accurately model the semiconductor behavior, we employ several well-established physical models:\n", + "\n", + "- **Caughey-Thomas Mobility**: This model is used to describe the carrier mobility as a function of doping concentration and temperature for both electrons (`mobility_n`) and holes (`mobility_p`).\n", + "- **Fossum Carrier Lifetime**: The `FossumCarrierLifetime` model is used to define the carrier lifetime for electrons (`fossum_n`) and holes (`fossum_p`) which is dependent on the doping concentration.\n", "- **Slotboom Bandgap Narrowing**: This model accounts for the reduction in the bandgap energy at high doping concentrations.\n", "- **Isotropic Effective DOS**: `IsotropicEffectiveDOS`, is used to model the effective DOS for the conduction band (`N_c`) and valence band (`N_v`) based on the effective mass of the carriers. This is an alternative to using a constant value `ConstantEffectiveDOS`.\n", - "- **Varshni Energy Bandgap**: The Varshni Energy Bangap model is used to describe the temperature dependence of the bandgap energy (Eg)." + "- **Varshni Energy Bandgap**: The Varshni Energy Bandgap model is used to describe the temperature dependence of the bandgap energy ($E_g$)." ] }, { "cell_type": "code", - "execution_count": 141, + "execution_count": 5, "id": "b3b246c7-50fd-47cd-871b-ea1939f0d47d", "metadata": {}, "outputs": [], @@ -299,7 +299,7 @@ "# define semiconductor materials\n", "SiO2 = td.MultiPhysicsMedium(\n", " charge=td.ChargeInsulatorMedium(permittivity=3.9),\n", - " heat=td.SolidMedium(conductivity=sio2_conductivity * 1, capacity=sio2_capacity),\n", + " heat=td.SolidMedium(conductivity=sio2_conductivity, capacity=sio2_capacity),\n", " name=\"SiO2\",\n", ")\n", "\n", @@ -320,12 +320,12 @@ "metadata": {}, "source": [ "## Geometries and Scene\n", - "The geometries defined earlier are used to create Structure objects. Each structure is assigned a medium that defines its physical properties. The collection of all these structures is then used to create a Scene which represents the complete simulation domain. The scene is plotted to visualize the geometry and the doping profile." + "The geometries defined earlier are used to create Structure objects. Each structure is assigned a medium that defines its physical properties. The collection of all these structures is then used to create a Scene, which represents the complete simulation domain. The scene is plotted to visualize the geometry and the doping profile." ] }, { "cell_type": "code", - "execution_count": 120, + "execution_count": 6, "id": "808b1a2a-23e6-4bb0-8e4d-9ca7a921f8e7", "metadata": {}, "outputs": [], @@ -381,12 +381,12 @@ "id": "0fcf81f6-a394-4337-9770-51e9b68da05d", "metadata": {}, "source": [ - "To avoid code repetition, we create a temperature-independent DOS models by using `updated_copy` method on existing classes." + "To avoid code repetition, we create a temperature-independent DOS models by using the `updated_copy` method on existing classes." ] }, { "cell_type": "code", - "execution_count": 121, + "execution_count": 7, "id": "84803c45-8533-4b1c-9af5-ad8880fff33b", "metadata": {}, "outputs": [], @@ -401,7 +401,7 @@ }, { "cell_type": "code", - "execution_count": 122, + "execution_count": 8, "id": "bec6d909-74c5-4887-86a5-af11b0bd0ced", "metadata": {}, "outputs": [], @@ -424,15 +424,15 @@ }, { "cell_type": "code", - "execution_count": 124, + "execution_count": 9, "id": "5b5f1cc7-5d04-4030-ac8b-4b2b37cc61dd", "metadata": {}, "outputs": [ { "data": { - "image/png": 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", + "image/png": 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", "text/plain": [ - "
" + "
" ] }, "metadata": {}, @@ -440,10 +440,10 @@ } ], "source": [ - "_, ax = plt.subplots(1, 2, figsize=(10, 4))\n", + "_, ax = plt.subplots(1, 2, figsize=(12, 5))\n", "\n", "fig1 = scene.plot(z=0, ax=ax[0])\n", - "fig2 = scene.plot_structures_property(z=0, property=\"doping\", ax=ax[1])\n", + "fig2 = scene.plot_structures_property(z=0, property=\"doping\", ax=ax[1], scale='symlog')\n", "\n", "ax[0].set_title(\"Device Cross-Sectional Geometry\")\n", "ax[1].set_title(\"Net Doping Concentration\")\n", @@ -451,42 +451,6 @@ "plt.show()" ] }, - { - "cell_type": "markdown", - "id": "4ff2ebd9-8945-4441-b26e-4b248a37cb35", - "metadata": {}, - "source": [ - "These plots provide a more detailed view of the doping concentration in the device. The two plots show the doping concentration with different color limits to highlight the doping regions and their magnitudes." - ] - }, - { - "cell_type": "code", - "execution_count": 137, - "id": "a8a035e7-98d2-4f2a-8a54-b1cbe7666bdd", - "metadata": {}, - "outputs": [ - { - "data": { - "image/png": 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- "text/plain": [ - "
" - ] - }, - "metadata": {}, - "output_type": "display_data" - } - ], - "source": [ - "_, ax = plt.subplots(1, 2, figsize=(12, 5))\n", - "_ = scene.plot_structures_property(z=0, property=\"doping\", ax=ax[0], limits=[-1e20, 1e20])\n", - "_ = scene.plot_structures_property(z=0, property=\"doping\", ax=ax[1], limits=[-1e18, 1e18])\n", - "\n", - "_ = ax[0].set_title(\"Net Doping Concentration\")\n", - "_ = ax[1].set_title(\"Net Doping Concentration\")\n", - "\n", - "plt.tight_layout()" - ] - }, { "cell_type": "markdown", "id": "fd0f4941-ab26-4fa0-9c91-45909bff1b19", @@ -496,12 +460,12 @@ "Here, we set up the electrical and thermal boundary conditions for the simulation.\n", "\n", "* **Electrical Boundary Conditions:** A DC voltage source is applied to the anode and cathode contacts. The cathode is held at 0 V, while the anode voltage is swept to obtain the I-V characteristics.\n", - "* **Thermal Boundary Conditions:** A heat sink is defined at the bottom of the simulation domain to dissipate the heat generated by the device. For the non-isothermal simulations, a higher temperature is set at the electrodes to model a more realistic operating condition.Temperature at electrodes is artificially increased by 50 degress to showcase different simulation results between isothermal and non-isothermal analysis.\n" + "* **Thermal Boundary Conditions:** A heat sink is defined at the bottom of the simulation domain to dissipate the heat generated by the device. For the non-isothermal simulations, a higher temperature is set at the electrodes. The temperature is artificially increased by 50 degrees to showcase different simulation results between isothermal and non-isothermal analysis.\n" ] }, { "cell_type": "code", - "execution_count": 138, + "execution_count": 10, "id": "aff6d1ab-966f-43d9-9439-06e0f1bb3cbd", "metadata": {}, "outputs": [], @@ -569,7 +533,7 @@ }, { "cell_type": "code", - "execution_count": 139, + "execution_count": 11, "id": "ef5b3741-f3eb-4a4b-a136-6dd0629389ed", "metadata": {}, "outputs": [], @@ -605,17 +569,17 @@ "source": [ "## Simulation Setup\n", "\n", - "Finally, we instantiate the simulation objects for each different simulation conditions, by setting the following aspects:\n", + "Finally, we instantiate the simulation objects for each different simulation models by setting the following parameters:\n", "- **Charge Tolerance**: `ChargeToleranceSpec` sets the convergence criteria for the charge solver.\n", "- **Analysis Type**: `SteadyChargeDCAnalysis` specifies a steady-state direct current (DC) analysis. `IsothermalSteadyChargeDCAnalysis` allows performing the same analysis under a constant temperature.\n", - "- **Grid Specification**: `DistanceUnstructuredGrid` is used to create a non-uniform mesh for the simulation. The mesh is refined in specific regions of interest using GridRefinementRegion to improve accuracy where needed, such as near the junctions.\n", + "- **Grid Specification**: `DistanceUnstructuredGrid` is used to create a non-uniform mesh for the simulation. The mesh is refined in specific regions of interest using `GridRefinementRegion` to improve accuracy where needed, such as near the junctions.\n", "\n", - "For `SteadyChargeDCAnalysis`, when `fermi_dirac=False`, the simulation uses Maxwell-Boltzmann statistics to model the distribution of charge carriers. This is a common and effective approximation for semiconductors operating under non-degenerate conditions—that is, when doping concentrations are not excessively high and temperatures are not extremely low. For the device and operating conditions modeled here, Maxwell-Boltzmann provides a sufficiently accurate and computationally efficient result. The `fermi_dirac=True` argument indicates that Fermi-Dirac statistics should be used, which is more accurate for heavily doped semiconductors." + "For `SteadyChargeDCAnalysis`, when `fermi_dirac=False`, the simulation uses Maxwell-Boltzmann statistics to model the distribution of charge carriers. This is a common and effective approximation for semiconductors operating under non-degenerate conditions when doping concentrations are not excessively high and temperatures are not extremely low. For the device and operating conditions modeled here, Maxwell-Boltzmann provides a sufficiently accurate and computationally efficient result. The `fermi_dirac=True` argument indicates that Fermi-Dirac statistics should be used, which is more accurate for heavily doped semiconductors." ] }, { "cell_type": "code", - "execution_count": 140, + "execution_count": 12, "id": "422a1ff6-f855-4f83-9ede-2161c629d4d7", "metadata": {}, "outputs": [], @@ -636,18 +600,18 @@ "id": "ad6a4d73-d4ff-42b1-92c4-70277fb8a139", "metadata": {}, "source": [ - "Here we can **manually** define the regions that require a finer mesh. This is particularly useful for resolving small features or areas where fields are expected to vary rapidly, without the computational cost of making the entire grid uniformly fine. In particular, a higher refinement is applied\n", + "Here we can **manually** define the regions that require a finer mesh. This is particularly useful for resolving small features or areas where fields are expected to vary rapidly, without the computational cost of making the entire grid uniformly fine. In particular, a higher refinement is applied:\n", "- In the region where the doping concentration changes rapidly.\n", "- In the proximity of corners (between the pad and the rib) to address singular fields.\n", "\n", - "Below it is shown an example on how the local refined mesh might look like. Automatic refinement will be featured in future versions of Tidy3D.\n", + "Below, it is shown an example on how the local refined mesh might look like.\n", "\n", "![Local_refinement](img/local_refinement.png \"Local refinement visualization\")" ] }, { "cell_type": "code", - "execution_count": 114, + "execution_count": 13, "id": "0dd7233b-6b79-4175-ac5e-80532e315eb4", "metadata": {}, "outputs": [], @@ -720,7 +684,7 @@ }, { "cell_type": "code", - "execution_count": 115, + "execution_count": 14, "id": "1bd8666d-aaf6-4657-9eeb-754f85515316", "metadata": { "scrolled": true @@ -761,7 +725,7 @@ }, { "cell_type": "code", - "execution_count": 86, + "execution_count": 15, "id": "eeeb6492-5132-4dbf-bea9-7f25431e57be", "metadata": { "scrolled": true @@ -860,7 +824,7 @@ }, { "cell_type": "code", - "execution_count": 26, + "execution_count": null, "id": "6a22a1b7-18da-4eff-b065-0628d63dba33", "metadata": {}, "outputs": [], @@ -877,10 +841,10 @@ "metadata": {}, "source": [ "## Post-processing and Plotting\n", - "After the simulation is complete, this section processes the results and generates plots. The code reads the simulation data from the output files and plots:\n", - "- **Potential**: How the potential is distributed in the simulation region.\n", - "- **Temperature**: How the temperature is distributed in the simulation region.\n", - "- **I-V Curve**: The current-voltage characteristic of the device." + "Once the simulations are complete, the data is post-processed to perform a comparative analysis of the different models. This analysis focuses on three key results:\n", + "- **Potential**: The electric potential distribution across the device.\n", + "- **Temperature**: The internal temperature profile.\n", + "- **IV Curve**: The device's current-voltage characteristics." ] }, { @@ -893,7 +857,7 @@ }, { "cell_type": "code", - "execution_count": 27, + "execution_count": 17, "id": "2eba199a-2240-4ca3-80e9-a417a19e94f4", "metadata": {}, "outputs": [], @@ -919,7 +883,7 @@ }, { "cell_type": "code", - "execution_count": 28, + "execution_count": 18, "id": "5f0030ac-e615-4220-bbdd-6b94d3b37395", "metadata": { "scrolled": true @@ -950,17 +914,9 @@ "plt.tight_layout()" ] }, - { - "cell_type": "markdown", - "id": "2940aa06-30a7-4235-aaf1-1e09f1cc7171", - "metadata": {}, - "source": [ - "#### Difference between constant DOS and effective DOS potential results" - ] - }, { "cell_type": "code", - "execution_count": 29, + "execution_count": 19, "id": "1c952c0a-6827-4c06-b3be-58da75f38b24", "metadata": {}, "outputs": [ @@ -990,6 +946,16 @@ "plt.tight_layout()" ] }, + { + "cell_type": "markdown", + "id": "bb59a129-6108-4835-8606-8dc56007de1a", + "metadata": {}, + "source": [ + "These plots showcased the potential difference between the **Effective DOS** model and the **Constant DOS** model. The asymmetry arises because the intrinsic Fermi level $E_i$ shifts toward the conduction band at high temperatures. This forces an asymmetric change in band bending:\n", + "- **P-Side (right):** Requires **more** bending, creating a positive potential difference.\n", + "- **N-Side (left):** Requires **less** bending, creating a negative potential difference." + ] + }, { "cell_type": "markdown", "id": "25788b47-2fea-424f-8357-0a809e81eaf2", @@ -1000,7 +966,7 @@ }, { "cell_type": "code", - "execution_count": 30, + "execution_count": 20, "id": "304d7b5e-cea4-40dc-ac32-ce1e21b0548e", "metadata": {}, "outputs": [ @@ -1030,9 +996,26 @@ "plt.tight_layout()" ] }, + { + "cell_type": "markdown", + "id": "b69dc411-f518-46a1-bf37-566e7c8a2e74", + "metadata": {}, + "source": [ + "In these plots, the potential difference between the **Effective DOS** and **Isothermal** models is even more pronounced because the latter represents a greater physical simplification. The resulting large, asymmetric difference is a direct consequence of the Isothermal model's omission of critical high-temperature effects. Specifically, it neglects the substantial increase in the intrinsic carrier concentration $n_i$ as well as the temperature-dependent shifts in the bandgap and the intrinsic Fermi level $E_i$." + ] + }, + { + "cell_type": "markdown", + "id": "12d15b74-5673-49f7-9179-74abdaf7de49", + "metadata": {}, + "source": [ + "#### Comparative plot\n", + "The rest of the code of this subsection is to generate three plots that offer a comparative overview of the potential distributions from the three different simulation models." + ] + }, { "cell_type": "code", - "execution_count": 34, + "execution_count": 42, "id": "f25ecedd-296f-44ff-9e2c-3d61296f132b", "metadata": {}, "outputs": [], @@ -1060,7 +1043,7 @@ }, { "cell_type": "code", - "execution_count": 35, + "execution_count": 43, "id": "50ce6a68-d09d-4b08-8b61-21be6edde4ac", "metadata": {}, "outputs": [], @@ -1072,7 +1055,7 @@ }, { "cell_type": "code", - "execution_count": 36, + "execution_count": 44, "id": "90ea03d1-d4b5-4e5f-9b9f-86531fac8be7", "metadata": {}, "outputs": [], @@ -1114,7 +1097,7 @@ }, { "cell_type": "code", - "execution_count": 37, + "execution_count": 45, "id": "ba2f97a2-1249-4f25-aa67-c0e3e99cfd4d", "metadata": {}, "outputs": [ @@ -1171,9 +1154,17 @@ "### Temperature distribution" ] }, + { + "cell_type": "markdown", + "id": "ba3256cd-59a0-41d0-ad25-dbe771f7d51a", + "metadata": {}, + "source": [ + "The following section presents a comparative analysis of the resulting temperature distribution between the **Effective DOS** and **Constant DOS** models. This direct comparison is intended to isolate the specific effects of temperature-dependent state densities on the device's thermal profile." + ] + }, { "cell_type": "code", - "execution_count": 38, + "execution_count": 46, "id": "dd923284-ccad-48bb-abeb-fd5d3ff560b7", "metadata": {}, "outputs": [], @@ -1195,7 +1186,7 @@ }, { "cell_type": "code", - "execution_count": 39, + "execution_count": 47, "id": "a0f30126-b7ee-4571-a546-f3e76ce29eb3", "metadata": {}, "outputs": [ @@ -1265,6 +1256,14 @@ "plt.tight_layout()" ] }, + { + "cell_type": "markdown", + "id": "e8843430-3a78-48ef-82c1-9fe50533188e", + "metadata": {}, + "source": [ + "The plots above highligh how the **Constant DOS** model underestimates the number of carrier interactions at high temperatures, underestimating the amount of heat generated and resulting in a lower peak temperature. The **Effective DOS** model instead, captures this feedback loop more accurately, leading to a more realistic (and higher) thermal profile." + ] + }, { "cell_type": "markdown", "id": "6dbe0a63-ec34-4448-ae5d-79d5952ab811", @@ -1272,12 +1271,12 @@ "source": [ "### Results: Current-Voltage (I-V) Characteristics\n", "\n", - "Finally, we plot the I-V curves obtained from the three different simulations. This allows for a direct comparison of the results and highlights the impact of thermal effects and the choice of the DOS model on the device's electrical performance. We multiply the resulting currents for `norm_length` (um), which indicates the length of the device along the z direction." + "Finally, we plot the I-V curves obtained from the three different simulations. The goal is to highlight the impact of thermal effects and the choice of the DOS model on the device's electrical performance. We multiply the resulting currents for `norm_length` (um), which indicates the length of the device along the z direction." ] }, { "cell_type": "code", - "execution_count": 42, + "execution_count": 48, "id": "22fa81b5-1467-40ac-8140-54ced69a3a80", "metadata": {}, "outputs": [], @@ -1291,7 +1290,7 @@ }, { "cell_type": "code", - "execution_count": 43, + "execution_count": 49, "id": "9dddde51-7a0c-4be4-916a-9f103b55fd37", "metadata": {}, "outputs": [ @@ -1321,6 +1320,18 @@ "ax.grid(True, which=\"both\", ls=\"-\")\n", "plt.show()" ] + }, + { + "cell_type": "markdown", + "id": "f820f699-54de-4c4d-9050-8dd4ce642751", + "metadata": {}, + "source": [ + "The results clearly show that incorporating more detailed physical models (thermal effects and temperature-dependent DOS) predicts different currents for the same applied voltage.\n", + "\n", + "- **Isothermal**: This curve serves as a baseline result, as the simulation model does not account for self-heating effects.\n", + "- **Constant DOS**: The curve shows a lower current than the baseline at higher voltages. This is the expected effect of self-heating: as the device gets hotter, carrier mobility decreases, which in turn reduces conductivity and limits the current flow. However, this model still uses a simplified, constant DOS.\n", + "- **Effective DOS**: The curve predicts the highest current of the three models. This model, while accounting for the negative effects of self-heating on mobility, also correctly models the strong increase in the intrinsic carrier concentration ($n_i$) at elevated temperatures.\n" + ] } ], "metadata": { From c30d177af2f2769b2da8a1d6291868989a012d74 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Damiano=20Franz=C3=B2?= Date: Mon, 13 Oct 2025 16:22:01 +0200 Subject: [PATCH 4/6] Ruff format --- PINMachZenhder.ipynb | 4 ++-- 1 file changed, 2 insertions(+), 2 deletions(-) diff --git a/PINMachZenhder.ipynb b/PINMachZenhder.ipynb index 6ecc3f2b..c0f81682 100644 --- a/PINMachZenhder.ipynb +++ b/PINMachZenhder.ipynb @@ -172,7 +172,7 @@ "conc_pwell = 1e20\n", "refconc_pwell = 1e8\n", "acceptor_pwell_center = (1.8, -0.5, 0)\n", - "acceptor_pwell_size = (1.4, 1., z_size)\n", + "acceptor_pwell_size = (1.4, 1.0, z_size)\n", "acceptor_pwell_doping = td.GaussianDoping(\n", " center=acceptor_pwell_center,\n", " size=acceptor_pwell_size,\n", @@ -443,7 +443,7 @@ "_, ax = plt.subplots(1, 2, figsize=(12, 5))\n", "\n", "fig1 = scene.plot(z=0, ax=ax[0])\n", - "fig2 = scene.plot_structures_property(z=0, property=\"doping\", ax=ax[1], scale='symlog')\n", + "fig2 = scene.plot_structures_property(z=0, property=\"doping\", ax=ax[1], scale=\"symlog\")\n", "\n", "ax[0].set_title(\"Device Cross-Sectional Geometry\")\n", "ax[1].set_title(\"Net Doping Concentration\")\n", From 42995d6204ef28e4dbdd68036d6299004708e19a Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Damiano=20Franz=C3=B2?= Date: Mon, 3 Nov 2025 11:38:49 +0100 Subject: [PATCH 5/6] Last updates --- PINMachZenhder.ipynb | 915 +++++++++++++++++++++++++++++++------------ 1 file changed, 668 insertions(+), 247 deletions(-) diff --git a/PINMachZenhder.ipynb b/PINMachZenhder.ipynb index c0f81682..29c7b58e 100644 --- a/PINMachZenhder.ipynb +++ b/PINMachZenhder.ipynb @@ -2,51 +2,46 @@ "cells": [ { "cell_type": "markdown", - "id": "1d45055c-523f-46ab-8a09-b3f5e4796b1b", + "id": "860d36ab-c028-44ee-a73b-3086f100dacb", "metadata": {}, "source": [ - "# PIN Mach-Zehnder modulator with thermal analysis\n", + "# Forward-bias PIN phase shifter with thermal analysis\n", "\n", - "A Mach-Zehnder modulator is an optical device used to control the intensity of a light beam. It works by splitting a laser beam into two paths and then recombining them. By changing the properties of one path relative to the other, we can control whether the waves interfere constructively (bright output) or destructively (dark output). This allows for high-speed modulation, making them ideal for encoding data onto light signals in fiber-optic communications.\n", + "A Mach-Zehnder modulator is an optical device used to control the intensity of a light beam. It works by splitting a laser beam into two paths and then recombining them. By changing the phase of light in one path relative to the other, we can control whether the waves interfere constructively (bright output) or destructively (dark output). This allows for high-speed modulation, making such modulators ideal for encoding data onto light signals in fiber-optic communications. This notebook focuses on the forward-bias PIN phase shifter, which is the active component of the modulator.\n", "\n", - "The \"PIN\" structure consists of P-type, Intrinsic, and N-type semiconductor regions. Applying a forward bias voltage to this junction injects charge carriers into the intrinsic region. This changes the material's refractive index via the plasma dispersion effect, altering the light's phase in that path and thus controlling the interference at the output.\n", + "The \"PIN\" structure consists of P-type, Intrinsic, and N-type semiconductor regions. Applying a forward bias voltage to this junction injects charge carriers into the intrinsic region. This changes the material's refractive index via the plasma dispersion effect, altering the light's phase in that path and thus controlling the overall modulator's interference at the output.\n", "\n", - "The electrical current flowing through the device during the operation of the PIN diode generates heat, which is most significant during the 'ON' state of the modulation cycle. This heat can significantly affect the performance of the modulator. In particular, the carrier mobility (electrons and holes) in the semiconductor is temperature-dependent, which ultimately affects the speed and efficiency of the modulator.\n", - "\n", - "By including the thermal effects in the simulation, we can accurately predict the modulator's performance under realistic operating conditions and optimize its design for thermal stability.\n", + "The electrical current flowing through the device during the operation of the PIN diode generates heat, which is most significant during the 'ON' state of the modulation cycle. This heat can significantly affect the performance of the phase shifter. In particular, the carrier mobility (electrons and holes) in the semiconductor is temperature-dependent, which ultimately affects the speed and efficiency of the device.\n", "\n", + "By including the thermal effects in the simulation, we can accurately predict the phase shifter's performance under realistic operating conditions and optimize its design for thermal stability.\n", "## Scope\n", - "This notebook demonstrates how to use our multiphysics simulation capabilities to assess the thermal and electric characteristics of PIN Mach-Zehnder modulator which is essential for the operation of such device. This notebook will guide the user through setting up the geometry, defining the materials and their physical models, running the simulation, and analyzing the results. For this notebook we use different models for the effective Density of States (DOS) model with temperature dependence.\n", + "This notebook demonstrates how to use our multiphysics simulation capabilities to assess the thermal and electric characteristics of a forward-bias PIN phase shifter, which is essential for the operation of devices like the Mach-Zehnder modulator. This notebook will guide the user through setting up the geometry, defining the materials and their physical models, running the simulation, and analyzing the results. For this notebook we use different models for the effective Density of States (DOS) model with temperature dependence.\n", "\n", "In order to appreciate the difference in the simulation, we will perform three simulations to assess the impact of temperature on the device's performance:\n", - "1. **Non-isothermal simulation with temperature-dependent DOS**: This is the most comprehensive simulation, including both heat transport and a temperature-dependent model for the DOS.\n", - "2. **Non-isothermal simulation with constant DOS**: This simulation includes heat transport but assumes a constant DOS, allowing us to isolate the effect of the temperature-dependent DOS model.\n", - "3. **Isothermal simulation with constant DOS**: This is a baseline simulation that neglects thermal effects and assumes a constant DOS.\n", + "\n", + "- **Non-isothermal simulation with temperature-dependent DOS**: This is the most comprehensive simulation, including both heat transport and a temperature-dependent model for the DOS.\n", + "- **Non-isothermal simulation with constant DOS**: This simulation includes heat transport but assumes a constant DOS, allowing us to isolate the effect of the temperature-dependent DOS model.\n", + "- **Isothermal simulation with constant DOS**: This is a baseline simulation that neglects thermal effects and assumes a constant DOS.\n", "\n", "For ease of reference, these models will be referred to as:\n", - "1. **Effective DOS** \n", - "2. **Constant DOS** \n", - "3. **Isothermal** " + "\n", + "1. **Effective DOS**\n", + "2. **Constant DOS**\n", + "3. **Isothermal**" ] }, { "cell_type": "code", - "execution_count": 2, + "execution_count": 62, "id": "550ea3ba-0d98-41d0-8a80-2724c51bdb67", "metadata": {}, "outputs": [], "source": [ - "import subprocess\n", - "\n", - "import h5py\n", "import matplotlib.pyplot as plt\n", "import numpy as np\n", - "import pandas as pd\n", "import scipy as sp\n", "import tidy3d as td\n", - "\n", - "# TODO remove\n", - "from tidy3d_backend.run_heat import run_heat_sim" + "import tidy3d.web as web" ] }, { @@ -56,12 +51,12 @@ "source": [ "## Device Geometry\n", "\n", - "We begin by defining the key geometric parameters of the Mach-Zehnder modulator in micrometers (µm). This includes the pad, rib, silicon-on-insulator (SOI) box, cathode, and anode. The dimensions and centers of these components are defined in micrometers." + "We begin by defining the key geometric parameters of the Mach-Zehnder modulator in micrometers (µm). This includes the pad, rib, silicon-on-insulator (SOI) box, cathode, and anode." ] }, { "cell_type": "code", - "execution_count": 3, + "execution_count": 2, "id": "9e6b4fd6-39c7-4287-bc83-a9dc64f472dd", "metadata": {}, "outputs": [], @@ -101,20 +96,26 @@ }, { "cell_type": "markdown", - "id": "1a47366c-eb62-49a3-876e-af943905d864", + "id": "f5316ac1-8399-46a5-98a6-3a1b66b5f98d", "metadata": {}, "source": [ "## Doping and materials\n", - "In this section, we define the doping profiles and the physical properties of the materials used in the simulation.\n", - "\n", - "Doping Profiles\n", + "In this section, we define the doping profiles and the physical properties of the materials used in the simulation." + ] + }, + { + "cell_type": "markdown", + "id": "1a47366c-eb62-49a3-876e-af943905d864", + "metadata": {}, + "source": [ + "In the cell below, we define the following doping profiles:\n", "- `Constant Doping`: A constant acceptor doping concentration is defined for the p-type epitaxial (pepi) layer.\n", "- `Gaussian Doping`: Gaussian doping profiles are used for the n+, p+, n-well, and p-well regions. These profiles are defined with specific centers, sizes, concentrations, reference concentrations, and junction widths. The `source` parameter sets the origin plane of the doping, ensuring the concentration is constant along that plane and decays along all other axes." ] }, { "cell_type": "code", - "execution_count": 4, + "execution_count": 3, "id": "07325445-0b1b-4d9e-85c3-8f37629cc25c", "metadata": {}, "outputs": [], @@ -206,13 +207,13 @@ "- **Caughey-Thomas Mobility**: This model is used to describe the carrier mobility as a function of doping concentration and temperature for both electrons (`mobility_n`) and holes (`mobility_p`).\n", "- **Fossum Carrier Lifetime**: The `FossumCarrierLifetime` model is used to define the carrier lifetime for electrons (`fossum_n`) and holes (`fossum_p`) which is dependent on the doping concentration.\n", "- **Slotboom Bandgap Narrowing**: This model accounts for the reduction in the bandgap energy at high doping concentrations.\n", - "- **Isotropic Effective DOS**: `IsotropicEffectiveDOS`, is used to model the effective DOS for the conduction band (`N_c`) and valence band (`N_v`) based on the effective mass of the carriers. This is an alternative to using a constant value `ConstantEffectiveDOS`.\n", + "- **Isotropic Effective DOS**: `IsotropicEffectiveDOS`, is used to model the effective DOS for the conduction band ($N_c$) and valence band ($N_v$) based on the effective mass of the carriers. This is an alternative to using a constant value `ConstantEffectiveDOS`.\n", "- **Varshni Energy Bandgap**: The Varshni Energy Bandgap model is used to describe the temperature dependence of the bandgap energy ($E_g$)." ] }, { "cell_type": "code", - "execution_count": 5, + "execution_count": 4, "id": "b3b246c7-50fd-47cd-871b-ea1939f0d47d", "metadata": {}, "outputs": [], @@ -320,12 +321,12 @@ "metadata": {}, "source": [ "## Geometries and Scene\n", - "The geometries defined earlier are used to create Structure objects. Each structure is assigned a medium that defines its physical properties. The collection of all these structures is then used to create a Scene, which represents the complete simulation domain. The scene is plotted to visualize the geometry and the doping profile." + "The geometries defined earlier are used to create Structure objects. Each structure is assigned a medium that defines its physical properties. The collection of all these structures is then used to create a `Scene` instance, which represents the complete simulation domain. The scene is plotted to visualize the geometry and the doping profile." ] }, { "cell_type": "code", - "execution_count": 6, + "execution_count": 5, "id": "808b1a2a-23e6-4bb0-8e4d-9ca7a921f8e7", "metadata": {}, "outputs": [], @@ -381,12 +382,12 @@ "id": "0fcf81f6-a394-4337-9770-51e9b68da05d", "metadata": {}, "source": [ - "To avoid code repetition, we create a temperature-independent DOS models by using the `updated_copy` method on existing classes." + "To avoid code repetition, we create temperature-independent DOS models by using the `updated_copy` method on existing classes." ] }, { "cell_type": "code", - "execution_count": 7, + "execution_count": 6, "id": "84803c45-8533-4b1c-9af5-ad8880fff33b", "metadata": {}, "outputs": [], @@ -401,7 +402,7 @@ }, { "cell_type": "code", - "execution_count": 8, + "execution_count": 7, "id": "bec6d909-74c5-4887-86a5-af11b0bd0ced", "metadata": {}, "outputs": [], @@ -424,7 +425,7 @@ }, { "cell_type": "code", - "execution_count": 9, + "execution_count": 8, "id": "5b5f1cc7-5d04-4030-ac8b-4b2b37cc61dd", "metadata": {}, "outputs": [ @@ -465,7 +466,7 @@ }, { "cell_type": "code", - "execution_count": 10, + "execution_count": 9, "id": "aff6d1ab-966f-43d9-9439-06e0f1bb3cbd", "metadata": {}, "outputs": [], @@ -533,7 +534,7 @@ }, { "cell_type": "code", - "execution_count": 11, + "execution_count": 10, "id": "ef5b3741-f3eb-4a4b-a136-6dd0629389ed", "metadata": {}, "outputs": [], @@ -579,7 +580,7 @@ }, { "cell_type": "code", - "execution_count": 12, + "execution_count": 11, "id": "422a1ff6-f855-4f83-9ede-2161c629d4d7", "metadata": {}, "outputs": [], @@ -611,7 +612,7 @@ }, { "cell_type": "code", - "execution_count": 13, + "execution_count": 12, "id": "0dd7233b-6b79-4175-ac5e-80532e315eb4", "metadata": {}, "outputs": [], @@ -684,7 +685,7 @@ }, { "cell_type": "code", - "execution_count": 14, + "execution_count": 13, "id": "1bd8666d-aaf6-4657-9eeb-754f85515316", "metadata": { "scrolled": true @@ -725,7 +726,7 @@ }, { "cell_type": "code", - "execution_count": 15, + "execution_count": 14, "id": "eeeb6492-5132-4dbf-bea9-7f25431e57be", "metadata": { "scrolled": true @@ -759,80 +760,592 @@ }, { "cell_type": "code", - "execution_count": null, - "id": "fc882d41-2048-473b-9109-d8ef0e2594a2", + "execution_count": 41, + "id": "bea28b66-e3a7-4c59-a836-055eeabfd477", "metadata": { "scrolled": true }, - "outputs": [], + "outputs": [ + { + "data": { + "text/html": [ + "
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+       "\u001b[2;36m11:39:46 CET\u001b[0m\u001b[2;36m \u001b[0mEstimated FlexCredit cost: \u001b[1;36m0.025\u001b[0m. Minimum cost depends on task     \n",
+       "\u001b[2;36m             \u001b[0mexecution details. Use \u001b[32m'web.real_cost\u001b[0m\u001b[32m(\u001b[0m\u001b[32mtask_id\u001b[0m\u001b[32m)\u001b[0m\u001b[32m'\u001b[0m to get the billed  \n",
+       "\u001b[2;36m             \u001b[0mFlexCredit cost after a simulation run.                            \n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
11:39:47 CET status = queued                                                    \n",
+       "
\n"
+      ],
+      "text/plain": [
+       "\u001b[2;36m11:39:47 CET\u001b[0m\u001b[2;36m \u001b[0mstatus = queued                                                    \n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
             To cancel the simulation, use 'web.abort(task_id)' or              \n",
+       "             'web.delete(task_id)' or abort/delete the task in the web UI.      \n",
+       "             Terminating the Python script will not stop the job running on the \n",
+       "             cloud.                                                             \n",
+       "
\n"
+      ],
+      "text/plain": [
+       "\u001b[2;36m            \u001b[0m\u001b[2;36m \u001b[0mTo cancel the simulation, use \u001b[32m'web.abort\u001b[0m\u001b[32m(\u001b[0m\u001b[32mtask_id\u001b[0m\u001b[32m)\u001b[0m\u001b[32m'\u001b[0m or              \n",
+       "\u001b[2;36m             \u001b[0m\u001b[32m'web.delete\u001b[0m\u001b[32m(\u001b[0m\u001b[32mtask_id\u001b[0m\u001b[32m)\u001b[0m\u001b[32m'\u001b[0m or abort/delete the task in the web UI.      \n",
+       "\u001b[2;36m             \u001b[0mTerminating the Python script will not stop the job running on the \n",
+       "\u001b[2;36m             \u001b[0mcloud.                                                             \n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
11:39:59 CET status = preprocess                                                \n",
+       "
\n"
+      ],
+      "text/plain": [
+       "\u001b[2;36m11:39:59 CET\u001b[0m\u001b[2;36m \u001b[0mstatus = preprocess                                                \n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
\n"
+      ],
+      "text/plain": []
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
11:40:04 CET starting up solver                                                 \n",
+       "
\n"
+      ],
+      "text/plain": [
+       "\u001b[2;36m11:40:04 CET\u001b[0m\u001b[2;36m \u001b[0mstarting up solver                                                 \n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
             running solver                                                     \n",
+       "
\n"
+      ],
+      "text/plain": [
+       "\u001b[2;36m            \u001b[0m\u001b[2;36m \u001b[0mrunning solver                                                     \n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
11:42:51 CET status = success                                                   \n",
+       "
\n"
+      ],
+      "text/plain": [
+       "\u001b[2;36m11:42:51 CET\u001b[0m\u001b[2;36m \u001b[0mstatus = success                                                   \n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
\n"
+      ],
+      "text/plain": []
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "application/vnd.jupyter.widget-view+json": {
+       "model_id": "9a291ea48f4448cc83c567758bc1256b",
+       "version_major": 2,
+       "version_minor": 0
+      },
+      "text/plain": [
+       "Output()"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
\n"
+      ],
+      "text/plain": []
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
11:42:57 CET loading simulation from simulation_data.hdf5                       \n",
+       "
\n"
+      ],
+      "text/plain": [
+       "\u001b[2;36m11:42:57 CET\u001b[0m\u001b[2;36m \u001b[0mloading simulation from simulation_data.hdf5                       \n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    }
+   ],
    "source": [
-    "results_iso = run_heat_sim(sim=sim_iso)  # , log_level=\"DEBUG\"\n",
-    "# subprocess.run([\"cp\", \"-r\", \"tmp\", \"tmp_Ba_example_iso\"])\n",
-    "# subprocess.run([\"cp\", \"output/simulation_data.hdf5\", \"tmp_Ba_example_iso/\"])"
+    "results_iso = web.run(sim_iso)"
    ]
   },
   {
    "cell_type": "code",
-   "execution_count": null,
+   "execution_count": 16,
    "id": "04d6037a-adb9-4b8c-b319-64074b203f9c",
-   "metadata": {},
-   "outputs": [],
+   "metadata": {
+    "scrolled": true
+   },
+   "outputs": [
+    {
+     "data": {
+      "text/html": [
+       "
             Created task 'heat_charge_2025-10-31_18-45-18' with resource_id    \n",
+       "             'hec-cf5fc781-988f-47c9-a895-55bd59f1790e' and task_type           \n",
+       "             'HEAT_CHARGE'.                                                     \n",
+       "
\n"
+      ],
+      "text/plain": [
+       "\u001b[2;36m            \u001b[0m\u001b[2;36m \u001b[0mCreated task \u001b[32m'heat_charge_2025-10-31_18-45-18'\u001b[0m with resource_id    \n",
+       "\u001b[2;36m             \u001b[0m\u001b[32m'hec-cf5fc781-988f-47c9-a895-55bd59f1790e'\u001b[0m and task_type           \n",
+       "\u001b[2;36m             \u001b[0m\u001b[32m'HEAT_CHARGE'\u001b[0m.                                                     \n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
             Tidy3D's HeatCharge solver is currently in the beta stage. Cost of \n",
+       "             HeatCharge simulations is subject to change in the future.         \n",
+       "
\n"
+      ],
+      "text/plain": [
+       "\u001b[2;36m            \u001b[0m\u001b[2;36m \u001b[0mTidy3D's HeatCharge solver is currently in the beta stage. Cost of \n",
+       "\u001b[2;36m             \u001b[0mHeatCharge simulations is subject to change in the future.         \n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "application/vnd.jupyter.widget-view+json": {
+       "model_id": "da3c2c7256ae49e0982de36ec3356394",
+       "version_major": 2,
+       "version_minor": 0
+      },
+      "text/plain": [
+       "Output()"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
\n"
+      ],
+      "text/plain": []
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
18:45:21 CET Estimated FlexCredit cost: 0.025. Minimum cost depends on task     \n",
+       "             execution details. Use 'web.real_cost(task_id)' to get the billed  \n",
+       "             FlexCredit cost after a simulation run.                            \n",
+       "
\n"
+      ],
+      "text/plain": [
+       "\u001b[2;36m18:45:21 CET\u001b[0m\u001b[2;36m \u001b[0mEstimated FlexCredit cost: \u001b[1;36m0.025\u001b[0m. Minimum cost depends on task     \n",
+       "\u001b[2;36m             \u001b[0mexecution details. Use \u001b[32m'web.real_cost\u001b[0m\u001b[32m(\u001b[0m\u001b[32mtask_id\u001b[0m\u001b[32m)\u001b[0m\u001b[32m'\u001b[0m to get the billed  \n",
+       "\u001b[2;36m             \u001b[0mFlexCredit cost after a simulation run.                            \n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
18:45:23 CET status = queued                                                    \n",
+       "
\n"
+      ],
+      "text/plain": [
+       "\u001b[2;36m18:45:23 CET\u001b[0m\u001b[2;36m \u001b[0mstatus = queued                                                    \n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
             To cancel the simulation, use 'web.abort(task_id)' or              \n",
+       "             'web.delete(task_id)' or abort/delete the task in the web UI.      \n",
+       "             Terminating the Python script will not stop the job running on the \n",
+       "             cloud.                                                             \n",
+       "
\n"
+      ],
+      "text/plain": [
+       "\u001b[2;36m            \u001b[0m\u001b[2;36m \u001b[0mTo cancel the simulation, use \u001b[32m'web.abort\u001b[0m\u001b[32m(\u001b[0m\u001b[32mtask_id\u001b[0m\u001b[32m)\u001b[0m\u001b[32m'\u001b[0m or              \n",
+       "\u001b[2;36m             \u001b[0m\u001b[32m'web.delete\u001b[0m\u001b[32m(\u001b[0m\u001b[32mtask_id\u001b[0m\u001b[32m)\u001b[0m\u001b[32m'\u001b[0m or abort/delete the task in the web UI.      \n",
+       "\u001b[2;36m             \u001b[0mTerminating the Python script will not stop the job running on the \n",
+       "\u001b[2;36m             \u001b[0mcloud.                                                             \n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
18:45:37 CET status = preprocess                                                \n",
+       "
\n"
+      ],
+      "text/plain": [
+       "\u001b[2;36m18:45:37 CET\u001b[0m\u001b[2;36m \u001b[0mstatus = preprocess                                                \n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
\n"
+      ],
+      "text/plain": []
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
18:46:08 CET starting up solver                                                 \n",
+       "
\n"
+      ],
+      "text/plain": [
+       "\u001b[2;36m18:46:08 CET\u001b[0m\u001b[2;36m \u001b[0mstarting up solver                                                 \n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
18:46:09 CET running solver                                                     \n",
+       "
\n"
+      ],
+      "text/plain": [
+       "\u001b[2;36m18:46:09 CET\u001b[0m\u001b[2;36m \u001b[0mrunning solver                                                     \n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
19:03:07 CET status = success                                                   \n",
+       "
\n"
+      ],
+      "text/plain": [
+       "\u001b[2;36m19:03:07 CET\u001b[0m\u001b[2;36m \u001b[0mstatus = success                                                   \n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
\n"
+      ],
+      "text/plain": []
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "application/vnd.jupyter.widget-view+json": {
+       "model_id": "2d76eb1ced444fdeaa796af025765c46",
+       "version_major": 2,
+       "version_minor": 0
+      },
+      "text/plain": [
+       "Output()"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
\n"
+      ],
+      "text/plain": []
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
19:03:14 CET loading simulation from simulation_data.hdf5                       \n",
+       "
\n"
+      ],
+      "text/plain": [
+       "\u001b[2;36m19:03:14 CET\u001b[0m\u001b[2;36m \u001b[0mloading simulation from simulation_data.hdf5                       \n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    }
+   ],
    "source": [
-    "results_cst = run_heat_sim(sim=sim_cst)  # , log_level=\"DEBUG\"\n",
-    "# subprocess.run([\"cp\", \"-r\", \"tmp\", \"tmp_Ba_example_cst\"])\n",
-    "# subprocess.run([\"cp\", \"output/simulation_data.hdf5\", \"tmp_Ba_example_cst/\"])"
+    "results_cst = web.run(sim_cst)"
    ]
   },
   {
    "cell_type": "code",
-   "execution_count": null,
+   "execution_count": 17,
    "id": "f2db1025-950c-4c15-a7c0-4980022d1ebd",
    "metadata": {
     "scrolled": true
    },
-   "outputs": [],
-   "source": [
-    "results = run_heat_sim(sim=sim)  # , log_level=\"DEBUG\"\n",
-    "# subprocess.run([\"cp\", \"-r\", \"tmp\", \"tmp_Ba_example\"])\n",
-    "# subprocess.run([\"cp\", \"output/simulation_data.hdf5\", \"tmp_Ba_example/\"])"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 44,
-   "id": "4132fb56-9778-47c7-b5d0-3467c81d9115",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "# results_iso.to_file('tmp_Ba_example_iso/simulation_data.hdf5')\n",
-    "# results_cst.to_file('tmp_Ba_example_cst/simulation_data.hdf5')\n",
-    "# results.to_file('tmp_Ba_example/simulation_data.hdf5')"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 45,
-   "id": "842477fa-caa1-408e-834d-0289761892e6",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "# TODO This will be removed\n",
-    "# results_iso = td.HeatChargeSimulationData.from_file(\"tmp_B_example_iso/simulation_data_iso.hdf5\")\n",
-    "# results_cst = td.HeatChargeSimulationData.from_file(\"tmp_Ba_example_cst/simulation_data_iso.hdf5\")\n",
-    "# results = td.HeatChargeSimulationData.from_file(\"tmp_Ba_example/simulation_data_iso.hdf5\")"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": null,
-   "id": "6a22a1b7-18da-4eff-b065-0628d63dba33",
-   "metadata": {},
-   "outputs": [],
+   "outputs": [
+    {
+     "data": {
+      "text/html": [
+       "
19:03:15 CET Created task 'heat_charge_2025-10-31_19-03-15' with resource_id    \n",
+       "             'hec-9e696d17-8605-4141-884b-118f1933a2d9' and task_type           \n",
+       "             'HEAT_CHARGE'.                                                     \n",
+       "
\n"
+      ],
+      "text/plain": [
+       "\u001b[2;36m19:03:15 CET\u001b[0m\u001b[2;36m \u001b[0mCreated task \u001b[32m'heat_charge_2025-10-31_19-03-15'\u001b[0m with resource_id    \n",
+       "\u001b[2;36m             \u001b[0m\u001b[32m'hec-9e696d17-8605-4141-884b-118f1933a2d9'\u001b[0m and task_type           \n",
+       "\u001b[2;36m             \u001b[0m\u001b[32m'HEAT_CHARGE'\u001b[0m.                                                     \n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
             Tidy3D's HeatCharge solver is currently in the beta stage. Cost of \n",
+       "             HeatCharge simulations is subject to change in the future.         \n",
+       "
\n"
+      ],
+      "text/plain": [
+       "\u001b[2;36m            \u001b[0m\u001b[2;36m \u001b[0mTidy3D's HeatCharge solver is currently in the beta stage. Cost of \n",
+       "\u001b[2;36m             \u001b[0mHeatCharge simulations is subject to change in the future.         \n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "application/vnd.jupyter.widget-view+json": {
+       "model_id": "a2815324470f43d38282b171a7556812",
+       "version_major": 2,
+       "version_minor": 0
+      },
+      "text/plain": [
+       "Output()"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
\n"
+      ],
+      "text/plain": []
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
19:03:17 CET Estimated FlexCredit cost: 0.025. Minimum cost depends on task     \n",
+       "             execution details. Use 'web.real_cost(task_id)' to get the billed  \n",
+       "             FlexCredit cost after a simulation run.                            \n",
+       "
\n"
+      ],
+      "text/plain": [
+       "\u001b[2;36m19:03:17 CET\u001b[0m\u001b[2;36m \u001b[0mEstimated FlexCredit cost: \u001b[1;36m0.025\u001b[0m. Minimum cost depends on task     \n",
+       "\u001b[2;36m             \u001b[0mexecution details. Use \u001b[32m'web.real_cost\u001b[0m\u001b[32m(\u001b[0m\u001b[32mtask_id\u001b[0m\u001b[32m)\u001b[0m\u001b[32m'\u001b[0m to get the billed  \n",
+       "\u001b[2;36m             \u001b[0mFlexCredit cost after a simulation run.                            \n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
19:03:19 CET status = success                                                   \n",
+       "
\n"
+      ],
+      "text/plain": [
+       "\u001b[2;36m19:03:19 CET\u001b[0m\u001b[2;36m \u001b[0mstatus = success                                                   \n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "application/vnd.jupyter.widget-view+json": {
+       "model_id": "f3782c16799441918c1e155300a09580",
+       "version_major": 2,
+       "version_minor": 0
+      },
+      "text/plain": [
+       "Output()"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
\n"
+      ],
+      "text/plain": []
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    },
+    {
+     "data": {
+      "text/html": [
+       "
19:03:28 CET loading simulation from simulation_data.hdf5                       \n",
+       "
\n"
+      ],
+      "text/plain": [
+       "\u001b[2;36m19:03:28 CET\u001b[0m\u001b[2;36m \u001b[0mloading simulation from simulation_data.hdf5                       \n"
+      ]
+     },
+     "metadata": {},
+     "output_type": "display_data"
+    }
+   ],
    "source": [
-    "# TODO This will be removed\n",
-    "results_iso = td.HeatChargeSimulationData.from_file(\"tmp_Ba_example_iso/simulation_data.hdf5\")\n",
-    "results_cst = td.HeatChargeSimulationData.from_file(\"tmp_Ba_example_cst/simulation_data.hdf5\")\n",
-    "results = td.HeatChargeSimulationData.from_file(\"tmp_Ba_example/simulation_data.hdf5\")"
+    "results = web.run(sim)"
    ]
   },
   {
@@ -857,7 +1370,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 17,
+   "execution_count": 63,
    "id": "2eba199a-2240-4ca3-80e9-a417a19e94f4",
    "metadata": {},
    "outputs": [],
@@ -883,7 +1396,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 18,
+   "execution_count": 64,
    "id": "5f0030ac-e615-4220-bbdd-6b94d3b37395",
    "metadata": {
     "scrolled": true
@@ -891,9 +1404,9 @@
    "outputs": [
     {
      "data": {
-      "image/png": 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",
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",
       "text/plain": [
-       "
"
+       "
"
       ]
      },
      "metadata": {},
@@ -903,7 +1416,7 @@
    "source": [
     "showGrid = False\n",
     "\n",
-    "fig, (ax) = plt.subplots(1, 2, figsize=(14, 4))\n",
+    "fig, (ax) = plt.subplots(1, 2, figsize=(12, 4))\n",
     "\n",
     "cont1 = pot_05V.plot(grid=showGrid, ax=ax[0], cmap=\"turbo\")\n",
     "cont2 = pot_12V.plot(grid=showGrid, ax=ax[1], cmap=\"turbo\")\n",
@@ -916,15 +1429,15 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 19,
+   "execution_count": 65,
    "id": "1c952c0a-6827-4c06-b3be-58da75f38b24",
    "metadata": {},
    "outputs": [
     {
      "data": {
-      "image/png": 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11sDXv/51K5/nOQ444AA89NBD+MpXvoINN9wQTz31FC655BL897//xa233irqmDx5Mm644QaceOKJWHnllbHWWmth+vTp2GGHHaCUwoknnohVVlkFd911F4455hjMmjUrcMZ/0UUXIcsyfOMb38DMmTPxwx/+EIcddhgeeeQRKzNp0iTst99+WG211XDyySdj2LBhePbZZ3H77bfj5JNPBlD4Utp5550xfPhwnHHGGejfvz9uuOEGHHjggfjDH/4gXunZc889AaD2KyyzZ8/Ge++9F8SvtNJK3T7O3/3ud/Gd73wHO+20E8477zz06tULjzzyCCZPnoxPf/rTldeEj0MOOQSXXXYZ7rjjDnzxi1+08XPnzsWf/vQnHHXUUWhrawMAXHPNNRg3bhzGjBmDH/zgB5g7dy4uv/xy7LLLLnj88cex1lpr1Rq7GA466CAcc8wxuPfee/H9738fAPCnP/0Ja621Fnbddddonk9+8pNYa621cMcdd9i4kSNHYsqUKXj66aexySabdLg9zTB37lzcf//9+OQnP4k111yzqTwR4YADDsADDzyAY445BltssQXuuecenHbaaXjzzTdxySWXCPmHHnoIN998M7761a9ihRVWwM9+9jN84QtfwGuvvWbvj8cffzxuuukmnHjiidhoo43w/vvv46GHHsKzzz6LrbbaCmeddRZmzpyJN954w5Y/YMAAAMCsWbPw61//GmPHjsWxxx6L2bNn4ze/+Q3GjBmDf/zjH9hiiy1Ee7r63tgMbW1tGDt2LM4++2w89NBD2HfffXHXXXeh0WjgyCOPLM135JFH4oEHHsDdd9+NL3/5y/Y1yd///vfYeeedW35t9s0338Rrr72GrbbaKpreaDTsfWDhwoV49tlnce6552LdddfFzjvvXFn2VVddhQEDBmD8+PEYMGAAJk+ejHPOOQezZs3CxRdfDKB43WvMmDGYP38+vva1r2HYsGF48803cfvtt2PGjBkYNGhQaflz587F3Llzm/axra0NQ4YMqZR5/PHHsdVWWwWvc2633Xa44oor8N///hebbrppZRlz587FwIEDMXfuXAwZMgRjx47FD37wAzsny/DJT34Sa6yxBiZOnIjx48eLtIkTJ6Jfv372Qy8GG220Efr27Yu//e1v4j7P0V8RenfiNbkeS7fHp4RuRuKznUPis4nPJj6b+Gzis4nPAl3LZ7sD06ZNA1C4IahC//798dnPfhY33XQTPvjgA6y44oo27frrr0ej0cBhhx0W5Ntqq63wt7/9rbrsxGm7D4tb89tZmF9L7rvvPnr33Xfp9ddfp+uuu45WWmkl6tu3L73xxhv0xBNPEAD68pe/LPJ+4xvfCH59KXsN5fzzz6f+/fvTf//7XxF/xhlnUFtbG7322mtE5H4FW2mlleiDDz6wcn/84x8JAP3pT3+ycVWvH8CzEIi9IjVlyhQCQP/3f/9n47rKQoCIaNCgQbTlllvaMLcQMCj7ZWvkyJHBK0PXXHMNZVlGf/3rX0X8hAkTCAD97W9/s3EAKMsyeuaZZ4TsMcccQ6uttlrwGsShhx5KgwYNsuNkxmHDDTek+fPnW7mf/vSnBICeeuopIip+PRw1ahSNHDkyeAWH/9q655570qabbip+Yc/znHbaaSdab731gr7XeYWl7Fd+s7399ttWtjvG+fnnn6csy+hzn/tcYH3G+152TfhzLc9zGj58OH3hC18QcjfccIP4dX727Nk0ePBgOvbYY4XctGnTaNCgQUF8Wb1VlhWbb745DRkyhIiIZsyYQQDos5/9bGW5BxxwAAGwr0bde++91NbWRm1tbbTjjjvSN7/5TbrnnntowYIFleW0CmNRd/LJJ9eSv/XWWwkAfe973xPxBx10ECmlhHUKAOrVq5eIM/XxV5IGDRpEJ5xwQmW9Za9mtbe3i2uMqLCmGjp0KP3P//yPjeuqe2MMVRYCRES33HILAaCf/vSnRER0yimnEAB6/PHHS/NMnTpV/Oqc57m1lBg6dCiNHTuWLrvsstpWHffdd1/QT97+2D1gww03pJdeeknIxiwEYuvDcccdJyxIH3/88abXTRnMvb/ZVue+179/fzEvDO644w4CQHfffXdl/jPOOINOP/10uv766+naa6+1FiU777wzLVy4sGn9p512GgGg//znPzZu5syZ1KdPn1JXB+uvvz7ts88+QbyxDjizp6Lv9so6vJ3ZUyXrgITEZxOfJaLEZzkSn0181iDx2QKJzy45fJajqyxejznmGGprawvW5xgMb/7Vr34l4nfYYQcaPnx4cC8kKt4u69u3b7S8xGm7H4vOg3g3Y/To0VhllVUwYsQIHHrooRgwYABuueUWDB8+HHfeeScABBYu5ldV/qtgGW688UbsuuuuGDJkCN577z27jR49Go1GA3/5y1+E/CGHHCJ+KTG/TL700ksd6h93sLxw4UK8//77WHfddTF48ODaX4NuFQMGDKj9Ndg6uPHGG7Hhhhtigw02EGNonMY/8MADQn633XbDRhttZMNEhD/84Q/Yf//9QUSijDFjxmDmzJnBWBx99NHo1auXDfvn4fHHH8fLL7+MU045BYMHDxZ5jePpDz74AJMnT8bBBx9sf81/77338P7772PMmDF4/vnn8eabb9p8r7zySksO28855xxMmjQp2PivV62g7jjfeuutyPMc55xzTmB91hEn50opfPGLX8Sdd96JOXPm2Pjrr78ew4cPxy677AKgsMiYMWMGxo4dK9rX1taG7bffPpgHHQGfu2a/wgorVOYx6bNmzQIA7LXXXpgyZQoOOOAAPPnkk/jhD3+IMWPGYPjw4bjttts63UYDU1+z9hnceeedaGtrw0knnSTiv/71r4OIcNddd4n40aNHY5111rHhzTbbDAMHDhT3osGDB+ORRx7BW2+91XL729ra7DWW5zk++OADtLe3Y5tttonem7r63lgHxpqhlTnhzwelFO655x5873vfw5AhQ3DttdfihBNOwMiRI3HIIYc0/Qrp+++/DwClv6CvtdZa9tq/6667cOmll2LmzJnYZ599Kr9sDMj1wdyjdt11V8ydO9d+ndZYANxzzz21fu3nOPLII6P3KH/7/e9/37Ssjz/+GL179w7ijRP+jz/+uDL/hRdeiIsuuggHH3wwDj30UFx11VX4/ve/j7/97W+46aabmtZvvgI7ceJEG/eHP/wB8+bNi1oHALDrfhl6qM5vCQkGic92PRKfTXy2FSQ+2zEkPpv4LLD88NmuxsSJE/Gb3/wGX//615t+aBYAPv3pT2OVVVYRfPbll1/G3//+d4wdOzb6ocAhQ4bg448/rhy3xGm7D8uMq4HLLrsM66+/Pnr06IGhQ4fiE5/4hJ1wr776KrIsw7rrrivyDBs2DIMHD8arr77atPznn38e//rXv7DKKqtE09955x0R9l+xMDenDz/8sHafOD7++GNceOGFuPLKK/Hmm2+KryPOnDmzQ2U2w5w5c+yXnbsCzz//PJ599tnaYzhq1CgRfvfddzFjxgxcccUVuOKKK2qV0ew8mFf4ql69eeGFF0BEOPvss3H22WeX1jt8+PDSMqqw6aabYvTo0R3KG0PdcX7xxReRZZl4GOgsDjnkEFx66aW47bbb8KUvfQlz5szBnXfeaV/DMe0DEHyl1WDgwIGdbsecOXMs0TD7Zg9dMfKy7bbb4uabb8aCBQvw5JNP4pZbbsEll1yCgw46CE888UTp2M2ZM0eQ9ba2ttLzYfpb96Hw1Vdfxeqrrx6QrA033NCmc8Re9xoyZIi4F/3whz/EuHHjMGLECGy99db4zGc+gyOPPBJrr712rTZdffXV+PGPf4znnnsOCxcutPH+NRxrT2fvjXVgzkUrcyI2H3r37o2zzjoLZ511Ft5++238+c9/xk9/+lPccMMN6NmzJ373u981bQu/d3P0799f3Af23ntv7LLLLthmm21w0UUX4cc//nFpmc888wy+/e1vY/LkyZZYG5j1YdSoURg/fjx+8pOf4Pe//z123XVXHHDAATj88MMrX8sCgLXXXrv2XGiGvn37Yv78+UH8vHnzbHqrOPXUU3H22Wfjvvvuw6GHHlopu9lmm2GTTTbBtddei+985zsACrK78sorY8yYMdE8RLREfnH3sssuw8UXX4xp06Zh8803x89//nNst912pfI33ngjzj77bLzyyitYb7318IMf/ACf+cxnABQKsG9/+9u488478dJLL2HQoEEYPXo0LrroIqy++uq2jLXWWiu4x1x44YU444wzuqeTyyESn+16JD5bIPHZ+kh81tWf+GziszEs73y2K/HXv/4VxxxzDMaMGWPdijRDjx49cMghh+CXv/wl3nzzTQwfPtwqYcsMCcw5W9I47fLCZ5cZxet2222HbbbZplKmM5Msz3Pstdde+OY3vxlNX3/99UXY+P7xUXaTaoavfe1ruPLKK3HKKadgxx13xKBBg6CUwqGHHoo8zztUZhXeeOMNzJw5MyD3nUGe59h0003xk5/8JJo+YsQIEfYfwE0/Dz/8cIwbNy5axmabbSbCXXEeTL3f+MY3Sh/Mu3KcOotWx7krscMOO2CttdbCDTfcgC996Uv405/+hI8//hiHHHKIaB9Q+MUaNmxYUEarvoZ8LFy4EP/973/tw8egQYOw2mqr4V//+ldlvn/9618YPnx4lCj36tUL2267Lbbddlusv/76OProo3HjjTfi3HPPjZb1ox/9CN/97ndteOTIkaVWI+uuuy569OiBp556qmYPW0Oda+Dggw/GrrvuiltuuQX33nsvLr74YvzgBz/AzTffjH322aey/N/97nc46qijcOCBB+K0007Dqquuira2Nlx44YX2QbDV9nQ1nn76aQDuOjWk/l//+lfgs8vAzJeyh5HVVlsNhx56KL7whS9g4403xg033ICrrrqqdP4a/2OtEPKtt94agwYNCizQOGbMmIHddtsNAwcOxHnnnYd11lkHffr0wdSpU3H66aeL9eHHP/4xjjrqKPzxj3/Evffei5NOOgkXXngh/v73v2ONNdYorcN/8CpD1QOZwWqrrYa33347iDdxnBTVRd++fbHSSivhgw8+qCV/+OGH44wzzsA///lPrLHGGnjggQdw3HHHlZ67Dz/8sNL6oE0VW0cRvyKqcf3112P8+PGYMGECtt9+e1x66aUYM2YM/vOf/0QVTA8//DDGjh2LCy+8EPvttx8mTpyIAw88EFOnTsUmm2yCuXPnYurUqTj77LOx+eab48MPP8TJJ5+MAw44AP/85z9FWeedd57wlVnXuimhHhKf7VokPhvWm/hscyQ+WyDx2cRnfSQ+27V48sknccABB2CTTTbBTTfd1NJ94/DDD8cvfvELXHvttfjGN76Ba6+9FhtttFHpXPjwww/Rr1+/SiOHRc1plyc+u8woXqswcuRI5HmO559/3t6gAGD69OmYMWOGdTINlJPZddZZB3PmzOnSX3JbIc433XQTxo0bJ34lmjdvXtPXAToK4wS8jJh1BOussw6efPJJ7Lnnnh16aFhllVWwwgoroNFodNl5MK+sPP3006Vlml/Gevbs2aXnv7tQd5zXWWcd5HmOf//736U3aKD1B7yDDz4YP/3pTzFr1ixcf/31WGuttbDDDjuIegFg1VVX7ZbxvOmmm/Dxxx+Lubvffvvhf//3f/HQQw/ZV8Q4/vrXv+KVV17Bcccd17R880AcUx4ZHHnkkaKeqgWuX79++NSnPoXJkyfj9ddfb/ogMXLkSNx3332YPXu2WCDMKzj8ftYKVlttNXz1q1/FV7/6VbzzzjvYaqut8P3vf98S1bJ5cNNNN2HttdfGzTffLGTKSHwddOUvsY1Gw344yZyTffbZB21tbbjmmmtKP0jwf//3f+jRowf23nvvyvJ79uyJzTbbDM8//zzee++96MMXAGywwQYAiteAWm1/FUl88MEH8f777+Pmm2/GJz/5SRtfVs+mm26KTTfdFN/+9rfx8MMPY+edd8aECRPwve99r7QO/8GrDFUPZAZbbLEF/vrXvyLPc/Ea1COPPIJ+/foFSp86MK+j1SXJY8eOxZlnnomJEydi5MiRpR8hAID29na8/vrrOOCAA0rLWxyK15/85Cc49thjcfTRRwMAJkyYgDvuuAO//e1vo7/W//SnP8Xee++N0047DQBw/vnnY9KkSfjFL36BCRMmYNCgQZg0aZLI84tf/ALbbbcdXnvtNWHZs8IKK5TO84TuReKzrSPxWYfEZxOf5Uh8ViLx2cRnDerw2a7Aiy++iL333hurrroq7rzzzqYfifWx/fbbY5111sHEiROx11574Zlnnqm0mH355ZcFd4hhUXPa5YnPLjM+XqtgTI/9L7WaX1D33XdfG9e/f/8o+Tv44IMxZcoU3HPPPUHajBkz0N7e3nK7+vfvb/M3Q1tbW/AL2s9//nM0Go2W622GyZMn4/zzz8eoUaNKH0Y7goMPPhhvvvkm/vd//zdI+/jjj/HRRx9V5m9ra8MXvvAF/OEPf7C/+HE08xsTw1ZbbYVRo0bh0ksvDc6DGe9VV10Vu+++O371q19FyYlf74svvhj9ZXRRoe44H3jggciyDOedd15gZcLnWtk1UYZDDjkE8+fPx9VXX427774bBx98sEgfM2YMBg4ciAsuuEC8xmPQkfNo8OSTT+KUU07BkCFDcMIJJ9j40047DX379sVxxx1nfRMZfPDBBzj++OPRr18/exMHCt9hsV+tjY+9T3ziE6XtWHvttTF69Gi7NfuK57nnngsiwhFHHBElJY899hiuvvpqAMX9rNFo4Be/+IWQueSSS6CUavqLvo9GoxG83rnqqqti9dVXF6+E9+/fP/oaqPnFn4/VI488gilTprTUDo5W7o1VaDQaOOmkk/Dss8/ipJNOstYfI0aMwNFHH4377rsPl19+eZBvwoQJmDx5Mo455hj7y/nzzz+P1157LZCdMWMGpkyZgiFDhlQq/oYPH44RI0YEv7ZW4YEHHsCcOXOw+eabl8rExn/BggX45S9/KeRmzZoVrFObbropsiyLvvrP0ZU+sQ466CBMnz4dN998s4177733cOONN2L//fcX/l/9e+m8efOir9Odf/75IKKmDxUGa665JnbddVdcf/31+N3vfodRo0Zhp512isr++9//xrx580rTAaBNUae3VrBgwQI89thj4kE/yzKMHj269LqbMmVKoBgYM2ZM5XU6c+ZMKKUCf5EXXXQRVlppJWy55Za4+OKLO8R/EjqGxGdbQ+KzBRKfLZD4rETisxKJzyY+210+Xl977TX7g4LBtGnT8OlPfxpZluGee+7psIXtYYcdhscffxznnnsulFL40pe+VCo7derUSj4LLFpOu7zx2eXC4nXzzTfHuHHjcMUVV1gz9n/84x+4+uqrceCBB2KPPfawsltvvTUuv/xyfO9738O6666LVVddFZ/61Kdw2mmn4bbbbsN+++2Ho446CltvvTU++ugjPPXUU7jpppvwyiuvYOWVV26pXVtvvTUA4KSTTsKYMWPQ1tZW6p9uv/32wzXXXINBgwZho402wpQpU3DfffdZc/+O4q677sJzzz2H9vZ2TJ8+HZMnT8akSZMwcuRI3HbbbfaDJ12BI444AjfccAOOP/54PPDAA9h5553RaDTw3HPP4YYbbsA999zT9PW6iy66CA888AC23357HHvssdhoo43wwQcfYOrUqbjvvvtqv2pqkGUZLr/8cuy///7YYostcPTRR2O11VbDc889h2eeecY+mFx22WXYZZddsOmmm+LYY4/F2muvjenTp2PKlCl444038OSTT9oy99xzTwCo/UvZX//6V+vfkGOzzTYLXjWrg7rjvO666+Kss87C+eefj1133RWf//zn0bt3bzz66KNYffXVceGFFwIovybKsNVWW9my58+fL17LAgofUJdffjmOOOIIbLXVVjj00EOxyiqr4LXXXsMdd9yBnXfeOSBhMZhxazQaeP/99/G3v/0Nt912GwYNGoRbbrlF/IK13nrr4eqrr8Zhhx2GTTfdFMcccwxGjRqFV155Bb/5zW/w3nvv4dprrxVO+7/2ta9h7ty5+NznPocNNtgACxYswMMPP2ytHswvc12BnXbaCZdddhm++tWvYoMNNsARRxyB9dZbD7Nnz8aDDz6I2267zf6Cu//++2OPPfbAWWedhVdeeQWbb7457r33Xvzxj3/EKaecIvpQB7Nnz8Yaa6yBgw46CJtvvjkGDBiA++67D48++qiwSNp6663t6yDbbrstBgwYgP333x/77bcfbr75Znzuc5/Dvvvui5dffhkTJkzARhttVOt1nhhauTcazJw50/qkmjt3Ll544QXcfPPNePHFF3HooYfi/PPPF/KXXHIJnnvuOXz1q1/F3XffbZV299xzD/74xz9it912E/1/8skn8aUvfQn77LMPdt11V6y44op48803cfXVV+Ott97CpZdeWvramcFnP/tZ3HLLLVGfobz97e3t+M9//oPLL78cffv2rfQ3tNNOO2HIkCEYN24cTjrpJCilcM011wQPWZMnT8aJJ56IL37xi1h//fXR3t6Oa665xioAqtCVPrEOOugg7LDDDjj66KPx73//GyuvvDJ++ctfotFoBFYI/r102rRp2HLLLTF27FhrcXHPPffgzjvvxN57743Pfvaztdtx+OGH4ytf+QreeustnHXWWaVykyZNQr9+/bDXXnu12NPW4fsz6927d/RDZO+99x4ajQaGDh0q4ocOHRoQe4Np06ZF5adNmxaVnzdvHk4//XSMHTtWvK560kknYauttsKKK66Ihx9+GGeeeSbefvvt0leBE7oWic+WI/HZxGcTn018NvHZxGer0NU+Xs1cfuaZZwAUb1g89NBDAIBvf/vbVu7II4/En//8Z9GXvffeGy+99BK++c1v4qGHHrL5gIKf1eWdhx9+OM477zz88Y9/xM4774y11lorKvfYY4/hgw8+aIkrdwZ1OO1yx2dpKceVV15JAOjRRx+tlFu4cCF997vfpVGjRlHPnj1pxIgRdOaZZ9K8efOE3LRp02jfffelFVZYgQDQbrvtZtNmz55NZ555Jq277rrUq1cvWnnllWmnnXaiH/3oR7RgwQIiInr55ZcJAF188cVBGwDQueeea8Pt7e30ta99jVZZZRVSShE/Hb7shx9+SEcffTStvPLKNGDAABozZgw999xzNHLkSBo3bpyVe+CBBwgAPfDAA7XGzWy9evWiYcOG0V577UU//elPadasWUGec889l/wps9tuu9HGG28cyI4cOZL23XffIH7BggX0gx/8gDbeeGPq3bs3DRkyhLbeemv67ne/SzNnzhT9P+GEE6Jtnz59Op1wwgk0YsQI6tmzJw0bNoz23HNPuuKKK4JxuPHGG0Vec36uvPJKEf/QQw/RXnvtRSussAL179+fNttsM/r5z38uZF588UU68sgjadiwYdSzZ08aPnw47bfffnTTTTcFfR85cmS07RymjWUbP//dNc5ERL/97W9pyy23tHK77bYbTZo0yaaXXRNVc+2ss84iALTuuutW9n/MmDE0aNAg6tOnD62zzjp01FFH0T//+c+Wxq1nz560yiqr0Cc/+Un6/ve/T++8805p3n/96180duxYWm211ezcGTt2LD311FOB7F133UX/8z//QxtssAENGDCAevXqReuuuy597Wtfo+nTp1e2saN47LHH6Etf+hKtvvrq1LNnTxoyZAjtueeedPXVV1Oj0bBys2fPplNPPdXKrbfeenTxxRdTnueivLLriN835s+fT6eddhptvvnmdv5vvvnm9Mtf/lLkmTNnDn3pS1+iwYMHEwA7x/M8pwsuuIBGjhxJvXv3pi233JJuv/12GjdunLgOuureGMNuu+0m5sSAAQNovfXWo8MPP5zuvffe0nzz58+nSy65hLbeemvq378/9evXj7baaiu69NJL7T3dYPr06XTRRRfRbrvtRqutthr16NGDhgwZQp/61KeCe0AZpk6dSgDor3/9a2X7lVK04oor0gEHHECPPfaYkDX37pdfftnG/e1vf6MddtiB+vbtS6uvvjp985vfpHvuuUdcny+99BL9z//8D62zzjrUp08fWnHFFWmPPfag++67r1bbuxIffPABHXPMMbTSSitRv379aLfddouu4f699MMPP6TDDz+c1l13XerXrx/17t2bNt54Y7rggguC81WnDb179yYA9O9//7tUbvvtt6fDDz88mjZz5kwCQD/oB/pZf9Xh7Qf9mq8BHG+++SYBoIcffljEn3baabTddttF8/Ts2ZMmTpwo4i677DJaddVVA9kFCxbQ/vvvT1tuuWWwXvj4zW9+Qz169Ai4VELrSHw28dnEZxOfTXw28dnEZ5cePlt13+Mw41I3L1+v62DbbbclAMFc5zj99NNpzTXXDK4tg8XBaZc3PquIutEDdEJCQkJCQoLFnnvuidVXX936HUxYcvHEE09gq622wtSpU6N+A2fNmoVBgwbhRwOAvp3w4/YxEb4xB3j99dfFr/FlFq8LFixAv379cNNNN+HAAw+08ePGjcOMGTPwxz/+Mciz5pprYvz48TjllFNs3Lnnnotbb71VWLgtXLgQBx98MF566SVMnjy5qRXiM888g0022QTPPfdc5euqCQkJCQkJCcsOEp9dejB//nystdZaOOOMM3DyySdHZRYHp13e+Oxy4eM1ISEhISFhScAFF1yA66+/Hq+++uribkpCE1x00UU46KCDKj/W0pUYOHCg2GJKV6D4KvXWW2+N+++/38bleY77778fO+64YzTPjjvuKOSBwo0Clzck9fnnn6/96vcTTzyBLMuiX55NSEhISEhIWDaR+OzSgyuvvBI9e/bE8ccfv8jqrMNplzc+u1z4eE1ISEhISFgSsP3222PBggWLuxkJNXDdddfVklvUX4AFgPHjx2PcuHHYZpttsN122+HSSy/FRx99ZH31HXnkkRg+fLj1bXjyySdbP2/77rsvrrvuOvzzn//EFVdcAaAgqQcddBCmTp2K22+/HY1Gw/rLWnHFFdGrVy9MmTIFjzzyCPbYYw+ssMIKmDJlCk499VQcfvjhGDJkSMcHICEhISEhIWGpQuKzSw+OP/742krXRc1plyc+mxSvCQkJCQkJCQkdxOJQvB5yyCF49913cc4552DatGnYYostcPfdd9sPDrz22mvIMvdS00477YSJEyfi29/+Nr71rW9hvfXWw6233opNNtkEAPDmm2/itttuA4DAwveBBx7A7rvvjt69e+O6667Dd77zHcyfPx+jRo3CqaeeivHjx3eo3wkJCQkJCQkJCUsOFjWnXZ74bPLxmpCQkJCQkJDQIow/rMsGdd4f1gkziy8Bc39YCQkJCQkJCQkJCd2NxGm7H8nHa0JCQkJCQkJCQkJCQkJCQkJCQkJCFyO5GkhISEhISEhI6CDask6+lpXeO0pISEhISEhISFjMSJy2+5AUr02Q5zneeustrLDCClCdMLtOSEhISEhI6HoQEWbPno3VV19d+IFaVMjQOZKaJZKasAiQ+GxCQkJCQsKSi8XNZ4HEabsTSfHaBG+99RZGjBixuJuRkJCQkJCQUIHXX38da6yxxiKvt9MfIkg6sIRFgMRnExISEhISlnwsLj4LJE7bnUiK1yZYYYUVABQXQHIQnJCQkJCQsGRh1qxZGDFihF2vExISQiQ+m5CQkJCQsOQi8dllG0nx2gTmdayBAwcmopqQkJCQkLCEYnG9Pp1lxdbh/F3XlISEUiQ+m5CQkJCQsORjcboDSpy2+5AUrwkJCQkJCQkJHUR6LSshISEhISEhIWFpR+K03YeklE5ISEhISEhISEhISEhISEhISEhI6GIki9eEhISEhISEhA4iWQckJCQkJCQkJCQs7UictvuQFK8JCQkJCQkJCR1EW1ZsHc7fdU1JSEhISEhISEhI6BASp+0+JMVrQkJCQkJCQkIHkali60z+hISEhISEhISEhMWJxGm7D8nHa0JCQkJCQkJCQkJCQkJCQkJCQkJCFyNZvCYkJCQkJCQkdBBZptDWiZ/4i1/Aqauak5CQkJCQkJCQkNAyEqftPixVFq9/+ctfsP/++2P11VeHUgq33npr0zwPPvggttpqK/Tu3Rvrrrsurrrqqm5vZ0JCQkJCQsLyAfNaVme2hOULic8mJCQkJCQkLGlInLb7sFQpXj/66CNsvvnmuOyyy2rJv/zyy9h3332xxx574IknnsApp5yCL3/5y7jnnnu6uaUJCQkJCQkJCQkJIRKfTUhISEhISEhYfrBUuRrYZ599sM8++9SWnzBhAkaNGoUf//jHAIANN9wQDz30EC655BKMGTOmu5qZkJCQkJCQsJwgfQE2oVUkPpuQkJCQkJCwpCFx2u7DUmXx2iqmTJmC0aNHi7gxY8ZgypQpi6lFCQkJCQkJCcsS0mtZCd2NxGcTEhISEhISuhuJ03YfliqL11Yxbdo0DB06VMQNHToUs2bNwscff4y+ffsGeebPn4/58+fb8KxZs7qlbS+/3Y4z/ncO+vVR6Jb5qbq21JwIMz4C+vdV6NVTAVCwDferMnUrWDkK4v02qjCelU+8vGg9Yb1zFwALc2BgfwIpAIpAqjg2e/D4DCCQDmuZjGz5xORsHh0PLWfzAUAm64MyMiZOtqmBHO+0NzCgZ46BPQlZlkMpt2VoFPssB1SOTDWgFNl4leVQqoFMEZRqQCG38kW8zodC1uRXqlGkg6CyhquP1YuMhU2b0ECeLcQ8NQsr5v3RRkAbCG0gKCK0ESEjKuLNMUycSzNhnqZq5GtWZgYdp/dtRFA5oW3BO2hr74EsGwgQAQ0AOYCc2FaElRcO5BpUTM68KEeRjst1fMMvU+YPym+gaBMrm+YvAM36EBiwEgAFIuiNQISiHn1MeTGHRXquj3XRlBd5bDoAyikol2wGHZebqsgrh9WZF3nmvzsd1GigbeVhUEqZYoq6zDF5Yf9YhxHkY33RglZMH5uNh+HLc9mc8PF709Fz4BBkvXqjDFR2TE1kSMaLMkvy2jCFaQRg/swZyOcvQJ9VVi1tb3ehIy7z8/Z2ZL164pC/PYEekbV3aUayDkjobizJfBYATn9oIZ75gNC7ajLXoaURmej9RpVL1Lk/fdROmJcDQ3qT44GA42mgoA5SbM/loTke24tjtjd5RFm6xYbn2rqZfE6E99obGNyT0CtTup0EqNy2GapYlBVMfJFXWRm3OiqRt9gUjEyu88HJ6DKVaa9fJmuPKWc25mEeFmC1rDfaMkIGzT9Vwcsy5FDI7XGm87YhL3isSVO5OC7yETJVyCodl4G88kzYHbuyXZ2uvBzzMQM9kaEv9dPDR8jYHiBN993ePEqIsJ/PCyti+aDzeeVm5NWn88HWBVD+MSifhV5qZWTI+Ok0k9DFwTtl8E5dNKyCPC5dWRKlvHxKT+ZgehCABR9Cqd5QWT/HlQ0RsmFTJ0vXU9MRV3JhIQshqyplydWVM7LFZRsLgVnvgfoMBtp6wfBt0SZdB+lybDoKfml4NOfrIs7WrWV5HlM249ycm9t9rhtPQP7RLNC8j6EGruKejYnfG8lWF6Rpji3IOLicV0pQBgmeHcqRKBIAqJGjMeM9ZAMGQfXshWYgv4AulK8rm8+ZiSFHfAMrHXZqa41ZCpA4bfdhmVa8dgQXXnghvvvd73Z7Pa9Ob2DmR4SZH7V496iLLla8mjI/XsBX7DJlKbEwAVCOXIp8vpwpR8qRKL9cToZJ51WYvRBaWQqr8CTNkpwS1lOoGmWpL2PzyXhknoxW2goZBR3nKYIzKTNvYY738wbatBK0UJCyfdawilSxz7ywkPfKyRtM+cr21IiXlbM60HBKYGpHD9XAO+oj9IRTcMa2rCytSb7a5UQ20nujSeyR51BWoTlLK0bhFJ12X8QRV5w2ijgl4mR+isRxOcXjcgI1PDlWD3IC2vMirUHI584CkRKEzCpbmbLUKEnB42KKVVuOy+OncwVstByWx7Qpz4FcK2kbr70ouLAhY5ZLwnHX1tKotXyenJ9m4trnzBHlGAQEEt5xVRprW91y/bLLygWABbM7pkzxy1lUeRfMmrnMKV4TEpZELCo+CwDPfwi8+3ENQacD8ECBTCQlIiNTKUivbsdH7YgqRLkC1N8Leb0HaipkY0rXGnWYH+8/mp9DZWQVn0KBCk/JamTAZAJFbKQcVShHUZYPTMZT4Cr49ed4jWahrWGUnEaxmltFrIm3Yba1oTwtY2ltoiyZVqs8bWTQhhztIMxXM4of8JVWlpo9UCiOie0R2YPJl+0j+YrHicgehUFBsKdCybEwf1MqP4mdKlJSYWrjdZqbcizepbMp6ZVRodTlZRuOo6dERgqUfwTQB458cQWsryAVYSmrOpG3WpaFcxQ8fPY0rVR1MsTKI12+UIzGlK6sHqMwDZSyXr5YPSKdtZcIxbMLgHzubD34Eb6pianlp1Vpogxicl6aTg/r8tIibQKA9o/q81nRtsUkO//5f9UXTkjAMu5qYNiwYZg+fbqImz59OgYOHBi1DgCAM888EzNnzrTb66+/3i1ta8tUa1f34oZWfEouSyXHkezejT2+V03S68ixFmrCAMYVO70hjFMiTsm2WBn2tMFloOwCrKx8BiLzG7ySe6W6KL6gcsGmZJrNo/yytIzWf0MpkGc94W+qZGv1JERaHWzxvLk8V3Y285OLaFxBLHnZPJnstWwJKMhZNLA49zM3K5PIWTvwOCJjwGLJiZG1kcTbQ27z43ifbD6A9D/HfvwLykgZWZMSXvsEzQVZFcR/nAG7PJUswcR1eVrQymoBYsPG73XK/onE+5FdADG1YvG8Dd3wG1sVmo7jcohMKWRZJ7ZFfRITljosyXwWAPr00BxmUaAz1UR5nFtEjKUexN6r1l8mOZ+g6j0FZSu97ihdnJYz8mRzyTaU9asDCMv0OKr3tzjyV0I2dmbdV0pzvAykXLyluvZYCeruc4aAXismYxTbnqwge0F5+p/ln7GqGT8Vhh3Rkx/sqc6evH1VDorvFWT7fdihopL4SP/9+aCaxUuaZ2aDTbPcibx5w69BeMdmDvqk0SdEsWuPhcW85bJsrxCPdz0pMiszBxzBlfcEYiV4Uy86Hf08Ns6bU0S2DSYs0gWH5wUTG21ZkThfFTeXKDXpBF+h4MAveunhQkSErG+/xd2MbkHitN2HZdridccdd8Sdd94p4iZNmoQdd9yxNE/v3r3Ru3f5q6ZdCqWVbkv6BPXap6Dv+1bp1mxvArGyy/Z8dVD15UzF5LIVRJfCJnjNUmbtUnVlyMkwUqZAliyLn3rtwufJgC02tvkKOVnqYkmrI+h+vGLxKIkvky+Lz6AUgaCgqIhTOk0ppZtq5E2duSBpcosrR+soUltVtIYyOdr08Gf8lJJiSnkK2TuxEy44ONn8juuYAxbH2IV8KOWsg7FSHheZs1y3SiVh086ojCb4Qj8byJW5HfDK9soi4zLBA9nr0tUV8Ec+1OSF2bEd9uIKKkkTfLZWGo8D3K0ZXjw/rdF41t5YWp38kanTFLy9tfO0VkVCBTrr0yr5w0pohiWezwIF5yIlXrcPQFZUKsQiMrbYGHeLizrZkiYE8lAgIncPZTRSUbHEGxkoBUUEiuwBsn23Y0DKcSgYLqXlibQbHr3X+aEIZPKZ9tj1TskG2t64Y1OXjSeyfQhkqBgwHmtGyXBJw/SMTNEnsPbwVD0Owf2MdDtI99u9Zs+5oX92Qu7IqDejTUbxxzdZil+f2fh4un6YfEQkaRmV7COwBs6Q+7iwLEvkUe4Ryu1JyIWFlRxGfhgJr5dmi1GYbvih8tINn4vot/VJ84iQMm1kgxeke23npLGJfBGWJ69acU1W3t4DDC9nXBRw17S9Vj1ORqw9tgWSGgcNd9yZX/8USa/sAdtTCQcnduy1ycrJzpSVEaTxP15TbXTQBSXrq4mO2rJ1JJ+5by+rSJy2+7BUWbzOmTMHTzzxBJ544gkAwMsvv4wnnngCr732GoDi1/0jjzzSyh9//PF46aWX8M1vfhPPPfccfvnLX+KGG27AqaeeujiaH0dHnpgXJZreWJqqD6rTyLs7c5MzMOVkIAch51Z4024jHFv52N/Y0HuEKcIHdZxipIwr6+TTREA6CKJMJfLyPFnx5ogylNS3TjVx3l7F4vxyTFNlObnZq6IbxmOY3etycpOfNG2xCtuilPhG4l/Q6Zpb7F91nryU/MYf0sJJwf1xNZszzsKVHftzQscFr4BBxxnCXzFHeDv4616iTV5bxWthQi7SZ7GVX9sinV1SXGFLIkHuyYsLWuLn43krzoVfEHlxZXddO2y6yXxMFTuIxpdGtJhOYieOy2Z52RSp2qqqbzXP8gzjD6szW8LyhWWSzwJaMVTzqYuvYSWqsZgqLajQbKq6DHOfjJXALVN9BZJZs/21JaCbYAo3sT5TsC/yOEs287YL2N6NC9gbUZG+xeLYVm9s2TGZfAhklCcvx4qCdcjKqszmsRyUr/ex9R3N1x7JCptJ+OXoGEu25Jg4S9wS8lLvVT6xV7G9b9EYECJ/X/VopucY656BM82Q4rErTIyECuOFrL70SstQJixnj+yI8hJ8QR0QDfLDouDme5vX1M3SvOvPZdUx5i1QY/nKtJbCUBqQU8yP40V7F4Midt5NvB8W+RCE+ZUbm172+vXvcVG5sOpovSVlBNd6BaFcVErNjildF137FhcSp+0+LFVD889//hNbbrklttxySwDA+PHjseWWW+Kcc84BALz99tuWtALAqFGjcMcdd2DSpEnYfPPN8eMf/xi//vWvMWbMmMXS/lIsqcrXihtL07UNgH9XraJ8kZJhFjjhPyi6Z0ujsFaEI7FNVAmS9MSPozIqIuNbLrqEsIf6XSujhHN5i/icMuTE7QGcdWm57Se389R74mHIeHJydtPxQVnk8ghSbQ8VjO+v2JZVuByo2uq4LIjnye1cEYieIv6PzS8+U8llEUpTI8EJhSAXJJWjlkSTl4fsx7b4r8+kf2UvfAGHtiHNZzhZ4iM2L44H7IMKsQ3MdxO5MvPcyfiwXWXjSGzcAQRviIn8XpqYd568qF554Qrwdovr0+OqrRz77enMcW0s21wwIWGZwTLLZ4Hi1tylbgfid0P/fl9dAlXIaMVD5AYcqopq7vn65it2jJWptTZVuglyX/rpXbtOh3w3svh7efw03QJOCGB4M5Ox48NXYBLptn+MYFi+Q7ZgGGWcVdaZCJsIKQslFR18qE0Bio2Wv4iDlW16IIQ5Ny8a72SMBW+45+MXaNwDpazX7mg/xBQJ98q8cwb5+MGhE8W14fM8H1QSXwE+9DxW+WnKtDV8ggIkfw4MAwi2n1XpoiybTsF8jbZftEoyOdFi2w+IewWJ8Wb+mFksVOg+orjOXX1ejuhYReMoEqQwbO8zHOJWpf9GLrMuBYldpepjSVRuLg0vKScs2ViqXA3svvvulebnV111VTTP448/3o2t6iJ0tduBzipy9SITxIk6dKR7HyvSB2IZq479Stmx96EuyToKOWtRx1dDXrxpa05QmVlSvRWAdzVGRCwT00uY4q9DsFWZuIxcCEUPlRsFXpcZRtO/HNBKPkMulSAySo9JhkI5mlGhWM10frPgurfjDZ3w93w4VLA37VSqIBbiF9QiElDG4jbyzjnrX6uz3PpBZVuzJ47CE61+5SGYz+6XfwUUP0HlZbS0ybUU60wQpyCe6uzDAivfe9gIahYPM8UEJf5AY45tN9yxeIWIlePH2SIIhdsJN2l0pNLlkVbOo3AxwPvFLgme3ZI/c91QpClGJtYNdk3G0vxhil3e5B00O9vmkvfeLhOXecldq0tB3r4M3VV/QjWU9mvV4fzppC13WKb5LKCXvCZuBwBBBbvv/klNSYd5QV+Bvepvb/7F3ncNYF0JGBFbFpi7AFmWKMO+ruq7FyDBZznFjrfd1ur1RseTURbGZNgC5+cL2J+Ll3VyLmO4js/0DHctXA4QEaRuPsbj+N8wzVUd44SyXMkfw3q5uwTiMkoBFL41Zd6Ut3tUb2i2p5I9H0VzHs3wlhEYJQ6KMmx53gXH88WK86irLx5zIxBPM3MpJkkuAydv9mFIx0XDVfkpqN/NXZ9V+Z0MX++36lHRDjgZ/bYaaXKoyHBd5e4rJp1kunnoK9K9ZrFNe+uIXxIEuNcRvaG1h2zieMNl73feMNt8flpUrnmaqbOOmkI+ZzeTrVdmR7GsuxfgSJy2+7BUKV6XeSxRPl+ba5Ps2hP1zM2OjYxdw5TgazLM5erlc0pXlocjWA1k8+zaHCMh/IHArBZGjv2CbxZzLlOE2Qqo3MtQhb8grzt2oTYfJDDVtCFXhMxSQ+ftiu9zMOUrCsvUTLFwVTwVaspMUSSey2fISbdFMTpLnPYaglK9taJEZY5Yo/nFpgBFhCxnr/wE2Z3/LiJA5foxwn4dijz5ME5RTVk9V1QgyxgUJ025J+KabOdmrBhenQy46Rq8jhe7NvwA+QnymIjCevnmFVnMd4U8SATnr676qgcNe890l6Nflg+qSAsFWVEURIt+l42QDVflryHTrLm2rd1MPhNCJH9YCQkRKNRTvtYpqPYdUIL8m6ry4lUoTezVFPL2Bd2koIzYfVrEUYWcSdN7N2bGJ6zk24Ij+m9KwVOK6jxyAPxjRi68Y2UayPwyuY/FVviZVEDxdVCwMYf+eGtRhlXyimoVjIGBsgrjoOCwTtvPeLp748ZL88pXutecYROU9t1LofIPcA8RFXtjfWlOhaqRp6jC1ZlxolF1OXByGHluU1zOi1eQeZSfx49X9lKJ5vEVs5zKqcDPqwmzc2QP7cCxfhHk6fTz8/LL8itvLCnkr95Yu6uMlaPPb7EjHaXvE+Slw0u3dUa4NK+ewqZGmhcFN25wT5yiQzCP1f4wuXsP6zIgul8Z51/n4bT0GiuDrShfW0ErRRa3wOWHqCVO231YqlwNLFsgMNMytwHyeHGghZuLWHCFZqJkhbDHfpiXQV6ZxMqUddhFLPaOWFl7y0TIk4k1taS6mP8etznWyV5kdz4++aZYWdYNARB1BwDl+WiV8VBcMVv0LIxXLB4l8SXyxDc9cuK98ArlqBygSrnKMlRkQwOK+XWNw7N4NWFB3I1okzh2fqNx+ry7PGyuEJPVSl9HwmSLnY83b0OzOArixC1H5CMRtgpdKy+vTcpduYH+2dtyvyrzmqV32xDjw5pk5fzbhS+PMC5IrnF7De4oevj5vFLsIBq/mLAc8cOEhIQlBSXrU1O3A/7aVafcCC9rKtMUSq/XLK/tgwtL7gCRR0XyiLWhrDzbVjlWFImzCSX9E2u7FWfrrX1zBdo6zwgplpfJQDGuoCwXINZC20ymjYu6StDiuTFEsLzN5C0qKtwqad+s4m0hdnKtrGkuRdJdPvsvQtj9tvqPZdGTHJsozfaeOaOq2hPfe5Op7JKy41+4Z4hZpLp60OK1F1bqzxfO5wxvCl6C9Ov0i42GqTLdjFs5zJVUQRbFCffOFzsX9kIiQBBS0zDj/1WHncLO94ks5cQVw/pYm85VdN+5yQjnvuiKMaKJDgkbPTYMdsfzVMnBG7YaWJxKzyXGHi5hmUCyeF2SsTiu9rL6qtohfhZDzb1W9PnxRWW6XClbhLn2Q7k3mgwhMHJ+E8u6W5FmZcxrZTqHgrF+4LkVI3nmC7a6vcp8mgp2EeJNFo1k42DWR1OX8bsKU5qCDntuAVRBjAsLVTCLVWgLVmMZCxbvy4O5LdBv4gM6ntyNQ5wzJY4tEQ462Lmt2Ue1+IepWjG0ITjritijj0Cs4FhePk/CBFEOJ/6BhRDpnusxFUpQQQKLeGvdaoeFMSEvX1MZzZDsfNRx1rqbd5pfDgBynZc3Ea5I3VeXjxsqlFqwBhetvvZIRtc99bHfuUrvF6xdQV26XaVt8PoUyJWVW9GeKiwOy9fllaBmWbF1OP8iPk8JCYsadS1frcFa11QaKC3YEiXCYPGBmwBtVeqYnbFEdXtQ6EbA+OS0FqpkLCfdHta9AGOO7Fga5NVhrLJ/vOeMYTC5cMUJlVjxvEGbRJJ7rV9sCsx1FmAsXHndbuNe92W9wie/toxVLNWV4LeBf2yMM2fHVSgYF10m5YLKlbp1rQV/dWf7YhLavXCP0Kwun2PouSTkGVcVCmfi8eKPi/eobOF/Vz4BmC54T0jFuHoTkwj6hxk2h/wp2UqYd8RDnNdHBiwgmuz5TkQbwmeuU9IWBp5lK1PmWv7M6hbpJhtvVqSPAbfzuhH0zjU1Ei+Jq+sWs2ePkdEYoS1Lj7Szqv1xWXN/LSmjBdTlxsuTewGOxGm7D0nxuqRjUT7JdrCecipoFq+Otkf/4fo8vrfEhC2K1hGWrFsZ7aHXvKCFkTizKBoySnyxNQundbwDTZcZeYIjN3w5D0Ymy8GtSM1DitL9IpUhR65f8/cVrgV5dfFsryDDTD5wQ6Bi7gmywtWBypBDuxkgR6sLC9uiq6Rfg3NWuIYChJuwWq2QK8unQML3a5EWWrpyJaz/EGBldEhxVi3gMyF9/iNxgiVxucAinMVpc1DNycSP6lFCpMT0Mp0IL8QqBaYn40aYmIwTJEVWLtdkMrSIleGgPT6Z5Ane8AgZVq4dFiYTC1emif6WNjF+rNitx0U1Pe4oOpN/UStfl0N+CgDIOukPK5HUhOUBtZWvkbgglypZqo18pJ56Cl1z0zS80qpAYfl4sz1neoaf6kO+F1VpxU2hqAXjtCUDUrbSRFwPiH6pkrwEcAWoUExGy7REHIb1+nHmbSn5dhY0xXUv8lvosbEcouJ8+T+9+6kmNpRhMZZ7cuUie/vJ4yjG5YBdVEvcBBgeaVwTBHs93sbdgNjDkxd8DPCHrGRwIqPFP0IseYF43kHzeJumBYKyYkPc8hrnK0AjHff9UDFfqY7keRcbebLkd4KRRFFXZM/Ksr5aS10lIB6OVCEuZ5imu4rJ2/uxVtarh5kEMQ8PskE8CzEC6bdNyJUc27DXnNqctGSsWuW0HeXAy6vSFUictjuRFK9LAxaF8rWz5XOiKixUeZgcmbFERZXIAZywCjmz2vOVH/6xjCVi66Fts6umpTi9qBZxfBXyrGGN0lWPrW05iaIdVWXlOuKiXDwVMrniakJVsdelUYlClpS25lVQ0H63yISLPMZewI9HoL7kx3DnUilAK0NjG4CoQlSheCWmqasBtinkyKhsFiBYxO0ziGEG5OaJaZf/+pTT3HFSzlgIcXLLmTKTte0xhC9H8Qs4t+R10nbjfJBcOFB6mqpZu4VMJJ/tQ2nZ5GSJpFuuKNNyfTQkUAyjGUJLyCTTFGRNZJLH0TQ0T4u2NQJz77DHfrz3bOYbbpRVU4e0dhVvST5fux/JOiAhoR66xudrNaiFu2fMwpapWoUeh1NcsHiuoxNUV+SRVrJ2bdQ8yVjI1mm5U4SWaeTCYxWJVxF5/0NaHnuVHWcxcRhuZn4oh7OO1JZr9rV/ZmjgLChNPFuE7SC4mpt9ZsIcG0rnIhVLLuoxtbnsLl6x5xPzo7v3vlm9PVWkE99Tc/e8MfiTWkxk1ntL8rx4I8k4oc/T2dBIb1/gAt5YUiTO9/Pq96sqLIhomawc36hs1EqAo2T+6f6Gj64kuLQRNtUQKzbQkfpxtmmmDHZj0SNZ6v9UhUMUl2FvddoxYUPkHcsGl8WRkDfHneWi3eXv1cfyrHQFEqftTiTF69KC7lS+dkG5xaJj2igXeAG5XlTsVTzeaDq4DC+Xt0iu7qhLUB1zYPExC4IYI/IYSVRxEyFMYtGzDK9YYJUOF6VlWgmWa3Glu6r0gq4ppG8Ra8sowtbdABn3AXBuBoDC8hURNwOK0MMwB8Xays8JFDs/xsqBOQO1W9RrLaxCVWgP45vLk6PNJ4l+OLfVBkShIEySFRTTixXikQrJKMy+QlaYYup4IsB+f0KxIiOrlgLsL9Z8GLxhVaxPZTKw/WVDHciQK8+WQ4W1K2+fmM9U/UDA4RMyPyO77n0jhrJ7R7Ta6PVWD940kccKjmhHqope+1WVxOqt2dC6w7380siEhIQlBU2Vrx29WRHYD9+8Qrh108Zx7RAF9SmzJvlWr/7d1ssX65Vwfc+bp5wiwbi0EjozPg4EpuBVsjBekeC8YgBCrZg51jxOxSrlPbPaN7JNcO7uFYsvjuVr/a7eQten2RtlIKXf9lJO8VkHjuWW5eAcMWiFTRdjEZSlAJ5fKTjn9jY53HtpUeNo2G57xpJkZ1vA4UxL3Slovgl+JieseGSJJjAwzqaMkPKSvUspKIZKNpvGBtA/tbEw3JNO0IfotPBZXeRkBdpKcXLipenOE4/kJBDeeedVykNbsnIlVrS7+j7K2yOUwL4MFITRB2sksfGQtXl5ZNVBW5q2tyacMUHXs1pebi3+3fnuJCxnSIrXpQndoXztwvLsGmMOYtasdpXRS6X51Z4zCUt2WfuMHGcrfHUTlZt6XN9sMnM5YEtgN05vnSyPU16cCuWMPUG0RWUcD4WFqzJKOmuRSpaUFC4HlOdywN8jjGeWr9aS1dSHMgvXrPBFxuTkB6j4k4Qk/dwBgCTAemMWrT4La2bpKrdcuF/yz508kfE0QyLdg4cLOWIeWWEjr/QoLi6y6kkTSbdWpeYfkQ1z2ZifV1dkcSBcAFg5fczazeMIpn6Xz4oymcDFgG17PBwbIh4OKaQ7SYHFKhtjnuZfwxyCdMZFaiH2LAXI+0AZ6axz3Nn21UFI7DuPrqe9SyeSdUBCQmuopXwVGVR1OuS65fLFKi+pzycMxirT8lpoeqoYLyq4buDz1TI3cn21PmNNXc7q1T3v64rE6/2lXXYNY3kVjy859mUU76CuTekx8N/i4vnibXIruf1Ali2Hs0eyr9cL3scV4bZJjjFw5ilGJ7IguRwRYh9BvGxJ2I3LAVVKUuLMhu9FmwWRMfyYnf7Y4l21oLvJFPbLs3At0oQjgiBPjFdbn7oe9+UbYpvXTDfrdIe5jN9H/2IMLk6/ldRkz1vinxMZZY7tNR9JE64OxDgTy2OUs/I7CeaHIcG965BEPy6PyPhdl4cwj9Tllq/O4CN4HvbHKhJngx2xVC2Z58Wp71r26ZqXWG3itN2HpHhd2tCVyteqYjqaZpmpJ+vvS4tRohjDP218qC1jwubYJMZWrchqSYYl6HizGIo4QwQpLuO9qsKVrrJFZeRPl8mJPrkqyCiMTZgy5CqHsSYw5JIAOOtYz1drzKeriVclvl5tfFY4I1BGwaoYqdDUzK7eynIiRUrraRXIZwQkz0g9kPevULry9aF0enqV+dTLnB3FJRQ8SuqzQicXIIjjc8pFEQIeLFvhkRXuYsyEweNiRJeF7deIm8rp0TbHORWaV9Z22Zf6Z5KCAxcmNq7FfIa7D/jyEUIZtKLqAcVrdow7iufNmAxLD7pT0q4qPu1IanmbO4Vw4ncYiZ4WSP6wEhJaR1e6HbC+ybsQhZIF8kNbMIpLZqnqK1/1giU/pAW3Vhi6xPieoU/uNQnn0ieyzFVyGc45iwhiv4uT+GvbJfirSTVt8ZVVpKXCOFeG2ZTmgfqHe5HFcMcMhJxxIaNYEyfD1kPReDh+pVj9nLcrEtmcwtGNCZlz7q/SjK/acTTnq2xv2kThvtS/aw43Tqxuc6CCuAgMZ/LjzM4MhceJxeXjcUH/0jLPKGU+XIUdhle+9+QQe1AK+mIbVcXnorJszIK8fsNJ7sU5Y2n22jTXr74rlMWzyo2rAJvC/cOa2UVajl+rFGmpP+Zl4+KRSslnHUF1YmGcFasaLpYu7Odr3OL9U85jSk+3quhzi+g2vr2UInHa7kMn9NkJiw1dcYfgysyW629SbMWN2WkqKtLZsbvpk4uwqxBfPfxGVazMxI6teGQsyFswQu7mxSldqqWbdq8iaeKfgpRTYCFoIsn9h2YgyixRNC/t55oumj23Oi0UaRH7UorL5nqI3Rv6JE6BzGOOlXesdPna5YDKwX8SV2wLfi4v2VyeHJnyTinKj30oRi7s+dYddG7HSMTJjeJNRFmcfgAhQOUEZQbYm/NifrMm+pak3hQMtkr45YiCKShIOTbFBtAf0JK6VLxt0VuB4sc8ELaZWFpgeAJfMEzzhzw4BZFspXcV/lDTCmJ9QveRwOAhp4PopuYlJCQsZ1BdYrVE4svqQqFj0nm834aSeJ0V4kdmarLXefj6ZNKcERz/kdxrAHNYKmT9ZjVZmKSCLr5wq0i8EjJceyZHqHwNKFLi9iEluQgoHkdVxXzgjDme7re+LN1U6bspUJG48rarOH/z9/bjTU32eg5ZLsE6UW1rE3t2Mc8ZfB6wK0AVV4QdzYiPV1GDCuPNWClGjpWCfSHOPgsyPl1OVpW8fr1r2VTsX99GNjYc4fXunRzL/wXpjBBRP82L947tR66MkjN+M3BXtYpYQav4VS+62hESFptb4n5Q/FGM0MbmQi343LaE1JrnmrJ4P43H21PYScKclK4JixLJ4nVpRactXyvydpIHK+hf68xP6QAMzXHHKE8zH6PykwOfrkpmhSfvx/E2EgJda6iPMH3wUgPfrrm12uAWCmGTQuJquyM+rKXY+BVh+GFFIGRokEIboP2DFXUQOUrErV99dwPN4oWbAU53PQLHrVzFedJj3NTlgE2t2BRvWTF6Za80+eTQH3RJMygibew4mKsIW0mkwAB8rrA44Q+BkTjNUASHF2mGYcg5FjwfeGEp4ye4fvrPDrG+VboYoHg4JNfRoosgsWiRxl59MnOK5zNDreAeaimsllCeVtGsckvXsvhYOaq5/KKEuUSjN6oWykhwyFQnX8uKvR6YkLCcoI7la9U9p4vfOPXqNZatjnZbq1USdKeQJ0iXA9wqNjO8QrMhUx5Y4ZYp+eX7vNMtaKrGF5j8j2ZVy8RWspgjB7Y+Qy4qYvkXPEhkZ90x7zARjEmBMLUkcm4LwB0gufaZLS7hExLrRVX0NXzpvjye9CRQ2rJRaYvHYA/mOsBaP7O97l/GCU5AFOLXR52pb3kzL0K5/ps0Yhlcucb6ktVnHgVMXA4Uzy1FpPJPHfzZIbsm2sbJmk/sfDIl+sQeOoIaYy3wBlqIVdyL/PnrTX97fRvfzWCW76zO4pSSHndysZpM2xg2iW2rYnwy0uSyKcQNFcyVH1q+KtsO8czhF14jrrs/huU+uNX6QpCUrnEkTtt9SIrXpRkdVb62nKcDdcTa5lhm9ZpoCSugVzI4z/O6PWJx9Jf3sjaVh2NrrTKLnhV2r4+4xVovUZqYiGb6ZQVxjv6xKuSxIS+ayIhqCSDK0GBLZ0EPC7cAedmeColcUbGH3hOxeO12gLibgdig+izEMDKF4tU7/YqZ3hevlDWipShUnD1iA4IcGShwL2DzauLnrFbDrYgnN8ZmrrHx5pYPBdlkvnZF370T7p9D035TH/+4V7Sv7PSb+c7GoYhnLgCI+YriGS2HM+QtTIfIF0+nnF13fr9ERyShJW+zKeTFUZjG4wEliRvJ6slm9tJ8+LKdAH/FKeDeJONi7aiKXhRE0CpfW0STO+xyi06/lpXePUpYztEhtwME8eEXVxi/17MbNcvHZV0b5FLHReyP4RHfq5zDxvQ+xg2CVOI61wWFkpbxUFWxgpTehCNaoKAsT8lKMNpApi7lck6eqle1oJGF4hH2jZ/met+CH7rzpWxiaA3Jvzfgzm+Rzt8k814zt/HcGtSxETm0gugwn6uMF4oFX7CccE9m3PX48L15s4qPR9l4+YjGm4ko4wq3DzyP7LEdE0HeIp9H02nijS5RUkd5QuQByu97adiMH8nLMzp2Tc5VpFnunNS8DiyvJX0pRhrl+ag1Slp+E7E+oUu60spVWdVWPoXdKVDgLfe7Xly2jgzzdtRpU0e4bpl7gY4oX5PStRyJ03YfkuJ1aUdd5SuXi961uKzPOiPy3Et+BI5AGqJqM7JM7JgpZUP/TV6ECEYa0GQ4xDodI+OlcVzb4oit8GUDr7s6hSh8PSq2RBgy7iLcw4iCKZzZGFBhlZojj/huhQ57e6WQK2g5tlfQ8b48kCtCGxSEf1dlXp3T7gR4GCYOTAbaeLewa3CjILdKy1cQMnLEqhnZqwrHl2iKpLM4MZVj1wUjrqJI/ZBDOUDuw1nuNaQSlHTAfAHZ1kkACVZkBt5kIn1OTC4my0geaUnix+a8BbyxhA164diH6Er77C4rcbnBkKoYs4sNYVVaRKxZWkvHrN1++XXK6Qg6Qr5bzdMapV2+oDr5IQKVSGpCQrXyNUpDm3DZ+jXHK+DpRmFqpDUXcxasbG+UmUqut0YvQHZNBuO8euEQ9JgtiIq1ha/dkTGoz4MYt4SvPOHaJrBjbikaTy9zBhCFLYJs/4tx0cQG5sNc3II15I02Vsv6aaay0BbWtVW+VcX7VQGlCl7nCuFDEe4NSWQKW8VG1OeQyowFIvGV7Yo0nT22WYV4ZGVXbPNfD5RpvA6S3fS6zhGPY6/cc35p22BylvRNtLAJwbTHrDVUsWd8ssipf0Ah0X3ZQY9p272C47LMsrWY/npvr+9mH+BiRhU23OQ+xhoqm+zS7NthygUI4WkQhfh7061Fqd0UiuxqJKVrNRKn7T6koVkW0OwO0pJlbBc+WhO7S5fdnP2btGmDTVciPZbHQUXiymRdnPI1vYbv8bHQvjmdDGnC5KQMKQqtLblnqoh/V8D5/zR9ZmGTbsaCy5uac+OegJQdQxu28ZrWROPL5GW5voMAiBFw48fDjv76LgdysUmiHN8UcutHyqs1ehwLu3gvhXScIVcEex74uRSc3ZidgsUFZJ/FmTlurTm0cjrSW5vO40keg1XtLGCZHCNz/PqJyzFZ07eckXT/uouV57cj1i4zZHzomqTpQZO3A3HhhaNdltYRROdX1RxUYVxU0MOiJoN1h6celU1ISEjoHOr6fK2yju30bTRSgPSFyfbk7Vl+/ttkwS90mHFHocgy9cAwxThjjDBIIQnbVt5ed2z8+EuOwTkdWL6QhfFhKjYSx2IAmxE1rsVTyvqXJCHKuTI8+BzUj29llYuxN+VJhOWabxgw9l29J76n8jGKxUXSoz2MXQQRghGMUGxSRtJjhp8VlKweJAGWcSJMMizaUHH1B8TUK48rMMW/MMb9EEA2h9zLImXYkEfl2gFtUEJuD4C9mef2ygtXEu3ogwHctAsIN0v3iLTtg/eYFztFRZHdQ2jL1BnuCbm63qR0TVicSBavywqqlKvNlK6deaKueCKXtz8uGD82VgLul2AF5zTVEFrdT5uNIN7REn11aTaZgJDXB0uGK5sRJkf0TZyyN3DT1/AV5Bp3eNNHs+lXZYjHaTG+PtqFkQDKM+RZDmQqtHwFt3DlFrEKuYrIR+LjbpN8Nmi0TZqV6fPEXQ1UuRzg/l7jWy7GgI+PP1ZNQfZPEK28GNltw1aUp4g0pIUxEqHEVIwwGULidcSkg8lUyFlXGMTrZ/VqGVcW6zdJWcXaa35BN4pYn5+SHhUebgolZSv3SnaHh8VdxcscJVOROKpIi7UbXh/FcaQ5sXb7VcXKa4UMtjTN68hR+TIRXhMJPlSmoDrxWlayDkhIcGjmdsAwsDCjlLCRTLSck3FOWl6x78MR1p8rp6EmrSjXHcMSRdL8VPJetuAYKsFvwOxYWWvXkkXIyIkF1MkqXpeJt6/uuwqZx1nRCJ8Z8TTFflj2x8/+6Gw4otcvIoBU5s6THisCIm/Dhcf2R3lu9RqkG6tcstUb9ukr7lwaBR4gTA2By4G6ez26/PV/Pu25CyxRaQdh51NQhvuKgzAWhjuL4tIiMItZWb4/I/y00jjny8Gbk157RTiSLnsrE8mPo1Dc8GpfrIq0Ro65n1uyYePb2VjLuhEz/oJBKoz37lqtTgGZ1zUqMgrOdQvnr3aMSyxfOzEnuxrGjUsZc01K13pInLb7kIZmWULsjlLrLlNCkqLpMblYerEpf1Eq2ZMtx+w8VhXrRmwlIm8TcSo4VpF88i0lrkhTTKYgjtbylO8NhdFyzTbhQ0lYsrL8fDSYvGlX8TCQFZavVn3JLUwjv73r/rkhKEok3U/jUJ9Auk1yc3X4Vq0lYdJhMkNLIJVDmAizHHLL0SZnhEAZz28VcZsPGacA7Q6Ck0TZNuv3ys4BgsrZtCLYcTAWzhDjFMpZWTG+3ib67x5WquXCy8N+TEtFL5t4ObHbQvOo8Nr2rmvf8tW3uBEnxi+GPdc1Q3A7sfWF8UIPXhbPMnZyWnYYdeu1LrU7UcbyjCzr/NYRXHbZZVhrrbXQp08fbL/99vjHP/5RKX/jjTdigw02QJ8+fbDpppvizjvvtGkLFy7E6aefjk033RT9+/fH6quvjiOPPBJvvfWWKOODDz7AYYcdhoEDB2Lw4ME45phjMGfOnI51ICGhBDHOYVfjEgrq7NPi8VbpoCJpSv+4zuOV3ARFtUFWH7k0KFjrzYKfmGO9h4L+zwpFVKaFUat17LijaTRvuNl7tnuCnHCS4qfBLYTmh11WhSLzMSq9F1wJLl4XZWUtk/ThuFh8qGSs6xMJCdO2gM8FJMwU5I0B3OvnfB7E97o/sVNUctpi86QcsXmjjR8sT9YH5hUyRLrobQK8n2HtLUGWHWm733nlDZZ4ZlSRsLLnSBbo54mlVdUvxfgx6RNu5pvhyqYZxPMouPlkizFhNrdFOlghkeuiin+S3IsuiIaaOFYSa5a51G2xIi281/JnNHs6vHhbk3DsHHZPlcTbNHsHke1LqIfFwWmXFz6bFK/LGvy7YFNr10XwWC00IJbVQtzEAanJQNkxvD7aP/JYpBcIFysT9ldBV6WNEWGl/7pVwSlanWzEJb0sm2AtIazlIuuL8vtj41ifBPHRflXNxqiqcUWQw6gxzR5eWO9V4bM1ByuHl01m3PTYRTV0+vzmsHmKTdm9brUmoW6D2IpWQBN2U5CSAymIcODiK8Ygo2ma8liZ8PzZlwT1x7a4XzDlV8IIlSSvLIfy03zoOSbeszfzK9KXsjivr4Y0cctWExn8IOGXycIUlBUJexvgXe6AfwqDpnOyKpSv7DYRNC+SVmdKVB2XPlVU3EoDw2XeL8i4xQUzVRNah/kQQWe2VnH99ddj/PjxOPfcczF16lRsvvnmGDNmDN55552o/MMPP4yxY8fimGOOweOPP44DDzwQBx54IJ5++mkAwNy5czF16lScffbZmDp1Km6++Wb85z//wQEHHCDKOeyww/DMM89g0qRJuP322/GXv/wFX/nKV1oftISEJhAf7tE3cnPMlXl83eJ5OB/w4/gSzZUatu5IXAGtTGG+9v0l0upxTPtg3pCR17lNA2B+gC8tUOSJNitAvF9+RKg5kl5HdZxC4atf78GO3Z5Z8DLNiKSGjFMqxpisjBIywgmVx4H8AYjRoOhqb/mp5K2WyQlS5rt0CONNquFzbnK5PZ8zdnSJnc/oZIqc1LprdExOzHnXBt0ovSm7BT3ndJg/yvnNrupSs+bFiFetMJXz/jycFc1bg/jFVqbsi+6Z4xBiYfLizZuAui3l40alEgQAsS/JB9d/5F7C76O6fTbdn8psEkTnhCg4bEv0LTl7/QWnNEzjPJpYdkLwjMEbkrhta1jUnHZ54rOKFqnn46UPs2bNwqBBgzBz5kwMHDiwy8r967/m4/u/+6jLyouijlJ1EckQd8opju0fdyx4IE9z6RTNWy5v2kCZsV4AKCsYecG9nEWDkFFGhrQ8nC6OHfv6ZFNuqTxMmEA9GqAs1+Xn+liHsxykXJiynMWRleVxKmtHphrIsgaUypEpb+/FK9UojrOIrGogyxaip2pHDzTQQzX03gujnaXpcF15aqAHEdqiWwM9COhRdBFteosfK3dMJXINoEcDQIOgcgIaKPY5hXGRMHKCalDh+9TEtev8WhasPORFumoQKNcbP84J1IAXLvI5WZTmzdtJkxky3+2ySlTKiRGUMI7nselEyHNWhiE8nNSAvHCTdC2Ta1JouZ1HmsrSKmWJgrioIpa8NH2cs9UvILlUEl8jrU58rH910OqC3RH51ihTazjq+bfQb+iwLi2zu9bpuvU+vWsfrNCj46M2u52wyV/ntdT+7bffHttuuy1+8YtfAADyPMeIESPwta99DWeccUYgf8ghh+Cjjz7C7bffbuN22GEHbLHFFpgwYUK0jkcffRTbbbcdXn31Vay55pp49tlnsdFGG+HRRx/FNttsAwC4++678ZnPfAZvvPEGVl999Va7nrAI0Z3XyZfuWoiXZnZpkQJlH9IqYknEeTFwmgUvnmkWIs/qgFFxeJe2seaimGLN8Eg4fgm4Pc9n+aXO6+L8OmL5NcnRZSiwt4f0m0TFmzlMxr5hpNWZmZM1e1L14iDeWHJ7pRpoUw1kKkeGHJnK0caOi/gGO/b2quHJ5ujhy7HjNuTIFAXx8pi0XFF3G1x8Bv3RVrvlyIiHTbqTl+m5zE85MqD4CGzJPtNKwgzulNlj6NNChXLUHet4LWeOs9zlhZEl5VkZV8UrL2+hXPPtH+CFY/Eo2ddOy0lPTUbYWFjZcJgGqshr8uTE9hSJK/YUTfPq01zccGdoPm3DOYv3yiVdlg3nMl7m5e2S5dk8pm5Th75VEN+LuCJGGEHAO9bcWnBdv0xGqIVsGaHlbfHi2S7SGC/NE6SS+EgxXY7Bn/syhp1xWZeWubj4LK97UXPa5YnPJovXxQWzMLSytYKq64X/slmZHinHT/NlStKtVaDys3hK17JOkAu7m2wkXS/ixeaHieXmry2xeFUmA1S6F7AuAdgvmDGXAlwOSo8H/8XcCxOLId485ZEfUz7ALVvFq/7GMsGETe9UkWZ6bPea4Kuohllav1qLWDhrVuFWwA9beXiknm85Ml9Hz45V7Fgh0Ov7x7Gp646VV1/ZBcDCipfnWcDqrojL3ZxCccDD3lQFvwcQCxf1xdPk3C7q5/cQeWykrIsB1k5x3JGwfxlGNt4iqViV4SCNnY/gDunfHlhcs7upP9dix7UyV8T7/e0udKcSNaGA8YfVma0VLFiwAI899hhGjx5t47Isw+jRozFlypRonilTpgh5ABgzZkypPADMnDkTSikMHjzYljF48GBLUgFg9OjRyLIMjzzySEt9SFjG0OwmX3bjr1V0Z26S1OU3QVXCFuwRMT5Bcg+AWY8B3PqNN1keq2gXKGeLq+C/SnBF/y8RtzaVbqNQEgeRFnXAxI5CW1C/P45P+p1SQXoO6+UV/uQx3IUCGVlp8TEknubqCZ9JZLviXJB1RwgrGSsmhLEyZf3zj2Nbs3TveURULlx28DZ5vVZsIzdHxah4FB0kZf2rwefYPC7KzZUSz4jyGYmXYuRdmnPLEasJ7JxU3UsoOiVFpUG4xs3FJ3kk0+yVRbwNcb+uJP62dBMN69ZQTEZZGSXngDnHYh/2vds+qNXBtISOYVFy2uWNz6aPay2LMOt+2by3aZyA+Iet3MpqypKuWOlf7MyXqBQ0OSDWdn1gjyFlTfuDdN4WbxB8PhYhFsGaYZulbGkkkkjEFQmKxZFflD8okksqBGEFskNnygFJfmXe7jJk2ChFC9GCTZEmYEZZZT+kRf6HuPSeFDJkKH5G9umST639l5LMlqH4CVcTQJUBlEM6Zc1AnqoYKodiGjyhW0TFqSx5sGs6Qz1SwRMkcWSPGwTd1pLytEkl9yEXiFhR/uDgpZN3bAkPtyxVVmEar0BH+QWy+Wd+MQ/y+43xy46EVSQtuL78sfaqNk3j4RiK4VCuXyY+RjRrckI2xPHsSvalrIrg2Cuzuyxd68ry+tmbbonJtojO+Gk1+YHC2oCjd+/e6N27dyD/3nvvodFoYOjQoSJ+6NCheO6556J1TJs2LSo/bdq0qPy8efNw+umnY+zYsdZiYdq0aVh11VWFXI8ePbDiiiuWlpOQEEUL9xilyY1QNCjIh3xfv8I5buk9rfmd0q5bXn7zg6oVsDRUc1y9SFDki0wmzsjKNsaZYpwXM75AcB/MgmEuhr+YD/aULdCQ6YKHeHHEYyOrHVuKSRluA0vxw/OgZKTykjiPtP1mzw52bODxT38Myx+ITM+lhAIFaSqSR+Yq8hQuFzI9P5XmJ+LxipodU9iFJrDtJC8mwrXIn9RcRj9QCMpqKLxXl22ufnvKTi3DK1uN88fBDwdpVeNEnrA/lyNznrw0qkpjYSNHiMTLvsqmKW21qq9R4uTSK89c1e5SK+XG8SGhCl5LjteyvZPVf/l1bGV1u6tQYy6bZ+rK9LJk8g/0E1vs5p3QFIuS0y5vfDZZvC4taMUXq7nv5PbdY7mZBcMuBH58RJ6vjlV30Bo3V01F2ALkL/4eURBlKi8uQipqtMOSExIxkAyReIrYu2NfCenJlVm8WosERhWNHKuD/4IdDZs4r07YF6Ckvyxu/VoMXVGKVc4qFtbkUbx2rgmbs2SVUyjGY6p4j1sjlX3tDsq8tiXPl2Jl+FdD3B4EkuxUbbYtVBpHrFA/2Twg8I+hqdy1TXw0zb+EiM0gYx7aRM6kWQf0sX6LsOuAf8nbdECWpToSdhSt6VBXyRCCMRZN5efDZvK81ykbLerk2UpRdpvzOxKLZ2n8PqP8fDXulR2BnZNNbtUAhJWLybYo3H4nxDFixAgMGjTIbhdeeOFiacfChQtx8MEHg4hw+eWXL5Y2JCzfCG5dkXuueXsIbE00cvxNIJ4mFT4hn5KQ6rYgzZRnGIjvu5HFO5YS7sVm82nO6KeLDd59ng1S9LUVJfutjykSB8sRVDBW8udoyZDDVvoWpX5TTUVhF/jzh1vLHU90x4aCxU60aZ1hwK4lZPsStpBYn4Kml9JNzqNIU8Oif+ZDYqbwKJ+tc1zaqibwrp+CrlGFjDcCJW1QLEKFJ7/lreAvrKZmvCmY+4bomnBFq8UXmoIegU0sBKjxgS1bjSlKhJmlq54vNt6Uwa83fq3ynrbKI/n9UXZIDKEKZJXMJ/YKAHNzUFJnML1Iptlzb96mNFetvkXE1BYingDxJiZ/AEhYLFgSOO2SxmeTxevyiIIN8AMXj0iav36Rl+7fwc3NLnK/c78+6Tu7+cWfP/FHLVuLY/MxKrtIKL8PhErNgSdu4ow9gKsP+ldqr4leMTJOkjrwLthxCfOSUcrZd9KVi4MXZ8NFPuQKKmNxuQIyci4HlCP3ZPdFvwrLVmhLV2gL18I+NVPF6109SLOFCKPyX0cLw47YFq+2sXAsrXDyVPjCYvw1ymk87g3vGAhPcxk4wTBKdxdnmSBzIQG70svXCFkD2IJfWLuyVMZvXHfCF+UE3yQmx6xjCyW4vFYFOUEYlrU6Gd9iNMgQC6Mi3AzmIqiTxi6F4j7AqmThwrKbJ5bU0WpbWV2IDFNpfMVx9OGtA+3ywW+PraBsuBJtbY6OuAuQ+Yv966+/LvxhxaxdAWDllVdGW1sbpk+fLuKnT5+OYcPi/nOHDRtWS96Q1FdffRWTJ08W7Rk2bFjwsYP29nZ88MEHpfUmJARocqnEuBQUHE8qLdSlSarHWZrUpRRLt1YcxNYkn5dGajT8USnSnI/tTbzfFBskrwyUysZqdm8V+RnMCHLGCcTGKb4Ys7iQ/rGN5HHQ7mYrkfcMIki2+0FasQ9xybz63MGnKC7NrYdxCQUKlJDCbZRIoqD70XgoKHtejFJNN6fsdNhjqjplpVD8wCcYtgwlhM3pE7++MnkyffQ2Y6HKrVdjcW50Ys9MYVy0U4ILGsInnqIie1NJFQGsSBPFeHE1z4fMbd5Ic75TbSt8ymoNIYyQOUlUaeAbcN9oO7xjNhTEwrHfQnxDXJknPijB8AdNNBGKheL9oEhcZTwhGRJ0EIuS0y5vfDZZvC4tiFmiCjPDCOwCFSuvsw3qwAVJhsRwxVZkz8v3VooYz7N7/ziy2fUr1h3Fg9JKFSzM/WdJxZ9Ljzq2ZP2QccZpOhMITivZRc5fMG0cI1oEgChDThlyKtwG5JoGFvtC4WmsYsVeuc8FFIyVbXB734etJchWJnN54Of30vQDBOlfe/3FUpUcm3NVllZWhjeyQYj8QWbp4asw/KFKz41cKkfFCebnLSBR/mSJNN47VqbB3BSU/wys45S2uhAVE/QHtzwrZjbXXJjCdKofLppJwQarPI6HW5GVF40+l8qPMW2p2Fjf7bXIhpeXEYuPVRicWf/+ECmgIqmymHCG1tuadCGhBJnq5Bdg9Q1v4MCBYitTvPbq1Qtbb7017r//fhuX5znuv/9+7LjjjtE8O+64o5AHgEmTJgl5Q1Kff/553HfffVhppZWCMmbMmIHHHnvMxk2ePBl5nmP77bdvbdASll9U3ISIyL35EbtB+Twr53zL52B+OWG8Ymn840OCl5q43G+r4X0FnyFjKWo1fcq1GTrs3VDLZRHI+uAKQcX+gjgv4nt3TKZuq4EzP4Drt6RUEVc0T/6wbtrt/+juyuVDzjgetzAUPIal22M3BGTbkLFxKX9GYDlloqcadSnCM78YL/PWmBxpnhbGy3GguGFlJNhhNYc/D+os2p6MeS6zTfXTTbw3hE2tXBGWU4nYW1wi7GZgtEBP1u6Jh3myS4vQx+A+wKeVefuMv6nI56D8HaLc4l0pHvYkzKBbnql5LeP3OqYGv5M/Xvi3VXPdlV1e0bOnBcRjDtvsXPIuRxevxD1PyJfUVTc+KV07jkXJaZc3PpssXpcFVN1dmlp/mjtWhOwFDn54kEJ5Qaio/CYJAETW71FhpWYb5AoV779CHsfi4hXBmJ0qFAskGcWvLQgFYbZLk1vWRVW2vqg9hteMipBisWbR0RYRioVtu7hFLGAJvhLnQFkfokqHof2MGYtW4VbA7KkglQrmJSxjWavdDKB6IS9f4EsHJp6m25sRtJJNlRRWE7XzUrRpkiPHqEfM9yvJS8YSD8UICYk0K2oICDw5IK4MZKwocAXB8nDNblxG5y2xdrAR5hzxQeAs1cqbe4B3/bvLqxwkdnES7B2bJvp59NmAsYzwdNB1p0Z51ZX3NtaequYrr4/1m9TlspYgV5SVSGw5VAb7C39H87eK8ePHY9y4cdhmm22w3Xbb4dJLL8VHH32Eo48+GgBw5JFHYvjw4fbVrpNPPhm77bYbfvzjH2PffffFddddh3/+85+44oorABQk9aCDDsLUqVNx++23o9FoWD9XK664Inr16oUNN9wQe++9N4499lhMmDABCxcuxIknnohDDz20274Am7D8IM6sAqES5ZVR/jEeBH+Fp2g899Vu2SHjaZYZljTNfAHALYuFb1dnuQZ3Q7Zrqea4RI5eC15rOJ+TCfvPGWqweIvWy5WP+2hlBCGaB+I4/smf4lioL3XzC+5sCYnkBqLZTkapgkvZDy0RijjTBqvhYu1X3rAwKLa5HsZ8u5LtoUyTq6mR8pwbibL5GHhDX8pnSiJahnyC8Ytl8X5VcjiD8SS401f1SGaLI3daK61ivbRgfKrGi5thirDXQkXuuvOvF5MmZDh8GZlU65RFzrO9ooiFOX+0fffvbO7eYXw5N29CuQQFf/0c0jiISvaltegmV7WxLK1pnohAqE+II3HacixqTrs88dmkeF3aUefOoZWbXVdnRWSzaiwRlVoHxeOMIta0u3RVrxnnt9QsAIKPG8IXckKpYyJL8CoXOi8xJk+WiYCxvDDMOaslRSVxhrzIcJnLARRjDeZuANrNgCL0hLb+UO5Vr6JNClYJZ479NDt4mr6RlC0UYcxSQkwfjzDpfngc2xts/hDFxt0jbYav22zszLi6Q9IlCTZvHwuXsIDYh7WC5qOEOkUIaNEaxmLse2v6+mH9Klw5UNBXx4Sc+4pSRWedcF3oh1FxCuCaxxWnYs+JG+9mSRqrENGbQp32V13k/EGZt7MZAfXa4M+kDqOTBdRZIrp6GUnoHA455BC8++67OOecczBt2jRsscUWuPvuu+0HB1577TVk7OsIO+20EyZOnIhvf/vb+Na3voX11lsPt956KzbZZBMAwJtvvonbbrsNALDFFluIuh544AHsvvvuAIDf//73OPHEE7HnnnsiyzJ84QtfwM9+9rPu73DCMo1aSlcgzu/8WzxFZLnyMibj80IyrfLjXAFmLfbXK8sZ9A2TyHFLhQhlYvHRfjJ+RIgvTaY1jjbp/loNqNFMEsJ1MXZcN84dK2HayaHcxv1viSKU5YvFj8Ga8thj45bKfKA1LD0KxVWsLoeuycun9Eh65VWtr2LNL2rKoIrvFFBxrJoWwsvSbeC8tcX1XZ8NGelPmrJ57zU14/xWWADU2FohJqx+Uqb/5D+ARfphSJ9P/ry6TXmxdlFMxhOLklZvz5W2pU1x5fvXs9szFyVmCMxjVU72+Zh44bGhLiPYCOsH6Z+PtIytl5NtXk20/9FqYl0PCvSHKBosOaVBkQR9L6pG4rRLDpYnPpsUr0s76ppM5Xn8DuMT1g5B377LFBXRO5uuOGA3hvg4kkhyeYi3uW6cSJeLubFMrKKaYUtjaeRu+iTluZTilqvastV85da+rm8tWZmrA2V/T3evuakcxoJV8TAUQG3aujGHpZqKWbwyCqpUpi2CuU9WxqNEZzhTQvgEYRWs0NYfukxDApTbxcHmAosR31TwjmNhkyfqcoLJWzLE917nA8fyKIiQygnISRJT0WqA0/9gTE1ZxCwxKC7n+3kFmRwl1zfPzwoUFq8mmneBW9L6aYFsvbAdb9OmYADKw75SNiZLUVlOZ8PySlGVTtHD+I2iBvxni0q5ekXWhrl0a8lSIqoxZG0KWVvHBybLm8vEcOKJJ+LEE0+Mpj344INB3Be/+EV88YtfjMqvtdZazkKvAiuuuCImTpzYUjsTEqrQVOkaWxci4k5t5jK5kNQsGQrD3yBRLN3kFv44QUxvqEpuxrG7tGyTXfs8DZ9QwPB7LbnqfCUN75OsMmSytqtKp2uCFHh9MtSxWbyot4zVeGmhfwQbbx0XKK+ZNl7/VK8NBty4aE5Udkqic4tZvEYylcU7gfAMuGGJ/Ywel4+3sHMrffVKFKbqpwkx/wFfYWx6R9F2x+s0V0rsnHuo6q4/HN41KQiUIM9sb+twissiju/5XGZnMZJm6zVh7o/Vl6vqIMWOdQe5ha75BSLoq+TWpWVGrAKIpZmmB1as5K414rIIZc01w+42EooNk9dVcUo7TXRLFoiYZOK0USwOTru88NmkeE2oARU9FBFV16d4hamiCsEq+SLDcyuxJtkPUIkvEnhl+lH2nuwElPm1T9YELkqgQM5rWRgn+bYs11iAem4EYNwh2IqLRbcYDsN8SY8Bs8bUFbpHBoArahvI0AayPreEywHt16uwfC18wYqvSvLNKlHZHsZKgaeZ9jD/YOacssEqJ8smvxs5n9bLmcWsZ/kDQgsLePCVV9bU6PNCDqGgJULh3zXnr/9zNsPaY/L48UBAklRMjh0rU4/Ja9OItc0pdPNcPqg4BXk8LLg3b2eL4YAbqvKhCfaebCxsx9NPk1dzgOic8vruk82gfZ4cj4/PWQ8152qnOWmkvFaQiGqIrvoQQULC8oZmSteo8ovrJVxBzYkZX8d4WMSVW7k6zhltTs36tJ2s5m6US/qqlBkRbnTAa7HvvITKOgKEewKWLzBgsJwpjHPyMs5xLB3HLGktX41avarIFqZbrsjPreaRltCxxcfSScVKiEylgtm6AguuwWad0AYp11MnwNLJRplxdr0yTrvK1lUztkBWsYhXrSR1rV8V/MlnEJv0sKTP9cOdg+JxzJsR0Qlf3hpBkNhGhIiRg0KgobMPbyUQHJrP9fj1ECGJcJYhVWk8Dlbp6etvCSXxIkz6mHQevY+FmZw/pqVDI+IUq1imUcnezNUwrcy1Ab9vKNfmknYFKZE2xQT9S1GkETN8qonEaUMkTtt9SIrX5QXsNf4AbhU1wi4eXppgpCzNvwHWNqECpJKVHAtVLJ2TSmMVKhSWrghZdqQ+vip6dDSyNNuFxhCR4Bc7Ty6KGNHXjEP8WqkLEq4EYnGojgMBlAPIeFghz4rGFG4FmHsBYm4GoN0MAIWbAceqEZJmHvZJtSSrxnLBhqGJMoH57/JOGEk+FqPrQZhlCPxreWUDFCWywuqV7cUxWWrhNqGVIxFtXA74r+74ffSTRQ1KHttXGeFZp/KCXWddn/2CWZP9ton6bflxq9xmW5TPlu19OdkFIV+V5sL+A2UTUHho+sDbY+Fd48TjS24LAcrKroEOZOkw4UxEVUK1KahOWAeoDlq8JiQszajtXqAEQU5C9Dd4mcmlWk4hFsRYwUVbs4jStbp1Xks8F1suztWd68PA7UC0UwqUK6iMkx7WD7tah3EQcX56k7igLX4eNo4mSRxTSbw+9l0OGJ5hjwuXA+LHY8s9OVnz2+SYgNvC/vhMVqYrBB+iisqhdCF36ldlT5edi/ZYPlUIpWe01Fg9KmyjbVtZKeUqW1G/0mNOIaNS3r4qzX+CsHtLttgkAHOnEVWqxlrL97E0WRS/FuNpsjNKue+GmKlL+jLkz4siHiRvBf41wJvArC6KW4V2P8eIZmn3RZvdx8PKrVp9Geen2o/3ZW18dSNEVJDSCleOyLk2x7NUfvImcVqBxGm7D0nxujyh6Ye2Wi2vIq0lzUGUeYVxYiXzVjQYRWxRt/lYULMuGXtRXiu8FijxF/6P7kK+VlcVYJXJKPphPmxl+mldCTACa5Z296DgWbcKOifDRSgDoQ1Euba2gK2XVOGfy4bByG5lR1zYWLlyimvGSvFsbMzMV2GtRWxkYwMAPlKRIqNhUWEVYgs5vLlBKEiW3uKaRx7PjnO9QYGQw/qGK2lwM5+vipEi+z4ka4cjVWxDYWFT5mLA1UOuLv9klIVblY30qVlYd0HS6Zq3mmKsHYEvlYEcC4oJxKKopCkl7asierHn8+5AZ4immHoJCQkJLaBS6Vp27/PjC+9JJfA1GH68CfIbt/LekuEMpOpGV6IxaEWRwGuxyzlbq5SzgzV8iJHBghlapbJkrxEmA3MGEEmXedAkj5TQ2ihEEiQRLCFx0rWAZpqMRxbHLl0Pjf7YrCYywReaeGWudwX3kT78fSrHe25tZU0bhQKWfRTMhE0ayb39Q8x1hTw1Yu6okuMqBLNeRJQpyDoA9uN/fGZ0HOK5wT+dodaPCcWuRWLXVBkEwY7fOiiSZh4Mg+uM4vkDGW8vfMWy61L/EkFcho+F3wtza/M5s2hZq1atRX2t0VP2rOI1NIiNcW+KiMSK64C1q8yf+GxC9yMpXpc3VN1ZLGfzVpSAv5CU52jJ0jUaCOPKrGB9VwQsTnl5eLeN3oW7DfCXSf4CVtz9vmBkLG8Z2fd6539Yi1sO67BdT20cZBwjbFyXVFjBOhJeyDhfsTkyKKLC4tW4F6AiPgPpH8JVfFM87MvJMTJkWYgFx2Q7wVyOxTd9zgwjdsfh7Cnh9JWvaYnpCFau+UWf10XuPASvSeVeWBRqjt1k5DpawXzIfYiK629NudbPq060suz6dHGAsYq1lUTJY530SLgl2YoPbDXb+wSyKuzfpmyasqeIo+KNqIAgUlQogurbQHVyzQesDoonktmV6ORrWUivZSUsZ8iko9ByVN3UVESAUT+eX/A/nTegs4pzBO7PtQb8ek2hqknY9kPJRSgSJ4yIGGGpfm/Lz0Si6uagyiO7qgoC1ax0kmMhKZHnvorREivvuCgByJW+hXLuagwyBINnfl1NFH9rDt75Zu3LUGyKC/v9FYQ9bvKlwHmuU/qWcdYqVMkpKvupgMXapof8vRnC02dGploBWzdOTF/iEeaaUIi1ojg3keuBqtIgZXgdnEiSlomlcRneMdRJM3PAPHey5099TyLo+4uxruXPiNG+RNpm2yHnvNhHiLWUiVvONjcU8G/ALrapwXKN+ILPdp7QJl6skThttyEpXhcXWpnPXW36VGqHb9JZ43xNVTMm2qStceVANUGUVmo+qdR7sUIpdzfXecUHmjSTEwua7ARMjjhJ8Cw1FGsJ1SEVRmnI2sv9urJw8SCg7GJfRMkwYD6yRXpxVNoas6iccgVkxFwOtCHPcmSZo3zaKwFyRWizHVIQym3lxo3Ty6IqRx7FohXjRaXH8Y9PiXpst4wHNGXLCBSgLW7WUMK0iZ1PY+Uat3CNbKIQMVCyMx5EdtuwQExm0Ah8zYq6dXxO8eZEwpX1VrSjLuL3gopyfWE2NIJj8ngvzMvwp6CZ9n7ZAIS/OW+KBM/LIl0hLCtSfym8spuhrii7nJtV37wsSkR1cX1cKyFhSYH/JkoZjK/8LkOMk8ZuruZmJ276haDwJ2paqVQ9f5qEkofMskawynxuq/kf/9nfcltoNaPi1mNMLqKIatWvq1FklpVXHmfVnXoe8H8sTXc5muZvxCxegyo5aVPeUJcSMkDUySYEmSOupDXPDt5Z9OaE6FukH75cAHIqS6A8T/SYCFlkHKPtg7tGXX3+B7T8FnQEukSiljm5MFa2ilJTLomdOy5jV2bvjgtORiyfJ980zVyPLM0/YS1xYQpDPq+1RgoU8lzWDvMWG5+/Xs9ZWIn4ECqSJ75vikBQhfWycYuMSHlRQWrXrCtOmV1XdtlD4rTdh6R4XdLRHVd12ZOyeRr34wysyUCZQE0EdXusqkyBalYk7q/WLoSxFY/HFeUppYCcFZPFaGVIRvwFzW+1LUFJGV6MpK3FR6ikn1od539oyzi1Z2EAQnlrKWRJ2DZDl0/IkBPZ17MKNwT642HK40MmjlC4cLDDoimcgvYFC1imbPrvk5Locc2lPGCX8gGiw1eKaSpvMo/jZBCGUGoSpi1NA0cJQkkbDys/DYZoedn4BArS3Hl1L8IxGdtsKv/togTkb7a8Ev+u5B2XDYHrriSYXrgqrTIc2fvHdtbwsYCXsWRMuhQ1CuT3p65C19BTB3MOlncFbEJCQjlqKV2rbnRlab7LAU6rINPcJwOIi3utrP74Ub12MR4LfoM0cTqjH8ddCvCvG5lW2nW8cFnkN0FB9s3vV524sEtUeaQ0v5D+WNlbOJY/Mj6gGI8Q8aZkftLgHTvuWcQp+60Ct2CqigWJMUd/AEh+TpYzCGXTwNJNshyPgK6WERSw/pJrV/S7Av5xSe9kBXFyw38o8Z9tOgo+/NZQIzyboWwMigmJc2TGPEZkvUzyC20szhBMPTHB4+ClgU0BL86mMaILFtZlKntetXLUhDUXtq3W41U89np27IGceY4sAqbq3PRHNkHI+Ps6MmLP5G13W9VVlImLeO/kl+Sp62KgNSOBpjM0IaFDSIrXJRnd9VNK1Ye2xJ3NJz5d0J6mfVJuVYkmc2Urb5yJY2RXOPBXom77uy+FxNMVzcmx34/qXgRrR5BQrF5mEbOrKcKw/YAWY1zmK6M8LHgG3DC4MFfKFkpe0uS0sHg1DtY1YTWvAioXR0wxC2ifVmKMiDUo0v8Akp7y4ZBb2W+z/GzJDwn4xNeQ2YBsek0XBMx3G2DGmdyYg1B8yMxLDzf2VBIUqS14Yx3Q/Q8eLB3DFXOBPSe4qByi7lCOxE7IVBGfZumRL9MaElmKVtJ4s1lVAV8mb7xZeqw9salQJz2QLSu3AwiePzqI7qSTy6v1a/oQQUJCNTqtdG2tsgKqtXDMh3whV7dhxV1arCkx/mfXQee1VSgMDaexdNezgoW5z2r2lSugzVVhVLe8Sl9B5ZfHlVYUiSvKoiDOP2mOb1VYvtZIF6VxJaqo2sQrABnI3Eg1oSscacmV046PWPQZGVJeG7nVa7zL9rFFtj1ElJOC5y3ayqlZbLSjdXiUW7mBiHSTebWtU0GkQj7Hy2yo5XiJz4mJJsUer+QcYPMucIBfwdCiz5JeRBUh9aoWCex1SfeBLfMmHsvGmmv5qdjrq409i5YbF5DmnCTi7bDkrtGCE4thCPvqZPx7hi9YkrcZSoTKnuqoJEBBokH9D2r5ctV8tTvZ8pKNxGm7D0nxuqSiu+3Xm/l5BeKEsTyi8yBAWLpGZcwKo2VjrCH48BbEeCpSoAaKn8eVkm5Ls9ittlrl4eRrqEaMhs+zVhXuBOxqXZA+HjaWkgQXtqydh3MFZDJMmVT0FlavOTIyH9YqyhG/9yt2TNAfD1DIlCZQZYStFlM0icW+lJBSMT7cfUJAgiJnohIVPKson6ByadkKIiAnfQ68eEKpktZtbPxzFGXlLs2kS06pRH7efmGBqn+MoNwwNDdWlHP/r7LJpWG0EO7ghrJ9FVHVl5gfH6SZqc/KsbI8k2JleXPClFNaX+S4o+mtoKP5DFqhUpWXblkeakZmlz0ohU75w1K1FTsJCUsfOupeoHYOnwa6iuXNSN/kifMX00JV/PgcRUXbCSj9yJdTgZSpljhnMWrfso9eOUWOsnzMdCuDogaocBhl1zXTvTJ9YbQvpWmx1KKWTMWUjrEVvyKdDxMB0p1AhYwhVcp7q0fxeiJ1K3nIt9JsgFCwBnmayEeHgMuiOLdKJ3ZkRXFF1vDxKh5ZwqeeJhPCkw6F7WlQ0D8yiNi4bEn+eFsMOYsxLNnQ+OvtZSe5WVqTeM+FSFQhG0m1e0XsRxn+swv7UUT32/J7NhSkCTDxQTXZ+D4YPkZ4RXmQQxwj7hQflmqEz+cmNjr8kbjOflCrOTrCgpd+JE7bfUiK18UFQvmNvcNldqC8yhtWN1w4VW20rLLiDu67FwisW9mx+GXUY1lU5HOx+tgQ6AzeguWNUyk7UyIqSiaUITXKbqSY31fuHqAFdwS2WRXuBmyLdRk53EtRpsviF37bK0auZULtYzLNjR3zjdgm0iKv04t87qufVc0RoKJvnIeD83xWAU8nPw6RDAFTcQRQfFpKdJY0YTKv7lGhMDcKVbBiAVkNb5tN02XxS8EMCLFMpcS2BDxvpA0lXbdjGxArv+4aYVtkRRpX4pp4/kNs7HYkyKrXlVg+UURZeRF0lNK0eqpEWzpRb0v10PKlfO20dUAn8iYkLBHw1wEb7fnEj+XrqrTKG6Nef4MbKMGjSC2htGeWqrIK7aF7w8Xck62iRTFR6xpK8zgnbZVZ1jVBrqAyMN+0RgnrlDVCccPUP/E4yPqs2oyvIkrLshfzLa8rfri3ake+ICiXt2k6fw3II3UKhdGAcXXlDAi8E2H7Ik+O1wLNfyNxLC3ScsGZa22xOgKi4Xz51uKysXTBv/jECnNVceR6KAqOcgzBlww/b4GNRMkXP6+G6HnXiOk3RWRaTkPIbd1F7ohljP9G+1G/v87C1bWDbDtds+0ZYM8BlDsy5nNmOeU8K1keZ2TIkw3KaIJSIe63OpKtJKkrlK71uKo/55Z9JE7bfUiK1+UdVfb5QVJHH/dr1Bdtg66yzKdrS0pXEn2yih9tNcutDBSK8skoYQMljEfggnZTxVCRW4xLXAtwsmSbbGVY21keZYpmXMbGcT5rmHHE5UBBmKVnK65wLWV/TVmhrYnRdG+vmCP+jqJg3igsQFWoA41trnmgHMXrEYE1qx6RSHx0a6CG9asTd08rbG6YcI7CehkAUR5arprme/3helxr2cOnpUk0A+ePu6+lFRn9QS9LM+kyPjb8gSVrRdhc6pY88mOeh19O7LjWHPMuYZ4viC+Tr1tXBxB7lGwGdmtYJFjelK8JCQkS3aZ0rcrjVeffK2MrVqU1bkc1spy/RRpgeRxvKMlDTmOLOM92zvxgD6Cwdm24xdIoLUkBOs3SP69JkaZHUymyyikiz/cp32KEyx8kRoQ4XeBEV7gNczLOj6z7cZmU+VhaaDFKRMhgNsNBGXkI+kdMscoNEqKrvRwXVKy3nn7Q8Hr78TGzB3OJ0MI0VOIM67f6utrQx3suMs8bMcRfYtRW295FK0JR13Jc0muPsDqQ9btyShrZNA3xdpjnUf/i9Y/LyiyDNpoojt0mlK9GxuO6chQUexPOcVmhuPUJuU6zh5E0VgEj2dWEr3oKRj661QWI1dnM/UAZlGrex4SEZkiK1+UdpU/H3aQxaAp2Y7MLHUEqX+EpXZVb9QkQWhnlrW68nOCXQFd33BuRSQ40sSyHTg8YH+uSQmGpYF6f12UaH6DOd5dznO7i3Osjwk+tLthaV5CuQzlfX9CkVBBSUiCVoYEG2ti4KRSeCuwzByceqD4OLVlVi/uANvknoCTNiMQaVgKTXbgVcBzcWr7mMgwWH8SZY+5XNbq5uohbvdqGeazIfrhManXjen4FazVLQZXxsJWt8fGsZl3zNyXlw9Z68b6QPzTm0Iw3ZDofOX7txSxVA74YeSrl3LqMV0d5dAm5jo1Bh1G3sBqXQxSd4JnLi/I1WQckJEh0SumKDt52Sqgscd5GpnWMr1WV19RFQuwGz8mTU5qGslHvrUAQoyzNNWuao7xk+SDlSr+tZXggV/9lgMoBykBaCauUq6vMr6s5k36cPTZjG1ismgO++ZDpvnTUByyjQoqMtasS8XKtIzv61ojAlMPrUpE4k91HSZzIS55skz1Xbsl6i0aT5npNFXa6EDd+cajIURmaSpQRuyZZzHON+ZBUkG6P+D4Wx4lgjTQhE08jQ+Qpks9PM7yQvLoEAeXtiYThlKhcAUmiPTIOclc+PObZkUeT+YBfbGTDtLr7SjSZu/ZjYR5iilFj7dpMaRr9jngkTx2eWvDZjhLppQuJ03YfssXdgFZx2WWXYa211kKfPn2w/fbb4x//+Eep7FVXXeVeQ9Fbnz59FmFrW0Bda7qqrSMIHJWb9nRk62T7c32Xz/00eHtySi27p7AdTcZV2Xxkf7V3aRA+RQsfowVvFXovN5CVw0xBgLcXrL28D6bucKzrxCkelwMwfbBxyo137pzDK81Cqcjiiqx5XHNIBELCXZXaLKd5CIiXEoCPGzu3sTGumkN8swQsj6fHtmKn3QoY/682P6vb6zdvniHoZOr0Oy0eRkqG0x+bumH/muBhCtOjtzDv0kVFGh8KXo3fB7/JVQjH0uuGinfJ/7EhSI8PQdegznVG9YhlNGsnG9zZ/EsDVFvW6S1h+cSyyGmtT9eqm2B3bZG3TRTb3NJXwh34VqM+RRm42yhLgiJxxdsnyr15pGPdIsa+NG/Kt3mUrk8fw5TL69Feas0P+0KhyVWZGcxP8mXLNunzGK5n5B27f1FwzlHGD5WVqOCW5rsDLF4cO95Hwr2Cp2Q0XMLra7T5LaxdUkloe9N0U5GtjDWYMS+F5kWk51Kz88tHpsPLdEnGloZTnzt7HkieN3HtBhMA7DqA2+s04nF8bxvkp4mGlfebp4lD1VJWGa3vE+Z+Ya9/WGW8/UCwfa5AbKoEezKW8WIyKE+G7cm7LupN56ZbczVG/LkmGKsu/kW/Lk81z2nLOhKn7T4sVRav119/PcaPH48JEyZg++23x6WXXooxY8bgP//5D1ZdddVonoEDB+I///mPDXevE+YOYrFfxGVj0g2G/2L8CXaxU16c146odav5+YwgFcj8g1qRDyuEVq+AudHzcn0LBUNUikUPxc8WBPbzhckXGdGgf0V/7EceTF2qoGLKC8PSZNNWFrbt578aS+JpP9xlSE2ubD6l2oq8ba6XgoGUkWVvZCr3ioWjpgAVvluDzbPmLNuCc6qPiSxxUUwxalugFaru12tdKxu/6BBQcOjabNvlnOCbXlOkEJ5W5Hd+X22BZVcneccdDIu2V4WbbuW+eVF3zy5vU79tI3nyFB5zudgQoSTNRPhxFBxUlxmgKq2DqCyy5rJXvhJ0uMgiP3Vc8ZuQsKxiWeS0tT6kVev+18F+GdrmU01zoNC8fQDjKR2AVz/p4giafhr+Rk6Ue81SpCw3dEyUORqwGeAWNkN7cwXVpnORKZ3xZ1OiKhS41kUBKztm4Sptc02vgMxYnHoqzsiANknXEnqtiB+TPY6NNbFxzBSQgbs/MC4RWNiUq/siZT052z5ZRgb3SYiObEHfq/Zaspk1uUhjjzHCENtYC2pROz0QZvUuH3n5KhknZw7Z3//9mRM7Np0s+JPsI8k/PNZvkWPRQWNNAymeq1Q+7LO7cFkJnqwIcw5ra3T3APuHTDzZceADwB5JPBCr0/PXSvLYfIxXtIWXL9rI+xTx7Srka9wz2Tg0RYlcXT7ZvUujv8gkJNTDUqWS/slPfoJjjz0WRx99NDbaaCNMmDAB/fr1w29/+9vSPEopDBs2zG5Dhw5dhC2uga5SutawqCv/iYmAPBdxUslTZ+tk/U5bFpEBvFVD9rns2K8jMuaFAq6Ic7+oFnU5K1iTzqxi4ekPCdaKwVokeHv7KyZgw+6XTRc2ilIeFnEsLOLML8G5sWxVhYI1L+IzypDlbcjyNqi8TYczqDxDlvdEe94DDWRseIIlVu479dXCsrJrwrLx5hspp4B1Y0com8vC0hWRuE5tmlUay2ltdUx+enDswm5KG4YKWLZqLydPwcsvL1S5IHBuBkKUnCOqSPNPh5LHJr2qKiKA9O0pZtgeC5siSlvln2OvvWUR3rSIzt6y47Lqu2orQ2eu0iq0Wm5XLXVLIsxrWZ3ZEpY/LIuctpZSk8uXbE3lqyhAJM3csWqt5YZvdnadZ1aqUSs9xhHjm5YDgjSrkCPzqr3S1reeBa4ZtUqLXKei5FTaQKwxpX025IMJi2NWcFQmwlnEsecCyVrAKncM7bIL7Ed3XUjgRiASB54ngthHtGwfWlwRbRtQj0pLJax3hdgx1ArwZpfgIlpuqE5brKyGHVj21h2RJxVhWVaZSkESeP4aRVWSvCBOX6fKl3GW7fE9f4YktiPRbhJ73cOc+XY1lx0v02tjMHxgzx05u3S5lTDBuljr6k2hpmwJloTfGu25WkaROG33YalRvC5YsACPPfYYRo8ebeOyLMPo0aMxZcqU0nxz5szByJEjMWLECHz2s5/FM888U1nP/PnzMWvWLLF1B+Yv5HfDJQCK046O3E07ASoNuLjIguSS2VgKZSsPe2lETtnsKZ25LNljiAXJvQoOqFxZFwScQInF1SvHFRgPKz/dxNn6NQnkCrwcyHKnTFVWqdqGLM+AvCDkKs8Ksp8rQMsjV8ipDe3UhoXogYXUhgYyreiq4ZtV1ZSze0aaUb5VPopFH1JKNhSkgsR4yjlmPqAgMnJlO1XE2znljimW7pcDLo+KPOHcFi/4sevBKlZFFi3Lr5tW1kX/sqwKe7eEqkuw2eVqvwnApoApOni+Z3rooHmMQEaf/eSlJtJJl83r523w5e2xCsvxhmaRYEmiP0vSkteVSCQ1oVUsCk67qPgsAMycj+qbW+QGqMrS/Zt7xbpemi7u+SR/3O7qjf9jYcAoXeHiSMZZPqL7nGm5wopSsbD50V2rkdlaxsdDAfaDnICn2BVxQFwxW/BEImU9HTlGahSdKF7tF2imNo+ki3PI0onlsfFaqWw+jSXkpbJVKXKPNFrDyikiDAEs03pKjaqLCiasLx/rWARUgwd4ZCZ+CTifmKpSm1XWRnkhVa5CHV27K/I1K5K4kEfW+FtvBVTJHuz5NpYWyR+IRdI4vMkhLg1zzEiu9eVK8FzswT5zuscER4hJnq5at8Fg+GxzVDzeKGWblMk5cy39LHlbHRlvy3MKH9e9jaOuXJl8MxAB7R+801xwKUTitN2HpcbVwHvvvYdGoxH8uj906FA899xz0Tyf+MQn8Nvf/habbbYZZs6ciR/96EfYaaed8Mwzz2CNNdaI5rnwwgvx3e9+t8vb72OXzXrhied7Y9CALtJ9d3RRZHjng3b85cn5i75y/kuhDLg48TEtIPBN2yzM4/je1JgDyMLXqcQXZHVq0WNl/4Kl2hVI80J+63HNZmRY98vG2TAAUoUjby1LuYLKCCrPCm6cKyDLoXIFQq7jCCorFKpADqUyEHJA6TBloCzXdWdQikCZVnHmbWhkGdpUhga1oR2kPzhAyPRHzeJWJiT3ioVVJD2yz2D86sqtbBWPL9zlr7Tr4SyOGlT8yis+mOUpZb26bBz7YBY1aSPPG2UrrabZiUTS/2sOOFcEZJMLcscemCiikLXH7BUjkebyBJdlF9xz/OJMkbZO1nWbTiVynqyR4+XyZvtxisL4WFiZevS1QPr2ELtzlcHdYboXW5w0vqVXkbuzTZQTVFuGvqvEX6FemqGyzhFNlSWSurxhUXDaRcVnAeD/bZ7h3+8T+sSeKkpujOWzPqJ47QDu/C9h5gK05o6hI2/ykGGH0kGVggIp9wHMQj/DJMw6Qu718YInUsEJARevIk3jNNcWmwGKbJnmA6ukFa4uTtdlC3bKS2V95Gs3BGLBYo0wDeJpwvrAj/dWY19BpcPOipUC41/r5YspUotjzSMVs3lUQEakVbVuM/rW8Of90MWAdSVAoSmA093KNK0ajsjJMGJpVFJHRIY/x5CJ86e6eRAJ5omZiiqI7yqI+R4pu/KqVCy/4e42F3OrplBwYEv4GJE12Yyxgp/GiyUW4cXFfuCAH2fuARFSGnwgixFU0hWYPSe3gu/yPOLVr3DoStvpnQc3HMUF7hS77MYiyvLOpW1Dx+6ZLYkT0GvdjTFop70r5Wrf6mvKVYm1z3gXQw7+as0Kly4kTtt9WGoUrx3BjjvuiB133NGGd9ppJ2y44Yb41a9+hfPPPz+a58wzz8T48eNteNasWRgxYkSXt61PrwzfGDuwy8vtDP7z6gL89Yl5ANy9t1thyFxA6gLm4AQLVijZptWEgOX1y/FZh2F4xIiBYhJORlNR8K++Sg+qTAGrilTO/GT3CpJrF1JePaFwE5CRVZwSZVCZpppK16RMOIeCVqTmhQJfqbygfEwGyAAjk+WFNYTKkGmla+HnlpBRhpx6IAeBVI5cZciRIUcPtMO0k6BUjjbb+OjqHuwrFaId2GIoJavQ5JmArKFljV9X/+NXsQ9h+bU3a0iQEBHkhIUTN/arNuXENghFa9mWtwPtuo+Fha8hfGyDPOZkL5RRjlcRBXndsXlF0VPumq4prfi1YVcfr1eMlsfv4KUH3NlPL5MrAZUcl+WL/bretGAe1033V1Nd1rMndr3gR91TSUJCwiJHq5x2UfFZANh3nQz7rtMtRXcYr36QY8obAEDirYlKWEVU1WrRHJxp+t8LkBKxcIkWTEcrq4wCxMLHiCjlCmgzXNRm1MohGScsX62zT9OGDKRyFNamDRAUs650zSo2Y0Dgd0VLqMLIwL7p5B9DIVcKGbE3othxTgpZNC9rhObn/ElAjp8lW54AOZkgI3nx5XOjaorFuKlsW7iv5LVKISvhFz7FiFGO2jSkpLvVeb1M/JGL16+8qcuPNSeGkTOKP1sgv8Lck1u8pRSMhzwqI2qA++WEEVWRZjrFHgxIP/XYILG9MXTgJJe5FbBE2ZFpK27K4S03vJtMkXIs3F6xunmae1ZwcbH8LNSJ22Mrelr+bDBkzKEY+uUzOl5xQsISgKVG8bryyiujra0N06dPF/HTp0/HsGHDapXRs2dPbLnllnjhhRdKZXr37o3evXt3qq1LLRiZMocsVAOdI6quEYw12JVZq0KDj2ixhStiSSDLhSOVwgRBy5uf0iNt4krXYkGSNMH2PNd1MNPQgtcS0Ja71ZKMglbpehVTjOo9FcpXUFa4Q8gyqDwHZS4McvIqVyLNymoZleUFGeeWrjkBqrCWVXkG1WhDI2sgU1mhiFUZGsiQIUNObchVXljCAgAthAKhTTV0R/k4y6G3w6GYFayCs46t/JnfbGxMIS0M/POszGkgQqY5dpv+lVgZq9WcuQvgXwi1/pN0ekwZW6aote/BwMY5haTvTgBOLs+1FS5TtHraUr8MYeFKBGowpa1tgiZUSkw9tjES5zXJHZOID+U932w8zZImTwDu2F475hnRxHmXN+fcPiH0j2PcUBxXlBMtzw97bbPtb1ZvRX0JSy86+xXX4sOGCcsTFgWnXa75LKDX8OJQ6BNbUcDWQURrRCj4R6Go1Al6gRPvVin+075WHxGxeAhlVVGMt3DaDrI4JS1cXf1M4WoXLRZnF1pLtlhc8WN+wQly9ODroH5oIM3pxDiz6lUk3gy3fUvMk6GKvMUHwYjRQ+eoyrRfUc7imzi2IskvJZkoSIuoh2Q57rU3iRZmE6vPHQd0mFBpAe2mJNn85iSYbMIfM4npG29HJMmXd3H++4K6zliGWNmmzey5LpievEKdwerTlZcGcwwhZ5vA+KWFft7kVQVEj3RlXHHJlK7iWmWGEG7PFKFMznFhTqbhrF1l6/0WsnxSzCln4aUr0RYKwl48K9aWVQN1la4xLp2w6JA4bfdhqfHx2qtXL2y99da4//77bVye57j//vuFBUAVGo0GnnrqKay22mrd1cylG/bm7rbig1LsvezKrW49FWoO8lcK85qGUfaRlPXD/kpD5rUi0xeE+9wp51wa32QcTBwcMTNEjPeHkzZFgGpk2h+s9r9Kxb5QrBZ+VxX3w5orKMr0x7KKMPwwkw/STDji09XUbeowH+JSeQbK25BTGxowfl4zNKhQwDag06g4bkcPLKCeWEg90CA+Aq34ezX7EjrMfZRZ0qAtHtgUCM6ZOS9UKFszApjnNQiObI5zsvLWf65Oo9yTF/m8sJBhBEhbrZK/BZcTRcIkj42bgUaula6EPCeb5LIo+3EqItjjoj3Kv+SjG29LLXmwPH7zIZov7yCejCjKH5KK4bKnjUQzYjxUJlRsgVsJyIcOYtNKxMXq60I0PQ8J3Y7kDyuhVSRO2/3gCioFzQFypbkTat33ayFSlnFhVLWWmB/f5YdZ4XzHesd+eeL3as/frPPrqmzZdpHSC5VimmhVFcfYrvtgrHx8LNZhVycRs1bVx6Yt9k0aeOt8ZP2vOs6JKWp1bExfLk6j8lJ8v1ZCI8cJRGQyNJkflR/PYkREzFN/vvLusb1VMJq97ldUsV1YOUT4CftOAMvGhapWJqmQjPEdqS7mKm5/7x8rxTwls/Yrc2zIot1D1K5i50zE1UijsEfuhPGNxdnzo8SeE0QlRlWJPQVxpr/6+cq64bA9Zbcq94Za8Cht9nbM3JznVrhFfvN2myyPG3Z4RdRCHU5qDUpMu0yYqG41CV2AxGm7D0uNxSsAjB8/HuPGjcM222yD7bbbDpdeeik++ugjHH300QCAI488EsOHD8eFF14IADjvvPOwww47YN1118WMGTNw8cUX49VXX8WXv/zlxdmNJRvRO6OySk/L27q8DltVcRNn66r7wZNg30uxq5uKpEEsgGGEV4npEFGhnMxMiktTIP0xAeeHy1gKyJLJ/jU1gXLdDwW0Z0CPwrSWtA9WWB+ssBavlOWFMpX5Zy3bO7+tmXZ+RfonFebjNVeFFayxdCUCshxkymLkXDUyNLIMmfb1mqm8sHg1SlilRDhXbWggRzt6WrKj0EAWY4slS2fAY9gWMFe90Be+t4qPULQxymY+SmGtXXV6sYYbBTxn8mxDdZgg09jsEXFWwWkUnkzB6jZzoMvmBMOEPXcD1jWCdZXge0oobAxyfY0Ra7MhVPDJFKT/V/BmRdIt6RJlhMe8zqjOmI+nN9Q2r4n3xhZemphdXrp3emReE6Hit6XYbI3OYBYp7gdUIt8FSIrVJQhtqtg6kz9huUPitN0Mfx1Xmp2R0m9PobkLAn+RqpTzmCWjlgrQL1t5/lxtiHFOn79yhQ6vq1KuUHDGrF7ty/i2PSZzJE7xPIZ7FvE5Mu3eSg+1ckNu+27ilTtWmthZdwL62PmWjcSbNKZ4yiJmn8XbVLlQRxV9Yqo/ZSxVy1SDRi7Uq1k5Py4SNgMQ+G/ley7npTXL74OYvIvQB6RnBcvopr7vSA1SSJQl6+P6RuXFuzLj6bGyQMR+JHAdIRB7voB9HhOlU6QW8mR0HU3TeNn2epBxbg9LRAMfr7F9VVpkbz/G5ft2Lbstsednv0hzXYu33QI55npAlEOeHNt3ko+KZxBWnii2k3UktIDEabsNS5Xi9ZBDDsG7776Lc845B9OmTcMWW2yBu+++236c4LXXXkOWuV9hP/zwQxx77LGYNm0ahgwZgq233hoPP/wwNtpoo8XVhSUf0RubizSkryCrXXFheQul9Q9V4lrAahucXHAcgyCokYXVHCmezlsZ08z4rLeII14uV1brV7/QnhVuB7TvLKXbX9ShfbpqZaoyr3Yxn642rJWzxNwTFO4GUFi6Gv+vDQVkGbKc+3Q1PmCLZVflmWWBSrUhb+RoqAYyTa5zytBA4V/LKF0blOmwKtwRUIZMtSFDjoXoWYwGETLkbgzEeTf7CJkgeP5LCyKWkVG4xkizI7KcVGdU6LPdBwl49RT6eI2EVSzdU4KikesPd5kNUiYSNspUp1jlca4ZgSUjae8ETCGbszQgokwF0Nz1AMAtIAiWT3rHFMSH8qEMwQ0XWBy/ogCED5Q8yNJityt+aoO8XnwVfLGqunyiW5WnTlolKHaHSkhIWNqQOG03g6/1QUJxBxVeAEpvqipQ8JUVKT6yZTgHt9BTpiKziPGyOd9l5bIswqKTp0EWU3AArfEUylNC4OtVDwKPU5qTGos9o6g1byERAYoUctVmXSn4ilSyH/GKbW4UYhv8ON33gs8Q+4irqZkrJRXcXzdYIWcscTcQSeNjLmcCBceyLSUgYyRQsZXk979fFshEplHhX1fGuenCR8lNVxs2caxOv27ehrL0qny2r56LDfC6bbucOwvx2GcfUMGnte1I4KaAXzc2zV2rXL4oWhfqu6tjc0KZ7xn4ili2NYsTeQFxHMy2sgvIv4jg71VUSez4cTG4pg4y/QeVl1+CKs4t+sXmnDkIr66EhKUbS5XiFQBOPPFEnHjiidG0Bx98UIQvueQSXHLJJYugVcsKyN3oY/AJX7Aq1q2G18E1LMViRgT9molXB0k5x5QpUlYNmDL5PteLagbnm1VpH11KaYUz6V/gtRWsgkvPjO1CLgmsXex1urFmbVMg7X815uOV8hyK+3Tle++jWYUSFoWiMAMod1awKje+twiFT9dM+3elQsFLhkwXRDvL27SytfDvmqkMGdqQIy8UrjouR2HtavzB5todQUZUyCpCuxluAjI0Sh9wLLlmxEGRVpwS0EbO5QN3DZFxObg437erLTM357kGcfHJRRnZMOXlztdq1IKVEbJQo+rH6XBEcZu3O7cCRIXSNc+L2cVc2BZNZUWZGUg6scxiFU2a5B+HZYVWrgTnAtcMIVi7RJyXxsNCxgsbed/Lmj3PPJ48Ge/WEbuT1IkTYRX2wRy3qjit075W0hO6Dp19tSq9lrX8InHa7oNxG1QE4FFFfRf246OaLKC+z1ddLhUNMLatBKOUAXwr1zLrV+U3xNeYiX6xH/nJJDkFqbR6NX03ixPXMDluEHTbLlysZQRr+dqmRYRHBDbEcpOvm8dUoDasP6SV63HtoS1gbVkEkHIvzgtrV9ZaUaryrFYVnIsqo9Qll5aBkBEhU4XdLyccMYVpDFwm6ufPI0AxJSxXxpZNU6fEhJwrFeCXgONGzv6Vc5ay47Jym+YjFxMocLlCNHgeLJ7NSBLcsFf2PLHX1UmmicHnJFHEsT0rxzyzBEXZSKVDxIojsS+K8gkvELN25c9I/JlJPD9xxani3Fm+si+b7F37Ns3cneTwBN2NoSSRf/hXiPqnMXY6ErodidN2H5Y6xWtCd6PizmZZnR/PWEKH6nNLsVG6irtxM6WrAoSJHD8UizWrztzhhfLV7lxdoqVeW0WBZgFVAOXayEA0RPRJ5QpEGXIAaMuF8tVYsCr9SheZfgD69RpXNpECsuLVHMqK+lWm26aKtCzPCgVyRkxxS1pbqZWuWkYxJ1N5e0/kPfPC4tVYuKJwPVAoWLWVK4qPbrmw+ShXYf1qZNoVMaJlLGHN+VRaMcs2Rc61kyooWWiVIJ+TDEk2x0b5KrWPjnAZ116Uwx4Hm++/LeIXFjkVym1DjppauoZuBErzsLYTaaWrUWwyf63iy6ZumEuUqQUFFWnw0vz8fBhLjv06q5SusTtNjGwFeSg8tukk80TBby0l7ShLqxNnn+nLyib3cFMHpp8du78mLAqkDxEkJCyB4IuCQKjBtKo5cruO3XMNL9UlkmGO5cpVTksDmqrbafkmuVqkkJJh3XYi/YFV+6EgZXmk8bNQUGjTXvN6P2AsXsmWr+tXxYdilfUboN0OgNBmfLwqqTQ19qfchtRf1jjNsv3T+0KBS4ULK1UQC6Vi1qruODwvDdECt+Veq5pv3BWBHmhRk/XTatsVKk592Rin9fmKUOpSmM6TpIeuiCLfbwcLKKMxV86C25bbwjGayRK8j8+xBHJ9cOWFz3rmQ3ThFRRrgZdmCRtLM1atPJ+wdHVtcH/15mthCSDKYX6NqGUBC6Da2rUFf6eCIOsOx4g4AebDWTIubE9Ybu3W6NNqypJuLZopYevXktBZJE7bfUiK1wSHWjdQRyij+YHydCsXr4MAT+mqvEUR4YIofL7GFlqA/zoaLL7E+8PiTPUKMN8QkFRd0mgbQ7ldoy2T4U3TlrJF2cVr+6QAypzylbTylXIFlRVWr6StXGUYQh4sv/EBW5BsgtJKV1IFOTaWrtAfmqDc+dEipYBMISPt4xW5tXAtLGDbkFER11Da+lXHuXBWuCAgYy1b/GtAIaM2ZIqwENCq1wz9qIGMCgWys2aFODaEmhNZcczyZHqqtDHyVqpYBQpXAr6LAWbqqbyw2LQ7BKkA5f5cnZN4e42JcBHH84X1oHAn0G7KLV4T4tatuV8sGZ+vrG1w6S5MlgC5/NJVQdBkvzxxHCptm1q6VhEs5cl6aZwnBumIp0XlvXpiZZXFxdpV2uaasOMcf4qslT8hISFhuQVb42U8432cn/Ef4YGIFqy8mtJI+7q9UZ0yC1hWvVXCKk9OAVxNy3QWrA6/TtgFSFi9CuWqVMJyq1ibR6skodvh3BYoqEy3kvUzh3J+URGnW6YnJVRMxhXUBDkKXgeFwohAnyB7ethxxoier0iV54lgFLgcTnkb2uCKFtq8/iRz3xYIfK2yvXB91USGywZTkc8DVoQZFxMQbij8Y3MpUNF3EFe28r/ycuBt6QBFsf1xH9FiZfGK+DXqP8ZpAWc0Yy4Qb6+PlYhz5FE42CJdJm8osbJRnHvyppC7sr12a14Mvwhev1GuUiROWLt6x7Y43gPDwSkYBiJE4lg5kWEzgx+8EdsCyeTPBuYZnrz0oFhqqYqEhKUCSfGaIFHnlyuhrKwoo1RBy+swNCymdDV3Xb1yGeIXsIYqGQ8R3avok9kRnPaUKX75MueUroa15Lbb1vG7qCNUDKtcaZ+vKD52RdptgHYRQFaBWuxFOCvcFBg3AzBKVx1W+tWrYhy1paslrcbHa0EvnKuBzCkhFQHtPbTVq7NozeE+qCU/spVZ69girrCE5XHE4qwSVzPKNkjfrU6pSlIBS4WiVPlxhiiRU8DaN+nMaVAodNLcfyznVHyr+uqxScsJaOTCetVarHrKVeG71fflyjZ4YcqBvEHIGzB8z5I+GHcDxtWBrDLubiB6TCJeKFLhCFysjDKZZkpXRxLlsTkQpIzls3kiZfoIyq0RV/UAQd5B7C7jx7HbRy0SaediBxWuCYsBmercxwSydKITEroaQvnlJ5TSSH3ztQoTMKVP/DrNfIULAAJZ1wKaZTHW6FSxBd+MW7669hKEL1h/PWEZnDJPMYWa/jFeuBQwiZrbso9vGZUT99EaDpTbVKERBcx7TIpgv0nv+XwlFm/TFLOKZR/S4vH2zSeCtDRl4+3OgCrZMgDtokduYxa05BSXTvHp3AzYbw0ovScqPkJLVPzYr2XEiBEvK4RqJsP4rCnPJnBpk1c/ukjdJdljGGUnYBVqthQ7b6CnkdJzVNbIa66K87oBo/wstcAlWN/ComTFOkU8rhgQY6VLvOPmghDXcaSBlZ0y1555HmQ83I6hDmsfr+ZKl0RT82xfeWpIsOGV4rmBnzOEx+RF1IC555TDu5d5lZu3Ow1XrSrK3P+KnfccHRke0YIaHD+hm5A4bbchKV4TJKrubJx0xuR8UlqmgGVhooKc2tfBbbpZKEsYMpcxSUA9zYny9jEBIhQ+VMsymqWk0OSZdd64BFBGkWt4QqbEmDmao5WvpiLh41WFfl/53pfne1Xi0zUj5jeWtJuCDEZTlhEht5+gVWijDI28DVlWqE6lRWsm/L2GcUpbueowFR/nKj7HlaENmsyCNLnOhasBBe1+gNz3dI0ytvSYnJ/XNq0AVTlBaWWrykP/X6AKlwNVH95qENBgxIfAlLVGFlGXAXLz42TYKF2tewFyH9KyFq+5p+u1bZKWq+DF27Cy5ernLrkxXmjJIPzmxpWu5CldyxSw0V+7Y8eKtZ0fe+0N8lOkLK8tpXIe/LimMvLSL4WfJ2HpQfKHlZCwBIIv9Zwbmteom8VDczpThtEvxrRJ8BRtnj9XWZmoNDh2ihFWURlvddozlxTpA+UFD3VGAZp/Or0VjOunQs9LkbEpBoAUBQptxf7oT8a6JnNeoaS1q2km6SZZ+qSVmmQaZ3LYISEWb+h26GaAK1eLXJ7LKkUFXy+Dr9kKCECRXnxI1nFS7mrAz+IrWGM/DgQyrA9le//YhijML8LK1WPdm5EoQXN0CGWuHYKg3vIZ7k6jKpVxbxHGrxjVxLhGZQA1nALUET5DxjxSxgmliAPLC0s4LY81A8LqDq0bvDJ0WsxZQJm/V+9yLn901W1zU7aQJN58e1w/zaTLXvhMWc4AXi7AXAr4HNsfcq8eXz5h0SBx2u5DUrwmMHgEI0iOLK+qSbqNB3wFbEHIVJjOw7FjHyVpKrY6CZ+uJXuY9ZNgfpUl3WL/swdGWaUs6yxbGvnqEcqp3FgCOMvVokhjmRrbK4C0ewFyH+RSGTGfrqZPWqNIVPwSRQSoHKTyQvFrXAwo53Kg+FiYgsoz5JlCrjLxxdocGYjFWatWHWfDesv1x7lyo2RWRf+UIuT6gcaQQWtFYMPOzQCPMwS3+JiWU862wZuJuuuK7eFvQOhygBC3fM2pULx6LgicxSs5P63khUV6GGc/0JUTGg1tEWsJH3fkX8hzpWvuN9vEsSkoiBaPhyrqhuuSk4u7HgA7Ju+4zKerf8z3Is4jZOKKqiBvfjml5TeJKyurTryPqttXk7tuh5HI6iJEmwI64Q8LbelsJSR0OcxCCHi0i2DfQBJaHYJQvtpCjCCcGynAk4NVSlX6c9VKLr6mCUM+sLL924LyFj4vgzASNM3TMgU7akD4dUVBvMyxAoFyZ5kKrl5R5I1ECBdvPPjrUrXSlvt85Z5ZuTUsQSFXSlsRQ3/gNsYgZBz31erC0t2AeysqF+nFW1Wez1eS6cpPt3H62Fvk9ecXwJWnoPjY+UpYX8YOQYuw3oWZvtG+BabnhbRhUbadsTaauWpEyvpi++Qf6/r8Sy4KrtQMNK8sHNsT2OOmRyT1AXlxwfOC3xjGwUHavppzcVMWmevf6xjxWk1GiL0yMuZHFE3onSGFaUPJmHnD49cfoJKUK93PWLoS/WaPzuIZwPXbq5INl42Pn6Ywb8KiQeK03YakeE2QaGqa5S23wepbQc3Y3blYwMsUq4otupxJekQ51gibFssbsFgvja0cQhEry7J2BZqFWPKg9MeuDHsy2ZRyClDxDpM8zihDTnnh0DoraKtSxStipPcyDOfT1bobKBR2SitdC/+uuft4lo0vrF4VAdBE2ypcs4KMExVWsplqK9wGUF58MEuR9fvqPrilySv7mJZSTuWaUQalMmTUhh6q3RKxDOa1LmcXEkwnbX2rrHbP8XDFLFR5XKa1jcwdWEBuEdnsD+lVbga0paslQsxtgCFFpEkJEVmrTyLyXAv4YbflBFCDl2W2YpykxasjZyTiBVezU1aEiSIy8iNdUcWqJ8fTAK0M9sgVJ2O8PSaNn/LYcc4iyspsevtqgpiCNFYkRRIr5ViY3166Fd1dfkJCQsKSDCqzZozwQatwZdxNKxiCePOarWJFZfA+8lPIKcU+rmUUKlz55KikDBs54uuN47mB0srvkgK4BV1h9ar0y1VGA6dcX8CsYRWcT1hm6WpJFbnscgzNsBUlFuYB7hV+I8DplJLZgzj79pNyVrSF8s64JnB5/QYR5JCYuFwp6xLADa2ZK2bAWAYbNkTRxDFLV71v02OQeUUZ7kleuI61K29OTNnJ8wXH+keG0nxkpq8S011wtVj5Ndtkq6ESOX+cy8oLjGTg5qTNpVuvnx/t9WjNdx2B9B/t7OOmvugUvPogx8b9nGKr8zrs90s54qvL5gYVfC82VozgxsIIg/HvSFiSZFuAjSPRVorEFQf8mcBvh/gAGHlZ/Twdlel20pyQ0P1IitcEicobmyF9ngyxNB5po9jKqheWgpyZ8nhezjQdCQzWVl50qd9XiLU4YGDcb5ZvhmCy5AAyrhYE+y1T2zUYv0J2MCK0gWSaK0+2O8sz5MihtFUoMf+tvksBRdLHK1mLVrZXhRWsc3iq4/RHugpHsppwGgWe9u+qjDOtTAGNNjRUA5kq/Lla9wHar2uDCguF3HxwizIdVk4WCiojRsRzZCpnQ+S7G1CFDy0l/b4WH+Fy1gSFrGcRawiGsDSF7iskM2FhZXy+suEqyuHHVCivA7+u7gNZUatXW168bvtrdp5rpasjNEQo6iIg18raXCt185wCPbElTraKEncDjEiZOPNhBcbLZDN52DsGSpSu3rEfZzguPBnTtmg83KUv+u7XU5G/2XEsLOK9+0pMNojrgNK1RfEO50noGNJrWQkJSyD8RaGpMCd/Os5zNWDiFVSwyDgdpSpedxZ80Curqn7RFpILHTu0bTJZgrCSxSCDQgPC0lWFH/uKQ3dOK0EB/W0A4xuWbcr6Y2CWrxmzco34fZXxKBSh9lmjbIXndrOAUrlg37xVMk6xvMZoQH5XoHQj9s4XFSOqyFjSurE2dWXsGMS8l/E2UahoFWlNyIrVQ7J6/NkEhOPg6lAirwTLHeE7nv4yekzwHvNi/bSZyLXP6wD/DUCZZzYjGJiRuyYXnCvQsLp9lLhJcsz5tFWcutYjKCR4NvUVtFx1G9lTYVXrcrfKXlk5rCtB18y9y0uTceEAuccWhZw9LIhbnDe0/JmiKr1MJnHaRYfEabsPSfGa4NCUpFYRRxbJ30UpKZSgyYRxRK5/nXR3WeXYhv2V35SjvSZFlbBV7Y81gmdke/+XVSOGYqFRpgN68Xf9YUX5jERbtpK2OFCsTkc1tPLVkM48E8pXoWgFiuNGBtKKVWvRmhFUrj/IlZH276rfSVd6/DIqyjXMTul8QhFYKBYLq9ceaFCu/bm2IQcVYWRFOqj44Jb90FYRl1OOXClNog2LLMY1M+8BmrmgHAG2Hy7QCliXTYmPcImNuLUrI3DktkCp6m9AxOUAMfcCjoSFm0t3SlNyFq7sV+6om4FGrl/R11atubFuDT+iZS1tTb/g+hf4gPXS7TECfmnnYpFGLo3J+2EzbqVKVxYn4kuOUXFs2s55Oq/Dz1d6T6gZX3ZbqRNn2gr/ltis8ISlC22qcx8iSCQ1IaHLYThBCE7MmsWbApQMmgPNEVVeuGYC9NsZDYL8OlNxTNaaTsdnKlpNsE74zQGC78iqClcEBcUqrF5VBm3dCscduAJU+3E1mi4SprdlSlYl6lUskEPZIfBHmNMnxWKsElQxpacCO+YckLkRCFsTjaPgtZOiXqHIJa98FjZOtGy6NmCwH4IFUPzQr2z9YGUWx3FLVOXLleyLYxWm6fPu5OSoB1NNOaWg/9jD4fs3FjIka+HnM9POe30lsn9Ogjo5MeQNL9uHLXZlKyoXi/EwbumqSa5zL2COjdWpCzsRcyxliLVL3EpiW6R7UY5Z1S3zw0qJoPFFbfomlbIoVdy6Z4DiuyD2fDMrDH9YW1a8RuQTFhESp+02JMVrgocmdzZ+Z/Q/miVkyohtkVS8AqLJSjOnQYC7g5NC4a/UHMNpPMkdOwLHfl8u8ecaxLE0BWirV1gibX+FN+4CTLtNmxizIF4v70e0c+44yxVytEFlDQBZ4RqgxMer8eWqMmatatwRGD+vZe4G9Gv8ZF7n1/5eYz5fVXsb8p6FUpV/VCs3H9DSce4DXEp/UAvWFYElyzycu6/iFvauuR4JT7lqnmH0v9DHq7OCjREYE28fxiq2qMuBnIBGzqxcc6ZIzZHnubVKJcdKor5euRLWyOa584sa2/i3uoxSNde/uvs+Xu3cixEmE+bHkG4DeJohV8ZiIKqERYlPV0asCOXpPI01O+wHL8sXLMtbcezH+eTULz4I15Vntwku0xG/bQlLHlRbVriI6XD+NBESErocbP2XqCKakTh+I/fLN1mMG30FZFqxaS1JzQepVBFPloQoUEMfMyWt0jJKr7tKgX1pijVVLCawa3SgvFWO/0hfr7oD3OjB15x5C1fBG+XAukcBzdaMH1lrDRv6fLV+ZLnPVz1+vkLPRJh0R9X0P1Ucc3+uZSdf8SMFKO7v1fBS8sLiFBX+YAuu6axd+WZHQmuabXxw7E5Q1PUAheGm8HiUs19xSmD5yCGfv8Rp9+qLWeTa06O8OE3QrF9jX543gfFEl0Z23hoXHU47bPbkKiu9zl2NSpH8IJb04xHuyePTujzHPfmFAdmGMpJp9yyfdkfnlJ/m2cCUGx5z4w8eJj+cS8VpqEQtT+eWrlGlK+mrTifm+nle8mI9B/xhEONqhzsYqrKhTOheJE7bfUiK1wSJsp/FfESdIZJLKyKqi4BZQ9lSL/xseccAhJLVsBjre8odEwCVed8TtQpVvz7dF2N54MvnWi4zrgXAvgwLSWp58bY4cvrfXCtutSaR9LHyfb4SoY0UGlS8sA+VgTwfrwpwPl2VXrQVQam8INfGZ1XmuRvQcSpToX9XpnTlPl8LK1+FPG9DQ+XIlOdGgDLkyn1QK0fhkoBU8cOX0g8d7hwCYB9CIMMg9EC6V774F2j1Awj302TnD6y1a+H3lXQ6MQ4uCZX3s62IEy4HjBuBRkh2zAeyyChomVsD38pV+HrlVedA3mAEyewNIeJWraY+rXktI1zhx7aUq9cfAhTXjT0LnGCxK8j6dAUrQ4c74l7Aj4uSrhgZIxkWp9Yr5/+z97cxtyxneTB43dVrPXufg1/DjJ3xAcYJSQaNiXDsCQRjhEJGsTAT/lghHkKk8CFEFCmOEJZQMEKYiNEwRAKBBJJffvBrYoEsISsfiBGxBqQRlhDGDIP0GiXMi2AGjsEw2HB89n5Wd93z4/6oq6p7refZZ599tvc+fT9aT3dXV9dXV1ddddVdd41xjvGuntlq1rCWrThuc83Hcdz8csujDHuXXXbZ5XNdpNrPLviGNoeVuzsmRKzoJOGth6Gg+X1ty7YTRyld62plfhBKoU2Yx8E9V62Ix1fpXAaSrDZ3T1Y+KwBqFWBy0DIyaZnJsYcyPCiceHp+MxjyCbjmK5CarwoaLjigKw47eWVUxiGh9co/6c7Xd3pDTDqcb/WTl8wLTFqbpmu4a3sVWRaKJB8Lab2yGYJWfNqnXvs8XirfzQIfXuvms4nXtLey1hWItA3b2FXZx7mwG+G28qPDj+PuBlGgc/OYExqCZm4gvIyFlUE1PyJiqw4XbXGl5jHF5Ti7TZ7AMDnYSFwrCB6KAh6Pg0n+kvJc+dwJyxgv1BbuiFN7zH+OkNWV/zXhev78JrdYkWduGsUFQFArfdPe6CTu1fbtx/0uf1s4fvCzyy5PuuzE6y4k2rd852QkXZPQpOuNoLd66NbRRxjeGXZMJrAmXN19g3SNJGYPsNJwBXXIlJhKYVPHLarQUlLJFEVyGTuG2b0A0ZeYGO5ShcCFjkBDFVM1MlMmMzOgrrlq5KqVhy0bA53HRlxRfIVAbM1ESjUbsRLrf0rTvhxtvoYfWSYsZUGRKTfNSruumGjTLcFBnMsmO11teZidl9CMUNJ6lQC+cZTVeXtvQjZhHfh6dtiygQQhG78AeMQkMqma4CnYy9mOQjZd+TzNEGR4hHYivNHuqz9fFzXNVQUd2+MVdA89qdqZFOCkMzij6/F8BahGt7ge7L5yGA+ykdbqfIgP/AyG6zGOIbzx2VV4G89vum0k4MLnfOP12Mxs+bn1oGqXz00p8nBLq8ZJv1122eVlEO07gpQtkObu0TEw9Bwf07ivHdkSHqSyhmtA0P6amTWFYUoNYkjghG2zAym+isj64YrU9nSMpoTjADUb/go2XOrXhvm0BMqyxGtvQHPllsusQeYFEmQy0ckZG++R5ivbeUX0k60dHJSA6XwkX/tQ+hCbNiq/oeYmifGZZO2EQEEZ64wXVYap/TUiT6Ob9ufwfAQByGG9VNnCHZqlbAWqEf8mM3hBRj9Ch8zrBW056Q7kTgVzLg2R3sr+aEy6AnPrAHK42IB+D/50HexmkA0gb1wPILwDuuvz1OoF4WlFKnV0BOpwveXWX2sLD3Rvda5dFsZkR1jdMAcUTqSfyNfV56TUfA5leiNmf4jvYZcHlB3TPjLZidddOtkyop1CLWnO5J1rXVfPjhFtRk52XqX14gGGWUshe98NtEBk6OrTzyk37XuGs24+j1eRQCW0X9vul4QvOYliz6AGatQeq5Y+/TGzmmIMZG5ahcltvUo1W2JOmqama5oaMLMEnVmBUj0Pbg+2epxuYgDqtr8GrVc2NWCEc0GtE6pUIlxd4xWh8SruPZAjo1E/L8CU5hKkAzhVbClcI1NtA4N2bmUiUT8sy2nbNeEl4Z/2/v3V8j1K4uimUCJUe9MAKyDCIKcLpz3bXdMmWqnFGqCJTBZ0dlwr3YvNtvyZdmzgqSNwaw++RkB19l5ca7P7yn4qmemNI2PgETSNbvwcyzlABjTyufM7gDR2v5VbhHkGL1xK31k/1HyN/mS4frnlUYS5yxnZ7WHtssvnnkS/3snWtyYOO8dOZXhE6aafmxmAMmA/WmLtE+PNvBaYjxyZwD584i6lwMwSFI/Uea1UCBB0mrBFbKJea0I8aDEMsUyG5SBmn9GBJni6OwBtnof5rSDNzjRZl1qyIDt7zVelpehnQNvK3c5Vmtaq0Lvb6vvOvPUerns4a3MDFZOSjVf1lVhb9WEMDwCEtF61qybtGbWSN1wjXdpWmdoEL2fuAwPR1WvghvfUROzqMVp9HVGLtBByEZqS820BCL3aLr9nhnctbdIijKStbBFzmvtzQYw7xsIKt0GbFA0/8xi4uREmDdzN99COK2KTxxQUZmJtD3TrfOte/G9jgaZ9u8L7dH6TG2N/PfcM+mdXuHzD3yUt2NX1Lq+M7Jj2kclOvO4yyLkmTrKzYYXQNeH6cB+bNcLeYQYaONv7EvLtWBjvYFNjQKiTHtJ3iXStjASsWxNI2ujMNVFb/XoXx+jgaXcyl6fIwwZYboXq8ZWwf1qqgfwK11pQsu9aHaAXT596HsIuLLkVNeBNjOG4qVbx912jS3c3VNJ6VSNgqxQsrvF6BUUpNQFsR74mPDCaNq+pqEVhm4tF8YgPBURI06Fdqw82ii/Dz+WFDpRXKEE4n+jy3NCMXy/ozAakaQEiYLd+jZClcAEjWytMy3WJcN0MQBy7oJrb2Q2zMB7tmZGQTXMDyNe5Bk9+sulOby/yF0b1GUSt0qT9sxjDGz/dzTyd8b8Rx3jv1uf8/Q5Nyuj3Vtfn2gP3vGoWcMH/ptebPO/AZ5dddnkVC3dO7KjoR/tuToAtDWDrUYBwBHscfRrGEwi0OmkKNFuveReJqTXwDJO2MVlfLJwS/a0TqEGmplQQdgS6deLEQ0na9beVXJpYEcAUzzFuJrf46YaGq6vyxl/3DN0LzdeiNW3ZrlQ8hV4ed2VdljKmbRJ149EVoekEXKf12v2CdLXroq4AoK4EoOiUAgQtK0LXoOut88iyuWn37kaCFqtnefVcGzadKbbVZloR5TnEILrxQySmfSy3QRyjn7YsXTseNfxGDLx9Rn6+Xpc7cwNx5MqwCqz5sQkND6OSV3Ut9CwDw8/t8UZmcl7SSagN2LBBq9LAeRK80TatxiIgghbN/8Z1krqVwvBcXbLnepObjQUH93gZgJfF2qwAh9Xlf8D9EdZFUwTrYHbZ5YmTnXjdpUk05KOzImeTuePv5Ca7rux8sXdW6/BGswAcxlbPvErL2GKPCEN6t9Ff9i5+v4RagSUkCVioaYIGSxjIYQw+3Eq77HPdMiOA2171NLiGg1SBTgU4mK1XXW2qhTzvNtAqxbVebXm8acxitZGWhBbvDRtuiRRonVBLRZUJVRSLGURAwWJxR66SQKVNCtytGMO6BswSpVAJKEun7dppv9KmTxLMJJGkQcZ2pCyQtlvT/6LQxY5tHb8BCp1rmhWwzbVAwAi54VZdej/tGXi4QJ0r2XsFka3au1fTUlX1oy/p19qW9zMBOxKtCciifkW4cY410DI3q4cjL937AZZK5S49xmPw1bnpGX/o3TGcM8m8dX+M46yfM0BOxwRtX266bfo5E96lZ4B+3HmT0JCA/t8ikl1eftm1A3bZ5XNOkvQCGpbMZnOjoyCsmcaf+BlVt+8/PBiT6CO21LbZTGq+dhtttb4zNAvTHbCT0mBl4MqO5Fp1SLG3Qe3twFb4Si2eZPcITd21EUSbzZHjyaG3lt5LV/ib9wIXi6CWoelb7ay1nY6IlzVSB6jdiWy4r90IowKIrV6nuA6SbwtgxDuhY7fIK8hhem/nNF870wO4eXqVkzLWCXbLcxre8FAn+fvIYoRxJgFRZ2NMuCp/adfn0smfXVZF5XrVl3U+m7ZZh4DyeOb+Gckho5KyRD6ofqb+f7jHfsdnCTiLtykB0kP/g9/VJrikX2quKoYxRB+9jRkyajRFDCW3dv8mN1YISXdKs51L9yzgq+yoAtxEwHJ6Y2O67vYN73GXl1F2TPvIZCded+klG2bv/ETOk63moXvudjKAl3TLRFj858wOXAh1S7IRj3Qm0s3oWpLIvECnbVvFkLOge1YAI2ATrW1APs4qLwuLX+xW2yFBbeElSHLSc55QJ9cY5U0WxAG3mA0wKeam6kSsqrGOpRiZWgdzAoudr0wMdKSrGNFcbfOsMC1QRTBhMSVgBTpbrhs/YMGkFaI1N7JiHKMomEVxQJCr2s22FzXC1YCf+rmg+MZaeU9D57lZS0swmyQreiOpAHLrXGY4mdWsCiw1CVedK3Q2O7KxAVbucqxIo/lJpDowSiP1mW8COQH4OmCm6Qec3AEDKmWpUtid7Sj3qBwHX5+7V3uyNyMcQFI8e5aU3Tjfer6bGUcvXf5v8rNxf8ute3YLKN50fbmZuigvDVe2usDDtB2jvoJS5OFsWu32sHbZ5eWX6ItDGMzq6A7vw7R3505G3L5/hwM3gWR3NG05EPmKjmTtGEBt17kTfUWu7Imd6TWwo+M/yQ1c1Vk0Zjz82jtxqWLmqmKivUqaklIFUJfG31Ii0zRVJtjKoicwOc7xnuNL76mKb/jaT8rzNWFIIVJ0sCM1FmFzY3/rXzNUALLVa+hJHHt2G2jxuYcf55M6vKZ0sKYrwPsVkLti5Sbw90xYotN65efdtRtB0ZApXmHkTFLdle5pG0ZwJN3nstFFSbHVWxMEIyd9Y4+mrXy683PCLLEMbhKZ1lZmeuF+92HTt1rExgSePvsWkNqjhovbd5TPd0wkfWdoRGmEmeUZWJ7cdfzFLUVPfmrUXg6azA8MBKtSWket14bzKY8Y02EKUZHWSFP642vyA8A0/oXiIzl/HeYCXQv6nF2TXR6d7Jj2kclOvO7SS2hOxvUlQlVuur/x4Z31TgiD3bbI1zMbap3r6rsouSMGd8r++GgVPOxaAUiGNTtxyTBTSzMamzhOGx107hSgjZUS71wETnwGlKLnRaALnGAs0EOEV42JHO2p5nm4V2gpQHUbsLo2L8AbaQXDudpwqypEJtRFsRwWTAAOWLw4Ij6sjoZZNLFJAlepuXQrgXex6dyiirJYMU4qdkQDpwXAVAVTNaIVtUHQ3IxLbfCSRydNE4OtEQ5yyrhjLUGkami0gmaerW5mUGCwtgWCMgEDsAobru28abxqasJ2Jge0T2pHxNKRgdeNIIrOwy8pAjfStQW9AmCj4gHofj43xJ/PjqAM29cGOGXl1naqXcfT+0U+vxJZp+NcegB7P7clXcMQymakL1G4Jbxor3uXl1emYr+X/Pz+rnbZ5WWXGqt8/Hr8zGjtMred3ZpmwLDRyqbkGCgDyfVR4PitwHdmtzY6cJ+zbe1ePBPJd2iqvjRaD+jIGyYtWNPV+m4inRSOiyRxDYJkJZwALYn9GjPoG6FKJhibm2vRfc17Bdqsu/bkXjJ8HVJA4mV22/InbbMx9nNTq5rZyisjXCc1MtGI1gapu3ONc02IHYoHRTee8fKOBWHhztlPPtFZztDJ4BSCn0n/9ByV14gkmHSl0uuJ2bit7br3Hc9Y3SwxbtH+k+CvokvrcGJ5GjKluPX12tzA8J1uyXjPzbtJRfvOV/614SrVxPcdsF+FS+l05YtuDBA4W6munge6nX/+8JXOMzztHmmYnjVhEeH177wfFlpLdIlozfEP+nDQ3Rtq0pl307sLhXH+de7yCGTHtI9MduJ1l5R5ie0Tb/B4DsR2fh6QsTjrT82maaIA7tnaedIuowmBALaqoMU0eW+1PCwjluxsW1xjI9R3JgGOI9koAlmUsKk2kwREvoZtr4ZZHeR39q4iPRWYiinfzqa1YOYLHOk5CGXtV7PrSm5F1xtpufZDt9mWa0Kc23CrLAVLPWC686IRpo40bbMEAxJVgAWCReI3YZYJVyKYARwKfDZ5aUvGtEJ0wWFRI1S9dKWVcoP46mZvFzdBIIDUcckYvSFW1wysRhqtAQI1mExe4+5qqmE+IH9B4hLw6QBVAq70RDuVBlBqVZLtutIj2yCJwE8ciR+3o7uvbMMOICvjx2AHCqGd22G77sh2mVbAC31YF/1QHljGJkOH8zEcJsCpdcgmo3u+/4zXzdNGU7bVhOkDkK6XZUjQSwzhts3sLrvsssvTKP+fT2nf8QB90xr93GjjhZtgVZ9A1AY5O3NU6IHGhaM9Ls3mK/hI03+OH+M8/TArtrif0rDnJsSNDow6SSNeI8CG+Vj7te3G5RtwVUCmrWK0MBrB6vhR6BpC+TN8COly3BdSXlLB5jsJtg2ZJxn+QGk577bOi6Wo0pJ3LrcRdYBCbXWD9R9MY9Z+U3WtWC+LCG3UZF1ppA4lFLg1L6kiRT3O/Ax+O5wT2tTo48ngJrXl6tWwdZ8EAnw0WZBiewB3xXYZ0QSu30pJnIc/dRfxMUcAebrNRxke7e4N3zGQYzQlVfn4btcNiWZNULcRy3s/JHFZBzuuUS5bQPbcDzEuIDuu4zma2/iLOGOvh7yme+yWYwGQ3VZOzlYSNz4Xc+/fvq5OBryqG24A/up//m/YZZcnXR6Czt7laZPDJMSwPMQPt7i/+avb7nW5ZbyI3oJ7jnasteVv65jnca39r1NvrJTX3jCndEf7yWiQJzrmLq62dD3Tw2layG2xnywKWQqkFoiaCQHROC+u4dm7BcEqRLRKbb8A4KOf9LcUyOmAcv8K0+kZXM93UcUVQZ2cDfMDFXbNRgZCK8F0ZQEIUAtQxXayKqg4qmJyMBfLzVQDxLoZgQqUTDOylxY0t07roKrbeI336b8AX/nuAcz0jqh+hcZrVgU3NxDxKz2j1W3GZvUmTVa49momRenTa6YGlF6/ZjXh5/oqklnwNIxHRe+2cod2RcHhd59V3IdVDTZrkOBrbA5GN9AnO8QZQq/1bBOz1WQoP9+B095r5mH9aQ4AtP+NUqFpneK2v5jc2P49WFibP91K6S6PRMIe1sP8XoL89E//NL7kS74Ed+/exdve9jb8+q//+kX/H/rQh/CmN70Jd+/exZvf/Gb84i/+Ynf/F37hF/D1X//1eN3rXgcRwW/91m+twviH//Afutmb9vtX/+pfvaT077LLo5QvfC13YF0Hue02mhXya6nbP+vwHqzhlwrIAjeL1LAM26E3zEj+3WxRnBvuKYnrOtKU8ZqSbdHuJ+tn2YxA5+b+Ulo/FZ1e9sMu0dc3XIQsV3Nq+ePnzpmm6k0NsFt/HQGO19tuLa1xJY5VOxut/FPWgO371+RqO/896RomsIpKmsdisnr1vkDE6VZ5efXjNBQM75DpYXYec8Acd9x3bL6IbbIbOO88EqKkRngFxt9zVeveiPTPeVq2Qhf31PGpnBTlDAgFRuwrn3OgY4yh7EJpVPTXG6lr/1NZpgUdn8F4rXzNv/xe1niOn80mqw7NXYZFyh/xBmls09mNzWGu+oa/cEKZ0srx1na9Wn1H6Vi53fBbNdEVeOZ//bc2yn2XRyKPAdO+WvDsTrzuMgi1vueQ41m2I454sBa272k23bXWPm1DL2OP6PavDp2O1vWxO6cehTqmDKfWdl3He3Zf5sXJ0SVJ0vGnSaRSXmo1ojnI1Y5wVUg879exGZScBDKXRsIGwRrnNdwlQXegIVEG8O35fHYpjWw9HTGdrjAtR5TlCNQr3Jtfgxfnu5gxWQeLRr4mCdsRsQY1K61vM3taiqILplohi6DwLHEAUhj4LVVRZtN0zYEJD14UbscWkEUgM5ykVipXWNktwYQCuqiRqUs1u61evo0QV9sca3Y/sWGWh5Fka/VzIAnOsOkKgGxGBcLg+k/fg4uBesUyAyevUh3QGa7zc8RwrRbabT5JroL5s2LC4scRHIHcRk3bLTfOevWMcssDPj87vl0P02JwaJqvsgoPm+Gc/43C96rXzwf9rYeG203hAyWUf7J376+YlIcEqC/BHtbP//zP473vfS/e//734zd/8zfxlre8Be985zvxJ3/yJ5v+f+3Xfg3f8i3fgu/8zu/Exz/+cbzrXe/Cu971LvzO7/xO+nnhhRfwtV/7tfjRH/3Ri3F/13d9F/74j/84f//+3//7B07/Lrs8ajkWwkxbI3v/mRki/3Xkal13RsQKpd3Pi7+6PlbHbTEZrEaGNtv0jfyDEuEUbvDl7Il7pGE7PleaTN8iZYmAtV+Qf8PEe2ykOZB1Xd8s637Y9UdbP12MkBJI0ywUymOKtBi2TA1Ifx381ijn6bF2XoIjE8OgFlYLt0cVWQm4QrQkhqdIpjrpmkT7+V8Zs4U+HA4+45TBfxQZIk/00OC3vbcuqp4gFTWlirBNTH45TpWW+PE9dNcRX6gCg8ZlnkYhv/xcy3hLMxBhRYaHZ7ujDGUxpDTIWjKRJ0yebgTbXWW5ei1ZVVuld6nkFg/qxo+ejcfyp1RNQqljMK9BbdeIK5kw7ZtDJ9k1wo3rNo5uShrtGOlIvI81zo99i3k8UDGMEbQfAyh8yKwAJlK53+XRyiuMaV9NeHY3NbALydBKA9iGLrcJ54zzJkJiBLEtAljLO37MAmutc62zWM8WPXOgE/djNky5B69+Kq1z4/uZWEcLERenW+MZCyNTWPvGpy22suckwkrTAoBIRZpTSBuykZ1wq46OKqQ4JAwyNcwyFPcTxqbU3cSAuC4+y75hQgASMLMYcCwFWidoqdCpQs3IKPQAoC4QnXC/PoPDYgOL6TA72JbNY5SDQrAAmFAxwd5L8fK5UtfqkAZKp9QWsHuTD1QMsIqbuhUbzKiVb1F/J2yYVC0N9i6t/lgRsWonGlKgIuxwmPtVj0+h9j6cgOclfgnCGKyuzmmJP7R5J4A1LzwDbifV6xMTrAxikvCMaydTKQsdDgTaXICSnw7/kduWKH0aEXbLT/8sYUqKz7+RdbFtnt90HM853nP3z7mx1Js8vAzyUqN4BZK2y2OUH//xH8d3fdd34Tu+4zsAAB/4wAfwX/7Lf8HP/uzP4vu+7/tW/n/yJ38S3/AN34Dv/d7vBQD88A//MH75l38ZP/VTP4UPfOADAIB/8S/+BQDg93//9y/G/eyzz+K55557GXOzyy6PQtT7dwVqmGUiDJkdjG66re26bhzrGfc8Eial42rDLcAIrOJuFWlGIDaoCcVTs0VJPWTMsTFcRUsDL0eH46XEjeyXNWfd3IBWgRTbTFW0tn59KL7gthRdCUeEzd4sJzSwswwrowRIqlNh5QXmzdb6kh2nRrIeWeiwOZch05IoVfPBxEdReF6WvbUwzessX2ncXqRpvVz/QkI9uiyeC/4NTUvveEloWKNwm7PnHgv7rQvs/WgblmSdhVdrD3sV1DkgInygDN8WuXTDs2H8lt/sEG4HDPl7BJTef8PranWPgw90Gu8n0SpnWLusM15PjDuA0/N4ml5W1Pd4XtmsQPO3xeF2SVMLab0Jl2adzzTH/Qe85vzzK4jmcry/cZpjF076Lk+nvJrw7K4Ss0sTXisLoJsWG3+bLfsZ99UM3g1+Mp6NuDdNIdwizMgLH9mEwVa4Kzd+vq7d5tkIyVptk51l6TVYx5+HE0Sm+dNBzbC6VqZrR7iGplT7mbmB2rQzUvt1giy9pitc89UIVTJHUAtK+FsKZJ4wLQdM8xFlPkKWQ/vN/qsHoE4Z5lKPqHrArFe4tzyL+8sVZoew1auWvU1FcaoQoE7Vy1CgTqy2SXEmI1OTNQcIcK1W78z9dcSSsCg7VTQSNQZLEDSzAe7Hz7vvILRdlS1zRZodrMBnfQkldO7hNwhS/75iSU8AKHNTr+p2viyKZVacTspmZeFKM6hVsFS1DbdSu5s+60xPy9OqqlN1C2Xt0GjNWWnttV27L5X9xfuOsMkPX/Pny26WXIOzdYhrnBm/qak51yS9HBZVarzrM6KfA79dXiF5mZZlfeYzn+l+9+/f34zu+voaH/vYx/COd7wj3UopeMc73oGPfvSjm8989KMf7fwDwDvf+c6z/i/Jf/gP/wGvf/3r8eVf/uV43/veh89+9rMPHMYuuzxyGUw5SawWWnV86N2W6nhg6Gy6GUx9wAaZn7ejeIfatF6RGqbntFdZE7WkxqpQB0nkqROnN2m8rkwM0Lk4wxUE2RYFGlSKah8G90GaR+2vo6PuWSEisqQ9t8E+Flkv/M5rBz0XTRggVlz1AWh33mO/sXcVPvEssHbyS5ZIx4VwJN+Me7wF96rtld0OJwgRrvTj+6s4wg9XJ76vyKW9LRK0iCKdVPLdO1BtbtqtderP++q6Zuh5kNFY8ixVGdhkirW73nTTIc8YsDk1IYnNw13Hc1e6UKVz5PCTreOZO636xKDRqi3PSv67MGKYPA6blZ8580N/PTafK81XHdNu459FB1NpXHi7PFp5BTHtqw3P7hqvu5CsulOTql1nuCk8+/hyJKO7GOLWBdlDltLiVvRTr3nozxVoRtm7cHV75jTOC0EzTlYyWq0QcmF8bICwniZv4SYQ8OfZX6ZDMv2WRUMxkloENo+YNqrCsBIUWkwTE1UNUPiGCdGbajV/toNqgQYZPDVyGKW/rqLQujhJWFDrEfMy4YAJi0w46RXuLRUCYJpmVDMkkJq1icRwQMUJQMy8s0kBczuqoMC1WcVI1YK2FK/4fXGGrigc5bVlgqHxKmxENFBGvM98JQKVxqqFvSvxzSBCM9b8+THCiSoQmXCCN4BNoBJBS0aCswAfVYmfp3MCL2Ef9jxII/AFoLp2TRsvSkfQrsaS2opk65yLzZ4/0z4kOKZiXhd55w6oh9cGXLx1AzcPeuZ4ye0cdrtN89VxrbcY4NwkD9JkvgzR7fKopMhLMhfQPQ/gjW98Y+f8/ve/Hz/0Qz+08v6pT30Ky7LgDW94Q+f+hje8AZ/4xCc2o3j++ec3/T///PMPlNR//s//Of7G3/gb+KIv+iL89m//Nv7tv/23+N3f/V38wi/8wgOFs8suj16iv2+ATQInrvBfOzHf2vrzlY5WsFC6xm5MfnVHx3Ws+RprgFyDFVPTQGUt19RwjXvS4Kl4+qQUpNolwdEiQ7+l8A1nebWUUKCSGq/ZD4tCUFDVTCVEGsaSkS6aIL2a3VTm1ppfmowOrIVRwg7qWLY9vmjvxMqhwWsiWSndcW8iNCLDPb7mMgwpCY4I3gNt9/hVXm4vuYL/QteiVE1HrdpL4UY1vfGJyF9VVyB17A3pl/xvbdZFn9+WzVxE3nKs1Y6Ntu/PG1CPU7ENgxfOi90MXI0bjg3HWv6Y4GtDwMD7w/cH/xZ4vJjtQ/XFmFQLArtTvYlysiEZ+0V/7vkNpY8or9j3gfF7FybonPC36Qa1cjqHlbtwL16399+V6xi+XprGgI9HshXus7/LKyOvIKZ9teHZnXjdpZezrET2Pmv3XOb/KCTZqzFB9lsC6UhzFuqccelcyH+gJYaPA5RUXiThz1QKT6hnEQfBqgCmAXE0dJbdT4DxKMshGnSgXgBx8tm1HVLToBjpqqip0aCTd9SlQsWW5DcwPKFMJQnXkWAVMi+gWqFlwXIozgTCScgJqAfMekTFCVUnVD2YBmy9wj1UFKmYcI1ncbLBANyelgoqyLZWAhGnjwljQW0AIgHioygVRiJKAEq/WameKHfh4iOZvlZIzKiqAgtSC9ZgX+1BHFXDdArgFeBJe4+xfJDtMVU/pnK0om2i5T8DSDrMNovbWepBUKXznmDd9gu0Ge1OEzVSHf7pvAb4a0UwnLA4APY63ZGufA57h/Et6hBGmFPoB3aefl27RdrZfZXeC7Ll5xxQ5BblQWVoYR44TS+n/11euuhk7ezDPA8Af/iHf4jXvva16X7nzp2HTtvLLf/yX/7LPH/zm9+ML/zCL8Q/+kf/CL/3e7+Hv/23//ZjTNkuuwwSGq8AsqVlDTseWCaEHDqODk+GR12d9pKoYvvYBefkXkyOwuGjwbuOdNUCW+ET9+CYQgXq5g+TDKMOT4bOT3y1UMk5eEGtkmWi3g8LCFsGnvTsieczqMkwImVcrmbRZh+XJqy2yool9fm6n/0X6HBf4HZzxXYTKG6rtcS9WEIuYUagt0BbfHzBZOuYntW5g1UhgCSgJaQBZdDjkAeV2+ADg52a5b9FW18M/8YI2k+q9EQwYTgEIak9qcrDnj7eftyY+D3LzQlXgY9V4tyxeqSdx6YUyarcV5+idtdJJIubDIvxQ36y49voDMehNyTH2pmh1dvqjt1qYa8akXX1t1BJWQJAjlGYYA3/o7sObjnegBAW167sIrwuGVvnOfRpCiHjO+Cw7N52XV0ybun9D+Ht8mjl1YJpHwee3YnXXQa50LJlq06Iopvle6mSPV/vpty8Uxpky+FBrGZE5xVown6SBC5TKRR/Rd9pD3i+A/baPJutrkAMgUQko+4JVbTz6MK3yFcVYCpGlMIBsbr6qxrpqqWBZZu9KpCy2GZZKpBJiFAtA8FK9lyDkC3VGtNSTSOiwnrvZQJkwVyOWMoBC2YsmFBlchJ2wvV8B5iAu+UeXiufRcFiQAqmvQoRK15Vs8sds+oK2u1X3SSCF0VVX3oXu/xqqxGzto0nlgaQFWgbZhRBGjKN96e+1F8cGIr2s/oEcANoJN+e2p3uhxCPEa1IlKJaUXOTLAJUAYxq818XXRGxViTSE6oDwKrQM+5xHWSutPtAfz64gY8Yjqtvs/8utsBcXMfsNoaws9i7MPpIVuBuI13r8M7L1r3NJs6TfAma3NQyni+z8zKOq0f3W0e+y+ecvPa1r+1A6jl5/etfj2ma8MlPfrJz/+QnP3nWVtVzzz33QP5vK29729sAAP/9v//3nXjd5XNLeIYR6CGdKLCIQ0dpnRyrRIY/gNy13S/ncGc07HQM3Bh0g59rBObBF7eAhQk2uS3IlU1S0aAu3YMqpiLIPWgng2iZhKHv3tzwcWNNtj3asLlp5xbfTGnAx5xj2eh+sq9b98bKDB0VdbvgdxKEMFBkgcBIXvIFQwxNw5XvRc6aiQGy69reRhZTApYzJFlqciZQ6uMrqyceQKIcfTixBRUelGwdgr9Z8nuho65vjUXDNWmMLDB8Vgn/p64JHu8j0DYAUxoJwMRDUHgdjbD5c+XPsP/4+/w1DQ60l0jn8XS8bJ8AiTu9/ibhcoqiYemWjmYOoMfozT+ZF8hvWN20gCaBqhTRSLB24WobE7SEIeOIMm1pbu8B6MPrrv2BbiXccJ4llOemPBKmJnTj+f6r3OVJlNtg2lcbnt1tvO6SEvYoz/7yfg3fD/63GXbduDdakYwfLX+PX13sl9s01svnQa4xw1UXXzq/rMNnm66x7jtshbFRnPHnhjhzV93uPj3L9wZ/qoPfMb5Fm8Gc4Z5QmHJaUK4V5foImY9AnSDLBKkTpB7smNdTux7coGTbVScgTBrohLleodZGti7+m+uEGUcsOOIz9fNxH0cjDR2tTt7Dpq2qCkC1LYeqwFQFE2JzLfEdYiVn+8N/0bafmCi8J28zum2TLfj7l3yejdODCc1UDUWCLmVcxkxY5EPQzUYjQE+1o5GpdsNsK7Vj2GAK20ZL7b+dZsdV16+dzrWatsra3a7nKjhVWZur4/P114caYW78GPB199DcmPxNswlDPFYuGMov7uvgd6st64Fnd+8BUFyE011H2mVdPl053SL8G7VNxrRQ+GMZbKVjl1dIYlnWw/weQK6urvAVX/EV+MhHPpJutVZ85CMfwdvf/vbNZ97+9rd3/gHgl3/5l8/6v6381m/9FgDgC7/wCx8qnF12edmFMd4KN/o9x3Jis6BuHz6OjcjpGQm/PNcRbnaOPhG86mzbT2ptk82L+ZGxwa8b1yppK9bwkaDMMNv3hFWk+zU7r3Bbsk2zNfxL59fwjW0jv9XHZM9Mh9FHka2toPpF/b311Y3XCqCImWkI4rR0T3lIsg6N7X9OXeg+QR/nMoTFP226u9UrSLs3cPbK+XxwcZh6wcODhR457InqC0IkZ9pp9aoSgbC2avhZ4RD+bqSZKVC6YfzrQMR3JPxG2oK53crMahJlDMfRZFfJeqJfunM/VZAd2FGPu68Plq/I7FbhZEFkeA30ItsdGwpqDkVb8xH32zi9y5D2byJweA41KcpKRzuXZqZs1K7t0hDJlO56Zb5M+7FAVUlzaktdp2HruMsrJK8gpn214dld43WXXm7VslkDLLCGOeUCi6AXbxv5NUKsLdB2dmbXtt1EbzaAOt0unRE4dYbkJ+yQNg3YkJha5M48AstA0aMFP9biDVHrZC9qukYauvsUdXSwxUBw01wIdFRsN1p+rhSU6wKpB+h8QD0swHFJbVaUXru1MzNQKpbDgqbpCtMWWcQ0XkuF1AOu9YCDHrDojGU5YMaCUo4oWlF0whHALAfcxwF39JTjhgGi4aCCScN+K711T24MCGwTCm2z296zC2Dkc/T0HEWSruRevZC0vWOBksYD1xnNMjWbuu3avHnYxQY+iZ0ChFSevXbAhAAiBKxUcz5hJDf7cyKJM0zKJrmPgItwXVbjVVhYn+PM8TbNx6rolep3St8ajMHylzb62yRbh/PxubPx3JCfm7Ib5fVQA68z13LBzzm3XR6NvFzLsh5E3vve9+Lbvu3b8JVf+ZX4qq/6KvzET/wEXnjhhdwV9lu/9VvxxV/8xfiRH/kRAMB3f/d34+u+7uvwYz/2Y/jGb/xG/NzP/Rx+4zd+Az/zMz+TYf75n/85/uAP/gB/9Ed/BAD43d/9XQCmXfDcc8/h937v9/DBD34Q//gf/2O87nWvw2//9m/je77ne/AP/sE/wN/9u3/3Jed/l10eiUSnB6wb/bCzqoaxFJo28hM4uWpKh6P8mF+stDDyWCl8Zt4GuBg2MxtjZ/bihQyz6hR4xp8btF9Vm9YYa6EWDyP6+U5x1PFimhFg0wIYzh3nSmZAbMOuxNqkn0jNmEY8QmE68dRINw8Po53X4TVuuIjnVzu34af1RhMDLVcmZRVhDnaADKchFGm+AvblxcP0/Vl1oq6cCYur1m00Xx84PT283bwtw28TYGXduyFhymWrdPvMd+xuomLa3wCBwHMoUteJHsIU8TpJEy7aeRQ3/dHqBUej5NS+jcEvpZVXvY3h1Nrumxft7tuPVuLRj/1c3JsazbYtF18mKcyM+PiIxwX8DM9PUTLTPYornq/eGMSi0NVzdNwx7SsnrzSmfTXh2Z143WWQC02bt4j8OXVAq2Mp+o+ugbZtiuB2n2jM5o1CPbYCkKDqzkCVwMEBkjsqpiFi9aDFOzwppS0tS1us544elschWntAn/aIAtjq4BbHOMfwLMWlAh02/tK6mL3XyESBEYFOutluuRPqPEGPC3RaoIfzZgZ0WnxpvhPcKoAuUEyAFqAWqE441StUOWHBhLlMmHTCAv/phAoxTVg54FqOuKv3zSQBluSlTf/Z8lYIjUsVm0irrtUqCJ+AmqkB8SMUzVgQwtRAvHg0FAB2D7AXJhiGKhF+rYq5CQmYZkqgTZ/drj5KUnFNWgmgQzWYwNZaEUedJNW1tiiBJtMYbWPLtY3XBrgWvka7H89YAK3aMmBSTgPIP50HYLrNxzyCtgGz9q8I63txXcmfXPDXncstAJxu53HD262Eq9LLJS93eLs8hHj7+lDPP6B88zd/M/70T/8UP/iDP4jnn38eb33rW/FLv/RLueHAH/zBH6BQv/A1X/M1+OAHP4gf+IEfwPd///fjS7/0S/HhD38YX/7lX55+/uN//I8JdAHgn/2zfwagbYhwdXWF//pf/2uC4je+8Y34pm/6JvzAD/zAS8z4Lrs8QonONbEY0FFVvgGnBBYsJe1GqkjbQyDMEXSECRGmidnQd0Q3sVUAuo2F4qYnVaqZYIr2RYFGuAKm0VqKparCNhmKjtFRcFomSLITEClQqWbLktBy69yDWqSOmbT1RApUFyOe0EjQ9pzkZkR237G7qfwOBTEWTJOOzMviUtN29bAtuWOYI0rhlK01ZIEN0paCFTUM2TXzCufKW8EmvtCW7gdUSO3Se3bI1MkDIoF10dyckKFqWzBtHwahaiL8HKIshM63k5QjMB7zRLxZkA3vQ7WNb5THhs027MV8xr3QGF/dwEDKphXjriy0eDvhHjtSdPwlfs4vov/kKitb0NhAhx8tgFwpR9AP5MYb9Mb4ApymuOdvgwnUjkxFI3jDscsbEbPre325ADSuoWYZGON88Gq7y0PKK4xpX014dided2nCLePm/ej0DIxebgS1daIR9iqyB03cLcGFLq61GhtctR547F7Xi57aUaG8BxN08fwXAsqBJFK71ntqBvheBlJtbYo6wM/oGLjz0hgfAGRYIymranbAEEvDXINBPF/S4jZzAKb+YNqyZue1THavTgVaq2nBxuZafjSALW6KAalcrALT5K2TM3sLqhywyIRFjljiT/0HU/88wQlYFMxJViI1PARsLkCaTVdtfgLDF7i2dFpk1xZevJdk5qJstV/r7oAn3NSX8/TsZXhTAtgD1Td8O1prU6BVByR+HqZl+yia5iqDKjYR4OPEYRWjnLfnqr6EB+3e0merI1kjOyNASpK2z/EaHEV17YNbySrOLb/06rb8bKZ9Iz6+zrkWut4K/9at0wM0Y6u2ZyioS01vhjE+c8HvDlKffnnPe96D97znPZv3fuVXfmXl9u53vxvvfve7z4b37d/+7fj2b//2s/ff+MY34ld/9VcfNJm77PJ4JDpBeMOfjaJmn06evfF3DEUroZQ3Px37/ZHU5Ql1xoe5mQ/h0XE3ooC5Cl+u6Sb1A6ky+SoG67p8LGYIQItn2zvsNGOrBou1CKrGzloUEPoNtWyXerunHqH4M6oTsFTooWUXkdWuYJ3ylHP2TkOPUPoXIoQ/YFqqMeow0jTQu81+Cz9IBWp2Xs+bGJBVPRjIQwdwOfZB0kqrh9j8FG9odsuRy3mJ6qNj2XJqbxFLQOHb+e6eYYdce8hgzL+vqMKcvCDjyuB+DizaJsDtY8gwHUfzsDJI1izvGPcM31pjdtvRXqe2wt1Cf3SpZ85tPOxmQjp6lsaYgrRh27UdEUliae2VK2LMkUcvEQVdN/9jGm3jPCJyVfsxgJLfvKZVeRt+1uf+Jjw+5edaUhHFzfcruQPDe+Q4hnexy9MnrxY8uxOvuzTpelITw43NTd1fgJhLuqoMVBTRoD5My3nu2VVX3wAv2Rk5C67GIKoSkOwRsVa15e2lEALijrRQYH6s1YHAYr5FYIwn0BG1tHQrlr6hlJaHAV8Jd8DFNWoretI1QYi6uQMD+xUAJgPXWsLKQAHmYhqwrv1aywJcedoVCcZFF+tsazFTA6iAHqGquFfuoUwzCiYUnWDWWSdMEEAKZj1ApcD2oD1iwclKWCS4Ye9kDbKICoprWxSfnY6Ns6BN+7VVX9NYFYGbG7Bn4BuHxSZcAJkSILVPTSDWXofmq+EliW4TjkxBsIYI72RqIMWeGUFSzmrHT83m0Tw3G64BxoIfvmQ/9RzhyjPS6nWgASDJWp45GYDXlj8+Bogad6/dki2ScWtDjnPXWzPn/AnrxjMWyYV7Nz27JbKdl9sIg+QHsfUaz24m56FHeLu8FNEJD7ks62VMzC677GKSNv6BIFRVWx8V6DR3WFegkasNWKRGrLtpasHiTCexhUnRkz9ACzMn7mk7ocAlYnZMk3w1/tPOY+JYxjCNnKwBR321kBbHEwKUWlAXwjphfoDTnAUllH47l1pspZXangw1ik6HLMa5ZyqJTlmVkGNZ6tXFzQKQUoJAe3IGNvnM2rVsMCECbiYGls5fu9+PdQTa6k7GJfm6Egk16Nj8hbIAZWsLpzxoj7HlX71+aufvZQQCnp9ty7wbfnXtFFictatXJgeGa7YUB8fAEu+APcfHIkhgpBLmxzQ3wmrGTOM5B2CrNEsLL96cA2CBNgUKdxfHyqJwpY1xZWai7Fylt0LQgdtJDbVpusY+FLLSgjUzY9R2uaIJK2GEDdW83gC4Q5baOfrzld+8Lzm2qErX9EyWxHC+ShOlLRcDUCnu8srIjmkfnezE6y4puRx7dGNxANpcb2gKebY4/TJKDKcLH/iWGt3qeV3fU7dJ6oZ/zuFjCcJz7JBk7JHViEZRaC5BK9TZm0kBs/FVu16j2eGSBvKLM3rd7CwBRSlG9MZAQNCbOpDId4GRkYRU4n6oGZTinLDlQapCj5Plv6gtl1HPjpsgwKECVwDmgtCKkLrYJlunBeXOhHqYE0AXEdQFWPQuTjrjgBkVU/5UgUUnnOoRSzEzAgrBNSY4pGnIPbIBGiz5deAhkQbiEsgxnskfadSyBixoHGHI0N5T8Xcc6qVZpah8fYYXZEogzQ4MSQAEWqsDNDvvbCkRqAGQ+8XFrDSTrEttFhS6Da28yo0mBagI2kZW44y0u/OwgydURnC0AmCDW4wFzwm/Jva3RSaOTptx3hDXpfAv+n/AZ28bbucu7f6tIM5tmtuN810esYg88AZZq+d32WWXl1dilhJAMAX5pdEn13TqRibTO1ci3ZKXSVwmwFQaGxHf8rjUMhmngMWOdUY4HGBmMB+Vmq9BJAXmAPUfoQmbUQbWRBJQZXJyphbUUlF8Ax2p4klyjVfPu2SeBagCLQLRCYql5VWNjDbSuKz6sjQJ5bg0g0cEESaabJJdHXsL2G5sI0/XYE/GV0rEmV3YWfWiaKYEOnuw5DNLUJ0uZNyo7cfxSlQhbfA/Ju67vnmVcrRy3pAcAm3c55zfBkfIVuQ3PQMqSc9LoZJigrtTR+X0y5oODo3IVd7CPylENCvD/k1qjE+l5Z4nTCLgSAebBaPvuE8QncdMQgDsZB+70nAsr2RaA934I4fVSaDG4wTU0/OYJu3C4fBqroDT5o52P4lZTpITumySLN5DPpt56u+3MHr/4R6r7xij8/iM4+FnFH1Y4/vIb+icn10ejeyY9pHJTrzuMoje3MKlmhas5b+0ZvZcazrSMzc2qGsot7rc+tBjKvJMI2ChFKiDrmQRuZPvHqgw5OuAu1ZrnITsqW6kWzItjrK1IjfcYq3XDolViJBmrYgxb2EMVQwIG2/pz3emCgIAuZpDQS5fkyrGSasb0FZaYlYrShXoSVCPR5TFtWlRIbVAlgqZBDgI6v1nLBxPj0CBesRpuYtSFpTSNF+tvAULDliq2VBTFKhMWCCYIThCMHlaAqBziXaDptR4lX4TLQSYBjDBNoJYBvKfAFDQt8plt1WFY4DE6IHi7CSqeIWR54ATnhXVdytOwOlpjxnv3PxKkTPITLqOy4Ryc2YFTkH8CgYwNfjHcE+7LHfgCPQcBr/jZxsYdQReY7gPIgzuOBzlC7R8nFuOv3WvC0/76wdK48vgn8tsl1122WWXhxQ1E0gAzncMQSoK2sRreggM1TwngajayNEl7CRJY9CqtsZcQkVVYDaSSsMS3Es6GSvw1VXF7xlYQ/G+H8VWKknyxNKI3sWozxrpjjAgzTSB/0otqKpEJNpEcmBB22AogFhMe7sN+9ycTCx/mtYhh/5fh6InPCtGtsYqLMN9iuKbX4kzL2YqIJ5mkNzCq1kg8fqo/B2QTdDeicIs0NwYa2XvlbFai6APK37S4Gkc00QwsEp99+pxXi7dU/H9DS746RmwGwIcnlOuq15XukC4Codrx09KDi3p0o7FvpVITvdF+BhFBpuvneetMWZUywgs/Bf6Lj0PHRnKaY7NccO0XJYDuuftWXNg8nXcj6StlHP30XZrmDrTlqW2GZY27K7NZAA4CWjYvK6eQTeWWBGnFAYojHxnuu0Hg7+q/f0sKm3vvCNr6Zq1XldvtLbnd9nlSZedeN2llxoLkKlXzs5aB/C6QauMnaCO3nV98xxh2oULtC0rt2QAyBxm2Aoq6+dtxnRxsC0NTKYtngi2pUcC6GbPQ6RnZ36A8hL3FI3gwwJgSlCulYnFCCuWsjt6iEFClH1dgOloGhcxQxUgP8jYqq7K6s96WYpW6LE0pVnX0i0OHkQE8umC+fMmyEFQp4pa7LccCupRARxxkgq5AhZUoBwgywQpB8xyF/fKDJEZxd/dohNmnaA4ALjvNa1CpUDFNpJakPoRSNtQi6JU6rljxttJTOP/1YtNW5WJd5q7j8bzfLSykthVWH2pUJicGDv8EohO8x2tX7ndTxNpCxCJamBrWBK0KJYF3Uz14sBrqcAc92pLdhqmB3AibVdQVoOErao2I401UBsBEbi40MItZ5qGOB81O7KIBr9bz29JgrgR32+ANAZ6YxiKtmvqZvgcNt0b3baEp5BuGsvocOwytxHAeni5DutsupblBh+7vFyixTTBHub5XXbZ5eWVF+8tq9VHK8nVQd5Zuf8O7jr+Uu7QAEiEnVqu0eFrw2oRdmiRQYwMnkrrlJIc0pYe7lQSz6lpAYoAh2JEKsHB7GsVKAdptl69YzYYZB2emXAqqLUa1lOB1IICxQzbOEuDVPWkqTT7k0FPSrJcrsCQmEgtvdF3SzNQZsHR+8jyjcSv35UVwWDcTBEsYDrwhll2bRtxFe9rRauTrPGrvuZq6GNVmmZslq+VY+d3Df9WJOrYxSdO0f58E0DI4O+lil7GKV1R0isE+iKWvC8rf4AkNG6TCqCAAtdTOPYUoX70hSReD0EEvmZtWeelS8+GxDdS43kLuzO9GkFRslXge35o5i81Qx3Yq2qXL+U0BikrgC5b+0gMRghiDEHjhUjTHM+HfwqmVtuUN0yKMenaE7EcVz8OWKrkS1opJAx+O7KXyizduSypHp9TAOni4ndRgfn6Gru8MrJj2kcnO/G6S8r1tYNUACsKQrgnBJIpDK+KDpBuCrfynTv3btz1DJ32pUXMGloNZc2U8fQh94rsqboWQjelWZsP7hDqicC2HSWQFZsC4LgDpHTmBGCMmkwITjVPXMNAOU+JUryc0tBPteX/7i+fiR1771wBk4FglGIasqH1GsVaJAllLQYwpUyQqhCZsNwR1KNgKWJL1QSop0Om6RoKkQpZKrAcgTJDyoI6P4P7UnEs96ASG2oVvKh38HnyIo4iqArMAI4OgCYpbayhtsSusBYsgTsbo2guv9NYhRaIgVFBuuXrdbAT4Mn/e1EFyOjQHpSmZqVHpPx5FKuSdWmALIhWBlPwpC2LGbwPcwBm29WO89KbG2Abr1F1TxWYKc1KSUIlYERgh68XNcKbFwlyGAGKqqD7AsfPTAc3yHmlYACrr3n8MscmQ+k3mtjL1z6EmeUccQyfZjw7ti6rvGxI1BnTDur9c0mqrss1RhVdHNrfzaa1D/BCWnZ5HKIFvsP3S39+l112eXnl//vH95rGK0D28rkxlcR9rDMoZWoNrzNjSSoyPlPSkq0AYgl+rDuXPs7Q2NQljK2yvQAPP8niYgRt9ATuR9QIWFUb4OakcUS7COoBiWUQ2EMJO/lKobIULKX6tcdZ/LxK9quWRjHsmJqwaB2UAtAgX1tv1ErV+ruq4q8h2akWhwAopr2qvm+Bulas2Y9foFKTTE1brhKQrsBMIKSBK8eRrs0qZiezmR+stPRe2/tRdbu+XS3JhAb5lqichg2hF1DVMMpWty3DCZP8OjyT2oK68bw/cCPFMT679YDSi9R4YxZxmKxodYd+lP94j51W8gBMOpzFn5OOedMIzOuTeY7XElj6DLe7ASLj2/LrEuC0gctmvGzAh3HuShRtBNAI4x6Hhmarpxnw/UG8PoaFOg0sTlqsROimiQv/djW++bpOX9sPAj2fC2QKZ1YIp2d1CGfUpm3xWJ7OjSWAXmED5IfjjHSwO4+JOF0c///vv/037PLKyI5pH53sxOsuKVfH7T1HU80upNPsHPwBBCDPiI7NMLkJsL1rgTbNzTHoboptcQKSw4gOkJkR2Xi+JnmZcYU7o6FAVqVkujTKhJa1xVKtuA5UJoyiVAHMnq/QVG3kMZmiR9t5k8oEMLBbK+RgRKiFv6AuJ3t+WYCrK7fz6j8Jm1wArg6QSWyjhAJgg2mUoQABAABJREFUKp5cK48iZhZhuj/hUApOzxogrscKFIXKhMP9O5iLYpkqME8QOQKwWdkZC+5Pn8X9esSEGQcULOWAF/Uu7uIaignXcsCVnDCXgqoLqoQVBQNeYVEhsZwDbd7zwTnwBKqS78qKSqu2pXlRfPFAMJpiy9X6uQGlX7xGbeMxaUAcAUgWmg33T6dWI2INZDSgVRfFPBv5WVV9B9KYuTbiFULEa5gVcOX0CgMyYft1CwCZxmoPaZmTnr1Qw6xV+CQTWwmkxv6UFRsi3I1SyzC7z3f4lreM7PfAr7lV6T2Ev1ihyekeByr9V9R8MAAd07cVTjwxziVxWLFZSjy/4XXzuc6fbMQ/pGsV7k0TYbu8bLKD1F12+dyTv/HchD/78+uGw4KD5QZ72toFxHFBbqJK4GKrFQ6idMTJYRaq0/4xLGeb8QBAmKsCYjMtAE78qa1EinAi7cYyOk9r10pJLaLAycxIVXqEDLYiOvsCMQ030jqVKsBkC/ANH8Gwnlr6WzFI/wuIStpylvUeCXivmSQVBLkdgWppcUkL2y4nJ7oWI5+DCVSFik2iq9OvoBgL3FxBLCvzvrso0G/GRT+xd2A2XoHg+MIkQ1dbCHuFWYGABzf191EltjBE3ONwLvXqm8YGlNJ+i2clzI7BNzEbZpQlxiX0Stu2WRGfdBgqsDpa9W5+qcA7rnsYriUxK2Ia0UqBUjwJlgU2BhvfgCdGvFA0ci8AlJVtWrj5DrI8KtX1/h1LlEex/RxWjGKoz0bMilQaYVLVhiWaw29VWxFXK9lt7fzJ4C6+d4Ndx2a7ID/5uigsW/HX3g/jaoU0f2MYlMWRNE0lEXfncQUorFhZt4lzFfj8/+3f2bizy6OQHdM+OtmJ111S5jAeCaDv7QcqwFHXiBNax5s9FIFVtB43eiumC3JaF8gpSV7e5ZAqO/3o3rjnSyKmUsgN4hUQsZzZlD7Pq56J08rpD9thAVgLxp4nZ33DjAFLGf0vCM3XhhZLhmXXrtUa8UeYRQGp0Lman6pAXRxYFGhdzCTB8QiZpgTxuRHYdQHuXKF4OhUVuDoCZTLtgjqhHBR6x5a2LVNBEcU0H6AKHE8F+oxC5wP03l3M5Ro6+e6eZYaI4LrexYwDrnGFgooX6z3cme7gHu7gNbgP3zIBkyqW0upXkmsFtqEZLW9S0Aa4FeCdgVvP3hDb1jhhfGdtx1ISAnxhv0mKQGfN5UqhVRoIPWaqE8RoWxpUl0a69rPNmhtknWbXgI0fkbcLGtE6L/1YUmEAK7U7vWgWXYOZGE+ZBm27y5oHy+BfpO1PEOPE7pOJnw4AG5TPwTG8hVLyOECI8GM/u+7e8K6CfA6/8eZTKyE/9TZQUKKSk0D354QvwToMUUJR5yL9VNfSb1tEd0n7l5/IMMZmkgOHZp3n9w3Y+yz7Up9ddtnlVSyffeEEnU9Oro74k5rSUtCbk5KmDadAKhtIQZKXMUEu0UxLw3XhPw0gSsbDxJ8tvy8EMSU1LTWe14iSOkAFtLhV1Ai7qg12vd0Pe7CxAkg18JQCKCiukjnbVZogsDISs40/ecKC1HGsJcUVCwKGetqTwIp9E9z8ALQYriyO69RMWjUJvJyXqOLaq1kAng8IKoqbAZBc9WRZF6QhW6cPnXomMjX6ZM3rri5wljb6Y/H6sSJf0V4t7/0VbvGKVyLtJkGI9W0eG6wC61Q0unIc87YS3T6PFWaReBFaudNeR//8CN5Is1G2/AMdxrLhmOZ5txFYROD1NM2Ikba6qpvi4PjGvDJgFfgsfaiKits5bokN26tZJlYYPh51fF+RGq3tO2mgrTNnUG2SwE4dUxb4eCIeMe1WGw8omL9l0jMIWdVAp8ixRZoVU1L6p2e7YslnWhzhvoVZIwxF23MiXnJM9ISk+TN/sGKdBiOPbdVej52RQ/SqwOmzn91IzS67PFnyxHHSP/3TP40v+ZIvwd27d/G2t70Nv/7rv37R/4c+9CG86U1vwt27d/HmN78Zv/iLv/gKpfTJk8otqC7WGbVmEm25tBqZp7X71bpA6wLV6v4qXfv5cL9WvzeGD3XA1npuATyMCK/1Eqp9z6S55aMit4lXZ7XiXl2AZUb2rLXC14d7S78A8wmY5+Y/863NT12A5WRhLTNQZw8n4liguniZ2nmtdrRfhS4L6myDBK0naJ3tfJmhy8nyPV+jzvehyzV0WcxPnVu8pxNwfR+Yr93N81cXc7v3IvT+fej1NXB9z/J2urZ7n/0s6r170HsvAvfvA/eugZOFKfOCcn2CzAqZgcM94PjihKvPHHG8PuKwHHGYJ5S5YDodIKdnUJcJVc20QNUJp3qFa73CjANmLU4IFtzHFf4Kd2wbBcdRtQiWsPc6KRZpoAIw7YVGsrf6yyBNaYDSCaMxaVBfE1GjPVek01RRB2ZJgsUAyOtrY1EJOqgBp2UBkthFzBqL2XStDazYJlqKWqXbZCu0Wu8vtoFW2HNdYJtxzQ5aFgVO2jbhOlVgroJZxe+L/+IZu464qyIJ30X7qh5Ykv0G3op7vOSoAcP+Vzd+zcyCgdFI/6xUPl700SrFM4CRwUumRyitlrelit8PjWPpNxrIpo8rwVh9zL2iWZHLutHVrfbTHBJu6dScE3pWOJwGpO1X2jgCfdlAgMraV7s8UtFJHvq3y6tTdkz76OTTn76G1AV6ugZO9w3v1IbNDEfO0MBJfk9rNbdlwLl1oY6q+qS2OuFiuNMwLXV+AHV+ldy9t6q1+3WdZLTwsQym60jROusgo2aFnKpNSFe1jvGkOFRgOgnKtUBORpiWWYA5SEJaTg4i+Tz9mpqyBcj+TH0EWYAaxmQjxW5BNUgsDzRs5AqiDzatvOhthVlQNzGAuEcosCJMEACpfBHlHOQPGsFl5qm0BY0gUqlnTQK3acAij/5fkFqwjA5GmKnoB9ehiWvjmrX/y8xoI303/cu2Mzvo1r3BG6OS3v4unzh5GGjGiyHI/zA/0J51gl459AaVEnIhefsVhO7F3inGMlT4eJACHu6jf2UZqQD9/h+ZVKfeJSYTCBNGfY7ZfYFr4kaBS4tPGqzsMWNDhDZXIzlG0EVNs7U2ZQwmYauvhLPmQqh5IZNmqtDFzJh1xbCB20NBhOtmjDuSEqBmSbU1PRm2rJsoHsMs9Fvh/wrMnu5wm6v9rmm885ef/OOxQuzyiGTHtI9Oniji9ed//ufx3ve+F+9///vxm7/5m3jLW96Cd77znfiTP/mTTf+/9mu/hm/5lm/Bd37nd+LjH/843vWud+Fd73oXfud3fucVTvmTIcerWBph10me5k8JhOrqJ3yvNevom3lqxR30rMhTtJ4mCS3y570skOszeI1GPXNPnbBthHB10hNOfGpdnOScndy8buRoB8yJmK1EbnaEa09KCz9bKySfCVJ4gdTBbXZSlJ6VGAwEobssTs7ORtguM+p83cjaSF8Qwtf3gPv3oKdT+13fN4L13j0jbk8n4N6LwL37kPvu/tn7KC/cRzlVTPcWHO4prj5bcLx3wDQXlFPBdH2FshxR6gF6uoNFD0a81glaj3jh9Aw+O9/FvXoH9+WIaxRUKGaZcK9MuHY6FoBtCjEZnp+Lga1agMVBdWpuBHIpPjgQbZtfaQPTHVALbRRCGbGBWczyiwMpCf9hAzfIUwV4WaE666cOfGxi3rV+3RD+7JtnLYvmr4Z2qmpqnMwVaec1gMuyGAC5JkAyV+C6ihGtTrBeL5Lk6lwbyWok5nAOaWNIrH+LlzOP7xKMxX2s3TuMK2u38ccz4G0wRgAvAB2DuCCe1fJv41ClcImo9Fc4DqvW23Ccx+c3ufP16H/ruQeRPpw+3UzKroZPu6mBV0xiWdbD/HZ59cmOaR+tvPbzxPBXYMblZL8Oa1XHVNHBjPgtADEGnOnadQMxK4lTMRCtLh156r0fP8P4WeFxuDuxFbLUthTe0xLLlnGqkFlR5oppBuQaKPcV07XgcCqY7hebKK8FqIDUknAqiC0j1iTTlFazAFsJFW1WMLXdwq7oncz+bBJXgamor+KeLFk4z35xPGjL37NI3Oarab5GaPGYZEIKKQmHZqLm5loTvVcux+49oetRm01TAIwdAMIxTrTFXrAtgeL3jIR1GrZFJxTYKJ6IoXgfXrSRpzzpnO+d41N/D/FMgmp+Z9o/g8z6KrjMw0hKFkEoRYQ/zvcqbY7/OZoO+pwlcTmN2r9obWF2cEr6YMTnIewTECJflZ5zzXC12g72i4ZPg5S35sjGB9fXwOmkmGe7nmcfE1SkwkeYHuAmh+dmPHdtHgd9ExSka9fMjAoXoOYvrrX/dWTq4Cd1nXT9nCmQ9ATtrKaJv0AzXYsCz7z+DRsvcZdHITumfXTyRBXNj//4j+O7vuu78B3f8R34O3/n7+ADH/gAnn32Wfzsz/7spv+f/MmfxDd8wzfge7/3e/FlX/Zl+OEf/mH8vb/39/BTP/VTr3DKnwxZZmtSQ6u01+ysTqxGi9lNwxFQ9WY53c/4T2I0p+0csDrhmlqoQWgaaSpAcyMtVonnMg7yk/6cfBzypknUNiI2fnldXfM0fvP9jtzc+iHPZ9egcDfXYq3L3Pwvi2u7zk6mEhEcxOp8gp7uN2J1mV0j92QE7fU94PpFI2fndk/jd7pPv2vgdA09Xbd7910j9nSCXp+AF/4S+pd/AbzwIuT6BHnxPuQzn4XcW3C4D0wzcHxRcPhLwXQ6YpoPEBVMpwMwT1iWA2qdMNeDmxMrmPWIGUe8uNyxOocJi4ORUyn4bCk4wUDrIppajIvYT0VRfXOw6tcxoxzjFYEaOKNlgEj7Z07KMpJ1khQEzgHkzHFU6QSLCrMXGzPg4b+2e8tstltTgaVqA1pKS4fAM9qm5Zoz0gosahqt92vTZD35+f3FCUgnYNnP4sDlpIObNs3YUHAfZ55HrdcOGKG/nzabsE28jlqxPBPOyjoRtmmxslap0Ay9NsJRGCUH8XhuK4uXJpzu28orTXVeSpvsxOsuu3xOy45pH6189gVbiRQarLa6aIbOoc3q+NMntLW2lUkIHNxhXGYlaBVVuJM/Hd352cTG6MleJoCjo+zUx4bnwubQEsSroqjZsi/VVijJXE0LdlZM1xXlPoLVgC4KqeLKCIGDgIaPxEnPQvyzotPoC4ZlcbdaEpDlamsHT4FzqhZfCh19PRBGASokDAxg0ZJ9Pvtz+jdSA6XrhkR6VGJJqa6LW30aNtBGQxFGODuiiOJQsqvZl9BKuE9uxSQMV5IZXPXfxGGuwtTmvtnv6xn3c8+Qg6scdCXbAyCvU4qGrZ1I7nhNWWcgg4iykKGM3K0KVR3G9Ku0UynwK8/bShhxfJgq5CoRHiQpTrjDWHLt2ahe0mrYOrXa3ytOuuYQxNIiMPMCRrAa6ZrKGTWaAl51irSQELZg56VljbF3l01tx8T+PLQ/g9lZA5YJWB4XsMJENFWxMi3HFLUfjyyD36YVK1hqcSUSy+Nn/+LT63exyy5PmDwxNl6vr6/xsY99DO973/vSrZSCd7zjHfjoRz+6+cxHP/pRvPe97+3c3vnOd+LDH/7w2Xju37+P+/fv5/VnPvOZh0v4Bfmrv7rO/ZikuDlzhc8K27n4zF/Jhr3NF291ss1k6dpv16HKGIbi+rS4Np+33mdj2UpJs6MYbr2fcDvjJ2cx2Y4iwQAirdbp4gy1GJDxNF/hJ93SZmr68P/xXIWmbViON9Ll9/y99aUUXpkg4nQLtAj1dBVYaJOt3NRr9QahEhtCBMgo5t/BsleeHnwU8lPCrpjPvRwObvN1og3MPL7r+5DDEXL3LqRMKMszwDyj3DmaxsSxQI9HTFWwFIPMy3QFvT+jaoWWE5bTAffLhHKcTOtzmlArcD0dIFDMKKgoOJWC+6XiJOIA2TdGQDEbUyWIOLWNIxaxVUKLtg2VqhdHbC4cwChAjoM0LX6er02sfHizLInCc+3VAEkiqIaWrMjdkH74CQ3YwG02p6CdvaZlUR9L+dJ6vxfarMtihOpSfakN34NpuHaApqt0Pejqa11/vox+tPfTvgpZ3Ws1ULjJaa3BphpHEOLRbmwnTkdHbws3N5DYZSVaK+59ugFVej3ZRnCrIoBtuKfa+z/j15YRup1C1S789BvtkMvh6gpXzzzzaDL8GGXfiGCXB5VXAtO+knj2dJrx2RcrRICp+Py6rHFtrWH2Xhpe7fpacm9OazTa9Tdb2Fbw2te4jdHra3RNUXF0kZtKwbAPgLDlqgJIrbbpaJ28z3KCKuz2sxpoYEGZLPHFTcGElmdkXNVs7Q9tY9vIy85FxbvPwMEIEONhig8MqFN2ENRs1BrGlFDVVLPtXyYBloIT5lwtVKfFtV2lgYfo2jWW+tt9YRuuuSeD+VcJLVZ7j7UaRrOjgBUWo16oxmoU27hVoi6Ir4CRgqlDKjE60KYtKG0Fnfh53IMARQ0jHrRi0ooJFZP6Ghht4U2VltHTcQK6jbbAx0iVNP8B3as0e7tRN+1+M++QdZYq+WoUE+WLYa+2zlPXy69B4Bq8rSSqE+ej1OFRCneFCyjvgQ+82qQ911yhn3WG4vJE2DeD9tAGAcrl3Y17YiepMc9WIVuKCetwAxKolGMMUwY6pkP7e6IxNrDEiQ7jPn8+tF5lEiyLa5BLhK85B6MedxRBRM8mAqxeuPYrSFlB0U1+hKJHhuXPph9yZw1YLv4kVtE/3ylZcPyUbn6uZrrjWTM7orCVevC3VL2iTCK48wVfgHuf/jSqKoqbegg7u4xVuT5k/Rz9DnUmsSziPSqNOVr5BN4Neea1r30qlRx2TPvo5IkhXj/1qU9hWRa84Q29qvkb3vAGfOITn9h85vnnn9/0//zzz5+N50d+5Efw7/7dv3v4BN8gH/m//b/wf/qx34Uc70Lk4Wso9zlbE3S38hObBSQSPhMQuC9rvfro1l9vuW2Fs/1cn+CtdCk5X/A7PqoLtqSnb2u6rgLi588V1/li7GdqL6RnLadb+ruNSG/jqHM/APc+CxyvgPvPQK/uQuYFuL4Dme9CljuQZw+QvyqQKnimANeYsEwzdKrQaUad72IRxWk+YSrAs9MB9/UKf6H/A95Q/xRzUd9IwYFBEfzlQVOBoiELAWYDgbExQ4wReNNfEThgkzbgEzihFOjPQW/DvUOHDISZC3FQkHBMHGi5DabQHKm+2Va9r24s39ItvjarKb5Yx82KLjbjK1iUNtiqvc3Wk7s1W63DbDK/t4eUdZXd+lKHex3eZ7ft9GwRqDel/OmDN49QVPHDr3/dxU5BSoHWmsdtT/b8rfzeQn7gTz+FZ77gC17y85+LsoPUXR5UXglM+0rhWQD4+v/Dz0GOr4WUqScUbyEvC34FfAJU7SgHlOMdAAIss/UdQW5WdcamtA4t1qWjESb2bM17YZIIVZ1ElcYixSxuMlY2Ayyc6FrXGcnJcWcmaOPV2KQzO77aokTgnNQLEOSukjA344IdOwnSHIEqsBwtiKVU1FJz9VAWSPTdvlFjdbyUydZi8/hTEM6eYgWgBSK8DWdpGeiAmv0a6drIV7hGrKbiAT2ThZBv3kMSt3rAVtib8YHJNV0n/8XkvvlRTGgpjlQH8tuq0Zp++qKL8ov9a1Hs1cCr3RQPqBoxy6EHJ0iXPBTKBVuciK4U1kLwuHvGwpa8qZ4+zk//bNuSNN71GCNrwa5Zq95Ns44CvX6LY47A59LS0jB8I0gzL903xYU41KGq/bvKQmphZ13v2OIg5zSTmc9RvEHOiQi0ADKJ1YWo/gV2fxLoopgmw/5R2qeTKWUEcagAYsMsen1EiKpPXjTStfOn7LfPesW6KGKcg/G5uKa4lcIIt3H1Wx3PyU9sAhbka3/Pi97j/3/8+x/FR/4vP5q2nxOL3qLjeFjcek6ee8tb8G9+42Mve7iPW3ZM++hkL5pB3ve+9+HTn/50/v7wD//wkcTze3+4QKbDFovxkoQbxpfsRxWoscjn1S2vLoLHkLiOP6NBASh0nt1ebNi3VSBsjJ2sG5xmB2JVIItpzeoyIdDUggOWOkGw4CgzJlRUmVBwwAkHCIrtVSuCMsWyI20zpmIEaz24dmuAIsQ5Iz4HQEACutS0iMGTEJEK5ABH83nyk7BBIIUHW7ByipnzNFPQ4lJHZ7FxhO0OG4bkA1hFmSNtlbYBTsz6IjVXVPPNNAyZaGmXXUgudAoBRC8C0qzbt/B7C7n3CLXuHpfEMsmX/Ns/210egbxSeBYAIHcHMuz28qD4NTWOxFYIGdkbBhf9qNZW1dN9mK3+WP6/EWFon/EKIbuBbpikDSv1MLnhhU69KzTSELc9DlZdy/sbz49SKI2eHt0svObGy8gBNFajGHmKqijBfpGtTKkFUo0W1QRKQZQa9uAt6WOSOwLYpiqlJZOItUhx6pep4blwS+LT7bO22fWEbVCVfmMs1zQuHjqvycs8ej4Cmyk43kxxs2kaGnHtZuNEt7ObXCMzupbmpv0b75D3FoviTQdahj8SvCH9irrhnvR+Mi5Ze+coQnM4iE8ln1wXs4g4THFseyZNGaC2Z7PwI86E3qQt7ZFp1je+194/gKai2SWCEprxtnKJFGfK01RZFwLCZEDO17jfrkxgBKzVUY1qlOVndmHt+TK1dES+NovOxw55GeMDDMUr/fuI99WSqOknwonmMYZ52LpHx9UegpTW1a+9LnJ3sx5jWumncAUUDFYlAoveouN4FKQrADz/P/1PjyTcxy07pn108sRovL7+9a/HNE345Cc/2bl/8pOfxHPPPbf5zHPPPfdA/gHgzp07uHPnzsMn+Aa5f1JILhf/XJELjdcuT7foVqdUnIgX4FCcBFTo6QQ5HtuyuQrIAlTRnO0+LEecamkzxg7aTaegQLWg4ASFbfIkWDBDMIt19tcADiI4FUU5AoeqOAA2i+ZLd0QkQXUA01w5SGAie+9is8ttAwVHdKrO6DYAzCAuA3JzIHXs5Ak4dm5og8SGn3SFEXgyvtZIcBMGPzV2MBW4sXrahGDv6HZ5AuRpXJa1yy4PKq8Epn2l8CwAlOMVGgvxCIS0Q4W0JZHkh123gbsC8zViqbORJ8yKuGklmoQVisM9IVeCkazaMNnIt3SHzXC65y9JkkRkv9LT2j05poO1aSG5Rl0OAl2qUbIxN55RxYS0+kZQnoBg1oJg1VauQbO2peWNNWypqQAWlKCz1NxKIhg3q5ZW/z010kKZkpWrNqEtprnKhFOE1zi9hrkM+/n9Uat4GP8ozDxBK/pW1qu3JVQ9N+Ch0BEGNTFRSEam0r4BESfF1Z0zvtX+fr4DDodg7GpzqgiG/EBg2pkRiAZxeF5bqyPKVLt4wqwCmxuIODhf9HpbPrkARwZ3615ovSv54wfHCYqMTzylSuFFQYcyRCwzb2HE8vROnXRgIttEUTh3H1wbiri5MXMeJgrinXb5sghziTw905Q/kJrJXK9aWpufsYjPzRFh8APdWLw5+kGrYzleGYohnFiJP+ehYKv9IuzPGRT5iAjdXZ5eeWI0Xq+urvAVX/EV+MhHPpJutVZ85CMfwdvf/vbNZ97+9rd3/gHgl3/5l8/6fyWlTAeb3tpc4r3LLp8DEjPHDtpj1t/AY28bV2ezuWo7XhVoAcpygOgELBPgxtEFC+7rHcwKHARYfL7zhCMAs/W6QIxELUAgguo9csz4n4r66j9pNtSABOkM1rsBR0Pn5s+XHrKxexvMSDtPTRRLV+40BaSGK6OAwF0GMnyDLvcX4In76hgmMMCIGwpanEcEbixvy/EQ4Jq1u+zyuS0rG2lPgew7wO7yoPK0YVqUwyPFs0njuZZrkIwdCdsJk5B9n44kpqKTdcqBVsO0iIeB9RbJOrJtmSbr1PWShivQsxtjGoIpCaI10r6VjnPasoM/VcWkBacyQ2rZmEwOvCRejNphJL9r+Ytt7iM5wljH7ln0JVfsxLsooOciqVCyAytQLUnLpp1+z1PuRu9SkyzrdF/NHmS76gim5OvQk4ddlQosl6naEB2eHcIfr1XHcGSlSbsp4ysfCO6OvG2vZvX8ufAL+ZOxGmGbhGtFNSgWqKWntErTkhCE31YiBE2blQqD61e+ev82xjwmQbpqFuL7Qjv6p5/kN3167RmPlsYYQZhDm3kBYw6lL6gMTxqrSGUU92oFyiTbTczwSKc9ynmgJIfnVue0zTEk+9nGHcrpackevs++6KK+d8llghWtid0a3yRRfCZ+i6vfPlfGevY45SklXndM++jkidF4BYD3vve9+LZv+zZ85Vd+Jb7qq74KP/ETP4EXXngB3/Ed3wEA+NZv/VZ88Rd/MX7kR34EAPDd3/3d+Lqv+zr82I/9GL7xG78RP/dzP4ff+I3fwM/8zM88zmwA2PnWXT63JW0YaQBnAXTJnXrFdktI7UscBUUUxQ2zqiyAAnWaoToBOuEoCujktouA2VnURXx3W9eYhQCzX8+T4rAA82RasFM1G686+VIIQdtUS2C23XJ2ejCkHkvsRHww1QYIWtpgIq0qBSaLHr6omdZNtEeH0Jbt0IOmKbiFQEKPF8QN82uMF4AZrVzpqdjV164MpNvKSemA2C67fC7L06jxGsurHub5XV598jRh2kcqocUn1knaYP+GdiRVEA0kGBYYqS4gDXHSShpT7Yt190SijMC90ygd/LCGLmB4yZ+RDT+r605NzPMxhslno/+RCQmHYjZFlwJMKpilooisloamuSkNo1Omnhi7vou0DXJy/XuoRGaZaZJgpVR/A0G31EyiJbmiSGxuKu5mps+0rW1yjbjqxE6BYkFsoKUoWKCYlMlbx2J8CYGK694q24NFvmtZMTsbG09SmJea8PDPmqpN67WFlkRnkLgUUVdWnCqy+8kEZ0eaxjPEhjH5GdGEH1JY7vJ/SYL+lfiv7bhKDwa3SBenL3G9J553b4rPgTVbiWjMTGyxx3nJ1OCG87Cm3rcJpKcsjnDRrmBbvo11BFiTtksREbHTJLi+X7u5k9UcCqI4NO8nobmhfMFZCek33BriyXEPxRnZYTeg+6aCjI33E3HUjXykzdfRD8dP8TEZ3uanVl/h45GnEM8CO6Z9lPJEEa/f/M3fjD/90z/FD/7gD+L555/HW9/6VvzSL/1SbjbwB3/wBygEjL7ma74GH/zgB/EDP/AD+P7v/3586Zd+KT784Q/jy7/8yx9XFlKeffaJKvpdXm2STJ4DGB+cpBaDGzQ3cGi9rALQgz1S6uQQTCFSveMuyA0txLY1qL7wbIJCcUDFApXFyVjXcChAWQLa2I6hKoI6KVAF4h3EBDMlkECmCKQSSi0Y1sMIWFNDRYDiu5B63tuuodpMETD48GVNZoi1lV0DB4IlbQV4eYAACoBSfPMHX2Y03g8gO4nvnYEGmvtNH55OALDL0yUb468nXvaNCHZ5KfI0YdpHKqy5etuBbqqCCUzbUshtw5+ASNcNP0B27FptY5zV/XietfVymUpxwlWJHD0TD8VlG4KBgMEtZeQliJhSVdQFmIuZG8gNhNhvR4YlC5YEVGQhbb0mG2aRaEzYo1Kyk7JqHJoaxjO8ZZgs7Yr2bBpiUy11MNfI2xav2c1EkqlxfwLZkXSylYnUlvcg1NYFqiJpfqArYGmvKwnToTiV7vWvpuVRQSSTNqKW/W9Ta2e21Yq4eo5x/ZR2ji1lxK4F+Sbsnx7jVVjhoJXMJwQHyvwk++dw3S03+pINf+rfqxdo1KX0EOzh+CJHVm9gFDUy2xnBtQg7sjHrF9WVSJe/uzNR9FlZYjNeS/N0EFSyLxZNijqR3IowzB5k85X7YWRyhiwEsVlgZGezotzi2RI2EcA/6ECacnF5PosND+G6OgD6oZhAbeKHXlkOO5XiivBgiw4/Z8Y7T6kW3Y5pH508cezfe97zHrznPe/ZvPcrv/IrK7d3v/vdePe73/2IU/Xgcn3/cadgl10ui9Gc1AsyCK41dwhO8nWp0KIOnE3bVRCbUcVYo6KUiqrSZkRxhRknLABUitktLcA8A3cUOIntAnsELHzYDqE2I1chIpjEl2n5KkS1nrl1zRogcwRT6Ht2AN0MO5fHaKcJmYEMW13jI+xjaYdK2kYYpdhmyQAt/REDKUvD8g3IUrLCe/EBUeSx6oONy3bZ5bHIU7o0a5ddXoo8LZj20QqRpqOW6CVxRsH6UWbHJNg+8jOSns4IqsI6edKADcahqHfEGyQqJ6Kz7yrrexkux4+0o2/pQOMXuwwOYYqsnPLBSKoCegCuliPu6f3O/EsQKqKkJezlo7F2vRVcCzvZG9ngRBrICQpLdELVxVcsBaEree6UDERmFNiKn4nAWmw4CqoOk1TfYAsZomG/thFXkDnNxisw0GeRazCbapt3cc7N/FYBejukWxLp3PDCdk+T3NSBqBwfZDjO5CmX+0CU5muhtKwfovCH9MHTxaTyMCpYk6kSOFlWZHQX9qpQ/DltnyIXQpKxShekCiw1PGDNJnbqpBFXO3IsrGgRwfPmW6GwkdqszgqqDiH5Z7FlZkmkr3tadbMpMVMGyPybdn6fvRgzjGRoHwaVEySb045c1fWzo9uqWOkY45NFew/BZ1cfXTY/2dIAslZu5tZpe9O+xyjL8rhTsMsTJjsn/ZjkdDo97iTssstZiV04DaX7Mq/caOvKetB5sU5SAJ2AUgVyAqDAgmqk4PUV1IGIyAKF4CgniBSccOVLThYH1gcsKriGbeQ1CUzzVQxALxPSxmuBHRcBtFhHDnhHXZypFYGWRBg2AzdJa/XIqFeCEUe+SZhSlx/gWiZHtLU9p0rhEa4T8QnRRLzNflOhsVh14DYV5GAhiFQKtks2PDuZ75f6snfZ5ZWUp1BDQMvD7QC7awfssssFSZU3YJOVOPdMqIKNpGv6Kec7zs4YYrcYva38WdsE2kpIi39UR0uWY3A/m5YhuZlEDyPzC3QJHten+4ZaAUtK1yYbu5Z8CIez2AMai4UFiBnvlmxKB4AAXLzhU6I1n2iPyBRA1YK2gVH1cI2OrZSJIrZWqm3FZaFWBEHlG3dJQVAjtoeS5qIo9Vj5TUdYUYTNKBX/Nxm5z02RDSJMHcPSa0m+fA0918FvxbfB6naajhHm+E43gu3r2Blt2g05E2wf70AWZn0dI64xpzHEnmU5FGqEv5D9T2EPET+B5k6Zom1KlnA9jsqm1/xxHycwUcpL4lf5oTIQ0qhnrdUu/D7Xm6RtH3irT2kaYOWDikSR5O25usZFNN4Lh3Geh79GPt9KfdOHlu41Z1UZE8NpuFger5zIK7R55SstO6Z9dLIXzWOSaHi1+xuv+c4uu7wCIgVSJsQGFjJN/jvarsXTZPdLAY6T9YLHYjbUigBBjk62LEvLQj2zbWow1wnXOuGkR5hNriNOmCComKVggmKBa34WQEUxu8LH7KDNwLB17bUAOkm3LEsBGzw4CtHiRGwMCEpDDMpAx5GLSGjqimuaSi4/DHtivOQx3QJG+HK3LVtNNt5itJlDEwcb/VK5wGhmOk19uZzphkQ2iud3l112eeVFiz70b5ddXg3ykmr6g2i5AmiTnAIRGuaMWqUrTU/qpJO9YDJmIKEEcAPvyJyx2YFkOGqLI+51BPBADOeM7SCxBP5cWaRaGoMPIgzDZJIIdFLUye22LgpB6QmYYHBE2qoeLxPGQyndtXbLvjfJm1AmFnom8VPbGksT7ZhfsgxrdwW5N4DZwffNs1TSLr50m22Fe2Aw+3kJuBkCUDknNZQEnMO9hjXjNY8Eq1+MRWXKAoMbYCvHmMii8ulw6iqSsXB7PwJ09mLbHIZsPobwj+71rAKW8b0SKdnch2+GPuUOsg5kYSvfFpdEmoV9WKAdWcqJCJDMkwEjM0nfo80DDGTtkKcYF4zp7oooxgOFnok4uHxKeymqQO1W6zWPofEa30xsKijSnqUHk4Ad4+tbBDlzb026Jhnq4U7eBNyk8D984lw8AJHdLOwiFEcGsWJlH5/oPD/uJDwS2THto5MnztTA0yK1mln19VzipcYkOpqVscqUrpHrnrnJ7Vxc5+NYx7Utl/z39wLYRRPv89LdegoOhc6zI/Vnc4nYpRTF+cOKIJeSVYWh1KGXKI4OOX/ZgwKbJaTx3A3JTXCodJ9KNrQ6kgmMXpIRUJT1BC20eYUIMN0BjlfAnWeAaQLuXAF3jtDjAcvVhHpULAfFfJixTAuWaUYtMypOQInl9WaPC1qxqEBrRZkWnOoBJ1FcQ3ASwRGLmxywfawmWC2YJGx0KaZipGwRwTJZfqSoEbAHAFUhEyBVIBXQyQYBqgbedCoQ3yTMdpRom3phMjMGKOqvVYzU9c24pLgd2VgzkzWAlhvl6xOUoqjVw+y+WfM4FbPnVCGYikJrs0N2mAQ6G0gv1Y7HagTz5H5mr0eL2M6xPCu+gGfWEjIhYGX4LHm3+WnTPX2d3G5NFG2pYP+d9m78TKQivgvdbCBUpfuUGIzavTiPJiA278A6sK2PJz+T/n1uetryk4liP2N6H71calv5Ghv+Xs44d9lll1er3AZX3tBmBG4b19DGk6s2fow3yJOw6UrrRfw86L3WfgV+a2FpEKzEXmgpSXY07MSsgzTM1JEC0adiTTKM5Cs/K+35riRUnZQd8C9r9wI+yexxBzwsZsZJFcAM1FmBRSDTuKy61wNVMRwnAGqsN1dbMIzi2AiG89RJ04Yp4P10wwYS+DfzWD0vbUpdVSGFzF3FKipPiwqSQDVY6ylQS2MzC9ByUgXQavq6i9cxX89lqdD2HITtYA5vwe+F39iYzOFnIq3Y3F4RpqHQQfVKrzrKNib6FTSsAXqij4cOXd3w++SfqhG/gkzDWFW10nBD/Wuh15ffDIXVpWOIowOb4z2g2xuh/bQdKeCsU0rXneZ4Jtzxfu/WHTlD7IfORRsSjgKL74Tfi45hRz5alfY0uSpVlP+iqLVimRXzXPtwpX0iXWvHeJNRuniJaGu78hPL5lQ3w9OhKKI+YvA7llecRj2fAMwcDkH7AqvvXf0Gsl1pr9ow/6Q2hol0TAAWb7sn6Vc59mIhb449uNgudUTdd2on49wYjz922eVBZCdeH5O8/nV3IdPx1v7bhP8wlB46JnEAYl5bC2NLvdctDbc/vVIB3RkAsAzHmyQ3WepavAAz5CeBMmBLjBQiU/OuCzpbWapQre4nWsXFGsRCgLuqc42jBoGXXxK9Y5d0y/yFhmgXMoFg73Al0q4VqDMUvtlCoCuttC7d/KnWzIuIEZZS2l6oUQ5huye0NBPXCpWrP49imqxu/d4zIWZ7cTpApkMD71DI3WchxzvAwUhZffYKuHMH9c6EetfIz+tnF5zuLjjdOWE5njAfTtA7M/RwDZSKMs2YpooiBYojpBwxyx1M8pcoMgGYoDgAKKix8VZRLGrarkdfurBcAfU+sBwUk9vcqmLEo0Bcs0BQZusuSwEwFyNST5U46uJoYYFRlgDElw2pbXJlgLJ6OUVhV0gVs+Pk5K69Lt+UqzTUXQqweOd8OCLrl1U5MVuwUOjBNVyXqC6mybpUI5qLo/NaDbgcBDgVYK7AFYClmL3ckz8XGrXV60CUiQ0WWv3utE0cJQnMTwMZkkOi0XuEHSCqgqwvOQEZFpkc8/UKR2h1LMeu3TeEHDRJurRvvx+zBtjSVQjiGjDcbuWOqOmo3VNxLPkEpZNjyOuIuQ3yhJ591NJvJKKoGlrT7V5oCsVAM4a0TG6/lDhvl8fmt0zTg0f2OS77DrC7vNqlHA+p/HlJ+wkIMqDYhGanlUo9THQyRCBK9imETTuMAwTLmLgweiABRKbExg0jC1CmPp645z8ppeG3EUcWcu9I02iAY1MtNLyX4aM9l32RryAKP8mEyKC9R+FMso5bNVf62OofW/lTjz5hfQQCXhctmOpkq4wO2bHnBDTEtZii2FH9XkUz/LnY5qRk8NQmn9s2OvyG432C3ydizwDbdDT6aqEeVQMLa4FKdVuvAqi0e268KjCwKfoWVFXUIOPV0q9aMYkAqKiIOqRIml5ik1XDl1EkBdqIJG02LdO6lVfh0GnI74KYrVAGSD0If58NS4St2VadnFsz/wojujXqi52PsCbLPMEYMp/xUjNpEXZ+S6D3M0irHr32q8Y9yfi6tCj7QUC1DEe0JcJerRWshNFQfi7GWJTPZgpEfLzV0ptjsPRDxRI7QSG+GcuDxjC0en2A+nt1G6lhhVgF1XfIleLapKmq63XRE64+LsxhvNfVaRJcXRnen2cbD4ib4yiijuvF649k2Xacr8Q4oo0DovSpyNIERpiQVm0mMIoXX9hbjTiiykSQExV1VeCoiFFTYui4F+8sNgEL3RfVtrdFbiImbSIDHobvp4yqNg6KsCraNwgfs8TYA2hpzm+IqjNV2xZ/tnNMrrJZhjbW+F/9b/4WnkbZMe2jk514fUxy545v/+4NJIORaAqsgZy8k1BDSWMzQSQkAjSkO4GxujS3MNifDZODyyDhOB3eQSWJB0WnTeqdmEhJctfAdGmzpWI2oUSc6JPiG6wIqdsZuCll8ixOPYki5tZaTndO0jTyXAaIIMAUaR+ldX4SAC2CiZnP1XPRKTsI1Jpgj+MMoB09XAIXgb2ncqDyjHflhEQuSysoRWjtSYEcIu6YjUUOCDIFCvCCrAhXyoTUAkngHttMOtkagwQBcLgDOUym5SpuWuCZu6gTgDsT9FBQr4D5LnC6OmE5VugE1IMCBzUzA9MMKYsTb+pF17RN6zThhCME97C4rbCKYgMEdTMCCiwHm0nFApwmAyKnSR0EC6rYICPAAypiWhQ6RTH4+62wlu+k5kdhxlVREx2ImKarJaB2Gssi4hto2XI9VLjdV0vXdDB4Mzu2s908JXf1tKqh/gqsYy8lza4lcFcBDqV9BSd/twd/bYcCnHz8A3USlqpuAIiaQAEQcW0PRQ4kBL3mRVScxatv7jaKhlWr++NaH3SaDvcS89qnCN9TrH3d5zG9A18nEtHIxOrfWzQfEUgqLGir4vF9J/hFayWi9ei/3m3ZakLG5xwytq8vSGy0smPgG01NEt3SlzXfC7/Nj+t+qWQcZUiVZVla+qK5OZvLM3nPZ1ubLB5Y7UpQ1wVK8dsHOULdJ192kLrLq12ujkdcn1pr3NkkjEZN1SeO2zLyNOuTHhsG7gLwBljarKDfKv0mVPA2T+g5oQXP6Tfu+6Q0EcCGBSNd3okH4ZrPU3jhPyaVoq0XQXEQIAEGLILWIYQN/eL+2mwpYUPpnyseSZpQirwETBEnWj0tpRhBcRTUg6IeFHoEtITf6Cds1Y2ShqqiQqVCimm+isDDVdN2DQLWcQ2xZ5RdAy2tWwiCVm3DLDEi05YuVyJkayNAs2DtqEmwthWADQUzkS/tORHMWnDwsGNS1mhZQxOKZgOW8btp/VpQRuSKYwlNN/UHI0WTF0l0iR3eoH4y9X0VNO6Rru/nR/J6qxsPvDF2xRe6XRn85bN53rY8Mz9+PYbp4Cu/Px+6ctXgKpJuGI5epaKcsryGVDO5dlMeszAYvPIGupFeuIJKao4SWJ3E2XU0YJtVy+qIEa6aL3vcPEvUlBuakqwbwfCmaPKdhG0Fu2JZpCNWscDrYsOwMUEQ0SwLcsKhNGeqWZb1qRBmpizFor6qbYgUyiBw96izUa51iCvclOIq2rRe8zWot1nacHMoOaiqbZysYptwiY+TpCkSC5yglXwV3SZ4rSWL8m7N6YBcnSTmVgq5p4hAcjVmcc+qwLOvfS2eRtkx7aOTnXh9THI4Tj0ATTBpTYEAaBqSbZCLIC99ZB7g1i4bNBGefefrjnzNprPdC/Ca9xweZ1DS0gFyS41aQWgaiASoFAgiL44Eo8XPJe5o/rMl9B6XAHXGl1JbeiNvGiUSPRv654msttn0VvbdUrIuPm15T9LZyWF/DxJlRgZpVJoNngyjSANT3jOKa3lKKdbpS0EJDdjp0IjzAOmR/njv+b6zN2/nbq8VUqDTIesJhOpVmeCMoV1PB+DOHbu+OgAq0GeO0MMEnRTLUVAnYLmrqEdFPVYshxm1LKjTDD3cd1BegWnBYZotaK0oWs1kgMxQNVXWe3KFOzjhWk64IxXXi2Jy7YkjFsywoigKI3dhGpZz9L5FUIsRn1UAmQRSDdVlFSu+LG1ejHgr9lxubsxV3mutFjWidvIb1aH2suRgxcjwagCpOEidxMwDVDXy3KtNmcz0wDQpFgeWk99U/2aOk+C0+LIzjzo+i+ulbagVFYFnn1WBU402Jb6QIOgbkDoosGjNulk04XKvCSsDiNFWzaKqJGAZno3aWEDL7xxoxWfaWry18Cx9NBehjDB2XImBJZvGHKgp0Cktd3hA2xg3Y5OWT55fAoHRSN+KjI3y7K6pJZVurilvCh+pPHi8zXF4S5uZEGlxAA0Ac15D84DjiM1GOrdoPwdNWCmtb7I0hTY0IfcMj9JG8a7svT0lUouiPoRNq4d5dpddPhfkzjNXuF5O3paV3DW+CU9AC1Br2zwnsSn6ToQ7h9BKDakLUIpNPJWpeXQMlSRqxNeRmNquHa9JTKpG+oMoHfEup5VwdcNikQ4Zrgdt11IauQe1mdTor/wo0+TAIUCKa7EGG+IkrCb2c9NIBcDk4RfDFrWYTdd6tMlxLTZRjoMVwezvR6dquhHi602KxZPGhyTQV7wgTfMCwcQIs2zpz/8TvjJC03KrlHdzKa7Zp121EL+wp2uDvSJdmpL1i9eWKREs3kfF6MT2GrAc2m4DhigKwrwCUNSItdTc846cRlE9DkLT/BNp/uKXz7VX14kpKLQO28YM273n+PilPrYViXSYQeOeNH9CGpWmuOm4wD0lCeUqhbGMHHyMzPpr8SpicZFZg5F47fKhnCcvMKVzBpeRh0r+mTyN8o7nVs1U89tZlxIxZRcJLVzkiw6t6FV44uMKxGqymgpJpQDLou1+AbBoI18pOZksL8+lmjIH3DRFmNuIFW+lNGI20lG0x9Cxl0So+XCdCUUM1ydpdZ7q8Uhu8vsqwyuiT9TIV7QmDPm8tLGBP6tBHhdKOGIcI6kcovB6CHTfQoQT+enHBhx3n/5wd92dDKdo6w6iPbp69lk8jbJj2kcnO/H6mKQqfFkDgKlYg5OtVbSwOUS3X4nZ9MYUuY6fY8hBE5VBapnWPXO35CZAabTKBbmteqSpPUhhR3yc1niOyV8CvJkGCotbZu5Mu/AiHFC6PQ+F8073AaztYYXmQrTGrrOVGr+ef+pYM73euaq49mgu1QdQ3HRE9pTxGhpoDgCdYwwpCWLiHcrkGhQawJ3KcbJP1mwXRdw0OIhyqAuVR7H3fzgOy3ypnh2PkEOYvqjQq6tGxB4OZmLgOEEnQT0A9VnBfKeiTmq/Q0U9GPm6XL0ITAHOK6ZyH8dywkEWHKVCcXBg7tqtamlcMKHigAUn1DJh9vX+12IDtGVSzDBi8bD48vapLVFBVZSY6S1AnQRlQWJwLV5uh+IDhWLr9QNBTFbntapP+WoDWAHsYilSEZSDL2dbFFIFZSpYdEFBQdWKcgC0ChYoZFEDD2oDoGky0LMIIGLga4GTqq70zcuA5uqEKRGI1oY4CU2fZ2iGLv56jyK51Cd2900NmRhOCVCibnuRNSUkyeobWC546PhE8hPmZoE+Yy/avu7Ts6lgTrUzPptc6iSm7cvdeQJNtHSP2He1sQUBNNpjrSNSaW6iJWq4l00RpxkEUjfuje5cduxvFML+I8fZk6Pkf4xvy21CA5AhJV7kasZaVum0cpeuCQ96xVs1KNr7yUzssssuT5VUM6zea3XmyNpbZ153PQWukdYJAGjqXeKT1NoTmBH2wWgx2wypdBPeaWoqGnAmSkFu4/0Iu11kmG12a8PvObcgb7OhJxMCTMhmK9nuyRiOwMiU2NUmlhsX2Oocmn3TJGSRdl3rBMNuRYGiWKYwH+AD7EmdnYHbcfUkOUlZoVCpUFm8SAwjNXME4SaAVIjEqh7dnqSEaZ1GH5ETeFlt7GLRApHarVKxrNoEvgCuu4oMq2RyCioWhEKFZkILFAtRtJJ9lNmHbfZiW99mK29ivJUhUd3NJdZUpcOt5ahVrU6TESN2kc6/BLhAb1AJ5GclHmBwgiPpyhGOmqfJxDKBN2CbVg3GFXdws13ShZtpEAqLjgCgqijBmStMgSLAYtdGhB/N40UZgaHyNX073RvoJSc4VmCOgKzAlDw43RGFz4ir+jgDQBLGAERsFVotiqKC49HCzi0pfMg3FUHx7ypMCdhwSfJ+dQsLDV+7AkYoh7ACkDS0xtg/SoKhINfJURFjVeR+Ly04DGMA0PPsP8cWlIZJJK8nrzDsR2GmFQDkpnqItFL44/fG45FMirZ70oq1lQGlUZYFu+zyILITr49JXvMaN7AUswIFyNacZ+fy6+6GrsiHxtZO0LeGHcB0yZG2tFYpe2FB32L5SaEWa1hGDw9izSIQuMy0cRrG7FCaMw0cxqq3G9Lj4QbzEUvmc4OFRgp0IgFCDq65Gq10gTF2no5cR1HNJIJFngOD0dyAEaKUz0BxWY5TD66jaFzbQioBxslhZyxrC+JVI/8CTFNbGqeKOs8GNacDcDj6QIc0nxUWxtUVME251A0CMy8QcR0PqHeK3weWZ4DlaGTrcqxYpKKWimWaMV/dg5YFKgu0zJimE66gmLRtlCUOpotv/3SNI670ZPaLUHDChDuocAoT98uEUmcrk6Iok+CwVEylWJGqzRLLEZghrVErZqJgmkHMj9gSplgXcwD05EVSBHqwSRANo0Fhr0m8fgZYcXStsfRIYCYtNGa+TXtVimlKVDSALr4cqRAKPRwtzHmGL7FyMladGxbLQwCY+/QpLkqEKtorLrWf6Q37ZJFcFJs553mXmjhb0ZawuyNpeHSAjD7XVofbMT6BmMTvSFZp42WleyzR9MjwfHzVHdmLtuQpPqtsmiLALYTI4bBIO3CzWDe8jc2m0MWZKLcB3flkXL5BiLjENVqTU9g/pWsLjK4Tun1DIi66zvC47AIdC5oZlqdIqjzksqyzL3iXXZ4M+bxnr/BXn61okMbxA+CNZmyVUtqMl5IJrJR1o2hNR8Nl3W7s0ehskbir7bDteYufcCMG7VQmRZlAlRZ+miaItLA/jjeJU0EQqhp4MtNfWmYKXUfHEvgD0nbWFCSpmpOj4S6ATv5z80L1aERraL7q1Gy21lJNw1WAMDmQNowANzVQzXxUUSThiuHHeFfb9dZcm03Bw7UqxetK66Bi+bW9Oulwh9Ci5Iwuikqrm0pAkqoHf1/B7UaYCkWVWPFjIKOpX6inM/loT4+kJmxLgRHThYYvrKvSTcb6JHSEmdUksVfrMyWWlEc98CFJlKlGSSlhEN0c5TThtIzXSsese5xQyUQ2hbbW2Utc+qsXBwId6cpVBANWiUJWzerThZ5gQpCBDmF2+YjMdZVHKDH8jG4D0K5crI5oqo0OhSVI0lUOAj1pA7AdQNQ8F2mkpHizJNo25j0cgHlW19sxQnUJWwBqChOBj2u1+qJo8zmj7lDlJIOSR/54uN/qvbuziregsxqYZsWAtqEf2uRD2GdNo4kCsGI3V78xnYnl4zVE/O425bcrucqOV8J1NMLwWuNC4Jq45CfGk5XKg0wQ47Vf9EV4GmXHtI9OduL1Mcn9a4XZ3pzdhYFgtIQ0vDfmB51R8GSEqEXwoFoHBfSoR1qHk4BXWisGoCN+txATqBVLLVvWdGhg1EjJ/lFLai5WcYch8V1LGaKtjEb/Gb40RMBg3MMM4NTZBgqNCspukGcrWkEAkWPHFvXzz2Pa6d5kEaTNSSIgxMGAdXK+eVYBmvkGMTI0+2vbWMwuii2140GDCMp0sF7xzhXaYCN6djESsRToQdpApAi0iGndwojaeqcAB0E9mHkBdRth9eDarlPFfDyhHhbooeavHK9xLDMOUBRVlKqQUlFQMeuVaTA46J4xoUos+SquXeEz/ioADgaSYZttLaWaSQHRnCVWsZliC9KRgGt6iNtYFbVeX8Oi+8F0G3TxOqxWFjIZeNJQQcUCVCNMo+ysdhSzaesgsUwFtVYzTyDFX0nb1EuKk7FwTleiGoSNY6Rm6TShA6ynqF4K3BXgem4AYJyRdmsV/ecVeNOrXg0gNwAusx0saUfJwiSgiBXUznjjnlLdV+kHAsoBkfAyt1jeEzHErSSIoxnkFAzNADuPBCeDvHPuox+e+prQpyEz5unb0hDIJvYMtud0n7sPrIF0uo9FyuVD4Q4tZobDcZ4Lq0/Ime4BBNyzTWvpqE+hhsC+LGuXV7uYTVQ3n8VL8INI6VrW4hpXoVsY7tSoeEMnw3VH1I5kaa5U8iATYznuSrf+uWZ/lR5OnETHzKdNhOckEpsRiLww4cpppT602ywr1RKDdG3+zfy9Pximi8RJ11gF0+AUakwqiw+gxbVb43ewIyZFlbDTatqvEDdDALtWWWBLiXTo/LVpu4491qqTabbIs8xBRArcDFT6b/bLrWzs3VYsiU+MMCX7th6GoPjqnTBmEISu5tLl7IsUpt1KrKelhzdrkrRLCaDbcCgszPJkYxzZPmYO16hEOkyidN19Dm6yLTpkJ7kiTMY+jL8w3qdwbcjINnNbRy3Aio+MCOIe+xFnoQSWtqzCoLg3wktt1o305XcffoPR04YqLdWC1JX2MkodYV69GBElcPLIA5g4w5vVbMRC4a8S2c84zjMrWbiRhNDUh39XQ5jhUYAyAUttYxlMTtaX2H/E2sEYI+TmvxLfjuZ3UJk2yKT3ZTde8LfYme2iIsuxRl9lutVsnXpY+PVvZ2WigMBoapYzZqS0gML1Ktfm1vhL1eYnhoBbMn5q8R7FNeg1X2z0Qa0tUJC5BgDL/RfPxPJky45pH53sxOtjkjtXAUw3XkEALp7yacyNe4oZ8lV362EAkH43b75pDRO3rNFVRgtITVbHgGhLH6VXMXmjSU1vAFqKIZp/GZFKICEmdAGs8uWdTGgNbOWtLU+jfA1pFg4/WmnKj4xTgCA/sQlWtsZUhgyyOxkGDUlYk7vvnKvhrlNfHsHYMWSyadBeG0PQawGzliv50yLQg2ldKxGKKJJAX4tAj7CdcO9EY1yxHKoRrocFy/FktsPKAp1OfryPq+mESdTtufoKOQCiigmzVzUDrgcAsx6gcg0gbEjZr9SEOwmKT4Bp0iKAjQNi13ItCt8kAvapHABdxOctFLkeLNQ/C1wl01HEyfyIIu2lQRfoKV5zsycmpUBLtR1XI74AcQWYDgXL4pZWffDRluEhr0sJ2042sJgcBekEHMRszdbapmqOk2nDdiDR/9H+eU3D1AFNmCuYYIOyhcNQpCZOaEk2LVh0YC3eRQwKwku8rWguOH1RHZlY5ZvhFJoj0QSy6Wd49T7zhaVCUDdj36Wtd1ulD+sWNdNF5+Ev7neKnPRwNm2dAzV7G/ng+FnbF9hoWihtW8J5vTSBPeb5TDSrNI3+xvR13RSA8jRqvJaH1A54+opkl1eZHK6mNgE8NljeZ/JGoYYPw9MGUu2wVbiVdcfR7V/g8SWObS16rAbS+B/EMIQ6FH4Ga2yFwLTeoA+Yqk+XrH+ctxHTT967SHtWgUa4EuZlwqf9BHCt1SRYXeM1j6VhJftVmzAPDdZSjZAVBWRBbp7l9E5yYDBTAoEBJLVl/W0O9sFHabqtvSdFbGDlO777WvwgRIJIjUyrgz8jVIVWTSmutLaVN2j2Y6P8xMGhppXL9moidUnA0hBonPlUVVRlIwYuJRdM9dmkfj9rvTS8dg4TRAIiPUGEcfCGKeRsOBmnhN+Wl/FNROGFfdf0tDHUzGo7hGVV0sPSHvOMeKilfyPtAlMICTAaTB4930h9An6xDp/jqTT0YpAI2JgnQSfnVZGmAbsHgNhUK5xScZawb2xg17HaEvug+DuJTbk8e3a07+hwENRabUFnbfi+awo9iVkvpEXHZG2Luz3fYfzash5DwhxLIJvzLFLet6D22csiTpNetAovJC2taB6yTh1KK0ee0Ijm29IgpCBi/xWWMCmxkTCla+M8+4Qu7UYV876Pudou2hUF7jz7GjyNsmPaRyc78fqY5HAIsNbNEfWSy9lJmEzl9ZxoDXaAMgmQpqA4zH8hcFprbWCS/LQ4o5WplOZwJ7/ndqnx9LVcloFNUOR8GIPa8EtP2mMBwTYkd6VlmIVO86FLn7RnVuttWeM4HCP/jKZySZ1upymftmVNudEYx0npyB11A0xnHKWlGeKamcNAhxFPSEfKClCKAdWDAJOZMQiyVb3eMAFbDwX1ysH8FMvVKubDjHpcoFOFloo6LaiTka/Hco0DFkz0O2DGJDOm6T7uTtdYdIJWG9hUFMw4OAAI7QcHa2i2fRonXXCSCrlGkn8BEJeiblUhwA5yt9nq21/GWCZNB8SnFEDo0NCcLAZ4pBSgVMjRwbpSvJMAi2T9jBlu29ALEBSfmVVc3VHMc8Uye3evvgGXVYisFrZkyABmvPoqMALWceGitNlWABTJpGEKUnWYZ+DWQIrvVur+uA1RmF3Vqj7IkgZPWjjxbfd5aNWw1cU2bdSWOYYoWtw5f4D4HgaQ2cXS8tJdEyAXNC2V7ZSSu26ENZx3ZdqfbiZmKzweOEVasllA7372vAOg54WbklVA5Cn6i0thAa0p4eaLl6etEkTvoDfJsssuuzwNcjhOtkxjEz8qAL/vm2I1PMVYaGzkuS9p2FD5noSmrT+CSIL1IKMJAcmGDq0DHDFSpDs1WTfuwfpDSZNW/T0boTOh246ZqyiqULZF06oFpDcr4P5tP9IwMYAOu6lvMqoHJaLVMQ1dB9FaSQu2uqZrLQti06vo5WMiOTZijBUxrcNkfdVKVEhkcsTSWx2QEtpPIOvYOjBAMU3XjE3ayqj8L1ApZhsWitjCuDoxG/2m5wziNvkBYOKxBkCjDOto04yU46G035pjLe3MK8U5j9TCPR1XN1upqf/LTyjySf5TIzODaXns+vNgwjhq9TxG2FQxu68442+uaTYgnEINUFvcXZpBtt8HP4H9AMO3Y5Fkqv0Bew3akcfqyglAlDtlNn7ODGZRdMDSM+ljn35tectLBpDqv9KGqcIZQftuxmzQ86agYaRyjPk0NXBthZxWpH3YIDGXxTZ68x1SM/heI7blISzlLZ7EqBeJtwl7U2l0L6OIjRVi060sHq6PceyrA0JHKE3f0iuJ+p2arNHm+Xl8C0HihvZsplXNdAl/B2GvdgJWrdGWjENyiAzsg4+/yJMKcHzN550JcZddtmUnXh+TfOrPr9sGAAB0nL5TkOZZWwqP5pz3/MQOsrWMHehGxG1q0MKbbBfYFZHqfqwxdsR3cRpb1tfkZkslMuVduhNw6pCCTJO1ylK2bLRuTa00YLYCzEO6eraDyonXM4R0O+sKTeVFOsQ7DN1YsuM7sbLGVzBqw6AjG3cRgG2iBfFbimlIlCFv+XDkPdJNxG0Re/YgabdVS5wbOWzPADq5putBUcuC+bhgvjqhHip0MtuudVpMc2KaodMJV+UeDmJbZU1YjGyVGWWaIWXBYZptUwQBqtjOlKFPMesRkOvslMP+l2lCmLGBADcVMG1dFdSqvlEVUIpgPgBl9kFKlIaaDS49CrCok7HiNl017bbiMBmAU9dSrUa4hhawTGI9sK85S7Ay+Yw8ASktvvlHfD6ORKbJ0RQaiApAWYpgmjTtgIUxMMZ5AVYWMqCfgwltQGiiGeOoUow1FQbS0v7qcK9VQ+nuM3iyLGkHkm6SDtTFu0b7FAIYe6uW/vObviFszkF+Avlt2nWCNwzX0h7fAp9bKdi6vhW/ODQxqyZjiGDd9q2bqNHfZlpkGEeMAeiW45km3s/JvPQqH+xneRpNDcjD2bTa7WHt8qTLn/1FRawGilVJJt6KhmoT7xHAR4A6nyAvtPU/jCUh2X925GjEpmTuIDslxlDDL9KxwlJy8bkgSs6FodFAsvFO6kuBZv4KCNuvEQ66nwXjhGuYrXJckSYHBGliIDVfWdMVZG5A1LGbYw9ZzOxAmhqw51Fsk1TFApsFdjyj5i7SMBlvqpWZzPzpoATS+ndAUaCYUFHEtFermI1/KjgAQE29W5qQ987azsWHC8VTbRZijaD1BerS6lCMb2zzLCvaIFljCMAr9BREuPqrFY34BdXPu13Wo78NbBPlEphp6G8bZkU/Qes2X7vuwip8C2A1huLn+/MuJI3SoVSk+QXbKKu9uoatcpzjryXfVGDWAInxGKevfeYtyq4oyOQDDZEC7/aEtBekv6B8W1k+nC8koRl5T9u58BWAi9JjVH85P574fE8ZV9TKbUSXzZU0k3sSZK+wpzjlCmP3iitJVAmi1fJQAKAAS2w03AFz7chELusCQGnWYFQUFvvac8Vc4LzIsortz5cKDgMOzHfGEWubsM/FDEHOarRZaCSxFxEPe1vY0qU5Jz3oO+vewbqY6WEqMjTitgTPgnb/U7/z/8TTKDumfXSyE6+PSb7g8303HRfJmW7v5McR9ZlRfNucCci1B9lwjC3TGXGQ2matCESC2iuJJfwcVvMjl+KLsAStI0gUEjkfn7X82JX3Mh2Yp9Z3RHrxHJOV7E+ktcVUhgq0mdJADpyuJFeLL12j4or/wmC6pQcBa84CfKwBAhOtsWmD9zoG0klTY6VxHOkBOtLVTQwYWBfoJKlFgSINyFegPiNYDhXz1QnLcTaTAvlb3MSAXx9OOE73cZCKSSomWVCKA/HYiEEqiiwQmK3XAtiGVDDi9SQHO896YTZIYymMimBR02KoRbDAtLVj6U1VYHHSu5IiCgONCgDHsNHqZT55fTCjX8ZEhiX4xPmhySo+5cvrYMSX6AFlEtNmddJVJ9cwlx6KCaNGQgWxocJh8kFntbQuUQVhphtEgGcFmBdfTiNrsJLVD3RvcCsOpGrtlxwleOLy8+vAiA1i8kKd86CGwxHyyNiI4x81KGPgxu+Tj13rQOluvtoSyHitcWfSjbCkT2e3lGoAZ53/hxSuGTf5GyPsykSH9G3Ewe7RbeiYr5vSwNcXEi8ApmljJccTLrYs6zZv7Pzzu+zyJMtr/ocjXry2nSr7donwji8v6XAkkaZ9Y2Tfk2htuCmDlDaiLtOq0U5TAmx7NbVshzRtHcfzdOuvtQzhdZiLwuAdIr2RFYBWFtHzZMO1L0MkNrNJYG1YzYtDy2DPVUyTNeBybowlikVqar/WskDdrIAy5o0+vqhP0CtUKoDFCZTwWwFUlFjpQ8kGiDxHAXSxiXcYlmlvv3VW4v+bpmrCLNuxPK5hJO0kaASfmHvgRyNgi5sDCPMI8In8iAeA2komI1UDDFgdq16rwtwCY5EYL2SpCdm8FIORpbYy4YnyOHZmA+h8rT0rHTjoyaUGSJhwym+RsQvonBMe/hQY1/HE+2ICNPLdFCsdY2GQUESJl8hhRL5jiNAlNuy2UplxsJQX9QGA0Iy6Nzd9RFweBW67yxw0l+P7g6SFwEPrDMbHkVHP46Kr//T9aWTEPwVQedpQTzqQmfZtGa15gUsR6KLZZChc293rmmm+KhdQpld9Qkspi5B4JpStQokrqpb0eHx8CVGfgW6skUcqkh7w00uMphptHFArnWvT3M1soTWbnckBCj+eiRq9RYd0WZN+OF0wjI3iuwXwBW/86xuF8uTLjmkfnezE62OSw2FCTvFkS4QBYHawwGTVYgz3uunUB5PbPCHcuq5udt35cI81cJXS2H/Y0oUTQGD4+GPZ/Wbc4R5mEaa+BSWSVRBgsMWeV9Fyq6ZWsfBy/27X2jEdjDxpqVkS49JpJK+E44YAh6kNIFLzFY2M5YEBG6SJ4AS+HM78mImBIHGRRyHSVScD2YssmK+McDUwb0vRalmSfF18t1uZXsQkpgEhMdUtoRHhmhJlwaSKCeobE1RMpfpzVifmeIcqUJ2gqN55x3J3mPaCKnWEvnFCHoHlCJSTF2VpYFTE8hdAXatpvRri9h56EmAW6uUl35uW2IQLqVJq2rQF1clSI10BTECprmkRPb8iLYyUQwPwSlOzh0OrTrUCswNKm/E1MlpyUgJpfoBJVxUkEulw7hY4gldtbYSqhF8CnIzLY7lR+I8ZTonPYFUTqYpvgK7bdPHcMia4IvduHmqIO5tGEv4KWcGdmuQuXbFZRge+/R+1CDfLADY7ULqR9i05d1+Gi0thje5RbqF0tQm0hwe28h38Au+Amwr8u+yyy1Mnz37eEfgLbjCSTUCOUpOhoYZhc8WS3RbepW+4184v4U7C0x024+Pox/CFMK7a+nV29PvnuzADKzJmDJIn0kF2XK3N5g7U3UQIm9mjqcnq12k6QMi9GD6q0DxXQZqI0rKg3yTLsJvZba1ItUVp9wILGq5bGubLDV+NwRJnsiQBVu3eZ+u3lcjYViyxOD1NTzljlZtu+d30kyR+b64KYuenNFJgPZ2iwhBmQDNfXYV+ebKtlol4Akj2eCjrt5sG0Ag3qnx4iTxjWwJuMijIoKl8muf2ULzC7ovhsMaIzoh/BW1USqAn39GAvQInRuxbX2W8mXSLMEZQBSs/oavz6fS4O4KSc+EKLzmuYmAjfcGSxmwfdW7P1qdnsCORpgHCixLu1uHZSIFV6VzttohS8yEIDfOa6p7oNFvHzbRCCSWeX8KEAaRx88zoo08vEMNIybFC3C5oNo+ZWOXvIDRqw/IEhuNZCHhpnIGWrsrq5kNpDlw5ANJWlTV2ZxnTNV5PgrbtDpBjyWf/l/+LcznaZZdN2YnXxykM2BCdAYGzhkqIEbipedjycxtZUQnbEmnZiuMcAGYQGveYfBX0jMel9LN2xMU4p/7ebc7HcldYKx8d1HRMENzycSZ9Kz/Sr4+4zTsKBMbaEEy+jtquK+0Myo4AkAKdihGvZF5AJwPzddI8D0BvbtpI1sPSjocFy2THeryPqdDsL5Gt6gSskbCzg3T7FWn72QYRq1WxQLCogZCDd5ix9MF2tFXbGGqyTajCCH1x8K3h14siO1x3s0GLoE5GmJrdOY8ktFqLhasxaxzG/YuRtSgKVDOQr2E6YBJgrs7Pi+8lormUBorO5EABgMlI1+I7SsXGcPaK7b0fi6Aspr0yx6x8pMGrRmy0Fb8K54WjOhEIZPzZAShtnybDxDynpojBUMLYm6p1eHQlpVQYRmsGAnQ1IE/CQNDTTOZpu/hvM9ZY+ZGWrpueW9nuwkZ6z4n0p927GcI5t2TnNnFlWT6AcAsbA8hLvocWub+b2hIvsVt6QkTLw83w664dsMsTLiKFzCg1EJVkGKnhSTNq2lYO9aERVkLrGPh+i3jtBqDt2jJgrg2idXVvhaXovMNaFPUqrK5wCIgBtmIKucoon0980tzSnMAEx1Puh0jXtWkB9TaJr51S9DY9tFzT5quHDdEkH9POvL3JvB8YT1z9M5MsABAT79tHWzSmOTkvzroVInfZiAAjWVVpWq/xdqX3WSFJogLRT4unc2pGCqSiaMHi2LOhplZvRGrDP9rSEaFT7epEEeViODWqfy6SG/r7MwH0mGjszBkrUZjsVzrvnqeWu4yKl/p3bgwYHRx1Q1GKM7CTpZljIGE/8Rxt+iSU7yF36NQzOW8O2DQv6J6faCgpdOVn7yffZA5eHIdLQWws1wFr1Ya9vWKo2/4qpaAGE8pYlMet8Y0JcqwS33NopQbZCvh4IzSGJfBUK5tobrZKfJpcy1WtDBJva/u2U2tavXlr2eqwec3y6V+goJkZSxFAFqz8du+Nw/CuIepdWmah88hkoTHNUMwdLo+0h5lslhFvh/8Mc+ujhhNmfi8Uk894feJlx7SPTnbi9THJi/cWrMAjb6Z1RiN0u0U43/XfXoYppIutiW6n45zb2TRzbz/k9Wz4QwfWnzQ/Hbl6IY1boJ0BdJkgy2Jap8FwbcUvw7PsxqBdyE/pAllLYg7Xmh21XaVsE648OIgoFNBSUI/FZkknNfIrN8wC/dp1nUy7VWPjrFIHcwMV9dDstwIKIS0Js/cV15Vsv4bWa5gcUEyYcYUTDlIMDBXT7JxVMKlpD6Sma5wLAS5tG0LEMr0aRRKzwIoGtXwAUYuiHAqk+g6+oc3aWXFHewdhYFWM7K3FydkikEPBJAK5rtBFgaKop2ocraOmAtsFN5Shy1QwqTbgUwwkTZNHRZtp1SKm+VoVM5r2ayxfW4h8jS8qgRYh8w5HAkmoBvCq2mbSO1MDWJ938PhCdR5BVOA43vRqK57uk9hoIsRRYhHZfGaViHPfHAEp1gpOtzEo3KKpvKXk4HEjA+UlRvLS0rXeIFCG++HSFmpuvfduW5I8Wh4ftG/63JcaS3of4vlddnmS5YV7QKe9KnZtXXKO0hFMUrYDncbrGbxIz9n1Bl7r/Ec4RL5yQ9VNkMvwDJ1vEbDjBHpgA6Vrjm9086PCk0f4YkW6EiaL+6zhmqSNZ7XDcUGm8uZZk6KGLdcpiJukWREsmBAZS2vEAZjde8USHa/zSGImIaSRpuMRlNX1662tozjXsSZ2ESxaMEFwFCOQqm9eakYp2oZbkYKgUyuAA2LPAFlF0zbxijrK/X6PAvhZ9tM2e6IqKxRPhCnAqtnnvAdc40iiOg/lkiv3oqrrmK6Ncnc8mJ+ARq8dJtHCW8tPvj8CaNnTK+WHQRS4rLYADjrytffPL4HyGGQfmXAYyy6PsVdK7L+ADX+Ag7CGVizf2r8LikgVhvFrNE9e2wiHtqapJl5qyR3qU5TnJGZebBLoUv2ri5dqChqam+ba/hZUOhSeuacZtiod9pJVnqkogDX5qS0/TfdK6bz5Va+rtc/yOg76WcDkYTgXaWniMcOmjN3NUDicj/Gx/CbOJdz9xYq/e3/2p5dS8sTKjmkfnezE62OSMpX8+lUKVjs9Z4M4dO23VhvqG/Xb+ae4gR7obqXtLIkZ1+Vyes9pvW6F1bkxihncRluuGL3Ss10cG+exNGxy7dl8J/ReVqgqwpV2D4COu9tupuGMBPHKpGpqu5L7pkaG/WwjBUAPNc0IsL2w7prOl6miHhTLpKiTYjkQ4VpscwaZrlGmBVIqpDi8IBMDQb5KWTBJJbK1OglbccCMK9huukagxrIpq4O1uAasKhYRTE7AGhlrgNtelyborsXqaJhibQMbH8io+Ze4PohrsKKZEai2KYOZdagGeMJEg4qbMLD7qhWSR0mitxyKhT/XtlWEA8kwPzBNQXRaQvNTqPBNwJwu9s+uilWLuiiWitxYLMlXgdl6ksCsmmBoNDGgoPLxewU227k03Jngk2eU+biNVsjDxmcOtLFEDDIYE3fBDE1O+LXiaTC2a1KGMFbNDIW98ucnnfmBjbyd/YTXSPiMx+b9NgbpVeVis7Fqhm+OOkLefH4dWvi1UtrQa8F2yaN900+ZLMV+D/P8Lrs8yTId5IIJpkINqbczoyp8txT/nGyN5AkDhowbeGHwco54jePFX+nDiWSzHVcKSzlMikcTq4FwnD8jSAyGOE/8oiuNV8NIbGZgbee1mYtS+DKhtg4+yjbwEdEhhhu0mSgIs1Fb5ZoTykEG8dFXN6kmQSt+b8rz/hkJjMbuXo+qKIfquM/LNp/oQrPnIGlwIFdpezEUGH6L9xYT/Z3dVzo2O7FUig4eAuO5z96T+1E6j6NQOEygCp2NGKnjOPi88xSP9xtl9aNMMl+lLVyJOAYsNHCTXVqUQs5+f6vrXxVgH297fmhSuoe20N4QgX/rTftV09lretaWzXca577pRJCYfdELFVS7owmcx5dBzWJ+/4oyiVnt8KOkcVPtV9sVXb2TCHMkSUuswqv2blrqWsXLzbGGAtCInlIeY4IcYwyVslD83ao62YjDi21L6zXGLVAqUcF2VaJvKsYCmwsqhnA6PTdqqqN0InstotakH66uLkTw5MqOaR+d7MTrY5I7VyU79812oSP67LptSHCuJdka7N5mkDuC0w0gu4pqI64B5I470W7FqzK2wGMazqVJ+ntbQDsALvveuN/lIdyTwB38lrEHuBBuxD+SpBGuRId3qZwjPdLCmFzbtSNZB3+5ARdQDwTIzxCsPRFL5wfbPEudbA2NV7ueIYf7KGWBiP+K2fuyfFWwyYFSZhSp3U9kwUFmHFARGyXYUrICxUy9vAEDFUFVIzAXAFMR1NgJt2g+n/teuQUAhTZSz8vFSFevg+Jg5lggupjHCcDc/EiRXIfTCFeLU1JT1gARJst2mqtVQKbQyjBN36qKUiTtBk1HACcjSHnFpplJ83SmiTRDLyKmAVuqduRr2EEKaHiWdCVAhBEgOQCutfmNqsvL3/h6UwJAZX2mcFpW+vHH8FnwNSt9dEdJbN0tA1q1LhszscNevpzsBIMjYRtptzRvtbNDBm4hWwot6+Z5O6xLLS01gBfjv3x326dsuHaYWoC2oSJoOfIuu+zytMjdu97prSblB+xDWmUdZtmS0Tka3c7PeE14izubPNH+OcbU7tbsu5ZMX5oFCH8yhCHI+/l/awTvfUan7Uo4ribZGkv7kWRqnvOkcrq1e2liQPx80iRb010qVNzOa5wnJdNrvLYNtxzXlZa9xj2LZUrNbJN4evO4xRAFhSPsLlR+3DeTxVcxcxVVzUSBhSLdLwlWLaiiTrYWKJak2GSVEi9jBDHrdUArcjNUFbRd5htRFMAllq7H8I3JvFUt70AP1Y3AU5sAZiMItjPQSo9gx3oFCkeNfFzSw4iD+KF4LkuAGTFOP7QLE8CmPdc+xt4lDQJkWaiXMz/TTwR0+APtvQX268eE/lvZiAVi3B3uusEYNmMc9KztUpUFYe+I4uL6zi+Cm0PXBC7FkxbBRWDOTvKmUhG/hREmBjjJvpKumqZsRM0rCbtkRbGtXwqgCm7S2QxZBBx2UTt7r2PZe57YPAZr2EaYPNaYcEbrtVW/zrTHjeLxsNntraAze/FtC3DntZ9/y0h22cVkJ14fp4gtixk3eOJDMwypEJ5p35KNzmyb0xwD2Qh05WeYs80WUTafuZl0jZjFG73oqTe7ewprjE/IRli0mFyGYzhbYdIN3gV3jJ/TkJs+jOFQvAIgtJmF/AnQdqwd7o0SA42RVD1nYoAGCWGfNbQeIDASNTQpVuRrf12L+iZavplWqfRbgENousZv9mN1ANnseEEqJlncjquapqsuOGLJHSwZQlUUKyNa5tQQqWvwusZnan90pKtaGThhqr4kv+TAwoq+UpHae1DUQ0HRSmWsbtfVwtRkMCswFYhWG5QpkBuVTWa6oK/NDZ5BHDAtCjlZ+gtgM9wa5Ks0TKuKWsVAmBrRihKasVYmUgBZFFMBrk9RZgSuxp/0gGmLfC2A2f/VBnTae+qByDlJ4NQKondDs+BwDpO3wR3hvvNRtk2wdJ02bhO1/7dOOyjerI4WYKZlaAaH0AGcu7+WBLtn7m9FdZugmx/dOLt9OGv/DekGCR2u3fAkMvagkTwhYjvAPtzzu+zyZAthqM75DJZrM6GrIM4FDcA11gasGfci/nM4MM47hkHoPh15Q1Ke5I77A6bjfKSGXLgzQxnsyqDtetaWaxw7rVcYpgvytqDHeo7lbFVSs7VvRGvDg9njhhYtTZRnC57Eh7q2K3xjT+2eb6Us3h/YvaZ36ltXabPrCihKTNSTP5BGLBD6q2bZVQS22RUKFqkoEDcz5ISrhEZr04QFpaJyXaDlLDanzqlFq2fiK5m4npEo/e/RgYUpzijddrFHxnOOWaIosgpxwlYElykIAK7t2pwzsJtwhUr/7FbKaJH9alJ+Ff5m3rYGrAEMNVeRjUu2OiVT/gFUiFQojm85/xHPZrJqkK6ByZvHDkNmFP4NhrkuBr9DWkIRJOuIUMLE6k4pYntWaAsb1ZRNBL73BODv2L69fnja5yqattyYK9thXW2OFXopnPL4DgNj86tLgjzSK+jtvaLVhyRkMdxXNC3XBjG7YyhssFS06tLyvpazYwx+9ow/9s9pftpkx7SPTnbi9bFKkK5bXy4DQQZ8fjuZCx7cr8PJAe/ZJJxpNTbI2XVD1OAGg9/bkq59dL39GWuwJe9FGtoDhaazCNDmYQDSXa+AIX1+3i2TG9LPeeoGDromFDi909TuMXsEPh/SzMJL12IwcHFTLbPfGloOod2gZTgfyFbQeUe8HpqWa3U7r3VaUA8nTNOMpuXqpCtpvcaGCrHzrRGvYWZgxkEWxBioXxpmWgrZ4WZvqD2S8+XlZoYg7LaGwXg71iKYcgNlt3WmgKi67Ux1W0SadvShQD0ISg0tF5965gVqRaGTQJzgxWRmA9LNUacEeUroWPi8AOUgqEu1MdShVSkjWN0GbZW0mVSq5atUsxxVfMpbocBkM9nHI1AW7fBgDRMEev6IM+4BSjbtsQ7ADHzf7w3YLM/ZLUoZQ3gy+GO5BI7i3k1jlzHN3GKslvqJlXOXj5uaukvobUM6QDvIFpZ5kKb2pXQFnZ/hyMGtym7r4QcsiydFdntYu+ziHdrmh48eN40YMdsGpUZqu6EeoXAfzlbYZ867JJ4JI0hXGfJ2jnjdwoFMuopTU4O2a3VSFWkqAE60XtB6zZU6tImWGHZbhMwKkJZrI19D01XJHxOu/uNnwnQU3edsd+YEPJEiQVa6dpzEMYpFt60t5Psl/VXHcO0/ADWiNbFKOOdR6HrovZgMU+2eaXq/gfhaj1bETSDQMxlu4ihFVbENw9RNCCnatg5Eam2BoRF3gZ7jvnXsh9t478y3BbT304WhCa83PuDL0oBRLwm+tNX7UZSzrz1Zy1WRM9nlqb/Vp1yzvDJvHWBxTVrXYO432Qo/2jRN4Rh7C8cIkti2aKIiK41rNf8yseLa0/m8v58EzaRBrWjaqm4DLBbaJYYWq6s8NGUCttd+bSbOkoCl70VaiST5at+Z9mSr19FuZZjfi2c6e69RhPSt5yM0XgD5USr2CHOr2kV5iKI3HT68stGUBX9Q9Klkms+hs6dYl2DHtI9Qdk76MYmIwDRYiURjYq0j2OJ6w9802W8k5MYwt9w3f54mbLuLa3CKiC0ZLbaTrcS9MgFlauE80I/i3yqDyMs0+XJ76cuFNUF5t9i0ibpVDlGOB0CGcizDTzaOUwEOB6BMVg7Fy6fEe5F1OmU8L81tKutfvuu4FlPpm/r01QmYrxTL0QjTsMWqBydhJ23npXY/1mbt3Kdqdl6734xyOJGWa2i68vVsgwiYfdcyzU64LpgwY4KDE2WylXUcTDMhl7gFOHFwpunDqqpG/ouB3CoxOPGw6Dp6+zzHcB33pwIcitl+LcVNDUg7SrvOn38XUgRlKuleRn/dDyiToExmUL9M7XXHeaGqmVV0oqozIeMpRTBN7Vf8eDi03+R+DvE5cTNR2ifDx6lQlSut6k0Fq8/Ex4PrpmireRo+kQxXrOin0Z+/Ij6Ov3iNhZ7v4uNXfVNzOOaLzoEhrK3fpfBf6nNc3rdJww1hboUTZRlNDTc3Y/rH7mJLKZ+touzy8shP//RP40u+5Etw9+5dvO1tb8Ov//qvX/T/oQ99CG9605tw9+5dvPnNb8Yv/uIvdvd/4Rd+AV//9V+P173udRAR/NZv/dYqjHv37uFf/+t/jde97nV4zWteg2/6pm/CJz/5yZczW7s8gXI96/DRE5YbMeqISREdwGRY7HBcY9vhp4np7KeBPdl9xNAdnh4x5pguTn/pO5Xs3IDciDMa2Ox02K/2efcGUoN0dVMAbTVSI1J5gywUPgdUqtk6jQ20SsVSquO9gVyVOhCw/a/6BlxxbJqx0dFpdq7t1fXsWPYHaIxFaMe2X5PCm2oxKaSG8ZodWA8rgVpEIYDG9qw9jmQN19hgazRFUCG2Qak/X8/8mg1Z5DmE3fp0B3vTcXjsb3DrSjGKm7OJC+dbHaqs41NY0VVPcxRlf946aE4Lc58Dd5l3tvKXaVEmdul9biZy8BfHItlUdN9iq3TrNFAAlh8mPTnlfq0eghJp66EyfYrxXJu/dHBWTuiDibFzO4+0DACM0x6X7o9xaX6PBHpDmUsojt4N6SYS44U19i4im9hO4OOZCI+PnBWqxxk21ueMP6OZHYfx535ThBNFEe7lvP9J1kNrxrPcnE/Dc1vjCz2dsMvLI68WPFseaei7nJU///RpaM0GYpBb4WjBLg2pEyRugM8toHvO7SJDMKa1kbCb6d5M5/mfUHpapzHkYWK26QyoPvcrW25BFEfrfykMOX+cJgf+PiiYKK08ePBzGd3zvRHrNhXgMOW5TpP/bNChHk+dBPNRsVwFMaqp9WrHcUMs/x2q//rzxcnWxe27tmdN61UO1zANVyZcWduVjj7DO2HxzbQWsmM5wnAXR3M160zU/QAQdi0URpK2AtRJcpnEEj1lELbSk7BVkNomZvfMN20QQH270iBHrY7G0XrhOFr9ASEKtB6awFEDS4Igb4VQhohgOhRMBydsHRgVcQK1wEjaIl51HARd+Jw3yc4EHkTCToLDZFxzkKxTMXtKk9gxeWj04CRJOZi/DmAJudG9lVs8S0DnYjN04TcCrkhztEQd+Bte1Xge+eR7E6W1S9sD/i42k4NzOXP+IL+t58b8rkjWlxjupj8BliXWnT09EhsRPMzvQeXnf/7n8d73vhfvf//78Zu/+Zt4y1vegne+8534kz/5k03/v/Zrv4Zv+ZZvwXd+53fi4x//ON71rnfhXe96F37nd34n/bzwwgv42q/9Wvzoj/7o2Xi/53u+B//pP/0nfOhDH8Kv/uqv4o/+6I/wT/7JP3nwDOzyVMmf/2WoPwWeYVxGv2nDbfwBA2Ya8NHm5Hi5/OsUGIZ7iSulC1snGeIi3JfXw3OBF3MD3chTM4sUE+V6gK9Mwhnb+/DNUO05LdLOJ3T+DPOweSkM5Op4PWqzGrFrP1+pBNskNbVdVbtNlwBu32ljpvxJXqe2axJUTXtWnIVjWrRso8MWXgQFpCkpRGjJnYlzYAJoT7ZaTGUj1UzQglO4IlqTbpZGZgK+h0CG1aW4z8B4jPik45WbEgFjBCrJUbZI2Sj6c2V6UVrR9M4b9WB1TdqK2qxKrMOhtOmZYwZ8Jn2rYWhImCzbKixxK61s/4r0PcZEyHi/S5Z0hS8RdmQu0zgQwNxMhB8AHXGadcXHDFOQnrDxQRzPNLvNrZGvHhwknhuaNBHpsd3YHAphRI6L73H8GLIthDnLetyQ2JvCHY9xjngW/RgiiNjDVrrGVyDrH+eB9Z7C/c9+++MblerJl1ca076a8KyobjZFu7h85jOfwed//ufj05/+NF772te+bOH+6q9/Gv/n//GPyUW6Q7t+Sd3ktuQ6gwDI53qw85drB+3v3ZTeG/NDHSD3DIW+YiLfuvISSt+5c0WSd1oEq3Ln9HFSs0e8EG+4KaiX4dadwFnX6wXIIr8JWX22WLy17zZ7MLMCegBiI4Q0KZBHAttp/4tA+ADyK5samBYsxwX1YOYFlsMMXN1DmZx0nWaUcoL4tbmf6N7s9+7j2avP4K5c465c4won3JFTO8oJd3DClVz37rjGa+QejrXiqIpjVRy14uDHO3PFsQJTBQ6LmRSwn2BamvvVNVBmoCyKsgDwoywKWcydj1KBMivKSSGzArMCc4UuCp0rEMdZoUvtzjHbPV0Uelqgi5od2qrmVtfXuqiZAVi0/dzfsii0mimE6vuW1GrnVeOeudm95ncZTA3ocKSJfT9qZ8FkfAZAS4MCS43N/mI5FIVNn0KnFEBHbPjlJUX8/AqIj2Heshcjs2Drext+b3Ovbvm5bXpuuk9552bjYeQG6zQvLcyNsM/Jd/2//wif94bnXp6IXR5VP33beP/v//P/Dq957fSSw/mrzyz43//Njz9Q+t/2trfh7//9v4+f+qmfAgDUWvHGN74R/+bf/Bt83/d938r/N3/zN+OFF17Af/7P/zndvvqrvxpvfetb8YEPfKDz+/u///v4m3/zb+LjH/843vrWt6b7pz/9afy1v/bX8MEPfhD/9J/+UwDAJz7xCXzZl30ZPvrRj+Krv/qrHzTru7yC8ii/k2/9oefxyT+jSZUOS3Wj/P7BFZbaOM/DBv6Mta1JTowY7hwmHOPhNLlWY5LE5LfDb3AbosCI39IfmUEyTV04aXrGjEChcwmyrZGzK/uvBT4p3jRf2ZZrw3zVNVttc9RmcmAh0wO86mlp19M15ODka/fT5laaOwY/tvlqBYpRn6UsOJQTDrJgEl8JJRUTbAPWAyqKm6ay+7FHAF+35+L+ATMOUnHAggkLDmKT/XF9xIIgdQsURRUTFIXdSP91dLNnKopWTFEVFObfsUvx953ug59J23OrI5GP7I4uLqv2Jfzyc7oVnqR7UbMZKipnn4Gb8EqCvQtPevfuXPrwOj/2HGpP3LMfO+pwjUZyVpgt01z+r23npgx77cb+ZfOe358rsFQnhw1bx+YGSmGo+9d4lvyu/KlCT47z8wcPw68V3X1UoHo6bMhu6VWPMycVPB82HvCxQtwLfKz9M82tuW+5xViCspgoX8M/HUF+xjEDX1f6xT1vIoH2qjex9zk/CjJRBg8P6ALortHSzOGtL9bjBR29KvC3/o//HP/gf/y/4uWUx4VnOe5XGtO+mvDsbuP1MUmJdcSrkSqhwPIyjYozaPHWG0bgbXu6cLmJUIGLRO5GGi57sN5WtSMZt8nW8XoA3t15HLUtUdvK1jnidRXOmSNg2gggTcZM+vnz7CzaVCcRVH42TTkg0El9iVrkaSBc8xxn78GXlaV91/CbxGtvYkCP15hu0nCVSuf2K2VG2gtS6fLWH11zVaKzEywAjuJlELaFiJyPTpGfyWuxsOYCHEvr+KX6AEbJHisdRVt58PSpqJ9XtKlVFdeY8UDjqBVymFDrglIcaBRLrF2LIWdVoDhgLAhTslGNAMD24K2CUoxQleIG91XSmHyB542uO1BE1wmy/NOVjXvdZ+1+1dOuPoAoJTRLpL1DAlHsxtU4b8sAEtHiOdfsiKczPrctQMQyNq/xXOD2CDqyzOnmOGJAEcHxvYAmEeaY5otyLuEUz4MGeZO8XGFy0rlZW73nIe6nUVK7/iGefxC5vr7Gxz72Mbzvfe9Lt1IK3vGOd+CjH/3o5jMf/ehH8d73vrdze+c734kPf/jDt473Yx/7GE6nE97xjnek25ve9Cb89b/+13fi9VUud+8efLOXQS6RrkDa8dvGcn6eh43zWgknjn7Qx7l1n+Py+1qVllygv38T0brhln3bAc2uvgRO6c87MvasP4OwKk66HnQwKzCQr2nrtXYkq50P+DHu0XOGzfoVEP72GhetG1nPX5ByhneatquFEfRJC1uHd7g+qoOXxB0AFhEzYyWEBT3kkqG6u2ojbTox8FPyee3Cis26MpkBkBycqBiuNHwjmU+GVRvR9Z8GeeZNoBQN51U4+ep+E89EB0/gpg+bwB0nRvmkvQWhRFtJbHTiHNfoHBtSqdWDnKa/gH0GCHpZBIjJjdGNQ8wc5b0eqEpMtADWphSv94jyV2j1sVoxEjcmXcS/28hfj6tHpEQfCgOmbDuU2jLtnxkLCNYOiJrGakfMUrCj2+je3NrmvlEMselXCfw7vhzG5MM9HZLPlIYAvdWQM8eNYNf1w7+TgFHddzaW25b7Gckyirh4DAAr+6vXvObmgJ5AeSUx7asNz+7E6+OUAItbakLcub+scU6tddr2cOHyQnpuO6Le8rdFPgv69RKr54WSE+eSl+2cEAHEW372Nz43hsle5PyR4xJxDYPShztqTvjNANqSGrHSPxPIqQhqEbPTOoLl1IgYgfZl7de11muv8apBvB5OrtFKRGtsolVCy4E31nLtBlkAWUCZ9NcR54LYiKrVgnAznQPfq9IBDEFnLkMkvuveqSp8WZ+RlyJqhLi2TR74dWSQgSQEDYApbCfRyXp5DUvufKx2lBJx++srDj7zWrNKohXF8G2KazdYrqqTr1YckgOPKE7OQJhR6AAIhzwAilauSPJTyU+EE4b1lf2pAb4YYnRYciP+0Y1JzABqcT6CLEgPfm6Sc83rBM77WUzbAbutcQr7izDHnVbH8Fn03I3R34UwXqrctgxvG0AHdHVoth82rleJfOYzn+mu79y5gzt37qz8fepTn8KyLHjDG97Qub/hDW/AJz7xic2wn3/++U3/zz///K3T9/zzz+Pq6gpf8AVf8FDh7PIUisBMKAEIVaZsH1c47lwYW1hvOB+vD5PH4a3kRaJ1A/ttnGsYGww3wRq/bU2kj2n2Z3OJOuGrteYqk650fkYDNs0i0Saq6H7ori/Zd+Vfy6+n0QndkuqH9hsX43Nc6wX5hMyUi04T9pQ+YgACCZyYwEJuOBYs4lqpIk64Os6ENAJWI+auomR6Ww7689inlbFK8K7wTZqCBEpCNEN3w1vax5axUn+6wh+Sn1QrwyHZWSXPdOyycaVZ7mNitsPgW+3bhr2nMc0Zvnb+rfwcL3qVaUcnrbcizeo0gNcAozjvJlGA/Gy4ubpkEqTFicfYsBYt6HTJJCrdQwOtjIGlwEx1oBvWq78syXajPTsO/9UrVG5x7S9fvbJJ8fL0BQelMDZv4TSyVVNhYnSPiGP4jcUCCK1SSNM56Yp0+B5048hNUtSCKDYu1tU1XWz5yYmJc3WfXnkr1G2/q2eFML20758WPexyQW6DaV9teHYnXh+bEEAc1bfY7RFE+0CeVv7PBPAw2q5bQHnEROcIV1y4J6Mf10L1e8qt+U1aEdKe2w7bLjXGHfTIWcA+EK1s2L65AUbyAeq2WINgrQOgjk0cNgnW7og18Sqay9/gBKxpui6o0wkyXff2XDc20yp5fTIt12LmBqZpthnhxEXjVgtua0tjswIGyhMUs+Wv6/wacGxIBv6cd/a1+VFxorQGRveNu8TnqB0EqZe7CBoAi3GFGyOSKk0Ttg5H1oLVilIKaqCS4gDBydcgYSkjKzANAOVQbBkUiHyFac2a5qtpdIjP+psmrGJCm73OMokjgyQYsGMt2EQXaKAsEJUggJQmvlV1LaEYYhDwDLmNG3+GAfTiFVCSbi0MkDIOujcUf//g8FDmTukc/bnPj7SB2Q0iD+Dv5ZaXUp63DvdSF/IUSmzo9zDPA8Ab3/jGzv39738/fuiHfuilB7zLLq+UMLnq52nJrDMVNT7GjcXq5s3XHR4cOlIZ/HZp2Bg5E5TMH8fDo22Jdm68J3TfMYE4ZdNptK7J1Ru1XWMlDk+0h13WFYl6eTOt7ofxuYoadpdEkZtoDcSuYalgUno/sbVV62mVqkhFKBUH7qgaeEAbZzbikQ6LsDtfS24gFXgzFhKl/VdyX1eCgoLqfgrUz6v6RLjjT3XGsPX/fH4eI3RwlU44BQl1oxzofHxW2EGB1EodO/fx2cB/ekaLdXBraRj8EpDaynNotPev0V4kf255vA0w2fAz5os9KxeythPpEpWVKzh81xnxcYJyfW9KBpz41N7n9kM0VT2VWXf/FuKb386zp5Pqwcqzx5lNbOD7jfLaXE02+M/0OwCfJnuieF2p5D9Swt9ap+GrrViDfAUcI3Max/xzJSK37lOn65XyxhgEdQVNM7yPgjjnlWQ7pS3eMalPm+yY9tHJTrw+NhGslvt3LcMj+JxvHaRsnl4M5GGI1y5oGY50MzssGdykb0k33fgo3ulJA3LYKPMt7YWNOKzjlNbR+q0kUi9oSqhc9hOEoBkedQDsYFvYZisTq2iaFEHIbpOwvTtY27X4hlvTApmujVR17VU2IwB3L+L2XWXGVNje15K2scKgPBOrCa6zUPkHQAPgxjtC2jbqlqhrdProelqlX25qRVodndZrHgd0wkkqMCvtCkgR6ASINi1YjMdDpIeqDQYgDtBSsuYqlM6CAixOvqqYFoHnM+uvE8JaDeidnf1FA0HxRoA1QFL3Z0FrN5OdOJb9lhho95qvW3nWM26c5OJxq7YZ50j7VjijrMo43CntXbhD+eT5CORknadzixZafbwgj6CpPycr4vvlCncjLB4oPu2yiP0e5nkA+MM//MPOHtaWtisAvP71r8c0TavdVz/5yU/iuee27ec+99xzD+T/XBjX19f4i7/4i05L4EHD2eXpE5FiKzlYXPVKV9hq9XB/HN0v3FutGpDheCmcS+ebuIzjXbt1k+qOF6ybZu1WbdyPY7QkXwizgfxD4FqyFFZc04qnymYGeGIeNxCvpZkgqL5aKdexD5CsXRum49/Y4YrjqfYz261SxE30+Oa8OSstsHGRdn37qEPbJ6hLlD9jG2hNNJEf/qy+jMijnTcsqV2c8Wqbm2NMNbv6k19YaJJ56M8bhsr+MXDOOaBEkXZV3S8u9ek6nIyl1i48oi7ugWUa+/Pxu9uAzVuS7j4xMxTDWY3dKOtV+s+BLB43jEhR1OzFjuHQsSNfPXOd5qSO8TTM22XU/YoB+e5ddKmOOEUgriEbidEcn2o2RyykaLsqiRGHBTbn4oiLeN1a23WG7xHbVMT/n71/j7VtOeqD0V+NebCNCbbjYHxs5AsmoBgEjsEIywjxuFifCUgXchHiFTCOP0iQQgCjEEDGPCMTEgIhDyH0KSFIIFCixJdIkRXHyY2ugq8dSMhDAn8EwTUXfAyRLz7BCebsNer+0V1Vv6ruMeaca+199tlrz14aa/Sjurv6Mbp/s0aN6pRta1JN+eHIrEBz/n0tE4Kfr10eruFMWDzt31vonkxM+7Dh2RtYcLi4GzkHdXx126Nbx5Pf5Jodbb55EW84pewT+D1GYyfNHkvnk2c9bqucsbym+Zjv7ej2OC1XFyq/HoNIJ+jqIu2TtMMSn+oLXQtyfKUxDckK8k3oukgT4Nkps/2kWTthFh0g65JPpNVHFPohK/RpV9CnXeHqQ+7g6ml32kFZH3LVBar9gAW/mr3XdVnpuoIe/gjLITRcF9JyXbpma7tWLNI+R4uzY/u5sf3wgzi0oINb7SYF0h3dcD08fi2/rBba+tJpsx00rOTnaxXpb+HM6lbk9bnRL4DGrD8GPK7tWHs6XXRZmt/v7ZJDC4uQzV8PL5A+f+WwBO0iWPqdr+WwtGkqaOE6LZfJfXLxMtMOiZ7XJweLD5p2eqpEnhJelmV/2Tm2VKBcPf7Aj/4JS5ItsfXxxWzZPePaWg6HE1zLuBxd+mq7J5f9sLnudaztNym89j2fLjsb49vm2oniN7sA4FnPela6tgSvT3va0/Dyl78cb3vb24KHdcXb3vY2vPKVr5zmeeUrX5noAeCtb33rJv3MvfzlL8eHfMiHpHLe9a534d3vfvdZ5VzcLXQV7xmmOhwg11lseeGsi6gvMOgLPXzBaTiL7zM/ij+utcYJcp4ejuO+pdwjPb/QVoQ9/aZHuZLwM/kRwlKPR49nYeqBtFoNBxIWXEWx2gFZ5cCtfMEFtmE4lO7ml4qqBpQ1j+/KA4L+ybWCxJpdtKp8hwtlYv9yS7EkgclhofgmfI1kFUal9kVVe5F9pdIP/WEDCrFTMacmXDWZngniVhBGhBIG1cTuIASayQxTG/MeHgTh3dpX894vHilSiKiVWfA5MufmKCapg1BqwlMSnokkumtjA25brV04odendcJMmJD+UmCR1HfOs3euUEdL6XS6V79EeYaLt7BV9gdPfi1Lvgv9jpBKG+sox3k8pC+5nI+XX/HldwsHV+xXf0q3q5a7f/EQWnjvJzp348J+wXTr2Oj+9FtkWbq4oNRzG92TiWkfNjx70Xi9n853P350+xuu+mZvyHtaFent1nnMbdQ1KexYBcfqT6tqKbPm5T5LG2qJG8oQCu/fReCAKqqLehXoBy+0Tds/N+NXvrNNlsLjSbg53ISyBlrXnkfjsAMJkNfyB4hmgKwEwrFoaET0+1pP1oX9OFDoI3ewHLqW63IHIneApdl5XWTtQlbWXzWtBtssTeiqcaUTadcJVJfhaufHXjUe7Q1578ME3f1tJH0CX/vpMFQ4/LbwN7g09yy/TVUXvjaJLppdV2lMLAKsze6SGeM3zRehHwraJ5n9nKg/V7JrTC1m8/aqbWwCJFMDC5o5AlnMBEFMTfbWOqSzPthmchF1oa/laC/DxlDbB2/2SLK91rS0aPx2Avzp8haD0pnnmR1VdmzEX8lT28FvHvUa/lmbZnVZ/24567tj7nprefB0t1zdn1Kflq1DmOa2otT74F7/+tfjNa95DT7t0z4Nn/7pn44f/dEfxQc+8AG89rWvBQB8zdd8DT7qoz4Kb3rTmwAA3/RN34TP/uzPxg//8A/jC7/wC/GzP/uz+MVf/EX8xE/8hJf5vve9D+9+97vxO7/zOwAaCAWaZsCjjz6KZz/72Xjd616H17/+9Xjuc5+LZz3rWfjGb/xGvPKVr7wcrPWQuxXoAlJgeNClH2SZMF54VUjMJoWglkeLyrw8W3krHgxepnm4rIXipliOcBuFDZe0/d5w2vy+pclq0gC2txpf7LB5gi6eJQ3XwV6r40XDfJPDtWSFylV/oa+TayueJILpKumdb9OIFbUhoE3vhH2hkWjq/mbSIMJacqzSUOYi4uY8BcBVL80O0BLpeMUlqbXm2O3JcrFv7Nob5ge1OpX5N7RfJ81nzJAI65260JQuUx5M/Igmep06oK6Y8oaJ2V/uwyPY05RotprRqm99luL3sEoCXZWwx6XKiK4zZeMFlWBwKIbm9xLtEslFgouo2q9OEp/gS09Qid8M3hxBEjQCdhhZE84qqZpq/ykgFBZtNPwb1pvkhBQ7idP+G44/yRcVN5Mgiq40o+2sbsm/GXi5Vbpq97K95L0pnoaE02YglOu257Hk33LLRryqQgrwjt868HG9uJu5hwnPXgSv98n9j/+5YjA1QC4tfFOC43W0jfgEQvhWNK9ANuI96kgde8mxw8Qqn/JIzi9cn0zoan6i57zH7gtZPfLvLOwgrLAPauU6lOpR2fwA8VZ5mISr0FUL4nHTAAaoXSCLSRyFC5APrY0ugDWhrAL6yBWWR/7IbbcuHTibxqrrDkj7fKxdlt40G4yW7wuHRXHweTdOEtvEV+t3tbrF033zs41f/Iv7tOkr/EwqiITMtOCnvqHb+MFBl2j0m083A2R2jO5C96V38LJCHlmgd7oeRQc4/mwbHswQaegLy9SqNOFrq0vtmFvrJz/kC/2AgH4ZGEtAScd477P+iahSfJ8fDdRJlKHxmIQ2M60qBfUcA0FMmIB7z8jAjbpxCHtdjPQ5zcDimc752Vqjt+oaj1A+2d1E6Hr0RR7OGJNaNubLLWp8T1yvrq5Ry1Pb3a3Pss5xX/ZlX4bf+73fwxvf+EY89thjeNnLXoa3vOUtfuDAu9/9bixkW/MzPuMz8DM/8zN4wxvegO/8zu/Ex3/8x+PNb34zPumTPslpfv7nf96BLgB8+Zd/OYBsl+tHfuRHsCwLvuRLvgQf/OAH8epXvxp//+///Wu0+uJuk3vfByS/damuCl83F4253zEV5fV9c6iWsOEp9XDY6zF8hoThlONAacLmBbTjBROUWrs5XF56kyA24jWwWgnH3TRWQS/VLd7oCQO6BMkEtmuofJ3tKsoiMYvhUfTDVh0NGICIMapDZXSGu9p9OwwLIwwLCIp5JMSL+pZFO4YhoRMI440tSnGMK6yIXk3Dm6o4ELZiHGPOeB3MDNgQeaFwHIYSZ/EJT5aNvMoWt3CT9VFIAkd6QW6H0s8T1RBgCWV04e1QX+CCmB+l3ZtuJHBNVgfynUEo/Pt4BrwD+h9aF8/3Ym2kuD4J3OyIZbU5ZzRcTvUvAiEw678taV6mucbNF2pDv9nBWuDcHbeLl2Y8RvtTDxiWB0I+bV0qVM5Ck29rvEq32lxchPpylqU+LGXScbahbwTtNwg2hK8nrnWqimVjT7PYD/yfv3JaYQ+Ye7Ix7cOEZ0X1Oj87Hx73+OOP49nPfjbe//73JzsVN3X/r//4v/AD/+B9G7/6CQhoFYg2tydQzct1zbida5RNFFS0WeY1n057iHi1HHfkOQ9DHpnQm5/uVcBa0zfuvlgLElBLm2UPN1pF+36k1o9R25XTBk1XAstd+yC0VeGHK2jVZl2yMNX9Pc9KdDNaOTyBw3IHyyNPpEO0lq7x6v5DCZtGrNEf/ghPX57Ah+COX0+TOylscY/gDp6GJ/B0PIGnLf0uT+Bp8kf4MPwhnrYqnr5e4WlXwGEFDnZfpd/b9Qj56/VIz7c8ASxXim6mFnKlWO7Q/Y42tcqrdkm/YyU/h+/YtUKv1ua/WqF3FPrEFdY7Cl0VetXua7/rihTv4RTXLhS6q6sV61Vjc10bsFrXBvh1bSZh11UDe/a7C1ENjJewGrjk9B6nVEYSyCoLZKkeFr4yH/Q0cxxvR1rSZ3ErRzLNJI8F6oo75WmSd/DP6p3wfCxti+5uuXN3+FPop/1SMPR83wL+3P/5O3jm8++u/aR7tU+fWu//4z2fgg971uHa5Xzg8St80Qv+45PO/8U9XO5ePif/+4/8Af6/v7fxZol/JE+S24/5Ga6L9ISXPL6UlurhX+MVR07CjuVMqFJwGuPMyct0Ny/QJWZJ6Ip+l7gnjdhFgr4IU7GQXxCC1QNpui4TP9t7NWxHGq/rcoUwVbX2F/UmiC13WRvO85fs4wUOL/ZC/gqHnq/Z+V+7v7+olyscZMUBzfZru8/CV+lLqYPsha8i3stpZdm19GNbzfxVDR8oPqeteMRegCsdDatwQW8Kd7qm35Dz0Zlo6NMifg5wXElfttKU8qqkPO2jORmUkf1nBdEjlSmZ1uJXGerHmnmwskF11rgxTUt6Ca/qd9h9bXStfh3ioOpY3cGpp8/iEADW/ej4u98NjzsPGmdPeFqrV6+6v2N7mKao+1sYSvj+SgM/r4THTcnB6Cdx9lvAcTqIZri0pyOVxXHxO0DzbwbrujXi+d7y5bRUl/HVZ72X25+BdC/xCaNSGmeMfJrpS/nO00hykvvor/zzePkP/x/XzD139wvPct0XTHvv3EXj9X66LghswlV+7OkNjadP8k5clHKO0LUl7stPdxKvI3idnnJ7ouB1EJ5uCGK5DL9XoWpNH8v3T8f8lSEJYg08U30KdM2PAtJPAu6MRuyHxYhc5tqsSiCd0onWBbmO+ma0YT8W2jVYJR+QYBquof3K1rMoXVZKbyA6NGJXNz0gDpINIHR7q/2XyCoLIHfyLEz9F0OuO5drvWJ02qeH3VM9pXyZhbumq6xL+zFjWqfdTmp6Ay5onxmVJ9a1MAbe7VOluB7BgisDj9Lattj8ZG0aqkV7O1XjPvaZaYKgv53uRP0VuPMpMTVZ+9VpBKPma2rraW6gVWfFNZcNZDm9lPwaga26Od78rMliRSpnQEnXMa1W5lrBGzzsuQ0FgWu7KQ9Hyue+BmgZPLJF3E2+L+7iLu6p5Q5m+M40wLYcL6bdCVBslIRfecOWsmaVNbiW69pZA67c8Jc9muvd+kLpfE1Xw1yxjypW2JdU1g6nQ+zbJsRdRfs+bXFRbrIBK/mKg7jiIB3bL/1jaG6z9+MamOfYRaYTls6/aa/16N512j5hNhARLYVLU0TBn2tYbzD1eI9fU2YGTDv2V2XjWN76IRyHa4mXF+av4rN4njY2JdCxFWMH/g1XsUTV3BueHJ6XFTdQ5bNpy50jk3zp2aAxivomD2spTDsg8Mei1Fcfo9k9s2HGGQAp/S2zT5S4LRZhaprcYZ53ivTKHZQ/8kl/fv13gtrzbphU02+DcQ0hDGf+zq+ztgCi0u1ptTQ2VtGwFvVK59Oe50UEV6QRyt2Vl+VIUB8zKd3DAFg8Sum51kVC+NrbpBLPYv3lkrr9FEdT0JaE9MxQF3OrbG5rN6Wxr1AwkbEcAdvWJYdHLmK0izvPXWbMU8CJfcYOxKcSQ/qOKYDuYlHbWCy215AoQ7bItso8odDqDGDzru/FyIZ/VpdEGUMeyXmucdfOK392HsDUgDMjFWoHf2/jm2+nLUJXnQpd26dZ1WZro4/DtLSbCpgLVS0/Om0uz80ROC283GXpgtOlmwXQfCxBmBQo5geS7demfeBCVhbAQklwqyls+R1TwGyYrv6ZSvsyR/yLHDctIOVCXMkd2oYs/Y1y+lEBxJib3aQaNkzU4+wNr/QXhKICXRaIrsDhAL26ssN6A0BeZa4MqDC3/nukoo9+Wx4BcKflk7VpQWNt9l8Xyslvqq09SfhqiKYDwRDKavSrlWF+jT63PlFKs3rWDiIV8XKHqtvUkjR+eU1SunscAcwAkNSLCgelHqb0GZZnhlJd3S9En4Af01N/Vf73hK/H3DlL7jFBrWC77TtdMsZtWM3Zeslx29yVCK5uIFm+Sd6Lu7inhLPTRiAJEg3riC2+QmFgxGBAwl5DGTN/CktalzPWnOPOwUQUIhxfKuW0bU1X2i8l7rO41lbTeGUNV8N4iLIN87mGatF4JWyXD+5qtlwtnyEje7nf+GLEFFccRTVPh+E3x3TtHAAYlhOgHlnV7t1+JeBCLBbS8hC1LmBTAhbWnXCrYyE+eN+tc1OLTwqlhX0fr/4+uGGZszXGx13VlWm05AfgglvUO7tZmuGO6abdQIDOhHEiPU/0jbXA64J2HBEgKrWuTAXHfnQHx+00UaiBs/Hfc2qAchgzckf7d49BtS6DaegrA6jelzoMWHFUZytDUwe03w49YtWMXa1+LmxRyEqqWx37T7U8J3iwxYVdV24zy69TXxS/HPpBduus/0oDSmdsdff0Xt5McHtoGIawAknRBMA49KlPuv3dearzbeXcRnfBtPfOXQSv98m1/TlPTOlxbTMbd9u53hiVNylzg3yXZC583ch8zsPFgLXm3QHDiUgw5kl5pdBS/J6Wa7nbwU329j7GK1ZzA9pAgGennQpe52ED220HI/MCrOHKBxxgpuXKQlU48E4CWRfKIgt0iwDWNV4NnPc6RbvgVIpGK19gDdirwaZrhEMYu5jA1j7vEu2fdtk7XcGqsUGb0JUFrGsf3rDtKrHZFhoRdCsQfTt3FYymqWMAncdWShgSACyNqdl5PaB/FtWB0SFsZwkAWfsPKK/A8hOkUgkaIOYeq3PChK+KKwiWVd22qwuEkfESm7byeKFPggq983NCnGho7Vh7DwKsSzfOH70OBvpTDFxcWxcn6xMBLPsyzHgzj9epJVwc88CAL/G4lXlcsitmz+X39h+B6VMeT3FT7ZkzCvS2HskzI3lYBK7m1r6+3CT/xV3cg+y04yZ3jPe2vvWc4jnx8uqvW0UOYxYuaZokeRVzgtIM5yEWsCluE6dh0wBWV9J0FThOPGp6QAybGT7DaO/V0g/q5YWAtfiTALZ/wWQYr999eDofd+dq2LBhRu3dZais1SO8IULja5003mUjlyPhYSeiOrnYpPk6isnUKQnHeFqdeEqAinb3gmsAJKHjwG2N1I24I2k+f0H2byd0Qv+Dhy1E1DOWjlIYXNUUJwiMVnGdYQqZ0Kb8psVZyuBHdgSNPZCAFWlx66QTauH+GddGGgPQRYEr+JLlQsF+eXG+ZmguR5CFgQLHz4D0l9mdgTXmmQl9OaObXClzDADmP9FpzDSErsaqFlYdM3vzG5GPs9qxFoJ1BuonPAjC7G7lbNr982JOcj4luNsQvKeXfWiH8c04a78Or8vFg+UumPbeuYvg9X65nW8vDRzwCrFDSfvOkZl+4oMg/u+EzCcKXl2TIBUlpdgSPiqYtTyykUdylBSaPS3XpeYB0WjKl4E90ReNiammq23gaIB1FLpO4tA0Czg+h9E/RQkwLJZmqI2BMkr8cgVZzFZXt+vVtSRMo6BtQk3Aih7XbHbRQVuibmtrAZkX8PB44JZgbdq1wvRXWFRxB9IO45LQyEzcawhlZ4drDVf/RKaVp65Z7gJLwajxatNNIk5obNvM0AaaDtLKWQSyNO3aBozYsEiFSeQ2omfxyyOAPtE0XmUFZGlCWF3oMxvGpHYnNGWc2Fv85hfSJFXqd3GM6rZfDbD1zwe5joMA65o/l/LmGwscQd1j4MiBIHUCgzFtXR44tQIs8uz0+maX1+VjVj+2wrScc93nCl/vyUvkncpnygpJoKvjkvsw4q31htoB60U74OIeeLfz8JtpqSQRQF5MaPEIO6slG6+9SbJUaAsfTrmJL8m/EKZk3Fbi0oFXAKog1fZLp0lxWQhrOG6F0XNalGHt9j9ZESYFit/vzY6rsMmpjoLUtFhVAzPubAgzI0i1TIdKSl3nfk3+pQt9eD85Tcoy7ErFx+YIQtCr1gbCMdEqIQqllhjCbYJkx3j2X8hkQkd32jd2/kRcREOg2OtfBThwm3Nn5/44Kc00WHe6ajOtdLpyXP5xY2Oq0HQavD8ihHUw5C53naRRu2ZleMNZ6M0CvzqPFAG2EgCrNBMwVtP8bmlkeo7K1VQH9W2pI3Bt/x3CTAlI+aIrciiafVj6TWESTOkKDgsE61oX21aGa2X3KDuMy/no49r8Qt2jpVv7bwPRWMp7O1ZbScoQ2W8pY9sP2PK+yduCDxvgL3G8Nwh7nqz5SvVz16RnJmGxQlimD/fsbXMXTHvv3MYHgk899773vQ9f9VVfhWc961l4znOeg9e97nX4gz/4g908n/M5nwMRSddf/It/8UnieN+Nn8xMLuLb1fSYQgygSls9ne7mlw5x2KCdMp7LWmb8TfhdtvnZ5GGh+GWrrCXCO3ft9jjzp10IgG3aB0v310t2wjK5FjTUxdoIrnla4oTiDi1cbbNGOA5GsMMR7IAEMzmwpe2qoljkThe29kMTFjtcAU2giv7plmj/ulA9XjqobHGrd/EiXXmYwxKfp1mZXNaCFY/IHTyCKxy6doZKe8k8++iNEX8+6Xd+4WDzKcY6zbE6HzvjWuLSj0T77JD8OLRLFoEcxO2+WqfIAsih301Iu4jnM1pPm9DKIjh8iGARwbIIlgVYFsn9vUyas7QxPCzoeXqc+YXjc1mL7IRFUljQ64B0sxLj45vnRs6b4zQeW14SaPiM3+nyMlsqJ3GoNGWZA8a4Uy9eyf3ZuIuXAcRp2rAXnZc+6zefQ7XPJtfFXdzF3T5MO33Y60LMC0X1O17McYFxsbMQlQUaI512bNfuQlhNCNvVhV6GMlUE66HlXc0sAB1catqmdvipH3oqI43ldcxAL8z5K6ZsMqDjvYXNDFicEi/94KwlXsyfcknnQzyc88+6vW04cRZAEy62TUh6e0z46ek0TE2aBLA5q5ZmtJpoc97ZfixlOlgsUQvXxP/NabnP3F5aYS75xfuGvxAykwTD/dQ0EjhvsVAFmolu2pwaqbA3+YLAzcYD55jdT04TmdLPeSOhHAtgIeXe/ShpmKTJ8TQ7pyFwjY5ZDPcIGt53v3i/WVvT71xEXlmk4/k+r8UEp31GixAPlG+Dl8QvgiepedNdcpz9dulrs4knhH57TPH33mVs1jDyugNsl7EnCuHfNLv1+xDRXouQxQyymYu7uDPcA6Px+lVf9VV4z3veg7e+9a144okn8NrXvhZf//Vfj5/5mZ/Zzfd1X/d1+L7v+z4PP/OZz7zXrJ7orvnAigBKmysfUnWkurOqAUi77Ag/O065nbyRpQ2hxsk8ncugqPZWTEb6dJeSN9IUCIFrT2JBHu/Nobnb34kL4BqMwybHO0SEs01XMiHgWqk5DliTkBWFJpkREGAA0sW2q5iwtdO6tuyiTdi6kKkBCdutdsgW0N78i4PtNYN0Omgr23Utdl41H64lagduXWFBE7guFW6JgRXtpgOagG8wJSDovIjhnUFQu6KDhFXS4+h2cdNYZhb4M8gcjrJc+LqKgxOfsFB/wDwvmz9QqnexHwWtQtFerhOFO3SzA4Bg7QJKo0ogvVcPbX1oGq0Q+Ftua7tpeag9O0pxtlD0H03+Nll7OQLwiaqHQ2i+enuQedxyjSZ+IAk3X3ufe/9GWBFYXFJZ4WZ1D7R1zaGAguaP5dcS5nTNdYqNyVbjyR2z28q83FWnY7+Ze9ix55W06yb5L+7hcrcO04YUrocHT3hd+mAbEQKHzaDxtNzT0wyxJexYcSXvxZLjGcslTVdpnA9arD0dCDyR7kDQ8B1cDhBmoSIMs/Eq5C/YT5er/vKdMeN4meDP904fiWM7MWNWw4e2P7NgNIdzucYX8rhQ14/3mdCVhEcACX45HHXHx8KdfzI7kDk0nMIcswZg8DHXag3zSgLtWnwGAjg39YcGxpPaXac4w3uGJcy8U8EbVi9jnJyS2+z4RzmeeKxTrJRV70McTwVOM2BUHQNUCzDQc4DFd++UMW0aRxXN0np5chDoHVpbNObj9vAJ0XVtauEvwgzklfDS5+4aPKRh6WbGBOOn3kaXxzq+HhT0tUaNmuc2l9L7pU/XNn7iA+ismtmBrU5wxjfsvGr0YXlKNsP1qXIsTGxUrO2/hYx2xmaZm3vPy21xF0x779wDIXj9lV/5FbzlLW/Bv//3/x6f9mmfBgD4O3/n7+ALvuAL8Df/5t/EC1/4ws28z3zmM/Hoo48+Waye7hjMnZ3XNkICrOfUew7pHv0RglHo2j1p9y3g9xo0bcMACV/FefO3glNhbN+ICEwDBL57Vp36s3BKbeOG/YDIZTDYnwldG7gmm6obQlhNeVYH+knztdh2dXMG6cAt9TjTwGDBbAhaWQh7BUiYIVi6sHQUsHaTAXLlwtYDQsjq5gUkmxo4iGLBVWi49s4regq9O2NO9F7qv0MkPw8S45a0XcUz+A+9do++w6KxQ3daKGEiy89h6ncXRpuGK/ocFQWu+jiuArnKP4e8Quazxychv9dH8xr9c/s76jnCVEBUIl3LAiqDyQYi8x8egj0a+knT7T5ZnHRQ43TalJyS8FWi/MEl8EW9Y3iUusf5DAzowmW2/QpEmcecl6+TOAtL0CR+ytKn1p6NNNnshNHtbh1nbQgYOn+TDVvf7BF5YL6Xufeu2cO6PtK82MN6uNytxLSmur/lps+HBK7yPXLjxzotkFqKUseiBYdZdPf4p7yTF/Vqft5PWQ0KAj2g83uK6YByL/FMX4W2ALoWriZB70qHpM4P1LKvmxgDlhf5BS8mTIg53fRCw6PtCxTpB1jRl03IEIbjZncfSx+zGMsh7JQ6DduIBhocJ5R0NCV9Q97aNkMsVKpPDHevBqsW3aazdIHPaLc01SStEHuhTVN3e18fClTnOkHDBE4CY6YvuDtg46qyTnAIYWtfVBNEjpULLmKSyrpwPovrAuxZM1Jhjps1gB+vCVrShBo/xJU7MImj8g6A6BpVEqmtb6HYQfPJhK60Nim0mQxYS1i1HaJlD4uZSSu9IgvagcG9jGCdQDPiZUvC0gVQM7a1+Nbk1gYhGu39yz1vZgdmtly33Ph8lIlPvPic48mxFWaMK7FacH2T2gZFh2H+3VLsdsG09849ED+d3v72t+M5z3mOA1QAeNWrXoVlWfCOd7xjN+9P//RP4yM+4iPwSZ/0SfiO7/gO/M//+T/vNbunubN/HEtcRU9ehD5PliMXTqA5+drW6VehT8z4G98tcwAz/3K6X7xtS+JNZWmCVbvQNo0V/cCfRzqYZgR4ir9XYZ+rYbj6bmQ/RrpG7XpAPxhhdSHpAKb58zT7NC2F4YA5a6eSoHTp2qom0OX4kqfFX7VLrjxvmBjogtiFhLIEwHtvom3mSrxU+61hQmCRogkrKw64000K5BXbAF/6IVUuBzX+h93LOF4FWO2XgtXjc0V6GC48tPqrANfDNjf6HJThG32hTyx7/EGARwR4ZAEOzRxBmBOAmygwMwUzMwPNXAGZHXik3f2T/2Q2QD3NPh+yz4M8brHHtcf1OuLR63H8OHa+uE77FKmZQKAlwcsOG2/1YjMCbd5sPorDj7illHHoXZ6W0VovP7KVZmMJRM2/Vz6OpHHd82l+9MIOr9Plv/CFCU2atjZNDxt1nMjjbXN2AuxNrot7eNytxLRbiw4tavHy0z73X6CHlt6wWReXmTkAS1tsX16aKYKhbPMv46JVNimzre98SN7L04biG8yJQlcxbIZR+ErxKd8yKWdRrP3FugJYpX3h4xhGOs7p9C2vabmS8NWNMpn4w/BZCE8DEVFYNvxF0ClCVlKVBJ2mRegCs/aVFFwYqiWP+svStJfp/D46LaGpyGbg3+9d4kTccurQ+rEU57jfWiuakH+y78mEOx/fMIGQDirlamZNIia36GXDJ5u+oAoViA3XMw1a48zjCc6boxS2326VfVFSHJBYP6wv7TmvcSh+wTDOLU4n9Bp3xFzDIQ90/h1DfnsOCGv1JkaY7g6sbCI5Hl8C+0tg8fZJ/LD0xpAIXFYgncjxn/2Wtt8AVB8kmxqIz+4ncYi4RcS7pmH5fNn6YelgPiV+gyzSZuDMH+Hc3uqnn+PtN4G03wUHUU+3eP4Jv4epd5+JB9hdMO29cw+Exutjjz2Gj/zIj0xxjzzyCJ773Ofiscce28z3lV/5lfjoj/5ovPCFL8R//s//GX/1r/5VvOtd78I//af/dDPPBz/4QXzwgx/08OOPP37zBkycbSZHXaXh8CS7LBE5+0Jjc5XYYWV4w7PFm9NLWUG7R0BxO+lbNEPbaxkbdCkctnRYy9UBw8RvgGj0C2zbtU82WvspnXbVBtwNEBtYNtBXzQtMALJoyQ/452T9k7NkkmBmz1XgaSgmCFr8FUTsMiGtCWPXdLcDtNxOKx2+1a5mjTWZKij+Ra5w6FquC00BhnjZp5P4PFatX9RNDyzph9bkR9ZCcWaToNJ4uTT1JD8b4t/1S/TxTlnNtICE3X3Rtst7O9uYJP0Dbc/XoJ+hUaa5wyMAVLHyxNSc28EksdrC9Jldb45zIr0ci2N2OxB2tEppNSzavphKb82Jr2ib5sEmem679i4EqDzL2okP0Q1tzCTqqvXPlh2Or+tiTatlDmlCfOykVbe1bdRumuYl2r30VO6sHhqvlKcUcM4WdHEX97C4JwvTPll4Fuhfv5bFyfeLDazGXwoB2jWpiE6K34RKAy7m8iJNKc3jurAwSzy4PooXwL6IyhqpG0JXx2XlTvF7mq6jZuzaf/n3flqUXowbpluhcgWz5ap9pzaxkB2sOhywSnRHTQ50LNUuw6F02KqabVdA1ASyIZSNOGR/Sk8TYwPgsU9oashG2F7Ydu3WYUcmUNLBjzoDzEzUXDFK26tbOW5qQK1vDTsFNrHMw95YIlpfifdZo6EB2tlcQ7uxIEVrJoMmahmja4OxN9qx05jqfFg3sojxS1htgL1qRB5AAMwad6YLsDvGef/SXdHOM+kAydciw/a0ttlz5vqu4nqv7a5tLYwXGUgd54q33ZRZqKoy4K2A0Myuaf6Mv+NpFH/kKr03e4QGf+sH//pMBYuiHfhV1u7WZRvmBng1GrNO0kYC70PbPyZlmJB8MClQgDn/dnDSq6s5Uxd3cRvuvgpev/3bvx1//a//9V2aX/mVX7l2+V//9V/v/k/+5E/GC17wAnze530efv3Xfx1/8k/+yWmeN73pTfje7/3ea9d5qvuD/7Wzimw5Eqru5u1pVWCwTb9f7WbyhIcEiqeAW3KBR4WpJ9DPGOS3hAi/9ldejCfYtMBpZgbYbxtMkaBkKeKO0HUtYcVgggCa8vIhWpw3HbZFPxCGdIRWaBLKQiHLFZK2q5CgVFYIrih8BbfnamDa81zBDsti0wKh+briIFd4pJseAAhEgfoT25v+KVAqWms/M1qcmSaQPoSytMWQD8qSbkbAUIAIzQ+n6Z8AqbZPgzrI0kVCoNgrmeUPYWsfKrEfXcFHCFNb4+P04ZhwYmNJcQsAfUSBO9EPAFzQitQ3Gc/XayteahwBOgsnGSyFFXDTEAY4rTYHXyRNZJDoeIgBZM+YP1NrHq+/A0GbA9FbE6djcIt2L20ArjtpE+x6Vx2XfTLtJM2X+CP8DXlFsN5CoHrVVsYb5b+4B9891TDtk4VnAeAPPigJIyU3md5J6Mq/tiu9tL3b90PAF/HhRzRLZzZ4cPFGwZvKmNHrai/MjwpdYft2uZf4s/LD7msIf/1gLitvYsu1XFrxZcGJpmGbMWihp11eYYdoAWY6KUFxwzwo9yFdJ+ni/MLwK4gHwrRbYenhLHIMf0wjHdIMYNQPpofpRFn4hWd60aslQ8Eigyt5lONmb4gFEH5jXaa+vRCffda6pb3aur2Kp0eO9/DOtuMc5wMbx3O1BANKqR9Kp9Q+moGyKY3u0Gi595sJX7Vmozihgrbsue6E2UQBJEwTuBIHmmLEyn3TebD5yXZd00+HM4amkedMtYvSFDW7rwzah36K/vLnCkj+yuqYpgNRbdZsDosA68wuAo0vbRkAgD/63d+eZHjw3QXT3jt3tuD1Na95DV73utfhsz7rs25c+bd+67fia7/2a3dpPvZjPxaPPvoofvd3fzfF37lzB+973/vOsnX1ile8AgDw3/7bf9sUvH7Hd3wHXv/613v48ccfx4te9KKT6zjVffgzTY//RMdPvDvSEEi0R+L6ZjIsPDvsTDfaqXYDr0plhRrSu2eWfkoZTFM25GTHi7RcXbuxZ6uarezXjXgryvMu6PZtiM4+rYNAD4pmHzVA5FTI6oBTYULVAfzKmsBxAHUF/FM241XnWq9L0CYAvrBN186D+V3TtceTOYJmhmCFveUXaP9kI8wMhC3XtdlwxYoDjVeMnY3baHPrPKgm9N/ym27HpKzeb3YSr42/T8H+I0kEXVO1F6LdhqsNiSDCQuEFcKmfjw+izF6uIufl8RQOL7l93h71Xmzpq0C65u0iZO9V0OyxarHxamipl264rT0L6u30T7esD3peKw+dXjTyawdbYnZgla8J4lPEm2irnh6zQeiqBs5D0wSIPPyjiAWwCVtPlhuvP3dxlLWVZv3Z04e0nsBpiRbRvurqerynDUBFRx4tYYz1TEbEeWKi855LxXI4HCd7wNwqckN7WNfPe3E3c7cZ0z5ZeBYAPvzDgPf9r0nCZGpnTVfb44o5oZRXHU/5wlskSrRrddrJIke4c0inPbeFJ5qusqGpmrAY3b1t5V7iZ3EQScJb/5M1XVj8lSr8NWoVsmLjKun0nYvv6UCYltJuQip9lN8NeUrfdKVvxC5ctfI8HSW9d7eVY9jN8FQaOk3DOe4+8UrasID56xXllJ2uzy9NPdqAynQ/l4Itqh1XwhqSqpyJNEd2pmkCYDW+rOJCtyoWwsHC+W1MROjlqaS6c//M3ZT/kjajCe3OkiY53zAshulsEGEgFHBhaxG6KqVJFch6yWO+lDbcKc0nQLu3oe1arGlN6TyQ0FRJiJrKOxrOfQYgfpe0Tw/aYclri28GN60uYrv3SdLs7M+oFrAttv76oPGkFs9r5TSNXdDDYWyG8NValp5ZNMMoadm24eEqJPypeu/rPEUoOk3K+qXYsqBrjO8/iuae8cL/yxGKB9NdMO29c2cLXt///vfjVa96FT76oz8ar33ta/Ga17wGH/VRH3Wtyp/3vOfhec973lG6V77ylfj93/99/NIv/RJe/vKXAwD+9b/+11jX1YHnKe6Xf/mXAQAveMELNmme/vSn4+lPf/rJZV7b2Xc7J9OfGi+TeMnefiqKASTeRrbqGTbQQtwWOBnTOENaSQtPd5FeOI/AhdPnH6CFwDMTf5TTVnY1rwvXTOh6XFs1QPBawj2ugOkWzhq0Jmj1T8r6JaTRkK4FxdxAE6CKC1M1hKpHha+KZTHzAc3MgB2stcAO42pmBewQhtTJaWzHwLHNb3Qj3Kvv+BVtbqig29/tQIWFr/0xlfoWu4MS03D1ZlQB667pAinzpcW1H5Tpqex1xrwK+hJXtGOXRxTQK8+OTh7mANTDLpTtgHDt9C0+3qartrfCrYbQmI1a8zWN60Aqxav90DRASiNZhjMJGmtXbYSrBqnhWbOd5/yX/MNMGqfWSWl7IK6mcTjxZHE7wHGr/K2I1FzN8afsUKeA04u7uKequ82Y9knDs0DDOydCWq1qeGI/dEmZIOE/q6LrQU3T4AuRpgSNOF73vBgqgPbSLaHrTDN1Tzg7j4u8qSwro5TJ9v/b+QCk5Wp4rOK72UV4z+zARnh+B/Eq9bIvnRQhkGVTA54+idtMH8eKRzWGPY1yCbPGK5k8IP9Ybo0Lzdc0TzyNBKwy2YevuzHO8lQWGVgNmcSZYqxlPxOCOqNwRgI6xGcsXofmFKwwljKmqfFoWDU/wr1p0l8EWKN6ghGVtUE4zicXoVaXiuc0pTThNB90ps9p7TcYL0iNvyR0RWiqpg/tHdz1+4L4PAtoChqnHLzV6/RDr3iOkp8FmM3f501vn8d5l2v3S4yXoH/5J1GeRtlJabcvWXYWWXUq+Z2a/e6YwXteJ5yP0r5UNsa4PqM8xL9Xhnpo+J3+xD3v4i7O3NmHa735zW/Gb//2b+MbvuEb8HM/93P4mI/5GPyZP/Nn8E/+yT/BE088cS94xCd8wifg8z//8/F1X/d1eOc734l/9+/+Hf7SX/pL+PIv/3I//fW3f/u38ZKXvATvfOc7AQC//uu/ju///u/HL/3SL+E3f/M38fM///P4mq/5GnzWZ30WXvrSl94TPs9z/Qk+cjWhkCAdEOWXn+RDFxCqdiXO1eis/HbajRnpBtWDySUpHAccaD3UQNjfwzc8POu4Hzne2rL0T8XsAK1yGJYfjiXZ72k7fr8L+iEQUYYugvURtFNmy8FZ7eTZCEN6XKd1ME20Fk5CTxemxiFZAcoDVLNGbBbAmsYE2XKVfuyUXAGwcLf56uYFJuYGPKwQzbZeF+larpLteCn5En5MqpCzOG1vJGs4leiF9fJDk8OfK7EjJ9plzxkLNodD6xZOj7BMnpd0lQPxhueS4mSg6XHJOvw2nbBgFsByiBNuk6F92QmL8KPUDt5a4pCsw6EbpV8Eh0O77NAlO0TLDNdz2Mrig7oWomlG8jU/3tRNM4P3M+P3szhIWrZa3BJdKnTVA7pm4btFy2NTadO48ZSZTaczr5gzeQ4M2wfnATFVythIGq7b6K6w3Pi6uPvjLpj2LrlTHn5BfxlN4fT5/LFLfBGp8QrxQ7nQ8Vj7wqlsCn1zEVkyput4bl36JYDZilfpR1N1Qeha7jq5rx4m/NfjYGnJfAAJW91mf9A3DNfs7YsdrtolHKafKYR5YJI2via06W5limmuGn5i8wLIC74FbWh4P+D9wdOriQEd0xFNjqkiPG16DLMx2nidT0x4aUK58+4UcaVH4/07S19mEiR2lZVttk6Pm5UH0Fgb8iX++gBNTQ2I/zvJHWvytPi9NJon3K7UPBOCDqDF7uQHkCbWsA40EDX/bS1g0ONfeKWnhfw9rf16agbYIGi/rb1tMt5R+Z/crfF0zfrJ0xbxg3axdLuuEodRifsbDwsEfgAu8iFdHgfG3vkwK8PoVnb6KQ542VZG/J6IYWj+WF/sd8zs4t8ltMx7VyzlPlxaui3NJepDyWXOcDzpct06d8G0985dq2ee97zn4fWvfz3+03/6T3jHO96Bj/u4j8NXf/VX44UvfCG+5Vu+Bb/2a792t/nET//0T+MlL3kJPu/zPg9f8AVfgM/8zM/ET/zET3j6E088gXe9611+wuvTnvY0/Kt/9a/wv/1v/xte8pKX4Fu/9VvxJV/yJfjn//yf33XeruemS0K6lDaH7QvzuEHyAKSVry42CwthF9CR6vnio8mlg9wkaK1C15m/tuk6UgTsbJpNzV0PRTgqBqZbm9NnIGVV1Y346hdefQ8xZvqIZuFoF6KmgxGq9sIghF3BAlNdTLBqeXvcgYSqdHl9/dJad9GCdU1X+5ysmh0YNF9HTVjTlF3kyjVcD3ZibkesLiNl4ao7neDZEyDekd0vARUi5w1YO6GWXd1+nA3zuAjjq2B0uA79MsHphPasuMMROrG4BXJYkgC5AYutsEVTusTppcCMNjrZQVUv04S2tnyYwNboDib8ZGGsdTOou8vSVt+3BACkvCWc6GlYTTDM9PWq+P1a12SpW3bSN2X+PIdrHdbuPBW2cLoD0VMfp1qW12d9dOS6jW6Vm53+evks6/66C6a9S25rceiXuomjrUuinFl5YC1SpuvYqacpkISw2hdPF9BKCFdW5s9foBtGQsda8LD2w0ytLSm8hEB1yJ9evhfNUi977cLcFathvkWxylV7PUzap4GVovyQKoSgFShxMzrDhYYFmQakjYouFNUcBrrJAR+mYmLAgV93ye//wJH2lZd9AVbvoQappT/Mt9I+llOUcnEaJvTwlmQnQhPQ12/J/qCelbAbPBo3K57iFBqy94gEt1NmTd6o9ihfR5xOfP7cyZAyUCflCvP73DLKOpY1D91dbIqY13UOKEo/a7lnTrkso/PfCDKuE1OQVgHbpgSRlsu6HqLlM0wJvgv6i5ueb6H8C70ESfRUH2O5aZxs0EnEARD7XQAkfMhYX2A4X+PMkEn9A07fSBvybXdtCKmPXdd5GB4Ad8G0987d6HCt97znPXjrW9+Kt771rTgcDviCL/gC/Jf/8l/wiZ/4ifihH/ohfMu3fMvd4hPPfe5z8TM/8zOb6R/zMR/jdjkA4EUvehH+7b/9t3et/nvijk3Mczfio/Ey8c42f8nRdTe0TVIoMPiNttZZaUpdE5qtT8u8/K38C5XDm5L0LbfGneA/Rm+aDQn4stYpaSEoAdsU53VFnqT1gJofGA/aQghyi9arg4EkANZ+sJYJVNvdTA2EQJbjriBL135dulbsskLkThe8NrMDddCO+cburpoNeShgXTUtr4+LDTjjNUuzIUAToC59gkgHXWGzVducMiy30HBICztQMz+HV/JX18uoB2tFHDw+xS3RP8pA0RALwpSAdQyH7fHMn/O0T5f4saujyOExjX6ACdVVwz2zautjQdNAxlUbKtF+t3Ktj4D4OkyCh+Al2w9j7OxxSm1H1HUg/rid/FkWqD0M9aftLfXPwtVJ4SH1seTfGrUcXv60xlde7XfIZNmeOuqzY3S3FItuOjOqcpP8F3f/3QXT3sDVTbk4+6zew4VWZ2nTu2ZMWNLa9l0WtYVobN1D7JwQE87G3jqaA4Djs22abG6g2WGFYy6nWyblWHjJ5ea6JuFlxJnDvb/8TmLHamogiSOJloSuCwBROyi14y4xUwFAmA/o08FNCJj8SBsElSZMaWV1uNLzLT4uPnHGTd7vhDX8vm8HVjof43SVgZbj0pzqpsVgOMUpNbNoGKfTuuyPOPMaa9XH4vhx0nJH70MJjdeE9SjCcG5LCyCYhLITXHOum2KHUiaT1DFlXCMLmhZNFYAm4Eggkb91FxoUTkv3WVkDikRMAAOiVIahaemmAFDMDMBs/OZQ5pHCWtI16t80N9Un+dgswTrFyDzfeZy6WTRo6go3LQBNvyFUu41bxPxSp9dYqgXt61BVxI8mYl0M77LhkLGt1o8ztw9H91NFAF1LeCDazP5AuwumvXfubMHrE088gZ//+Z/HP/yH/xD/8l/+S7z0pS/FN3/zN+Mrv/Ir8axnPQsA8M/+2T/Dn//zf/6ugtRb52QEnjV9+kQPUUcLKVEb9HvxsyQhcCQpMrl0+Be1KQk9Z3Ux7hrojvuVwlU7Qjf8PiZ7aea38gutigIHBUzL0+I2hbAEfnu6mwFI4Q6Ua5wfzgWPi4MQIjw/rbb1lHY+lsU0XU3bNXgZtCUQ+fNb4CaUXUQ3p9TMjdB4Hjd1Ng7zfbeTSNAVWmPfzUeo2cXtmMoBAppWh8Axgsp2mtWlC7rt2LhEhASqcAGqIxWn4Xw6iev1czkK2GnDvPcJ0E4+tbCgH2rVy1bqFhGIaupSg4ZG1boxxkU9FOMn/q/RVpAvNElUu1z7ABf8ahQeLzcIyFl4CsQYbHIfUNoxx/S9m9J6ZF6NbtnkbRB2cz1awpLLHNogSH3JjukskOKIeS10XMbQpyc8z9wftxSPXtwtcxdMe3ecfW00TWPJjznaFzgMpp3iwRumkRDW1uS1Y88QaiLusDCZDTDsRPGeH8AgmGWMZm11/FTC3mMsauC4ghUNVzJNxWuED8POKyL/NI9C5QqLrDR0vNmSVquUcC9zHp7cu7FIQT+k1QSqfSoUyNOvLDz1sjov+SwB7sccF2XU/jb/CUDB3REgem7WvTiav0JxmT7EeowlAIzN3ErziOM7+kDFz58m1qf5OC3i6jhS2dI9BoaqINaFrRMGa9rRey/blCjszmkpTy97kQ7LO3hUbULjfugtNMpTBWSltnPDvT7jO3rMFRLQfm8km7Abw2Zdl4GlOvgUYtd+C4g2IakYOC35Q9atSU5s7CqVy7+toIL1qj+LjJ83+cy4HPR7QYY0pDT//bHVNWXuy9LPK9vozoti58Wd684WvL7gBS/Auq74iq/4Crzzne/Ey172soHmcz/3c/Gc5zznLrB3m53sP7FnPc0TULtXznWEr2ON2AbHFE9pBgxjJUVexeor1inYK/VIXSWLX7JfOb6myU4+bkdtly3kJhwtAko14WcFt8gaB62dM0Hs5BCtiRCWy0t2XQVOU80LxKd/vcwtbdeT7leQQ9N2tT189kPsmrAUefftMSkqz580HUXTVPEh7BPCAIai/Qg7uCBVXJvVsd1iyAFD2nDtpZWrabtEh6na2EmiiU8tZYwDXKgrC9rb2t6GBshCID5onqKGxX8AjUCHwlSO4bFjYXsbriXNn8/VtAQGvJUEquxy2jhXsJHvLDcpNoFDjkT0V+o7TPiQXKzWRle3gRo3weQZbheQnlK43JyHB83Z51U3yX9x98ddMO1dcoyLZmnkVMZFLbCCxD6wd+c8CSuO2NIEpVPM2uPWZfX4wFDBq4fNxAAovYdZuxWzMCgs++Es9K33Me9QDmpav/edlvHoeOBWu8uydkE12ZN1IamNoZYNzXfyebgCMcP3BXNz21O+yXyQXob0+qT/d6FjEu3B/UazvbVpl1sbXS9bOj7kNgpgmrANh2wIDKP6425r7y9pjqMSiIrKGlwNkOE6Lgz6uGu20k7hXai3B7ylyVdHRjbStvI4qEtFb4+333UnbYsLa9Ap9L3P/EmUyN+09bUrPUzCHVTboVjRRgtPOoZw5lbazE2HsjSJNVdV2heBWjN7V2h/3MXZjdWokFGXCpq5L1A68zDg/pSm+Xcg+WfPtccNzwnlL+4gWfialrOR/Fa4C6a9d+5sweuP/MiP4Eu/9EvxjGc8Y5PmOc95Dn7jN37jRozdekeAb5p2nfKGuDPKP1HoamtVEqjVrLxqFrq0N+76AyRPcMRO3ZlPr3PmL0BvK+2o0FUMhCvZ/iIhLEyQunbtxI6OSIg6E8qO5gnWI3kRebgdZHLAhLE17CYDcIV2sFY5YEuu6Fon/juQ5Q4WrKSlID6MpatpqPr/YYcc5x1DfY/XTFPzmMfMydpvAPW8+ROWVZrs80oEB6BrD3c6cTwV8f05tjR/iy1xqUihn18zLVhBfPbPdDHWFA871bT/OFhN4KrRo4d2iqqHJfrBfrwwuDGNWE7rI9vD8eMi67s6pPQYJZ8aMONxlNDMkEWhLHy15aSAsFJhC9qzzHYKenoSBm+uswMUzUmzfGUe7glZU/oWQBTE71MZ033OFlalci+T+FnzJHtnz9m5OGqnF2+du+lhApeDCO6fu2Dau+R4cyeXhKwbeK2G0xokG/dpmgw0upVGWNHtLQrxy3u47X8kZE1hz2N78glh6bX3cBXwzvIEvgscNwpPx/SpBu6ylwaorCZzpXe/DcsQ9BntpkuJB8WDTA6Aw3xvwk5/B21qcj4nQhuYsVvcpaRuO4ZgMevsrhB1xAL/4ketdPsqqIt2lYS8yuUFc/6hecEEuwzWZlQ2Ka5FS87jaYQiaIpb+7wXSn0apW7zmDNsJs2y7T/Wup/ug2eAiQCs9xGBqVoY9+OxO7bSan2tYMd5pgDR7Zmif3VmihGetYYJ99lXc6lJtYnWOSdqvHLzM7EWmjBlxryhf/5v2q2SaNvY2fMo1C9Jy8Li157Dfk9Y25XaxtPXnh8n1ind3XQLJr85brG7YNp7584WvH71V3/1veDj4XNbmGBXC/ZIwpB+TrxMSHKcYYkQPtrbuUkRLDWY7Zi2AFP8ALRv6me7XrLjl2jbnr/mT0LXelhC8ocWrPZvSUYB7EyoyqYEDHwWrVpwfV0LthzeMGq2ahzEJaaR2wWvov3Tsm52YCF/svMa4Wam4A4Oot1OvParddjqG+Fgut479ZT46nweHsfXAdCGPBqfvfBdOtix3XxR95vNV3RQBftkvtaR6CJ9ELAei2NzATqnA9ohHGHSoDfGbctK8NS1Xg0H2SOqDFqHtEn4BEdDTz8MStiqpXQDotAdzVcuv9ZZAVvPmADb5MfJUbdFx0zU9BmDlFbbUN/qp3TqM89f6puyWNtaaY+0/Tovr8+ZJxd3cffLXTDtvXP20s/DaUG2cE1vNIPZgOIftV3JT2unL6YDnWYMBxLoFWFkw2UAC0x3tVulaq/Oy7WX5qfmMT6D1+A5xcmRNG/zVtqKBdT2csXBWY1/6eWE6QCAtWJbMWRCwOgdU2hP711tdCRRakNFQl8P5zjjI85xC/7C6XAPurWHg0KohFW0WRNz7BhiyyScqndBbNanbo4zmsp68lNnTcsnNEHpVdjKbjONO2jDjfhMhrQZlmt+/s9xNU8tBZOSZ3EF6O7RG6Cc0h+L6xi3Tez0hRlrcQ5cWLUzzvfy4RQ3jkxut3nJBFn9hM3rizMVZm6TNwKfskj/XdKfM1K4iPqpPwbcSzyc3AmzPqCk2g6JFbDGX9zFneNudLjWxd3ACcYn9tgTvJus2/nvmmmBwkOgpDmPDtpG0Ovb5y64jnTdpJn7md8tP4AQ3u2l7dA5cKYDDvwuoHsH0IcAxG1jMdrIF5qup5siyCe9ruBTac3UAQuH3Q7soi5gDVMDReDq5gS6sLWYFzgsT9BBCSv8gAWYnS1xDcfo4GEyYdBQHAa3ROsYxb4kbNVSmxqIbvJnNtlkYUiLNMUR02Z17T8SrJo9WN/Li53XdjRnZ5jjz7hEJH7IKsV19RDxpA6HBP0NOr97BvDIAr3S6CMDNujAR6NrZ2+tlWoBJNEaaz0HYPnpUR/CCv+h5Uz2oAiwVs1XA5x9utTP8oc0G3gN8DQ4ottbZqvmZ4VudzM9wWACnIkWuR9BeSrIHeI0p++5U+zhzpyNwW0HpxftgIt72B1/Hm/hjA3zzsFxHi9p1Yt1Kd1tM5/RqPuVcWfdX5B5DeEnY7Ien9Ij7PjOw1p4CKEsOI8vvOeG6YV70XZ1DCjrYE5qlhYv72vaFVTUD0WVzrcLQk2YKm2/F1HHfhZu3ajpAshUQcep0vHskG4Y1fAvojt8E5vee766cVKwos48KYy/BBkGv0KwClz4OgAPBxoFmAz+E9yMvLbdnBJ2U6RpxHRSwZg9Rul0pCM8nMH+sbR6D8a2hzpRLoCkg7ZoPLxgwa6k8tgdwFwKOitTySIBDwJ8DZD+Y0OBrOlaNVspvKvJWtISzp0Ogs3k+oRobjPN/ojmJyLTNRql0ks/iEQ3upaqdIyYfm0k7VerLpknKA9maJ7P0nI31PMlTnX2WO8ZJ7kt7oJp7527CF7vmxNkUHpalvPTpcTLhLbyMdkCaSFvGp5GH8vxvvbrpF4HRpnHTTMG1/HLtl+3aEratl8DyCKAbtgTs3ADmK7B6nnozTrT1bxF61UR5WVBb7YFO2i9GmA3G2UO4vvBWiRYtXgQQB/9V1iWO12ZMzQGqtarTZUkBNt0M4IWt4f9CrZsYY2EwdSA0CZK/qaJHFO2/ZgUOrSqA5NFohz7BoW1Sj3Nd+qcXlpXN/IaF+Gg8LfoRrWayQPt9lzFNavF2tHrb9NKy4FP3ayBhxGmBmRG23p6pG3xbpbA03v/2XhOAFIDTtpBWItfZmYHqCvS2/+SlvpzIy3RoKxjGzTXClN7ldIBlL4tQLF8RiU1nSqrwleq+qS4oe5S/rXckX6/De6OHHBHDjfIf8s76OIeAhc4LjRFw43areOc39SAnWG8Eqdn0Lnt01YLaatqlJUkVzt3w2To+zHty75gyyQsOTw1NSA1D2PK2WV88RdYiLsjJaPhtBUKgifUb+OeEIirQRvWdlWeCgGrCSIlf7q0pGu2KUl376/oeeKHG2EUe/ZcGUHOU6vcbYXiEcNAnYj37Jx7UuCWm+2XvOlP81KHcwMn/iafpoSKGablb6KCnZTM8hbOGO9aIPK8s5T63ZlPaqK91CSI7enpjkLXObX0RZuGBscdy+trw6SFPa90Po1VxrANB+fw5rhOwkmHZQe3ebbJvOLxqGM41ewW+O8Hi5zlp1XDfgnkSp3nnlq0X7n82nfTtk3jdjoF4z7EzoeUmnob3QXT3jt3EbzeL2dIw/ynPL67JLJDI5N4mXgngKPzmR6hwntoFhwzPbDBY0nzuni3SWU5d4yw8sZDfN59PwkxAWSNVLoI2EKQf4wwIDbAiujvsQykOoZDBxw8G68mPKXP1lKZzOtoszVMDzR/osEKyB0c5Io0XbvAVbvAVYCs+dq22S3h62xI6yPiF23qY7oMeSEI7dc+N1THg0nTYaW9jgXAugCLlkO27MdFF8C2NI0N2dM0MW+CXQyX+DypNGOeBtpWTl8k5hDQNAAW+5HBH231SWbC4F51KGd0u2UEcEThhv8TQCsAZDfc/fVTfxfexvAnfhvYkhBmrwTCeoYt4MrIS9HbMUlDqpv4P9ft5SvYkque2oClUAqXdrLjOX+K+YHxc61t1m+isTrweoOynqquWce+/hv+9TZ2ysU9XM5xUlnQLI7par5puICBkr4nlN0yU9AwnOG2Xgfge6VvAEUQunnQlgtqj4Qn+aZlbZStHXtUcwYgbJDSFh3j+L5YfotbSdOVhKiETbO2K1wwKhzu+MFfxCvl8+4lDdq+MXu3d48PbYL/2aTBFEaVIWd3LB0lbQZV85QLzdcmXDKNPbaJmT+Vt1jbxxkupYo34pIsg/2zDX7mOjMNduUX3FYB24hl2FfrsXad0p8zmppmphhmENPvMh8Xw3e5Rw3jOtDMaZjQ873zk9NmZTCD2s5QKP2UG27nNjRcK2fafAVw1I7rcY3X4rxTA2B685PmRC9S7cA2xBkUfQENLN7XFj+gAd6fbFLA6xq7ycs8y/ZraW/C9afCrCPPUtLOPbXMB8xdMO29cxfB6/1ygfKwuRqcihC40HPNCuykmYbcYL2FdtvcDNulJdO6nzcqg1CgVZHphfzqC27Q+A4wrUtJkOV1SOwBHt7w76UlTYIO0oFiO2tDOyHbfKUDtPohWaad2MqbabX2+FkdyPQO7tMhCxg/RVuuOk2YGnBt1x7fzApY/B0clisH1ovwp2aACVzb4QrqYfsMLWy+xqDlGbYdN9uhp7O3jxUpZKepUu26Ho1bAFWJdDMloAosEuc/eHwHARRup0XkBrRQxAXYAUzAmoWwjaHVwIq0cmUNOhfUwvwdYAsC6Jlpgqr1aliVQM0QLo/ebtienQ7EUrg+99YtMxSG1vaVQJjzpQRMAxuS8oMOcyS9Pb+hq+wOYeozSwdqP5Tmz1RXNYcJx460MqbVYjhuUvyYcAPnfaKT8i/u4i7uwXe0T7HbtuN6LDzXdJzB5iyElSmdC4QNw4Hj2aSAjmVKKa+2cytseBCGGwuerovh5uKocUn4W1nrNN3S6h0SeVrcFRTqh1m5mSovq9QPrt9GKdcvNZ+CTA1YUyk8EcamtmuMz7xv2Jn5gpoWcdLrZ6TJQtJauhQ/x5nNVxUzc6ADnuFDSFPZM6zDFRRMpEPlgctOcqU+1aZRnBpLFZyCkWZ9VtOm/SqlqWvuo8ljPrQzlevPoIE7AnlCHcggPwHHcsdWGkoZpYU2IKZ4sQ4tb2n2Q6jgbqu6zuDdL7b20qautUWo3txmK3di41WIwd7fZjYgx2fWQljKQF382ZZZG3xN6k/q2bZfd9q/g0RPKUdkW5Ho4i5uz10Er/fJXdlbsVNfl1z34Z6VfyTONwCqO8EXIfJyF4gLJLe1X60WmcQHFzfKvwWWyZ80RGvalK5qPkTY/QiAPWqXWhmdfy9/pHe7rGKmBexaS5mKuS3YZjbA47sGhBRhrIpCcAVBt9u6e7/CInfwyLIGcBUzL9BtfSVQG4dthfZDa6phDoO8NqIA0lvWDD4WKK4GKK3JH6CAzQu4doGNp+b7LM7sv6a4xc30ulDVP60ju66RRuFq91XoWeK5tnRwAiUhbN/oxcYRzf4TGoBzYbD/eNB+kmp/Jvu48Omq2jvbManjLulAsI+OA0NB1BBjx3hroFIbys6BhzEKfA2Ddp4UJOjufbH0+M0DtwgweVxvP2eYYbyT3CQj4U9vFy9F6bMvFBrLE15qP3yZsHIAApxH2ETp52kTTu2TuwAur93nD4C7gwV3bqAdcJO8F3dxTwX3gSfa/pgWC/FdxMPmdCuuSns2sObsRb5jw0LrNtudn8hfBa9JCJviCPs5BtwPezkF+83Ce9qz9eDW/DIfYJw3vugPLdhRY7ZJ7pbFupFGS+jufoG9YDd6Sd2fBavNxr9h2VyeD5vk+qSnL70e+1rKDzBl3hIvPYxTncD0sob9GbHPMr6Rkmb4YgVwALrwteMtIU09y0kAhcubOtqXCxD2yqfCqqGNO0n966a0++wyJMW37+ojywFJ7eM1gLFbPK+p7xXDMmFjMUguqbSxcRsduNmvO50tml+Yc1klqyDwHES6zdeJ5mu1+SrUmg2NWKZL9U8amMcxxwV27uuClrhES7PchbX0OyP9WhhUueKxmDyICQvTMzUoyABT82XmzzQbs5cZk414ZJqrP3h8I/HBdhdMe+/cRfB6n9z7/xCkAXeCO4lM0i0nTSIncdrzh9aBlnQdYhOFLZIdEdxEeLr5eeoJftYStDa5IOKUNGuL+5UOJlCPA5TuJa5qDhTA3PqH7aZmjdgVzW9ai7ncdRKn0KT1WtpaQfmiTYN1Zst10IC9gix3cJC1mxNYsYgmfztJltKgEG2asm7zVePTtLvxtnBrKniY50SvMx2khQ1TAwg5KZsfWKTfTcu1zxFZtGnECmU0SbOHu50CGpP4gSVDnGmzGvMW14S1Rk9C11XgGtOWdwXVac8a8bBI+zQKsRzUz3Vmn+/MnQ5vimfKA5FejPsXoJT9FSgWm6+9mQxAcxkS/NU043Uefdfd0L9cJwldU99MiY/U0f2zt/ep7HvdYK5XBLquxwkfMHeFA65wfXtYV7h9fXJxD5f7wB0UDDYuOrM1R/fCShhyttlL30U20hof5leK1wk9YVvGeIT56kt0o3GBZglHGXRHDiv20wc8ORGsJqwJw5ZK+MK0WxnBt7ilS7Kk5A/p1tbFI1bDuXtbc+xFfblSfD/3oNctKLylvXPOg3qtm7uo5xGaOFpyZcrjaSs0zA7YHbEXa++DkzGGeJOnzVmiscHIll83/P3ZUZWEl6upKaMzfjZhWmmCsyzcByVNw2wEJmWkuEkFWtOtIdJTksaqMaN0h+PLiRYA5ZVowFAGMSbesqh/q2FOT1Vjwi4KCzWspY831trad7P8Y/N1MBHma9QwATQq9jZojIfaU8cTNCa1CVY5qSoppElK/HNRPKSlin3HfVVZ3CC/+r3fOaHgB89dMO29cxfB631yz/1jC7qK2unupN1a53QnxClAglJ7Gz9ZsWiXrHa2hk++HDhKzu9+WrlTfFuwdSPtJD9fPW7v87EtoWvY+MpC1yT47HQBeOOahpdJehd2ZnMEitVAqEzqdcC9TkD4ulEHEm07WKtptoYQlgWxV5DlKrQXoMOBWgJsarxK37z98C3TskTbO+unhhY/m5/HnE/Zfgmt/S603MBNp8e1Z0L6/GbtD5/yJBilDgrgyzySJutmPGnLLgtpsEoX9q4G9MXb6qehIp5iETStVwD+PlrXiYA0BiDSuLTZqIgDtZmb21/KWq3Hyjfe2m/FUfPVKWfYmYsksCi9v4xgd54R3gyuctmzdC9XS9jTSbtZy3hp0GlJ33KDJgwB0srXyAvFb2wn13F9lYQst+9N+B0ccOcGIPXOBaRe3APunvvHgP/x/+OYwH++7pSFKWFMoXwWrkLXej8SlzRMW0yKb/4Ztut35wPuV4kWnW3r1fHhGXmcj/Ly3/le833ZSSNc1w5TbYBkNAPQ2g8E5mvxo//UtMWwoVqd8DRA/adAst9KJqrENkQbOqkD3sJLKWPuAjfwnZKHNL7P0xouW9DAotDL3pjeVeh0gqsVMa+EDxIoqH6URla/YcdaPrsBZE3iCqtJ+3BGQyYYShORNSp9KcmC7Gndkw5jpl3YSkwSyKpy0+kkGe46mJPwdlADC5pFW5vEQeqm5qux6f1GdQ9jGfw6ZjzZ9TmbuobW4Jk5gl6x5fRe5y/XKms9f/PrNpOpbZqqbmeGkPIFVbDbR87RtjtZ2USBD/3Yl5xA+OC5C6a9d+4ieL1PTgXNwD2QFrCjz/oJi8F4KrdMvJkmCR13d18wxjl690XWNphZ9TvC1wZDZRLf+dwoM2l6Ek+7/kna7LOt4DnSOE4KwA1hKMWhlOlC215Ov6to/7Z9xWrA2PMdt/WqslKZBN4dnNvBWWvTanV7rk3YKnKFZXkCB6wNBAMNCOvEhisQwlltwMm1XZNWQz+Eq2yK4xCPE7DCKC1+JY+bF+jzgYWp0Mkd87iZyYGrRXDQ+LEA1oBdADM/MDMv4F9gdA3ZELqK05gmLecTMxuwatSzxnz1PPZ5kvTP3Ty/Qlehslt61Xpt+KaPgGg2QQC4ELYFhdK1p0sSrDdaztvrdoQUfTQoJRBPEmSEo0779EiB/kPIM0adyEvQOMuyq4CffxR4ebM8lDCUofCD2hJPlV8LM/7dMkYlOYv/5piQU5Fjwg0dT/+Lu7iLu51OloJp6ws4AdJHpr4WjnhTUzqlDSChrOmUJ2GpoZ7Mh+2R44v1wICa4keslvJZW6nMpNkaLTsetg3SMCddJpDNfBh/VD/fFzs1XnPXcR8KxQmaqIL6MmHlmtd5tX1YU/+EEDa/uOePfhwPSpRtpgQAE+iaoGsMh2NFAGrzhqBntndbwmwKosbJAtUrx+nMSusnPf9lZp0OFhTia3MDP6FcL68IX2uZHN6pL43fHk3RdB3S9yIq70zCYAeIhkxVSglcYhK3qdmqUQd/11+ltultupRua2ntEKrIs6v5SvFDw+vk3cCiM+JWdhf4ihDeroJxUvrILfX7atQuXO1f5fV+Mo3wwLk8VkCS11GbWUBu/YE1H7xlVXvf8ZDkYjfdMaFrSt+awBd3cTvuIni9n27yCVXRst/JeyRhupttLMG0eFQQXK2xOAgWysv1CdFwObSLzwWwZbUrG0hux4l+KW3jRXLH7yAcmmyhGsphsOtgGkwz0XLlPC5oXUfaieaqIj79tw/GhOskwW0+sKuD0WXkx8ExabuKaL/bAQzNvMDScYWbD0DbTJtQtdt3pbQIb/njOuyN85lumCZKP1G0mwxQMiPQpzabhDIhFsd5ORwHMz0gTdBpuzELWhfCcabg3gWlLb0iAgMV2Ypqa0sHLQu9We7C1bDj2kFOr0OWDJJcggx4GQnszQ7aouWAMTc2wu43XEphKU11vHUMRA7Asx86ZuOA8c23t4yAK8g/YDGm23O18bM0ZBqvS0qYyyENAqZnnvhTsFOfFUHeU3xdnPE/c6f0yTzbbHu7te5iD+viHnbn5nEAernY774I2KLAOxz98J7EhWACeTGZYM+Wv3z67/RUJwk328tYw0aB70JbljEeUDFufLxfFlWhNC6bwyTc3dN49YXYBax0UZu83cYv8yaAyoql404/FEtYcJnvhhIsbq7dOgtbXGIzwtKvDrAau6Z5a3jK4kFf0cQ8EB5HnxfbZ2mbwMfapp1nFi457QQnmN/jaLg5TSFQXQOPeZ05T3JyYhrTbPlPdRXUqc3PmFTRL9FLte21TMbMU6yFsV+DBZ33uzIHs7Lz+uF4K0krLbEAq61Cp/dSlvVNAY+eROteWh+0dGF6jiUOwQWO2nx1x3bTepkDTUoMJlpzZpMwOie6Yvx9Uuka1WRNpMHewuW7rghf22+vPgOKAsYwTL3+Lfuu6bfPkBh81/STNGMfQHfBtPfOXQSvTzVHmwCDu13awel8NZhEHTUtUF97MtirG9ckrpoeaIKRwp97t+P3bcVu8NGvo5qtMskDA98GyPeErAh/uRtYzuYBkMA8A+ZU/hBn/JkA1j7lYK1aq79o2lYTA10YK3IFE8CybVdZrnCQZuGlaadqL4IEqdoFqAIHtClN4tMyKXmadkPXnK3Ap7iTMaVtijSe9kKatVVncdiKw0TjFWTv1Q7bMuGrtcEO1xJLi7ll18zEwDQO0rSU0UGXkPaJGZ9NeaTHa4QFwKKen+eWLGRXycAaA41TxoD6RlJYp0Jc/uAuHaYFK8N+Akisg1SAadWqtnmpKn4qriu2Gj/S+af5ZXPAnRLdzqJbp+hmuHs4nboUUI12FX5SU4l3H4eTBmTb2ZQA1bNX7HWA5TWyPNBuvaE9rPXyWdbFPeAufcVljvGWL8I5fVMLlvEcpeW7lnzwvS7XQ6KCKuRdoozQeCU6w3CW1+OL9isCxwUmtDxI+Tg+NGFL2xIepfpm92ReAPnuygNXWCYrvAk/Wy18WSepp9vePNKOaRxOaRLh9rI/MOJg8zX529kBPnC0X8LLt5jaTvVuN0op6RanRBepUardZ3HtvrRnQds3ak3LNTQbZfbWc28/5zTCWea/+3utAVeqW9JjM+/iElcf11xFPI+8PHg/CobRZGHaQE/5QPR5Ltd78DF3e42MNMfTDvoofVAbLo2eVqsdH/KaFaz615h7YJT9THMEO46tA+YZtoWcLHIdj95FE3wmLI/0myH9HhmrBSSE2Pa7yuqaCl+pjt3RrmNiLPbx3c57O9HuBdPeO3cRvN5Pt/e8LpS4t1pslbNnbgCxmCfAWvIGIJ4zOixkFRBPgLIA0KUvzMOrI+JEKOMEYEeBk53e/IK5lqu1eQC25u+AdiEBKoAqUI20Hi7C1SoMdfA6CEkVbJIgyikasT2OzQzYybniwJ6FtqB8XG/n1UwK4AqCrvWKFSJ3cJA7FDZth5U+EVsDOKMdqCU1rccvFUAjNF4DXHfYPICS2Lq3cIQ77ft5F2opaAOW2IBncZ6GEmdTbBLn+ekTcRFtz67lWTJtmoPSCxTLizR2bibA1HSlM7cQIOtC1/jB25/KFcgS7U5LJzK4UFMJIq301HcEY7Xl0tyarI+bmxPwcWm++p7FfmgKjwWNwTagK9OjzpWl2HylBWoAlJO0o05Lfss7WYJY+DuySs+sBv3uD5tj4R3HOHdMHIt1Lsu4TZ2D0yHq4i7u4h4mF5Ititvwp+i+W9ACKBAKS7pt3WNdZlEuaeGyIMP/K9FkfwhE6YV6Cmd/YENazAkLZtMF1N4iiAVKOOFKu4opK+Mdivhqyg5gvQKg7Se0YQuvt2uqTuPMT/kMrtiQWD4AwrQ9bOOTzA14/2v4xbRd1V8qi+ctw61CY5on2HyK6eamNMUVnsYasXHnwrbxiUCFNF8lNF9LyzMe6fehHUOG8GulOcc/KxfowuGxRzYfYi7D+FLCdilt1DAGaL4Qn7vwY5ZYwYxPIqU75U3f9aPcdwAoS/IquEogaptvK54TXLtf0DVdSdNUSvVS2JzgZ0CwLAhBJg8hgc4oz85cCG1zNRMJNn+lP4PUJfbfTBFgkpbjsBu36fz5kFiDuc28GXg7kcbkGKR1eivqyFw8Wt7FXVxxF8Hr/XTHftVWxKGzxFlQpiTm1Oo2sEjE+STa8nkEMGqMYisciGlujsDSz9VmlRNoos5tjdYNv6ztE3EGuzCw3MGtg2PN4BmsAUH5JcB2Eq4yKEekOT2YHgDFRVtaPWsCrRv1d9uuSnzIok3b1TVen8CyXEHQNAmbNmsXkHYA3bRWG1DitLDl2ujYJmwIXynN8lBYe9dumOA67rr01DCevXNjEwNbcaY8Cj0tbun1rNIOvIou7+Nqn8FIf9QX9U8w6+c64zmfgtX6ZLEp3E0HOB5sjCna0KmX3Utdu0B7QVCuCIGuqDfG6kG3H2tdCeBIWBC2XY/Rwn+csVJAZnrit26qIBlI4FFQzA5Mss/MCXDRM+dJG4C5KofwD6fBrKwxQAwWXLiHGc923o2lfdy9DrBr5r39w5InNA8jEL2jBxz0BgcR6EU74OIebOdfjFS394tVEbjGykHEKcfumBtYCR+FENX4Mv+YngSqxT8zMeCImbGz+Xv71awcFiwXNDthTMIwgWrc3e/YcnYB0m38syKyUJ+bPOq44z7U2OtdqhZ0jGSyP8IEy93fLkn40AS2ttd4uI+3FL6Qxr7HqWGliB2avLH3c7rUCG5DTAX6b72+IhCegADcWK9u8HgqVhr8faCOYqvsNwUGT9CcZcrXJGnMk59rxmlbcZVNj4tHYcc0xIk1+FwWjFJNw5h8bzXMtF0T+pTKtY6gMPUN23w1dtq3YFrZZPYsN+FJX9N4UU7zwom8nqCJdtU6Rte/VfOXC9K7wp5b8TpZIJyA9J52QCE1RraEr/4M2TMrQ3GzJkwn7CnKB7fW1MAF094zdxG83i/HyGOXriyawHGQ4ERcgUTWXjcDx5amlbyUqInvfbMCp9G47dcTha9a4ye0WtK3hK9engAsDGUQnoSiBYyHpA3kp3j7/Is+Axuuif1VLXlcw3UQ2q5D+tqRSGhP9jTkOlv5V1TuVdd0XV0+2MwL6NTPglkXuAJNyMp5+sbNh2z5qbODYDbt0dHnNpcAuFrqbIoY9rGNmu6nmhpwbdmahh2TA2o//NjmK7XBhJ+6NAG32thIzEMXpouHIei2nlqZBumaliu6RjbiR8Xa62NteY9H//WV4VN7c03hw+IHbTngcXDEYaVwIML62dAQXlsbA0C2VgW4sx91QsBSid7ilYBoFxxDu4WHYvPVykGdX9RHNbyVtEHn0ZTOpAZqGTDXfNTNo23dyZpvae0whPmmICWw+fZ+treUtlrwluLMG7k7WHC40QmwV3eRm4u7uCffJRuv5maLxRa+mxGRUC+wWibhz/oV4W++vOAp+T3e8ZvhQ6W6Av9tHba1R8Nl3yicDmnlF/H9orgQLK99T4x8TXC5unZpCC+zP9t4JQQ2qi8OV9snbpbmd3+xb19LRZfEWM41KG1T9X1yTA1cUeMw5puluV+CJ36l3sXIyeZrcrVw8pvc04fT6Df9MsZvutIbW/t+x1yJppZ/BDdFP2t+AUDstrEei4y7buSze+uwId8wmJIHfDK4OuSpbadJtTWe3AmVgBqaBIpDOW3wdzVfyebrUH9t41BBrVmyADZljg6Ibsm/P1JX9Xmj9gxKe0pbe7V3QzUjJjGNd+fv9uQz7X3uZm9O/7JyKKbTD1VqzLWjj9MtdBdMe+/cRfB635xg+NR+l5xoN7KlaFuhOYpAawWks8KqtqvTj7uis6iTeL4zPohwLO7HtV91uy/Y33f4qakBa5/750LX8YRb27BJ+AkC2ajAu+XNwlJEPUvEhaBtQl+0VJ1+4fK7f1EAa2hLWh4N4G5asVhWLMuKRa6wyBUOy9q7yIBu8y/kN/A7nkob9l2HeJT8yodxZbrFN+lt53hHA/waYFIlIahmwehC6TWOga5uxImWNIoTbSDIf5cswSNNmz6eDWIk7UfpQEUiThabwNqGTwB0mgbGxDU/1PKT1qr2Tx5da3aN8j3dgcpE61V5GWkNz2FEw/qDH4JNLWGbn+JjJSaolei3qemBabyE8NXju8BVW78lswOdVWNjgidPQ1fcbGq6UDoPNawvqD5eAyW6qoDWOWtMs7l2F5dMIchOWuW/0G5V9zCC0uru4HBDkHr9vBd3cU8Jx/iK4yZh3UrnPcWieGESJi14ymJ5cfb8XF7xDwJTK6djLceDvRzyJ03Y7mcFBddKtTuVOTtgaytcbbqyyamw70pmqLp/ob4QByfRz0nAmj4H0eEy/AYgBKGSw1bmVljkSNqkzMXBnvGvNBViLMMUVi9XR9MDNr0m02xM28t3JC3rPZrZAaaMvN6Y2YaviXzHL/P4TUfc2jNZcZFhQFUsOLf8KEp64VMsNrnjWJphQrvj2JjUkjoHm59dTbgRmXeQoH012D+L67qpUYbZK13zN23u64LTFOe1aMfjhG3R8T/GMKmhd974PnEKUl6wJoZ2eZgtoK/srBuoZ/vqBkn9Zfml+9kMSUskpVriO3XAJt9gHE5hK9sxduqSbUA7zKHZpNpyp9I9YO6Cae+duwhe76c764HVceEYKaJYyacc+Kf3BgrTkumZIgwAksNqdFZW2llBi98krtAOmq+9vgZgqZ3cZAaFO5+d1fqmWrcep1hd2Gllb5gQYECMEnY6ZPqany4D9Ek4ixJ2oDlqus7iFGsIb7HGXrwEvfa6ZbkDyBWw3MEiK0TbibfNhADZd1WNeFiauhYs0wlW14hlu65xqFZOm9p/7Vqxq+/M4dSARB9DxxQGEiXA2CAYtbHficNO3DGNV0tbF8FhJb6kzWkTnLqA1YSzgrnQFdJsrkoHPN02sgAuiK3mBaRrtzbzAq4j200RBCxsebQJMBHrgECAg7jWK38BxICM6+THLWlpgLAgoq2n+BMYBAlZUzyNb43vPaUVhJm/1nuqqxhWxvjcHE3tHwSuCJ4rfzY/nYb7veDUPZde8ut22qxZszwz2hNZubiLu7hb6s7VeNUZ3bH8hGND69MwX16FEi8zbGrxCQ+iY6fwo/g1xSvRz1/WpzRBosFQ1kbYsKm3vrbF4qJOE7r6QZyg9V7CL9T+8IcJIZn1EfWppPioy75gGcKwPdKwbQ7ntDbO6UwAhHC2IxZDOfCdnwY/8MA4nc5Jm0GWdCdcGNqAFm74btVmazc+uaYCJ37DXAloHfOf68oUF/bb2JnwdYJ3LLjZf0noRtNHmTK7YdnYw2kb2MsdH0ALxEClwewAy8gcUFb2Ii7qkr4GWEK7z0wOZOG7fSq/kw/qChR2YK5TCVGbog33x7E5IYGrUz9YMyV+FdTOZoGqdWnCs4xlCwanLvN1lv1QTA/Yqs2pU7EtPxrrUm5q7yOZ4tmhq854nm6rqYGLu3fuIni9X46BzFHC7eCsEE0+mZPt1b2VtgG+7K5HwgCB4c0wrXgnmh/Y87sWAvPlaYpRyAm4sLOAao4zOp3EJbqaNhOquqZCxM3NCdT8607+OHxBGcwaslpWyLJCTOiK/Nl/MxWAALoI8Ov2XWEaCSXN/SZEpTIx+g8bdAcbQKE5PdkQXYBKfiMzIDIAZc3+irNmcV7PJM6G2MvsNl9V0TVXNZ4fvkz7lRq1QPon+SF07ZJon78iMh66ZT/szDwBI+lFwhSB0Xcgh16e/6A89Adk1SIcFAdk3NY+szqd9v6WwJMa1A5qDWgm0NcTKSkAZTb6f4rZAedtBvysTTSWWy6lez05neeo9AaxAoLV700H6EcNlaHUJVLmlVDegbG76wykAtFPx/roYXZXONzoDf9NTo+9uIt7qrijgtfJQnGSsNZpeeE9pt26n64dIfhuJuHf03xlP3/yH2YKbI8Nf+AzCT5oz+CwgtOCS/9SyeokM1UVyy6i8K+c+ibs5gVgmqurh5M2aaE1+rDPyv7tsFA40lDSkNMk3yH9Y/0a7zxaXwXPjAFnLuG3mgYMGFI8xUaiKQtob6d6+ymu1NHRD4BmAOIAcU1C7wAtjNhNKe0Ef3oEruuflOsQrWSZ2c/1e9fKZGzT0jTlj3zbXymxwnbUpxtjSYJvwldJ48IBIDNn6QT0Eh3VyuCM3WxSbaQFlrTyZrOGlJEELrz137GdXC3AglyWnk+ZahkNM6eO1GArd5eNVIy94fTm79gfkbGNIU3QpAlhZIIErIeOMr9VZGGeoNRWaouqYlkkZ9foSwRpqjMpnTxk7oJp7527CF7vpzv3Vcm5pgl4cZvSXCNeCs3O3dfXHbpqnsAFPH1H2tZ+nayIvB6bv/C8LXRtOdmkAGugzjVgt/NosslF2qgUN9pupZNqkcH0IORNoB+5HSnO2r8mPiFXWOQJHKA4aNhj3bTv6mmm6Up+SxPTWOW0tuEKpwnZdIVpvsKFr64Ri/jkfWtO9q94sp1VjkPILLEV1/181xqHotV6JA7S5JeyBLBxaba1R+wxVQ8vZkpA0LVWO7Ax8wELfd5jnyAtLexdtUr7/BCGVxpzsiQo1z5hWjinTZuOOGwaMQDZwUazsWHNVH4+jwxruAS4MAC2FrVvdmDVJsi27AUTDvxVJF35TFq8MxoGkhtlbLeRQKSlbTJC/PunjKPbMjWwNY4BrnM+Z/OkgXu43B19BIteH05dDiK4uAfdKeErd7N14oy4+EILvgANwtfggPYYxocK/1/rsQ/DjHeui7Bp4MagqS/1teSZ5u+SLBfx+ktMClO7GdOFyQHDch0nugC14cfFBJDEqwlC/OU7NHWFCy2H9BAutmW/Y8hy1bRzaEF1npKPzV+1CRHjPgrmypCfiF28Xya+GjOduoRPKk0TzIa9U8cftfCKAfQ0f9JgnJXFWCN9gnOkPkOPmskq23Gn5zEgG7LQlfFgEaIKp9Fd583P9zwA0cc2n4i/ZLNAmTjWj3QvLZaq7brRKVb9NL1zb+YDamukfZ3mvxnIdIN4ZxkwVecr7rNKx0mXx8FHkThq9bD8GhLdGH7qKw2cul1zSRfEKcinOJoQWsJpQnGdApz1g2bD3VYofMG0985dBK/30531xB4h9h1PcpxKBqqgRU8mcRSvdXmsoBPb4VNojoYX2zxL2+UM/wwoQ4st1d5aErS2vAEIY+PNglanL4LZEKiVeiYaCl53pQeHSXuBADhrtSYhbzpQi4S8qtDlCrJc0Wf+Kwk6zaQAHOQmv4DC2KYj/1LpFK5ZO+TRANURL2kjjWEONMcvqtNL64JHapwOcRrasExHOGYzDjmu2ZDVELoqQlM1WkDTNIwDqKBprSYIJv7WWJl+RT98i4DTivbSwk0OIA7lEg2BK2nBso1YdI3dQeu1Iy3XeqW0rbBA++Fi1hACtbWvqQ/ngDq7lGZjCRoj6/oFCfwz0huB4HlQKmE8f/MfSLMKexNQRbQZBKZBfZBp5m3Yc1vC1u33eKHtOpRlTdOTqr64i7u4h8W1t6dj/GQpmcknKm1gs0rDdTCNUtmjf0gzLNXLPMu+q78Iz/548W58Er3keh0PWpuE7ijhgg8t3kwWqb2w7m0boXDuy5nJgTl+bhuRIQsh+qqFGlqq+2HGkS1tjiVRwuFXT2v2X5tZLKj2UH8Bbve+QZtlJ5S70c3SZnEySas4ZT8tDjHyOIF/wDatfNcv2zS4i34gQNzG5h/tjDEF3TnjkDYBdychsR0ilv8FQ4IRzIMApAbY8h8dkaZstmDoH440GgrP0h0YRrr1IdP5p//2ldzKQtpJP5QOPg0ujhT2qyTMhOSvz6Boyg+9rQ3vSm4TgdrQQBbU3wLnOptnx2iWXTwrXft1kr491UshF3dxp7uL4PU+uSYgugtPLG8mezQpEItdXVSU6LWkDG/7uWzJeU8Jp3I283SEVtXMdsDiZr3SNzP6RMs20KzdivATSHb/AKwZPEeeCrCzMBVFQ5XKTPQo9LEZZ3rjj+m9N7xduiiW5QqPyOqf9AuKqQCz7wrFIisWXbsG6+ppC1ZKC/8B7VpcmLtCiM7CXo6sYSeW7MsuZivWtWXhb1Rbc9Txiu3vjp1KnPXCLC6l8Z0wAceZVussbtB+FWAVwaFHsgCWfmnAfty43Vf0Amwu2gsIaBeUduC3kKDOwOBiT3gHSmvHi15G53uVdiiAO0mdY4BOdS0mAzJGsseMIFnz+eOqvTSk+IRzocV0QIC6MB3QxlxtrTNCr0KoAhocyeBs9pmhZz8B+CUgn8rRaLMDy8KmBO6esjyjvwYYvYlT3Qap7GxM7Jk6B3zeRpx6Bwcsl4MILu4hdjfVeA29yg0ajheKMIEE8uKrvBBbyVRuFapuC15BeC7jMP/UHyCcCCqX/Fye5fUyyr3H57j8Al87BlC5gts9laq1qjCJHsdvXjLzI9HwnhdhLqemlTDh6xhLjf3R05HSh7Hv8SHQnU8a3tuNn7Rl7aQ5HqlxTKdjXKLfwBya+ofapNfwV+buoZ+5DgGyODvsuD8qu6f3ow5lDfn6dErKq1NeTgR6XoFOyKk1QtzoRutYC1XHdLP/u5XO5TSs3OrNwnt1OeashcOc91iAR1Sph8Q7shpDi6bnemoovli0574ows6ntTV3z85rz8zt8XImg38M0mbzAyVtaNmYfhvdBdPeO7ccJ7m4++rsFfPsWvp979E3ECoIYCw9TOVz2uzSPT74wvbdtagIOImFmZRo/M340lf6Ji1skUvOO1xLb9MC1wrQpR2mFYdMAatEeO0A2/0msATl8bxjHJc111Jo16DhumykLxP6ZUK/BC2DcrsaTyuwhGkDO2G2CVXJVAC6OQCZ+NH9QsJa8rdpELZbD9Lvs7D7Vzzi4TXTY8VBW9zSQccVmvzxSugu23Htrrjy8YXPf7+fGIedOMzipAlf4/mql/hclQXtGeFHZ5H0GIlpsS6R3/N4/sgDkSZ09TIm6TKmW3hZJLG6OB87V+KPnuE+N+y5tuc/VXmWXybxMtAvvb2+XMayOK45e+3qyxD3wdLbJOjtprq5fWM/VL51bJ+Uso5cu2vhiRfPlaO03BdnVHMb3R093Pi6jvt7f+/v4WM+5mPwjGc8A694xSvwzne+c5f+H//jf4yXvOQleMYznoFP/uRPxr/4F/8ipasq3vjGN+IFL3gBPvRDPxSvetWr8Gu/9muJ5mM+5mPac0bXD/7gD16L/4u7PW7ARxsYyf/6ftyutWMYTHDdBD8hl4dZ3dP618BnC5e/4W9voolenUbJvxm3xAvyJDRdKn2/OvJIXzh5nPntC6YrKNZuc7+Nge9r6IJYaOxB1iyLl9AgjTVch8vLmKZhM3wsDYDz0PZK4xmbYdtAWr7WR75nwkmjrV7PkTTZSLO6aeOq9XCGIY3SLc7xofduW3enuHPT336THdf3IwYYgCYtGiKd0hQ/pGWaVK3eshkXNgcyW/z8nIUPjoIMGZo3Tgi+GwMbcb3vUTCSd82CjfUrLjmSHvnjMF7Uuz3wS2B7x/WU1347CIPEgu9bnfR7IK2J4ngaIrBfAh4HiXpBPICwQX94hGjiN8iRq/51Jrn86FgKUzvV+DrRiQDLYtlDw38PFt9Wdz8w7cOCZy+C1/vp9jYO/zUdrmks0iWnX5v1eZIcX0l2+E2bT+czL+Qs2I1w3du1lKFUli4mwNKx/bP+QPhXKPTQriTQZGFlB8MswJzR+cZUhJ+jcHUmsEX64TH7MXIsfsWa4psw0eLWEP72uLX/YYlDtKD2vr1f6nAuaDwt/G2oJjTdL5ppUGgiLfwxvSiehMDVZIE9C14gz80SFwLRqM2E637v/nbvwlpUwa0JdHuvSrRqlXwf4vrcBV8EgMQ3+gg34SoJXc0+bKdtcUK0SOU5KFuC1vPX9CWng9MPmUfCOdthY8WAyxL5jWeOd8BodRg/Q7xM4mUSL5P4Fl76NQgNd5Y/j5+11+al9OWAyU4Iz6buMT82/MsMrNIf9GbpW3+LiNeNk67b5+5gwZ1+GMH1rvOh2M/93M/h9a9/Pb77u78b/+E//Af86T/9p/HqV78av/u7vzul/4Vf+AV8xVd8BV73utfhP/7H/4gv/uIvxhd/8Rfjv/7X/+o0P/RDP4Qf+7Efw4//+I/jHe94Bz7swz4Mr371q/GHf/iHqazv+77vw3ve8x6/vvEbv/Fs/i/udjnGW7u4bEF7AS4KXVbooQldp4JTw0zlasvVxovxipk4XP8268yC211hr8eHbX6VwGhuCgoRz8LVyBttsvZxO92/oJUp+Qec0EjIGJn8/tNilj7beLzPZUzvd61lkHBOS5g/5VD6TzMpp3UzAoZTTS2N2+9Yr5Q0u2/FnZM2i5ym9QRLy11HgAmFYNdPAnnATf9M/UrzffDXPLpfltcqcShUYizGTUvM+GvghuMTP1tSoUfzzUDfuRCl59XhQerCdK7D4+kXjgsG868hpytlx6+zXpf0MAkYo31UL7VRUjW17Y0gZJfmV6suyujPcVQRz3X8BgiwO1uLkmhj4rf66iWTMP/2yLJlPU1RZHIt9hskenWX/ja6JxvTPkx49iJ4vU9OhlViWDX6wt6B6gHHNTz3Ll+8QwQ2AGVLl40Lp1+ocXL8XvPMwkDbkBrYnfPJfQcDtQc+XEo9f9IQRfj5EzKVHD+CckQebNEhxblgVpT45PRtehj9wm0AgXKU8hVy6EJXYQ2Hvp0Laxa0umybtzT/TI0AHyiNP3UD0Uopx0/SJX9LX522anqkOroJBN6E62Y8/DBItPn5GjZ1TMpL5TRCF3NPfsxVwa751wVYyzMsi71lW7KgUBavq8UtSG+LCVHwG2R4fpQ4bru4Rir3R8pD7ZVDIIsAGo3AAVrvpPomOr/1tjJ6OMVLicckHmfEYxIfYXsLzjS7wKrG+dzEUFfCvJReywn/vrbrydfGY+DXXvsQ9+s6mn679V3c3XF/62/9LXzd130dXvva1+ITP/ET8eM//uN45jOfiX/wD/7BlP5v/+2/jc///M/HX/krfwWf8AmfgO///u/Hp37qp+Lv/t2/C6D9QP/RH/1RvOENb8AXfdEX4aUvfSl+6qd+Cr/zO7+DN7/5zamsD//wD8ejjz7q14d92Ifd6+Ze3FPdieZr8mK6CVzX9tVRxy+bOPKIUJRxhmGeWOy2/PlyXEnrUhLgFb8SDfstjbEyyF+VAdZJvL0wNyzH99ROrFCEVSLYfuR4zOJsXyo4zJsceCv8lm/UbvV4nWmw1hfuEUbJDyoTpQ6mTWm9jUnTlcePxsLbXe6yl0Z9xnG79JO4c9LSpa29oNvUnyYgl7jjrHEOhthfmIUxY89XLSf71RU4GoMzcuGIUrWN88luCmrgz9qWS8+598eMUynlSvg7zTCOhWQYby62NqcMQ2KRWBvzBm6O3wNI2H3ob0HGYpZ96AUp/l6H8xwUrZz+Z7xK0FTMfRzHEs0y8jtg3b1+n0VOieZOYNqvxpNOeT7lEby44+5hwrMXwev9ckcWBBe2niBwPfrWvgPeVm8BqynOyqxhHP3EX460J9PIZh4pddQwa78FwK/90TfhRaFL0/RUE/TJ6poGzfYVh03zIDQR2mFVfFCVxe2FrW8raL7mtdR6VtLApcO0luBXnW6FLCt1DwlT+6aZpuQOBmrNYnA1IkSrI5IyjfNAYK2K2RmE10to902sbvC9uyfqCTQbroKWAb1gkgbApVOHJtCUA5pg84Cs6bqgxR0i7OkHSXGyUFkct4DimN7CkzJ6eOH0g2A5CH2C0wDJXlhEq2LvjfytLOGvrCgek3iZxEvQi2mIXud9lvpQWpyDSxpm/nHhABSZJk1cTpzNnWPhY+vvMRK5O9fS58NWPbfRXekjuHOD6+rM02P/6I/+CL/0S7+EV73qVR63LAte9apX4e1vf/s0z9vf/vZEDwCvfvWrnf43fuM38NhjjyWaZz/72XjFK14xlPmDP/iD+BN/4k/gUz7lU/A3/sbfwJ07d87i/+Jun9v74kgFLmydL7gzzLOTboJJZEHsSVhYzLTBSnGjf/qy3XGhDlq6KPe9NNS4ZCaqY7pJeyBXUGnmnhwT6ep+/nKpi3MhrBY4qAjmOJmlT662a5lwjn5bQEMAZjxSWIEUBoXzV0ycj8PtvgCwwyh5DxWbczYn6W5172rG0pwbyuC0QpPiJpvd8KW+80EKJJZhb5P0NM10RzdWxucbj9/gl/13GYR5TPwaaL4qkDAXk3Gp99rPtb8n+bgvZmMxjLv0Nho2ovbEPUxZwO5M5L2KWeaS3uuczI9Tfj/PBkxonTQ86SQyVJP6CBLKC1GGwDRYWbA4xmlJz/0H7rvCyzn+gefE/45fdBTczq4TaOK3jZSHYKtzb4d7MjHtw4ZnL4dr3U8n41ObgMnUTSRMQznb0rPZW8Exzox9p6i8uJW7nhPuPGsBV2eVIcYnWgKVrQJI16qAb/oGEElL1MABSrjTKwHHpGGBHN4qX1lYCwbcY7qnAYXWYUzacAPmIPPgtArXgBAgabuih4ln5j9rmJLGK4FfL0dGP8D1TfzoGxr5RzMD9sW70u+0NSM1HnvxadXYlJLOdDP/Vlytp8btpNeDmBh02Wcs2o/UFSAOnrLDuDRGNIAS3OC8iMRc7g+HCDxORKJMB072zJQyexmpTOOV1gNbavygLQrXZUjR29DHNx+U1eoUo6Nc0akR590r1i9d40WNP0D6p3M5XoMHRedB/RAGqPTTYUuVqfZIUtVhbll7AGtrSzNevH8w0kfBVKGcGT7RbWqETMbubjgba6vjNoPUO3qAXNNOq+UHgMcffzzFP/3pT8fTn/70gf6///f/jqurKzz/+c9P8c9//vPxq7/6q9M6HnvssSn9Y4895ukWt0UDAH/5L/9lfOqnfiqe+9zn4hd+4RfwHd/xHXjPe96Dv/W3/tYpTb242+oShjFhkm0UR/IdK3fHpXVNytJo6++MB8aWjCstj+NEiy/4j7GjCxULpiz0ukU/pevpjs26pqvzSlqqxL97iXdvuqRm76QL+NV27R6+bP9wYVzfI6Wv+Rxuh6cq4TSldPUwUtjKWYtAJtDDaO2UDhQjvOpxVg+l852vU9JOvXTIw+PVO9MmY8UGx/BnzTPx68l55GhZ8WjnueKFGk5LWQnLDcVSmo5VWlkzdlJa79p04Fbhz/BgXi1m60wvXcM/JG9lvWG6zW4HsH2u1x5seLaNlyyArjSw9lAm7rXUpy5UtHYyLWN0W89jxJVoyScNaze/0rwTmoRRUm5+lLNMDtgitjeB6/Dba8+dSCgdwKtqasJthbVPJqZ92PDsRfB6n5xrZYLWwKNP8LgAjT+md0CqgHecoK589Li0JVVAyvzK2IZNmp3w0J5jNBZemL6DmwWoQlEGxFkoiixI7TRB18qoYDsAMQPxIohNF8Y4rwsTOgTflJY+P5uYG2gSyxUiK+zTrDAxEICRP+MC+YfPu7p/8TwYhbgknN0S3IbwloDrhHYGWKMuAj8S/utsftfJw6Dv1Er8pNEJ+GDY4TaFGBAbcKogUUhg6MTqAsdG3UGRViDVBZVrwe6C9nsllWi8Lo3TlfqbMJS3T6IOr5Rx4pYfJ/oLdzVuAktbP2j8lnDha6dbGdwFTrWgNamVYyBWS3r1E7B3fKhE4/NCojlWiIe1hCcVFbez+m/KL/by3NRxf9xmd4VHsNwATl3hCgDwohe9KMV/93d/N77ne77nJqzddff617/e/S996UvxtKc9DX/hL/wFvOlNb5oKiS/uIXGMaQ2jTB1tGkPKZDWSSN0sjWkcjxJ2cxpLyVhveOEuQcP+jCcz/X5eED0C25V+Y7/Z8jcTTipd6NolShViNz/jptqH5WW7RPzsBbzjj4Jl237GtEHn8jouw/oYtLeyQBugfKVRfSzjUE4SoEq0U+NNKkwYnfZbGB6aCT8trrgp7sjszeJkJ07YT5ijtSEqlfTWsvByFBttOzl26Yl+uowHbxd1gLjAsPaINX0jTdqYZuoIjeNFoyy1FsAElwk6SZ13DsoyNrWGL70cVehaiJaeVwVYa+atdHJLJ19RXKddIu8U5S7GE1w5QwBoF6gyN7ZKRCm9TdyLEvMzCanTc6XM4YbT7fQT5vEQ5bzQmqk8hgjliHPcOc+QK8BY5edW9mC4hwXT3g88exG83if3wSfkCDhltwE4r/O8y6w0eudki1eqvQDlUxHG0Xvdscd72zy2661AfwZ8M5jUXm7WaE3pe3EMQlFoBhBKPFRh7yBQ5fA6pi8WJrMIE3MDagJXsEATGAShvS1sjwspTwamAfZ3aGBNNaEtUGdSgDwGThs0kuNjGkoDBbyjV5Bk+6Ft1Hy3SWVjY7S0gWfanL5Ja/xR0X5ZVcYTE5q/n2zrQNwqW7QZhePTxVaFLBLCTmngTtZ4BkQEugCydjDaB6VpmkpmzL+lorA/A1EWVp3KgQn3Ou8h7NTQvLUimd4BU6aZCkpT/FjmnGZf+Lr0WWflMfaVzljLJ3lsrC6bB0AWRFvfbdFs9eNOmIPul6jD8P3UTfaLmabyvXA+3AroOvy6uLjufuu3fgvPetazPLwF/D7iIz4Ch8MB733ve1P8e9/7Xjz66KPTPI8++uguvd3f+9734gUveEGiednLXrbJ8yte8QrcuXMHv/mbv4k/9af+1HbjLu5Wu/c9oViXdbrODG7yFmhr2dp8Y7RJo8QDLchUA9vND6yW/fuCVzh+zF9QNf/4wh4RZ+mIMtiv6NjO6u/+EHbC8VvgTo0+EKblF+LWB/kFvHdhElyOuDAwHuM/TP2z8MlpHTOEssDaXvr39tnXLkcmhH/twhCR7wmzgfqm3Pk6V8N1doXgt2MKrzvwInU3J+/7T3BHyacAY+J3bwMx2kFxecxSvan/O2F9TJtX03sA7otWTq7AyvY6KE/Wep3x1LHhtLHtXrVdPUh8J46E4kpftLy9rL28G33IbMaM6bxKF0cLGqilL7nmq21W0ciQPETbvRec3numB8IfSh1cYe7Z6SuOTEsZRJABuYKwt62bGBp4NqadlHE0iwCqgjvv+f+cWdnD5U7BtA8bnr3YeL1P7vAITgOoAPwXe73OoaVLTqA5vb5YCH3TmITTZmUg1FbtCQ3bCNsMm93Zg3YtzwCiYX8rbHeZdqjbvCW65CfbXe7v5etCZS/lKnEt7+qXnW6rbIOV4uBxBtzp1FsGbsbbLI7tzRpYlHKwVr8WvpMw1vKHkNbKA5UNoOajvAzwZSONBbmeXtBWBuU8CW0OB6oYgPUJ7tz9+dTMWu6VdTVjpOV5NEP20byWkPx8CJfZijW7sHZY1yLdHrLEZekLGb1vxk6T7WTLa/ZmweFDXjvc9qyFBX7K/SKCBXN/q6rxFffCr7Ax/kncUtrW6awPjL8cb+1C6z9rO7UjLXn2EoGmGw1R+KX6NeWpZWyG/dJpPKa0pbzJdWwaX+e6jrM5dtvcHT3c+AKAZz3rWenaErw+7WlPw8tf/nK87W1v87h1XfG2t70Nr3zlK6d5XvnKVyZ6AHjrW9/q9C9+8Yvx6KOPJprHH38c73jHOzbLBIBf/uVfxrIs+MiP/MjTOuvibqVje4Pbl+GAMU1Sum7QztK7sFJOv2IBK1IsGf0Ju3Z/fD3VeQJIABvxfNgp/Cus5nc+FmBd1n4p9FDaDDhOa5jIbLoObCEJsyyutHW++s4kRBOqXeFEBWIR1hIOvGeYPuNKx7XebnTtScBfgB4RlBiuMkERJnfb71PctKRr7JCa1R5mabUJgXo1MzRlruLlY27E19t5S3q1E9wv++MyTpJfleJjPNRxzvDcb/AauEhpHUHyu14B4u7YaxYRw7RB3O8pz6nplYly7aVN18u4i4dbfUqV2e+nltTPb7B8CcNHPyYsS/XKNC77RTTbUN3yb1x2HkMebOomoTDzesqhDTN3Kh1nEeDwoc88TvgAuicT0z5sePai8Xqf3CN2yEBfGY9rrxrBuPFMtqJpLCcPYNLK2uDjJFMDJX6fTnbptu6hNUB+BJfEL6sAAQAASURBVIhlrVLWYki7Owsue/qWqYDztGLhdXvcUvmJ+KnG6zKhTYdpFQGrHxDRD9GyDQ8m+JlovJKwczAFUMdfY6gEXYOAyjWi2Ktqfaf5lw6wlwlPVi8AqEo/SbVNHO3aiLs/CCaPg3Cc+aX4Z3F9jklNx8S/YKI+CYR91c6ItD7Qwd/7Vrqg1rVNW1rT2Ox+Wksgrd6WtgZ6WdG1Z2iQ186LCcNWA139zfWiLV8XeOrS+OemAHGiqT2TooDbXe1zxrUPREMLweL7c2ePrGvMgmlK/GSoTrobbyAeKN21kUrdtn75XIwlLNF45r081LZEb2WcEya3tX7Pom+q7XpuVqtPblLpU9Td0QU3s4d1/jvw17/+9XjNa16DT/u0T8Onf/qn40d/9EfxgQ98AK997WsBAF/zNV+Dj/qoj8Kb3vQmAMA3fdM34bM/+7Pxwz/8w/jCL/xC/OzP/ix+8Rd/ET/xEz8BoI3LN3/zN+MHfuAH8PEf//F48YtfjO/6ru/CC1/4QnzxF38xgHagwTve8Q587ud+Lj78wz8cb3/72/Et3/It+HN/7s/hj//xP37t9l/cg++e9XTg9/5I84J3zE3opjlPKC+fS6C0FhKmY1rCiKNGK2vDIrBX58Xq2rbPulEG+RVNO9jyidEan4OwKbQ+DRcAQNJQ9bjIb+m+PwkoznAl5aH4wU6s0Mt4wHGaY0QLe1XsH8M5DUPaAtO14/GLtszy8t3AyKrtnOKCfrzUrR1JDCRgvGaasTVurumLGI8NoJKmqxR/ZXqL7pz8x8qddBQfvrWFSbTTobc5FxMFe9wAYAqwmgD9hit1V7vVmJt2t4H5Geh0PqneGWZjdzfSJ2ktmsA1uobpMHmiLbJ0qlVTSXYego1Oy2lrV5yj4KDbGbB+DG1Zc8YNvDyjUGrSyHGrz+qmIrt/287r5Kk9cdtJWfd+PO5A1WbSQHB47vNOrPTBck82pn2Y8OxF8HofHQszW0QFj2eVdha1L38SMUmQmUomhIPT7jqJT/Vt0UzCVbsg8mmUM2m/WJ0MpBlYGz8OiAPw7tt87TUmYS2BZaILQTCVS4LbUfgKCsN/GIzpSBq8YV6gnWIrolhAcRUEsrDV7jWOQP6gjdD70YWo/iMBlB7jkoXAoPIqfUy1mHJpm050/s8ldj3Y/eneyQhxDXjFeDVNR8Z94nSS4xDspzzWBkLRFcplnYct/wlO0I3ZEzDqDKsAcuiVroIuSeWszXarCH0D0etfpYM35lygV+oho7bx1TpcZ/pPErqeE2/DrH3dW4AlHcRFlffx1TBY29Iybt0dngCd/KMRu/6xOxwGb3bZzO3gxPviWLh7C+Wt99V92Zd9GX7v934Pb3zjG/HYY4/hZS97Gd7ylrf4YQLvfve7sSwBfj/jMz4DP/MzP4M3vOEN+M7v/E58/Md/PN785jfjkz7pk5zm277t2/CBD3wAX//1X4/f//3fx2d+5mfiLW95C57xjGcAaJ+J/ezP/iy+53u+Bx/84Afx4he/GN/yLd+S7GRd3MPpBm1S7f9Oee7vlgBW5n7bD7xkIfydNuuZn+gdM+74HR8Svx2/rY5FCRdWTIkSTwJbxx0AoCvhriwArIdL8RUas/Mr5SHbqd53vq/N87d91dqR72Z6qMYbzo58K5YumBary9rtQzTBg8VJ/y8dINQhBsq+VPDcrOA0BWeVak7TRNb7lOkmd+3aBIN275YfIOBV43f82hndLXeSpzQhsPjYv+7XSVzxb6V73OxNtTJ1f1YNA8LuswNce6hjviE+MdIKVS41/5hABr43SzfzWBZWT8+dMz4BPY/ZhCX8paqtnQLomg+1aji5C057VoEke6mzF/UsbM08BH8yxM0OY6su8uxS8sN1rm1Xb/wZmbSPhojPxfwl5sVd1z1MeFZ088i4iwOaavKzn/1svP/97092Km7q/u2vK777rZOE9Cv7/KHRowtaoZ8C3roxaTJKcYppgRzWs+hrnuSn3XsWzxqvVYDqglDbjZLQ1FBZFpaGoDVrLQzaEZTfy3SAvXZN1jAx4GlLNjEATqe0rbJU1nSQ1iJd0GpC1C6QXYTjrvBIB7YHrFhkxQFXOaxXOMiKR9DSDlhxkBWL+bHiIOTHVU8P/6Hk5TpmeQ/o5de8WLsliaYpuajaV3vuX1ZgWRWHUATmroo7p6vlm+XR3TxGN89L8VdogvAYxvb22Yb6Ck3LtMfpnl+1/Z5atQkG9/za8uoJ/lUBXK09Xp0f7WW2wwRKHVct3UztqvHYHwlFi/TfGGrxmn979Mya8sHfcEe+XJ6V4eX1+ZDoUnnN4/Fef+SPNI00hohcfg/TLdJB8VbvBo23cchDsHOz3I26NZeZ6J4ExzZsZ+6V/+/fxtOfN7fbdF13r/bpU+v9v/7uG/DIs55x7XLuPP6H+Ncf+QNPOv8X93C5e/mc/N//n3+AX/8fo/1m9bdiJxRS8Oh03TpR+Jo1RyOsUOBQX6iD8CKSYNSxZX1hTpiQ8V8tI7Rpg8bLcXxZ+KQyQqt0RXpBTli0+bsgtse7zVYDHhbn5eU8of3ahbNDXOPhYFizY0XBimUjLB0TzsLhNxuuPcxxRosWXgzPgvMoFlz1OhSDGS26H3Q7fYFCdCdtg2ag1520nv9gUw8d05awTRP/0C2mavYPabIRf3fzLJSHpj5QLJ3luzotp6Hj4xzXcDOuWU7OQ+VgVl7D5o6vOy427GtlG1aN9xYaeFFzfqV0p1v1aL4hPtV9vI6G1Wu4louOFzVw5NpXnpRO9fR+40NoK4bu5Ej4+Lp5uG4ug9yIm0eaTXcGqfG79aXWh//f/nd8xLf+nfMKPOLuF57lui+Y9t65i8br/XRbQNRfy7Y3VudpwY5v7q7Nx8BPoT92BzpgQxKuTsM9GODUACgQIBUETsPPNL6bOtANGv6KpdlUDXotO3L+NCzKSZqwJ+TJGq4ZfGdtV+TwkrVbPc3thIHMCxgQLtqtU9uuE+1XLTT+5lDzGEBdcxUlPsbatFqp78lvabGHWTnNLwDV0eO0H6YF6eXbm0bz9z6yz+3VK4r5wXHdL5O45NdJ/hJn0Ymu5LEhT+X0prdDr3qjrS+Y79mzteU30wY+V4u/mw2ofoF2m3Nh+1UXgVz1fl2t5/sYGoBaQyvY56a1KWmU2jOvLhydmRgIF52Y85XTRGF89fp6OU6HWX3W5hI2EGjrlQYvNFw+jrNVtqWr5xC1NUeiTM7LcwVUKVdoGYje10+lsrztlj9zV5d41XiO9tw5O4lpRDyMmq1XesBNPsu6ukHei7u4p4IL2/PkJNLOcsfod9Lz18pawpmvhAttP2Vc6f6CASfx4PZLeynuYTssy3jqd47zeMlxmS63zQWitE+l5lE/yUCgvt+n9u/6s9aq7a2YhFlDN4WNd8JUvgeLYVHiDxHmth1zM+ik0odiq3m0r866geOulWZ7tuZ28OiyGSzTrhtwJRdcMOWU7lieY/kTk+LDN5BuDE7CyTqJsyQZ4zbdrJy9zOlx0jwFxcaGn8P+rz56jq/4y6geFgp3kOZassk+GXFdvJVn5YABvVKHhZXTGXDC9Ezn62YzVRYgUteBy02/c2dN3CCY5TnmbGy0HLAF5OckPbR7rs7pPdKOx0279WFTUbxg2nvnLoLX++TSJ/Rbjndv4IyVy2DKKSuFDHwMAoUC2GJTmodTHjI6tZUvC1uR2miCCwN1Q/m1rA4AQ2DZW2SCUPNDQ8jikrGs/bolZE3aDak8pLLn/HC4Cl9reMUojDXt1ysSltqB9yH09DfnEm/bk1CU4yT7/e28oAs86dLGSxXYjj8SosxZ2snpDK6O+EVZ7IUgyFNzM33q5AiN4R8izQBTs5Cs+F3o2gGP21btwm8/LVbQPj/r80hUfI65fyu/Un6YsLT3lfl9rMkvaAJYa0x/lnXtQO0A13IVbrgiUBHFi9UDhqP8IVJBRYokrA1CzXV5h/KYaCqqosZYL6yeSAuzFIL1BLQlJRT2syZs3QX/TV0bntMg8DEq1m59GAWu5u7oAbiRPawLSL24B91NBK8ALedlMy7L/UnuBAGu8v5g+2/3Bx+B6fjlsotEDcdRnea38tisguM9Fr4uyLIbkur5dlNAicvYOL5g2PRSu/Pp2q0FP3FRY7pVUfPomEetDsKX5To5zcrxtvS0jml9rKzdxifNE/9ZgPm151Zpmq9K7TU/x2EnrcZtp2Wn6F9rlfgp72ny4HRAcCpY0A3/Hh2xxJhPNvhKeNiRpBas0F+eOzCzvDM7okB+YczMHYlP64A9uHlNmpkdUJ6ThuktXOZoqnprImppEZfB6qUAdWzUzRzED6HJr33heujXScf2hscTVu4AXfpZDrYg6Uprk7Jfu1mE49PznPSxKWWcah/rCZg2T8YNApACAa2C9rvgIXIXTHvv3PknOtwn99f+2l/DZ3zGZ+CZz3wmnvOc55yUR1Xxxje+ES94wQvwoR/6oXjVq16FX/u1X7u3jJ7jtlAD7cAqdC39jn51kLd7cusp1w4vtRwd0md5SrjzjSXasYpCF/VDo+yPwY4LPidpFRi5n/tro0+MBztZNqd3vjaEoVv+1tYSRknDhB4o8XUzp3jfdOkQLUH/FCu0USONhKo1bkjPQlS/C8gfAD/xxOXMyuI0NoOA0NR1e7TS452eJyhP1OYXTuvj6oKzcp/N8y3ac+7DtRANol5lvxS/oGdmfxxa5f4pHfnBfsqDI/kx84ctW/cvgCzSrkO7lh63dB7jkn5N+g25jzxM1bcfmdTPiPmd8gjn6fN1KFtr0+i5iK5YuN3obehlLNxte2FpfbEs2+3nuXOu/yaX9Q/zfZ3Lfi8skvvh4i7u4k5ztw7Tbi4WaOsvr39GvwSOOIZnVfQM3BtYytZ/48fw3XAtBQf2cnLciP3W/oJ89RfliDbR/4pZkxksBA4OrEfXLK6KKYin2GcojsZIUpmIfip1zeJArRr487HEND4UKDjevtpikVpguzHuuJPhnttkL4BHOmTcUNM24mpaXIGnRXvdSiPXPemLcYL+UKRPtVHSUMoZ/HtOTvSnTpf87sN4LHUr9vumTg33T9jYYs0qG+fEVgfwb6ixRCut4vEQwInHu43PsqgJDGcz7ViGcDxNulm8Y+kl6pRywTA5lW04dui/vY71OE1xsqD9NluaH9ZECT+4KeQ/9nNDrN2FJvmXhQor7UfD7XW+DZeMF6/V3FbfKyzlWOEXd3FnuAdG8PpHf/RH+NIv/VJ8wzd8w8l5fuiHfgg/9mM/hh//8R/HO97xDnzYh30YXv3qV+MP//AP7yGnp7stKNXAJQlnqutCQ1s5srDx/CvgwYmLjC1Kk7DOwrAw7bIL+Uu4CjddOHtK2gwkCvU35wfnX1GBexbWZtBd/adeXBYDfJ0AfRUtpgUan2ZItAk4V2qz2eXK5gQc3EKHywSj4HjJwlLbROFDyZtcAWLW0THsJ+9Pm3SnAMxQQ2nRR8DnjfbKknla1SlMgJ43KnT8eUFpOqebYahEJ/t03O8mlLQEISIpGQIIRpiFjTMBrMc5CJ2UBQonOsnlgcqHlLINqCKHwcBUUsOqJv3dwFSdsw4OBYTrhjl/ih8n+ue8YDIWp11ehrBQOf8IqXHT6/Sue2DclT5y4+viHi532zDt6RioCFIBx2FJkLd1nVIfGOMyftJYTIvfsGvFYhCQUDZwmAlbm7F3w00I/gGwVidjUdfs5AU+3ZV41IgrEqtBgOpFBA4Egi5roAZ/rOma96QjL+l8j9wWfHiaYHIPDdgqkdTcLAzf+h6HV4PL3RxKG0l5o4/TrHjDazMYejROdNxP6e57c2U4bb6TxiT/NTplYHTD3+vJJtvG36kOxWfFTSZI+s04YWxgZ3heOb9mWr9ryR+/BSvma/eMvGQARC3N5vd0gpfZJkfSx/yTvuB1a+hhWjMAhKmBeoV2iuFioxPmBRROfUJFDIJY5ezZT5cMft1M9+7ly58hnSSecaFp7JpQm/9s3NPvi+nf7XQXTHvv3APTM9/7vd8LAPjJn/zJk+hVFT/6oz+KN7zhDfiiL/oiAMBP/dRP4fnPfz7e/OY348u//MvvFaunu2NPbN3QZum2gFviIAU7jQ//XLlH6GSjMtoQFsW9fjIV8QQwRSkvbXg1foMm6jFgFGUrxxEw5c//By1VcNjqZpCsSJud0RvPXi7Rb8XZJk9xUfc68NaErpy2wmy6Ng3XNkqibbMzu6wLKM0u7WYDJoLXMBlAQ2dlJmFsa8/MNIFAo15Py2XwD4Wal9MN/ArWbhZNY/jL7w+foAV3+Cf86HclbGFzS21Okn8rruapcTYHez2qbRzQgYnZJxL2G5+db+eZzAk4gRiAiufAKzIUoj5wPIitW0S9LK3tRPjVOkoJzLLfm9sKEK8nOiC6SHwVEcqhfW6oF8mdaK71QbXBqqXZQ7jQpXFCDld7r1Dyl6Fu9p0CUKav00r4NCfcZamfuO6z/dTm6H1ymkbuqFP/18qWI9luKwA9xV0+y7q4c92txLR1zRFO0SGO6QJ7neF28G7CqcSXYTAXqjom47SehzDkOmBIo+mlDgJSbpMGr1JxZklPoKaEec8ud9+PU1l13e74SsYy+WCuhGMnWFaNHtr3zchTw353O+w9Tk1RAI4ZXZiMXEZ8aqzXvEZneIG7MXZH+hx+kn3YC5lmMofbPi8T2/FRiScRqDHo54f7MKbZ8hs/W/5r5pkqWdR2Es9zglo5uy0sGJltKmYUQ3M9jaTNo/JfAZCNe1EqW6JKXaQdsNWBU/lV7JNHoOncAStLa5/PmovArGM6A3DrVOrcnfLb70cp09+QOWFWZ5QKYVDLILn3WbCjTW4AdNMEhMFXWx8AVaFnydZF8X4P8w6lM5gP+u1U23yq2SzLmM1jibNV5ywHZ+lTwlvkLpj23rkHRvB6rvuN3/gNPPbYY3jVq17lcc9+9rPxile8Am9/+9s3QeoHP/hBfPCDH/Tw448/fm8Y7GDuJDryzhdolFUCfXHbcttAZLNsKTRb4e4f3mISHe8D07RS1jSNed0Ao/F2MADhwJOFSeiXADTnZeCdgDXl63SsfWt2Wd1mK5o/gXgogGLTlTZ6FSWha9N09bsJP/kwLSnCTb5zOkq6gVwHwBzuABCRxld8whxgJcAJKN1HFzbSMtDMkO0MbUrb4G1AO+ozAd/gZiD6pvderbeBWFUQftryC7JxezRAoOxXqgBRYQNCxa+UX2tZSPPfZLLo4Gcoq/sh2oAPrzX1vkgHXdrLFQelIRtu5RJ2Y1yXZMgJWHLHYTvPGK9ZaAvA7Nda2dO54sTYW0gHNxfMHisgC2KtwqELJv7qnGUGs5x2Ikj0Oo7QP2wHDmy5VZcbHSaw6gPz8dHF3Sd3HUz7pOFZIDRKq6M15JjwNdHslDOpfYOnnK5QOrgUvt8GBszxTaMvH5JlGqyB/VrJ4jVwHNWLTFvj3D+8Wea4Y1c0we9un9X2c0vL2C3ycVwWerJQdP4FFbbDCYu203vE35AGdos2Sy+jxfk7ZbQds5Uj3p9719AnCFyTp452PEB9KgpTvy3fBg7lzupiXEvVMDyeDneauiJxINcMBl/b7TxUpVzHkNP6ZEyjrjJZey3+RDgyMkPx86Ukz/XgUHO/Vqa10EufxX1uNvv9NGfr3E2HbaWKvaqhJczkrJkyS4sJ479NNRMJ+6RMmKXzujmPOubXsXoPW9NRulLQD9qN5yvJcTXg9bTqSfOHucJ9enQS5XYyPQthN3Prfvrpc/jBchdMe+/cre2Zxx57DADw/Oc/P8U///nP97SZe9Ob3oRnP/vZfr3oRS+6ZzyeZAqg0NlOPtAw3UK0AKrW5RSZ+EEAE5qlrVZaPlnQ4ldbcBcqp7XULweb/tY/4vmzn+20NdOJIv0NdrqITtaefwW6BqmH+70JSSldQuNhZh5gjB/9m5/ZdWFszZeFsit0aZqu9TO2pC1AcQYQqyB0ELZOrqa5usYBW3bXbouVeBi0W+nHwSDcPSLoHezA9hGeIKf5g+T+dqUXAiMKDlA2Q8tb/h1eeKb7D5W98oRYN7+fuiDEpxS+hfgWKq/4Z8840J/V4qc1xf3Ifgv7W2KvR0p9Ss9/8GL53bRJqpPCiQ7z+L2xrXm2ykBuLyTMEHgfp26LAawgbABlzJcRdKL0CdUkjN6/w+f8zGqwnHhELmYy9vNp4SS2NAOb5hAm0+ns6+Iu7uLOd9fBtE8mnj22YKTP/DGmBe6bpDGWwwxbzfGz4yUuZ8vGa7nWpQtczbyg/VqitdzN+NC1/WmtnEhXwwVPHL0Hxm5YLA9Ru88ENCPdEKuSXrYNYi/iRa1vhnAbjwUAVF3zLUHbntZI1SojN5Ngje44icCwQe1GbMRFWuDd4ffNEDcys7cVqkTpFDuWM23gyEMiTA2k9OpnPI8Ymz1XFWLsSy6GiS1pxFjs5+fg9PlZmaldpRZdmsyL0lhIenYX6Z/Z27MsCMxGdEJmryweOT7lh5njKPktHrmeMElBn7w7huVy5k1La4JQj5ZBGZI4nfxe3CQ9jb+ZJqC4RGNZZ/5q3groGBnDFZm71NQOI+gJ/sv1CDD130EXd3F30d1Xweu3f/u35wdpcv3qr/7qk8rTd3zHd+D973+/X7/1W7/1pNafXF8nNrdQKVelExPCkohL5gDVaGuZLNj1OoSFGA3IYtkQekpP2xBOYscPyh9pmNJVoJBA0ARQcB9yezzsQt8Q0KLbU20/DrqwlkBu849mAyr4z+2LOPXDvuJHwrqQdqvaPQtHOU5UczzZdoVrq8JB46ixYECdwyFUFRsDRi90sRB1BuAsXLVvhxcDZWIryiD5AzB5aPpuzc9Kuuv8eZreZTt9VjUjeM4/+LkcBoiEOFzY52Bijkwk+aN+BnycP4FaA00O9Eq8MUj1DmZFekDo3oBRH2vHNiyQZ7yjzpMk3jM/Kb4nhA3X6IsAsRSm9iXbsZ3jVH5vrwPEU6SQpU9bYdZ+RerD6LIhzC8v0nPF/KQxtj7FeDFb4u/PNq9ladccwI78bkQ/lO5iD+vigKcepn0y8excILolKM3xjiUnwlXHZRa3HCl3EMjmcgBgtg5beWvBmiayqUI1FxTvxnnPoK7pR+NmQrHNe8OjSDb/870hohWCRjMegNrSGOtNv5SSwIGc3rrymCas4VHrT+vj6CnzDeN0DVeHe35v+79O0rmgzbSJSxhRq7arjjSVYcz2VRloruX0fL/PZo3kaZiyDy/AKx8DSLG4WQNDBFljLXMdU0DaVz8Ovxikdd5SkTNE08txmpiz4utDxE8x00bxMlazeeks3nFprFX+EykVitLXvYcyyKd4yl/SheKEG+FVSafjMiXqR9kP+6FgQ58U/yxcFcGsDuUqGfdXdlK2EUNP6SbXjZ/Hp6i7YNp75+5rz3zrt34rvvZrv3aX5mM/9mOvVfajjz4KAHjve9+LF7zgBR7/3ve+Fy972cs28z396U/H05/+9GvVeY7zjWnPnfBAHy3DyuHFVAEGO7XA9HkWL862h1ne9sqaNlQloQxvAhavVI56ufyJlxLNvDyldo/lpU/3WQCKCr6LwBfhr+EQ4Ja8XKfVZzxSGVnzgvIOPJpgt5smWK6aaYG0MXQNVI9jYNxtvJY483saA2q+PG4t4Q7ECy3Am7T1DQXHvX5Oy3RQLN2IkGGK0vU8PaIIslPk3UvzlvGHYwe6M20WwuU8LNSCoAnDVqI1zgX+WZEI4PZPBe0Zc3+bP9aesDMafWCwXdSeDrbgSXT9n9hzk/xUHxogMZtrzqv7JT2//jmgdXHpL3+OEbwrtAEztvuqwbcgD1FyMZQDbboLuumL3m/U37bEJdMDRNfKVqe1/tHaT8yWyOm2Xn1ArPBok9eZO62HbQLw6I5dY/NPXX2XC+yJ084tBe643fE5lfYhcVc3tId1k0+6Lu6p455qmPbJwrMAQsBZHS0MjBa3FoyzzBWUBXJWZMKaBZO1L5wIN3a8VPEm2zM13CY9nXGucJ3dZ8mp7b63B83USfA+v6vzuElnWJP44/iZbuVMmxOpTQXDIvpoFm73ZqQxcGE3EwUzKUDYiuIyX+e5XfxQ79JMel5nJZZeW8XKFcPBcJGHNJXAbfYZQvhNoQh7mKWR5re0Lf8sz05ZImTblVgayq6uD/sMGxg+gyLMEGhJn+WhJyZjoYwrgzXq+TXGidkfArVx1A+qucEV5tn4Jm7ETG5tzLz4ITCmC4VLuh5Jz7gSo6uYdNqB+TdETReq1vuizjvC5nnQNJpvzFr6ZN40bK4eiK/QNG4y5pk1GwPNuLJISt9ztxP5XjDtvXP3VfD6vOc9D8973vPuSdkvfvGL8eijj+Jtb3ubg9LHH38c73jHO846RfaeOUEApmN03W1S7zz3Kc+wsZxQXwe37BcOb5UreVMa8mzkTxvZlKZsKpVWIm7+6bQBQw0/C34pfworQnBLYNLMEDS/lUOAc7iQ7lriQoO4ax6YQNY1EkzouXo9LDCtGg5J43UmbEWUEcAR48toARhU+p6PboIA2rRu9+rYuALEm4kBfjROeEYGR4Bk1WGaJEfFZ5p5DkVMwVliO+iMilBLoDwh+SM5m4afwQnPd5fuUsaOaHSQIBa/9Dr8IWNImpvjfueH8okJOpkvI2dxcBe+9l8zgdkIlnozpB8eAYqnH16OwDo6ZLxFUtIQss6EsbXOXoRGt1I3+RSaAk7qnxRH4QxCedwwuHkxCT6OmUreaIN4G7am6ak4cQ5QT6O9uIt7GN1DjWmPOhI2DgtGrOvDumWYi4NCMYzfjnIwF7Za/Y4LvdyteKSX74a5NPGzl5+FuJG/5nNsJIHhkO6lj4Z02pDsLg2r1ejo3xEzjXQC01z1Yktazr12Gtur1f3WDg+TFM7ssTNOzBq06nwkfLqDN+dX51QU1Z5r+nqL8apyWu0xa4q64FIIljJO4Mu7zdObXdFII1y1Ndk3N/4dNwWAMGjlxWZItrXrs8aj5dPIJ5k2Vcjgc2Am4qWmaeYm5kiAu5hvGfcOAn6XQpZnB4As2pKuuK0sBO2x1E9crMeNRcdv5cKOTRnuEgWG3ldB0x7VBlzjbIGwlZwE/X1uai8wcKdmRYKCgRO25eFjzIyCn0s5c0FsL99+Bxi0t77qSi6pP9JJWdQXFL3lWIniJu6CfS/uXPfA6AK/+93vxvve9z68+93vxtXVFX75l38ZAPBxH/dx+GN/7I8BAF7ykpfgTW96E/7sn/2zEBF88zd/M37gB34AH//xH48Xv/jF+K7v+i688IUvxBd/8Rffv4a4I23OY44XlBPpxtpOo7NkhzYsJPS8zHvWeAWQAKVyPFOm3aVozTojs/gpZaS6sDJrtNawa0H0axTEFtolyhDmv9Brj+P6ctlr8OSC19XTdFnhpgVgwsyuyQqkOFGNw7YsXUm7lfN4vtPBaAafa06nAxusL0Mb1sYp+sh5Sa+2FSbIY1DeM2WAwcdK8qtZJYSQ/MgbOm/w1b+XvgE+DBjwgQf+ZnhpQ6poQM3BAp3MaeDF8Qb7F/gPI/uRZAL+ub/3ncSzJ9VvgKf4rQtZy7OuMsodIdLzazBNa0FCUAbi+umwkc2OxNAifEURkO7RcbzYsoT4ZcPsaOngnheSppH1J/9sHDR0Weu19FQNc3c4RjwxzPPOBNMRnoBiC9qcLOVy0Xtub3/ZAqi7e9JD4i7aARd3rrt1mNaxUI03T9ldhvVEU9yIWedlV/w5L7sjlS503Toka9RsbfcQWQR+EcM+VPcYd4r/FNp8zTVSc2vnQljaR2yPIIzspqSsD1ngy8LeQbBL+YnHxmczi8V4kMfE8OK4R+l0HGfunD0o7ed+D/5MWLS3Z47xWwJfDC8sJeWqBYsLmwOPTfLXId/yn+pmWBcIoTEzvoFTOFw+3IGKhF3DNMWiMO4XQa3UaCvTXMnYLC99IhTN9czyD4gOhg61Y1o4Fsz67NtlBvbfrJOk81MtWUun30GB0ffXwGnz1nlznU+V0r5M2FE+0jjIEAsvxZpBpbLANjc3v8TRxZ4PX7yGZiUcfUN3Ull3qa6nmrtg2nvnHhjB6xvf+Eb8o3/0jzz8KZ/yKQCAf/Nv/g0+53M+BwDwrne9C+9///ud5tu+7dvwgQ98AF//9V+P3//938dnfuZn4i1veQue8YxnPKm8b7pTH1jJ3t19daPMId9O3QrkT+mhvpACwCBYlTHegJT7fafN8fC6QHUhx1MduTzigerNIFM7fQGoBB6TYJTyD/ZbJXhUro9+cGTBL7WDDhxymkVTnIqGeQAJQaULXYXvGmYEYHcWrFIcalzvAhbCkt8P1JIcHmhEe7NyX9spulNhrmKHR5sENu4ZeW7ugfx61qcpAZSi9TrcJ1hl7z67GCxw9dWfP/dnv6Q3sLoIZLU51wn3/EovSXb8gaJ7V7PfePV5G93bwh1MSYdUXai8u+aY2QgzbQDqC7iuAHXfaI4gd2ZK2PT7s2cYFTQ2tMY466wiatVlxuaLb42jMCsep8pm/CItsXNaakP6yor6f+sE1oX64yaaq7OstxR3nuVWPUBudALsBaQ+bO7WYVrHPjU+vEk8MVk4GP/NytHZClTonSYW9/Zf8n0LS+skNNg1p/0y4nVKd/b91Lh+F8Ax51wTdnZn+h7le2JLY4HHljappbHgUogPFcWh8yMIzTvPKyUu7ct5hGZx13GnDIF2eLOV95hrOKcIk1nr8whv0zSx4Zpovd68W8LN4XeGYN12qlLabhgBsXJVc5MSVn/5GZemdit3zOtxilBgKM2T7tsbi2A8eRBzVdq5KF3DVNYJml06rlcJASe7hdq2IuWFYWyV/htGOs89nbRbcWXAlVpZJZnC6BoOcAetV9Yo8SaLz+dWVKsrm96K3weteullhqkCU3ZQ02TvPJriA6SvBt5cV5HwspUArisk8LZSsXP2Ep1sgmFq9t17rh4wd8G09849MILXn/zJn8RP/uRP7tJoeYhEBN/3fd+H7/u+77uHnF3fnfQ8n7jTX0d7NuenHa0veiE4BMIQj5UxEaayfyKM5XivM+Up5c7qSDTBswH243Zbe1kMPF2wGmAx8iCAL5eJov3Kb/4T+M08uOBLMi8qCunmBVzjVdbQaKU4E4IukzgXmJa44ZAElIuEpahpWOc0fU4kMwSUPqAmobKIb0cdMYkctLUutAlpSI4AhxG6v6WJTb6+wR+303O6G8Cat9+D1y+rJhqAO/ZfdBD0AgZoEM+zjiBJAxX1BpS0XnDSkJ30J4NoB4cSbcDStCd0LfDUeAKSIm0SIlobNmhqfCCn8Hseop3h0617lF+0XqmOvbBXQ+H6edk8rN4mVtydhX09nAHR7t/Bm4OrZDKLnEc9VO5KF9xMO+C+nnN6cffB3TZMq4a/Zo7WoGPC1yjvOmUx7kRZHNvdvqrgF/4YwhPMSriOtWTzi/a9+EjXUl7K55iI/XvX6v65JuxIV6/2UjxrrOYLR8AK7TN9TzKlgTChZIKufjcs32nZKWMqx/g9jnk4B2xtOvX/vO2vAhx0pDStZjZLAIsrfRYfwEfnCdWJlG5UBCAA37A9ZgfjDOGaNjZ79DsjEkN/Ek6xcO+lghMT7gEPXYuJOQFELyn1kJlRGuNa+YGHxUBef4ijXE31tn7UcR7lYckdRM+pYVBrmEAjnFrHnaXUYqKl9FynTvghx+Y4tMws+x3O1dgTyG2u86Vi1I30IQ7np4d8oebRgs3p+XGBr6QyUvdQ3s3u2wDD6bHZe4Zusbtg2nvnHhjB661zgtNAwzEaOWFNKGUc1TroQkHeGLQfpOXpvPsXgKpcrnA4C1VzGgawzMJkFsAmvqUskHxRnNczCF036gG3qWjCcl6QNqylF8CdTB6IArI2O64u9F2BZXX+ALh2q/PZeRFPy5s/a8EG6JtonKY70VRhrDAtUnhGb9PB+iaGgTf4+bwT9BPX0e1ZEYhzw+tmKwuASdsa0Ih5KCyFSshOfLw8vsyPxBONQ2MOWbOT5lTdt6tQLQlDO+vsd23SiT9pvbK2qrZDKbT3jUgHexKnr4YJAuKJ5rpYG+yHg0RfqzEt4j9SQ7uWBscqSOObB8DnBPllEai1a4pqGJUh6NS0bbEvfAWHlacIXF9AqAyl8SRueLrUOB74oQVp7pU2zLrJ+7NU5GFJSVzsPBzPkCWw3oCx78k6luV0G5GzEbu4i7u4h9ilvaDEG3Yc4ofYiRJBwXzIa53WcqY82MbAeKbn7/fYqxhbaaJCos2c5M9xOf502vMc8zo6IZqkTTrgHcLDjh1zGSxQHLRdUz7zr0Gjvb818GCDWOH3oZPIE3sg0e0406gN7JmvsV12385ngzfSb8BG71ICFcgbrL+09WmWEvt9FtaApgqoro2TOg0IM4zAhNwRjVnub9Ej4UIPgqs+70Bt3hrMHX43l5ZOm94Z1DXF5h5mKHXHCXvK2PRGNjwLB/fZlqth33bnr0ftQGASF4Mx9igPVsTZBw1/an8wZNYq1y7gltpzasoDvW7WehUkZYyq0JEUCwTxm8a6h54Z/u3hj0FXEnHMTawpiLaWyT0xmX+QEMwnJ6M3kWzY0BKm25kkWya4Lu7ittxF8Ho/3dYb/Yk7VaP1KN0WOLb8tH4LJISsA/qIz+sj7KUE5jBhrMzjW1qUw5/wn1We+U24iSzwnGu/7qW1ugZzA5yPdnrbMEJAC+eDNV3zYVqKVcymawOqi5K2ql09bhk+4a+2YBWi61yjdfOyKXEqHQ25A/BC0zdaEwQvCP9MuAusBALyplr9fnCSUlr32yY+9XfQY+/gtoD4XloC2AKaMjqCDUS884gMQKpfO5hyoaFX1BrTyiY0wp8EkdkB78rqN+aVw0VY20FYPItdXCcG8ogPn+fWL/Fzku05TQ/dMruv0uMULuRt4O4UO7BCwtfgy+aHdJ4Zf1LzbVZF4z1RgyhJdyOzg9GJG16iE1Adwj65x7DPAUvnSVrCIbjXFLfR6IHfBDJP2JYq2w+7W/UAWS+fZV3cw+sU6uv8Vrq7yVp0loZrpd3FvZGH8eVw7zSO44TrYvrCQ3nRHhh1zKelPJ2UO8s3CEd9H240Qji2fdrbcRnt+7GPE/aa9HnFdgx8zB6sa6Sm/LbH24s/yfmBwCllfJzc6ZT4QPFXRQIEr4mXfI2KB3zfw4QzbdZjcRtTMkOmqZtu1X2wY/73f3WPd//Ohn/UNTDBh5QG730kXJBuSRJsodXviK93D7M3yPp11u+zFmhKaK3UlGR9w+PXHhPjMeYJK3ac7obOboLLBKJKA7TmNBzfEfFg12rMO2dDt4d5U1UVXvdYIH15OJhwk842fQnK+NjzWNEEYrWHU54cF/OM6Dqvadk4MrVFIlE3tApO/errnK/Dbpu7YNp75y6C1/vkFLShHXMzkHoCTaPT3fSBvrzKHM0BEDjsm6/Wxd3xwPi/giMd/COQq5TTsoTjyo5ewslcgPlpIzdkkLRcqwB2IrRdva+tvKCNQ7VWz6e4gn/6L6b1SQLKDj6bWQGOi7RFxrjRrMAsLsB3aCEUQErpc63YAoLtx0BCUlaW0YL4aULZJphdMlic+nnHnfl58y9+QbfHZPOFsk0wz24c1y5wwZVpxvrjs4Ug0/PFYHVskvbyA7CoV7yt9RpaqqZBohKHNiSM1/kJIBX1Mq/Dp5t8PxPfD8JXr3q07+ovfyZjMPixk9ZBnlB40HaluGyWoYG5eqjWYJeXl6MJZjX+CqZs0ZMwY1dshQESuqID+NwlY2DuWBMqfy63nZm7+WF26w0PIriA1It70J1//VOdjHSz+Eo/CHETxtvJX/mqglLOa4tqv/ve6f9H3FnxLH8ZBoqd55tyuOG38LHrVLoZB4Fr872lZtjS9zqCVlZG7B2rYzvGfUFPglLGPkyX6kSM0Vlue2eqaPLoXfLUGaqZVDDI0SQlk5afZla3GKE0f+mPNs82bb06mEB0ZMKYOuYpWav/VDczMzCV9UUtGCVcAZoY1YSfxL2MV/oUVqJJzR78pzRw6xkNv32lxmdKeOreWrXVLwV+eUtcU9YqjQJCo7YW3P2GpSdC2fhf8GxqSGW2YkSeczNQ3sPWjD7u9TdJNKnOYStqNl9KdQApkWCg5y8Mb+RO3IceNHfBtPfOXQSvT3U3gNb99EbTd+VzF4RhcaONOQFVu0s/IAp9IV0TTbzNb2Wpp2VtVt2g8QWT/S5ICj5ic9sWim5qq0ovy7UWgqaGx/Kib3J7lNpZ8xqfa++70FBtUru4N+HmWtJYcJptezF9FppmDdpEb9egTavTPHFvWrqYltHaXsvc/DGwq+1KG2908YbfJiLFk1+6xsAWkDz5cTGQ0MHe9NMaBNicYmIcA4OMl8XnTStXoqNmQubipt0loE966KRQac+tg3lpb+PFfyQwyK09lgGgSADEDMFMi1UhXVjdxkX8U6pqPiB3Ti+30FhSC4e2sc+jXkYIWNXxPr+o53sdq5liwklugj23widry2Ic7mRCgOPPBJdudqIXlEex0J5X9MVd3MXdRue4aZbWbqMwdSSdCWarPdbz+CrlJ+Ei3wk0kLA2NGBbWrzYNDzWueY8hgt28g31pjsBoU38vUG7ezf6E/LZ5un4LfViiVeIXLWw2v7f8vu+rPbiM75sCeFg0DmGm+3/1e2lbbiTu8rvBuQybpWJn7VwDet4vYpJbK7LNnjlsDBmPVHrdc8doxEJTEWYCRCc8sI4h9sApXRifx9FTrCw+bsmo9pUltRjnVATHrLcHLU1t9IX+kCA5cR5aZDFe/81VYK2NkQr4hmJbMyCTZOK5fxZs0NtC4b0piiVU8pX4rdOn9QGNbzbAGlg35Ye8l7xeW3p7abRBhVf93geOf62+eHrhfh6kYG5Vi7nbpLY2tp/m2wIYGue6dBvVHdxF3eOuwhe75cTWtx3aE5JO/YJ16lOK0++BhsQym/3HUIoEugMwBkr2papAY933gMMzjUV5rQG5sy2ZdQzDyebsUUwy1q/XF4NsyA2CVc7CBcqn6+VhK3+GX4HBGbjNMwKIKUtkgWcowAVEwHqhK5eXWC79PDi/J0QnqbB+5PB6WAbFgrBArOJZbwaQOHDCao/QP/M3wECgKr16lMocFJGdxKAbErbpwdvyMeErzb/qp+BavU7MKJpnlEFfcTf6wm/+DzmsqvTVF5x3Cd0V248PRuzrMFjjEf8N81XkPDV2j4RrJrgOS0tvB7Aibl/BWN/Uwc4QWi3Uh1WBvcDt3NH65Xpk7y68jvwP+Gv+zvWndPWLmF+RHK/nehsDvKBYltuP/V2u1UX4AaHCayXgwgu7gF3A34053F5hdiy5Rpas2Vtvx5XxAeV6/ixYswcZ/uQ41UwbxyX47XQtLgx70izlR4YKsLbh2WlPPaCfhC6zu7x0t/i/CV+x6/2dZONS5jK4tPHA4e53Vb3z/Fa2N3lPEfclID77xR3vA+tLlUgr9SFgTLFrJscDxv4A1wwFz9v1AGcqFL+Aiy4bO24ico96jKEHDFNeWTuRpgfs3MeZ6G+H+KsHzrQzuXmPkn9fy1XgNjgzx3avtTq6fS23l9gM6BUih/SMbxcB/oaufR5YYLNE/jK/gQQG99jlPsTft4q/oR03UwnJayJ0FzL2O2OZMXXnGQC2F6P1t8QmaUTKrud7oJp7527CF7vp5PJqjBx20KTtKvfzCkDXoqk8v3TAIkFctA8pf1fkTVgTSDioNfa4Pl0kzYJSr1epfoKGmEwWQSrNX0uaM0arjU8NT1g7ehlqLKpAWtts+m6LFng2QSSTSC7TOIE68SsgNGPcS4ATWnlzkJQMUATwDppxyaB6cSOrFBeD1uXsAA4xp6GExGtnLzr932++INGItHj75LWq/Eqcct+ascx/JP8kvKGqQFxJOD2pKARj/78GqggqaPbnjJSEX/Wsn1XOM054c1OG/pY+rzqIEpJ+OpgyISvdIJtf8YHm67i8JqEtIp6yJr9MAkzAn38SbPDntcGPE3DN2i18y+gOB4/aiItaaOGB88R6sckNHe+S5iaxeGZ1isLXyt713UZsM6b/rA61QP0Bp9W3STvxV3cU8JVqQu5TfutQ9r8R/BY12ks8ZdIGSDo3O+4U3MeEsy2JZzD2TxBY4/VIWz3QIqdN+sYRS5zoxBvyy5dKmuDdigrt9HiXFO19nMSoHJ/g/LU6jhP7GEMNaRcOW5+WBZufA+TTnFWQGuz+jyIcwTSSNKeT1GTts/TDBZGrRlUnDZnJoVX7ADCRJR8NIx52OOIfzZDUPu3/WemDORE6YrQsgQc2lLd8TQylpovGUd6rjasdt4wh2ldELRDt7zh49qRmjhhhTXtrQ92OZ48U5sZxP6VeWq/D9Snl3dgw6kdxxNGheFvxp2MYfnrsh5nHzomfOtzRJyfKF9T+KQ5P8PoqfmSlCcGGpmPy0B0C90F0947dxG83kd3HY3X2WdYd8UVAQqD4RDwMigNGhY8jlqqfcHllRvWdkujMifl28qcPucP6pI/wGA+/Mp4HMNeCgtYe5jLqOFRu7aUsRAf0swLyGHt9loRWqsuKEUAxiIojTQWnlKcX8g0d+mCFuFqCQ+mCjSEyjyGIB6buQLAPzPrJA78GJ9M/bErHqfvtH2DnyLrLX/XyBzSCUhWkGL+CjYdiADFNufo934QZAGsV5B5kW78S0F+6wcX3GYgFXM32lbDcd9AzBtrUYBM/vyIkWyj4DNfR83K6GjCXOOdQF028UCCWyvS+pT62ealphrH8pnIcSBrvVLexPReeJZxxMPJJVJetzXHJbuzuDvOpwLzUdu1l/8W4tR1PQA3OYjgBnkv7uKeCk4NV1UnmWaIr3vKCTWdys+Yh7GlEi4xPijO75E3mwsw7JvpZqYMlMsx3FnLN9w4q9/LPOeO0sen0CGnJzBVYYH2F/+xj9uL1dgjYpdgASqklFcE2+bPcTOealykGaYwoege7ZY7hjW4X2wq1LRa1lmO4N4sLd61t/43HtgO7OBH5GO+XWOZIFqEpYRLgxjHUJht1Xv43I5QgIWxjYeYJ+kRDk8eny3p2QDYjrlZhiliRHs+hBQf6DlRLqXRi0Q+MwkgXF5oCKQw/7dP9cFxtv440u5P1IBZCd+n5pQ2c1x6KEBx9oCrp8dvEd3O43M5daNNv9zrOwLToQ176b0sj5qYIrixHdgH0F0w7b1zF8HrU9XNwOoZm9W560Q+VCv7xdKBAh7pvuVswewr6aYwVQgmF5oooyz+w70DxgpUS7hqqHJ60mpFyUPjENCO6GZ+z3sFWULQGJuPdhDEILClyUaaeBprGrSNlgWfbc/dEaYOcSjXTNtVA7DZlQA1l90jNcJRLrA4KDAMQTusgQpvP6Pd0W8akgmU2MQjP4ObMsXK1IpPl4Z7B4IqAUYDh/Q57baOLI8SrpAE4AHNGIRsRHl3LCDU2vMakOuD4FqsCnqu4LJaCGEbei6lF6g2Z3o9ykxmPHmScw15W8GU/M5DFOh+O3Srt0EryPMOGBnRcjcOLG9r/6xNQmGdxzuXktowIsKI2zM/EGGbs8G8db03hvcDpTQujOm8n8KffwDcHSfkeRjB6cVd3MV1Z1iqxoFXKdvTNKXffaf9xTfVTljJ95OE6/jOglHLR37CNXnPUFqCCbN5LdETM+3WvD3oznUKzYx+kmcQxhIz3G+JLuz7K+PQDmICqkSfZRNBROd9GElJ67Hsf6e6wHGE9a5Vht017Xe1W1XMdJhFEF1At3klWptJkQgMFPJpxlWNfopJ9vAaxSeooTnLXtimxH6YhIGcTtPJbbWWfrC5oJTX2otC0/yCmIr8LIYZjGk/H3UTur3v8mnw0xdqjnF7u9eN6uwg4JKuqXOol5INWWtnzKE4b6HzxHxaO9TKVMjSfw/YUreBt49Nr+FZoFWQBfBh4kt5cKisjVr2hm72wOt+uv0WajzFRN6DzPdsC7u4W+sugtf75QS7T+x1DxM49UOlkZ+cr5bDC35s8PH23+4A867ZP9CIL8ajAFYRwiHLE7Xv2oztl+/PgiSIirAGjw62NY3Nllbr9mFds/KMT7OJyqYENH/2z2mcvpm2Rz8rf4wzAH2KOYFBgFvz1HQEKM9ax2vf6DPALvtzmnAJfFnEzD/LX+iq1idjomkcwm82YcXi7GZCUYqfI0luEPM6PrsOHlPfSKEXmDH7VIqBfRF/Dh2ASYdo9Nw4uOhzncPDfeanxozgufoFBMdH/0Ga8JVKTXcDailcOqC30bq8/Ri0Z5F0Cfq/AH9m3L/F+2/qnoZeTpgu6PVsaL1uKQPUsLMv0V/QHM6a0XXN5krHzpccvOtupmU7ddfcop7KTnWB3sCm1U3yXtzFPSUc46wUb3vC9TDt0Zf7U0cbPi+mfTP17dI3urGOvJvNyrUXpho8Fpw7CnELXQEnWvxi+/KwBxverPH9lsKEu8rvCqYLDFPp871hunh9v9Q+8v0q9+kQx/vcQGfu/LHPWGHEENdzE2zm+6rCPyPvkZIlZP1/IBzLmcsekEMKxyFflhTp1rdJ6xXI/npJpPfSY15Y/L0Mbw0GAaSWxw5fIi3XAMNpTMOvSbDHc++kOTDgp8k8TECHnysd0s0s1mgXaiwizVZrhAuvaTanujb4H8reqpfm2t60rA+SbqSfTKtefSh6bHRD5X9vbNjVR2qWY1KEsBm3PVB7rwD1fXYXTHvv3EXwep+cr3UIQHrvtQA2eInd12IoXABsApTlLpw3g8KZLdgMNC1sdJro8o67F69xQU8MI/F6Wl5EPgLf6gcZlHKMNAlA1/y5fknz+JKW4jltcmFIw5x2ELLiSHq7x4Faxw7nQgejvX/UoV4fgraLmt8+xwl/B5U+J6s/v8VNn7jZzm0TShiS56E/6jTN0lFrVXM84+OZ33EVRj9/pqWCrvVqiVRfFw7CymdQkp63I+HaEXv3mZ9cFkSS4Jf7XXkMyN+1b0UMcFq6Nc0gKAlPpX2e5f0KdBvLI2/VZEDv4n0npxARecHYFW/ilLCBTgqz0LWaGJiaFxj4uPebS+KLPWc9aA+WW9cFWG9wEMEN8l7cxT01XGAdxnHtfs3yrsnHcEBX8ithUsarM2xb/BNasfLoyx4WoAIdbZRyZ0LboQ7nYX7Jhj94VOLR6s3pcgKdYdeazzCY31k4BqSvo0D+AULIJI7ShrgJ3Yxmy97rsQsn3pV8hk8Hbd3C277bABqMLTfTJLDcOVjFsGPx17RpGKeFAcK7k/DYt7UPY11x6KY5Lvxb8RO/njImxlnt1Irq9tP5Kzn+3eIC1WQYdSxKgHyglloZ3PLeIGUDXpkHIL5ui7nLWK3HDbZeJf/u6EwJCU/FNLFtbN3EQMer9LUff6lY8Sw1yb0zJ2zCoLrZJOSoPTtcpUw3RfAQfdZ1wbT3zl0Er/fLSQNid0PYetOlIAknBuAcnuEQKs5r+4m0MpTLmmkDsF+NRno5AT69TGxoxdL/0Fa18gO8DhqpQxp20orf6+p+og+b4BUErw60zV6r3Vs5RVvUBa0TLdKqMYsdQe0ZF4Y7Ung/TwVPnL629vXTb5swNgRzhKus8wJAuX+kOe4ntKqR5sNoyYaICdX5DwXL4/HxvFYh69Rv9W34kymk4pfeBrUfMxbvv0Y0VWL9mMCug62AV9IbwELPNqcLYx0cYRbPgz1duwg17fgzd+Kauw5JzexAZesom/ED0PttxsYpd3Kbtl4FaU4f6w1shDn39u8nAqn2fNTfAFsFi4HcG2w4Z7jKym11TTvgJgcRXEDqxT3Y7g4YL92wMLneiuGIImHaWjZRS6HfEoLC9memnZQrAsWayh2Fq1RW4fy0FmoKjTtrpyGTVuklr4IEH42uvbhc4cJXw25JGMtNJuyWAUfbt73thJmYT5nE3ZNd4iZlKmp/z9JUV8cgXOWWLOesR6O8OWWFAnRBloXd1mt/Ab1pz5X9jiHp9xVN8TCnRfPW04XaRPMB9HpXY6a0R4ryaPTLAMsYe0fjaH73kHcNPRMSwkgWrGa02bKncSMn7FHPUYgmz28S5pUJgY66FwBrL1gnKgUSyiYpfmsubk20HboZVnXlh/I8e17CvWXqpXTvrkn65IiHzNsW/t7B5JvuWL9sfOmwWyThZhMo31Zh7AXT3jt3EbzeJ/f+D/Jb+eu7a5sWsPxSFtrKU3rF2XdRoXsk+p0FE34AF9F4UWI8wIHqaGIhC1ydPqEbjbvzYWBR52Ghy8NIYR3SQ6NVRfs3VplGuazUDu9wQNYAEIJufiAEqAKFHVZlRWRtVbuTX+zOcQGaGxBjge62FmsOYyhvn575Wl0T9oBm0zVpIIi0dnorY0xFw8N+H2oGgIwCqt+7OfJHBRxHLMjEbyQMCJnl6ufpOAMQM7/lIf9c6zWYMGGjf6bDzxTg7YwfjX3mFaml23Bi1GtlTuOJ96mjjoLEW3FEUdNcGuAvCV8VwEo8OdAd+06hIQxNQC7MCaD3mTePgGHKixwHzxMnHIOq4B9KSQgPjNNSaIisnt4On6YUdhtYpZunc6iGN/r7yXLxSau0H/gXd3EXd6vc7965c3NMe2NMrKWMbX9bOpXiC34EYu/ruEZr+iRPXobjxbQmmqoBa/eob8CnR+4sIL0OXcNknfmt/SIgRn+BnvvTcZ210/CdqGso2tkFAGHc0s+2X9sYxDkHpb+V2gKdXFtuRhvXcWWCiDccGzhDIFUKu+d09EqNoOlo4UrTFK4Fq2o7P2HoLsJMZeqZPz9+svM4ngYo9rRcPYx4zBzPm2ASNBW0Yztqko1LgjiKFN7yH3UJ484A77E4/hERcQIFFjT7rhu/odFpsPLgShl0yWkcJ5M4HXnJdD2O6JLWa8e9Pvk8i8QgqZULH6/47WB5tFcTANe+cHRWS79Kp72WvGN4qFLJ9FDl6GkZTNIn6/rb7zqfp4t7qN1F8Hqf3LOfbgKQ+8xIqb+uL7zv2Jqa/OhtkC0t16Ddsvea8tgbeluF+8K8KXz18lmb1uoj3n1XJ/8QzoLTqR1YCbamW0DaGGMTXVzQSfuaNYcEOiJdnsuCWBaWJvBH2q98nRp38rV2MBwAeDOMFSJXWFyzlW2AGZAiQOX9ptRd7W3sgKe7X+0tsdrg6UDjwHRD65X96jz6dJs6/qTGgSsJwwZB2wQkziCZp2v2e3r193nCkjyz3dqeB/EfNOjAyUCCPSdsN87xT/6VsX83hqicwTGWc7LOj5Lf4v1FQ7yNTx9j8adYUuqxdYDAYO57ddut3oexyhAXMW5q5WiJc2efjwUPPI2rsz6unwxWXLjRvNFZV8wKYiYGxu/jpqMKkVv4JlyXdt0k/8Vd3APsPuJpCx7/w6ubF3QD4WvW2HIQkCg4rn7+n+gHQWivoQpMoQOWzXmJhsoSrh+2323vH+aEPHXfjjBjgEpnwtf85ZTxXMOO7+hijdX24jLwR2W27V+WPsF+sxbfWABfnZZrm0qGe+SRctURG+CQvxnvpWvHZxms9MoNAO5v4GJjq5P0Ptb+U0XAP1tG/slQvnOzEfYOwnbY22UaqkO6AaWg57npOFhyn1oq87KHYgTz/Ce7CtBniRVTpcZaep1NgP1QmB66VQUC0n9fFDMEMfSzNk0w8l4bZ1HmUTSeVmqv8Q/6CcK4NmFsalZMC1J6mKwZRJfautUkkRBQb7WzFsTVzQqttDt9eXjRS7YTH2R3wbT3zF0Er/fT2Q/1G4KM6+ae2XaNRciAaamBgaWDyA5KqvBzAK3IyMQ290pjR4Mqg9yo3+sY8hq4NaShOS6lb4ddq9XbkmkyzxTPPBG/4+YocK1X77vmtzgBC2tZCAskDVevzoRrGxqxKW4STvVMtFcFVBeHQ7C74ApNy5WHOLfd7WARIGRQmz0AlASHBdf0ZMI7vPsjlFUYTaS3shp3xkeWl+9rlKM2XuS/rtmBbF6gFWrxAVpC0BwHLUUnbAlRvZmdyDVJ7e1xZ8bmjQoxA2KAjazZfeZPaG/mt3EO3aGNYSW/0tDYiwsLtf9qbQK6iYE+67zaObiL9ZfGgsedSUXCDhU3h5k2JzIVxp/iKu2g4MqfOoF4pEBlaQzfbL+5uNHpukBvYNPqJnkv7uKeCu4RXhPvi2OspXlfKrjW97YBo1IZG4JVge2dhY7j0l19O1XS0NRKM42rV6OxF90qXZNU1Ms2QWEMhULt5bm3ZdRwTWHQ1l62/9jHAx/yS2bWFmV82uqwSTLuybN9aSZAk3LN4sZLpvxtl1ux8rjlz6Y545cUUdo2aPRZfxg+HPb97TSvzzGpYIViMdDJDDFO4A9P+NHZCOOEsBd/RhiIRyceIZ5t9HLeecuWSzMdYPb+83PAncD8z0BcdbWxp6bX9SDHJS1S0MsSJd75IUTHuCppDIZ5dyQOiPFVnjzm04gTp7GY3qOeZTbJrEk+KWl+ht/xbHmwlIqUjbxeBnAjGcpw7sHWw12cmexaniSzXU+2u2Dae+cugtf75QQh+DzxQb+7ruysUqBASaNcjkJifxQX4iitkvMDtba2ouiI9mlDX3Etz4xXenve6tPII6faeLWNpAtc6fWwVHpvjnqe1GXO5wwZtXgTaDb76AYU1EGDgwdHJx0Eimm+2r2Vua3huq/piknc5jUVyrKg9QoLFAvM+gKPVe4GHnuZJVj+2oUKuBBWCaxozhaAl8BU8s/qbOWy1mu9FtvhFwKsC9pZYUAzATDxM40XzoghxY/+ELQW/6GDFo1nxc0NTEwDsFZmPI/BhzrCyfGOfAowckbYf9QFbPP2EeDL/sjDEFuhwEEg/Ibb2gckQaoBuKk5Acq3mafTSCmHu4THMpUzNnsabkNWwCe1y9e/8mvrRmalTIh8gyIu7uIu7uKSEwUWXtiuW9D5i5vjQcJNzlMtk+JiR6p0FGc4cyZYdSwJv89suiah7Az4dMyaMGRVEOj3qp06i4cf8mp0GXqgbjll75s6wh9LaYiZ3ikgrNzDT1aRCO/2V6YC0LGZpF1bN1JmYf46URF4nTVXZ85oeWfPXTE7mnIsT2a8ls+xpX9JI7wPU3dV/Dlrtl8TfCHYMRPg3SnuH80eSQnX9PPCFhdyRcNMRtjzrP4oFGa5ecqwy+lGCL01I4hIt+g4fQhwJRFgaWHF9wn0EdiEQhZAV85vZRfgusturW+DbvZsD3QbIFZjzOIshj5XNMZF+5iaVrbb3O12hP2LNuMluiLWz7PdzmajOyR7ZgZ22Hgyz0m4uNvnLoLX++TS8+4CgZv8mj6zfskLdVW317JpjKfE7txlK92EsRmoBtLYMlcQ4DYLYBFlD2C2ANeCZgwch7CWyhBqP98Np6Q44zV1V2qbfXI/gAEqx5UKhZIKDwaymimCdlBVttlaDt2iOyZxoSGbQTwLZlmDIu5N4ArYAWFtAltqbNyhDxEt2NhWJzhV1PijfqFhjK7uAMaBnDoLQmWLFex2xwJM6NKfSYV/yr+l7cq87mu75k/RJViFHSQlVKag5Wm4TEuZ9pl8BX/R10lzVRvwMTtK0hvTBIf9jTkJa0ODQLzPtVQzmJKy+2wQOX4KAMd5wZ3rtqXQ+4r9qu10VxK+2lxJaxo6GKSIJGCdNAfnxPEc0ULHWq+lC2q5QPTtLFxPfE0/joeCJpXMwgCeHNw4TJLb6dZDu26S/+Iu7gF2hrQA0EJ4TUx79pKhGaMyNkTlo2BUAwnC4cKHrcUpjemjzJBnZeyb+dDJF2Kb6IjymvACsYf5vt9eiIPxHuE6xoDGk7+IL4oBKDSgK+X3ekCKBCBhael3u/u2oJSkhH1oDGe0Q9pGl/X/MYxK8XbP2q0WPxZdBbjqcdzOvCVrjrRgwXEugFSbOeJ9klpg6YUeILuy2qLd1uukU6SYWa+PqZsE2E2PVm6nB004dcEzJychLcaxM1zKAuNKnRg2ASDuhjuGY8qkTIB5kl5mmIhCFwGuyjwS9lBeCb9roCow5YNn5KadV+T4spCLICtvTG29jtXrLH3SHM5HMuk8zMxqZm/fVWzsQd4nJjST4TaBaxK63lZ4e8G098xdBK/3y9lCRuGkinWmOzdHFqzq8N/ic7lKedsq6Ps/IRbfJ9gPhI1GCUHuplasFL+vuq2MbENW6W5XKbvHmxkBOxjLhJKjHh6Dqhw/Ltg9ftgVtCGcCfAdwIRWsGqAq9/TD4VWztJBqgtczeaqmoaDiUEj7VQtVzvwa/Fwtt26SLbdasMVoB1eFrdFkh/eNiEhFQsYbeinWrQTTE9f8gFmK7b7N229ogHfLZMGLvbrU1CJR/OPwlfNn6y7X8kPUkot7a/YyXhl7UhL7Eb403NiJ6cu2jRu6dnrDUYCcCJdU7cDwJWqsiz0PE3vjJ4qwKpO208Y6cTpJNreQXwGrful+81G1mBGQEjztK81hoPR4sKkAKWRGQEVsutKWFVIKJ5x52jr9RpL+FZHbQtdMXbzDOPOw/caLR6bALfMXexhXdzFIa0yFd9et5xTqIsiwVDfNNyxpC3kSSuV71a2YUUMcVNa42uTNsf5fkN4MWu8ooQ7lu3XYrhLHH57u5PGKwhn9MBmd0kJM04peVzrtWLXno/hwhiXMWvkr2Vp7rtEt32ZwJS35y3t1gHWnOAI+VBcxbB21xKGaxAafOP2pfIrxiAcknZ5B51bzEbaoK2Klp7DnD7UNg8rvfbm/IXNoQzhbuLvnUC4y5/CwD5C8bQctOZOOsIx9Jh00uDz2/ZcaOl3XhMtXYd0Qcfeqg27qyFk9aEMqD22Pw93/K6s/dvooudlwrLZbE5TkcwGtLEwHnuZrOSBwNFwbCx92vV25QZFswjgVj12TaOa+R0Ons0ZhzE9x8SAWrsXqVXfXnfBtPfMXQSv983Fpu+Of1Dfs9+ro+Bwpmlb43JYCahu3PltPuVnrQQtd84T28pIOSvbFvQQvIaJgKlWK2Z9TDywozf8GQplYBfjqZ7HAB0LHVN1C/WnVTeAXUozcgJedorsrnmBJHRF8YPAetV8baYEmmmBML/LoGPajYnhWSvY9hJO8g+V1PLH7p0KUh0FKkVKa5xcwVF4fRE8y5oFseQHkpAshH8drJQG+qdhxM7wSRXlceEsA3Z7Y26arQiI7J8GOdDHNOxtkqjPMbrVz/eK/E5GJazHmnOKc773vwvKu5C4/WgdZ0r6UuterKledgfMaU4ItGvlsukCz7cRrnMoGlPq1tLjmoutj0ZqvuCefC4V/N6zDeyp6S7aARf3sDsXFBZ33R+qs7KO0m4tmNt+RyMurSlYDhSnVtdGOpDKiT3uSB6QBuxkoWfhYhIYGv6y7Yf2urTm9z1dKLLuCXXFrvuFhRfixfiJb5s0zE1x5Y5pDbeV8fB+R/anPmK+ArtaHONYzNJAuJc+8a/wQHfi2EXcBPcIADe/UDIWevtSyxUQEqYA8aqpW6T0QS4v+ilpiDKutagJ6/thjfYZxvQwY1Vt7ar5j9WfMJEj2P9/e38ftO1V1QfDa503JOErSSP5ICVIEB/ASk0NEkM7FSQ1qU5rRsaRDtMSnzzoOAlTDdWiY6GttcwoLQwaRUdLqK+Mjn1HO40OFaNIW8JHY9MqlTzFyhsIvSPKJIFocifXud4/jr32/q211z7O47w+7uu+r2v9rjmvY3+svffaH8fev2Mfe++DanY0k+hew0HZGgI0qCO9cXaFiO/OuBmvWI5Lq2p8ttgreQQ3RjeifksakXmo0HT9kQimUegDQa8/R0FdNLWaBjeQmPZt/Xwci92WILp5N8lU2dbXhnJHleompz0w5MTrIWJ2crUSvH1O06cLaYiztzfx3l46z02Tq+jPLVyb+LVHD+i4WcdPNMM1WiXbJl3XbfWDTiDCyoE21eO2DDFOAjU39a9+4KYlg2dvelKOJLkVNOgjniw6Qgr6MLhpWpWEFrOuUiWGCdgy6Tq5CdUjCroVsHCObPlNK1710wTRcQKaSxwZy7pgbnYbdh7szbj6tdgNpxdpc/41DBRh+YmJoyvmqnd/ezR6rQb8OityFr8Fa4q+raZE0qicGJWz/McSNpMvb9aU6v0k7XzZlRCvaXoBuZZ6Ti2uGq8rNqvd3mfD6yrSo2YgMEc+W/yXqfz0rbne9zjBrrdXzO3iCd/og191cjfQN44j4NXQmHw8NLBXs5ugN/2MtPoxK0mKHzafmnZHVvefMeaxV4lEwqAOd3IQXQ51AxAOlJ4MGOKAcnh1Zs9VMWywglW8m1/1WseOIB7DF4VE1sSrsmITFg74Va0MblWGILsgo+nZHUnNDXlvfMxAED+4trGz2Wp+wEfdcIKp8lnlXLATpiZqkzOQQKT64K4qpz9et3Eb/mabutj0a3XrQA6ZAZ5Rt85Xd8siuAzyYsrKnfWqfBY4cY1TGj/nob/adTIQdWq5s3brX9Pvi6VmE1dh4m6i2lJq+XakhrAdNQ0D2ZC3jhCkY4o/8neMDydGGcMgyXNxR6nDhLxnp1NZlbSESCfHOzmWerSalYPUXDwk00IHKW4hx3RlrhOtTIWXe4IoRO27MP0909VsEY2qzvQTHn0TGfuhc3lA51nZJL2J7ZATr4eKmZ6fQWIf7+uI/M6f7xq5ld42/JKMHyTGmjTSiXohQaUaf79li0icn+hkUw0nld2YckRWhJ24ScP5mwlp9AvC1PxJI8g8EYg2QVroQfloFsHZXI3g2kljP5FsSTKBG9UjAuyEarTiFVfFrqcjBagdJeAJTCPvZN2qHfPXy2wirlp2pgrc4G64C9YHNkV25JcnsqhEwm6DaUcSyIqnVa81XGljZRJTCYRJU+9VPeLBbUHyYaZJQTH5CLeps/QLc7U9omygi5nplX6aUFRGz7h1s3JbcdLwJrfKtmMDnL+a63lcjSTWFcLuP65QCKt+pdmCFacEJB44pbaTet6uK+cazvu5OCahclYuN/l6Ju3WEHOfmWpWvV3eI7u7JTr7vgEVPI6QPa4OkFwdkDi7IQSTjmOh5f3EwoUH82e7gnnG3/JPyz37idPJLQyzIR7cteX5LJF3W1N96R5NlBr+F/yGfgDuq8PzKs/LlD9inFU3gfow+72lpKV+UC7Al4TaS/RGfsoYjjzQxRtDdYpXt0bUKWqec0228zMJ9O0Xj1LoYoKwLDTVeeEZ7QpykKRv5kTIf5uWlT9Tk7F2ASEBf25xlsSYqK7UxWRaHbNtX5BW1+bQD/Omabtz7qnwOMyT8ruaFDY1X2A1mt1ws4UYRt2eQzrhrnG0yubSMAQ/LGvy5e6nzn+DbkHDN00tJJjmoYZqhet9W4i0mXfwba64dfMOXZ33XLfpQUTM0/c4IszVeXBDisqtBiT8OCA57YEhJ14PEwtuYvb9856ABBESiMwb7NGqVwGZduZWWynQrW5tWlXS5cPUtIjMAFA5hlsFMLk1OSRtUt1sWTD7Mh6QOZzkBF0gF84N/QwLIFyWV8aMxrdVryCZUK2IzBQ2oh/RsuexAqGnNVE5v7WR6km/qrWWq9ph4JKgLoEr17rybXgtQieAJ5jD+MWmEdrR4O1eEIlAsbPG2RpS9RcSWhV7/2EswfnK5kYE2/waSVU1KgGuKkQ3gfpZejEk6gSNBpdDVtZZ3FZlVckO1YeieoaT6sqFZKyJZCXE6xZ3PX8V7i9D4Bc8ICNnqeZAbY228jYCbldlcP21JffaPn1dtLp1K2iqPl7OlT4soa1v7rch7V3mwF78VV1cSeJU3RCFOPuGIYZpz8cNBAu8jyfWTLTew5lW6+NegIljAcO/9h5dcDAUwaC+2K2NJ14ucONIrpgZrypLjR8bN3JXMdfKKcjK+S2vdix29kie+6L3Q4Dnki0KMfmrfLFLD7agd+WHbhg28hfgCLYsW5LS/cw3A1wyIYcO3Obgx1ZRYmBUh5G6cl3lhr7d2vA4kttJQ278ropbLuL5VGM3QGCA+karXQUGdr96VY8UCMtC2NldNmd4TQdDdBoRr7xMbNlYtuzbV18Xk59nU72aQwwJlktrFNc2/FG5t5JEnixmMYl+ZBh6M9VluqXYvBhrrUt1hVWv3KSqm8ZfdpzZ5yKfdTHF4Cfn1Ryebczq18eLR7p1RNjoPYB5JogF6pEteA4yxr1FtZ3VSE57YMiJ10PEovvXEK/d3/HT2CpdfCZGbrI+7XAuoLAa9LMftALzrIzMyxo/gSsSXUEG4ViWJYu2cx6QYI3Ty7PzQzhC3h3er6sWzKrXKVwlqzW/RV92BLa6KQkRmzZTm7gNVsOucOVrObv1BElZ3er0rQM26A7lNp2V1cKp6uYDC2LD+XNla5aAICghMOHM6slWGfYcVG5lEY6UXGVNI0HCLDRNRjI0r8JtTLOBpOaODjCylTVq/ZALp2qVfDmSYtI0+doEIK06uVrKqJ3x2jLJStBK5tvXl6nqbYp3L+MrEqtNMpiXzuxlSkAV0e1ZJV+iB/2vcRNWM9uYkcI6DbTYuJFis+qVqBHV2spDTSc/95a/W906sFfdsZ0MSmc/kUcLTOD1CeI9rA7YS9hE4swA8h8H308sHro2COLbzZoOuCGf6+ITK+/Hs473tfBiwiG/dJy0pDNc6UpE7SNZBPKQZOV5SlDKric4sqpbgQp+latB+Mohycr4MMYfJ4SD4kHq2riK8lSUbfG0SebGiZp/C9v8LT+d/OH4gl2e3QrDKNRC3GyVn1o3PxnsAjmHyh9qEwnaeXGrXtLKAZu4VxqPIGg8G145G+7a8mJWnTq75WlSI/GbHqedQ1A2wPGdpiEXMqUg3o9tOVVy3pc/Mq2mX7/vas9YEh3eRojZ7WsYuJQ1+gu6a3xSC7wy2Vq/rt0Q1xinm8gpF856OrUgqGA0kK02d8nuxivxmfOzjIIUJ2j199jTo4g/yxUjHKm110TPYCSnPTjkxOthoY5s20E7uF0FNB2KS3vDytfazQHxMWdZdaSzXYdnuhaSJ4GsCUNEROvmpvp0W7hAn0J2kUy2MEAwgfiJc2sFh4TUl5kE9SGkRwjoRGthRGWUEriSYy9SB6yJQNsyb26W+jU3Da/poRuozlQmn/rzWc2AXEzeTq1Ea1g7jY/x2NLcVQNG0klBc9Wq17yKLS/TVIdnfTViVs+o1SZXeZESn6pU96a2TrDqQwAUk57DVZWB+9ISXYgY605lGGXHZjHukCHdQrOeIteHGCkZQjVrdsAeXg2AJPuzriKFBYqpI2IR+7FJ9YhkbXmK0PRxO3VeaytoFFdXt0q5D5XbTleu95qZfEXS37n1yppnCc81R3Yszk32/raE9La/Fw9yd14ikThLgWNSAMMGoofbLdGxC+WRUZxz6enujzoQKD8jy8sIzPVNbHPH7wcYvufdiWiabCUkKs2usjAJWtV2HA7zY1ayMvAWlME4OIiTAvmiz4riYlWepT8MQ2BmcLNcFtxMuZLzt2G9ucnYyVeft01ue0E4wvsxuEtTAhngqIVvhB/qghfoXK+4gAHH60m77vEG+L5f3YrrV23e9OWyazyVFyNP9sq0hjqe3MVm4PoNc4vbstN5vJofzV0V091bjQuGFTSos+rZLQPuRQwqoZyTnU10Y3AhJlpNBLV1HaVv8qthy42Px0K0xQElDGNJWh6Lq14nAW79ncqVQO3ZyZZFXVkalQ8HbnMFUdykEe4YwY1em5g/2wssbuPcpigTiVnkxOsZjPDjW7t86BVP8IL4F531Cr0erq7Csw6jYwKaaSKU4t2cbFtZAGdpjfpFhFtRYOWUMIv1MQS3pVv1MOYSb+hPAzPErZPAMClbPkU1zYVxITsdYUY3LCfvRrV8dcJXzY1ITeaVIa+tVF1Rt+iN49zbYz8yWjtoD2Mxvqcns6VEHw7MkWGFYFp5aWaiem4rVU4gEFZTJZgXlMYX3MAfyXUkwei56UZd6C+9kzFv8G+ECd2RvU6F4ScMXW1s3+1gg3GH4taWw2p2mZG+BW2PETsj594adftwiFJ6II3FHdupoq0lKXFrA4I2pO9ZpnRibujPgnXcb4/lUdL28W6JnHSNwXKCeA9nWu0lbCJxJkDI8SqPuSfUXSxCmF/tWsxMTmbsP3Xblj+aN7b16sxMjaN2YQbhja593tkZ8F2teYGuUeJYE8UFQ3DoP7Kb+BqP7c+bdbzRpBfV7ab67kcqYA7Vf0oGxmU4U9LP9wSqbdQArwTjPLs848/HMfqN8solpb7cgtHbvFn3mlu3NZXvNjhOM05i9oad9xtUL4/C4S0cpiWVR1kvW07mMciVqUkoSnwbLKHv40cgm9HZuGYeNMDcJkGdu6ajCwxESD+U5eNpz1mTv51btrsLpx+XhRuQpAD1jc5frjcfBDI3ZOHeoy2GfUTkpYbFGXpM5TZa8AAls7zjOCJITntwyInXQ4LvlxcDmc3CTmDqa3FE0skVa6/yg9WwvbwA8+uvdkVquQZuKCtAVnWy2G9tNmZkR4YplbM4taQdi2ok27o3lurK1zDKgCU4Im221BNVompJF8RV6khX1OlgsDsCCcMPt21YbbsW0/TBrWmAbWdo9mSv6ctELk9Nxh4LgOHMlh+Thj9KAJoP9cSWXNnZ4wucvGwpj/Fr1TMRrcrHmZDwFWIycQfRcTtY1AmBcCCvg3whP8iRjXnasj72H7hVhZq7OcPYVFKJZNXqSdZTvnk9ucuapzNi1/Ze0yzWaBzwbbZXsxbRiIg6zJKpDWEDzRa7u+ogWVNZ/draDlbF5Kat264jn/qsRnhx8nUy90cMbFqMOrz/tySIiydTF+h0bLFe7fE8rD2ETSTOZJg+I+Bc6rxNn+X7a8O/yHJU7z8z+bppgtVci3n4kS0IP73E63moNdu49UgqFcHxaOXiYYyHg2MD3CIABj/lq0aenD+sSvXVVHmTCa8+E6Ft4duo2TiY5YimSHhUZCivW+r1uWFa+DfCXDPrj/z0jTRG6INjfKSEJw8+LuSdPpUavnHQ5td2wDUSAkcNYJPX3TpOw4nzSCV5HcedvWG3u5m7ydQZitZRXsHW5jgXN/eaVm2TRoM40U1ZkCLkM7CETy3lXAsx4shmYa9KKn/HyVcuT5rdhGz38FP96jMABiF29hYNPqPUs2pNOxWQw3jEyYF+QcaH1eY86kroVXXo5TBu/xBz1JGc9sCQE6+HiQVv+cNVr0Rb3fzdalemftwh16cF9uoGrEi4dc6bznTF81oj2Wl7tyW4dsUsklrw4zWwPyTP2C9bdySplpxjOInryJB47zmFaRMUUfxKZosqbIq0pC+NdNb4IF7jVkioTlQboiwQX9vupWe9Ajemfr0KHuAgpJO01Q5SJqTABDuQdwG7/ZAFltUu7J4QdgRxeZyecFbi4e6f5ufSNTJALIjIfKWzkIvalDybJCK/tKU1O7EOdZK3pSclPTh8FBJqV20lk/48vRnf0TLEoxcYjq8oK0z8vWyy3yYoNxHYNpnJhWOJxqD0zkUxopkWXbEqU2RqE521+Jq7Vnk7SqDIr1pE+mVZU5ql7hiqBFdOa/FFmg4nXTUMVndo59b0IWxHjqPiY1++TjttcznrmkgkRqgcbE5m4B+OrwPgGGnGXWeG9IRcmJqONzuZOTflp5WvujSBl23bczZ5nDRVdyGRwuHcOa9+9Z9fHQvRdt05O4PRwfg3TlcnlR3HrawhLGNVgMiUr+eMnXwzV55m6oRrMrqIAVhch811splnYKrRbpjZgPUapSFdcx2Hp1pcHIZrW8xtrca2apJeqldiPsf+dqxuMpDr5GXgDg5iw7c0/b4tDd4WTszW32aK2eSwKWIk/hDcA8IoBeuuhJca18fbbz2VRusx282MjzMWjZ9X7kzUyrJrIrKk2WxGRGwhe3OYmnXpAH0DQbnZFbtOl0RiC+SU9KFhWWc87LP9SDP6dbJ+xBNrHtnV3K0IgF8ZqIHqkk6wmZWswBZ0clMJbCVqwVU7f/sL2IkSBssFu/za86+Q7EVlFo3uONr6hCxZrqTIkFg3Yhe92/ww5iliYZG5n6BGN4F6qzoBNxg1K3WJ5iB9U7Nh1M5OxttnzOzcBw8T/dYif/MEdldnqlslGVwSrG/P+6Y3mSE/MsoTO7tTAcNhfYya2Ax4ZHFm7pWcltOsSqGveJqA1D1qq7J9SctkwY/r6XDw68qVQafmH5S6U3hTxwetzdwWTPFbrbiEu/bMbLJJTMQrMA9+q5ULt/HBYga75PM+h7yhHJn7/PrfcYd+iGAvv93g9ttvp+c///l03nnn0TXXXEMf+9jHZuV/5Vd+hV784hfTeeedRy996UvpN37jN4y/iNBb3vIWes5znkNPe9rT6LrrrqP/9b/+l5H5whe+QK973evo/PPPpwsvvJBuvvlm+tKXvrQr/RPHBDCYG9bI7kebf+vykt/+2kvhai4TK2J4reev5GLXcFLigbj0R5oW8lPLtYTbGa5GJ2p61nIZmDsvabytpaM809mp6WoXJDizXwlLVsZ86Mrksx9tsSyV5+ILebtK1WbZuvFGNw7dUP/JY441D90YXXGRgMy6xT8K5DUNW54tr/BtAKMPo9B04YnbsJGxtVJXuoJbXQzjOJlgHIXM2DIptcuQBty7Gq7di+jP9X4l8BdvNv7cqBq4N7VRb3KyTT8y6pZ66J5l5nmQLf+A9GzkQU5gEX+zrZRn3HnGnV17bH7lnpEqWDms/1l1+3tULVP9QGSmHkrbqf6YBoYB98jN1b9pxvrsMkNUmaG2pY9WJ+2X/I4qDoPTHhc+mxOvhwhD5mZ+tOkn44F/zesuvnU1rytZWytxQ8KJdiAPhpiSJ8CatzZAjla3rg0xbvSklo8vL/MffNlKtHGy2e0A4QmQj8P5oQbRTLgj8StLZ2w4tvY2x4TnSUqcHUxSown9uMatfhFxtXmY/ulLPu9v3EbFgxgu1Q74RpRYIDvPU+LWMla6l28E1apSq5yBhIYkxROGBeYoHifLYbio/VszD9w9WxoSiJIfnXhr+kDDmoNnNiubl0WkZSn76X683A07iHIf1ElfE5ZdHM2tGXkifi6OGhdkaprMhJ+GmbF3YTZMiC79EUkwIbzoyWDK0VZpHT3wzok9/7bFL//yL9Ntt91Gb33rW+n3fu/36Gu+5mvo+uuvpz/5kz8J5T/84Q/T3/t7f49uvvlm+m//7b/RjTfeSDfeeCP9wR/8QZX5sR/7MXrXu95F7373u+mjH/0oPeMZz6Drr7+eHnvssSrzute9jj7xiU/QBz7wAbrzzjvpQx/6EH3Xd33X9oWWOFqY46jASRllPWf1k4NRPFVm3cfB62XxhfFTYEZdm5ufkF2zcu2105PITngQReej2mvLAx4JgMcFdP2ockFHCziSoRmZyL5xshX99JX69KvHMtW8T+Z5NzFuHLkxOTeZ5tLgcUjXKsCi4K5JDN32giVj3CANX19WtpUXm/qWUBbrKUzON5hNyo0wJ77kWWEuHqgP8ywQuVEvK6UN1iJiIqmTf3uoatzNNbqJRjcKbfCbSxbDO/fukaukUYvQ6aRhcCdqyKXLugnuZNhc8bmzo8ugmwtmuTHc1/WRA/PFVoWoLCYn9tklfbg1z1OjPG/7O4I43Zz2OPFZFv9Fj4TBI488QhdccAE9/PDDdP755+9bvB/43BP0j37vL8YCQcc65x9CCLZ8UyWC4uzVzU8qsiySteezlnCRW702QmviMnah+pGuckVZjLcj0sikahzB238Tl3VreXBxVd0cGa/hd+o2/mk16ZrwI1r2uu7daU0nVjvT5C2vaVXCr2o86xJ/8WOhFeHVufG6yLb0TvCTdIImmVW5MtplTSd4TSfAX/1OqJmbXy+3nuLntUnjBKF9h55Ca1pJGdeFaCVCq1LMq2Ln4r8qxTvpp/KTXc2b/FvcKCMu/tYMVmuZVrJC0+A1Ea+lmbXqjVlaU1rbsFMzETBH8UgX1ph3ZCIRaypPGjQdci+TXao7yDhZEe++QGZdzGsp6UyysrOu7E6U4QpNW3VKfsW5Ebg1s+pu3epDVDVbN932X8m1aMcE/ZfxE7OAHN19HAKWPkycrri4jH5Vpmpm44jsYi6BXZodIhEvO/DTKJQcHzQl+L/efz899dmX7WucBzVOL033ub/ze7R65jN3Hc/6S1+iz77qa7fS/5prrqGv+7qvo5/8yZ+c4liv6YorrqA3vvGN9OY3v7mT/47v+A569NFH6c4776xuX//1X09XXXUVvfvd7yYRocsvv5ze9KY30T/6R/+IiIgefvhhuvTSS+mOO+6g1772tfSHf/iH9FVf9VX08Y9/nF72spcREdH73/9++uZv/mb67Gc/S5dffvmuyyBx8DjI++TVf/hHdN9jj48FwlmlyA9EOh4s+CTd+F2NJzILpLHZv44adTYOzKw6lD6X12VyAHTBdFwajHajD9qRJ1KbeGTpzFxIQeOb7bxWngljZDQeH6/y0SB+Vs6IfiCzAvuKd+hENQPXLGEr/6x+jtOWdJCnahrqVuPHdKnpOvG82D8Os73sStZtb4/gVbq5/IlnSizr3ELZIG7lsCY9H5drpvaRyXFdYvtoY24DK0sQV9391YVjm1cNh/wXwk3NVvC2cHJiZVE/5Zl4G9c0Idw68Mfw4ZWbnaSG7WQpCk+LwoqXp2aWLu4mI8P0gdcFMjJIS1X0afl0ZEcsbxR7rc8F6LfQ3/i5uIWkc2sFAU6G4FIPo7qM5QL3c667iZ7x//zrgfDucFh8FtM+3Zz2OPHZXPF6mNjmDco2b1j0TZeOsvATNxrrW3scqXGLFYEZV+Ca7VeE7v2kK275ksIkMP6aJox8/aSrGRXhurZu9UfkR3Hzxq6WVSOh6EbkViVEoz9F6SsgTn1LV0i0JdXOHR4qTBGgW70qKW/XyK2GYaLp26aal3ZtRyDgylsoEpfGpJc43fAtu1DbrgHkv7Pjj3o7e1ky4VA3TL+3Ezw0gMzsC46BZ3mViyu8zX2Jy1dNWwMD+3eyXtDetAxmdyMXvZRUwNpm8XG3Kxs7jWXEyTCVYwimlZ11lad/611iQFucjnPr+sLIbctfnD2TpL9X2zVmX0yxu+l/MAv6282Iy+bi7GLsfkXxtqteaz+xOExiP/HII4+Y3+OPxxNZp06donvuuYeuu+666rZarei6666ju+++Owxz9913G3kiouuvv77K//Ef/zGdPHnSyFxwwQV0zTXXVJm7776bLrzwwkpSiYiuu+46Wq1W9NGPfnR3mU4cEXgONvdTVlf+RKj742buuB+sCo15Wftt+0dEwGstH0aeS7wu/S3yQ4KHfp0wQB62GXalV89dPY+tyWMcbiIiStsPbV0cpOOc/Vme5+V7d8FDx9E/KJueFeBnn3jgZuvaRF9k8BgL7z8aya0emioyGzZ/xPOb1U35uJebxl/sdbS800/o9s8+1JsxGvEyviR8iaHXplLrE9zUBkMVRuGlc3HtmU1YIy1M3L4obPlUsYsJDAp4Pmo4K9sreTcO5LzZ/4pfSUcM8bIy9WnMyUhp/3apJ5cw+DRJhKSuPWHZshZyOtfo3M4sYlDd79qCrJH3t/1I83P3icbbuU26YP3WZxVX1KbjKTdSx3FNfXslKLEBSzjtceOzOfF6iNhIAc1E5ry/P4NqTXjEwLr8BK6NRE4deiOYdfCpk6NF4epu7cx979OOHChd90rspIAZZaUNevUq9hr+kBiT+wFxLvpYAg/K1nQD4lLlYCIV0eUjmPCjNnnoSgl+LlqTd2lu+HqZmlnUzfhPcdQJ8KLX9GZc31jDW2jMLtt5RhQYT7qwjagTGg3kUCIQZDm188xsyNRm7EGsvfo1zqm8+0LgyBC1tSAQe38/0LeUTbsIScEiGZkJK6WuZT6ctHTqx91mJkt5zrwpK8686RfL+nsT5KBv4tmrGDkCdy8fyq2Cs17B3NkhIz0XZ2M3eYG2FDVlY4/a5QJsM0l7lCdreb3a43lYExW74oor6IILLqi/t73tbWF6f/qnf0o7Ozt06aWXGvdLL72UTp48GYY5efLkrLxeN8lccsklxv8pT3kKXXTRRcN0E8cEGztlMb/4oVbCn1BwbNYK+az/rYHPbvqN0gV3ItKjuYil6z/n6ETLnp/qm+cgNo3CIaVNVA778Do2YLmWsQ8np82iA52CQU5qeTLOJ6GCuPIWJ8i5/iYuZSdDuI5fXWaMXYy58tyKNSFaOYuLchp8BBoduyv+4inUMZbVKESDReFj4VgWi4q9LIm1RspxLUGnUK0gk93GQ9pklOUpYmSbjBg3vP99G6VOpldN3SRwQ9n+2cE2WJmTZSJZFXdRnbQ8HHEZNgvp/UeYb069oLmZi5mbueXNF+A4rG0xmEe2k6sgI7UTAPcy4Vq/C6G/lfoRdWU284xg2kbweYjokxHDH+bcNf0lz5fLn0GPHk4npz1ufPYpBxZzYh6bOuZRmN0mppNzVEYWwk7Fm9AeT1h1cpWcShvgax7FyYsdBIkIJwzrADvUDnQyvWrUTcZdZ52ERSJAOiA70om6RBO3mo4nFjhZ69yjSZpGjGE+S6PReJQU6JVKNtSt1DVrBJ3bgPyrPJlhnISmneUrVx/DkoZ4aE4OR8WtRjdX94vevMdtmJjqmbZCrQxdFrqgxr8SkclD0FrN7f7TetE2rvHgC/jIrEnVVeKajRpBYBYgq0C+m5lb+aG8EayNKAwnKybeaXU6iUkx61Q/gVlI16i0VIo8ozz2MRs6vtDbhhPnE8pCdqe2UW4saYScWKYVPFpes+5SKxHlavNjrtuz2JU/u/qDJtZuHWxLM/a+NOJSnfRZeEvtAbsexs5gsKwq0dxteCKiz3zmM2Zb1rnnnrtn3RKJ04MRMwDviDctipfITrh5HrPcTcoYNBum9t3T5K3ytf7FNtk8ufxF8yA9pHXw7seOa7YX8ugvVWdmmbZJg7956S9OJ1TLT1SQmDkOrxfuOtK6rXMeg7puNFic25xfc/O7npRzNB2tvpG7fmgeh3sCM15p4EbOb5PbLM/1CbvYmArNrDKOj2HbVrlR2l0a9m7AGNfEZmWWzRdbu9gk2jFP7JKUSIUN6opx7/yZpjaPOkLlNTfg4JiYohzzZRUckude8Y3+I9k52H6phgIeWe8T5aw1CYELPldL63KgMASeBdhUaHt+Z3CbwjQdp7rwRJaIpHD77qbi0mcV8aU339wN6cDM7agvR4B9v6cWWw42TJTekV1MkJz2wJATr4eEDRS1x4Kb20x2CrXVpjUOnPDEodDZu5HbTpRS7YaDcMV/6kybXz/MWHLlx8KaAuOV+mvnFslK527TsB1tm+yyfhZQg13v3Py6868MEdaf3TZX1cT8sHXrCb00P0zbuDXSSrNXINDUuF7Vgfri3+zG5LeobSTK7IqfyVQjxtHMUsO20RwzMQ6/BDixaiPh6QFNnDPagBSFz5BOxuR1cWfR6rJO9qkySJq0bJAnGTIjTZb6OKZyYCJak6yKwxq3+glkxb54sf9dP9S59r67Qb2vhdq8sWfy5ipGjrU/deEZtLW8EHNpw2NWcPI16ggNv/b2vcBFIiKkW8AWPxPUsHtKOgE4//zzF52H9exnP5tOnDhBDz74oHF/8MEH6bLL4vNzL7vssll5vT744IP0nOc8x8hcddVVVcZ/7ODJJ5+kL3zhC8N0E8cEngR0cAww5FTjeFnYclMffmZgN5yOtM+Oxjg7fprjiMK8lQ65vgxtg/ZunsejIvR8sU6KdHxMea6bkGXgnDohy87ulOAg3ZF+zb3Xk0HfduKALCwcfHWrTuqm1yktgTRDyuPNPO38Qv3x6vO2LTCtjteBRkhR6zFRRpZBBohabbqGiEDUYt0iVD49lae5fRjiHuZweckEj6J9dFESkVsXtudVJKUIBB3I/OptKwRljssCnBK44AF4bgnWzOLDBXEh55sFEHSGCq1k1skoSUQZgrAC8hC/UOw+qWoeDCZ5TB9m+3mYxIC8mllX76aAdDq4dgj1rSvsecW06LsF9qZ18RFmP7EFlnDa48Zn86iBw8SibVDTb3isAPz8Vp/90xN/4uzTrx1RIGBvuuA2f/NhrGoH/47wxT+JzvkKfwooF51AIxWRgByBX9TbMvrpYfuNhPbnQNp4zLEEtfiUFQiMzVIJklPMxSntP+NkV3nTy/4sVXeVgTtmNSiNrnSEhrmHgiOk1NKcQc5PwI1jNAo6/0pmoUmOzPU2ItvUyfl3yWgGkMF7c7S9JpDttmNF5s7NloWQkw1kqvpYdqN+Q8qdyZrNKZF6rhMT0YrbdkLCLUZq5pa/bv/+hnJauDWJujR9OXFXhnW7I3hrYO7knPtkI4ZE2n9HFAdFi0e1bPX2vGaFI+ddQ4t7sTxv+dujfmciVusTe/5tg3POOYeuvvpquuuuu6rber2mu+66i6699towzLXXXmvkiYg+8IEPVPkrr7ySLrvsMiPzyCOP0Ec/+tEqc+2119JDDz1E99xzT5X57d/+bVqv13TNNddslYfEUcMGHgZ9sbD3i3ll/WLQLLfrOdDYTeMOBnnn1o7ZgSsRjJHBmFn7ZBem0wHstUNseWWXZ4a4VbductV12p2aZGHUI5gkxfrSogn6bT+0qs1P4tm0l69sVfeRG5PUB1hLj3DxgSk2Y9bjyEbn2M4/S/SIfO23KgYw3GMgqxNbhgbZFFszds8UM7+BKiZX+DrdCsZ8sos8qgTnHx1B0GS4tf9IcXvOwUAPFzFyrhIHt22DENZnxJs3+dMW/jMo4hK4KSRwU7mw/tg+unjiJ8yV79vOYPqNqwNkIT08v9W3ierHNjkCN7xiNUa/LrvRMv9Bh2Zko/a46SY6IjidnPa48dlc8XpomB/EjeSim7sfsJVcWMcZ+xay0oUlN6HqJtO8n4tb8L9bZWrP4/GE1RGiSl7EynSzbJMuTG7il6m5dStlnZvpiPHzmPiZzkak2V1tuTa92uAjdXBkbiswyJWlMTOQTtB1+grt3sYMoenNoRufIS4gu9LyOPnjVCyuwBWnj18V2x468O01vvydm+KdrE0PVNosvGAbTKrTZKr5jW5bbvJEPL3O2hFwC4Sdro4GGm9GUSYyEcN2+Hq/VLNQe9MMZKikX7fDK4vq8obtq2w7E+uOQbjEycyt3Oodi0cPiA2j/wWlyYXbHnGY3lWGvhL7sZgVs3isgFlJW6GNV+tJukjNsQMmLVq+6jWsw2WIzunGkygS85jOw9rDtqxdhL3tttvo9a9/Pb3sZS+jl7/85fTOd76THn30UfrO7/xOIiL6B//gH9Bf/st/uZ6p9Q//4T+kb/iGb6B/9a/+FX3Lt3wL/dIv/RL91//6X+lnf/ZnJx2Y6Xu/93vpX/yLf0Ff+ZVfSVdeeSX9k3/yT+jyyy+nG2+8kYiIXvKSl9ANN9xAb3jDG+jd7343PfHEE3TrrbfSa1/72gP7Amzi7IBjYhZzZCP06/ns/AC+DSItew6hvMvq47lX21W0lVwYr9jJBUJzxBt7jWtUKx+e6jBvuFvlmlaGqB0z4FOJdm31u7kg/Ra0fnOhMQSpH4o3btT0GLuhVkCJQK7/IdoWaB9WqsSUu+bfGEyfXmMz9eeSjDg4zu8TXquMOBng1QzhNTAq6Kkw9ZPiU2RTJYScFblkh5jl1mCudHzewui2SsX7j1lfrS8ms5p3THH6/sUenAAFXVfJRIXu3HzDncWAnRoSCMcIBEcN4HEArS6LizZQJyME8YOMtv+pzxgTTqbCZ0dcuL8VZ9zAM5JbyFGn5xJyZRSH12O3Fsa8VPCswunmtMeJz541E68/+qM/Sr/+679O9957L51zzjn00EMPbQxz00030Xvf+17jdv3119P73//+A9JyO/Rb+gfYcF8PJ2YHD+ijVJfKmg6b2ge5zAQJF4ICk4nV108cuolWexV3Bb9OToI4xIbd5K7x+IEqmrit5nWzIymqv4D0lX0wfuJxWt1qyZNRubLklk5/bdtlmHCLv2d22101njpGg24K7myy0T4ke9GASGLy6lc26NbAunJVWvmKuyJCv4EOQxIITUSYiR2jD7cs4hagOVktdCBboxvZT0RX7kLU2lYh8/bpAe5HVSk8s4kaOYsVKFEIBGltqEu2+AmLc6cacrYLXMB7Whx2+yK6Tw7t3pvqsORVBKqqfxDTXKDOUzkMiCbo3jh7I6uGQ3OtMoi3pF8UCe2apci+scRUJ8rJ1wXgnRO02tlu1SpCdhH2O77jO+jzn/88veUtb6GTJ0/SVVddRe9///vrxwTuv/9+Wq0a+X3FK15B73vf++iHf/iH6Yd+6IfoK7/yK+nXfu3X6Ku/+qurzA/8wA/Qo48+St/1Xd9FDz30EP2Nv/E36P3vfz+dd955VeYXf/EX6dZbb6VXv/rVtFqt6DWveQ29613v2nXejyuOHqdFbjSDGRmp8SwJj3KOSy7xD5eENl6ofXA7X19sR1wnNoLJV3PdBgFXrPqCDLzUVnc0+06e0Q35hY+62j3fbVzVx9u9s+PGx5A3NzHx4p0ZOZjntJN5HYaL8mLhuZGdfLXc0qbL7jdy6zIHSUpgqvNXyhMgTHtmUjeJrHNZ7NRZ6rqcJbjGtkWzH/LoeYfZQBNvpY5Wg2/n6tfpdFpWTuyPawOzIW2B/66ADQgWIUjvPqWEjYerS2Xh0szs4qlhhQgnmKW+LZkWR9SCqt1inD/ks5b0z5/5avhvFzZwG5ZcLzD1Se7oAXO/obPvK4YJHUmcbk57nPgsy6LDLw4fb33rW+nCCy+kz372s/TzP//zi0nqgw8+SO95z3uq27nnnkt/6S/9pcXpPvLII3TBBRfQww8/vOjstaX4zf9zim77749uFpy5qac+dL766rmvNT43XWJWp7qOZrAaFmUx/nqGIUzgmHiNXcw2nBZPb4/l1mX8tOTQTuYW+2j1K1zF+1c3cfr7OKfritduVau3T9cVus/Irqr7upo1jVVxZ0hX3VYkxa+E4zWtaE0r3qETNMmtNl15oRzInlA7oX3ST2VPYDgSWtEOPZXWxDIt0Jh2FQqtip2FaFXsTN482TGssa+LuVRRi8/aN/qtJ7LBvtrXfTMIZVRu7cNKH081C/Ea4tWwaynHActkFjWXq8qAuxj3eVmNV4oORjYIKxheMK1i1jRLvgXiEhMuiKPKbA5XD88vYh0hrHaqBjXaMHAurXOfi1vM1clqHtRRIGxTx9kl9hMiI2qzV4XFOC6wS79NNcJ+MYUX/vr/j57y7P09P+mgxuml6b7g1/9fOvGMZ+06np1Hv0j/+1v+r9Ouf+LwcBic9iDvk2+87z667/HHZ2XmFhsIEWzvnxOCTprIzpaEE6/uwzKKYAJXCFeVtvDs5AyfDOPSScrefSjPsBNoaKbKHeuLe5wYdWbPKzG+Kgt8tMWpHM36Nx5b+Cn4r8imVY8DMPY1nah8VsM13qr8UcNVMzWeq2mvMM2BeexPzn098cdqp9n4Rn4rWTf+SPqIIvVRpV0bl1W79Q/CYZguPpAP/dp1BU2xubN5dKq3oXJfcJ/CWU7sH8WY2Nn7RzHlvOTCmlsEjwgDOTJxSedm4yxxEAdhnR3Pi1UzOXt5zrD+QTjkn+hWdQzcOh7cxyNdeAjXpdfkkDt7nQ1XhjSRW4f58TIK5MeOhzclgVPWsBDvID7r5OrI6zGDbuorCBdOjzmnc77xJnra//2vliW6EIfFZzHt5LQHh7Nmxes/+2f/jIiI7rjjjq3CnXvuuWftRx/GRwzoyLU5Dty+W91ocd8UpVxHQUEd68hY5LrJyqZ3bNc4be/p7TAyLHerb91KOv4tnFB52Sb21GNTvjoyB4ViHhaaDmx+Snwh3SIbyhkd1400ax5qfP2VqK3AULdGNOevfVnPXVvZYZGZeX7nxjNuxixNL1/EhnzVYoQBeA36aaRY9O3FaohaPTVwIDCCb4b1fgDdpycy8l9Q9Tt3Yv3Epj9jrvfOohkzqWVT02Xj3Ss0KkAu787NR7c0gP1cRutJ/GbCuYSX6RH3cxBfMbKU/kq4rfBkqvUj5YtqRYSoTFQKhiddL4D/NSkZZwPda5vhWmcmDzWtBdhLJz+Ksqq1oE6OGVbrFa32sC1L9hA2cXbiyHHaOpuyQSZAPWtzU7cCvFFDWu7ldRDg0bF/Gw6UZzl5GBvn00NCstA9yiLPmR3/U15R/9kwyHHrh0GdV9+d+2MGWnobjxNwbv2RBDZd3tBemmotpNnuDOlF5urSJeMduMbe/Hte7X+xH6g7SM+wHPcsUgd5brxXJ2a76KLi2+W4H4/q1rXeB7hcsdGV2g6l+GtbdOKkNIJNgwjygI3Zr1KszrC2kQNZF/mwi/FvuTtlm1fJHch6c+RmEpvTxJd4MUGqlYw2d+LWRgQjwax0XBOfE1o+BfMc8NKQjA44Z7jy1a+crXpBvNsW6SY43Tha+erk2rFpM+keUSqcnPbgcORL5oMf/CBdcskl9KIXvYi+53u+h/7sz/7ssFWawLT8Y1nuV2WW/DFceepCTDpoJxrbB+YJjqwowatv1Km6R3ZTLNqJeRkcIIjqWVFlWrfo43RkdJfAbuWoEoopnZgTOnI1yLsnyZYZWjfUp8arDzGmPJqfEpzqXBxw4kwJa+Mum0cIDn7z8Nu0WqHVCWSQ9YwRai/4WX8xcQQkSY1aFkUrhtw0t2XwTaC2k1HhMLUD6eefBpoQfhSgViy4R+boxHlu6YtzG/30HiCGD2CpIl5/sA+PGTDZKnGsNO5yf8AyibrCiSHpMO6lbos0HEqKc+1bmVg5seG5+z+Z5tqbvz2nJtAs7OsBzcaObWmm3Rj7VE+jjxT432ql8rI4jP8dRaKq52Ht5ZdILMEZy2k3oPugFvw2rnQ1cNNd4nhg/UWcwfG1+iuTrnX467mXfZEZcd+56zArA/2ciBevdihDdYyKUodztmF1latyVVwJi/H6+CzFQVk/GelliUhgBTHEMXJrK3HVDV5stiyH5uaylA1Msc9xx7mfLNg50kmYpiK1/trzRyG1fmzvIuuIVJhouy8iJSKXoOyAz4WcuOMmfRQbkg8FNon1rG2gy6hRz4VxfgI8tlv6W8O7ljlKewFMEInc0cTQhYG7uM/AirZstm5s3YfNelOFaDP17ZWrloPOyn+iz7X/rqHBPTini/vxiolW3MslktMeIM6aFa+7wQ033EDf9m3fRldeeSX90R/9Ef3QD/0Q/e2//bfp7rvvphMn4vMnHn/8cXoctks98sgjp0tdi8HN3x0dsCiqftXr8sDx8GtWouKgzs1NJ3S0Jxft0Y29KtkG8IF9fMWBzrkZWRmHBfeWh350YwxXykC3JmHXz53byN261TJF2iNM06rXyc/K2WtbT6j5WkMamJa9mrgEymog7/MhouXWUGk7LC8V1xa7aptia82kDr8C/loP4hqJ6mQVEVO2Wk5QlwJyYCfn30GiuE3mbfqYWdmlGa/EZN46c2krep/VJZlEbnkmTJa7OHye62FZEG+9eiXBqRhq31POS8W39s0MLaISMsFsUbeSFBUNK2DU6/UVGp+QZc9xtXpQpx8RwWIAV57mXl7WD881w+7Y3Zk27GsnbK/bjicM9/W2gY8oVjurPZ6HlSQ1sRnbctrTyWf1Zf82Icb996agGs5NbNCWbtxc4hd/wSDPg3GHrbmN+z1P81c/YdnCFXtkDjiplVMRHfCnHVNNplfbZyc6C7aXx8mcgNtB+SnnEHNGqw5WWKbIaX3cUEZOp55Ponl5OEOznBs5/8jNp48+vuTrVBET6bLktrMEmIhpltK7LQEqi9F1+nqAhKCr5eWjMH4RS/BotSFtDEzutoTdWlCUKBtFN3f7dgEl8ONScyKV0XZh2bkPVu2OMYg3MnvyR7DSFOWFYdHUpFOUvZpx1x67Bk/OjnqAW7zytbRvfS5xcbP06eFjzYKGaxHcL0xEtApWv9bszkzmHmEkpz04HGrJvPnNby6rZ8a/T37yk7uO/7WvfS393b/7d+mlL30p3XjjjXTnnXfSxz/+cfrgBz84DPO2t72NLrjggvq74oordp3+RvDMz0FISFbrdhDlXn5Em+3qZvQNBg0GP+0JlQQWzTUHsd262WsEWNtgdBD4YbyDH+N1bex+FUAXxpTJehzXxnSVHE9kuF3JukMZ42phJee1XAM3PLNqXM7zk6qLIWRC+PC4ZqBJUDdh20crgSI9m6r8IlZnmFbU2joiEskFBSTeL2J3TPB1XxSD8gGOMzUVsWQo0Ci22ftBy4R1L+GSn8+PULfw1rQhVbrIVxnWHGqU7EwcJMlg7lVhIlpxvBYlko1eiBC4+7RsP+XL1plLvms7LPkOFytDmWAZmcXP+NTLZPXw9l1jaSOwPyYm5iRWiQTiTOO0ZwyfjTgRC9E241D44+3kzSGZ008YVtx6net1MpsVdd0Bhdvw2KDsDOBoqkCEa/pi/ZAqFX/zIrqOLc4O6dpjBpoudacKKXdtvLXWJ1QHlqUZ24pnywOMw/7xQ7eRq1loWrVXCFRIz42ZyW5BwpzSrFmjcEXV8QuXVZcK+HN8jQdyKBefWPfsE/gvhUl7PtzwpUqtoGb3XCUqqHABo5GJnre8vtI7bwlshy3qUesAuzRzrwUWQqTdUo1bWuJbafUCd/w+gOmnpLpJDSsgBf0fdgqMvZCvWBDDXyRW+x3X4YTtF90GCQ6wseXPhO2+c+C6zdFwk0hsi0Nd8fqmN72JbrrpplmZF7zgBfuW3gte8AJ69rOfTZ/61Kfo1a9+dSjzgz/4g3TbbbdV+yOPPHIgZBW7vA7ubt7NKtcuPWQQoMOUHnTWwWSrl2v6NL3MsQOMeUOSUFaU4WQvNb0YdZojs4bEE5gF4nQMzDA7N6AzDWSD9Ez86z590L/7KEHwK18scr/erdafKLnFoR7PaG2rJXTrnK4ybW9lF1xh9UEbZMarX2uudfz27TVof+rcwTaEgLeJMTPFOaHQzbawWTWdHiNVvb3qC83Ju9cyipSlwK0S0ThMdC+j/tPRSQuPWJjLc8BBB7S02oSY9NW1rKR9pKuqqGa/ynUKv6AaBv0jxtLcJs4ptZmXTql94JUldnfa4f+WSOeKRTGj4SBbukogEkY7tgdvx7Jx9rmzjpeA/cqGY4o8DytBdOZx2tPFZyd4DlQQ9gtLOp5xz4jjhuddi93KYIxzDT5N1v/2PCWKPsAV2v1q12E4jZesHTkn+jPyFOR9TQ79kR/qz9ijYwYw3i0gPm5qiyXwfFhhgZU/EtSBuPLrV1SP6JPle3G75IVmoXiFUlQu4xYrJlvt2rvXj2T58b1wky6RORIR+kWaW7dWfnO13/t5+tHFFN2WYbrS16ehGpCS5z6QmHnE9DxI3cRdO2XmOE7za6t/RxndkPk5RPWo/BVlqKna3CbByrjrc0Rj3OwzPm1rovrcqJXXf6wi4LlSuXPTSWoewrNVxfHmRaTfqtx0n/OnuB2oF6xiHsr6+I8o701Oe3A41InXiy++mC6++OLTlt5nP/tZ+rM/+zN6znOeM5Q599xz6dxzzz0N2ix74l086eonTAPvLbt6N4kjTp+mV0+Ae3IpPh7zNlNX4jVy2uxTHOMtbJH7yM27Fzc/8IqYndqTTnFcc8cMVMxO6FLlDm3Vq9qpkuFNTQDpjRIAIaITVaf5qy230XVT2hPWmmVwZCc4rZkTuKq7X3koNo5GH6h7Sz2jExH157bD8xQSOx+HkLS3oS7JGo6CsMGg3bmviGSn5A8JSEQEvRvwIMu0pJEq5kLkIfNGtN1zhXEAyQI7ynX39xIoseLpo1tKBvWMCpHpmAQRojVSsIXHpIQinlURckp0ArME7mLMRK1vYJJWNJ4Ib8KAXEIzKPE2ojo6ZsDbieI23QPa9q6xh6NsjghW6xWt9rC1Kknq0cCZxmlPH59dCuA9+xDV7h56xZjMJGonE7uJQLju2IPt+FPjk9Mvfq5Hf6F6dIDai0yd2AT/+lFZjcvzsgF44N+f49r06rgvxNPFVetPdcP8g77g5uOxZq5ulkOi3lG4TfH1L4QDKhaaMasYaOLHYiMrkmICOXPUlHZxO3lqyp4Y9b4tTOUcbjW18bOfnnLeQ51bEbVW0Lg6tq245dq6YVu80tdf5VjGDrnFj0kREZuHQiVetULJHr3gM9mzzc1ocqMDuGoLBcJX3eGoAS1REYzTZgcLSUzhxLrOHZ0V8mH/sGWy455RltxsnUIjZQZyQTxclBezy5CWV9kRQXLag8NZUzL3338/3XvvvXT//ffTzs4O3XvvvXTvvffSl770pSrz4he/mH71V3+ViIi+9KUv0fd///fTRz7yEfr0pz9Nd911F33rt34rvfCFL6Trr7/+sLKxBYSEtzhaYBOYevmRWe2k44rYePCqHbXzNx06w8d1SnzVv1v96q4uD2YwqFenQ9M8gPR54DhOfxZWGM7E4fVo4Rv5bOQU3Xp9I7emW6e3KdvJvGJMa36yNZSTzeFoEH8TcW+BdTCTySwi1dzOrVIz5N/bS1kbYu0fKNg3zb48o/FbAoGNd9icgAxENEvu/vG1Vn+CZihZc35C+2DetKVd4N53V81f9KOBWSJ5G6cv00ahp+tUN63+VKoS1tpf+MS3+WmMJT7y4MDUm5sG9rHOHJOAX42qehc3tUc/isyxMgd17MDeJ11bPPsVVyJxHHDkOO2Qm8Jv6aTrEs5bf9Ti9vzI8Fv004kjpw+OjcrnQrd2bE8/XhaH8X5+17f7/rvnnhyEsVG3vPqhM1LDHmnTxuh28oOtN7tLy2YDi8C4i5ugFRsX1f/RKNs+CusnVB0LBLOU//1n1TaZ4/j0qqvgqDXh4Y97N7J2rvwXE9KycbSB/K/8CX4QyStcpGXDj7x5iqO2ouo3Kjw26QqYh88vHgMR6Wz+mclSLhq4NQ+4Dzo3sRGDf6V0RGQ/AFhKiYnwec7EbyIja+6FB2iFu/ujBvRfcKwAbv2HTJiP8xKYRz8TB/dZd27s3apsxCO1onwpD5SZ49tdpbooMfalx9gkElvirPm41lve8hZ673vfW+1/7a/9NSIi+p3f+R165StfSURE9913Hz388MNERHTixAn6H//jf9B73/teeuihh+jyyy+nb/qmb6If+ZEfOTNWADDRHAnttvzPYKnsSKpzx0lXI9dTlTbnI2XsjgmuMiapb3ml2Ft6dqUr6OGudsITdfbuSLw3uUfhqbwEBkbiBl4fzq9SbWPb5jRHYXELmJC+LbEsiItZjxfgelyBl937dckKWlNMHcmQzi5aTr6YTfrWrjExuPpxsLnFrT8KE6oZuJuwoESY5UgFBtkVEe1Y8S5j7r5q8TSFWCcZ+yKeN2+SAz0Mt/ZgEIQrk67aBHuRZ2kPSq01aIasm1W5VyCsttK4GPofXV08vfzHFe74ETDf0nyk3ihdldEU/ZCf+bbSyqTYIek9HzsQJb7POK5HD+z1K675BdjjhyPHaYdw3GqfsPyjsU6mjFFczYGMuupYEaRONL04rvyu9nlL+VSJCZ7vqTMrHxQjOw6nPNOuPjVzBNLCNwd3zEAUzuWeIeyUf9RVQvmY10VbtDd/VIuIwvyhbjhZHMtQGF9vngZlEfyA7YZhro7JUJ6WFjVIScNnt14H7Vy/Uj9LysbYqL8XAg7od7VFcRMJcd2eXi4QTm8X9v5Yz0zdo7IEbnNZ2OTWkdoo7sBtykqrTLuzzK7e3iZieweWAkIyWNujk6GJyArIEJFZ5RoTxGZuZ8DOqOhv8ZB4B2qDx8THgS9iVpTr+jYYtMXdwSk10p8ZPizGA7mjSXST0x4czpqJ1zvuuIPuuOOOWRlc9v60pz2N/uN//I8HrNX+Q4i2mnTdBhzFPbBLZ4dOUPmBXwWAV4xb3VaVroZpzw1PVauOHAb2OqGJ6aA7Be6gp1sNWAcP9SvhVzhBShQSzn6EokoGu7D+i48dCWZiWoNekBdvJgo+kmBh0mdn3xB2yVgjRLpz3CytZ2fy6dm0oS7chxhQYqMbk5kA64ib85+Lew4j+WHc2HzrfeWaKMFDorIYnSlE4oWswBMEz7vmOJjPCBwzYB50eRON1Lu9JLhiojUehDHJyIrcua+6Zav1FtYcZSpQu8ueTVm6/+peylflhUifUllJLU7QVq49YG8a79w5BDWojcMTV3/sgDkqa4M9TPNAcDSJ6BxWO0yrnd3nW/YQNnF24shxWr9rqiIY/GaxBf81A6u468isL3qdPFuZLl52cdV+2adrefDwPFizqtVxW7essunb+wtMzJpjFUtaDON2OzFpCrsK6gv5IDoansbNA4/HIvBDbmmiqnGZp4Fal22itJUPbnaPJj5H1AZYBvmXtyOe0MxtErmm6c+AHMDyaN17I1DdLZWpjLhXvF4hXJSQL4Q5pRbLYHmPbl9QeFY/6WQ6Lqx8vO6Ic8kscaPt3MJNinMwDapYsM58ZgR5rCoSmedQuKhoG9YbbYp/apNTXHWCsO7wascK2HuW6r1W2W9Vx74EWdwTm/Y68tNKbm5zk69he2UilsELN5H5Eo0a3Zy/OnMplbWEckd1o1dy2oPDWTPxehRh7/tCDA6zrc5NyrJ186tfN9mJyL7B6q6W3LJZ/drCSRdGens0QhtZtIuLy7kP3dbg3n8Ma5pYXVM7t7Vd+zibXuaDXEpQlVhD+gznirWibMQSyb6SviVXYIY1zlBeVL9xeCTwWm9R87aTkqX9wBht9amZDSdS67gP/ptWKGx26wdoof52MaLgJ+QGZwnk1Usap5tlPdHh7zqBOYi72y6pCfgz6tA+5Ir9/d1bvYxLp7gpJ2sTs6q8naRtoXb7lGErByhpTW3irVPjMYtLwwct77aYpm7WGtSv5aP2uTNfnSa+2VnuLQd3PICS+r0XyVmB/BBBImFRe+1tu5it5B1R6MY8q00du33HBOMSu/EJr52fxldnNnAAn3RDThLribwxFjEv5odR2aMAMOvK1drkZhnjaBp2icS9qPdc1vJb6251YYqrobnb/OqKYeR2zdDG/hXZuHdnbrp3yW1hFi6nwDn/KT9M/cQsDubgpmP3sMkJkY8qiHZqirscbEGnqa3O3YCxX+MW3OelBDGU1fNbUQFo4BFPDt0CLryEAEWZGMbrSBZu6WeJVxzrrk6CssGJR5+PbfVyaRj+TuCGD0kahqKVnDPlP34QsPDxoF6VyFq3+l4B02SaVkrDQ51X16u2sfWPHgfmZFB0BTvOjgGvTU57cMiJ10MFdN67IahEW6+O7dJheHfEqE+zRx/UIhJYBVpDWH1gokdAxpyPBeTVHy3ghhPa/gNbYq06KDDaNd2ZOEB2Wl2wtv6khMuSuzmdGhHF87NAL0NyA+LKk94ToYfJ17rNDMtl+bXphERucA0+KoF6+p+Wn2tlUziGbHXx2AeSTRRgazdPPB3pWLqtyVTdSECcLPiZCWgmmEhFAqKC0IhhCz/smSd9627JFcTfEbrA7nlSRG5BeLo/Wpq+TGy+28Tq9DVRIVox8RpXp0glXE3lZX1enF3pi8hoVqVqfyGacYG+UFQG+geti1H5zT0EBGUd2ms9cDwZDPfRdiPD/qPeW0TxDZhIJI4MkPVMH6TcRQ+0q91eI57i3MpApJzJuoNstLIVRwkXdvKWNjZ2vGiM6HxXXEBgjvZm6++PFaiLFtC9roaVwhMDc60r9APehjqgO3n3El6sXiw2T0pTsLjUgosHkMf6yV+7GtbqsdS89BiCkTlYwAca9ulWQdSbXWDEnN9uZMA+vWSen2JVTX37xDWcoxDhcK+8qUy+cY0NBTbkJUyvN0ZJhzJLvoYqTqkuDoZ8ONYJz9C1S/D9i4B5JgNNVWx4sPqTNRYUjgg7rhhFEmzJIyZXgy9tMOaehuMLqh/oyEUGn81d3veFzC6JZ4NMdwSChkkktkBOvB4WdBQXOrCjBeJkN5+LNfXBbcAwbMO4tSuGUffYbY4cl2RMmTiCjNvZjF5z7uTcZRfuVEm2ENEJcuQUKVeol3UXILjDfICbmDiYyqffQbfJX2jzR7WavpuvffglGMVJlXSb7HmYwS8e7Y1rJQq4JR/kcBsXKWG2bS5KZcQzqjsSEq8/qU5OT7LV1oVx8Vkd2Moit1pKupciuj1xG9jGOF3CoR72qaFuPTTnrJYei6Nwm1KFzYyiXM+SfhtW+zy97ezRBvYhQSUJwrjwG+DlanUCKfX0OVz5qv1SJxwkAH6n9WNYjowfNazWTKv17jMnewibSJwRKFva9Yz6JfJL4x1iy7Ft4gNRoN0MkqWfLsTIxg0cmajjwR3njThRkbOTqjZ59mYzERvEH4WxUYZ1pxwQ+SwuGrCjbhzPiC83OeSLnoeyH75qPLF7ZG4p4+59Nw21lVmv/dqu0T1g65G1+UhQ7ktW1+2m2RoNbFTsTONEeWDbEF4zq2KRSuqN7dNzGyLCiTtMOlwcgNQZ0/UVG4QxfD0kYj7Oxt9sORWu1p23OkfkB/6CDFYfgJq/fT6x5SSCz51wI2ifMSofhxpPBCwCcq1B/TZNvjIIe/44bGIDjaL20zIyjiLIOy88buRsR3Lag0NOvB4ihIRktYebd9cTtm6U3+KIARPWxIFXDtLQK/agQuaDWURgL6kZhtLIWk/SlBSqjkgSydnn5Lw7ufBrquesonuF1UcJ6+hn5KUcX2BWCKwH4RrBqCozE8vaENxZIs0gowSwUFy8NjbTBvU+XBBnmLbbJj3Ujkr5sVkNq+H8HDsS3ajZRbFvBeU2QfjRmD6SnQ0vgVtEOsjZR+Zdy6kieK94jecg7kqFXKGLrnf1sjKdB73WtsKmCOypr1GqrXG081n9N2FbZU7Z43YmnnJYYmKRdqwucfs4IJEljppgzdMGBELDcJ7jo33mzNdN6Z9uWnSUaSrvrGi1s/utVes9hE0kzgTsiBDzevcdy65WyPqwMF65eNuZnRTLmnDBeGdk43ii8X0My2XneAuDfLS9v5pBAT8pWtVXjlbHeaFV5U/IXecnVj2au+fAPddloWDVa3wmpn4odq/HA0Tlh5xxd+a2lMXmHwQrcYF6sISmXhtvll4mQvULBBYRkVGkPVdtNJGNWy/D5vaIduxrGZh25HhouDjB8/6ZPM7dh9GzwnxhSV/WpvFSmSgWlw/XFnS9jMnMgooq94uREq7txGx6q4mhIqPlVhiITV40XZtXGhVep69pv6hP0O41vnjla8kRE+zyWl5znf4jvyjCQR65KkQkso6FznIkpz045MTrIeHhU+s9rXTdU9iF7uE5rZ6M+mslc7FMm9SQOvBKNxnaX/12CisD7o4kTn4SyErgLuBOwE7bilOmMk6SO9eV1zWMysRHDng3JKiNdJnjB5wckQ60uBVLr41Y6oZtISTVeI0Q1FnVqb/29Q/1NhO+5aGljHnVskCRbiyvZpufKAwmss1Htoz/gB8xJha5g18l55hvce4yERBsR/Z4piKEH9pSuz55iexRzhXe2hek3pMtrH/s9LUi/qULBXYIJFowOLGI7cfcH4jSMnX7p1BdRdu0bpXZqrcdgVJX3FbzVPit/6I2KVvqpfbJXaMLMNdIwe53gVUj2nHyFfMTcN2aRK330wfWBr37oSuRSJyh+JOdU5v7vYqlncAuOgvT2flBGdzZ+0f8KODAhcd2s0usvtq1Os7qzPaYgcIBIU5flMgb7EQmyCr/xHBVFzu5Ok0UceOuOt65+PTSuC+4MXJOqZw0lDdxN/6tnFBoOmeWgNuyKfeWb/vhqy2aXVVGul1Pi4N2ZsslDB3UJlDPNqL+5ahyHEOH3Hb+6ieWCEda4cvhbTOmSjOVlZnNvfHT1q65EqYmw44HsSjfQk2Bo4ktU2jWNmddnjiuwyi8cyuJ9+EW2ZVURknr2uwIjUxa7jpXWa2szdFS+jIJ6suQVyLg8+XOr/Xm9HdtSXzb6tparGKIQdjGYZFgq3rRylcwh26+EQ10DGWCm9LLzVSp/J//dybhRKJHTrweEs4/h5c9oCvcRKsZ3DfIdt5E8cQtuA2PGNBUgWT61aLGjTacBWvSkDq5YklxRIhpxs3qvTuUacv6ESmMkwm/VKpEgsvq1EmnNchbkqzx+7NM5yeIgbgyrKqDlcIMdqJ4wtNeR6sall9tGeiAv6n+oJ0JTRNyMq7j6DapbiyWswKnaETRxxOT9eHtWEgPA8FcEq66j+ShyCsv8F/arCooiao3oz1TrhKuUpajSdZOLsiEJykYfARf2B6etJKuFHF2iIeJSVZUE5d1Y15i4ooT7H39x7oY3G18aG9xwFlVGl7m5FuZxR/nmgM8yQwIsvVr9ak8tMqognvqD/cJ6w0E+SwF7zDxHr7iupewicSZgEtOPJUe3tlZ+D4HJgj2RQ77FeWWls+aYwD6VOY0GPr0kyw6RizhQMr3xNqr7iN/14fCEQ/qj9u0caWvcJncrP5S6UBNFslJ2X1V45Cmm7iwY2hYzAvVVa+u+EwZCRGtKtduItbcRl8TjTFz565pbAu7Jrfxf39eaeP2UEhRE/RHCkQqSfm38FZY4oyUrVZrFQatkT9vkCGytFJ3EtXJ1Y7DtG3b1d8pHB05oG5CbXVtcwMOBPEZN3+tJNfa68t6XIwA5Bsn1BsXbK3Drt4uWpSbpp37OsdjBwQQJlXtPSitmUDS3EVX+in26bcDOcToDgUJ3VSPqENwZNQQ1OKgbvUxZ5/PfPXV4PUbqezDBzL8nK/cUpmzA8lpDw458XqY6NqlP8twm7i27IlmCZNMn+w08Tpii6Ot36bvwrVFTi1cnWAtspU66aSR4Ao5sml3vaInrd5NArneXdeH6hZ4Nmmyk29oBKtsz+di5jXYpa0OwFUB3s3LQvxd3uuYr0PkupBUe1TA6OrZh0/P/IQIVywg+e3LYSzfh5dpgBWq5Eu5uXl28eRPCjXwRSKeHHoi6JSWVgrOeeyG/AflYHCP3CtnQ3dppd+9+R9C2n9RqqTEccQsfRt2SvgvTpG1T1xtLl7N+ECGB6dLO4dJGvoOovqSpvUjS06qZoilVQiTtGwZM/VEzxwrQI0sVhlPDKN+aQFcNzfLMxvfNnJTOTHRwgne03K+a6TKEeViK9nbeVirXQ/8icSZgRPMZiJNiBZ+YCuQCW+HLTluDdVvzzdclcjyXO8/OFZA//sJ3XYElAzisaTF8wRczWq6aQb+QcobqabZRGG1KHDNtkMK5LiNpiszwdvzN9WN69XmoXI3BjexYw1yTITyZ6E1rVx6hpvDuB+wjxlzi8fzr20xPvJAGe2KiHZs3oBWWSomvdscCZjTeSCD5bUhY0bY7/TSfBQyWGVq2wP6yNSmHP3tE6ZXSpVFLF/X8P723cbNZxNvca8TkeNQ4mTQjoUcZ9K0Nx+G4ucMq1yx1InptrupiSHva/sdm4RmuMmJ8zIV7hvM0gYUZca3a3DD3WPxI0O/8pU1r0vpUnQfqZcEjgsiMwuHiYhXJxaGP7uQnPbgkBOvh4lgVKgTDcMeeR67OoKAYRKDleQQmQEERw+GyREYxbyb+UAWqwnIKIYBmRYnjJCNifV+RkYC2di9nukI5LUBRvEavpBNPYuq5rP5t+htPTQCCytMuwnrmDmMJ2ZhAK36+7qz183HD4yuMbZrotL9tFzCabSAZHJgxmxHZM9Xvy96s9C4+OkkaPUTbu7S6tPI+3gJ3Fy4pjOs5tjmQcDcQ6C/IUuQKXGF4olQFxbswTEDBqgzW+Om1sMrmT54BatZ7alpYF8x8VrCbfVx7NrOG3Nr2S4+xWu6n7kVVWGFk5lo+tBWk/ckctbsyqXzK3adIG79EJuJYdWzElPScM1eqw4suxxKdoUj/r2BIXJ1QCJh+YuhI56XLm7u23QoEpgdMQh4TbcSNuRRkducH/a7HLqbCdY68Hh120t4favMAqtbRceqEg+7dMoApmb8wI9yLiGiFdM0DjPBECZWF1Nn3Lip5sMtKMC8sdNNo2MfbVkeKTWclSUikybu1BoNt73Z89Dt0JjE+CfUqlPHZ6L+NiDwm1VlycA6EMFy1glgX/bWziZsHKNNtzbdmmk40skQk7Gek78+nLUjO7ALQbfKiSAJo4MaPZ8t8S/hZJtg7vEaZyWV1M4trhkkUxgsJLg5skYMRLIVibH7c9AEFwaoPkQEJHeSwyXC2OdBvcwuwh3BhTHWLr7Sfwg6M1Ryyercytdd6GS8fH37cNT6QJOvY0LVktMeHHLi9RAx7Ef8ydbinGcjxc54kyj2JkrCoGP3nU9HZjeQUjPqBbLiVr6CCWfDpG7bbwSvXcFdf5VliruWPOvxAciM/HWUL6ZpewlL29ENxI9NGB9HBNWvuTQS5FcoBHFV4rGu8tFVhUf+m6/xb/TxL6b2gNDcpq+/4m+KXwm/WBLncm3IVclNc5OhnI8DK3mOX23iXvNp1CRCTted4aV+HMQZuBkiW66Gl/FALrIvIKCzeeJBHsmG0ylULX8jUwn25FcnW6XZiaZV8PWQ/a5QuLxFb+1IE7d3DdjF+gr8n8NWYXZDGAeo5TIglBNRLYlGZ/US0ezXaLeE7SpdmolE4vigESAH9zRO1HGezXEv7FDYmoVoMLE6CLPEXt3aOIYvy9ogbLmJ6YfL1Z6BihOJ7UV78++yV7mvnQzgGl4TrtvxYUBmnj6qRVVa7SVOcelX/Zs/OX+pk8RFjuNjnRpPxvy2xQR6vMAU1mzWH5hlRoY3NJ/NfN2Uu1gPbPaVz9J0/mhAUVz07J49Boqas9FHMuo1IAcBajmVIPV+0SbLjHN75bYVI09E08IEp17McGeAamt+y244E5PLWrTSNbzVNxVJGAco1fnPlbPJDLVjBXycrDcOtUUCNrHpnYoWeETk4RWJncns2kQ9V7UWEFYkt8YNRxnYxqE6Bf13o/bOrzac+ObFK+ZBVXCrfH3C9c6Pmluni/T+Lsp2m4GnX7SSSOwBOfF6JsKxBDPhus1q2Dm2MTdemLDawYp1D5kIyLION04Pv5rVxc/cjlsQTHdTb2cIrfR6MlxAx6YLxu/DK7mVGr7RwlYfSmFbci1e/e+HDBXGIwem9NdWj2JWMo7HEWi8K8J82Ou2k6yeFLfB2dVX/bl4OI4fV9xKcSdqhHv0FrLbKkit+ja5VQ9zOL2N3/Mr/6FR/z6j3oJAIvxtid8mMHETOKD8SP+QrCsJcwSKsZq8XGDHq3evZK9kRlqNeb0xnLh4xRHUOHyT8VkVKziptWKiNRJVCF1vK7Ff1CU72Yv3ZCuzaO11oLHMeI8dZ8HEbbdDLBC22YhLi6nLQVx7AZRx61x5+Nx41LFa73Fb1h7CJhJnLqS36pK7kdyebgXbMUe8Ie68x27T+6SYVy1xm3ZTFKvhcMUJ5wyK2XwQCxYW1LP8ieCFrFtV1233sTqx88QX4yJM/YouX4YDkuaTIybDJ3H1LujY8jvFh/yIq1srg+1XuQ747CA+PY6rLQxwP7Z2n2YtyzJhNG7OYi6zWDywLpRjat8tgGDIVYnchLVAnqt8ay92wSfuFmpJNP9en46cIcGGD6yG2XT8PMhuCyc+nzMB/RECHRlVVbEuIQyE79kz3qeWRXuVzGrxUtAC8df+AvRrnLBVLoNdumcix50jPZe0r6h+Q7/JgqecTX5MfvK1eyBTVTbQXOraC8f+2NdXv9L7HFNSm5z24JATr2cBGtES61Cxi7NhgQhOMeC0BHS5AbMwE6LgX2U7NzsqxnLQg4rY4xb8qNkNWNEPgmzqnE1ciIjAQho80bbpa906ABYqo8sBtKx4IimjCeH50Wo9zh+19NqKwghBGQnmxca9omgi1a5eXXK15TiSAw2lHS8MWSRctaBjs9lyDmM1EdXB3Fa9ThPFqyOiJrLEDfliKOOasn3QaDJbD1MchCv3kcD2wtoWl36ECxUO75ugjc1wE/sh++CjWmInO/2d0FZ5FqKm9jL5aj8k1e6B9lhR4i8PlfZTWvhfw1N9oz+WiSZxR+U1g6gxQcOsZQeJMbltZdrOQRGcfOVuQnQXhGhIPltcYq3HCrwz/fYSPpE4esBOCd2IfC/fnJcMhnM8hwpnkH7CFLmrGTzVH+Nd6g98IkpPfDffuJbZks82252Z23hW+WRJk0GyytQ4yn+Td1/Evk7wXNXmg3kQtpOK3c4cNwFs8o+TsMauaU85QX7Ym9dFP1yAAKt7ofrC7w2Ij8/yY4F4Y3M3XFfuUPPBVHbIERZ9DE+XDUoqc5NAZgDelBhZnbCdVkJNwCFt8uaFtz4+VAd4HbtQDSMXhWGrQMSf6+3g4wHZIZXFvscLdjLFYh5IQKYnYi0qnvguCHdmkG73Tb25lLvTtEgJK8bMSrOtt+rcHNmHqXWud18ADR52Ck23umDWn/Mg5I5SbHmpwbF8BYyDbxgsopxOaCoPcQ6u2qs3d3K70OCsQ3Lag0NOvJ6JgOV1MnA3zmaEdJjrE8TSLMNCCONrBNOMkqFbQFDnVrlyzQGclaodrSVu9VrlBK400F9lKJD1jAF1AhmyBLMngrAtS+sBmAfKkYsn9hPwsyskmHEL/7qSwWmiVLf9+6uYtJZ99AqajmlDCxgkN/oaNz8G37W1a51F3KTYlTQ3UtLHvlFBCgIuCSZ9/Fqmxg2aZ6RTx1d2i8JF/IR7fcjiJtStFojIU0A8u5c6ITG2RulsUbtR5YPJWCPdHz3QKoOpHpIlrd3U7faQJWOpbmLVwsn82m3BJKsoMSXDu0dFOWqL/t7wVdK5Oc5pqhLa5dzkqwZYekZVd77VINwxXRBgkKsDEokZdM076MzUPZLd5vZgIvtBLcf5qIyXfgA2qzBdWGO22/i93Fy6RHaisHI9HXDMcQMO3UDT+uc26dk+INW67fbdhjp6DhcsTGeo1+8eQJrTEQKNM/dHDTTSw2SPImgvgJserbxKNqTppZOq9qNa0uUxiqfqyrasTZnDogPkTuP42rWZownfeIVryLE9Neqo0ugeGYULePMc/XKRtuoqpexuEa1efS5R8uHroZXBzE0b8PqQV3Z+ymOk7xbcbTPk1xFh6WQWdDl4e48yAAQtelYZhQtdg9W3k5zntL2SVS7I57x9QVmNMCiSeGcXk3luFheBegcrXz2XHulprOJCuWiHx3nNtdMjhuS0B4eceD0T4bbhSOBuxKNJWsXc0z9OzgSTov6DWrWLN6tXR+Es6bQaSve/2bTzLaMoC+jpRlaTEew1XSfeYcvRpzCLSpDLlUFWXNjqJ9Tt9K7cIciFmtwJmJUcikaizI1xdapu7fLXmPgt6Rb7MJtXtdJArl3tylkf3BM+A6xWNbM1t/D9+WKLhgJ2OnSD8oAHa/O0VWeFovDAJZcNVX37HIaFe1yKIOMqVxIoQG6RVF2D3JrKccy+frSjFdr47mrkppcJ+gVNG/Iqois62+SiPsBJ6cDqmbDVglq0DDMVYqf+EQGkyD6PJVuVwhidox0LOCTFUx6aYHfswIYGFuo6F2Zxm00kEkcbI362gYuF4+Wozwy4Weet29ln5Bbb3YCjbp6Lw4TAtAtKXFjor11a+FHFVhT2+IAptminzric+uJuBMVkz5i5qtzHHVWgHxdRt+YvJU+9/5T/xqctM0Ubxrd0zOnLawo9KsdY3jIdIq2fQFZafHjuaR1XcTz31NloXRPy1HqGeoA2i+iJvSkbrWtl3Jp5mWDFZgwN1n3naXP6y+lTLDu3Atb1J4xuqF9I4sEqPt6gL9CiZpeOP2OB2HzUyvRPZrcZtRf9nosGOk79BvQ9gb8pB9pc9Nux24Fe1W3wcOIfHcDNnoYGDwjVL+K+QY9Qm2dwP2DFmvYi1rihjfioEoklyInXMw04qTlwR8jAPYynk1UqAyM6uzDVbfvzWtukz4BtGFkfF0EHF3Tcc2B3dZSpxon2mn4/PI2SbmRSysALBNKtwsXzYdukcuDnwk5x+vIs0TA+YNg3+jYPgzKnweTpkrKGdsKdB4ySZnRtV13DQMR1y4tehSaiuoLosCrDJkJtjG4rj7kjw54b1mcN2czHdLs7Nssan/RhjH7AwaLi3da9QyEZPJrkg7ZTuVx7Kigy0uwgbzIQUTJ04p64dXectDaA7dnIeNWqv1YUfogvSFAonmN1ZiYyE5VbYbfhFsbReQWy1Qn8fJ7a5GvwMKGOEN8S5CpXi9yWlUjMIOxYIr4RdHCRe/XrR5r6vN6Fi8aw3bptIa+DeOF9vg/G/R2z/S/DUVJ1zJwIkeFHntMStR0P1Phm9yt6TVuYgZ+Wf23onDi9PVcWuYrUvEImXV4sV+287flEDmJM4zIbM3db/svNTC2PftVyjbsoZr6DVPkt9fkKB3oKBLtsDLAsfD2KqaRv7htpNYPlMGUByD8p77R6CQ22qoOKyzg3mbk7z3UqySsrYFc+EpukuVpyGMEfgYVKeGIqTTd8MMC2Nteea1OSli2Tx1IiTERrIfM04+N19o6rzdjDIpFAcBvM8WTjB88Dev8E5JZLo2gvrOInJ/PsEDUwTJaoX3Sw6F49ukhOe3DIidfDxGjS9KD8OrjBA0ekjtSS7bwGr2tNH1psOMGiPZf0s2RlEtmSRmGIy0zOitMX8xLY5/w8azBlosSqkGYwmy1hnrWQbsHBbTcqy+XIAOonQciSYeseHVvQTqAUEloxO7kBuLcieeyuUXsI4WXt1X9UC70bgYM2UMmHiy6y+6pwZBLJoG7P1xYXD93g7gdcsf7RUQPWwUUcZQfJ1iDZCPgM08nqrQJNVSNWkhWvgKV2CoRXvf7r72Gi/uNa3SpYfKaCDsOulNVzTMHu0ywElLiteq2krd4VVBbyciXHltSCqrTMbN/ILw+30Y4NN/JT3Z1svU1AVvON4bDLlCgNj0HDM2ltkD0u4PX020v4RCIxGvGWjISl//dyjrv0PMfG0XeHlsOw9/Njf7ca1qXvJi3t+aE4iipn0ijauapt+OqPEWhs0LuRSXeMFqpyTXMmK2QL9EA+bP2A75Hb6UTInYofcn+x/GzO3OvlJ0eBKO1ywBoP87ZsRkBuz4WrjLn6gDRGShH15LH4jUKyk2Ejz9PHxRi4bOFRfmUrg3ly5+0eQ+d0I+oyED2uaSMyR99HXYZfEmr8pSwKUI9CtpAs1uOs4AED0jR+GMbkS0AEFfb3priooKKApvfZKmmWiqnHQjD0KB3X5Np32qMLN/cWXXlhw4K4W5xVq+ZWw7W0u5Wv3XcNuOsPWwN2HwnEsoY4rGuSWkRy2oPDarNI4ozClpOuMuPnJFA4fro2A149wn7EX1t4w1u1t4NeD/1VRoAkol4jfTaiG4F7uxkwlKzBAMdk7cWMQzVuKWonVPVUz7i7QzRtmDkaWSZ3QfX21k5rZ3A0gJObk+dOzmthjw6YO4bA+o8Is1MRk0U7hnVjauMzJaAEJLwo4Otn2JwdUH9BQZmJI7rdloBjC9t/9TrpxmUFi31UqX4DvSZHae3d/7j9iHu7h4S6l6sSZh+mqRv7ixj/OX5o2pgmC8Qs8o/MyGt9u+UZs/9FfphGFLdfoWNaQBCu5gschaYHd7OOY1Rug8Z5vKloIpEYYtThhR1a4EdEZibK+Lk+a6a/j/soDozBAOA7dyJLAKs/jl/NnxnkurA6FjMxw/ijY6eG1/58YDb9fVVXrOpMlX+Zic0gezHY8W73c4Xs19Ba3mrjEEZZO/HRZKf/W380eAFQs9HEbLyatW/KxiyDlcS6S0p3czFwTm5XEykT1RXSLJ1svdafNLOPN4rbFYjflFhfBCCXLUTRPtUE95s4jrFXhMRmYOexl3HQ8nW39rCvolbWI6Jly8khIrjuecZ2Q4WhmweT/r6rUY8IossD9iWhfMvOELNHZ/m+tLNGEUedEts8EA3zaLSJKmimPsY5SaabODjkitczEQtfF26SarxpJCnwMiqeiItnu9yVN4Rzq2O7tBjc6ttuMf3uNOYL2bdj0Wzctnbq7TXhmHx5COmYIDCotZGUOaaimlSbDKWav/o23LzllEqSJn9pZduUKJNSSI5seVddcEs5RdeGxfwXBIXmwk3TxkI6fVxMNZ/BkQNE5m27ada1kXi7ajC+W7pxHURtHjw7gSIEd9M8fTwz6tQqHKY/gyCcabftJiIowrbatS0LntojM8l67WLr9a1meJJop59p7UrLmK46hbYm5f5A/cykvbYJlZe2eqemX0i0wFtx/MDWJNPKoPlT61MwZwyXyP8gMEdoO6+usjfEyW1V8BL4+2ne+diD10K8s/uS4XWWauKIwwxk27R35JIb4qh9NfaPjucoz1rkD32/clIYQ+wXD3Gc6MctdnG2I9V1xPQEpuk0+UfkgeG/GDeUVY7FXiSyB/MlLf5gxWrJOu4OG62MJbKTmr2/LweiNROdwKoJVF3Mk7pwvDG+/qzdkRn4NxLEkitdlliPg4rotnGbwtS5M3FXMNeZ27mPIY1uOW2LLkONj9ssVB47mBWf4uIaRm+hYf0Mufu8LHtZNQe3CbvrCAJCeL4tbiuq7YF9mbcVmOaciUCudiR+ha1X2jsbkXJPa1RdJqzOSyC+7CL73E1X3LQtia8P7mVAzS6/w8elBe2jd3MRSyw+juh4ITntwSEnXs8m7OaIgQWTrpMchgnGVXb9l154Iia9W0tfSVsdiyFe/RAXg651246OKObNJPSYVTHXS0ej7MjPh/UsBdxH26VwLJpEBSZOiezsHL4Vb+TT+5Hz648ZkCpvddZB3o1sJtRSomrLginIaxek1ZvmMb5SJSJGl0pKHRvti2o7O222YzVVnZhovZ62BghNV5zTjsqDpb/tbPsI3AL7ErSyi1mEKVvDYiTwk3Lv8rSNvz8MlCybaledwB3O65Xy8scQiJT4xLoTuJsjBzqiSuAO7LMWh+qLZQNuxc61RCabQDmNVhq03U+lrKpKJcygQms1gfy0rUrvXdePChE+9AsRfARMI3Rn3tbsNiXwQ2SLsA33POY8NbdlJRJ7xKYFB9EgGoR3i0y78LXbZLQ1GTMyuDgk0BPjqf9dODM8kHJctShhwPNfywtGM9zVQbTlR994Qv87vayHsiiDCHcv4wc/eKEv5XgDTdccvSrUzoP1/mYMm+JUTu/PXtQxVM+OjaoWj2OIBHbDnWomyq9f8drHPXqkGJ6t7+T9MwMTmSMH+kCeq8zHXX/Su1WINRp5KN5qB2EO4oj4b+OKsYyBz95cdgNZo5P3N7wEhIPni8HpedUhzgP4dRyo3Zc9B7fpxxydLF/D+L2ZqE12Ui/HxHBPk1UI4sd1PCGnW8jxTD/oy8THH6UTPma4m0SI2gd1gwZpOvKxW+1GB487G9123/mc0UhOe3DIiddDxMI+bLMcQ2e2KL7WgdWxputQdCoi7hX1Q0PYcwqEa704ypKV55EsxlPMsobOV6ATjsiYs3cHXM7YNU7GrfOtbOyWYzyTSgIC3kxuvHClGflN+W+lZpg1ERGtqi5+BFuR0A4hoVcyGR45YB5A5q4LfovjgvxLX0YIIdd8UHjGjqpgeFOfC+RXlRiX+6HYh+O6I1texTm32TE8uhU3yLBJLZIJ/EimGebocHQXt4lmpNvSjikQ7e0BwQKEE4tQH+LcIjkff3UWmh40t8lPINy7cJ8v8XJak3CvQAMThrO8qG9L+FGMrSZfAyxphscNvLPH1QF7CJtInBkYDQJzbXvhoBHN+Bh/6153WnSRLLnPZvIwmsFCN6errnStq04ra0O219y4ulnN4zTUpV+VqROiLdfRB48WEAoB3uuOIGpnQ6JKfodYn66vG1s2Y524/uwRV5omO7kl5rE/xj02Rxw/Vp6p7uYafGjLPVKF2O1IEdc9d++y9TFLK75OxiGvdRzFcA19nHNyfjeXUczzLne78RLZgNPXsmSalk77w/3ZRbKh7Gcx2/VB/L7Oq5vYxykfhxB1CwxMGlP+/HOHB7vJ/FGVbFcGlsNOdY09grb3qXH4NkX+SvHMg1W4sdw53m/dbN4TYySnPTjkGa9HGeGZrz1pc4FQeN4c+osbKNCsva3UcQb9RboAVd4TuZ6W7tYeUa9y7Vb8xbBZh3A8EUoGuzIbJoKznzRJrhcmSF5HwUpwPeET+PCBkL6+rivoMELIbj2bE0tBzx7zYVz56BmheI5oFxe1xwlbtkRekohL8+CSrXYV9fPtbYMdx1djpiYbNduxvGWEUevgzhDILWtWi8CBqff15T5dW90EbZ9K+4NlAFMzKP2HXx4wcidwZ+dO27lbvsRQ50E+oek3i/NzQTAsmzyQKSZ7Rtam/nQOwLLZ+6Bf+dWyHMkG0Q8Qfwk2ElwmlkgkEtvB9a+R+0gesasv+URjxvx4GY2T7MOEZ7768WS6ipn8aH24zU3k5jplbqM5EhAGXZiFVtQWCtRJS88BK31FgghjkC+OaocxKlBTVKbkUwL/KKdNjJ0cddI4ZvbmSH7stpW5UzkeNJtWUnf6tXEdxntybkETq8eXsatTrb8RrXP8AV/WYubYO5C7zUrGt6IHMrD48gu8ZOQH6uszguH0An4gYyKJGuOs7iMEQv45wXDkSSFhLpuqyl3JBHaCfomCpmUdsAUNyVvJb8s6KBl1Bp3d/TSfgVvLsyPdpZFy2DijXy/TzQpEnDbk971jSIeXxpdIbIlc8XpYiPYje38a9PfhhOq8/yTjH/BhUFV/4z5HU5b5CU7EsPXr3Gof25ONqRNcg7/Y8B0rsINbwBqsn5S0yshsJjdZiEXaFi6d5HRnrlZ1YUsErjrAtPW/dR/Tuzb8iHGz4YBdMLqM6ie4Qv7s1q4t4qg516/3+jgoXOXqq7x5KPVurGp2BaupC2rkZ2FY0wzZxtm2rreJZn+Tcmdo6bksxfB+USF5BFttzNnBTol6drARsPLCPB050KXl49REhcavsFu5jfwlsrMNp75aT1L0qVXKE53betVrqWdxbl3Z+TCoA1NdyYJtD4OL8Wt6YjucFsW0G9isJGhRgduSM7y8MrR85WtXDqHTwPGYYC3xvbJN+EQi0SMaZKtf7G773911TP0YHcUx5wYDZTSG42AjmmDjokI0nZW55cQy8kQ3/MzIezfkgFyHYI27H9rYpNuPNjZ179cmD8c6+aeUZeBhecT5XmJm5w4rdTsKP43O9lzWtjulufVXGw8FcY/9TFzUp6PaT81LiY+Na+622xVGt6F3B/tGmgy3R3Srd6ts8R5zpLBfG45EEFse7i5yd4SSQY1DqD/zV5oc+yOjWvC+bAz5lcCd6mpWGYa12a603Mdf+6Xt+CFyYOwEzKl3htJLv8pbd5VxH05hjmEhm/+97OZKAJLTHhhy4vUIwDTvxZOuGyKckbVnqgfpsfezMvVtL/gJ9/oJ/O+/YqQJIXEd69zD642jdYurWwSBMySaDyXJba7EEP9u8Ah1bXlpw3YbEe0nkfCYAQxbSB5cVTm/GnUpLHGLz2sdscBYfm2LQqCsyrWMvWRYgdgyHpKVGRIXAatC0zVRKUEScvP3bXNftHtlpOac26J6cfmpcSHDLA90lUiWNls/eiXtyISuUepZbDU9ZaXTlYnLyxSwQ+a7M+BQT0iyqz627cCUBxPJOiZaplyqMDBxaZpGDaNrHqYbaPddle6WQpOZsB1Ngo64YEcUUW4Qpu+55glOXUm+JP0RouBRsK364KOD3JaVSMyg6xdk4DcYSMM4Zzhc5xZ1rKPOduDP1o397JgjMnUisR41AH7gri8Lid2rR+STM2ZljWYOh3VcmH6rEm9b3NYKdtjzwCDc7bJyhKWzkzXbyUqbYpvkah8u6nhZvSq36f29WV3w5f+mD2V5GhnLxvGN0PE9qODh9mh9boj8XLwbEdwmjQvSTONyTZqJ/EezIr2iAy16zMs4VmqC+Xm9ejV8r9wDa+oWYtc4GSL0anmquGs3ieVE7BEDNLlR5+bM2DVVs31OsjLK37255X165uGWPqJ2KlL1bhUCaZo2MGiokM1dYwlV9fdVR/LJPaiAU6fc3tvy2YrktAeHnHg9E7FgJew2fuGk6+xbdD+szfkVIsS9nz3DddLEvN7Cc12JyE+Y9COvjqQtZ/1AgPoW+5y/+nHzZ7LF1ZtVbnDuU8kjM0wWwQrdiQAr+VY9CqHlQnLNa1wfTsjq6s5treXSJtHEzXDOTp52bGcp4rZhr3U6uOoxuTU51szqlybquVhTPlY4pkKVQhWaKsfJUiSSTKZ4CauKjYy0YyEgXiyo4flVUfFsAvCj3Q3pUSIS+PWMqEuPiWh0SLq/nWZV8Okvv+JC2egku8kKxLE8IAgSyZlsx/pGJMwB6qm5gQOoii8MBMLSUvMSRVoSW2G3qwTyuCxArg5IJPaIxYPJBv7aQnVj9sYBdW7sHKVvuRWR9vdjHiTKc5C7wSquxkf6s0vJmbn+x/EbNvEGZeXPSN30Q0JiizDe0WQlrIyvBg21ooB/GNmWRmOT4x8NzTPcHcp7Po5iHr00DTIh0XYa5imOxWO9iXLxz+s3rboNbgeBqWTgwMgu7BpieyuIk1E3n46gjM+3OHl/qzm+bzZVIv8XeL7h5g6PA2HaDRHBi9DXn7n9q6MY8aqkkQn0qPG4dOJVIoF5PqxE8RiaLWBm4CoMXNrmTcSVnSsbQbfRtUJmbDHCyVcfeM5N3fuGu9uHsrMPyWkPDHnG6xmMJc22yuzDStc64eVZ3ibm12vTW0sn2CZDpqs515UhH/0ISqZnHp0Hu9g+8IOzquwEZ5vE9IQFiQ2SMRGefqQDEdexqLqTpcvifpbytDOiNldpr+HcJEl/HusyxEPi/NWebRbFM1KSiep5SOXHNGsnsBP4E8hTIG85odYh1abX6gjWIgdF1zl1Dy4DudBzacjerT9LiezV32JULEo0/FmvrbE7Gt7bbZR4F01XqRVX7KCTiNfVKRk+ZbD1r5fy35UngzB3ttZAmKjaW5EUqfIgQ8ItnJAx126u63JA+aC7bo9I8OvO/QJ3duawjFwaS898TSQSiQhRP+N3Mi3oi6xfwAy22XrfCPIgIW8euLmtT/71Mf4MZVUdZihnez841nFTjv0qUmQo+9Oz21f04ty3TgUKJzpmoGcovT++D55j99ub2zFZm8yWMyBxdGZDQJvZvuB3t0TUJGfgnx3sc4STVEoSNfdoVw+YlRduzWNHgECVgwf+WITebp4jqr3k0xU/l8xMC2NwAYrUhS9Ycu1M5CbnNC5JuTtBnBxWhulPlKO5lo98ljEMuBtEHe0Su295WmjYftu9H3NFtiqE1y1bx+jhMHqQXcppNzTaZau1E4m9IVe8nk1whHMTGZs703VpLEzUVpwtRjDhhoNpHTgFiLmdTBlqZcYKbuFmO/zITXq7p4/sxguQ6w7Fh6uYILhiweaKicz5sOjTBnDIY3HRYwY6gqbpsSWqNROyrjJk9EGSvmDlw1Cehtf2aAFDm5S33nCt+fXNQqi6C67M1GIHe3Q+lvHHknbEt/cXy9x8Hkqk+v4+Wvl6sEN59Mgzc58L+qubaysYXD2iVa8xqx/fvFHa21yjghyltSLiNbz11nxxiyo8zzV0a2U3DEN+Za40c7n/vC4dnyQiv4w0lFmQ/eo/POOgD7ybla+56rVgZz399hI+kTirse2AEPjxwL36L3eP+NFk3zxId5wMVoE1XgJjkp7Vbd6qLb1qrH4LfTu4hiGEP3iqmYss0BWTj90QEcP9pW5C4sBvGIwY7OL82+rf+WMG2jpL6+8nwsYYFUVvZuPOIzPymQ0qcPSrlQfjLvLVqJlEEZcCGR5N0HEfyDGEMef4akVTC2t0iniQMWMNL0fwKGTLxOcT+BzqyFie+ExQb0/XB4zOfiWypK+WCWRYE62z2KAQlgVP4cx31FS+umGFeLm+TMyNEvltZRYXr5ibsXaBZbK6O8sV+kTzvQTzDRWq5dDd7JvGDtup9CK+LGjAaYPuf09uRxXJaQ8MOfF6FBB+bEviTopofiSMznAxPc0ceWxxT+NXMJvhJ0vDPdoL2Uf40axt7U53tuSKtjDXQV+3+OMkrDlKgPqjBJTQ1o94kRmgWOMVfOeOxYdEoSllydKKhHZAD7vFf9F1eGBt1Abbr6YlWia2Xm1eAphBehpMV1gJ0eAL5hp/K9J5f+Vh3MRaviaP5s7FvRBN5HCBWp48etVNfo2UDPxGkD5efz+ZboIp/ABWfdstTcafI1uubTvd+OofsbiwtL4K23ZMKSRWJ8Lb2atcNatxM5Ely0F5VTdliU4uatpIJCkoqlKeOOlqbh2yk6+V57Kth23aTd82w+EgRCSWHyfYJdbr6beX8InEUUbHO2PuOBzctvzI1BQTnpU/L7m1W8iTlec1ObNQzZVBe3FVzgvVIZaUI4W9dJ8nd/i92qoafhxD1Zc+JxRllQ3or75cr+McBvUv7Xt+PbktP2YAoTxidFQA/nzaY7ONr+XTyy5f51v5jucm1X3myIHFfC/Ot/21Co+q16RjPgpFLoxyuS6je4PjQnOcmFEWuRGUY6Vg4K+c3p9a1+k+cusQ9GMDElfTG539OnQDIumP0DJ11tLpN4WKCyPjjaPObBa7qGrKFQ3XXdaAkX5v02Z28zHYbTntso/VHgMkpz0w5FEDZxr0oX7grpCB++QntNsRMVpq35OkfkD0bjrI66DYualdpI8P0sDwMcuJQgaasrMHqW6KKYi1mSsxaZq3smwDpejEqTqZ1W34OQSI1PjphxLcFhkjb69+9WlLF8nqaGWrjY+D+PA6Ttd2wpUDeNIAV0G7UamU8ahSKPb25ll/JTDmHAN1GzTFBfcYd4ZRXFFI+LGzowy3H9flKXofgD9orW1ryq5th8JEgiOFTxa9ZvyG7iUNbAAhUcLP9I7ixnpnMtuNGMvBRTNsShL4iTdLbRf6YIrd8lz9hu2h21J2erHtsQN5SkEikThQhJOuMCB7N/yFswt207j1s3yr8WkBKXFXauMsK1PSWNvxOcq4COza3zJzO+O1jmMMZr0KmBuPNmoKcsN9/CkdgiNt6k7kohCam4LODiXDo2ceVyc+OEbrn46QwUANGbntzdgiRlJbguPnCUdVxoEDBHcAFWrSWjqYO76NcYnMhC+lAOFGd+liiLn0zwdOh2qvt3lE2Jy9ml35cWBZwm3884BpsmIrAGU2YU4/Q3Kde3SDbDQ7bm0ecsYvGOoxWiWK6co1CuMeZaYLO7huC190s3U945ZIHAByxeshYSIvM73K3LECM+GWnOm6qS8zAzI7d3QrZn1jT0xm4GsrwnSmYhqEBM5RRUJrRyxvBjccKEjIzIRg/k0aG/yKTnXSsfOHAipjDXs/w3qR+PVVEs8fMekgx2CfjJMLHjNgz6qU6ZxJntZ4cLH3S+QKWSam9r3X/tq+NOvqQPzknD/xajxycsnHtKq35ZCoPDjAh7RIZQL3mmNXtZ4Lew7mGz4umBZqVVbrCz7VG90zWt39nVoeljbdaFC9e/EX42TLXXoFayBD7m0kcLM3eSOIZzVTICuBe9MoDlcq1ZenGJ0GReLrP3KPuhQvuwBdX+xv8LqkwrZ9IbFb80ueNlUziC7Xi2jjW/65YwK4fMxuKY49Z13vcVtWrg5IHCu4zoUH7kSDgXRZ5zTul7BHVfPIjXp/t5urf/mkcspXxuOhDSPGxmU8tTtv/GhgB3EG3QW9I8z5RcS1eKycvnPlbHkhRjtxzRWwXeW/XsF5NVfEtAYOOpYc/cI5LTCHc1X6HFArRzkRN14QqaBlJlAu+l0ITcBzV48ZQlCfD6SpVf2klae/rTo3fdbY9bEDpeHuAu7RxuokIGN4ttSVrbUdgFkgf8at3j54f1MT9ErNukHFuaOlzDNdPQ8EChRXGEfboerz3AxxG8F3MyOz6gRd0VRG+gxG06428wDW/GzB4nUJg12o/8ZOK8Y2H9xizJOP3rkd2YUHyWkPDDnxehZgaXc1nHSF0bSLK+pYdoOIeOLoXMdtSy7VLGzlZhPCveA10PJS2uRmF5z5bUy9We04hlaSxmXdqx7iDvaWmJ7LSm4yVyC+NjXaUu1Xuqq7/kUTcW18FTg43j8IjOuD/Y/RrufT9lfdroJjlx+fEcYtmoQl6o4cwK11UIRjf5WpAy4Su0Y28V2B+YVFVKauDSm05XdwGLEf8PPdhNdxZPdREVHdloNbofA4iujoAUMe8RQ7X7/QAsxB0yjvFPPb+Li1PSKNPmDzs2wadbD+9eNfQi0fswRUOSukFxDhqpHxmw/TmfeIrc5v3SOvPtvB6zXxHojmXsImEmcuFvA6HIg7v818bbMGbmu+JxvRDBRaN/prKkFc2+g5zXBMIyJwkmjkQ3M9aIcby0Net28/4IsibbKZXXlOdseNh8XnX/tv5oe9W1w/8+XWazFfxs5NCtddsoqxo2Cl1ox7G2zN+aTbIOIbhNy88C3np2mJLoboOIsMOUrM3K3cNugmTmf8jL2WXZ/u/C3JLX8+j4IEqNxctSwal27fgBAnB88PhvsSyGOCY6vRr9M15r+MelLtoSAw93UIk+XmOC9xQTVuKB97xBa3G0WLxU/YVrsq63sK2woEO8VYZJ7GEy0/8zWRnPYAkUcNnInYYiWsYni8QCcv7ufc4CNRpLNQTNaNwI+opcvNLDiDCERoksFRn214zWPkVv1Ajy5P5Mxg7+Jq+dp0DtWcuUUXTcYWex3b/UYlqf9Hm6LGxwz08Gdcdf6CfjgIDY4bMARhybX9ML9Ybo3siWlOeFVdidiSKTfw4+RoVOVVFLNDzkyNP9RghWAhJ+tJgTdZfyEyL/yjeNx3uzbEOQ/7EDKI1XQT3U1WLoFd71WUjQtmmXtUV0K1IpCCmZcCXB74oI/AraK1tZV+QhjutugmHrhhGFkSxrVxCu7RamfqjhPgTmiQVtDXmht+yQ8x50c9z00MoB8i2MvvgPCFL3yBXve619H5559PF154Id188830pS99aTbMY489Rrfccgt92Zd9GT3zmc+k17zmNfTggw8amfvvv5++5Vu+hZ7+9KfTJZdcQt///d9PTz75ZPX/4Ac/WLZP29/JkycPJJ+JswULR7wlk5j70D/FUWzSsfT3rFyPqr549BOTHb/QPk1monvUHTP5rt6PNc3Nv4g/KFgN4+Gcnd37N04eDas042ZjRbbMlettHiqjRRTz4apOG4tXtqiC+HAyfUzaS/NWOlVpFax29TTR0PxiruHxDYBqK6AxhGOUWaI9z1gHfpVDVV0F5ziBFzZVa3aRj2tWUGVMdI4voZPyUS+j9Bl3f7UHDIhh8ODizeYZ2OlkzDxwj8zAjZH/zvFLiq/jCVrqnu1mu9fRdQkiwtrV12aZpXEdaSSnPTBOmxOvZzhMn7PtpOsmDDqR6JzXEcY7Sexkh1npat7oynhXchBdG03LdTQaz7G5KDEdq+rooAPdYJDzg1Toxzoq10HLECru01Z/m5eJ4OAxAzi2MiRVVbXJFn8Y/cBDfOLlinGa81pLXPUalSfhJC4VzsHt6kZycddJ+eIWn+lQYYlTK0tTp1AexozVhNEg+Yh+FM8tWgQTfg68wX+WiYaCURmpwv06D0sCxVxQrLr5aKHsqrOvC+rL3Tyc8mRH+WaTsNw7oC6+zHjqf9p5fXi2XzPV2N0bcXY1zXBmIEP5mboMr2zsw8lXF3Q3ZG/pxwSWRL148nUXeiYOHq973evoE5/4BH3gAx+gO++8kz70oQ/Rd33Xd82G+b7v+z76D//hP9Cv/Mqv0O/+7u/S5z73Ofq2b/u26r+zs0Pf8i3fQqdOnaIPf/jD9N73vpfuuOMOestb3tLFdd9999H/+T//p/4uueSSfc9j4kyBuF/kDoiWqFX3UfzbQfkH2JaHDVe7gptQ3b5dZ3iQEJoJr8Cf0E71TE2TAPlc93nA6dmOB84H3SXsOexdMWE+xVYza5kJ0aocEGvWezjajUN6owLt/Ho2P160uz2e9hqdDetPdI3OvIzayWaE9I5x+cZcgM1xt5/ldiYaARlI0JzRWStB6pm+tYqRD+P9wfFtZ/LkKOesn31snCaFy+rJYbH4/EZdEjF+8mKg6ADh/eUicWWy8Z70MlEYspxWZu3YiwwyiM8BQtR9wMtnK9I/qgSzyEqvcxV2QOieUZKsns042zltHjVwlmN20pUD2eURtxkQ7SzxzBP0Vx30DBjjj2wLZM0ggNdNbs5/00GfpiyU1ZHRIXyBWPLGNQ9lm1U5GJR1q5U4oluyqnlnZJzwZpY68obnU9l8KA3DQRSourlWPytU7LrlDuuypFgPPPUMZHObmWLExmIaR/UzY6//ulbwta36Jc3yMMLuiueBihCtRqRpA6HqmrUySF8c5YdHN43Kw9oWnvm6B/RHRaBVQGbEpuCK9y2RZeDVGepLXHh136gxtBNmonXUfrQesEHb9hW1uRbvZJ528olxjj4u3Ecnnb841Qx/RbPLcbUzZofDNIy5OmmZDbAf7StIl4i2O3bgOOIM/QLsH/7hH9L73/9++vjHP04ve9nLiIjoJ37iJ+ibv/mb6e1vfztdfvnlXZiHH36Yfv7nf57e97730Td+4zcSEdF73vMeeslLXkIf+chH6Ou//uvpN3/zN+l//s//Sb/1W79Fl156KV111VX0Iz/yI/SP//E/pn/6T/8pnXPOOTW+Sy65hC688MIDyV/iDMJggsB0KH7GJ4wnch8Nul0nGbqH570rgRM7VtTO2ZxRKdAJFj6DK9CKTHtx7/UJdA9JZ4tPVTRDBbWxHnfq6lFWOHzsCiFvjOzNsXJWCbgw2WMees6rxwzMj+j9yK9cPJLT7xRsj1F12Z1sxRc5CfIibDPiNBc0w14ws6W9cMZKVMgWzggj/4gSUl+tRO2WqAJR2mG+d6kb3nozIqhbldXj20BfvP3wOc6n10XuG5lTfahfRPKQSguRXWZb+LI/HsDXv4CyEsggFzd1M6PbnOJwJrHZISbgV8vfsVBt030XafXdA5YuJNgG4ZmvPpnjTHyT0x4Yp80Vr2caRuexBmR0eKbr6caQDCtBLD0yEZk3YOHbMLzCAIB75KNT4/0gFF2jXx2t50hXU3VWTmwWjNkRF6s+1nk/kkv5b48ZcOeylsGPnUxUCO3MLnUrVFJ03cSGRhWOQ6OCpzpwbeIJs9HPAQ+ZrW5epq8rI2rImnQ/qT9y7bCyK4pqT3NUuRbwVeRoBPHOrrTtfjy4WrdKQs2xAYEd3ftsGBGvN4IH7l14jbo+GUd3AIYZtI6Bc3dMhbEjIY7Dd17+eBW9f7jcde2pgOICmCrY3v8wJb5MJZNClOLcbxTPyL/KLRlrdqPAUcDOmmhnZw+/gyGpd999N1144YWVoBIRXXfddbRareijH/1oGOaee+6hJ554gq677rrq9uIXv5ie97zn0d13313jfelLX0qXXnpplbn++uvpkUceoU984hMmvquuuoqe85zn0N/6W3+L/st/+S/7mb3EUcNeJl3nomUqu3Rwp06ZPAU+Ge7kCY620knXtiLW7vzZ9D2Azk/s8U4ay7DDRD5qxiKhFbW8meOj5uwMvy3s03iNh/0gE3LHarH1w+Eyom425x1xn4VOQ0dHCIzSi2EZtQ7SVpMZfWYjH2ukzc3QUEwqItMU+wm0UT1WzS5BxvKx5dypr3UWvGG2nEaWVFOnsk8ryE5rQ+12IX2U8Qs1Z585GM3u9UAtEGg5hidPYdq9xxBuMnORCc+QjohbkPc5ma1Wbc5+HwDKsnsgQTM+G4wz0dqHtGtJDHdBmv61BJyKT/uYVpzdjwK/6sa9ej5L6tRt14vCQSIUKHNUkZz2wDhtrng9TGxaAjfjv/F4AQ7cIrmBG1cX7vxa/OpXrgzvrsuyz6ZnPAS2XVfh0BhDk6x6iOswxfk7nSEtE4whWzToU7t0xVyFgJACyRGCjxHUyS6pCep26zoQ1MFoGsDNMQOgzDSItaupj+pewopmqsmwcBnoVrSmHVrpil7qfyPWZyeD+6uSENY3+fpKVIrOejVF22R8GB9WVcEyriqCvWZfS0Cjguqs7u7n5leHzwHjYRgabcDFdo+Zc91gFbEM6q5Cb+HArdmLQ7eKY2pH/bqVpoNPX+obdj/RCnFjZZqPdEHauNyhe9VuM1XfcIOzwH8Ck267sy1TSGDSVEq+QRvI4QI7quw5yqg7XGDe6+qAuZf8x3kBwOnAI488YuznnnsunXvuubuO7+TJk902qKc85Sl00UUXDc+lOnnyJJ1zzjndG/1LL720hjl58qQhqOqvfkREz3nOc+jd7343vexlL6PHH3+cfu7nfo5e+cpX0kc/+lH62q/92l3nKXGWwgwuEadcylWXxB/EhEPKvOSMG/A4n3T0oL8YOg618ahNzs7Q2Wou4xYLbZkwEcE4tH3IST8I2yatVbcWN1ddhdr+K+nGz360jz6H1avsw+iKWiRq4zKMzH6iXPNg62U3YPwVKlPLspBV5Ctk/PTa+G9XaMWdo5IKuANGR6TjvOU4lXapgCHULm5Hz+Zu5aqd1ws4aZsr7st+eH+AfI2ji6/lx+jRfVRMLEfuPsqFdq234OFgRAi3lVH3WralwDuCqWYoAOFWQMWsTL0tpYe2F9kRrv3VD9qaeneNgAmeGw4IUbvzaviVr6NwiV0hOW2PXPF6hkJ2M+mKI7m61fjI+vsRyrwywvCWtOB1OJlTt0pJMNLpFcP4eHycOliMZL3THB1y+rASqpbPzhzK2MHeLM6lgRkITj3Lq2atP11KpYWm87SmM41KIEMMpMbhIu1kONoaLi1PUkdgT2W4azabIBA+qtledlNcADybttqns5rmyRU58uTqzg3A0R0wr+eclCMdC+Krim2I1bed1oY8g/P1G7kpmQ7oLEbnCsWqyfChhan1tIeuYi8EbXrgaKtyddWRJth1V+qvVe/Kw7yQ56ZBLxiYh27iViy3/rZ7edTfOsGVrdOqr+Rt7rUw8Gx/P/CLZLzXnhQ7otBtWXv5EdEVV1xBF1xwQf297W1vC5N785vfTNEh//j75Cc/eTpLoMOLXvQi+u7v/m66+uqr6RWveAX9m3/zb+gVr3gFveMd7zhUvRKnEwtH+42LEPZFmS3R82w9SmDqwgf8d1dXe6aoUrxK5cIQPjRMHM2NdYHd0//lv6BixA4envsJmHBFqlct5tGOf8tIrrlYmuIZXd/uIl2IPH+PY1rKE5sms08e7fsGw/Yfe5g5QXOGcK+f0Zmb22ZO5J5bXMT2OQbinUGX3a7duppEfYsdzXhsh+Fq1d8mbvQb8aZQxj5kcNQYTOG7BmQyhRkayXBp++zkA66O5ijuahZrj64j1HbRKpB9ZUbtaQEWLyTYJt6u/4uI7h7TONuRnLbDfnHaXPF6lmHJh7S2GfiHWNxZtp7ZLjgT0jN46myYEBGDHBJFjaXbymsH4Wk7by8zHlGaLl7WBN+qQ50yWbNRYhyaRXWnWh7tLCzQVSaa2FNWoRVu8aImZ84XIwq2k9l4iAn8GvFFBgtUJbxi+v3qVitXz2cdlBG6kfMz0Le3m5bjaQwoUtvkPIT6AXjDrdY5RXkJUil1F8e3u7EdS1No2s7uiJ5emaAM9V4KZOuThm8jApUUyMxcxT2x4Ip4QXGfNcQmGQkKVjngorfb9g7wWTGirth3ffW6DToT1l0F4U2yrO9fcjtsksmVrw66vWov4YnoM5/5DJ1//vnVebQy4E1vehPddNNNs1G+4AUvoMsuu4z+5E/+xLg/+eST9IUvfIEuu+yyMNxll11Gp06dooceesisEHjwwQdrmMsuu4w+9rGPmXD6hdhRvEREL3/5y+k//+f/PKt34myF512AuYnVod9cB7Obzifq1dDNdcrsOmFWLsOFp05y7extu4ZTV3bi2k5vRzlMX2jdun39VgCoWT/waMYPIfuVIJVx7p3dFQEttOMcDxSXXWXqoYsZ4kcL62bzwWF8yyDObLMhRWtdIyvgZmVXhLvMCu+V3qwcjCKzPgxUQsGhmZXDFR3wVx1Ht1v9YXou/Ca3ynu0bZN916CPYqMzXwPziNuG1EipbHWTtlZG8+nzL31elgAXgLYK134giA9n4TFjVVwLB+q63iCQCK5AbTcy1YzXeLyMzfPirs2Y272/6VzXjYRQ4mtd+VrdgDgOwnTXJQ+ITtakG9WfumNbip4NjjOS0x4Ypz0rVrx++tOfpptvvpmuvPJKetrTnkZf8RVfQW9961vp1KlTs+Eee+wxuuWWW+jLvuzL6JnPfCa95jWvqQV5JiCgSNNvQESXfEgrDLm7mRxqlCR4ExiY63b54m7feDGO/wsVi0Zx6c2VrWF6wdW4TSN4v7oV81LVtmZdAQvhq1knRjGeIE7Uh50c5kdXBvaU1K8VGNPXuJy1MmAlopCRx2NteubXp2H1oUJOucbNmKY0iRqp8yO4hm7Orr9NY6fdFtdU1tXA4n7m5iwInMj6zgG+NMroOo5zMx2wbKVNugZtIXKvDwwuyoDYNpLDe1A4OmIAdMIDnoxM4K/3FbY959/C2ajC6F1S+sDd/PsVN+yDDHKmaTIkbvqaTRP/m7Bb4hgkxDN+RK7sjjlkvUOys4ffeiKp559/vvmNSOrFF19ML37xi2d/55xzDl177bX00EMP0T333FPD/vZv/zat12u65pprwrivvvpqeupTn0p33XVXdbvvvvvo/vvvp2uvvZaIiK699lr6/d//fUOAP/CBD9D5559PX/VVXzUsp3vvvZee85znLC/YI4qjymm3xvB4AXwi9u6jQcn79+6z3SNLFKJetd9XnfHldzfMjDgGcCoGPzsGUIvACFGYSBt3GCPY4ueKcikMX7RlH9WQykrRNTokybOYVspNvotfArfqZfM4GqeZWvnh1csK0WC1q92l1inH6B610aItLKzA7VoisPPNEF3xhWaTlq6GrRtMgpnbTPMdxN1NvrLqS6ZAzaKPEc9CJ3cPWSOULsdZDt2kNwsEQLOSPMP5zbMFZFA4tleiCI2kSyNQejH6QjKccZaTBTeKABN33Hirq3Fj1w7YybOTYfh5+y76sAons2BVa3jm6zFFctqD47RnxYrXT37yk7Rer+lnfuZn6IUvfCH9wR/8Ab3hDW+gRx99lN7+9rcPw33f930f/fqv/zr9yq/8Cl1wwQV066230rd927edlR94mP2QVug+6tFjYrRAAZcOg6O9SncSvDPXDnfgvxGaVjELpjc30jWKxOBijykSJ+fNmzXT8PrRBDwzlUhsMQq38y7d+OR1aFpaOtrnVSA8heFbO2gPFuzCrevK3CisJdpElh5P1TFeFUzbuC1ZXgcrYidy3F4A+GozOsFtpW+9Nw3nNCcjsVwPV+GbmtZIpj/0qx2XgPfg3FlTS3Xo7nWXPi55r2/tXZjiLvqV1nL1vVK3MtbXYfT0YwTsjyGO+jZc7XrOlMqV8Fp82L2UEnbZVe2jlqzlBm7mduKWIOrXLE0n1+11t+VBYtA+cuXrmY2XvOQldMMNN9Ab3vAGeve7301PPPEE3XrrrfTa1762fv31gQceoFe/+tX0b//tv6WXv/zldMEFF9DNN99Mt912G1100UV0/vnn0xvf+Ea69tpr6eu//uuJiOibvumb6Ku+6qvo7//9v08/9mM/RidPnqQf/uEfpltuuaUS63e+85105ZVX0l/5K3+FHnvsMfq5n/s5+u3f/m36zd/8zUMrjzMFx4rTjla0LjnTdd8ffEec03WmbN3qR7T8TFRgZ7BzN3O17MrQ0eOUIxaHMc8eQH86flwvlpf2HMgv54jytEl+49wPKRfVMLqWNeajAuno84EZaqUf3cnps7ypusEUrP0d0XgTd2dmDiBgYDjhVekYEZGwee4B8UJHuKenNaJpcURH7SpJWaCjy4cQmUWWyLu0PpDPcxBPx/c9z/Vl53XglnYY1ucLuJ964r1vSKO6m8LE3INZnLuX90cWdHETkEanpyWyEPUow1u4mVWy7OxkAW3HbLZz2MsK1PBWiQirvx39ylefbX+j7/sYlZjDUeC0Z8XE6w033EA33HBDtb/gBS+g++67j376p396SFIffvhh+vmf/3l63/veR9/4jd9IRETvec976CUveQl95CMfqYV9xiEgo0uOF6hyISL3hbI4MwWdvHh5PUvHfIWImlk7/Hp1/hBHH8YNLlF4HUTmmIlyArfStYZc1IH6cPbnSU7YZ6ufso2qXvROX2hFE3FsW5xwNMMPaAV+dfJUt57XhImobN2pepZBCd4yiqn/uTLBa/tS0JTfUr7Saqj6O796wL056L73Q3dzLiuYGZqCeSkMg6d9vnJvu6EpRzv4QhlTJi3RuFVq/UG1gM8mGJJHWCZB6I7wzcmYBCjc4oS8az3vHdnxXna3gS05xvtG+ngD3meyA2x84p8BIayCAqQR0itPI/GaFnF2dY1kQWdIP7Y7goiRbGgco9s1qtqRfyQ3SjYnX4lovTP99hL+gPCLv/iLdOutt9KrX/1qWq1W9JrXvIbe9a53Vf8nnniC7rvvPvrzP//z6vaOd7yjyj7++ON0/fXX00/91E9V/xMnTtCdd95J3/M930PXXnstPeMZz6DXv/719M//+T+vMqdOnaI3velN9MADD9DTn/50+qt/9a/Sb/3Wb9GrXvWqA8vr2YIjy2mXPoTOTbqGcYD8kjSGnWA04+OSMCJSeYThE52cs28cCF3nD/aJn2pkyivFDFfT6lx1iyYF9wmWxgT2RnLNVn0vVyS45tUPwRK4Kby8WzhBQFtdanaxxPhDPtyZ+8UShRGDedCMt4JvNNbMha4wuFY3xxuiejKf0/D6SuymeUOqyCZM4a1IJWtzBUW6cPOl4O8nLhXLzh+5IYuLxBSfxH6RLOpYJt6ie8q0J/F+g/j24hZycO0rWkb8YgLDH0XDE9XFDsVY66veRKjPTB8d2bVtSG/31VF133TswF7g63wL2Tx2gJLTHiCnPSsmXiM8/PDDdNFFFw3977nnHnriiSfouuuuq24vfvGL6XnPex7dfffdQ5L6+OOP0+OPP17t/otspxsbJ103Mq69dR5m9RVGqSOzUJ3IgA3UJbA02coxoXN3Kz07txGp6HSZOnBmKsc0OKYS5End7VmrMMCTJXL+mICRn56dSmSPItAk2YW3O6qBSTAb+Va6uIpV9RYjs2kVbOcn0nSvdpDTejHh59AKJ6q6idTYCvbnoFG1eTcIu+Hc1+6dAYzxdbJU9UPCOcjRnD8t9O8x5cif+bLxto5uEF15GZ1x6ruMoBojnsGVaJeroKC2VTBHb5NdegKE0T9CCTczkRjZdvOB2R4sTZaNx+2CeAGxciRRfAGO+qjaz4384enB+Glbxqy6c6pq12B1ryU4eFhYik0TqJuOVz7WPHWfzsM6CFx00UX0vve9b+j//Oc/v7sXzjvvPLr99tvp9ttvH4b78i//cvqN3/iNof8P/MAP0A/8wA9sr/AxxUFw2sPns8NBJcbWHdiWnY7hhdG4Yd10u3R0Dqte22TizKDQXTdkyQxvcG5ol5F2zIHyReQqi/12LQvfCxgMAC07E39TrhMdZGaqx5HH8bmxo/QkcNPzc2UQpq8lfSQRYohyGugZQ8gCs3KogbktsCBiJBLS+C+iu10Mb3GrXSE/Xty4Ia0L4w3Mps3q/UCVpqvZVGlEedTMRLIWw9NJyO5cEqsrPrZUs6aJ5k2yPo/IrVHLyueIWODViPg610J1LczLzJprLqkDD0Q6s+eSQUPYC4fT8ohWvlYVRgksHBNcnzDrhmFN14n3ntcfxZZ8D+IIIzlth/3itGfFGa8en/rUp+gnfuIn6Lu/+7uHMidPnqRzzjnHHKRLRHTppZfSyZMnh+He9ra3mS+wXXHFFfultoWuDPU/wHDSFRkQyta4KZQJ/XihXxdJufJ0rfzBnOfCdXyRMC637tTJ2O+82u3I08s9nIzEj/MEiVWV8U02eHMvWrMURBP7tYKbvtYOZh+uKNt2TPtvgAoJLiUkIv9hrejoA67NY/TGFmXiClbSN/muKnGxTWP+o1ptdWsbdDH+eTduTSuSM2o7KZjRVv6DRI9dCDNHV36+/Yv7jdD7Lx2h7Rmim9LBMPUeMCtdF6RbCwXCjBqMt0duNflhpzHWDBvXiFjO9UlL+ix8ckQh111VUWc20UufVNeuvN11mbP9CMpue5CqPx8Lz8ia86sygUJetzm/44r1uq0Q2NVvvTmNxJHFQXHa08Znl2I46bppZN0/DMcg76Qv0I1/f84ruje+444cAPtIzvMpy7VAF9Rj6YTFtpiJ1vOhxt/Lniw3RthxwZ6ai/GRu0ogP8dw2nM2ho701z1kRT9Q15obc28f1dpMNeYxE4pnyhZbQFRYHaTzm6NOxo0DWXQDEoRcxXoHk3qBiq5p+OhN3JWjOV1MHLPEyqW/gYTJ0M/HJU3p6i+B/wbdZtPwbo7PGpK5AQJ3X60/b9/Pa9O1P+81uJbf7PGKHTYIjhr/Bret+fdRQnLaA8OhTry++c1vJmae/X3yk580YR544AG64YYb6Nu//dvpDW94w77r9IM/+IP08MMP199nPvOZfU9jCZYeL9Bhrp/YTR8y6hjBbdIVBh/ozNtcTNSxW9lR/HOdc/th5vzUlZs2q31/TG28eXm5FXkxU2L2V9+cNkXMuahO95XJJtcQevFFYIqBG4mqRWRIgXQTS20SrGjIMr35w/piexUTxk09Kv8brEiFwiiEYODWMXLuiGd3zJkrUdcK2kSrBGFNc4GPhA2BMvjrZeIGXPTlkcwMahNlyDfECWVRW70EJ6cF3cv0YsDK+rB2U15t/rW52y1GrbJkLmubso7tcCZ89xCohpUjVWGfBubiZ4tXunDD6xIZ0Ic7A9nywIlTfUjYDUnc7Xgx8DvOPDWRONM47enls6ORtmB4vIDjhl1cPo7ID/naHP/bxKE7okGzk65+jArsZnLK81uwS+SPmojfyzTllbt8L8nnloDoRgxm+rXFBC1o48IM/AY+6xoOicpp/Meu5uWpizcqcpelKJuEU70jerihxW9ARA4GZnuZZ4dCsHDCuQduMecW4xYdKypw9JPGI0RwjiyURlQwnn4xOjV+aPg6RFd3z6sZKayjs7ioZ5Fsx98wAsyEW+AS8Z+uXwsjstjUONUedXMbojcLfGSbq2wpDzqZbp47OR6W794wpqMzRNV55Qe3EvuNQz1q4E1vehPddNNNszIveMELqvlzn/scvepVr6JXvOIV9LM/+7Oz4S677DI6deoUPfTQQ2aFwIMPPkiXXXbZMNy55547/Ora6cLspGvQiff91JJeezeyoJ/RSfWF6xyBZYFYvKzGE4SHK2N48ekXdIOnThE1dyY7WeBXpmm84yME9NyqFt7MjUD6eGwAQzjViHWrWyBPpAS2EP4OTWY4LsjmiZF2TixEWzJhTxlrV3P+LOtHAAaEGo4GYDwqAOXw+ACID91ZCyjw8/uepYj6l7qTPi6bpjSj8hn5txg2yWz059AzHvAF2oMjhLPXKI2Rm487clsR0Y7zJ62HFjGXzAls08NPWTDBx+YGKnVpG6dWFnjmle+z6vlWxpnBjVscVVNIScp9W8PjinuiOqMPek7ZgrypsZ5VTCYOlnZmdPfeYh/JKSI8WqaTaUUUiQ7b71HGzpPTby/hE2c9zjROeybwWSKi8aSr+u9jWn4wHwo5HZBfwovn6kbkeGm7cuC2L1ckkzAo2vWaIxxgJxwRJiC7WB7tlbUABytcGnTsJ9+0uPG1LgoP9EJZjpuDwEiH32LoHh/KEWYad12kgGZnNwl6M232q+sYMC0iw5frtxcEykyUSkvlJnVXtctDpSHAiytdw3LQJINirnn1MPmqSpnm7EXNFfiQqXYh804lNOMt5G9t7yea3ki2nPXa5RHarDg35ZWx+Nhtt+c0IRkrz4/t47rKT1tlm3vBVGCrmda2GCslsEMaSlIhnPk+CHw3oT5PdmfKQnFEed1rd7b0mSdwZ/dMua/j1ZmK5LQHhkOdeL344ovp4osvXiT7wAMP0Kte9Sq6+uqr6T3veQ+tVvOLda+++mp66lOfSnfddRe95jWvISKi++67j+6//3669tpr96z7QWH5pGuA4Ui4N5SpkqKKtHSEypmqwYRXJQfsOm7osAk7bwhfO28xGnThoRMfj25Rr16INSzNYx3Vq19LGZOo/BdI0TTmQZw4MUti/PS4gFq2IYMRonoOVWMWky7RFv/GKIxMJY1ifj4eU1ZV/0iGqr+Pc8K6xjSNsVKzZsZq4Ci1LILmRd1V25cbBGdlSut14u05Jr5fpnx7Vjzy94qoTHTDykZ/IabVqEm7qKa2OcOOgZDVewgb9yIiElSGRO69jLZRAX/xskZvMdEZVfx9MiqfoBzCbK2IaE1mNbYW2aQGBOwIJ7pHctD8qPezVx7GgX2N4X3uFjgwDNoh8v0lxPWoQ3Z2SPZwptVewibOHCSnDbBp0nUrv/1Bmw/qO2hd4WR4GsjU6QtGO9V+uoZx41AfX2+O/KQq7MdZKQdBnXk/EbETkUVn/bCtH+YIzNO1xEMylEPoh72w7cRy8eOVWTBBaC4maVp1A7ssN9cP3KqegVm8u+G7jVjUBR9IiUoz6dpU5BaUBRNy44EbQ3wwIecf1yqPElvqUduv8Yt0x4RqlplakdZHtBlZYy5hGYratM1IVv07ssN6UwIRA8Wqv7cDmcP20cmQI3hOcXIZxMLUsnD1RTVqbCyDa4fd9cfmJX7IacffWcDFTLOAojfZg7Cm2zRlUfQzbk7WhD1dpPvMQHLag8NZccbrAw88QK985Svpec97Hr397W+nz3/+83Ty5ElzrtUDDzxAL37xi+ljH/sYERFdcMEFdPPNN9Ntt91Gv/M7v0P33HMPfed3fidde+21Z8bXXwMsPV6gUZL5LnGOGi2V6+XZXCfC4iYDy8BS/XQiTyfs0L/KFE1gVSxDHFMEyCraqgRy8XZFV/Y7e6JheLe71onYuWshklF4z+IE3ATjwdetbmCcvLm71sgEZKjJNMIHMtRknDLmzFcmFx6qhWuc0SSwLV87lkvgZrGpHbdCqWo7BKM0sDqcgK6rLcy5qC2t0X0Sycxh90M0HNHBFG/JF6L6wDdboFDqMmcfKD3qMCKZkMWrjjIuNPCb5TVLCn0jWysPCZGuRKYNq7keS1X7MbV7/8CuPNvJLLOzsY9Wqx/W11c38mIe/BKJY47jwmnHZ7qiDFpm5JfEtRjRk7kUylT4ClcTIa3yw5A3S2CO5DpzN64q42qdp+evggfTC/zImQ/KTiO7LxEhPEaJO7nIFsuFZTUaYGaajKmn4LGhUqQ5iE1508/q68w8MDvUuICX48QqHkjmbxkN5/WP8mQKAOUgvK5IVjeTZuGEU5pxSVZRrQTGfNC4aEj5WOHy8Cylz25sZPtwbGTBjP6lwMwzDtNkjh4EjB04r2lgEocZxhPIhGGg5ALZJee6mjmI/eBq4q9s7Awc1/PnMJ5NiMLOuJkedUnYdl6f+yUSy3GoK16X4gMf+AB96lOfok996lP03Oc+1/jpQ+cTTzxB9913H/35n/959XvHO95Bq9WKXvOa19Djjz9O119/Pf3UT/3UadV9KTZOupr+KuiF3IhqJUa91sidez+YWOGqbzcCw6QiwZUIuv0+/Y4NLEfTFHTu0i764cBMaG7BAjoUmpHkRF9lrXJAPrgLj/9VXyazvQkeBiaN45WuRE2mW8UKMvVqlpYWIqDb64zdhy8SdcmIpihNd9LtLvaqudUVI+pXjw5AleDaLfQAt0byWr7Y2fWqTdi+UY/o/vxQunS41eMXxtBjGmI/2z6sl/WpOdvuWlYrmBXN/taHNlk9zf412w4ifQRk2vZ87wfhxMVRWbf1l9Af9V/gz2XTIe6xEyM0u3PM91qb7U2PoawrXmMPAm5qhyo+kvN6sG8E3JeBSXvG/9hg/eT020v4xLHBceC044nSiOtG4ffoPyczVA2OFBDgUngOjJKUgZ03+A/tRTHkcIbvieUuq7o4wU4kdfaD/MkovaIywzEDhKO+5d5U/Xw19XLj+RHkq8C3IWLPwfWHlKPFj1wbtbTmfjRXHo3ugzhgd91Ipi5AqW2TSPm7H3cD+gJNF1ijS7a5sXEz0Utj744eODe2xyYxPlP0YTVyv9IVF3eO2KUrjuYvLoz05uov1qwRG7cus2pHTukSOSwZKfeNobwgo+F90xSJ7QbebV6mLQh29Y/2+g2m/m7bDF85S+Q82BqHN9XAflSRnPbAcFZMvN50000bz816/vOf3638Oe+88+j222+n22+//QC12wPqGDdzF0Of0Eltmh3ajd/Qv4yKhTThytN+Fgy1LSMZB25gFhO+969m7bT7UaOZg23XZoJLyVUlY0H5LyH1cz1wGVQiwlDNbtu+6JEElWy2vHHRk4ng3DGrq8p0bMG1IX92rPfHM69avStdpunrtaK1hvoO8rnALQpb3fSc1wCdfDniwpwfC1ehtsx/MI+FOTfpzMlsGtbH/lMOYpnm5xWpsrVc3D3i7o+53Z4SuKnm7N/Oq8zIzWVEOv2cOcz4JlYjNminj1fC/XrabmRr7Iw+QiTsJkOlPSFEhBI7AMP2J3dmgflsbnKoljmqhUyDg6PT5opp3JdpUhzE4R023Ax4nNixxHqP52ElST1WOJKcVmexiCjuCEadw4h/zXUmW8QVuXPrXps/TLqqG+iB3Aq5JEXmYg/lArsskMXz+zsOuDCdTfpO6fBi2fl4BY6AtDwxGpLatAvyyjGaXyMAi2g7yPe8tEwKh0tgt8Nw+F06cVPkxDugWel5SbDtXuujiqL30Xo37tzKYgKXB3bxwGMDcC5nJqU2wFEFfIXCR8raTsTla5+4hznljqg9U2ga7ri9przTwT8cRA8Lu5FRNwGLOUOhFLyIC8ZN75DQeb4a8Vce2Ak4asBZo1l1Pxlb1TlNJBLa+MYUvdDSe/hsRnLaA8NZMfF6FLGuA/8MQe1GSz/SObeR7KzbNu6u53FnuMrwXFZqst2Eh6U9bTTFkRv86yQvypILo/7lVdrsaldp41HEN8GPNdrqp+HbNpWJbEZbWGz4bosxtZUBpozNyNTWCoSTxSVXIz+UGsGulrXXRsKmusRxv5EkOAOtZa9dlbhRf8WwTK1tsfPDMqlh4fydlqYrPy5xKHkCHSOyassl8u/j6KG6z8XfZCK/um42mmRdcLVngYGf3pcYxixVICB0LpyaBd0MewLR1rL1A3La+zGeawZ1LCU+Lv0M+rcHQ6kuk3UUlw2N3WvrjZpO6Idb6ZqdOnudLxVqsUCxzNlt2Lb61soW7d2te3DHDFhm6Xl+1IUon97Y/RxByM4OyWr3RDPPw0qc7XhMdOlS1AGA29xAuwgH08Gw4ZwBL2HPOaiXGdhHcqG7AFcBuWl4aCNWGS4OoBy2Wdk6L1u/mQD8pqksgdu8nEGlX+wcAzFBMcMibEghYl/Plb9JO9Zrzkxth5fyl5r4RrMSiM1mht1K+jxRqRs05ZavPprQbVTMi4H5AucSv+gzgPJweGwjJ04DneaA9LRTC80jO5hbTrSA4R71Z/hqflS+HqGlGS/mvcoQyHidIU9tv11QH8FVIGRYbnu+Qh7RXrI5bGiROxTPMjcsO/BnCtycnigbhX3ysUDpsx/JaQ8OOfF6SHj+eU+hZ51gevqK62H+E6AjMq6uFxiOLtTOHe19BnGPYH0e2nmSzlkxPe0EjoZSzeb4gcqeJn9BWY1b3diteAV3lRXv5le9YnkU2cdph/5cnqS/dOLctpKUC2X15/qomdpWMeNnJlXJxBVNwLb4mkyUrkmPhb5If0FPpxU9jVc13IrWtCIhLtcVTx9VWNGaiJq/ujFhGLFhaV1kqMnKumxbW9OKqNqn+Ne0kpYmV/sU3w49RiJ/Qc+gZ5a0iEimq5LPVakSJabWD1bzcrEXjrMqpKy6CdGKS9hyXRVZNVN1c/FpeiS0lkfoxOqpdEKeZt6y6/x8+3Ftctjs5mSwmaIMNJGaFi2QYSGiJ08RPfnnRE95FhGvGsFbE5AyvZK1r8Gf0O5kyMU1Na3ysQafhoubfFpE9BePTPZzn1WjDuMg0C3yL+Z2ewf644/m42LBycvmLztr4kcfJjrvmcSrp7Q4QD92wfwkLMr6+WzBPNK8PE4OR3Grw/qLDxEx0+oZ51MIn9bAfyjjJnVlaAmcA3/ZeZL4nPNo9cwLRholEomzFC986tPoi+sn6Dye+XRE92AddBQz3Na4D2fjlsX1+HqH/pzWdOFqRVzPgZ9kp0kf7fdtZ17twAWJyKxCbWfKl/icXYkCz9hb9lr4h+Vxejqt6LzCDxuftDyz/mDBQfseg3SyyG3n/Z0MORnn/yQ9QafkcTqfzwMu2q74a35axp7D2vg9v0X/+fjHfkRrekIeoXPoHHoqnQvpUTUTmHloRjf4McTB0rgemgfprLQOlY+w8pknSejP6an0LFoV8mx4qD6uCVcebdzhcU4nRA0HxbiISL8LQeBfOS1B/CUuwrhO0MQLn3yYiFe0eur55lGumvFWgVu3cWSx/j48Wb2tbAvbHUFQwgs5XWRNcupLxOc8g6Y9cxH3JMtJqaXT8V0BdwL5TTKYVpQehnn8SyTrHaJzzx+kEdm9TkFeStlIJBPEZeYrR3ELEe3sED32RaLzynMOubgQ0nv6edE+rAzcW1vpAs+mTSSPfYn4kq8IhBKJMXLi9ZDwV555Lt17zXM3CyYSZwvCB6FEIpE44sjzsBLHHP+f53z1YauQSCQSiURir0hOe2DIiddEIpFIJBKJ3WLnSaI9bMva01laiUQikUgkEonEfiA57YEhJ14TiUQikUgkdgnZeYJk9cSewicSiUQikUgkEoeJ5LQHh5nDmBKJRCKRSCQSiUQikUgkEolEIrEb5IrXRCKRSCQSiV1Cdp7c4+qA3JaVSCQSiUQikThcJKc9OOTEayKRSCQSicRukR8iSCQSiUQikUic7UhOe2DIowYSiUQikUgkEolEIpFIJBKJRGKfkSteE4lEIpFIJHYJWT+xp48JyDo/RJBIJBKJRCKROFwkpz045MRrIpFIJBKJxG6x8wQR74Fo5hdgE4lEIpFIJBKHjeS0B4aceE0kEolEIpHYJWTnSZI9kNT8EEEikUgkEolE4rCRnPbgkGe8JhKJRCKRSCQSiUQikUgkEonEPiNXvCYSiUQikUjsErI+RbI+safwiUQikUgkEonEYSI57cEhJ14TiUQikUgkdoudJ4h4D3Qqz8NKJBKJRCKRSBw2ktMeGHLidQNEhIiIHnnkkUPWJJFIJBKJhIeOzzpeJxKJHslnE4lEIpE4c5F89mgjJ1434Itf/CIREV1xxRWHrEkikUgkEokRvvjFL9IFF1xw2tOVnSdIeA/bsnJ1QOI0IPlsIpFIJBJnPg6LzxIlpz1I5MTrBlx++eX0mc98hp71rGcRMx+2OgeKRx55hK644gr6zGc+Q+eff/5hq3MskGV++pFlfvqRZX56cdzKW0Toi1/8Il1++eWHk/76FMnO7r9VmudhJU4HjhOfJTp+/eCZgCzz04ss79OPLPPTj+NU5ofNZ4mS0x4kcuJ1A1arFT33uc89bDVOK84///wj37GdacgyP/3IMj/9yDI/vThO5X1YKwOIyurIQnfDAAALB0lEQVQAytUBiTMbx5HPEh2vfvBMQZb56UWW9+lHlvnpx3Ep88Pks0TJaQ8Su5/OTiQSiUQikUgkEolEIpFIJBKJRIhc8ZpIJBKJRCKxS8jOKZI9vMeWndyWlUgkEolEIpE4XCSnPTjkxGui4txzz6W3vvWtdO655x62KscGWeanH1nmpx9Z5qcXWd6nF7I+RbKHMzPzPKxEYv+R/eDpR5b56UWW9+lHlvnpR5b56UVy2oMDi4gcthKJRCKRSCQSZxMeeeQRuuCCC+jrXnQrPeXE7h8Intx5nD5+30/Sww8/fCzOL0skEolEIpFInDlITnvwyDNeE4lEIpFIJBKJRCKRSCQSiURin5FHDSQSiUQikUjsEtMXYPewLSu/AJtIJBKJRCKROGQkpz045MRrIpFIJBKJxC4h68dJaPenNuV5WIlEIpFIJBKJw0Zy2oNDHjWQCPHpT3+abr75ZrryyivpaU97Gn3FV3wFvfWtb6VTp/JmOij86I/+KL3iFa+gpz/96XThhRcetjpHErfffjs9//nPp/POO4+uueYa+tjHPnbYKh1pfOhDH6K/83f+Dl1++eXEzPRrv/Zrh63Skcbb3vY2+rqv+zp61rOeRZdccgndeOONdN999x22WolEInFoSD57OEhOe/BITnv6kHz29CM5beKoISdeEyE++clP0nq9pp/5mZ+hT3ziE/SOd7yD3v3ud9MP/dAPHbZqRxanTp2ib//2b6fv+Z7vOWxVjiR++Zd/mW677TZ661vfSr/3e79HX/M1X0PXX389/cmf/Mlhq3Zk8eijj9LXfM3X0O23337YqhwL/O7v/i7dcsst9JGPfIQ+8IEP0BNPPEHf9E3fRI8++uhhq3a0sfM4yR5+tPP4YecgkTiySD57OEhOe7BITnt6kXz29CM57SEhOe2BgUVk92uJE8cKP/7jP04//dM/Tf/7f//vw1blSOOOO+6g7/3e76WHHnrosFU5Urjmmmvo677u6+gnf/IniYhovV7TFVdcQW984xvpzW9+8yFrd/TBzPSrv/qrdOONNx62KscGn//85+mSSy6h3/3d36W/+Tf/5mGrc+SgX4D92ue+hk6snrrreHbWT9Dvffb/m1+ATSROE5LPnj4kpz0YJKc9PCSfPRwkpz1YJKc9eOQZr4nFePjhh+miiy46bDUSia1x6tQpuueee+gHf/AHq9tqtaLrrruO7r777kPULJE4ODz88MNERNlvHzBk53ESWe8+/Do/RJBInE4kn02czUhOmziOSE57epCc9uCQRw0kFuFTn/oU/cRP/AR993d/92GrkkhsjT/90z+lnZ0duvTSS437pZdeSidPnjwkrRKJg8N6vabv/d7vpb/+1/86ffVXf/Vhq5NIJBJnBJLPJs52JKdNHDckp00cBeTE6zHDm9/8ZmLm2d8nP/lJE+aBBx6gG264gb7927+d3vCGNxyS5mcndlPeiUQisVfccsst9Ad/8Af0S7/0S4etypHHXs7CqmdiJRKJrZB89vQjOW0ikTgMJKc9fUhOe3DIowaOGd70pjfRTTfdNCvzghe8oJo/97nP0ate9Sp6xSteQT/7sz97wNodPWxb3omDwbOf/Ww6ceIEPfjgg8b9wQcfpMsuu+yQtEokDga33nor3XnnnfShD32Invvc5x62OkcesnNqj9uyntxHbRKJ44Hks6cfyWnPDCSnTRwnJKc9vUhOe3DIiddjhosvvpguvvjiRbIPPPAAvepVr6Krr76a3vOe99BqlQukt8U25Z04OJxzzjl09dVX01133VUPw1+v13TXXXfRrbfeerjKJRL7BBGhN77xjfSrv/qr9MEPfpCuvPLKw1bpWGC9foxYdk+n1pIkNZHYFslnTz+S054ZSE6bOA5ITns4SE57cMiJ10SIBx54gF75ylfSl3/5l9Pb3/52+vznP1/98m3qweD++++nL3zhC3T//ffTzs4O3XvvvURE9MIXvpCe+cxnHq5yRwC33XYbvf71r6eXvexl9PKXv5ze+c530qOPPkrf+Z3fediqHVl86Utfok996lPV/sd//Md077330kUXXUTPe97zDlGzo4lbbrmF3ve+99G///f/np71rGfVs94uuOACetrTnnbI2h1d7MjOoYZPJBJjJJ89HCSnPVgkpz29SD57+pGc9nCQnPbgwCIih61E4szDHXfcMRy8s8kcDG666SZ673vf27n/zu/8Dr3yla88/QodQfzkT/4k/fiP/zidPHmSrrrqKnrXu95F11xzzWGrdWTxwQ9+kF71qld17q9//evpjjvuOP0KHXEwc+j+nve8Z+P20MT2eOyxx+jKK6/cl4+ZXHbZZfTHf/zHdN555+2DZolEQpF89nCQnPbgkZz29CH57OlHctrTi+S0B4+ceE0kEolEIpHYBR577DE6derUnuM555xzkqAmEolEIpFIJA4FyWkPFjnxmkgkEolEIpFIJBKJRCKRSCQS+4w8XT6RSCQSiUQikUgkEolEIpFIJPYZOfGaSCQSiUQikUgkEolEIpFIJBL7jJx4TSQSiUQikUgkEolEIpFIJBKJfUZOvCYSiUQikUgkEolEIpFIJBKJxD4jJ14TiUQikUgkEolEIpFIJBKJRGKfkROviUQikUgkEolEIpFIJBKJRCKxz8iJ10QikUgkEolEIpFIJBKJRCKR2GfkxGsikUgkEolEIpFIJBKJRCKRSOwzcuI1kUgkEolEIpFIJBKJRCKRSCT2GTnxmkgkEolEIpFIJBKJRCKRSCQS+4yceE0kEkcen//85+myyy6jf/kv/2V1+/CHP0znnHMO3XXXXYeoWSKRSCQSiUQisQzJaROJROLsA4uIHLYSiUQicdD4jd/4Dbrxxhvpwx/+ML3oRS+iq666ir71W7+V/vW//teHrVoikUgkEolEIrEIyWkTiUTi7EJOvCYSiWODW265hX7rt36LXvayl9Hv//7v08c//nE699xzD1utRCKRSCQSiURiMZLTJhKJxNmDnHhNJBLHBn/xF39BX/3VX02f+cxn6J577qGXvvSlh61SIpFIJBKJRCKxFZLTJhKJxNmDPOM1kUgcG/zRH/0Rfe5zn6P1ek2f/vSnD1udRCKRSCQSiURiaySnTSQSibMHueI1kUgcC5w6dYpe/vKX01VXXUUvetGL6J3vfCf9/u//Pl1yySWHrVoikUgkEolEIrEIyWkTiUTi7EJOvCYSiWOB7//+76d/9+/+Hf33//7f6ZnPfCZ9wzd8A11wwQV05513HrZqiUQikUgkEonEIiSnTSQSibMLedRAIpE48vjgBz9I73znO+kXfuEX6Pzzz6fVakW/8Au/QP/pP/0n+umf/unDVi+RSCQSiUQikdiI5LSJRCJx9iFXvCYSiUQikUgkEolEIpFIJBKJxD4jV7wmEolEIpFIJBKJRCKRSCQSicQ+IydeE4lEIpFIJBKJRCKRSCQSiURin5ETr4lEIpFIJBKJRCKRSCQSiUQisc/IiddEIpFIJBKJRCKRSCQSiUQikdhn5MRrIpFIJBKJRCKRSCQSiUQikUjsM3LiNZFIJBKJRCKRSCQSiUQikUgk9hk58ZpIJBKJRCKRSCQSiUQikUgkEvuMnHhNJBKJRCKRSCQSiUQikUgkEol9Rk68JhKJRCKRSCQSiUQikUgkEonEPiMnXhOJRCKRSCQSiUQikUgkEolEYp+RE6+JRCKRSCQSiUQikUgkEolEIrHPyInXRCKRSCQSiUQikUgkEolEIpHYZ/z/AXXffFa3bDqyAAAAAElFTkSuQmCC",
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",
       "text/plain": [
-       "
"
+       "
"
       ]
      },
      "metadata": {},
@@ -934,7 +1447,7 @@
    "source": [
     "showGrid = False\n",
     "\n",
-    "fig, (ax) = plt.subplots(1, 2, figsize=(14, 4))\n",
+    "fig, (ax) = plt.subplots(1, 2, figsize=(12, 3))\n",
     "\n",
     "# pot = 0.0\n",
     "p1 = (pot_05V - pot_05V_cst).plot(grid=showGrid, ax=ax[0], cmap=\"turbo\")\n",
@@ -952,8 +1465,8 @@
    "metadata": {},
    "source": [
     "These plots showcased the potential difference between the **Effective DOS** model and the **Constant DOS** model. The asymmetry arises because the intrinsic Fermi level $E_i$ shifts toward the conduction band at high temperatures. This forces an asymmetric change in band bending:\n",
-    "- **P-Side (right):** Requires **more** bending, creating a positive potential difference.\n",
-    "- **N-Side (left):** Requires **less** bending, creating a negative potential difference."
+    "- **P-Side (right):** $E_i$ bends towards the valence band creating a positive potential difference.\n",
+    "- **N-Side (left):** $E_i$ bends towards the conduction band creating a negative potential difference."
    ]
   },
   {
@@ -966,15 +1479,15 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 20,
+   "execution_count": 85,
    "id": "304d7b5e-cea4-40dc-ac32-ce1e21b0548e",
    "metadata": {},
    "outputs": [
     {
      "data": {
-      "image/png": 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",
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",
       "text/plain": [
-       "
"
+       "
"
       ]
      },
      "metadata": {},
@@ -984,7 +1497,7 @@
    "source": [
     "showGrid = False\n",
     "\n",
-    "fig, (ax) = plt.subplots(1, 2, figsize=(14, 4))\n",
+    "fig, (ax) = plt.subplots(1, 2, figsize=(12, 3))\n",
     "\n",
     "# pot = 0.0\n",
     "p1 = (pot_05V - pot_05V_iso).plot(grid=showGrid, ax=ax[0], cmap=\"turbo\")\n",
@@ -1006,17 +1519,24 @@
   },
   {
    "cell_type": "markdown",
-   "id": "12d15b74-5673-49f7-9179-74abdaf7de49",
+   "id": "8c6c36ad-4718-456e-a44e-37992c406863",
+   "metadata": {},
+   "source": [
+    "### Temperature distribution"
+   ]
+  },
+  {
+   "cell_type": "markdown",
+   "id": "ba3256cd-59a0-41d0-ad25-dbe771f7d51a",
    "metadata": {},
    "source": [
-    "#### Comparative plot\n",
-    "The rest of the code of this subsection is to generate three plots that offer a comparative overview of the potential distributions from the three different simulation models."
+    "The following section presents a comparative analysis of the resulting temperature distribution between the **Effective DOS** and **Constant DOS** models. This direct comparison is intended to isolate the specific effects of temperature-dependent state densities on the device's thermal profile."
    ]
   },
   {
    "cell_type": "code",
-   "execution_count": 42,
-   "id": "f25ecedd-296f-44ff-9e2c-3d61296f132b",
+   "execution_count": 72,
+   "id": "232e7ae7-8e93-43eb-83b4-4d8ffbb7140c",
    "metadata": {},
    "outputs": [],
    "source": [
@@ -1043,8 +1563,8 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 43,
-   "id": "50ce6a68-d09d-4b08-8b61-21be6edde4ac",
+   "execution_count": 86,
+   "id": "bb6040b1-dd56-454b-ab92-8e69e8003e98",
    "metadata": {},
    "outputs": [],
    "source": [
@@ -1055,116 +1575,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 44,
-   "id": "90ea03d1-d4b5-4e5f-9b9f-86531fac8be7",
-   "metadata": {},
-   "outputs": [],
-   "source": [
-    "# Interpolating Tidy3d potential Eff. DOS\n",
-    "x_vector1 = results[\"potential_global_mnt\"].potential.points[:, 0].values\n",
-    "y_vector1 = results[\"potential_global_mnt\"].potential.points[:, 1].values\n",
-    "v_vector_effdos_0V = results[\"potential_global_mnt\"].potential.sel(voltage=0).values.values[:, 0]\n",
-    "v_vector_effdos_12V = results[\"potential_global_mnt\"].potential.sel(voltage=1.2).values.values[:, 0]\n",
-    "xi_grid1, yi_grid1, VI_effdos_0V = interpolate_data(\n",
-    "    x_vector1, y_vector1, v_vector_effdos_0V, num_grid_points_x, num_grid_points_y\n",
-    ")\n",
-    "xi_grid1, yi_grid1, VI_effdos_12V = interpolate_data(\n",
-    "    x_vector1, y_vector1, v_vector_effdos_12V, num_grid_points_x, num_grid_points_y\n",
-    ")\n",
-    "\n",
-    "v_vector1_cst_0V = results_cst[\"potential_global_mnt\"].potential.sel(voltage=0).values.values[:, 0]\n",
-    "v_vector1_cst_12V = (\n",
-    "    results_cst[\"potential_global_mnt\"].potential.sel(voltage=1.2).values.values[:, 0]\n",
-    ")\n",
-    "xi_grid1, yi_grid1, VI_cst_0V = interpolate_data(\n",
-    "    x_vector1, y_vector1, v_vector1_cst_0V, num_grid_points_x, num_grid_points_y\n",
-    ")\n",
-    "xi_grid1, yi_grid1, VI_cst_12V = interpolate_data(\n",
-    "    x_vector1, y_vector1, v_vector1_cst_12V, num_grid_points_x, num_grid_points_y\n",
-    ")\n",
-    "\n",
-    "v_vector1_iso_0V = results_iso[\"potential_global_mnt\"].potential.sel(voltage=0).values.values[:, 0]\n",
-    "v_vector1_iso_12V = (\n",
-    "    results_iso[\"potential_global_mnt\"].potential.sel(voltage=1.2).values.values[:, 0]\n",
-    ")\n",
-    "xi_grid1, yi_grid1, VI_iso_0V = interpolate_data(\n",
-    "    x_vector1, y_vector1, v_vector1_iso_0V, num_grid_points_x, num_grid_points_y\n",
-    ")\n",
-    "xi_grid1, yi_grid1, VI_iso_12V = interpolate_data(\n",
-    "    x_vector1, y_vector1, v_vector1_iso_12V, num_grid_points_x, num_grid_points_y\n",
-    ")"
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 45,
-   "id": "ba2f97a2-1249-4f25-aa67-c0e3e99cfd4d",
-   "metadata": {},
-   "outputs": [
-    {
-     "data": {
-      "image/png": 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",
-      "text/plain": [
-       "
"
-      ]
-     },
-     "metadata": {},
-     "output_type": "display_data"
-    }
-   ],
-   "source": [
-    "showGrid = False\n",
-    "\n",
-    "fig, (ax) = plt.subplots(3, 1, figsize=(14, 8))\n",
-    "\n",
-    "contour0 = ax[0].contourf(\n",
-    "    xi_grid1, yi_grid1, VI_effdos_12V - VI_effdos_12V.min(), levels=250, cmap=\"turbo\"\n",
-    ")  # Set the maximum value for the color scale\n",
-    "ax[0].set_xlabel(\"x (um)\")\n",
-    "ax[0].set_ylabel(\"y (um)\")\n",
-    "ax[0].set_title(\"Interpolated Potential Distribution - 1.2 V - Effective DOS\")\n",
-    "fig.colorbar(contour0, label=\"Potential\", ax=ax[0])\n",
-    "\n",
-    "\n",
-    "contour1 = ax[1].contourf(\n",
-    "    xi_grid1, yi_grid1, VI_cst_12V - VI_cst_12V.min(), levels=250, cmap=\"turbo\"\n",
-    ")  # Set the maximum value for the color scale\n",
-    "ax[1].set_xlabel(\"x (um)\")\n",
-    "ax[1].set_ylabel(\"y (um)\")\n",
-    "ax[1].set_title(\"Interpolated Potential Distribution - 1.2 V - Constant DOS\")\n",
-    "fig.colorbar(contour1, label=\"Potential\", ax=ax[1])\n",
-    "\n",
-    "\n",
-    "contour2 = ax[2].contourf(\n",
-    "    xi_grid1, yi_grid1, VI_iso_12V - VI_iso_12V.min(), levels=250, cmap=\"turbo\"\n",
-    ")  # Set the maximum value for the color scale\n",
-    "ax[2].set_xlabel(\"x (um)\")\n",
-    "ax[2].set_ylabel(\"y (um)\")\n",
-    "ax[2].set_title(\"Interpolated Potential Distribution - 1.2 V - Isothermal\")\n",
-    "fig.colorbar(contour2, label=\"Potential\", ax=ax[2])\n",
-    "\n",
-    "plt.tight_layout()"
-   ]
-  },
-  {
-   "cell_type": "markdown",
-   "id": "8c6c36ad-4718-456e-a44e-37992c406863",
-   "metadata": {},
-   "source": [
-    "### Temperature distribution"
-   ]
-  },
-  {
-   "cell_type": "markdown",
-   "id": "ba3256cd-59a0-41d0-ad25-dbe771f7d51a",
-   "metadata": {},
-   "source": [
-    "The following section presents a comparative analysis of the resulting temperature distribution between the **Effective DOS** and **Constant DOS** models. This direct comparison is intended to isolate the specific effects of temperature-dependent state densities on the device's thermal profile."
-   ]
-  },
-  {
-   "cell_type": "code",
-   "execution_count": 46,
+   "execution_count": 73,
    "id": "dd923284-ccad-48bb-abeb-fd5d3ff560b7",
    "metadata": {},
    "outputs": [],
@@ -1186,15 +1597,15 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 47,
+   "execution_count": 80,
    "id": "a0f30126-b7ee-4571-a546-f3e76ce29eb3",
    "metadata": {},
    "outputs": [
     {
      "data": {
-      "image/png": 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",
       "text/plain": [
-       "
"
+       "
"
       ]
      },
      "metadata": {},
@@ -1204,7 +1615,7 @@
    "source": [
     "showGrid = False\n",
     "\n",
-    "fig, (ax) = plt.subplots(2, 1, figsize=(14, 8))\n",
+    "fig, (ax) = plt.subplots(2, 1, figsize=(10, 8))\n",
     "\n",
     "contour0 = ax[0].contourf(xi_grid1, yi_grid1, ti_grid_cst, levels=250, cmap=\"turbo\")\n",
     "ax[0].set_xlabel(\"x (um)\")\n",
@@ -1225,15 +1636,15 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 40,
+   "execution_count": 78,
    "id": "02e34772-5e3e-49bf-bd30-fbeba326df49",
    "metadata": {},
    "outputs": [
     {
      "data": {
-      "image/png": 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",
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",
       "text/plain": [
-       "
"
+       "
"
       ]
      },
      "metadata": {},
@@ -1243,7 +1654,7 @@
    "source": [
     "showGrid = False\n",
     "\n",
-    "fig, (ax) = plt.subplots(1, 1, figsize=(14, 4))\n",
+    "fig, (ax) = plt.subplots(1, 1, figsize=(10, 4))\n",
     "\n",
     "contour1 = ax.contourf(\n",
     "    xi_grid1, yi_grid1, 100 * np.abs((ti_grid_cst - ti_grid1) / ti_grid1), levels=250, cmap=\"turbo\"\n",
@@ -1258,10 +1669,10 @@
   },
   {
    "cell_type": "markdown",
-   "id": "e8843430-3a78-48ef-82c1-9fe50533188e",
+   "id": "d9ff827b-5743-4fc8-8ef6-0e75106714d1",
    "metadata": {},
    "source": [
-    "The plots above highligh how the **Constant DOS** model underestimates the number of carrier interactions at high temperatures, underestimating the amount of heat generated and resulting in a lower peak temperature. The **Effective DOS** model instead, captures this feedback loop more accurately, leading to a more realistic (and higher) thermal profile."
+    "The plots above highlight how the **Constant DOS** model underestimates the generated heat at high temperatures, as its fixed effective DOS fails to capture the temperature-driven increase in intrinsic concentration and the resulting larger currents."
    ]
   },
   {
@@ -1269,14 +1680,14 @@
    "id": "6dbe0a63-ec34-4448-ae5d-79d5952ab811",
    "metadata": {},
    "source": [
-    "### Results: Current-Voltage (I-V) Characteristics\n",
+    "### Current-Voltage (I-V) Characteristics\n",
     "\n",
     "Finally, we plot the I-V curves obtained from the three different simulations. The goal is to highlight the impact of thermal effects and the choice of the DOS model on the device's electrical performance. We multiply the resulting currents for `norm_length` (um), which indicates the length of the device along the z direction."
    ]
   },
   {
    "cell_type": "code",
-   "execution_count": 48,
+   "execution_count": 76,
    "id": "22fa81b5-1467-40ac-8140-54ced69a3a80",
    "metadata": {},
    "outputs": [],
@@ -1290,15 +1701,15 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 49,
+   "execution_count": 79,
    "id": "9dddde51-7a0c-4be4-916a-9f103b55fd37",
    "metadata": {},
    "outputs": [
     {
      "data": {
-      "image/png": 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",
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",
       "text/plain": [
-       "
"
+       "
"
       ]
      },
      "metadata": {},
@@ -1306,7 +1717,7 @@
     }
    ],
    "source": [
-    "fig, ax = plt.subplots(figsize=(14, 5))\n",
+    "fig, ax = plt.subplots(figsize=(10, 5))\n",
     "ax.plot(voltage, current, marker=\"o\", linestyle=\"-\")\n",
     "ax.plot(voltage, current_cst, marker=\"*\", linestyle=\"-\")\n",
     "ax.plot(voltage, current_iso, marker=\"*\", linestyle=\"-\")\n",
@@ -1335,11 +1746,20 @@
   }
  ],
  "metadata": {
+  "applications": [
+   "Nanophotonics"
+  ],
+  "description": "This notebook focuses on the forward-bias PIN phase shifter, which is the active component of the Mach-Zehnder modulator.",
+  "feature_image": "./img/pin_phase_shifter.png",
+  "features": [
+   "Heat"
+  ],
   "kernelspec": {
    "display_name": "Python 3 (ipykernel)",
    "language": "python",
    "name": "python3"
   },
+  "keywords": "modulator, charge solver, pin-junction, Nanophotonics, Tidy3D",
   "language_info": {
    "codemirror_mode": {
     "name": "ipython",
@@ -1351,7 +1771,8 @@
    "nbconvert_exporter": "python",
    "pygments_lexer": "ipython3",
    "version": "3.12.11"
-  }
+  },
+  "title": "Forward-bias PIN phase shifter with thermal analysis"
  },
  "nbformat": 4,
  "nbformat_minor": 5

From b7982b6f29d0db093099a0a1d5339966e9849c0c Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Damiano=20Franz=C3=B2?= 
Date: Mon, 3 Nov 2025 14:27:15 +0100
Subject: [PATCH 6/6] last update

---
 PINMachZenhder.ipynb      | 283 +++++++-------------------------------
 img/pin_phase_shifter.png | Bin 0 -> 95003 bytes
 2 files changed, 51 insertions(+), 232 deletions(-)
 create mode 100644 img/pin_phase_shifter.png

diff --git a/PINMachZenhder.ipynb b/PINMachZenhder.ipynb
index 29c7b58e..f035062c 100644
--- a/PINMachZenhder.ipynb
+++ b/PINMachZenhder.ipynb
@@ -32,7 +32,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 62,
+   "execution_count": 1,
    "id": "550ea3ba-0d98-41d0-8a80-2724c51bdb67",
    "metadata": {},
    "outputs": [],
@@ -760,7 +760,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 41,
+   "execution_count": 15,
    "id": "bea28b66-e3a7-4c59-a836-055eeabfd477",
    "metadata": {
     "scrolled": true
@@ -769,14 +769,14 @@
     {
      "data": {
       "text/html": [
-       "
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-       "             'hec-39767b12-d3d8-4b1d-aba3-be77c6df2756' and task_type           \n",
+       "
14:24:05 CET Created task 'heat_charge_2025-11-03_14-24-04' with resource_id    \n",
+       "             'hec-e8bad386-3dbd-4455-af57-83865751120a' and task_type           \n",
        "             'HEAT_CHARGE'.                                                     \n",
        "
\n"
       ],
       "text/plain": [
-       "\u001b[2;36m11:39:35 CET\u001b[0m\u001b[2;36m \u001b[0mCreated task \u001b[32m'heat_charge_2025-11-01_11-39-34'\u001b[0m with resource_id    \n",
-       "\u001b[2;36m             \u001b[0m\u001b[32m'hec-39767b12-d3d8-4b1d-aba3-be77c6df2756'\u001b[0m and task_type           \n",
+       "\u001b[2;36m14:24:05 CET\u001b[0m\u001b[2;36m \u001b[0mCreated task \u001b[32m'heat_charge_2025-11-03_14-24-04'\u001b[0m with resource_id    \n",
+       "\u001b[2;36m             \u001b[0m\u001b[32m'hec-e8bad386-3dbd-4455-af57-83865751120a'\u001b[0m and task_type           \n",
        "\u001b[2;36m             \u001b[0m\u001b[32m'HEAT_CHARGE'\u001b[0m.                                                     \n"
       ]
      },
@@ -801,7 +801,7 @@
     {
      "data": {
       "application/vnd.jupyter.widget-view+json": {
-       "model_id": "14fd74fa71644db2bd423ac35119c9d6",
+       "model_id": "cba20fba093c4064a7d73065d993df9d",
        "version_major": 2,
        "version_minor": 0
       },
@@ -825,13 +825,13 @@
     {
      "data": {
       "text/html": [
-       "
11:39:46 CET Estimated FlexCredit cost: 0.025. Minimum cost depends on task     \n",
+       "
14:24:08 CET Estimated FlexCredit cost: 0.025. Minimum cost depends on task     \n",
        "             execution details. Use 'web.real_cost(task_id)' to get the billed  \n",
        "             FlexCredit cost after a simulation run.                            \n",
        "
\n"
       ],
       "text/plain": [
-       "\u001b[2;36m11:39:46 CET\u001b[0m\u001b[2;36m \u001b[0mEstimated FlexCredit cost: \u001b[1;36m0.025\u001b[0m. Minimum cost depends on task     \n",
+       "\u001b[2;36m14:24:08 CET\u001b[0m\u001b[2;36m \u001b[0mEstimated FlexCredit cost: \u001b[1;36m0.025\u001b[0m. Minimum cost depends on task     \n",
        "\u001b[2;36m             \u001b[0mexecution details. Use \u001b[32m'web.real_cost\u001b[0m\u001b[32m(\u001b[0m\u001b[32mtask_id\u001b[0m\u001b[32m)\u001b[0m\u001b[32m'\u001b[0m to get the billed  \n",
        "\u001b[2;36m             \u001b[0mFlexCredit cost after a simulation run.                            \n"
       ]
@@ -842,111 +842,20 @@
     {
      "data": {
       "text/html": [
-       "
11:39:47 CET status = queued                                                    \n",
+       "
14:24:10 CET status = success                                                   \n",
        "
\n"
       ],
       "text/plain": [
-       "\u001b[2;36m11:39:47 CET\u001b[0m\u001b[2;36m \u001b[0mstatus = queued                                                    \n"
+       "\u001b[2;36m14:24:10 CET\u001b[0m\u001b[2;36m \u001b[0mstatus = success                                                   \n"
       ]
      },
      "metadata": {},
      "output_type": "display_data"
     },
-    {
-     "data": {
-      "text/html": [
-       "
             To cancel the simulation, use 'web.abort(task_id)' or              \n",
-       "             'web.delete(task_id)' or abort/delete the task in the web UI.      \n",
-       "             Terminating the Python script will not stop the job running on the \n",
-       "             cloud.                                                             \n",
-       "
\n"
-      ],
-      "text/plain": [
-       "\u001b[2;36m            \u001b[0m\u001b[2;36m \u001b[0mTo cancel the simulation, use \u001b[32m'web.abort\u001b[0m\u001b[32m(\u001b[0m\u001b[32mtask_id\u001b[0m\u001b[32m)\u001b[0m\u001b[32m'\u001b[0m or              \n",
-       "\u001b[2;36m             \u001b[0m\u001b[32m'web.delete\u001b[0m\u001b[32m(\u001b[0m\u001b[32mtask_id\u001b[0m\u001b[32m)\u001b[0m\u001b[32m'\u001b[0m or abort/delete the task in the web UI.      \n",
-       "\u001b[2;36m             \u001b[0mTerminating the Python script will not stop the job running on the \n",
-       "\u001b[2;36m             \u001b[0mcloud.                                                             \n"
-      ]
-     },
-     "metadata": {},
-     "output_type": "display_data"
-    },
-    {
-     "data": {
-      "text/html": [
-       "
11:39:59 CET status = preprocess                                                \n",
-       "
\n"
-      ],
-      "text/plain": [
-       "\u001b[2;36m11:39:59 CET\u001b[0m\u001b[2;36m \u001b[0mstatus = preprocess                                                \n"
-      ]
-     },
-     "metadata": {},
-     "output_type": "display_data"
-    },
-    {
-     "data": {
-      "text/html": [
-       "
\n"
-      ],
-      "text/plain": []
-     },
-     "metadata": {},
-     "output_type": "display_data"
-    },
-    {
-     "data": {
-      "text/html": [
-       "
11:40:04 CET starting up solver                                                 \n",
-       "
\n"
-      ],
-      "text/plain": [
-       "\u001b[2;36m11:40:04 CET\u001b[0m\u001b[2;36m \u001b[0mstarting up solver                                                 \n"
-      ]
-     },
-     "metadata": {},
-     "output_type": "display_data"
-    },
-    {
-     "data": {
-      "text/html": [
-       "
             running solver                                                     \n",
-       "
\n"
-      ],
-      "text/plain": [
-       "\u001b[2;36m            \u001b[0m\u001b[2;36m \u001b[0mrunning solver                                                     \n"
-      ]
-     },
-     "metadata": {},
-     "output_type": "display_data"
-    },
-    {
-     "data": {
-      "text/html": [
-       "
11:42:51 CET status = success                                                   \n",
-       "
\n"
-      ],
-      "text/plain": [
-       "\u001b[2;36m11:42:51 CET\u001b[0m\u001b[2;36m \u001b[0mstatus = success                                                   \n"
-      ]
-     },
-     "metadata": {},
-     "output_type": "display_data"
-    },
-    {
-     "data": {
-      "text/html": [
-       "
\n"
-      ],
-      "text/plain": []
-     },
-     "metadata": {},
-     "output_type": "display_data"
-    },
     {
      "data": {
       "application/vnd.jupyter.widget-view+json": {
-       "model_id": "9a291ea48f4448cc83c567758bc1256b",
+       "model_id": "85a2f389bee247a8a856ea16bcee9976",
        "version_major": 2,
        "version_minor": 0
       },
@@ -970,11 +879,11 @@
     {
      "data": {
       "text/html": [
-       "
11:42:57 CET loading simulation from simulation_data.hdf5                       \n",
+       "
14:24:17 CET loading simulation from simulation_data.hdf5                       \n",
        "
\n"
       ],
       "text/plain": [
-       "\u001b[2;36m11:42:57 CET\u001b[0m\u001b[2;36m \u001b[0mloading simulation from simulation_data.hdf5                       \n"
+       "\u001b[2;36m14:24:17 CET\u001b[0m\u001b[2;36m \u001b[0mloading simulation from simulation_data.hdf5                       \n"
       ]
      },
      "metadata": {},
@@ -996,14 +905,14 @@
     {
      "data": {
       "text/html": [
-       "
             Created task 'heat_charge_2025-10-31_18-45-18' with resource_id    \n",
-       "             'hec-cf5fc781-988f-47c9-a895-55bd59f1790e' and task_type           \n",
+       "
             Created task 'heat_charge_2025-11-03_14-24-17' with resource_id    \n",
+       "             'hec-c52ffd53-53e3-431d-8c56-86a86f278854' and task_type           \n",
        "             'HEAT_CHARGE'.                                                     \n",
        "
\n"
       ],
       "text/plain": [
-       "\u001b[2;36m            \u001b[0m\u001b[2;36m \u001b[0mCreated task \u001b[32m'heat_charge_2025-10-31_18-45-18'\u001b[0m with resource_id    \n",
-       "\u001b[2;36m             \u001b[0m\u001b[32m'hec-cf5fc781-988f-47c9-a895-55bd59f1790e'\u001b[0m and task_type           \n",
+       "\u001b[2;36m            \u001b[0m\u001b[2;36m \u001b[0mCreated task \u001b[32m'heat_charge_2025-11-03_14-24-17'\u001b[0m with resource_id    \n",
+       "\u001b[2;36m             \u001b[0m\u001b[32m'hec-c52ffd53-53e3-431d-8c56-86a86f278854'\u001b[0m and task_type           \n",
        "\u001b[2;36m             \u001b[0m\u001b[32m'HEAT_CHARGE'\u001b[0m.                                                     \n"
       ]
      },
@@ -1028,7 +937,7 @@
     {
      "data": {
       "application/vnd.jupyter.widget-view+json": {
-       "model_id": "da3c2c7256ae49e0982de36ec3356394",
+       "model_id": "6862926205b84541ad279f2fa617d3dd",
        "version_major": 2,
        "version_minor": 0
       },
@@ -1052,13 +961,13 @@
     {
      "data": {
       "text/html": [
-       "
18:45:21 CET Estimated FlexCredit cost: 0.025. Minimum cost depends on task     \n",
+       "
14:24:20 CET Estimated FlexCredit cost: 0.025. Minimum cost depends on task     \n",
        "             execution details. Use 'web.real_cost(task_id)' to get the billed  \n",
        "             FlexCredit cost after a simulation run.                            \n",
        "
\n"
       ],
       "text/plain": [
-       "\u001b[2;36m18:45:21 CET\u001b[0m\u001b[2;36m \u001b[0mEstimated FlexCredit cost: \u001b[1;36m0.025\u001b[0m. Minimum cost depends on task     \n",
+       "\u001b[2;36m14:24:20 CET\u001b[0m\u001b[2;36m \u001b[0mEstimated FlexCredit cost: \u001b[1;36m0.025\u001b[0m. Minimum cost depends on task     \n",
        "\u001b[2;36m             \u001b[0mexecution details. Use \u001b[32m'web.real_cost\u001b[0m\u001b[32m(\u001b[0m\u001b[32mtask_id\u001b[0m\u001b[32m)\u001b[0m\u001b[32m'\u001b[0m to get the billed  \n",
        "\u001b[2;36m             \u001b[0mFlexCredit cost after a simulation run.                            \n"
       ]
@@ -1069,111 +978,20 @@
     {
      "data": {
       "text/html": [
-       "
18:45:23 CET status = queued                                                    \n",
+       "
14:24:21 CET status = success                                                   \n",
        "
\n"
       ],
       "text/plain": [
-       "\u001b[2;36m18:45:23 CET\u001b[0m\u001b[2;36m \u001b[0mstatus = queued                                                    \n"
+       "\u001b[2;36m14:24:21 CET\u001b[0m\u001b[2;36m \u001b[0mstatus = success                                                   \n"
       ]
      },
      "metadata": {},
      "output_type": "display_data"
     },
-    {
-     "data": {
-      "text/html": [
-       "
             To cancel the simulation, use 'web.abort(task_id)' or              \n",
-       "             'web.delete(task_id)' or abort/delete the task in the web UI.      \n",
-       "             Terminating the Python script will not stop the job running on the \n",
-       "             cloud.                                                             \n",
-       "
\n"
-      ],
-      "text/plain": [
-       "\u001b[2;36m            \u001b[0m\u001b[2;36m \u001b[0mTo cancel the simulation, use \u001b[32m'web.abort\u001b[0m\u001b[32m(\u001b[0m\u001b[32mtask_id\u001b[0m\u001b[32m)\u001b[0m\u001b[32m'\u001b[0m or              \n",
-       "\u001b[2;36m             \u001b[0m\u001b[32m'web.delete\u001b[0m\u001b[32m(\u001b[0m\u001b[32mtask_id\u001b[0m\u001b[32m)\u001b[0m\u001b[32m'\u001b[0m or abort/delete the task in the web UI.      \n",
-       "\u001b[2;36m             \u001b[0mTerminating the Python script will not stop the job running on the \n",
-       "\u001b[2;36m             \u001b[0mcloud.                                                             \n"
-      ]
-     },
-     "metadata": {},
-     "output_type": "display_data"
-    },
-    {
-     "data": {
-      "text/html": [
-       "
18:45:37 CET status = preprocess                                                \n",
-       "
\n"
-      ],
-      "text/plain": [
-       "\u001b[2;36m18:45:37 CET\u001b[0m\u001b[2;36m \u001b[0mstatus = preprocess                                                \n"
-      ]
-     },
-     "metadata": {},
-     "output_type": "display_data"
-    },
-    {
-     "data": {
-      "text/html": [
-       "
\n"
-      ],
-      "text/plain": []
-     },
-     "metadata": {},
-     "output_type": "display_data"
-    },
-    {
-     "data": {
-      "text/html": [
-       "
18:46:08 CET starting up solver                                                 \n",
-       "
\n"
-      ],
-      "text/plain": [
-       "\u001b[2;36m18:46:08 CET\u001b[0m\u001b[2;36m \u001b[0mstarting up solver                                                 \n"
-      ]
-     },
-     "metadata": {},
-     "output_type": "display_data"
-    },
-    {
-     "data": {
-      "text/html": [
-       "
18:46:09 CET running solver                                                     \n",
-       "
\n"
-      ],
-      "text/plain": [
-       "\u001b[2;36m18:46:09 CET\u001b[0m\u001b[2;36m \u001b[0mrunning solver                                                     \n"
-      ]
-     },
-     "metadata": {},
-     "output_type": "display_data"
-    },
-    {
-     "data": {
-      "text/html": [
-       "
19:03:07 CET status = success                                                   \n",
-       "
\n"
-      ],
-      "text/plain": [
-       "\u001b[2;36m19:03:07 CET\u001b[0m\u001b[2;36m \u001b[0mstatus = success                                                   \n"
-      ]
-     },
-     "metadata": {},
-     "output_type": "display_data"
-    },
-    {
-     "data": {
-      "text/html": [
-       "
\n"
-      ],
-      "text/plain": []
-     },
-     "metadata": {},
-     "output_type": "display_data"
-    },
     {
      "data": {
       "application/vnd.jupyter.widget-view+json": {
-       "model_id": "2d76eb1ced444fdeaa796af025765c46",
+       "model_id": "842f59b4e14f4f14bead0a026a5c107e",
        "version_major": 2,
        "version_minor": 0
       },
@@ -1197,11 +1015,11 @@
     {
      "data": {
       "text/html": [
-       "
19:03:14 CET loading simulation from simulation_data.hdf5                       \n",
+       "
14:24:35 CET loading simulation from simulation_data.hdf5                       \n",
        "
\n"
       ],
       "text/plain": [
-       "\u001b[2;36m19:03:14 CET\u001b[0m\u001b[2;36m \u001b[0mloading simulation from simulation_data.hdf5                       \n"
+       "\u001b[2;36m14:24:35 CET\u001b[0m\u001b[2;36m \u001b[0mloading simulation from simulation_data.hdf5                       \n"
       ]
      },
      "metadata": {},
@@ -1223,14 +1041,14 @@
     {
      "data": {
       "text/html": [
-       "
19:03:15 CET Created task 'heat_charge_2025-10-31_19-03-15' with resource_id    \n",
-       "             'hec-9e696d17-8605-4141-884b-118f1933a2d9' and task_type           \n",
+       "
14:24:36 CET Created task 'heat_charge_2025-11-03_14-24-35' with resource_id    \n",
+       "             'hec-dea842e4-b68c-47a1-9f61-f42958e6eb61' and task_type           \n",
        "             'HEAT_CHARGE'.                                                     \n",
        "
\n"
       ],
       "text/plain": [
-       "\u001b[2;36m19:03:15 CET\u001b[0m\u001b[2;36m \u001b[0mCreated task \u001b[32m'heat_charge_2025-10-31_19-03-15'\u001b[0m with resource_id    \n",
-       "\u001b[2;36m             \u001b[0m\u001b[32m'hec-9e696d17-8605-4141-884b-118f1933a2d9'\u001b[0m and task_type           \n",
+       "\u001b[2;36m14:24:36 CET\u001b[0m\u001b[2;36m \u001b[0mCreated task \u001b[32m'heat_charge_2025-11-03_14-24-35'\u001b[0m with resource_id    \n",
+       "\u001b[2;36m             \u001b[0m\u001b[32m'hec-dea842e4-b68c-47a1-9f61-f42958e6eb61'\u001b[0m and task_type           \n",
        "\u001b[2;36m             \u001b[0m\u001b[32m'HEAT_CHARGE'\u001b[0m.                                                     \n"
       ]
      },
@@ -1255,7 +1073,7 @@
     {
      "data": {
       "application/vnd.jupyter.widget-view+json": {
-       "model_id": "a2815324470f43d38282b171a7556812",
+       "model_id": "89d8c924bec0470db65a9ecac4439ea0",
        "version_major": 2,
        "version_minor": 0
       },
@@ -1279,13 +1097,13 @@
     {
      "data": {
       "text/html": [
-       "
19:03:17 CET Estimated FlexCredit cost: 0.025. Minimum cost depends on task     \n",
+       "
14:24:38 CET Estimated FlexCredit cost: 0.025. Minimum cost depends on task     \n",
        "             execution details. Use 'web.real_cost(task_id)' to get the billed  \n",
        "             FlexCredit cost after a simulation run.                            \n",
        "
\n"
       ],
       "text/plain": [
-       "\u001b[2;36m19:03:17 CET\u001b[0m\u001b[2;36m \u001b[0mEstimated FlexCredit cost: \u001b[1;36m0.025\u001b[0m. Minimum cost depends on task     \n",
+       "\u001b[2;36m14:24:38 CET\u001b[0m\u001b[2;36m \u001b[0mEstimated FlexCredit cost: \u001b[1;36m0.025\u001b[0m. Minimum cost depends on task     \n",
        "\u001b[2;36m             \u001b[0mexecution details. Use \u001b[32m'web.real_cost\u001b[0m\u001b[32m(\u001b[0m\u001b[32mtask_id\u001b[0m\u001b[32m)\u001b[0m\u001b[32m'\u001b[0m to get the billed  \n",
        "\u001b[2;36m             \u001b[0mFlexCredit cost after a simulation run.                            \n"
       ]
@@ -1296,11 +1114,11 @@
     {
      "data": {
       "text/html": [
-       "
19:03:19 CET status = success                                                   \n",
+       "
14:24:40 CET status = success                                                   \n",
        "
\n"
       ],
       "text/plain": [
-       "\u001b[2;36m19:03:19 CET\u001b[0m\u001b[2;36m \u001b[0mstatus = success                                                   \n"
+       "\u001b[2;36m14:24:40 CET\u001b[0m\u001b[2;36m \u001b[0mstatus = success                                                   \n"
       ]
      },
      "metadata": {},
@@ -1309,7 +1127,7 @@
     {
      "data": {
       "application/vnd.jupyter.widget-view+json": {
-       "model_id": "f3782c16799441918c1e155300a09580",
+       "model_id": "d0c7bb7eacb941f986fcb1fc6551a8b5",
        "version_major": 2,
        "version_minor": 0
       },
@@ -1333,11 +1151,11 @@
     {
      "data": {
       "text/html": [
-       "
19:03:28 CET loading simulation from simulation_data.hdf5                       \n",
+       "
14:24:46 CET loading simulation from simulation_data.hdf5                       \n",
        "
\n"
       ],
       "text/plain": [
-       "\u001b[2;36m19:03:28 CET\u001b[0m\u001b[2;36m \u001b[0mloading simulation from simulation_data.hdf5                       \n"
+       "\u001b[2;36m14:24:46 CET\u001b[0m\u001b[2;36m \u001b[0mloading simulation from simulation_data.hdf5                       \n"
       ]
      },
      "metadata": {},
@@ -1370,7 +1188,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 63,
+   "execution_count": 18,
    "id": "2eba199a-2240-4ca3-80e9-a417a19e94f4",
    "metadata": {},
    "outputs": [],
@@ -1396,7 +1214,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 64,
+   "execution_count": 19,
    "id": "5f0030ac-e615-4220-bbdd-6b94d3b37395",
    "metadata": {
     "scrolled": true
@@ -1429,7 +1247,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 65,
+   "execution_count": 20,
    "id": "1c952c0a-6827-4c06-b3be-58da75f38b24",
    "metadata": {},
    "outputs": [
@@ -1479,7 +1297,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 85,
+   "execution_count": 21,
    "id": "304d7b5e-cea4-40dc-ac32-ce1e21b0548e",
    "metadata": {},
    "outputs": [
@@ -1535,7 +1353,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 72,
+   "execution_count": 22,
    "id": "232e7ae7-8e93-43eb-83b4-4d8ffbb7140c",
    "metadata": {},
    "outputs": [],
@@ -1563,7 +1381,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 86,
+   "execution_count": 23,
    "id": "bb6040b1-dd56-454b-ab92-8e69e8003e98",
    "metadata": {},
    "outputs": [],
@@ -1575,7 +1393,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 73,
+   "execution_count": 24,
    "id": "dd923284-ccad-48bb-abeb-fd5d3ff560b7",
    "metadata": {},
    "outputs": [],
@@ -1597,7 +1415,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 80,
+   "execution_count": 25,
    "id": "a0f30126-b7ee-4571-a546-f3e76ce29eb3",
    "metadata": {},
    "outputs": [
@@ -1636,7 +1454,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 78,
+   "execution_count": 26,
    "id": "02e34772-5e3e-49bf-bd30-fbeba326df49",
    "metadata": {},
    "outputs": [
@@ -1687,7 +1505,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 76,
+   "execution_count": 27,
    "id": "22fa81b5-1467-40ac-8140-54ced69a3a80",
    "metadata": {},
    "outputs": [],
@@ -1701,7 +1519,7 @@
   },
   {
    "cell_type": "code",
-   "execution_count": 79,
+   "execution_count": 28,
    "id": "9dddde51-7a0c-4be4-916a-9f103b55fd37",
    "metadata": {},
    "outputs": [
@@ -1752,7 +1570,8 @@
   "description": "This notebook focuses on the forward-bias PIN phase shifter, which is the active component of the Mach-Zehnder modulator.",
   "feature_image": "./img/pin_phase_shifter.png",
   "features": [
-   "Heat"
+   "Heat",
+   "Charge"
   ],
   "kernelspec": {
    "display_name": "Python 3 (ipykernel)",
diff --git a/img/pin_phase_shifter.png b/img/pin_phase_shifter.png
new file mode 100644
index 0000000000000000000000000000000000000000..0152b60dbf157961827119e1a884c05e3af0d5ce
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